Glycolysis is found in cytoplasm of virtually all types of aerobic/anaerobic cells. In this
process, glucose is converted into :
1. PEP
2. acetyl CoA
3. pyruvic acid
4. citric acid.
Fate of pyruvate produced by glycolysis depends on cellular needs, it can enter
1. | Lactic acid fermentation | 2. | Alcoholic fermentation |
3. | Aerobic respiration | 4. | All are correct |
In which compounds does sucrose is broken by Enzyme Invertase?
1. Glucose and galactose
2. Galactose and Fructose
3. Manose and glucose
4. Glucose and Fructose
Choose the correct names of A, B, C and D
|
A |
B |
C |
D |
1. |
1,3 di PGA |
3 PGAld |
Fr,1,6 di P |
Fr. 6P |
2. |
3 PGAld |
1,3 Di PGA |
Fr.1,6 di P |
Fr. 6P |
3. |
Fr,1, 6 Di P |
Fr. 6 P |
3 PGAld |
1,3 di PGA |
4. |
Fr,6P |
Fr.1,6 di P |
3 PGAld |
1,3 di PGA |
The major ways through which different cells handle Pyruvate of Glycolysis are except
(1) Lactic Acid Fermentation
(2) Alcoholic Fermentation
(3) Aerobic Respiration
(4) Phosphorespiration
Conversion of glucose to glucose-6-phosphate, the first irreversible reaction of glycolysis, is catalyzed by:
1. Phosphofructokinase
2. Aldolase
3. Hexokinase
4. Enolase
Phosphorylation of glucose during glycolysis is
catalysed by
1. Phosphoglucomutase
2. Phoshoglucoisomerase
3. Hexokinase
4. Phosphorylase
Sucrose is converted into glucose and fructose by the enzyme:
1. Maltase
2. Zymase
3. Isomerase
4. Invertase
The energy yielding steps of glycolysis are
(1) Conversion of PGA to BPGA and Conversion of PGAL to DHAP
(2) Conversion of PGAL to PGA and Conversion of BPGA to PGA
(3) Conversion of BPGA to PGA and Conversion of PEP to Pyruvate
(4) Conversion of pyruvate to PEP and PGAL to DHAP
The step of Glycolysis where NADH is produced actually results in
P.Oxidation of PGAL
Q.Reduction of NAD+
R.Production of BPGA
S.Use of Inorganic phosphate
T. Production of NADH+ H+
1. PQRST
2. QRS
3. RST
4. PRS