Manipulating metabolic partitioning in transgenic plants

被引：20

作者：

Herbers, K

Sonnewald, U

机构：

[1] Inst. Pflanzengenetik K., D-06466 Gatersleben

来源：

TRENDS IN BIOTECHNOLOGY | 1996年 / 14卷 / 06期

关键词：

D O I：

10.1016/0167-7799(96)10027-5

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

Various strategies can be used to influence the partitioning of metabolites, both between competing pathways and within a given biochemical pathway. Changes in metabolic partitioning in transgenic plants can be brought about by either expressing heterologous genes or suppressing endogenous ones. Strategies for altering metabolic partitioning can include accelerating, circumventing or inhibiting enzymatic, regulatory or transport steps. In addition, metabolic pathways can be modified, through the use of collections of novel enzymes, to synthesize novel products.

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收藏

页码：198 / 205

页数：8

相关论文

共 48 条

[1] EXPRESSION OF A SINGLE-CHAIN FV ANTIBODY AGAINST ABSCISIC-ACID CREATES A WILTY PHENOTYPE IN TRANSGENIC TOBACCO [J].

ARTSAENKO, O ;

PEISKER, M ;

ZURNIEDEN, U ;

FIEDLER, U ;

WEILER, EW ;

MUNTZ, K ;

CONRAD, U .

PLANT JOURNAL, 1995, 8 (05) :745-750

[2] ALTERED LIGNIN COMPOSITION IN TRANSGENIC TOBACCO EXPRESSING O-METHYLTRANSFERASE SEQUENCES IN SENSE AND ANTISENSE ORIENTATION [J].

ATANASSOVA, R ;

FAVET, N ;

MARTZ, F ;

CHABBERT, B ;

TOLLIER, MT ;

MONTIES, B ;

FRITIG, B ;

LEGRAND, M .

PLANT JOURNAL, 1995, 8 (04) :465-477

[3] QUANTITATIVE RELATIONSHIP BETWEEN PHENYLALANINE AMMONIA-LYASE LEVELS AND PHENYLPROPANOID ACCUMULATION IN TRANSGENIC TOBACCO IDENTIFIES A RATE-DETERMINING STEP IN NATURAL PRODUCT SYNTHESIS [J].

BATE, NJ ;

ORR, J ;

NI, WT ;

MEROMI, A ;

NADLERHASSAR, T ;

DOERNER, PW ;

DIXON, RA ;

LAMB, CJ ;

ELKIND, Y .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1994, 91 (16) :7608-7612

[4] CYTOKININ METABOLISM - IMPLICATIONS FOR REGULATION OF PLANT-GROWTH AND DEVELOPMENT [J].

BRZOBOHATY, B ;

MOORE, I ;

PALME, K .

PLANT MOLECULAR BIOLOGY, 1994, 26 (05) :1483-1497

[5] Introduction of sense and antisense cDNA for branching enzyme in the amylose-free potato mutant leads to physico-chemical changes in the starch [J].

Flipse, E ;

Suurs, L ;

Keetels, CJAM ;

Kossmann, J ;

Jacobsen, E ;

Visser, RGF .

PLANTA, 1996, 198 (03) :340-347

[6] CONSTITUTIVE EXPRESSION OF A FRUIT PHYTOENE SYNTHASE GENE IN TRANSGENIC TOMATOES CAUSES DWARFISM BY REDIRECTING METABOLITES FROM THE GIBBERELLIN PATHWAY [J].

FRAY, RG ;

WALLACE, A ;

FRASER, PD ;

VALERO, D ;

HEDDEN, P ;

BRAMLEY, PM ;

GRIERSON, D .

PLANT JOURNAL, 1995, 8 (05) :693-701

[7] REQUIREMENT OF SALICYLIC-ACID FOR THE INDUCTION OF SYSTEMIC ACQUIRED-RESISTANCE [J].

GAFFNEY, T ;

FRIEDRICH, L ;

VERNOOIJ, B ;

NEGROTTO, D ;

NYE, G ;

UKNES, S ;

WARD, E ;

KESSMANN, H ;

RYALS, J .

SCIENCE, 1993, 261 (5122) :754-756

[8] USE OF TRANSGENIC PLANTS AND MUTANTS TO STUDY THE REGULATION AND FUNCTION OF LIPID-COMPOSITION [J].

GIBSON, S ;

FALCONE, DL ;

BROWSE, J ;

SOMERVILLE, C .

PLANT CELL AND ENVIRONMENT, 1994, 17 (05) :627-637

[9] PLANTS AS BIOREACTORS [J].

GODDIJN, OJM ;

PEN, J .

TRENDS IN BIOTECHNOLOGY, 1995, 13 (09) :379-387

[10] THE USE OF TRANSGENIC AND NATURALLY-OCCURRING MUTANTS TO UNDERSTAND AND MANIPULATE TOMATO FRUIT RIPENING [J].

GRAY, JE ;

PICTON, S ;

GIOVANNONI, JJ ;

GRIERSON, D .

PLANT CELL AND ENVIRONMENT, 1994, 17 (05) :557-571

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