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to generate a bond between a glucose molecule and a growing chain of starch what is required?

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to generate a bond between a glucose molecule and a growing chain of starch what is required?, In order to generate a bond between a glucose molecule and a growing chain of starch, energy release is required in order to convert neutrons into protons until the electric field energy between the protons each further increases.

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<h2>to generate a bond between a glucose molecule and a growing chain of starch what is required?</h2>
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to generate a bond between a glucose molecule and a growing chain of starch what is required?

A water molecule is needed to act as a catalyst in order for the oxygen on the C-6 of the glucose molecule to attack and break the bond between the C-1 of the chain. The electrons from that bond are used to form a new bond between the oxygen on C-6 and the carbon on C-1, but in order for this to happen, hydrogen on C-2 must be lost. This process can happen many times over to create a long chain of glucose molecules (starch).

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When water is not present, another molecule called ATP can provide the energy needed for this reaction to occur.

When water is not present, another molecule called ATP can provide the energy needed for this reaction to occur.

The energy needed for reactions to occur can be provided by another molecule called ATP when water is not present. ATP is converted into ADP by splitting off one of the three phosphate residues in order for energy to be released, and this process takes place in almost all known organisms. Glucose-6-phosphate can be converted further in glycolysis to produce ATP, and when fatty acids are broken down in the absence of oxygen, energy is also produced. The net gain of aerobic cellular respiration is 32 molecules of ATP per molecule in vertebrates.

-ATP + Glucose → ADP + Glucose 1 Phosphate

-ATP + Glucose → ADP + Glucose 1 Phosphate

Phosphoglucomutase catalyzes the production of glucose-1-phosphate, which is the first intermediary in the pathway of synthesis of galactose. Glucose-1-phosphate is used in glycogen biosynthesis and is produced during glycogen degradation. The bacterial enzyme uses ADP-glucose as the sugar donor. ADP-glucose pyrophosphorylase large subunit 1 catalyzes the conversion of ADP-glucose and inorganic phosphate (Pi) into glucose-1-phosphate and ADP. Unlike UDP-α-D-glucose, which is used by all living cells to synthesize a large number of different molecules, ADP-α-D -glucose is devoted to the synthesis of glycogen. α-D -glucose -1 -phosphate is reversibly converted by phosphoglucomutase to α -D -glucose -6 –

The sugar phosphates generated in this way can then combine to form long chains of starch.

The sugar phosphates generated in this way can then combine to form long chains of starch.

The sugar phosphates generated during this process can then combine to form long chains of starch.