DIRECTED EVOLUTION OF BIOSYNTHETIC PATHWAYS - RECRUITMENT OF CYSTEINE THIOETHERS FOR CONSTRUCTING THE CELL-WALL OF ESCHERICHIA-COLI

被引:0
|
作者
RICHAUD, C
MENGINLECREULX, D
POCHET, S
JOHNSON, EJ
COHEN, GN
MARLIERE, P
机构
[1] INST PASTEUR, UNITE PHYSIOL CELLULAIRE, CNRS, URA 1300, F-75724 PARIS 15, FRANCE
[2] INST PASTEUR, UNITE CHIM ORGAN, CNRS, URA 487, F-75724 PARIS 15, FRANCE
[3] INST PASTEUR, UNITE BIOCHIM CELLULAIRE, CNRS, URA 1129, F-75724 PARIS 15, FRANCE
[4] UNIV PARIS 11, BIOCHIM MOLEC & CELLULAIRE LAB, CNRS, URA 1131, F-91405 ORSAY, FRANCE
[5] TULANE UNIV, SCH MED, DEPT MICROBIOL & IMMUNOL, NEW ORLEANS, LA 70112 USA
来源
JOURNAL OF BIOLOGICAL CHEMISTRY | 1993年 / 268卷 / 36期
关键词
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中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
We report that expansion of thioether biosynthesis in Escherichia coli generates sulfur-containing amino acids that can replace meso-diaminopimelate, the essential amino acid used for cross-linking the cell wall. This was accomplished by jointly overexpressing the metB gene coding for L-cystathionine gamma-synthase and disrupting the metC gene, whose product, L-cystathionine beta-lyase, is responsible for the destruction of L-cystathionine and other L-cysteine thioethers. As a result, meso-lanthionine and L-allo-cystathionine were produced endogenously and incorporated in the peptidoglycan, thereby enabling E. coli strains auxotrophic for diaminopimelate to grow in its absence. Thus, current techniques of metabolic engineering can be applied to evolving the chemical constitution of living cells beyond its present state.
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页码:26827 / 26835
页数:9
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