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2-phosphoglycerate

The remaining steps in the glycolytic pathway prepare for synthesis of the second ATP equivalent. This begins with the phosphoglycerate mutase reaction (Eigure 19.23), in which the phosphoryl group of 3-phosphoglycerate is moved... [Pg.626]

The set of reactions that transforms 3-phosphoglycerate into hexose is named the Calvin-Benson cycle (often referred to simply as the Calvin cycle) for its discoverers. The reaction series is indeed cyclic because not only must carbohydrate appear as an end product, but the 5-carbon acceptor, RuBP, must be regenerated to provide for continual COg fixation. Balanced equations that schematically represent this situation are... [Pg.733]

Each number in parentheses represents the number of carbon atoms in a compound, and the number preceding the parentheses indicates the stoichiometry of the reaction. Thus, 6(1), or 6 COg, condense with 6(5) or 6 RuBP to give 12 3-phosphoglycerates. These 12(3)s are then rearranged in the Calvin cycle to form one hexose, 1 (6), and regenerate the six 5-carbon (RuBP) acceptors. [Pg.733]

They accomplish the reduction of 3-phosphoglycerate, the primary product of COg fixation, to glyceraldehyde-3-phosphate so that carbohydrate synthesis becomes feasible. [Pg.733]

Most of the enzymes mediating the reactions of the Calvin cycle also participate in either glycolysis (Chapter 19) or the pentose phosphate pathway (Chapter 23). The aim of the Calvin scheme is to account for hexose formation from 3-phosphoglycerate. In the course of this metabolic sequence, the NADPH and ATP produced in the light reactions are consumed, as indicated earlier in Equation (22.3). [Pg.733]

C-labeled carbon dioxide is administered to a green plant, and shortly thereafter the following compounds are isolated from the plant 3-phosphoglycerate, glucose, erythrose-4-phosphate, sedoheptulose-l,7-bisphosphate, ribose-5-phosphate. In which carbon atoms will radioactivity be found ... [Pg.740]

Like all anhydrides (Section 21.5), the mixed carboxylic-phosphoric anhydride is a reactive substrate in nucleophilic acyl (or phosphoryl) substitution reactions. Reaction of 1,3-bisphosphoglycerate with ADR occurs in step 7 by substitution on phosphorus, resulting in transfer of a phosphate group to ADP and giving ATP plus 3-phosphoglycerate. The process is catalyzed by phospho-gjvcerate kinase and requires Mg2+ as cofactor. Together, steps 6 and 7 accomplish the oxidation of an aldehyde to a carboxylic acid. [Pg.1148]

See other pages where 2-phosphoglycerate is mentioned: [Pg.346]    [Pg.754]    [Pg.254]    [Pg.558]    [Pg.67]    [Pg.75]    [Pg.427]    [Pg.611]    [Pg.611]    [Pg.614]    [Pg.614]    [Pg.623]    [Pg.624]    [Pg.625]    [Pg.625]    [Pg.625]    [Pg.626]    [Pg.627]    [Pg.628]    [Pg.637]    [Pg.667]    [Pg.693]    [Pg.731]    [Pg.731]    [Pg.732]    [Pg.732]    [Pg.732]    [Pg.733]    [Pg.735]    [Pg.737]    [Pg.744]    [Pg.835]    [Pg.835]    [Pg.1145]    [Pg.1145]    [Pg.1149]    [Pg.1149]    [Pg.1160]    [Pg.1162]    [Pg.1163]    [Pg.297]    [Pg.82]    [Pg.137]    [Pg.140]   
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1.3 bis-phosphoglycerate

2- Phosphoglycerate dehydration

2- Phosphoglycerate dehydration to PEP

2- Phosphoglycerate, from

3- Phosphoglycerate as key intermediate in biosynthesi

3- Phosphoglycerate determination

3- Phosphoglyceric acid, PGA

3- phosphoglycerate isomerization

3-Phosphoglycerate formation

3-Phosphoglycerate in glycolysis

3-Phosphoglycerate kinase reaction catalyzed

3-Phosphoglycerate phosphatase

3-Phosphoglycerate phosphorylation

3-Phosphoglycerate transport

3-Phosphoglycerate, from serine

3-Phosphoglyceric acid intermediate

3-Phosphoglyceric phosphokinase

A-Phosphoglycerate

Calvin cycle 3-phosphoglycerate formation

Crystal structure phosphoglycerate kinase

D-3-Phosphoglyceric acid

Dehydration of 2-phosphoglycerate

Glycolysis phosphoglycerate kinase

Hereditary hemolytic anemia phosphoglycerate kinase deficiency

Isomerization of 3-phosphoglycerate

Kinases phosphoglycerate kinase

Muscle phosphoglycerate kinase

Phosphoenolpyruvate 2-phosphoglycerate

Phosphofructokinase Phosphoglycerate kinase

Phosphoglycerate Kinase

Phosphoglycerate deficiency

Phosphoglycerate dehydrogenase

Phosphoglycerate dehydrogenase serine synthesis

Phosphoglycerate glycolysis

Phosphoglycerate kinase activation

Phosphoglycerate kinase analysis

Phosphoglycerate kinase deficiency

Phosphoglycerate kinase inhibition

Phosphoglycerate kinase, activity

Phosphoglycerate kinase, domains

Phosphoglycerate kinase, function

Phosphoglycerate kinase, nucleotide

Phosphoglycerate kinase, nucleotide binding site

Phosphoglycerate mutase

Phosphoglycerate mutase deficiency

Phosphoglycerate mutase specificity

Phosphoglycerate mutase, domain

Phosphoglycerate mutase, function

Phosphoglycerate mutase, glycolytic enzyme

Phosphoglycerate phosphomutase

Phosphoglycerate to Phosphoenolpyruvate

Phosphoglyceric acid

Phosphoglyceric acid mutase

Phosphoglyceric mutase

Phosphoryl-3-phosphoglyceric acid

Phosphorylation of 3-phosphoglycerate

Protein phosphoglycerate

The Conversion of Triose Phosphates to Phosphoglycerates Occurs in Two Steps

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