Oxidation involves the loss of electrons (often as part of hydrogen) from a molecule, leaving to an increase in its oxidation state. This process is typically associated with the transfer of electrons to an electron acceptor which is reduced in the process.The conversion of succinyl CoA to succinic acid involves hydration and formation of GTP.
NEET - 2024
BIOXI14: RESPIRATION IN PLANTS
337770
TCA cycle is so called because
1 It is the short name of Krebs
2 Its common name for acetyl co enzyme A
3 Its common name for citric acid
4 Citric acid has 3 carboxylic acid
Explanation:
TCA(tricarboxylic acid cycle is so called because citric acid has 3 carboxylic acid.
BIOXI14: RESPIRATION IN PLANTS
337771
Oxidative decarboxylation in Kreb's cycle leads to the formation of
1 Citric acid
2 Malic acid
3 Succinyl Co-A
4 Acetic acid
Explanation:
Oxidative decarboxylation in Krebs cycle leads to the formation of Succinyl Co-A.
BIOXI14: RESPIRATION IN PLANTS
337749
During aerobic breakdown of Glucose what is the series of intermediates formed with respect to no. of carbon atoms that they have I. 3C compound II. 4C compound III. 5C compound IV. 2C compound V. 6C organic acid
1 I, II, III, IV, V
2 II, IV, V, I, II
3 I, IV, V, III, II
4 I, V, IV, III, II
Explanation:
The correct series of intermediates formed during the aerobic breakdown of glucose with respect to the number of carbon atoms they have is: The intermediates formed in glycolysis and the Krebs cycle during glucose breakdown are as follows: (I) 3C compound, (IV) 2C compound, (V) 6C organic acid, (III) 5C compound, and (II) 4C compound.
Oxidation involves the loss of electrons (often as part of hydrogen) from a molecule, leaving to an increase in its oxidation state. This process is typically associated with the transfer of electrons to an electron acceptor which is reduced in the process.The conversion of succinyl CoA to succinic acid involves hydration and formation of GTP.
NEET - 2024
BIOXI14: RESPIRATION IN PLANTS
337770
TCA cycle is so called because
1 It is the short name of Krebs
2 Its common name for acetyl co enzyme A
3 Its common name for citric acid
4 Citric acid has 3 carboxylic acid
Explanation:
TCA(tricarboxylic acid cycle is so called because citric acid has 3 carboxylic acid.
BIOXI14: RESPIRATION IN PLANTS
337771
Oxidative decarboxylation in Kreb's cycle leads to the formation of
1 Citric acid
2 Malic acid
3 Succinyl Co-A
4 Acetic acid
Explanation:
Oxidative decarboxylation in Krebs cycle leads to the formation of Succinyl Co-A.
BIOXI14: RESPIRATION IN PLANTS
337749
During aerobic breakdown of Glucose what is the series of intermediates formed with respect to no. of carbon atoms that they have I. 3C compound II. 4C compound III. 5C compound IV. 2C compound V. 6C organic acid
1 I, II, III, IV, V
2 II, IV, V, I, II
3 I, IV, V, III, II
4 I, V, IV, III, II
Explanation:
The correct series of intermediates formed during the aerobic breakdown of glucose with respect to the number of carbon atoms they have is: The intermediates formed in glycolysis and the Krebs cycle during glucose breakdown are as follows: (I) 3C compound, (IV) 2C compound, (V) 6C organic acid, (III) 5C compound, and (II) 4C compound.
Oxidation involves the loss of electrons (often as part of hydrogen) from a molecule, leaving to an increase in its oxidation state. This process is typically associated with the transfer of electrons to an electron acceptor which is reduced in the process.The conversion of succinyl CoA to succinic acid involves hydration and formation of GTP.
NEET - 2024
BIOXI14: RESPIRATION IN PLANTS
337770
TCA cycle is so called because
1 It is the short name of Krebs
2 Its common name for acetyl co enzyme A
3 Its common name for citric acid
4 Citric acid has 3 carboxylic acid
Explanation:
TCA(tricarboxylic acid cycle is so called because citric acid has 3 carboxylic acid.
BIOXI14: RESPIRATION IN PLANTS
337771
Oxidative decarboxylation in Kreb's cycle leads to the formation of
1 Citric acid
2 Malic acid
3 Succinyl Co-A
4 Acetic acid
Explanation:
Oxidative decarboxylation in Krebs cycle leads to the formation of Succinyl Co-A.
BIOXI14: RESPIRATION IN PLANTS
337749
During aerobic breakdown of Glucose what is the series of intermediates formed with respect to no. of carbon atoms that they have I. 3C compound II. 4C compound III. 5C compound IV. 2C compound V. 6C organic acid
1 I, II, III, IV, V
2 II, IV, V, I, II
3 I, IV, V, III, II
4 I, V, IV, III, II
Explanation:
The correct series of intermediates formed during the aerobic breakdown of glucose with respect to the number of carbon atoms they have is: The intermediates formed in glycolysis and the Krebs cycle during glucose breakdown are as follows: (I) 3C compound, (IV) 2C compound, (V) 6C organic acid, (III) 5C compound, and (II) 4C compound.
Oxidation involves the loss of electrons (often as part of hydrogen) from a molecule, leaving to an increase in its oxidation state. This process is typically associated with the transfer of electrons to an electron acceptor which is reduced in the process.The conversion of succinyl CoA to succinic acid involves hydration and formation of GTP.
NEET - 2024
BIOXI14: RESPIRATION IN PLANTS
337770
TCA cycle is so called because
1 It is the short name of Krebs
2 Its common name for acetyl co enzyme A
3 Its common name for citric acid
4 Citric acid has 3 carboxylic acid
Explanation:
TCA(tricarboxylic acid cycle is so called because citric acid has 3 carboxylic acid.
BIOXI14: RESPIRATION IN PLANTS
337771
Oxidative decarboxylation in Kreb's cycle leads to the formation of
1 Citric acid
2 Malic acid
3 Succinyl Co-A
4 Acetic acid
Explanation:
Oxidative decarboxylation in Krebs cycle leads to the formation of Succinyl Co-A.
BIOXI14: RESPIRATION IN PLANTS
337749
During aerobic breakdown of Glucose what is the series of intermediates formed with respect to no. of carbon atoms that they have I. 3C compound II. 4C compound III. 5C compound IV. 2C compound V. 6C organic acid
1 I, II, III, IV, V
2 II, IV, V, I, II
3 I, IV, V, III, II
4 I, V, IV, III, II
Explanation:
The correct series of intermediates formed during the aerobic breakdown of glucose with respect to the number of carbon atoms they have is: The intermediates formed in glycolysis and the Krebs cycle during glucose breakdown are as follows: (I) 3C compound, (IV) 2C compound, (V) 6C organic acid, (III) 5C compound, and (II) 4C compound.
