b70a_bd24
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen glucose storage found in skeleton muscle and liver cells amylopectin moderately branched energy storage in plants chitin animal polysaccharide that contains β-glycosidic linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose carbohydrate polymer that used for structural purposes by plants MATb70a_f92a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches chitin carbohydrate polymer that used for structural purposes by some animals amylopectin highly branched polymer of α-linked glucose units found in plants glycogen highly branched polymer of α-linked glucose units found in animals cellulose structural material in plant cell walls MATb70a_7d25
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin carbohydrate polymer that used for structural purposes by some animals amylopectin highly branched polymer of α-linked glucose units found in plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose structural material in plant cell walls glycogen highly branched energy storage in animals MATb70a_137f
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose plant polysaccharide that contains β-glycosidic linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion chitin animal polysaccharide that contains β-glycosidic linkages glycogen storage form of glucose in animals amylopectin moderately branched energy storage in plants MATb70a_7dbd
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants amylopectin highly branched polymer of α-linked glucose units found in plants glycogen glucose storage found in skeleton muscle and liver cells cellulose structural form of glucose in plants chitin major structural component of arthopod (e.g., insects) exoskeletons MATb70a_e990
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals amylose unbranched storage form of glucose in plants chitin polymer of β-linked glucose units found in some animals cellulose structural form of glucose in plants amylopectin highly branched polymer of α-linked glucose units found in plants MATb70a_de4a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin polymer of β-linked glucose units found in some animals glycogen animal polysaccharide that contains α-glycosidic linkages cellulose major structural component of cell walls amylose linear chain of glucose with α-glycosidic linkages and no branches amylopectin highly branched polymer of α-linked glucose units found in plants MATb70a_bcc8
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen glucose storage found in skeleton muscle and liver cells chitin animal polysaccharide that contains β-glycosidic linkages amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose unbranched storage form of glucose in plants cellulose carbohydrate polymer that used for structural purposes by plants MATb70a_8597
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose plant polysaccharide that contains β-glycosidic linkages chitin structural form of glucose in some animals glycogen animal polysaccharide that contains α-glycosidic linkages amylose unbranched storage form of glucose in plants amylopectin moderately branched energy storage in plants MATb70a_7dcf
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose carbohydrate polymer that used for structural purposes by plants glycogen highly branched energy storage in animals amylopectin moderately branched energy storage in plants MATb70a_bddb
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin moderately branched energy storage in plants chitin major structural component of arthopod (e.g., insects) exoskeletons cellulose plant polysaccharide that contains β-glycosidic linkages glycogen storage form of glucose in animals amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_ca2c
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants amylopectin branched storage form of glucose in plants glycogen storage form of glucose in animals chitin animal polysaccharide that contains β-glycosidic linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_3e39
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals amylose linear chain of glucose with α-glycosidic linkages and no branches chitin polymer of β-linked glucose units found in some animals cellulose polymer of β-linked glucose units found in plants glycogen glucose storage found in skeleton muscle and liver cells MATb70a_6a4a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin animal polysaccharide that contains β-glycosidic linkages cellulose structural form of glucose in plants amylopectin branched storage form of glucose in plants amylose linear chain of glucose with α-glycosidic linkages and no branches glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_894d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals amylopectin moderately branched energy storage in plants chitin carbohydrate polymer that used for structural purposes by some animals amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_f843
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose plant polysaccharide that contains β-glycosidic linkages chitin major structural component of arthopod (e.g., insects) exoskeletons amylopectin moderately branched energy storage in plants glycogen highly branched polymer of α-linked glucose units found in animals amylose unbranched storage form of glucose in plants MATb70a_0629
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants chitin polymer of β-linked glucose units found in some animals amylose unbranched storage form of glucose in plants glycogen highly branched polymer of α-linked glucose units found in animals amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals MATb70a_100d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen highly branched polymer of α-linked glucose units found in animals amylose unbranched energy storage in plants cellulose major structural component of cell walls amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_1821
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches chitin polymer of β-linked glucose units found in some animals glycogen animal polysaccharide that contains α-glycosidic linkages cellulose carbohydrate polymer that used for structural purposes by plants amylopectin highly branched polymer of α-linked glucose units found in plants MATb70a_06e3
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural form of glucose in plants amylopectin highly branched polymer of α-linked glucose units found in plants glycogen highly branched energy storage in animals chitin structural form of glucose in some animals amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_36cf
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched polymer of α-linked glucose units found in animals chitin structural material in arthropods and fungi cellulose structural form of glucose in plants amylopectin highly branched polymer of α-linked glucose units found in plants amylose unbranched storage form of glucose in plants MATb70a_8bf1
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose unbranched storage form of glucose in plants chitin structural form of glucose in some animals glycogen storage form of glucose in animals cellulose polymer of β-linked glucose units found in plants MATb70a_22d2
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural form of glucose in plants amylose unbranched storage form of glucose in plants chitin structural material in arthropods and fungi amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_b2fb
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals amylose unbranched storage form of glucose in plants chitin animal polysaccharide that contains β-glycosidic linkages glycogen glucose storage found in skeleton muscle and liver cells MATb70a_e264
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin moderately branched energy storage in plants glycogen animal polysaccharide that contains α-glycosidic linkages chitin polymer of β-linked glucose units found in some animals cellulose polymer of β-linked glucose units found in plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_706b
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals amylose unbranched storage form of glucose in plants cellulose plant polysaccharide that contains β-glycosidic linkages amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals chitin polymer of β-linked glucose units found in some animals MATb70a_ce72
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants glycogen highly branched polymer of α-linked glucose units found in animals amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose linear chain of glucose with α-glycosidic linkages and no branches chitin major structural component of arthopod (e.g., insects) exoskeletons MATb70a_fc8a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin moderately branched energy storage in plants cellulose polymer of β-linked glucose units found in plants chitin animal polysaccharide that contains β-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches glycogen highly branched polymer of α-linked glucose units found in animals MATb70a_781d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal polysaccharide that contains α-glycosidic linkages amylose unbranched energy storage in plants amylopectin highly branched polymer of α-linked glucose units found in plants cellulose structural form of glucose in plants chitin major structural component of arthopod (e.g., insects) exoskeletons MATb70a_1582
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen glucose storage found in skeleton muscle and liver cells amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose polymer of β-linked glucose units found in plants chitin polymer of β-linked glucose units found in some animals amylopectin branched storage form of glucose in plants MATb70a_963d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin moderately branched energy storage in plants cellulose polymer of β-linked glucose units found in plants amylose linear chain of glucose with α-glycosidic linkages and no branches chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_5bd2
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin structural form of glucose in some animals amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose polymer of β-linked glucose units found in plants glycogen animal polysaccharide that contains α-glycosidic linkages amylose unbranched storage form of glucose in plants MATb70a_26fb
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants glycogen highly branched energy storage in animals cellulose structural material in plant cell walls amylopectin moderately branched energy storage in plants chitin structural material in arthropods and fungi MATb70a_2406
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched polymer of α-linked glucose units found in animals chitin carbohydrate polymer that used for structural purposes by some animals amylopectin highly branched polymer of α-linked glucose units found in plants cellulose structural form of glucose in plants amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_ea03
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin animal polysaccharide that contains β-glycosidic linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages glycogen highly branched energy storage in animals cellulose polymer of β-linked glucose units found in plants MATb70a_eb6a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin animal polysaccharide that contains β-glycosidic linkages cellulose carbohydrate polymer that used for structural purposes by plants amylose linear chain of glucose with α-glycosidic linkages and no branches glycogen highly branched polymer of α-linked glucose units found in animals amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals MATb70a_227a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural material in plant cell walls glycogen glucose storage found in skeleton muscle and liver cells amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals amylose unbranched storage form of glucose in plants chitin structural material in arthropods and fungi MATb70a_804c
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals chitin structural form of glucose in some animals amylose unbranched storage form of glucose in plants cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_29e0
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen glucose storage found in skeleton muscle and liver cells cellulose polymer of β-linked glucose units found in plants amylopectin branched storage form of glucose in plants chitin structural material in arthropods and fungi amylose unbranched storage form of glucose in plants MATb70a_fbb3
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin structural form of glucose in some animals amylose unbranched storage form of glucose in plants glycogen storage form of glucose in animals cellulose plant polysaccharide that contains β-glycosidic linkages amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals MATb70a_cd15
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose linear chain of glucose with α-glycosidic linkages and no branches chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose structural material in plant cell walls MATb70a_c64d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin structural material in arthropods and fungi amylose unbranched storage form of glucose in plants cellulose major structural component of cell walls glycogen glucose storage found in skeleton muscle and liver cells amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_6f75
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages chitin animal polysaccharide that contains β-glycosidic linkages amylose unbranched energy storage in plants glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose carbohydrate polymer that used for structural purposes by plants MATb70a_da94
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose plant polysaccharide that contains β-glycosidic linkages glycogen highly branched energy storage in animals chitin structural form of glucose in some animals amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_5d32
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural material in plant cell walls chitin animal polysaccharide that contains β-glycosidic linkages amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose unbranched storage form of glucose in plants glycogen glucose storage found in skeleton muscle and liver cells MATb70a_74b9
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals chitin major structural component of arthopod (e.g., insects) exoskeletons cellulose plant polysaccharide that contains β-glycosidic linkages amylose unbranched energy storage in plants glycogen animal polysaccharide that contains α-glycosidic linkages MATb70a_cbd5
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin animal polysaccharide that contains β-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose carbohydrate polymer that used for structural purposes by plants glycogen glucose storage found in skeleton muscle and liver cells amylopectin branched storage form of glucose in plants MATb70a_801a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose structural form of glucose in plants amylopectin branched storage form of glucose in plants chitin structural material in arthropods and fungi glycogen highly branched polymer of α-linked glucose units found in animals MATb70a_18a6
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen highly branched energy storage in animals amylopectin moderately branched energy storage in plants cellulose plant polysaccharide that contains β-glycosidic linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_912f
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylopectin moderately branched energy storage in plants chitin animal polysaccharide that contains β-glycosidic linkages cellulose major structural component of cell walls amylose unbranched energy storage in plants MATb70a_d9e8
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose also know as resistant starch, because it has no branches and it is resistant to digestion glycogen highly branched energy storage in animals amylopectin highly branched polymer of α-linked glucose units found in plants chitin major structural component of arthopod (e.g., insects) exoskeletons cellulose major structural component of cell walls MATb70a_7768
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages glycogen highly branched polymer of α-linked glucose units found in animals chitin carbohydrate polymer that used for structural purposes by some animals cellulose polymer of β-linked glucose units found in plants MATb70a_177a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons amylopectin branched storage form of glucose in plants glycogen highly branched polymer of α-linked glucose units found in animals cellulose polymer of β-linked glucose units found in plants amylose unbranched storage form of glucose in plants MATb70a_f290
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen highly branched energy storage in animals cellulose structural form of glucose in plants MATb70a_071a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal polysaccharide that contains α-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches chitin polymer of β-linked glucose units found in some animals cellulose structural material in plant cell walls amylopectin highly branched polymer of α-linked glucose units found in plants MATb70a_08cb
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose plant polysaccharide that contains β-glycosidic linkages chitin animal polysaccharide that contains β-glycosidic linkages amylopectin branched storage form of glucose in plants MATb70a_74a5
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen storage form of glucose in animals amylopectin branched storage form of glucose in plants chitin structural form of glucose in some animals amylose unbranched storage form of glucose in plants cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_a24e
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose major structural component of cell walls amylopectin highly branched polymer of α-linked glucose units found in plants chitin animal polysaccharide that contains β-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches glycogen highly branched energy storage in animals MATb70a_b677
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural form of glucose in plants amylopectin moderately branched energy storage in plants chitin polymer of β-linked glucose units found in some animals glycogen highly branched polymer of α-linked glucose units found in animals amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_976b
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages chitin animal polysaccharide that contains β-glycosidic linkages glycogen highly branched polymer of α-linked glucose units found in animals cellulose plant polysaccharide that contains β-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_1961
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin structural form of glucose in some animals amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose plant polysaccharide that contains β-glycosidic linkages glycogen highly branched polymer of α-linked glucose units found in animals amylopectin moderately branched energy storage in plants MATb70a_c6ac
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen highly branched polymer of α-linked glucose units found in animals amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_c6b1
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched storage form of glucose in plants chitin carbohydrate polymer that used for structural purposes by some animals glycogen storage form of glucose in animals amylopectin branched storage form of glucose in plants cellulose major structural component of cell walls MATb70a_92d7
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants amylopectin highly branched polymer of α-linked glucose units found in plants glycogen animal polysaccharide that contains α-glycosidic linkages chitin polymer of β-linked glucose units found in some animals cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_944c
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin branched storage form of glucose in plants chitin structural material in arthropods and fungi cellulose polymer of β-linked glucose units found in plants glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_208c
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen glucose storage found in skeleton muscle and liver cells cellulose polymer of β-linked glucose units found in plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion chitin carbohydrate polymer that used for structural purposes by some animals amylopectin moderately branched energy storage in plants MATb70a_4f83
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose plant polysaccharide that contains β-glycosidic linkages glycogen animal polysaccharide that contains α-glycosidic linkages amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages chitin animal polysaccharide that contains β-glycosidic linkages amylose unbranched storage form of glucose in plants MATb70a_6f58
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants chitin major structural component of arthopod (e.g., insects) exoskeletons amylose also know as resistant starch, because it has no branches and it is resistant to digestion glycogen highly branched energy storage in animals amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_71d8
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched storage form of glucose in plants glycogen animal polysaccharide that contains α-glycosidic linkages chitin animal polysaccharide that contains β-glycosidic linkages amylopectin moderately branched energy storage in plants cellulose structural material in plant cell walls MATb70a_00cf
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin branched storage form of glucose in plants glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages chitin carbohydrate polymer that used for structural purposes by some animals amylose unbranched storage form of glucose in plants cellulose major structural component of cell walls MATb70a_4509
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin branched storage form of glucose in plants glycogen highly branched polymer of α-linked glucose units found in animals amylose unbranched energy storage in plants chitin major structural component of arthopod (e.g., insects) exoskeletons cellulose carbohydrate polymer that used for structural purposes by plants MATb70a_325e
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants glycogen animal polysaccharide that contains α-glycosidic linkages cellulose major structural component of cell walls chitin polymer of β-linked glucose units found in some animals amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_4fc0
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin moderately branched energy storage in plants glycogen animal polysaccharide that contains α-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose structural material in plant cell walls chitin carbohydrate polymer that used for structural purposes by some animals MATb70a_9e56
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural material in plant cell walls chitin animal polysaccharide that contains β-glycosidic linkages amylose unbranched energy storage in plants glycogen storage form of glucose in animals amylopectin branched storage form of glucose in plants MATb70a_9586
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals cellulose carbohydrate polymer that used for structural purposes by plants amylose linear chain of glucose with α-glycosidic linkages and no branches chitin structural material in arthropods and fungi MATb70a_b4d7
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals glycogen highly branched polymer of α-linked glucose units found in animals chitin structural form of glucose in some animals amylose unbranched energy storage in plants cellulose polymer of β-linked glucose units found in plants MATb70a_ba34
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion glycogen highly branched energy storage in animals chitin polymer of β-linked glucose units found in some animals cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_c32b
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose unbranched energy storage in plants chitin polymer of β-linked glucose units found in some animals glycogen animal polysaccharide that contains α-glycosidic linkages cellulose structural form of glucose in plants amylopectin branched storage form of glucose in plants MATb70a_8599
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages chitin structural material in arthropods and fungi amylopectin moderately branched energy storage in plants cellulose carbohydrate polymer that used for structural purposes by plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_1374
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched polymer of α-linked glucose units found in animals amylose also know as resistant starch, because it has no branches and it is resistant to digestion cellulose structural form of glucose in plants amylopectin moderately branched energy storage in plants chitin polymer of β-linked glucose units found in some animals MATb70a_7fa5
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen storage form of glucose in animals amylopectin moderately branched energy storage in plants chitin carbohydrate polymer that used for structural purposes by some animals amylose linear chain of glucose with α-glycosidic linkages and no branches cellulose plant polysaccharide that contains β-glycosidic linkages MATb70a_2236
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals amylose unbranched energy storage in plants glycogen highly branched energy storage in animals chitin structural form of glucose in some animals MATb70a_4903
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches chitin major structural component of arthopod (e.g., insects) exoskeletons glycogen highly branched polymer of α-linked glucose units found in animals cellulose structural form of glucose in plants amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_7e23
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals chitin structural form of glucose in some animals amylopectin branched storage form of glucose in plants cellulose structural form of glucose in plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_6040
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen animal polysaccharide that contains α-glycosidic linkages chitin polymer of β-linked glucose units found in some animals cellulose plant polysaccharide that contains β-glycosidic linkages amylose unbranched energy storage in plants amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_ecf7
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose carbohydrate polymer that used for structural purposes by plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion chitin structural form of glucose in some animals MATb70a_1a4f
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin carbohydrate polymer that used for structural purposes by some animals amylose linear chain of glucose with α-glycosidic linkages and no branches amylopectin branched storage form of glucose in plants glycogen glucose storage found in skeleton muscle and liver cells cellulose polymer of β-linked glucose units found in plants MATb70a_9432
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylose linear chain of glucose with α-glycosidic linkages and no branches amylopectin branched storage form of glucose in plants glycogen highly branched polymer of α-linked glucose units found in animals chitin major structural component of arthopod (e.g., insects) exoskeletons cellulose structural material in plant cell walls MATb70a_e2f9
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen storage form of glucose in animals amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose major structural component of cell walls chitin structural material in arthropods and fungi amylose also know as resistant starch, because it has no branches and it is resistant to digestion MATb70a_bed9
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen highly branched energy storage in animals chitin polymer of β-linked glucose units found in some animals cellulose polymer of β-linked glucose units found in plants amylopectin highly branched polymer of α-linked glucose units found in plants amylose unbranched storage form of glucose in plants MATb70a_488a
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose carbohydrate polymer that used for structural purposes by plants chitin structural material in arthropods and fungi amylopectin highly branched glucose polymer found in plants that is readily digested by humans and other mammals glycogen highly branched energy storage in animals amylose linear chain of glucose with α-glycosidic linkages and no branches MATb70a_5e50
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose carbohydrate polymer that used for structural purposes by plants chitin animal polysaccharide that contains β-glycosidic linkages amylopectin moderately branched energy storage in plants amylose unbranched energy storage in plants glycogen highly branched polymer of α-linked glucose units found in animals MATb70a_0da8
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
glycogen storage form of glucose in animals chitin major structural component of arthopod (e.g., insects) exoskeletons amylose unbranched energy storage in plants amylopectin branched storage form of glucose in plants cellulose major structural component of cell walls MATb70a_7ac5
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants glycogen highly branched energy storage in animals amylopectin branched storage form of glucose in plants amylose also know as resistant starch, because it has no branches and it is resistant to digestion chitin structural form of glucose in some animals MATb70a_245d
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages cellulose structural form of glucose in plants glycogen animal polysaccharide that contains α-glycosidic linkages amylose linear chain of glucose with α-glycosidic linkages and no branches chitin major structural component of arthopod (e.g., insects) exoskeletons MATb70a_2fba
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
amylopectin highly branched polymer of α-linked glucose units found in plants amylose unbranched storage form of glucose in plants chitin animal polysaccharide that contains β-glycosidic linkages glycogen glucose storage found in skeleton muscle and liver cells cellulose structural material in plant cell walls MATb70a_2464
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose polymer of β-linked glucose units found in plants glycogen highly branched polymer of α-linked glucose units found in animals chitin structural form of glucose in some animals amylose also know as resistant starch, because it has no branches and it is resistant to digestion amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages MATb70a_7547
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
chitin major structural component of arthopod (e.g., insects) exoskeletons amylose unbranched storage form of glucose in plants cellulose polymer of β-linked glucose units found in plants amylopectin branched storage form of glucose in plants glycogen highly branched polymer of α-linked glucose units found in animals MATb70a_229b
Match each of the following polysaccharides with their corresponding descriptions.
Note: Each choice will be used exactly once.
cellulose structural form of glucose in plants chitin major structural component of arthopod (e.g., insects) exoskeletons amylopectin plant molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages amylose also know as resistant starch, because it has no branches and it is resistant to digestion glycogen animal molecule composed of linear chains of α-(1,4) D-glucose residues connected through α-(1,6) linkages