1 Headpiece is a peripheral membrane protein complex
2 Tailpiece is a peripheral membrane protein complex
3 Headpiece is a central membrane protein complex
4 An integral membrane protein complex that forms the channel
Explanation:
\({{\rm{F}}_{\rm{0}}}\) is an integral membrane protein complex that forms the channel through which protons cross the inner membrane.
BIOXI14: RESPIRATION IN PLANTS
337545
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because
1 There is a change in the permeability of the inner mitochondrial membrane toward adenosine diphosphate (ADP)
2 A proton gradient forms across the inner membrane
3 High energy bonds are formed in mitochondrial proteins
4 ADP is pumped out of the matrix into the intermembrane space
Explanation:
Proton motive force develop between perimitochondrial space and matrix across inner mitochondrial membrane.
AIPMT - 2008
BIOXI14: RESPIRATION IN PLANTS
337546
Oxidative phosphorylation is
1 Oxidation of phosphate group in ATP.
2 Formation of ATP by energy released from electrons removed during substrate oxidation.
3 Formation of ATP by transfer of phosphate group from a substrate to ADP.
4 Addition of phosphate group to ATP.
Explanation:
Oxidative phosphorylation is the process in which ATP is formed as a result of the transfer of electrons from NADH or \(\mathrm{FADH}_{2}\) to \(\mathrm{O}_{2}\) by a series of electron carriers. This process, which takes place in mitochondria, is the major source of ATP in aerobic organisms.
NEET - 2016
BIOXI14: RESPIRATION IN PLANTS
337547
In the given diagram, label ' \(A\) ' represents
1 Complex I
2 Complex II
3 Complex III
4 Complex IV
Explanation:
In the given diagram A represents Complex-IV.
BIOXI14: RESPIRATION IN PLANTS
337548
The given diagram represents part of ETS. Which of the following is responsible for this reaction
1 Headpiece is a peripheral membrane protein complex
2 Tailpiece is a peripheral membrane protein complex
3 Headpiece is a central membrane protein complex
4 An integral membrane protein complex that forms the channel
Explanation:
\({{\rm{F}}_{\rm{0}}}\) is an integral membrane protein complex that forms the channel through which protons cross the inner membrane.
BIOXI14: RESPIRATION IN PLANTS
337545
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because
1 There is a change in the permeability of the inner mitochondrial membrane toward adenosine diphosphate (ADP)
2 A proton gradient forms across the inner membrane
3 High energy bonds are formed in mitochondrial proteins
4 ADP is pumped out of the matrix into the intermembrane space
Explanation:
Proton motive force develop between perimitochondrial space and matrix across inner mitochondrial membrane.
AIPMT - 2008
BIOXI14: RESPIRATION IN PLANTS
337546
Oxidative phosphorylation is
1 Oxidation of phosphate group in ATP.
2 Formation of ATP by energy released from electrons removed during substrate oxidation.
3 Formation of ATP by transfer of phosphate group from a substrate to ADP.
4 Addition of phosphate group to ATP.
Explanation:
Oxidative phosphorylation is the process in which ATP is formed as a result of the transfer of electrons from NADH or \(\mathrm{FADH}_{2}\) to \(\mathrm{O}_{2}\) by a series of electron carriers. This process, which takes place in mitochondria, is the major source of ATP in aerobic organisms.
NEET - 2016
BIOXI14: RESPIRATION IN PLANTS
337547
In the given diagram, label ' \(A\) ' represents
1 Complex I
2 Complex II
3 Complex III
4 Complex IV
Explanation:
In the given diagram A represents Complex-IV.
BIOXI14: RESPIRATION IN PLANTS
337548
The given diagram represents part of ETS. Which of the following is responsible for this reaction
1 Headpiece is a peripheral membrane protein complex
2 Tailpiece is a peripheral membrane protein complex
3 Headpiece is a central membrane protein complex
4 An integral membrane protein complex that forms the channel
Explanation:
\({{\rm{F}}_{\rm{0}}}\) is an integral membrane protein complex that forms the channel through which protons cross the inner membrane.
BIOXI14: RESPIRATION IN PLANTS
337545
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because
1 There is a change in the permeability of the inner mitochondrial membrane toward adenosine diphosphate (ADP)
2 A proton gradient forms across the inner membrane
3 High energy bonds are formed in mitochondrial proteins
4 ADP is pumped out of the matrix into the intermembrane space
Explanation:
Proton motive force develop between perimitochondrial space and matrix across inner mitochondrial membrane.
AIPMT - 2008
BIOXI14: RESPIRATION IN PLANTS
337546
Oxidative phosphorylation is
1 Oxidation of phosphate group in ATP.
2 Formation of ATP by energy released from electrons removed during substrate oxidation.
3 Formation of ATP by transfer of phosphate group from a substrate to ADP.
4 Addition of phosphate group to ATP.
Explanation:
Oxidative phosphorylation is the process in which ATP is formed as a result of the transfer of electrons from NADH or \(\mathrm{FADH}_{2}\) to \(\mathrm{O}_{2}\) by a series of electron carriers. This process, which takes place in mitochondria, is the major source of ATP in aerobic organisms.
NEET - 2016
BIOXI14: RESPIRATION IN PLANTS
337547
In the given diagram, label ' \(A\) ' represents
1 Complex I
2 Complex II
3 Complex III
4 Complex IV
Explanation:
In the given diagram A represents Complex-IV.
BIOXI14: RESPIRATION IN PLANTS
337548
The given diagram represents part of ETS. Which of the following is responsible for this reaction
1 Headpiece is a peripheral membrane protein complex
2 Tailpiece is a peripheral membrane protein complex
3 Headpiece is a central membrane protein complex
4 An integral membrane protein complex that forms the channel
Explanation:
\({{\rm{F}}_{\rm{0}}}\) is an integral membrane protein complex that forms the channel through which protons cross the inner membrane.
BIOXI14: RESPIRATION IN PLANTS
337545
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because
1 There is a change in the permeability of the inner mitochondrial membrane toward adenosine diphosphate (ADP)
2 A proton gradient forms across the inner membrane
3 High energy bonds are formed in mitochondrial proteins
4 ADP is pumped out of the matrix into the intermembrane space
Explanation:
Proton motive force develop between perimitochondrial space and matrix across inner mitochondrial membrane.
AIPMT - 2008
BIOXI14: RESPIRATION IN PLANTS
337546
Oxidative phosphorylation is
1 Oxidation of phosphate group in ATP.
2 Formation of ATP by energy released from electrons removed during substrate oxidation.
3 Formation of ATP by transfer of phosphate group from a substrate to ADP.
4 Addition of phosphate group to ATP.
Explanation:
Oxidative phosphorylation is the process in which ATP is formed as a result of the transfer of electrons from NADH or \(\mathrm{FADH}_{2}\) to \(\mathrm{O}_{2}\) by a series of electron carriers. This process, which takes place in mitochondria, is the major source of ATP in aerobic organisms.
NEET - 2016
BIOXI14: RESPIRATION IN PLANTS
337547
In the given diagram, label ' \(A\) ' represents
1 Complex I
2 Complex II
3 Complex III
4 Complex IV
Explanation:
In the given diagram A represents Complex-IV.
BIOXI14: RESPIRATION IN PLANTS
337548
The given diagram represents part of ETS. Which of the following is responsible for this reaction
1 Headpiece is a peripheral membrane protein complex
2 Tailpiece is a peripheral membrane protein complex
3 Headpiece is a central membrane protein complex
4 An integral membrane protein complex that forms the channel
Explanation:
\({{\rm{F}}_{\rm{0}}}\) is an integral membrane protein complex that forms the channel through which protons cross the inner membrane.
BIOXI14: RESPIRATION IN PLANTS
337545
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because
1 There is a change in the permeability of the inner mitochondrial membrane toward adenosine diphosphate (ADP)
2 A proton gradient forms across the inner membrane
3 High energy bonds are formed in mitochondrial proteins
4 ADP is pumped out of the matrix into the intermembrane space
Explanation:
Proton motive force develop between perimitochondrial space and matrix across inner mitochondrial membrane.
AIPMT - 2008
BIOXI14: RESPIRATION IN PLANTS
337546
Oxidative phosphorylation is
1 Oxidation of phosphate group in ATP.
2 Formation of ATP by energy released from electrons removed during substrate oxidation.
3 Formation of ATP by transfer of phosphate group from a substrate to ADP.
4 Addition of phosphate group to ATP.
Explanation:
Oxidative phosphorylation is the process in which ATP is formed as a result of the transfer of electrons from NADH or \(\mathrm{FADH}_{2}\) to \(\mathrm{O}_{2}\) by a series of electron carriers. This process, which takes place in mitochondria, is the major source of ATP in aerobic organisms.
NEET - 2016
BIOXI14: RESPIRATION IN PLANTS
337547
In the given diagram, label ' \(A\) ' represents
1 Complex I
2 Complex II
3 Complex III
4 Complex IV
Explanation:
In the given diagram A represents Complex-IV.
BIOXI14: RESPIRATION IN PLANTS
337548
The given diagram represents part of ETS. Which of the following is responsible for this reaction
