The Structure and Synthesis of Malformin A

Bodanszky, Miklos; Stahl, Glenn L.

doi:10.1073/pnas.71.7.2791

Cited by 65 publications

(23 citation statements)

References 17 publications

(21 reference statements)

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“…The present work has demonstrated that the enzyme which catalyzes the a$-elimination reaction of D-cysteine, D-cysteine desulfhydrase, occurs in E. [32], contain Dcysteine as a component. Therefore, it might be possible that D-cysteine desulfhydrase takes part in the detoxification of catabolic degradation of D-cysteine-containing toxic compounds, which happen to invade or to be produced in bacterial cells.…”

Section: Serological Propertiesmentioning

confidence: 60%

d‐Cysteine desulfhydrase of Escherichia coli

Nagasawa

Ishii

Kumagai

et al. 1985

European Journal of Biochemistry

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D-Cysteine-specific desulfhydrase is found in some intestinal bacteria. Escherichiu coli W 31 10 AtrpED 102/ F'AlrpED102 was found to have the highest enzyme activity. The enzyme was purified from E. coli W3110 AtrpED 102/F'AtrpED 102 in six steps. After the last step the enzyme appeared to be homogeneous by the criteria of polyacrylarnide gel electrophoresis, analytical ultracentrifugation and double diffusion in agarose. The enzyme has a molecular mass of about 67000 Da and consists of two subunits identical in molecular mass. The enzyme exhibits absorption maxima at 278 nm and 418 nm, which are independent of pH (6.5-10.5), and contains 2 mol pyridoxal phosphate/mol enzyme. Thc holoenzyme is resolved to the apoenzyme by incubation with phenylhydrazine, and reconstituted on the addition of pyridoxal phosphate. D-Cysteine desulfhydrase also catalyzes the fl-replacement reaction of the chlorine of 3-chIoro-~-alanine with thioglycolic acid to yield S-carboxymethyl-D-cysteine. Its catalytic and iinmunological properties are compared with those of 3-chloro-ualanine dehydrochlorinase.L-Cysteine desulfhydrase has been demonstrated in numerous bacterial species [I -31 and its optical specificity for L-cysteine has been reported. S-Alkylcysteine lyase and cysteine-conjugated fl-lyase, which catalyze the a,fl-elimination reaction of S-substituted cysteine derivatives, are also specific to the L isomer [4 -61. With respect to the C -S lyase specific for the wisoiner, it was first reported in 1954 that D-cysteine desulfliydrase activity had been detected in E.sc~hcric~hia coli [7]. Since then there have been no reports on the enzyme of E. cob' and the details of D-cySteine desulfhydrase were unknown. Recently D-cysteine desulfhydrasc was found in a green alga, C, 'hlorellu,fu.sca [8], and in spinach lcaves [9]. The enzymes froin both sources were partially purified and found to be specific for D-cysteine, having no activity towards L-cysteine. However, these enzymes have not been characterized fully; for example, it has not been clarified whether or not the enzymes arc pyridoxal-P-dependent.Recently we found marked activity of catalysis of the m,/jelimination of u-cysteine and 3-chloro-D-alaninc in E. coli C'orrc..yona'enrr fo T. Nagasawa,

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Section: Serological Propertiesmentioning

confidence: 60%

d‐Cysteine desulfhydrase of Escherichia coli

Nagasawa

Ishii

Kumagai

et al. 1985

European Journal of Biochemistry

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“…Malformin, cyclo-D-cysteinyl-D-cysteinyl-L-valyl-L-leucyl-Lisoleucyl (2), is a potent plant growth regulatory produced by the fungus Aspergillus niger (4). The ability of malformin to stimulate plant growth in light was recently shown to involve phytochrome (8).…”

mentioning

confidence: 99%

Induction of Resistance to Dark Abscission by Malformin in White Light

Curtis

1978

Plant Physiol.

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“…The less hindered amide bond between D-cysteine and L-valine was chosen for cyclization because the cyclization position between Dleucine and L-isoleucine has already been investigated in the stepwise synthesis of malformin A1 [7].…”

Section: Resultsmentioning

confidence: 99%