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*Self-Practice*
Std.10th -Science Part 2
Topic 2: *Life Process in Living Organisms Part-1*
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*Today's exercise*:
1) Write the long form of the following co-enzymes and also write how many ATP molecules are obtained from them.
a) NAD+ = .........
b) FAD+ = ........
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*Glycolysis*
The cells in the body of an organism need a lot of energy to survive. The storage capacity of glucose or ATP is relatively low in some cells of the brain and body. Such cells need a constant supply of glucose through the blood. When glucose is supplied to the cells as needed, a continuous chain of energy production begins in the cell. We saw yesterday that oxidation of glucose in oxidation takes place in three stages. The first stage is 'Glycolysis'.
◆ Word glycolysis is consist of two words [Glykys : sweets or sugar Lysis : splitting or break down] Glycolysis is the process of breaking down a molecule of glucose into smaller molecules.
◆This process takes place in the cytoplasm of a cell.
◆ Oxidation causes the decompisition of a 6 carbon glucose molecule to form two molecules of 3 carbon pyruvate.
◆ Energy is required to break down the covalent bonds in glucose molecule. Initially the reaction is accelerated using 2 ATP molecules from the cell.
◆ The glycolysis involves 10 steps and 10 enzymes. Pyruvate is the final product of glycolysis.
◆ Also in this whole process 2 molecules each of NADH, ATP and water are formed.
◆ The process of glycolysis can takes place with the help of oxygen and even without oxygen. If glycolysis occurs in presence of oxygen, the net gain is 8 ATP molecules. (Because 3 ATPs are formed from one NADH and 2 ATPs are utilized during preparatory phase.)
◆ Process of glycolysis was discovered by three scientists Gustav Embden, Otto Meyerhof and Jacob Paranas along with their colleagues. Hence, glycolysis is also called as Embden-Meyerhof-Parnas pathway (EMP pathway)
◆ The whole reaction of glycolysis can be presented as follows.
C6H12O6 + 2 NAD + + 2 ADP + 2 P -----> 2 pyruvic acid, [CH3 (C = O) COOH] + 2 ATP + 2 NADH + 2H2O
In tomorrow's article, we will learn what happens next to pyruvate.
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*Facts about glycolysis*
◆ Pyruvate is a key product produced in the first stage of glycolysis. While producing energy from proteins and fats, are also first converted into pyruvate.
■ In aerobic respiration pyruvate is converted to acetyl-co-enzyme A (acetyl-co-A)
■ In anaerobic condition pyruvet is converted in to lactic acid or alcohol.
■ If a cell does not want to produce energy, then glucose is converted into glycogen. Energy is produced by converting glycogen back to glucose when needed.
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*Shrishail Mathapati*, kolhapur
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