337782 Match the compounds given in Column-I with the number of carbon atoms present in them which are listed under Column II. Choose the answer which gives the correct combination of alphabets of the two columns.
Column I
Column II
A
Oxaloacetate
P
6-C compound
B
Phosphoglyceraldehyde
Q
5-C compound
C
Isocitrate
R
4-C compound
D
\({\rm{\alpha - }}\)Ketoglutarate
S
3-C compound

337783 Statement A :
In TCA cycle, during the conversion of succinyl-CoA to succinic acid a molecule of GTP is synthesised
Statement B :
There are three points in the TCA cycle where \(\mathrm{FAD}^{+}\)is reduced to \(\mathrm{FADH}_{2}\) and one point where \(\mathrm{NAD}^{+}\)is reduced to \(\mathrm{NADH}+\mathrm{H}^{+}\)

337784 Total number of ATP consumed during Kreb's cycle is

337785 Statement A :
The continued oxidation of acetyl CoA via the TCA cycle requires the continued replenishment of citric acid
Statement B :
In addition it also requires regeneration of NADH and \(\mathrm{FADH}_{2}\) from NAD \({ }^{+}\)and \(\mathrm{FAD}^{+}\)

337782 Match the compounds given in Column-I with the number of carbon atoms present in them which are listed under Column II. Choose the answer which gives the correct combination of alphabets of the two columns.
Column I
Column II
A
Oxaloacetate
P
6-C compound
B
Phosphoglyceraldehyde
Q
5-C compound
C
Isocitrate
R
4-C compound
D
\({\rm{\alpha - }}\)Ketoglutarate
S
3-C compound

337783 Statement A :
In TCA cycle, during the conversion of succinyl-CoA to succinic acid a molecule of GTP is synthesised
Statement B :
There are three points in the TCA cycle where \(\mathrm{FAD}^{+}\)is reduced to \(\mathrm{FADH}_{2}\) and one point where \(\mathrm{NAD}^{+}\)is reduced to \(\mathrm{NADH}+\mathrm{H}^{+}\)

337784 Total number of ATP consumed during Kreb's cycle is

337785 Statement A :
The continued oxidation of acetyl CoA via the TCA cycle requires the continued replenishment of citric acid
Statement B :
In addition it also requires regeneration of NADH and \(\mathrm{FADH}_{2}\) from NAD \({ }^{+}\)and \(\mathrm{FAD}^{+}\)

337782 Match the compounds given in Column-I with the number of carbon atoms present in them which are listed under Column II. Choose the answer which gives the correct combination of alphabets of the two columns.
Column I
Column II
A
Oxaloacetate
P
6-C compound
B
Phosphoglyceraldehyde
Q
5-C compound
C
Isocitrate
R
4-C compound
D
\({\rm{\alpha - }}\)Ketoglutarate
S
3-C compound

337783 Statement A :
In TCA cycle, during the conversion of succinyl-CoA to succinic acid a molecule of GTP is synthesised
Statement B :
There are three points in the TCA cycle where \(\mathrm{FAD}^{+}\)is reduced to \(\mathrm{FADH}_{2}\) and one point where \(\mathrm{NAD}^{+}\)is reduced to \(\mathrm{NADH}+\mathrm{H}^{+}\)

337784 Total number of ATP consumed during Kreb's cycle is

337785 Statement A :
The continued oxidation of acetyl CoA via the TCA cycle requires the continued replenishment of citric acid
Statement B :
In addition it also requires regeneration of NADH and \(\mathrm{FADH}_{2}\) from NAD \({ }^{+}\)and \(\mathrm{FAD}^{+}\)

337782 Match the compounds given in Column-I with the number of carbon atoms present in them which are listed under Column II. Choose the answer which gives the correct combination of alphabets of the two columns.
Column I
Column II
A
Oxaloacetate
P
6-C compound
B
Phosphoglyceraldehyde
Q
5-C compound
C
Isocitrate
R
4-C compound
D
\({\rm{\alpha - }}\)Ketoglutarate
S
3-C compound

337783 Statement A :
In TCA cycle, during the conversion of succinyl-CoA to succinic acid a molecule of GTP is synthesised
Statement B :
There are three points in the TCA cycle where \(\mathrm{FAD}^{+}\)is reduced to \(\mathrm{FADH}_{2}\) and one point where \(\mathrm{NAD}^{+}\)is reduced to \(\mathrm{NADH}+\mathrm{H}^{+}\)

337784 Total number of ATP consumed during Kreb's cycle is

337785 Statement A :
The continued oxidation of acetyl CoA via the TCA cycle requires the continued replenishment of citric acid
Statement B :
In addition it also requires regeneration of NADH and \(\mathrm{FADH}_{2}\) from NAD \({ }^{+}\)and \(\mathrm{FAD}^{+}\)