Christine Foyer (ed.)
A Molecular Approach To Primary Metabolism In Higher Plants
Herausgeber: Foyer, Christine
Christine Foyer (ed.)
A Molecular Approach To Primary Metabolism In Higher Plants
Herausgeber: Foyer, Christine
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Discusses and explains the major advances that the new technology of applying molecular genetic techniques of modifying carbon and nitrogen in plants has provided, giving insights into its applications for the benefits of agriculture, the environment and man
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Discusses and explains the major advances that the new technology of applying molecular genetic techniques of modifying carbon and nitrogen in plants has provided, giving insights into its applications for the benefits of agriculture, the environment and man
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 336
- Erscheinungstermin: 8. August 1997
- Englisch
- Abmessung: 244mm x 171mm x 18mm
- Gewicht: 708g
- ISBN-13: 9780748404193
- ISBN-10: 0748404198
- Artikelnr.: 24852354
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 336
- Erscheinungstermin: 8. August 1997
- Englisch
- Abmessung: 244mm x 171mm x 18mm
- Gewicht: 708g
- ISBN-13: 9780748404193
- ISBN-10: 0748404198
- Artikelnr.: 24852354
CHRISTINE H.FOYER Institute of Grassland and Environmental Research, Aberystwyth and W.PAUL QUICK Department of Animal and Plant Sciences, University of Sheffield.
SECTION ONE Primary Nitrogen Assimilation, Carbon Assimilation and Carbon
Partitioning 1 The photosynthetic electron transport system: efficiency and
control 2 The regulation and control of photosynthetic carbon assimilation
3 Modulation of sucrose metabolism 4 Modulation of starch synthesis 5
Molecular crosstalk and the regulation of C- and N[1]responsive genes 6
Manipulation of the pathways of sucrose biosynthesis and nitrogen
assimilation in transformed plants to improve photosynthesis and
productivity 7 Manipulating amino acid biosynthesis 8 Regulation of C/N
metabolism by reversible protein phosphorylation SECTION TWO
Compartmentation, Transport and Whole Plant Interactions 9 Compartmentation
of C/N metabolism 10 Plasmodesmal-mediated plant communication network:
implications for controlling carbon metabolism and resource allocation 11
Nitrogen uptake and assimilation in roots and root Nodules 12 Probing the
carbon and nitrogen interaction: a whole plant perspective 13 The role of
mycorrhiza SECTION THREE Related Metabolism 14 Respiration and the
alternative oxidase 15 Manipulation of oil biosynthesis and lipid
Composition 16 Resource use efficiency and crop performance: what is the
link?
Partitioning 1 The photosynthetic electron transport system: efficiency and
control 2 The regulation and control of photosynthetic carbon assimilation
3 Modulation of sucrose metabolism 4 Modulation of starch synthesis 5
Molecular crosstalk and the regulation of C- and N[1]responsive genes 6
Manipulation of the pathways of sucrose biosynthesis and nitrogen
assimilation in transformed plants to improve photosynthesis and
productivity 7 Manipulating amino acid biosynthesis 8 Regulation of C/N
metabolism by reversible protein phosphorylation SECTION TWO
Compartmentation, Transport and Whole Plant Interactions 9 Compartmentation
of C/N metabolism 10 Plasmodesmal-mediated plant communication network:
implications for controlling carbon metabolism and resource allocation 11
Nitrogen uptake and assimilation in roots and root Nodules 12 Probing the
carbon and nitrogen interaction: a whole plant perspective 13 The role of
mycorrhiza SECTION THREE Related Metabolism 14 Respiration and the
alternative oxidase 15 Manipulation of oil biosynthesis and lipid
Composition 16 Resource use efficiency and crop performance: what is the
link?
SECTION ONE Primary Nitrogen Assimilation, Carbon Assimilation and Carbon
Partitioning 1 The photosynthetic electron transport system: efficiency and
control 2 The regulation and control of photosynthetic carbon assimilation
3 Modulation of sucrose metabolism 4 Modulation of starch synthesis 5
Molecular crosstalk and the regulation of C- and N[1]responsive genes 6
Manipulation of the pathways of sucrose biosynthesis and nitrogen
assimilation in transformed plants to improve photosynthesis and
productivity 7 Manipulating amino acid biosynthesis 8 Regulation of C/N
metabolism by reversible protein phosphorylation SECTION TWO
Compartmentation, Transport and Whole Plant Interactions 9 Compartmentation
of C/N metabolism 10 Plasmodesmal-mediated plant communication network:
implications for controlling carbon metabolism and resource allocation 11
Nitrogen uptake and assimilation in roots and root Nodules 12 Probing the
carbon and nitrogen interaction: a whole plant perspective 13 The role of
mycorrhiza SECTION THREE Related Metabolism 14 Respiration and the
alternative oxidase 15 Manipulation of oil biosynthesis and lipid
Composition 16 Resource use efficiency and crop performance: what is the
link?
Partitioning 1 The photosynthetic electron transport system: efficiency and
control 2 The regulation and control of photosynthetic carbon assimilation
3 Modulation of sucrose metabolism 4 Modulation of starch synthesis 5
Molecular crosstalk and the regulation of C- and N[1]responsive genes 6
Manipulation of the pathways of sucrose biosynthesis and nitrogen
assimilation in transformed plants to improve photosynthesis and
productivity 7 Manipulating amino acid biosynthesis 8 Regulation of C/N
metabolism by reversible protein phosphorylation SECTION TWO
Compartmentation, Transport and Whole Plant Interactions 9 Compartmentation
of C/N metabolism 10 Plasmodesmal-mediated plant communication network:
implications for controlling carbon metabolism and resource allocation 11
Nitrogen uptake and assimilation in roots and root Nodules 12 Probing the
carbon and nitrogen interaction: a whole plant perspective 13 The role of
mycorrhiza SECTION THREE Related Metabolism 14 Respiration and the
alternative oxidase 15 Manipulation of oil biosynthesis and lipid
Composition 16 Resource use efficiency and crop performance: what is the
link?