6c87_be6c
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
allosteric (ALLO) Incorrect lock and key (LK) Incorrect competitive (CI) Incorrect sequential (KNF) Correct concerted (MWC) Incorrect MC37b7_a79a
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
concerted (MWC) Correct equilibrium (EQ) Incorrect Michaelis-Menten (MM) Incorrect lock and key (LK) Incorrect sequential (KNF) Incorrect MC6c87_edb7
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
equilibrium (EQ) Incorrect Michaelis-Menten (MM) Incorrect concerted (MWC) Incorrect sequential (KNF) Correct cooperative (COOP) Incorrect MC6c87_d224
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
sequential (KNF) Correct Michaelis-Menten (MM) Incorrect competitive (CI) Incorrect concerted (MWC) Incorrect lock and key (LK) Incorrect MC37b7_14c6
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
equilibrium (EQ) Incorrect cooperative (COOP) Incorrect concerted (MWC) Correct sequential (KNF) Incorrect Michaelis-Menten (MM) Incorrect MC37b7_8e6f
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
Michaelis-Menten (MM) Incorrect lock and key (LK) Incorrect concerted (MWC) Correct competitive (CI) Incorrect sequential (KNF) Incorrect MC37b7_f167
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
sequential (KNF) Incorrect cooperative (COOP) Incorrect concerted (MWC) Correct induced fit (IF) Incorrect equilibrium (EQ) Incorrect MC6c87_74d1
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
concerted (MWC) Incorrect sequential (KNF) Correct cooperative (COOP) Incorrect equilibrium (EQ) Incorrect induced fit (IF) Incorrect MC6c87_cdfc
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
Michaelis-Menten (MM) Incorrect equilibrium (EQ) Incorrect concerted (MWC) Incorrect lock and key (LK) Incorrect sequential (KNF) Correct MC6c87_d567
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model allows a mixture of states in an allosteric enzyme and each individual subunit can be in either the T or the R state.
Which allosteric model is being described above?
concerted (MWC) Incorrect competitive (CI) Incorrect Hill (HC) Incorrect sequential (KNF) Correct allosteric (ALLO) Incorrect MC37b7_4b1d
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
allosteric (ALLO) Incorrect concerted (MWC) Correct sequential (KNF) Incorrect lock and key (LK) Incorrect competitive (CI) Incorrect MC37b7_6b0d
Allosteric enzymes are regulated by conformational changes between the T (tense, low-affinity) and R (relaxed, high-affinity) states. Two classical models describe how these transitions occur across subunits.
The model states that all subunits in an allosteric enzyme must be in either the T or the R state; there cannot be hybrids.
Which allosteric model is being described above?
concerted (MWC) Correct competitive (CI) Incorrect sequential (KNF) Incorrect allosteric (ALLO) Incorrect Hill (HC) Incorrect