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BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337029 During Calvin cycle pathway ATP and \(NADP{H_2}\) is utilized for the reduction of

1 Glucose

2 PGA

3 PEP

4 Malic acid

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337049 Which of the following is correct about biosynthetic phase?

1 \({C_{14}}\) isotope is used to find out this pathway

2 Calvin worked on this pathway

3 Melvin Calvin used photosynthetic algae for this pathway

4 All of them

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337050 Ribulose biphosphate carboxylase (RuBisCO) enzyme catalyses the reaction

1 Calvin cycle, \({C_4}\) pathway

2 Calvin cycle, \({C_3}\) pathway, Photorespiration

3 Calvin cycle, \({C_3}\) pathway, Respiration

4 Calvin cycle, respiration

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337051 Why Calvin cycle is called \({C_3}\)-cycle?

1 Primary \(C{O_2}\) acceptor is \({C_3}\) compound

2 Many intermediate compounds are \({C_3}\) compound

3 1st stable product is 3 PGA which is a \({C_3}\) compound

4 3 molecules of sugar are formed

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337028 In stroma

1 ATP and \(NADP{H_2}\) are formed and \({H_2}O\) and \({O_2}\) come out.

2 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms starch

3 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms cellulose immediately

4 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to ATP and \(NAD{H_2}\) formation

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337029 During Calvin cycle pathway ATP and \(NADP{H_2}\) is utilized for the reduction of

1 Glucose

2 PGA

3 PEP

4 Malic acid

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337049 Which of the following is correct about biosynthetic phase?

1 \({C_{14}}\) isotope is used to find out this pathway

2 Calvin worked on this pathway

3 Melvin Calvin used photosynthetic algae for this pathway

4 All of them

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337050 Ribulose biphosphate carboxylase (RuBisCO) enzyme catalyses the reaction

1 Calvin cycle, \({C_4}\) pathway

2 Calvin cycle, \({C_3}\) pathway, Photorespiration

3 Calvin cycle, \({C_3}\) pathway, Respiration

4 Calvin cycle, respiration

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337051 Why Calvin cycle is called \({C_3}\)-cycle?

1 Primary \(C{O_2}\) acceptor is \({C_3}\) compound

2 Many intermediate compounds are \({C_3}\) compound

3 1st stable product is 3 PGA which is a \({C_3}\) compound

4 3 molecules of sugar are formed

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337028 In stroma

1 ATP and \(NADP{H_2}\) are formed and \({H_2}O\) and \({O_2}\) come out.

2 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms starch

3 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms cellulose immediately

4 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to ATP and \(NAD{H_2}\) formation

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337029 During Calvin cycle pathway ATP and \(NADP{H_2}\) is utilized for the reduction of

1 Glucose

2 PGA

3 PEP

4 Malic acid

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337049 Which of the following is correct about biosynthetic phase?

1 \({C_{14}}\) isotope is used to find out this pathway

2 Calvin worked on this pathway

3 Melvin Calvin used photosynthetic algae for this pathway

4 All of them

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337050 Ribulose biphosphate carboxylase (RuBisCO) enzyme catalyses the reaction

1 Calvin cycle, \({C_4}\) pathway

2 Calvin cycle, \({C_3}\) pathway, Photorespiration

3 Calvin cycle, \({C_3}\) pathway, Respiration

4 Calvin cycle, respiration

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337051 Why Calvin cycle is called \({C_3}\)-cycle?

1 Primary \(C{O_2}\) acceptor is \({C_3}\) compound

2 Many intermediate compounds are \({C_3}\) compound

3 1st stable product is 3 PGA which is a \({C_3}\) compound

4 3 molecules of sugar are formed

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337028 In stroma

1 ATP and \(NADP{H_2}\) are formed and \({H_2}O\) and \({O_2}\) come out.

2 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms starch

3 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms cellulose immediately

4 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to ATP and \(NAD{H_2}\) formation

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337029 During Calvin cycle pathway ATP and \(NADP{H_2}\) is utilized for the reduction of

1 Glucose

2 PGA

3 PEP

4 Malic acid

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337049 Which of the following is correct about biosynthetic phase?

1 \({C_{14}}\) isotope is used to find out this pathway

2 Calvin worked on this pathway

3 Melvin Calvin used photosynthetic algae for this pathway

4 All of them

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337050 Ribulose biphosphate carboxylase (RuBisCO) enzyme catalyses the reaction

1 Calvin cycle, \({C_4}\) pathway

2 Calvin cycle, \({C_3}\) pathway, Photorespiration

3 Calvin cycle, \({C_3}\) pathway, Respiration

4 Calvin cycle, respiration

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337051 Why Calvin cycle is called \({C_3}\)-cycle?

1 Primary \(C{O_2}\) acceptor is \({C_3}\) compound

2 Many intermediate compounds are \({C_3}\) compound

3 1st stable product is 3 PGA which is a \({C_3}\) compound

4 3 molecules of sugar are formed

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337028 In stroma

1 ATP and \(NADP{H_2}\) are formed and \({H_2}O\) and \({O_2}\) come out.

2 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms starch

3 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms cellulose immediately

4 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to ATP and \(NAD{H_2}\) formation

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337029 During Calvin cycle pathway ATP and \(NADP{H_2}\) is utilized for the reduction of

1 Glucose

2 PGA

3 PEP

4 Malic acid

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337049 Which of the following is correct about biosynthetic phase?

1 \({C_{14}}\) isotope is used to find out this pathway

2 Calvin worked on this pathway

3 Melvin Calvin used photosynthetic algae for this pathway

4 All of them

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337050 Ribulose biphosphate carboxylase (RuBisCO) enzyme catalyses the reaction

1 Calvin cycle, \({C_4}\) pathway

2 Calvin cycle, \({C_3}\) pathway, Photorespiration

3 Calvin cycle, \({C_3}\) pathway, Respiration

4 Calvin cycle, respiration

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337051 Why Calvin cycle is called \({C_3}\)-cycle?

1 Primary \(C{O_2}\) acceptor is \({C_3}\) compound

2 Many intermediate compounds are \({C_3}\) compound

3 1st stable product is 3 PGA which is a \({C_3}\) compound

4 3 molecules of sugar are formed

BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS

337028 In stroma

1 ATP and \(NADP{H_2}\) are formed and \({H_2}O\) and \({O_2}\) come out.

2 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms starch

3 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to the synthesis of sugar, which in turn, forms cellulose immediately

4 Enzymatic reactions incorporate \(C{O_2}\) into the plant leading to ATP and \(NAD{H_2}\) formation

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