9b51_e689
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase size-exclusion column (SEC) ability to separate protein samples by size using porous particles reverse phase column (RPC) for one type, gradients of increasing organic solvent concentration are used to affect separations affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand MAT9b51_73e2
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) for one type, gradients of increasing organic solvent concentration are used to affect separations affinity column (AC) separation based on proteins binding to a ligand gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_b9ae
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin MAT9b51_0da0
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_e67c
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin reverse phase column (RPC) hydrophobic-based separations for protein characterization affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_d588
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_dff9
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) ability to separate protein samples by size using porous particles affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin hydrophobic interaction column (HIC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_8f1d
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) a specific ligand is attached to the particle resin in the column ion exchange column (IEX) separation method essentially based on the net charge of the protein gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_8c58
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase reverse phase column (RPC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it affinity column (AC) separation based on proteins binding to a ligand size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_0479
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand MAT9b51_42bd
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) separates proteins with differences in surface charge MAT9b51_ea48
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger affinity column (AC) separation based on proteins binding to a ligand size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column MAT9b51_43c8
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) separation based on proteins binding to a ligand hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin MAT9b51_6393
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger reverse phase column (RPC) hydrophobic-based separations for protein characterization affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_5371
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) ability to separate protein samples by size using porous particles reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences affinity column (AC) a specific ligand is attached to the particle resin in the column ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_3eca
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_5169
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_1efb
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents affinity column (AC) separation based on proteins binding to a ligand gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_6d88
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences MAT9b51_009e
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase affinity column (AC) separation based on proteins binding to a ligand reverse phase column (RPC) hydrophobic-based separations for protein characterization gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_bb38
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations MAT9b51_7442
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separation method essentially based on the net charge of the protein affinity column (AC) a specific ligand is attached to the particle resin in the column size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_3a50
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separation method essentially based on the net charge of the protein hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences gel filtration column (GFC) size separation in a column filled with porous beads affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand MAT9b51_ae3f
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles reverse phase column (RPC) hydrophobic-based separations for protein characterization ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_6560
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) separation method essentially based on the net charge of the protein hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_a413
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_b1ad
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest reverse phase column (RPC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column MAT9b51_d5a9
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger gel filtration column (GFC) size separation in a column filled with porous beads MAT9b51_100c
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin affinity column (AC) a specific ligand is attached to the particle resin in the column reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_bca6
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column MAT9b51_626e
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) separation method essentially based on the net charge of the protein hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_5ef5
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins size-exclusion column (SEC) size separation in a column filled with porous beads ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity MAT9b51_900e
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity size-exclusion column (SEC) size separation in a column filled with porous beads affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_8aca
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin size-exclusion column (SEC) size separation in a column filled with porous beads reverse phase column (RPC) hydrophobic-based separations for protein characterization MAT9b51_c4b6
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin MAT9b51_f958
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) size separation in a column filled with porous beads ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin hydrophobic interaction column (HIC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity affinity column (AC) a specific ligand is attached to the particle resin in the column MAT9b51_33db
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it size-exclusion column (SEC) size separation in a column filled with porous beads ion exchange column (IEX) separation method essentially based on the net charge of the protein affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand MAT9b51_f15b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents affinity column (AC) a specific ligand is attached to the particle resin in the column ion exchange column (IEX) separation method essentially based on the net charge of the protein gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_9bd9
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger MAT9b51_e25a
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger reverse phase column (RPC) for one type, gradients of increasing organic solvent concentration are used to affect separations MAT9b51_7eb3
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles reverse phase column (RPC) hydrophobic-based separations for protein characterization affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_49f4
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) separates proteins with differences in surface charge size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_838e
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) a specific ligand is attached to the particle resin in the column MAT9b51_26fe
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations MAT9b51_c4e6
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger reverse phase column (RPC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it MAT9b51_e54b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separates proteins with differences in surface charge affinity column (AC) separation based on proteins binding to a ligand reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_c320
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin MAT9b51_5308
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences MAT9b51_9963
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) separation based on proteins binding to a ligand gel filtration column (GFC) ability to separate protein samples by size using porous particles hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin MAT9b51_e1d0
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) size separation in a column filled with porous beads reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger affinity column (AC) separation based on proteins binding to a ligand MAT9b51_46fe
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) separation method essentially based on the net charge of the protein hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization affinity column (AC) separation based on proteins binding to a ligand MAT9b51_93b0
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separation method essentially based on the net charge of the protein size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) separation based on proteins binding to a ligand reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_5927
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin affinity column (AC) a specific ligand is attached to the particle resin in the column reverse phase column (RPC) hydrophobic-based separations for protein characterization gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_e72b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) a specific ligand is attached to the particle resin in the column hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity MAT9b51_3609
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin affinity column (AC) a specific ligand is attached to the particle resin in the column hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents MAT9b51_34f6
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) ability to separate protein samples by size using porous particles ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins reverse phase column (RPC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents MAT9b51_e143
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand ion exchange column (IEX) separates proteins with differences in surface charge MAT9b51_af6f
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_abb4
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger hydrophobic interaction column (HIC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents MAT9b51_e116
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin MAT9b51_4054
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles affinity column (AC) a specific ligand is attached to the particle resin in the column reverse phase column (RPC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents ion exchange column (IEX) separates proteins with differences in surface charge MAT9b51_fb64
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_5873
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins MAT9b51_f61b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) hydrophobic-based separations for protein characterization affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand ion exchange column (IEX) separates proteins with differences in surface charge gel filtration column (GFC) size separation in a column filled with porous beads MAT9b51_236e
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) separates proteins with differences in surface charge MAT9b51_5fe7
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger MAT9b51_2e5a
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column MAT9b51_c4ef
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) a specific ligand is attached to the particle resin in the column hydrophobic interaction column (HIC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity gel filtration column (GFC) ability to separate protein samples by size using porous particles ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger MAT9b51_491b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) separation method essentially based on the net charge of the protein size-exclusion column (SEC) size separation in a column filled with porous beads affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand MAT9b51_54d5
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) separates proteins with differences in surface charge affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_4ab7
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin affinity column (AC) a specific ligand is attached to the particle resin in the column gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_bdd0
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) a specific ligand is attached to the particle resin in the column ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it MAT9b51_bff3
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) ability to separate protein samples by size using porous particles affinity column (AC) separation based on proteins binding to a ligand hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger MAT9b51_714c
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand reverse phase column (RPC) separates by surface hydrophobicity, particle binding is controlled by salt concentration and/or organic solvents MAT9b51_e76c
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger MAT9b51_5533
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it size-exclusion column (SEC) ability to separate protein samples by size using porous particles ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand MAT9b51_0040
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) size separation in a column filled with porous beads ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization affinity column (AC) separation based on proteins binding to a ligand MAT9b51_5306
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin MAT9b51_dc1b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase size-exclusion column (SEC) ability to separate protein samples by size using porous particles affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand reverse phase column (RPC) hydrophobic-based separations for protein characterization MAT9b51_dcc0
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger gel filtration column (GFC) size separation in a column filled with porous beads affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity MAT9b51_db17
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) a specific ligand is attached to the particle resin in the column reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity ion exchange column (IEX) separates proteins with differences in surface charge MAT9b51_b627
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
reverse phase column (RPC) technique based on the ability to separate proteins based on relative hydrophobic differences affinity column (AC) separation based on proteins binding to a ligand ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_9824
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) separation based on proteins binding to a ligand hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_fb33
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences ion exchange column (IEX) separates proteins with differences in surface charge affinity column (AC) separation based on proteins binding to a ligand MAT9b51_0bb7
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separates proteins with differences in surface charge affinity column (AC) ligand-attached beads bind directly to the protein of interest gel filtration column (GFC) ability to separate protein samples by size using porous particles hydrophobic interaction column (HIC) for one type, gradients of increasing organic solvent concentration are used to affect separations MAT9b51_5a48
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins size-exclusion column (SEC) separates molecules by differences in size as they pass through a porous particles in a column hydrophobic interaction column (HIC) hydrophobic-based separations for protein characterization MAT9b51_fba6
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_9a23
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separates proteins with differences in surface charge affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins reverse phase column (RPC) for one type, a decreasing salt gradient is used to separate samples in order of increasing hydrophobicity size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles MAT9b51_5a8c
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads ion exchange column (IEX) separation method essentially based on the net charge of the protein reverse phase column (RPC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it affinity column (AC) separation based on proteins binding to a ligand MAT9b51_5adc
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest ion exchange column (IEX) charged proteins interact with an oppositely charged chromatography particle resin size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles reverse phase column (RPC) hydrophobic-based separations for protein characterization MAT9b51_3402
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger gel filtration column (GFC) ability to separate protein samples by size using porous particles MAT9b51_d334
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles reverse phase column (RPC) separates proteins according to differences in their surface hydrophobicity ion exchange column (IEX) above its isoelectric point (pI), a protein will bind to a positively charged anion exchanger affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand MAT9b51_6d16
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) only liquid chromatography method where molecules do NOT bind to the chromatography particles hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) separation method essentially based on the net charge of the protein MAT9b51_6016
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) size separation in a column filled with porous beads hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it affinity column (AC) relies on the specific and reversible binding of a protein to a matrix-bound ligand ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin MAT9b51_0e2f
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
ion exchange column (IEX) separation method essentially based on the net charge of the protein hydrophobic interaction column (HIC) for one type, high salt concentration enhances the interaction, whereas low salt concentrations weaken it gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) a specific ligand is attached to the particle resin in the column MAT9b51_3a86
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
gel filtration column (GFC) separates molecules by differences in size as they pass through a porous particles in a column affinity column (AC) works using resin-attached ligands to grab hold of the corresponding proteins hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences ion exchange column (IEX) separate by charge, particle binding is controlled by pH of the solvent mobile phase MAT9b51_512b
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) separates proteins on the basis of a reversible interaction between the target protein and a specific ligand ion exchange column (IEX) relies on charge-charge interactions between the proteins in your sample and the charges on the particle resin size-exclusion column (SEC) size separation in a column filled with porous beads hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences MAT9b51_1d82
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) a specific ligand is attached to the particle resin in the column ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger hydrophobic interaction column (HIC) technique based on the ability to separate proteins based on relative hydrophobic differences size-exclusion column (SEC) size separation in a column filled with porous beads MAT9b51_9e17
Match each of the following types of column chromatography with their corresponding descriptions.
Note: Each choice will be used exactly once.
affinity column (AC) ligand-attached beads bind directly to the protein of interest reverse phase column (RPC) hydrophobic-based separations for protein characterization size-exclusion column (SEC) only liquid chromatography method where molecules do NOT bind to the chromatography particles ion exchange column (IEX) below its isoelectric point (pI), a protein will bind to a negatively charged cation exchanger