学术探索
学术期刊
新闻热点
数据分析
智能评审

POSSIBLE REGULATORY ROLE FOR NONAROMATIC CARBON-SOURCES IN STYRENE DEGRADATION BY PSEUDOMONAS-PUTIDA CA-3

被引:90
作者
OCONNOR, K
BUCKLEY, CM
HARTMANS, S
DOBSON, ADW
机构
[1] NATL UNIV IRELAND UNIV COLL CORK,DEPT FOOD MICROBIOL,CORK,IRELAND
[2] NATL UNIV IRELAND UNIV COLL CORK,NATL FOOD BIOTECHNOL CTR,CORK,IRELAND
[3] AGR UNIV WAGENINGEN,DEPT FOOD SCI,DIV IND MICROBIOL,6700 EV WAGENINGEN,NETHERLANDS
来源
APPLIED AND ENVIRONMENTAL MICROBIOLOGY | 1995年 / 61卷 / 02期
关键词
D O I
10.1128/AEM.61.2.544-548.1995
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Styrene metabolism in styrene-degrading Pseudomonas putida CA-3 cells has been shown to proceed via styrene oxide, phenylacetaldehyde, and phenylacetic acid. The initial step in styrene degradation by strain CA-3 is oxygen-dependent epoxidation of styrene to styrene oxide, which is subsequently isomerized to phenylacetaldehyde. Phenylacetaldehyde is then oxidized to phenylacetic acid. Styrene, styrene oxide, and phenylacetaldehyde induce the enzymes involved in the degradation of styrene to phenylacetic acid by P. putida CA-3. Phenylacetic acid-induced cells do not oxidize styrene or styrene oxide, Thus, styrene degradation by P. putida CA-3 can be subdivided further into an upper pathway which consists of styrene, styrene oxide, and phenylacetaldehyde and a lower pathway which begins with phenylacetic acid. Studies of the repression of styrene degradation by P. putida CA-3 show that glucose has no effect on the activity of styrene-degrading enzymes. However, both glutamate and citrate repress styrene degradation and phenylacetic acid degradation, shelving a common control mechanism on upper pathway and lower pathway intermediates.
引用
收藏
页码:544 / 548
页数:5
相关论文
共 19 条
  • [1] REGULATOR AND ENZYME SPECIFICITIES OF THE TOL PLASMID-ENCODED UPPER PATHWAY FOR DEGRADATION OF AROMATIC-HYDROCARBONS AND EXPANSION OF THE SUBSTRATE RANGE OF THE PATHWAY
    ABRIL, MA
    MICHAN, C
    TIMMIS, KN
    RAMOS, JL
    [J]. JOURNAL OF BACTERIOLOGY, 1989, 171 (12) : 6782 - 6790
  • [2] BAGGI G, 1983, SYST APPL MICROBIOL, V4, P141, DOI 10.1016/S0723-2020(83)80042-3
  • [3] ETHYLBENZENE DEGRADATION BY PSEUDOMONAS-FLUORESCENS STRAIN CA-4
    CORKERY, DM
    OCONNOR, KE
    BUCKLEY, CM
    DOBSON, ADW
    [J]. FEMS MICROBIOLOGY LETTERS, 1994, 124 (01) : 23 - 27
  • [4] METABOLISM OF 1-PHENYLETHANOL AND ACETOPHENONE BY NOCARDIA-T5 AND AN ARTHROBACTER SPECIES
    CRIPPS, RE
    TRUDGILL, PW
    WHATELEY, JG
    [J]. EUROPEAN JOURNAL OF BIOCHEMISTRY, 1978, 86 (01): : 175 - 186
  • [5] DUINE JA, 1986, FEMS MICROBIOL LETT, V32, P165
  • [6] GENE ORDER OF THE TOL CATABOLIC PLASMID UPPER PATHWAY OPERON AND OXIDATION OF BOTH TOLUENE AND BENZYL ALCOHOL BY THE XYLA PRODUCT
    HARAYAMA, S
    LEPPIK, RA
    REKIK, M
    MERMOD, N
    LEHRBACH, PR
    REINEKE, W
    TIMMIS, KN
    [J]. JOURNAL OF BACTERIOLOGY, 1986, 167 (02) : 455 - 461
  • [7] BACTERIAL-DEGRADATION OF STYRENE INVOLVING A NOVEL FLAVIN ADENINE DINUCLEOTIDE-DEPENDENT STYRENE MONOOXYGENASE
    HARTMANS, S
    VANDERWERF, MJ
    DEBONT, JAM
    [J]. APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 1990, 56 (05) : 1347 - 1351
  • [8] METABOLISM OF STYRENE OXIDE AND 2-PHENYLETHANOL IN THE STYRENE-DEGRADING XANTHOBACTER STRAIN 124X
    HARTMANS, S
    SMITS, JP
    VANDERWERF, MJ
    VOLKERING, F
    DEBONT, JAM
    [J]. APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 1989, 55 (11) : 2850 - 2855
  • [9] CARBON SOURCE-DEPENDENT INHIBITION OF XYL OPERON EXPRESSION OF THE PSEUDOMONAS-PUTIDA TOL PLASMID
    HOLTEL, A
    MARQUES, S
    MOHLER, I
    JAKUBZIK, U
    TIMMIS, KN
    [J]. JOURNAL OF BACTERIOLOGY, 1994, 176 (06) : 1773 - 1776
  • [10] LWORY OH, 1951, J BIOL CHEM, V193, P265
12