A PHOSPHORYLATED DNA-BINDING PROTEIN IS SPECIFIC FOR THE RED-LIGHT SIGNAL DURING COMPLEMENTARY CHROMATIC ADAPTATION IN CYANOBACTERIA

被引：24

作者：

SOBCZYK, A ^{[1
]}

BELY, A ^{[1
]}

DEMARSAC, NT ^{[1
]}

HOUMARD, J ^{[1
]}

机构：

[1] INST PASTEUR,DEPT BIOCHIM & GENET MOLEC,CNRS,URA 1129,F-75724 PARIS 15,FRANCE

来源：

MOLECULAR MICROBIOLOGY | 1994年 / 13卷 / 05期

关键词：

D O I：

10.1111/j.1365-2958.1994.tb00479.x

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：

Complementary chromatic adaptation is a mechanism by which some cyanobacteria that are able to synthesize phycoerythrin can adapt their pigment (phycobiliprotein) content to the incident wavelengths of the light. In Calothrix sp. PCC 7601 it concerns phycoerythrin (cpe operon), synthesized under green light, and phycocyanin-2 (cpc2 operon), expressed under red fight, and involves transcriptional controls. With cell-free extracts from Calothrix sp. PCC 7601 grown under various light regimes, a protein designated RcaD was found by gel retardation experiments to specifically bind to the cpc2 promoter region and to be present only in red-light-grown cells. This protein was partially purified and its binding activity was shown to be sensitive to an alkaline phosphatase treatment. RcaD can protect two regions of the cpc2 promoter sequence against degradation by DNase I. Because its activity is detected only under the conditions required for cpc2 expression, we propose that RcaD is a positive effector of transcription.

引用

页码：875 / 885

页数：11

共 48 条

[1]

ADHYA S, 1989, ANNU REV GENET, V23, P227, DOI 10.1146/annurev.genet.23.1.227

[2] REGULATION OF ACTIVITY OF A TRANSCRIPTIONAL ANTITERMINATOR IN ESCHERICHIA-COLI BY PHOSPHORYLATION INVIVO [J].

AMSTERCHODER, O ;

WRIGHT, A .

SCIENCE, 1990, 249 (4968) :540-542

[3] CLONING OF THE PHYCOBILISOME ROD LINKER GENES FROM THE CYANOBACTERIUM SYNECHOCOCCUS SP PCC-6301 AND THEIR INACTIVATION IN SYNECHOCOCCUS SP PCC-7942 [J].

BHALERAO, RP ;

LIND, LK ;

PERSSON, CE ;

GUSTAFSSON, P .

MOLECULAR AND GENERAL GENETICS, 1993, 237 (1-2) :89-96

[4]

BORESCH K, 1921, ARCH PROTISTKEND, V44, P1

[5] SIGNAL TRANSDUCTION PATHWAYS INVOLVING PROTEIN-PHOSPHORYLATION IN PROKARYOTES [J].

BOURRET, RB ;

BORKOVICH, KA ;

SIMON, MI .

ANNUAL REVIEW OF BIOCHEMISTRY, 1991, 60 :401-441

[6]

BRADFORD MM, 1976, ANAL BIOCHEM, V72, P248, DOI 10.1016/0003-2697(76)90527-3

[7] LIGHT AS A SIGNAL INFLUENCING THE PHOSPHORYLATION STATUS OF PLANT-PROTEINS [J].

BUDDE, RJA ;

RANDALL, DD .

PLANT PHYSIOLOGY, 1990, 94 (04) :1501-1504

[8] COMPLEMENTATION OF A RED-LIGHT-INDIFFERENT CYANOBACTERIAL MUTANT [J].

CHIANG, GG ;

SCHAEFER, MR ;

GROSSMAN, AR .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1992, 89 (20) :9415-9419

[9] THE STRUCTURE AND REGULATION OF PROTEIN PHOSPHATASES [J].

COHEN, P .

ANNUAL REVIEW OF BIOCHEMISTRY, 1989, 58 :453-508

[10] CONTROL SITE LOCATION AND TRANSCRIPTIONAL REGULATION IN ESCHERICHIA-COLI [J].

COLLADOVIDES, J ;

MAGASANIK, B ;

GRALLA, JD .

MICROBIOLOGICAL REVIEWS, 1991, 55 (03) :371-394

← 1 2 3 4 5 →