NCERT Solutions for Class 11 Biology Chapter – 14 Respiration in Plants includes all the important topics with detailed explanation that aims to help students to understand the concepts better. Students who are preparing for their Class 11 Biology exams must go through NCERT Solutions for Class 11 Chapter -14 Respiration in Plants. NCERT Solutions will make you understand the topics in most simple manner and grasp it easily to perform better.
Table of Contents
ToggleClass 11th Chapter -14 Respiration in Plants | NCERT BIOLOGY SOLUTION |
Page No: 238
Exercises
(a) Respiration and Combustion
(b) Glycolysis and Krebs’cycle
(c) Aerobic respiration and Fermentation
Answer
(a) Respiration and Combustion
(b) Glycolysis and Krebs’cycle
(c) Aerobic respiration and Fermentation
2. What are respiratory substrates? Name the most common respiratory substrate.(a) Respiration and Combustion
Respiration | Combustion |
It is a biochemical process. | It is a physiochemical process. |
It occurs inside the cells. | It does not occur inside cells. |
It is a biologically-controlled process. | It is an uncontrolled process. |
No light is produced | Light may be produced |
ATP is generated. | ATP is not generated. |
Enzymes are required | Enzymes are not required |
(b) Glycolysis and Krebs’cycle
Glycolysis | Krebs’cycle |
The breakdown of glucose to pyruvic acid is called glycolysis. | The further processing of pyruvic acid through aerobic route is called Krebs’ cycle. |
It is a linear pathway. | It is a cyclic pathway. |
It occurs in the cell cytoplasm. | It occurs in the mitochondrial matrix. |
It occurs in all living beings. | It occurs in aerobic respiration. |
It generates 2 NADH2 and 2 ATP molecules on the breakdown of one glucose molecule. | It produces 6 NADH2, 2 FADH2, and 2 ATP molecules on the breakdown of two acetyl-CoA molecules. |
No carbon dioxide evolved | Carbon dioxide evolved |
(c) Aerobic respiration and Fermentation
Aerobic respiration | Fermentation |
The complete oxidation of organic substances in the presence of oxygen. | The incomplete oxidation of glucose in the absence of oxygen. |
It occurs in the cytoplasm and mitochondria | It occurs in the cytoplasm |
The end products are carbon dioxide and water | The end products are ethyl alcohol and carbon dioxide |
Complete oxidation of the respiratory substrate takes place | Incomplete oxidation of the respiratory substrate takes place |
About 36 ATP molecules are produced | Only 2 ATP molecules are produced |
Answer
A compound which is oxidized during respiration is called respiratory substrate. Glucose is the most common respiratory substrate.
A compound which is oxidized during respiration is called respiratory substrate. Glucose is the most common respiratory substrate.
Answer
Answer
The main steps in aerobic respiration and places of their occurrence are:
→ Krebs cycle in matrix of mitochondria
→ Electron transport system in inner mitochondrial membrane
→ Oxidative phosphorylation in the inner mitochondrial membrane.Answer
Answer
The metabolic pathway through which the electron passes from one carrier to another is called the electron transport system (ETS). It is located in the inner mitochondrial membrane. Electrons from NADH produced in the mitochondrial matrix during citric acid cycle are oxidised by an NADH dehydrogenase (complex I), and electrons are then transferred to ubiquinone located within the inner membrane. Ubiquinone also receives reducing equivalents via FADH2 (complex II) that is generated during oxidation of succinate in the citric acid cycle. The reduced ubiquinone (ubiquinol) is then oxidised with the transfer of electrons to cytochrome c via cytochrome bc 1 complex (complex III). The cytochrome c acts as a mobile carrier between complex III and cytochrome c oxidase complex, containing cytochrome a and a3, along with copper centres (complex IV).
During the transfer of electrons from each complex, the process is accompanied by the production of ATP from ADP and inorganic phosphate by the action ATP synthase (complex V). The amount of ATP produced depends on the molecule, which has been oxidized. 2 ATP molecules are produced by the oxidation of one molecule of NADH. One molecule of FADH2, on oxidation, gives 3 ATP molecules.
7. Distinguish between the following:
(a) Aerobic respiration and Anaerobic respiration
(b) Glycolysis and Fermentation
(c) Glycolysis and Citric acid Cycle
(b) Glycolysis and Fermentation
(c) Glycolysis and Citric acid Cycle
8. What are the assumptions made during the calculation of net gain of ATP? 9. Discuss “The respiratory pathway is an amphibolic pathway.” 10. Define RQ. What is its value for fats?
The generation of ATP from ADP during electron transport system by utilizing the energy obtained during oxidative reaction is called oxidative phosphorylation.
12. What is the significance of step-wise release of energy in respiration?
(a) Aerobic respiration and Anaerobic respiration
(b) Glycolysis and Fermentation
(c) Glycolysis and Citric acid Cycle
Answer
(a) Aerobic respiration and Anaerobic respiration
(a) Aerobic respiration and Anaerobic respiration
Aerobic respiration | Anaerobic respiration |
It takes place in the presence of oxygen. | It takes place in the absence of oxygen. |
It occurs in cytoplasm and mitochondria. | It occurs in cytoplasm |
The end products of aerobic respiration are carbon dioxide and water. | The end products of fermentation are ethyl alcohol and carbon-dioxide. |
Complete oxidation of respiratory substrate takes place. | Incomplete oxidation of respiratory substrate takes place. |
36-38 ATP molecules are produced. | Only 2 ATP molecules are produced. |
(b) Glycolysis and Fermentation
Glycolysis | Fermentation |
Glycolysis occurs during aerobic and anaerobic respiration. | Fermentation is a type of anaerobic respiration. |
The end products of aerobic respiration is pyruvic acid | The end products of aerobic respiration is ethanol or lactic acid |
(c) Glycolysis and Citric acid Cycle
Glycolysis | Citric acid Cycle |
It is a linear pathway. | It is a cyclic pathway. |
It occurs in the cell cytoplasm. | It occurs in the mitochondrial matrix. |
It occurs in all living beings. | It occurs in aerobic respiration. |
It generates 2 NADH2 and 2 ATP molecules on the breakdown of one glucose molecule. | It generates 6 NADH2, 2 FADH2, and 2 ATP molecules on the breakdown of two acetyl-CoA molecules. |
8. What are the assumptions made during the calculation of net gain of ATP?
Answer
The following assumptions are made during the calculation of net gain of ATP:
• There is a sequential, orderly pathway functioning, with one substrate forming the next and with glycolysis, TCA cycle and ETS pathway following one after another.
• The NADH synthesised in glycolysis is transferred into the mitochondria and undergoes oxidative phosphorylation.
• None of the intermediates in the pathway are utilised to synthesise any other compound.
• Only glucose is being respired – no other alternative substrates are entering in the pathway at any of the intermediary stages.
Answer
The breaking down process occurring within the organism is known as catabolic process and the synthesis process is known as anabolism. The respiratory pathway involves both the catabolic and anabolic process, so it is referred as amphibolic pathway.
The breaking down process occurring within the organism is known as catabolic process and the synthesis process is known as anabolism. The respiratory pathway involves both the catabolic and anabolic process, so it is referred as amphibolic pathway.
Answer
The ratio of the volume of CO2 evolved to the volume of O2 consumed in respiration is called the respiratory quotient (RQ). The RQ for carbohydrates is 1. The RQ for fat and protein is less than 1.
For example: Calculations for a fatty acid, tripalmitin
2(C5H98O6) + 145O2 → 102 CO2 + 98 H2O
For example: Calculations for a fatty acid, tripalmitin
2(C5H98O6) + 145O2 → 102 CO2 + 98 H2O
RQ = Volume of CO2 evolved/Volume of O2 consumed
= 102 CO2/145O2 = 0.7
11. What is oxidative phosphorylation?
= 102 CO2/145O2 = 0.7
11. What is oxidative phosphorylation?
Answer
Answer
The significance of step-wise release of energy in respiration are:
→ It facilitates the utilization of the relatively higher proportion of the energy in ATP synthesis.→ The activities of enzymes for the different steps may be enhanced or inhibited by specific compounds. This provides a mean of controlling the rate of the pathway and the energy output according to the need of the cell.
→ The same pathway may be utilized for forming intermediates used in the synthesis of other biomolecules like amino acids.Related
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