MAT
e57d_de4b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_578b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_64df
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_2ea8
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_d71b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_993d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential MATe57d_ee16
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_3e79
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_78c8
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_ebce
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_9702
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_bf54
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_b310
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_f2cd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_8179
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_d90a
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_ea0c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_6784
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_e2a6
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_5050
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_1771
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent they are found in most body organs, where they replace diseased or aged cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_c02c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_c06e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_5439
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_a398
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_3226
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_6420
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_2988
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_f190
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_bd8c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_eb57
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_10b2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_882d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent can differentiate into only one type of cell; e.g., skin cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_4ab1
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_c9a9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_8446
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_4fbc
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_8b56
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_0238
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_8a99
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_8186
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_ed06
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_c7f8
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_d65b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_e1fd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_1ae9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_ec1c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_8c3e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_bc37
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_02dd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_09ce
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_4b1a
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_e506
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_7172
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_dcc2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_96ee
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_c3f5
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_814b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_a585
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_bc21
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_cf4e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_8a67
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_4133
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_5945
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_31fd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_933f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_6469
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_f028
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_ee43
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_1eb9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_4c35
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_2c02
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_fbf5
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_6548
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_ffa0
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_a870
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_d268
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_405d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent can differentiate into only one type of cell; e.g., skin cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_1ca8
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_ab90
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_689f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent they are found in most body organs, where they replace diseased or aged cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_1de6
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_f1de
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_d8aa
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_9827
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential MATe57d_8ee9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_d7d7
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent can differentiate into only one type of cell; e.g., skin cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_f507
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_61fd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_e527
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent can differentiate into only one type of cell; e.g., skin cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_ca99
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_2703
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_0775
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_dd92
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_48a6
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_e4bc
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_7aec
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_3ab2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_b89b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_9109
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_5aed
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_3b0d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_58f3
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_ae0f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_c4b7
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_91ef
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_0b9e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_ebb3
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_c327
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent they are found in most body organs, where they replace diseased or aged cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_439b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent can differentiate into only one type of cell; e.g., skin cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_0c5f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_3ec2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_ebb4
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_7fd0
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_97d5
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_60f8
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_2dfd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_d46f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_8eeb
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_0eaa
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_1e16
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_6fa4
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_3019
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_372c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_571d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_5b64
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential MATe57d_63dd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_4a9a
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_5dc5
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_e2a4
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_b278
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_b896
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_6eb0
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_b5e1
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_a8ba
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_d504
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_d7ae
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_a9dd
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_5737
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_9d9f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_b942
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_b090
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_67f3
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_5185
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_8651
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_87b9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_9b4b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_e00d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_3698
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_d74c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells MATe57d_c15b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential MATe57d_349e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent can differentiate into only one type of cell; e.g., skin cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_2c9f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent can differentiate into only one type of cell; e.g., skin cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_2faf
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells MATe57d_5806
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_f196
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_b2ef
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_512b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_d702
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent can differentiate into only one type of cell; e.g., skin cells MATe57d_c88c
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_c350
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent they are found in most body organs, where they replace diseased or aged cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_20f7
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_523a
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_dfa1
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_8dbe
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_e02e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent they are found in most body organs, where they replace diseased or aged cells unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells MATe57d_2b82
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_09ee
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_bc82
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_381f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_c093
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_4a2b
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_13df
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_3423
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent they are found in most body organs, where they replace diseased or aged cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_baa5
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_8042
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells unipotent can differentiate into only one type of cell; e.g., skin cells multipotent they are found in most body organs, where they replace diseased or aged cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_9800
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent can differentiate into only one type of cell; e.g., skin cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ MATe57d_a332
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_fe08
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) MATe57d_eaad
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_f22d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body MATe57d_4e56
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_dd6f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent they are found in most body organs, where they replace diseased or aged cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_b914
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_494e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential multipotent they are found in most body organs, where they replace diseased or aged cells oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast MATe57d_5e29
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_7ec3
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured MATe57d_8d6e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_a2b2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells MATe57d_ddfa
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm multipotent these cells develop into multiple specialized cell types present in a specific tissue or organ pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body MATe57d_e93e
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent derived from the mesoderm, they are widely found throughout the body and can be easily isolated and cultured unipotent the capacity to develop into only one type of cell or tissue; e.g., epidermal stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization MATe57d_dfb9
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells totipotent extremely rare cells that have the ability to form an entire human being including the trophoblast unipotent can differentiate into only one type of cell; e.g., skin cells pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells MATe57d_8012
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent myeloid stem cells are this type because they only produce a few types of cells; e.g., neutrophils and eosinophils MATe57d_3305
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm MATe57d_dc7d
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent in comparison with other types of stem cells, this type has the lowest differentiation potential totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization pluripotent can differentiate into all three basic body layers; e.g., embryonic stem cells multipotent they are found in most body organs, where they replace diseased or aged cells MATe57d_60d2
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells MATe57d_291f
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
pluripotent an undifferentiated cell that has the potential to differentiate into any of the 220 cell-types of the human body oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells totipotent can differentiate into all of the cell types of the body as well as placental cells; e.g., first two zygote cells after fertilization multipotent they are found in most body organs, where they replace diseased or aged cells unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell MATe57d_e9b7
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
unipotent capable of developing into only one type of cell or tissue; e.g., germ line stem cell totipotent can form all the cell types in a body, as well as the extraembryonic or placental cells oligopotent have the ability to transform into a small number of types of cells; e.g., plasma cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body multipotent have the ability to turn into a number of different cells in the body; e.g., bone, muscle, cartilage, or fat cells MATe57d_5458
Match each of the following potencies of stem cells with their corresponding descriptions.
Note: Each choice will be used exactly once.
totipotent can give rise to any of the 220 cell types found in an embryo as well as extra-embryonic cells (placenta) multipotent can differentiate into a limited type of cells; e.g., adult and cord blood stem cells pluripotent cells that can maintain an undifferentiated state indefinitely and can differentiate into most, if NOT all, cells of the body oligopotent can differentiate into only a few cells; e.g., lymphoid or myeloid stem cells unipotent a cell that can differentiate along only one lineage; e.g., germ line stem cells that make sperm