Nitrogen catabolite repression in Saccharomyces cerevisiae

被引:200
作者
Hofman-Bang, J [1 ]
机构
[1] Tech Univ Denmark, Dept Biotechnol, DK-2800 Lyngby, Denmark
来源
MOLECULAR BIOTECHNOLOGY | 1999年 / 12卷 / 01期
关键词
Saccharomyces cerevisiae; nitrogen catabolite repression; Gln3; Gat1; Dal80; Deh1;
D O I
10.1385/MB:12:1:35
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
In Saccharomyces cerevisiae the expression of all known nitrogen catabolite pathways are regulated by four regulators known as Gln3, Gat1, Da180, and Deh1. This is known as nitrogen catabolite repression (NCR). They bind to motifs in the promoter region to the consensus sequence S' GATAA 3'. Gln3 and Gat1 act positively on gene expression whereas :Da180 and Deh1 act negatively. Expression of nitrogen catabolite pathway genes known to be regulated by these four regulators are glutamine, glutamate, proline, urea, arginine, GABA, and allantoine. In addition, the expression of the genes encoding the general amino acid permease and the ammonium permease are also regulated by these four regulatory proteins. Another group of genes whose expression is also regulated by Gln3, Gat1, Da180, and Deh1 are some proteases, CPS1, PRB1, LAP1, and PEP4, responsible for the degradation of proteins into amino acids thereby providing a nitrogen source to the cell. In this review, all known promoter sequences related to expression of nitrogen catabolite pathways are discussed as well as other regulatory proteins. Overview of metabolic pathways and promoters are presented.
引用
收藏
页码:35 / 73
页数:39
相关论文
共 172 条
  • [1] ANDRE B, 1990, MOL GEN GENET, V220, P269
  • [2] 2 MUTUALLY EXCLUSIVE REGULATORY SYSTEMS INHIBIT UAS(GATA), A CLUSTER OF 5'-GAT(A/T)A-3' UPSTREAM FROM THE UGA4 GENE OF SACCHAROMYCES-CEREVISIAE
    ANDRE, B
    TALIBI, D
    BOUDEKOU, SS
    HEIN, C
    VISSERS, S
    COORNAERT, D
    [J]. NUCLEIC ACIDS RESEARCH, 1995, 23 (04) : 558 - 564
  • [3] ANDRE B, 1993, MOL GEN GENET, V237, P17
  • [4] NUCLEOTIDE-SEQUENCE OF THE YEAST UGA1-GENE ENCODING GABA TRANSAMINASE
    ANDRE, B
    JAUNIAUX, JC
    [J]. NUCLEIC ACIDS RESEARCH, 1990, 18 (10) : 3049 - 3049
  • [5] GDH3 encodes a glutamate dehydrogenase isozyme, a previously unrecognized route for glutamate biosynthesis in Saccharomyces cerevisiae
    Avendano, A
    Deluna, A
    Olivera, H
    Valenzuela, L
    Gonzalez, A
    [J]. JOURNAL OF BACTERIOLOGY, 1997, 179 (17) : 5594 - 5597
  • [6] PROLINE-INDEPENDENT BINDING OF PUT3 TRANSCRIPTIONAL ACTIVATOR PROTEIN DETECTED BY FOOTPRINTING INVIVO
    AXELROD, JD
    MAJORS, J
    BRANDRISS, MC
    [J]. MOLECULAR AND CELLULAR BIOLOGY, 1991, 11 (01) : 564 - 567
  • [7] 3 REGULATORY SYSTEMS CONTROL EXPRESSION OF GLUTAMINE-SYNTHETASE IN SACCHAROMYCES-CEREVISIAE AT THE LEVEL OF TRANSCRIPTION
    BENJAMIN, PM
    WU, JL
    MITCHELL, AP
    MAGASANIK, B
    [J]. MOLECULAR & GENERAL GENETICS, 1989, 217 (2-3): : 370 - 377
  • [8] Bisson L.F., 1991, INT S NITR GRAP WIN, P78
  • [9] Interaction of the GATA factor Gln3p with the nitrogen regulator Ure2p in Saccharomyces cerevisiae
    Blinder, D
    Coschigano, PW
    Magasanik, B
    [J]. JOURNAL OF BACTERIOLOGY, 1996, 178 (15) : 4734 - 4736
  • [10] RECOGNITION OF NITROGEN-RESPONSIVE UPSTREAM ACTIVATION SEQUENCES OF SACCHAROMYCES-CEREVISIAE BY THE PRODUCT OF THE GLN3 GENE
    BLINDER, D
    MAGASANIK, B
    [J]. JOURNAL OF BACTERIOLOGY, 1995, 177 (14) : 4190 - 4193
12345678910