MET5/YJR137C Literature Guide

Other names published for MET5: ECM17, sulfite reductase (NADPH) subunit beta, YJR137C

MET5 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Other Topics

Additional Information

MET5 - Primary Literature (14)

Reference	Other Genes Addressed
Nishimura A, et al. (2013) The flavoprotein Tah18-dependent NO synthesis confers high-temperature stress tolerance on yeast cells. Biochem Biophys Res Commun 430(1):137-43	MET10 \| MPR1 \| MPR2 \| PUT1 \| TAH18
Ottosson LG, et al. (2010) Sulfate Assimilation Mediates Tellurite Reduction and Toxicity in Saccharomyces cerevisiae. Eukaryot Cell 9(10):1635-1647	ADE1 \| ADE5,7 \| ADE6 \| ADE8 \| AIM20 \| AIM29 \| ALD4 \| ARG82 \| ARO1 \| ARO2 \| ARP6 \| ASC1 \| BAP2 \| BCH2 \| MORE
Cordente AG, et al. (2009) Isolation of sulfite reductase variants of a commercial wine yeast with significantly reduced hydrogen sulfide production. FEMS Yeast Res 9(3):446-59	MET10
Barz T, et al. (2006) Control of methionine biosynthesis genes by protein kinase CK2-mediated phosphorylation of Cdc34. Cell Mol Life Sci 63(18):2183-90	CDC34 \| CKA1 \| CKA2 \| CKB1 \| CKB2 \| MET10 \| MET13 \| MET16 \| MET28 \| MET4
Aye M, et al. (2004) Host factors that affect Ty3 retrotransposition in Saccharomyces cerevisiae. Genetics 168(3):1159-76	AIM5 \| AMS1 \| BRO1 \| CDC39 \| CDH1 \| CKA1 \| CRG1 \| CYR1 \| DAP1 \| DML1 \| ECM30 \| FLC2 \| FLO5 \| FRE3 \| MORE
Hansen J, et al. (1997) Siroheme biosynthesis in Saccharomyces cerevisiae requires the products of both the MET1 and MET8 genes. FEBS Lett 401(1):20-4	MET1 \| MET10 \| MET8
Lussier M, et al. (1997) Large scale identification of genes involved in cell surface biosynthesis and architecture in Saccharomyces cerevisiae. Genetics 147(2):435-50	ACS1 \| ALG12 \| ALG9 \| ARG7 \| ATG32 \| BUD8 \| COX11 \| CWP2 \| DCG1 \| DFG16 \| DIT2 \| ECM10 \| ECM11 \| ECM12 \| MORE
Thomas D, et al. (1992) Physiological analysis of mutants of Saccharomyces cerevisiae impaired in sulphate assimilation. J Gen Microbiol 138(10):2021-8	MET1 \| MET10 \| MET8
Mountain HA, et al. (1991) Four major transcriptional responses in the methionine/threonine biosynthetic pathway of Saccharomyces cerevisiae. Yeast 7(8):781-803	GCN4 \| HOM2 \| HOM3 \| HOM6 \| MES1 \| MET14 \| MET2 \| MET3 \| MET6 \| THR1
Kobayashi K and Yoshimoto A (1982) Studies on yeast sulfite reductase. IV. Structure and steady-state kinetics. Biochim Biophys Acta 705(3):348-56	MET10
Kobayashi K and Yoshimoto A (1982) Studies on yeast sulfite reductase. V. Effects of ionic strength on enzyme activities. Biochim Biophys Acta 709(1):38-45	MET10
Kobayashi K and Yoshimoto A (1982) Studies on yeast sulfite reductase. VI. Use of the effects of ionic strength as a probe for enzyme structure and mechanism. Biochim Biophys Acta 709(1):46-52	MET10
Masselot M and De Robichon-Szulmajster H (1975) Methionine biosynthesis in Saccharomyces cerevisiae. I. Genetical analysis of auxotrophic mutants. Mol Gen Genet 139(2):121-32	HIS7 \| MET1 \| MET10 \| MET13 \| MET14 \| MET16 \| MET17 \| MET18 \| MET2 \| MET22 \| MET3 \| MET4 \| MET6 \| MET7 \| MORE
Yoshimoto A and Sato R (1968) Studies on yeast sulfite reductase. II. Partial purification and properties of genetically incomplete sulfite reductases. Biochim Biophys Acta 153(3):576-88	MET10