Molecular aspects of methionine biosynthesis

被引：138

作者：

Hesse, H ^{[1
]}

Hoefgen, R ^{[1
]}

机构：

[1] Max Planck Inst Mol Pfanzenphysiol, Dept Mol Physiol, D-14476 Golm, Germany

来源：

TRENDS IN PLANT SCIENCE | 2003年 / 8卷 / 06期

关键词：

D O I：

10.1016/S1360-1385(03)00107-9

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

Methionine, lysine and threonine are essential amino acids required in the diets of non-ruminant animals. Major crops, such as corn, soybean and rice, are low in one or more of these amino acids. Currently, these amino acids are supplemented to animal feed to allow optimal growth - a costly process for farmers and consumer, therefore there is a great deal of interest in increasing essential amino acids in crops. The metabolism of methionine in plants is linked to the regulation of the aspartate pathway and is important for plant growth. In recent years, several key steps of this pathway have been identified at the molecular level, enabling us to initiate transgenic approaches to engineer the methionine content of plants.

引用

页码：259 / 262

页数：4

共 36 条

[1] Cystathionine γ-synthase and threonine synthase operate in concert to regulate carbon flow towards methionine in plants [J].

Amir, R ;

Hacham, Y ;

Galili, G .

TRENDS IN PLANT SCIENCE, 2002, 7 (04) :153-156

[2] Mutation in the threonine synthase gene results in an over-accumulation of soluble methionine in Arabidopsis [J].

Bartlem, D ;

Lambein, I ;

Okamoto, T ;

Itaya, A ;

Uda, Y ;

Kijima, F ;

Tamaki, Y ;

Nambara, E ;

Naito, S .

PLANT PHYSIOLOGY, 2000, 123 (01) :101-110

[3] DISTINCT PHENOTYPES GENERATED BY OVEREXPRESSION AND SUPPRESSION OF S-ADENOSYL-L-METHIONINE SYNTHETASE REVEAL DEVELOPMENTAL PATTERNS OF GENE SILENCING IN TOBACCO [J].

BOERJAN, W ;

BAUW, G ;

VANMONTAGU, M ;

INZE, D .

PLANT CELL, 1994, 6 (10) :1401-1414

[4] S-methylmethionine plays a major role in phloem sulfur transport and is synthesized by a novel type of methyltransferase [J].

Bourgis, F ;

Roje, S ;

Nuccio, ML ;

Fisher, DB ;

Tarczynski, MC ;

Li, CJ ;

Herschbach, C ;

Rennenberg, H ;

Pimenta, MJ ;

Shen, TL ;

Gage, DA ;

Hanson, AD .

PLANT CELL, 1999, 11 (08) :1485-1497

[5] Evidence for autoregulation of cystathionine γ-synthase mRNA stability in Arabidopsis [J].

Chiba, Y ;

Ishikawa, M ;

Kijima, F ;

Tyson, RH ;

Kim, J ;

Yamamoto, A ;

Nambara, E ;

Leustek, T ;

Wallsgrove, RM ;

Naito, S .

SCIENCE, 1999, 286 (5443) :1371-1374

[6] Allosteric activation of Arabidopsis threonine synthase by S-adenosylmethionine [J].

Curien, G ;

Job, D ;

Douce, R ;

Dumas, R .

BIOCHEMISTRY, 1998, 37 (38) :13212-13221

[7] Plant methionine synthase:: New insights into properties and expression [J].

Eckermann, C ;

Eichel, J ;

Schröder, J .

BIOLOGICAL CHEMISTRY, 2000, 381 (08) :695-703

[8] A defect in cystathionine β-lyase activity causes the severe phenotype of a Nicotiana plumbaginifolia methionine auxotroph [J].

Frankard, V ;

Ispas, G ;

Hesse, H ;

Jacobs, M ;

Hoefgen, R .

PLANT SCIENCE, 2002, 162 (04) :607-614

[9] Mechanisms to account for maintenance of the soluble methionine pool in transgenic Arabidopsis plants expressing antisense cystathionine γ-synthase cDNA [J].

Gakière, B ;

Ravanel, S ;

Droux, M ;

Douce, R ;

Job, D .

COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE III-SCIENCES DE LA VIE-LIFE SCIENCES, 2000, 323 (10) :841-851

[10] Over-expression of cystathionine γ-synthase in Arabidopsis thaliana leads to increased levels of methionine and S-methylmethionine [J].

Gakière, B ;

Denis, L ;

Droux, M ;

Job, D .

PLANT PHYSIOLOGY AND BIOCHEMISTRY, 2002, 40 (02) :119-126

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