Decarboxylative Conversion of Hydroxycinnamic Acids to Hydroxystyrenes by Polyporus circinata

H. G. Bayne; B. J. Finkle; R. E. Lundin

doi:10.1099/00221287-95-1-188

Volume 95, Issue 1

Short Communication

Free

Decarboxylative Conversion of Hydroxycinnamic Acids to Hydroxystyrenes by Polyporus circinata

H. G. Bayne¹, B. J. Finkle and R. E. Lundin¹
View Affiliations Hide Affiliations

Affiliations: ¹ Western Regional Research Center, Agricultural Research Service, U.S. Department of Agriculture, Berkeley,California 94710, U.S.A.
Published: 01 July 1976 https://doi.org/10.1099/00221287-95-1-188

Preview this article:

There is no abstract available.

Received: 25/11/1975
Revised: 09/03/1976
Published Online: 01/07/1976

Article metrics loading...

/content/journal/micro/10.1099/00221287-95-1-188

1976-07-01

2024-05-10

Full text loading...

/deliver/fulltext/micro/95/1/mic-95-1-188.html?itemId=/content/journal/micro/10.1099/00221287-95-1-188&mimeType=html&fmt=ahah

References

Chen S. L., Peppler H. J. 1956; Conversion of cinnamaldehyde to styrene by a yeast mutant. Journal of Biological Chemistry 221:101–106
[Google Scholar]
Dale W. J., Hennis H. E. 1958; Substituted styrenes. III. The synthesis and some chemical properties of vinylphenols. Journal of the American Chemical Society 80:3645–3649
[Google Scholar]
Finkle B. J. 1965; Soil humic acid as a hydroxypolystyrene: a biochemical hypothesis. Nature; London: 207604–605
[Google Scholar]
Finkle B. J., Lewis J. C., Corse J. W., Lundin R. E. 1962; Enzyme reactions with phenolic compounds: formation of hydroxystyrenes through the decarboxylation of 4-hydroxycinnamic acids by Aerobacter. Journal of Biological Chemistry 237:2926–2931
[Google Scholar]
Herzog R. O., Ripke O. 1908; Conversion of cinnamic acid into styrene by molds. Zeitschrift für physiologische Chemie 57:43–45
[Google Scholar]
Indahl S. R., Scheline R. R. 1968; Decarboxylation of 4-hydroxycinnamic acids by Bacillus% strains isolated from rat intestine. Applied Microbiology 16:667
[Google Scholar]
Jaminet F. 1950; Hydrocarbonic fermentation in a total syrup mixture. Journal of Pharmacology, Belgium 5:191–201
[Google Scholar]
Lewis J. C., Thompson P. A. 1961; Microbiological production of chlorogenicase. Applied Microbiology 9:205–208
[Google Scholar]
Manitto P., Gramatica P., Ranzi B. M. 1975; Stereochemistry of the decarboxylation of phenolic cinnamic acids by Saccharomyces cerevisiae. Journal of the Chemical Society, Chemical Communications442–443
[Google Scholar]
Steinke R. D., Paulson M. C. 1964; The production of steam-volatile phenols during the cooking and alcoholic fermentation of grain. Journal of Agriculture and Food Chemistry 12:381–387
[Google Scholar]

http://instance.metastore.ingenta.com/content/journal/micro/10.1099/00221287-95-1-188

Volume 95, Issue 1

Short Communication

Free

Decarboxylative Conversion of Hydroxycinnamic Acids to Hydroxystyrenes by Polyporus circinata

Most read this month

Most cited Most Cited RSS feed

Generic Assignments, Strain Histories and Properties of Pure Cultures of Cyanobacteria

Metals, minerals and microbes: geomicrobiology and bioremediation

Quantification of biofilm structures by the novel computer program comstat

Clustered regularly interspaced short palindrome repeats (CRISPRs) have spacers of extrachromosomal origin

Autotrophic growth of anaerobic ammonium-oxidizing micro-organisms in a fluidized bed reactor

Plant-beneficial effects of Trichoderma and of its genes

The ecology, epidemiology and virulence of Enterococcus

Distribution of Menaquinones in Actinomycetes and Corynebacteria

Microbe Profile: Pseudomonas aeruginosa: opportunistic pathogen and lab rat

Biofilm exopolysaccharides: a strong and sticky framework