Physiological and Chemical Investigations into Microbial Degradation of Synthetic Poly( cis -1,4-isoprene)
2000; American Society for Microbiology; Volume: 66; Issue: 9 Linguagem: Inglês
10.1128/aem.66.9.3680-3685.2000
ISSN1098-5336
AutoresHelge B. Bode, Axel Zeeck, Kirsten Plückhahn, Dieter Jendrossek,
Tópico(s)Chemistry and Chemical Engineering
ResumoABSTRACT Streptomyces coelicolor 1A and Pseudomonas citronellolis were able to degrade synthetic high-molecular-weight poly( cis -1,4-isoprene) and vulcanized natural rubber. Growth on the polymers was poor but significantly greater than that of the nondegrading strain Streptomyces lividans 1326 (control). Measurement of the molecular weight distribution of the polymer before and after degradation showed a time-dependent increase in low-molecular-weight polymer molecules for S. coelicolor 1A and P. citronellolis , whereas the molecular weight distribution for the control ( S. lividans 1326) remained almost constant. Three degradation products were isolated from the culture fluid of S. coelicolor 1A grown on vulcanized rubber and were identified as ( 6Z )-2,6-dimethyl-10-oxo-undec-6-enoic acid, ( 5Z )-6-methyl-undec-5-ene-2,9-dione, and ( 5Z , 9Z )-6,10-dimethyl-pentadec-5,9-diene-2,13-dione. An oxidative pathway from poly( cis -1,4-isoprene) to methyl-branched diketones is proposed. It includes (i) oxidation of an aldehyde intermediate to a carboxylic acid, (ii) one cycle of β-oxidation, (iii) oxidation of the conjugated double bond resulting in a β-keto acid, and (iv) decarboxylation.
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