Alanine: glyoxylate aminotransferase of Saccharomyces cerevisiae - encoding gene AGX1 and metabolic significance

Schlösser, T.; Gätgens, C.; Stahmann, K. P.; Weber, U.

doi:10.1002/yea.1058

Items
Marc 21

001			32554
005			20180210124437.0
024	7	_	\|2 pmid \|a pmid:14745783
024	7	_	\|2 DOI \|a 10.1002/yea.1058
024	7	_	\|2 WOS \|a WOS:000188635600006
037	_	_	\|a PreJuSER-32554
041	_	_	\|a eng
082	_	_	\|a 570
084	_	_	\|2 WoS \|a Biochemistry & Molecular Biology
084	_	_	\|2 WoS \|a Biotechnology & Applied Microbiology
084	_	_	\|2 WoS \|a Microbiology
084	_	_	\|2 WoS \|a Mycology
100	1	_	\|a Schlösser, T. \|b 0 \|u FZJ \|0 P:(DE-Juel1)VDB2840
245	_	_	\|a Alanine: glyoxylate aminotransferase of Saccharomyces cerevisiae - encoding gene AGX1 and metabolic significance
260	_	_	\|a New York, NY [u.a.] \|b Wiley \|c 2004
300	_	_	\|a 63 - 73
336	7	_	\|a Journal Article \|0 PUB:(DE-HGF)16 \|2 PUB:(DE-HGF)
336	7	_	\|a Output Types/Journal article \|2 DataCite
336	7	_	\|a Journal Article \|0 0 \|2 EndNote
336	7	_	\|a ARTICLE \|2 BibTeX
336	7	_	\|a JOURNAL_ARTICLE \|2 ORCID
336	7	_	\|a article \|2 DRIVER
440	_	0	\|a Yeast \|x 0749-503X \|0 9023 \|y 1 \|v 21
500	_	_	\|a Record converted from VDB: 12.11.2012
520	_	_	\|a Alanine : glyoxylate aminotransferase is one of three different enzymes used for glycine synthesis in Saccharomyces cerevisiae. The open reading frame YFL030w (named AGX1 in the following), encoding this enzyme, was identified by comparing enzyme specific activities in knockout strains. While 100% activity was detectable in the parental strain, 2% was found in a YFL030w::kanMX4 strain. The ORF found at that locus was suspected to encode alanine : glyoxylate aminotransferase because its predicted amino acid sequence showed 23% identity to the human homologue. Since the YFL030w::kanMX4 strain showed no glycine auxtrophic phenotype, AGX1 was replaced by KanMX4 in a Delta GLY1 Delta SHM1 Delta SHM2 background. These background mutations, which cause inactivation of threonine aldolase, mitochondrial and cytosolic serine hydroxymethyltransferase, respectively, lead to a conditional glycine auxotrophy. This means that growth is not possible on glucose but on ethanol as the sole carbon source. Additional disruption of AGX1 revealed a complete glycine auxotrophy. Complementation was observed by transformation with a plasmid-encoded AGX1.
536	_	_	\|a Biotechnologie \|c L02 \|2 G:(DE-HGF) \|0 G:(DE-Juel1)FUEK256 \|x 0
588	_	_	\|a Dataset connected to Web of Science, Pubmed
650	_	2	\|2 MeSH \|a Alanine: metabolism
650	_	2	\|2 MeSH \|a Amino Acid Sequence
650	_	2	\|2 MeSH \|a Animals
650	_	2	\|2 MeSH \|a Base Sequence
650	_	2	\|2 MeSH \|a DNA, Fungal: chemistry
650	_	2	\|2 MeSH \|a DNA, Fungal: genetics
650	_	2	\|2 MeSH \|a Glycine: biosynthesis
650	_	2	\|2 MeSH \|a Glyoxylates: metabolism
650	_	2	\|2 MeSH \|a Humans
650	_	2	\|2 MeSH \|a Models, Chemical
650	_	2	\|2 MeSH \|a Molecular Sequence Data
650	_	2	\|2 MeSH \|a Mutagenesis, Insertional
650	_	2	\|2 MeSH \|a Orotic Acid: analogs & derivatives
650	_	2	\|2 MeSH \|a Orotic Acid: metabolism
650	_	2	\|2 MeSH \|a Saccharomyces cerevisiae: enzymology
650	_	2	\|2 MeSH \|a Saccharomyces cerevisiae: genetics
650	_	2	\|2 MeSH \|a Selection, Genetic
650	_	2	\|2 MeSH \|a Sequence Alignment
650	_	2	\|2 MeSH \|a Transaminases: genetics
650	_	2	\|2 MeSH \|a Transaminases: metabolism
650	_	7	\|0 0 \|2 NLM Chemicals \|a DNA, Fungal
650	_	7	\|0 0 \|2 NLM Chemicals \|a Glyoxylates
650	_	7	\|0 298-12-4 \|2 NLM Chemicals \|a glyoxylic acid
650	_	7	\|0 56-40-6 \|2 NLM Chemicals \|a Glycine
650	_	7	\|0 56-41-7 \|2 NLM Chemicals \|a Alanine
650	_	7	\|0 65-86-1 \|2 NLM Chemicals \|a Orotic Acid
650	_	7	\|0 703-95-7 \|2 NLM Chemicals \|a 5-fluoroorotic acid
650	_	7	\|0 EC 2.6.1.- \|2 NLM Chemicals \|a Transaminases
650	_	7	\|0 EC 2.6.1.44 \|2 NLM Chemicals \|a Alanine-glyoxylate transaminase
650	_	7	\|a J \|2 WoSType
653	2	0	\|2 Author \|a alanine : glyoxylate aminotransferase
653	2	0	\|2 Author \|a glycine biosynthesis
653	2	0	\|2 Author \|a amino acid metabolism
653	2	0	\|2 Author \|a Saccharomyces cerevisiae
653	2	0	\|2 Author \|a fungi
700	1	_	\|a Gätgens, C. \|b 1 \|u FZJ \|0 P:(DE-Juel1)VDB2847
700	1	_	\|a Weber, U. \|b 2 \|u FZJ \|0 P:(DE-Juel1)VDB2942
700	1	_	\|a Stahmann, K. P. \|b 3 \|u FZJ \|0 P:(DE-Juel1)VDB12831
773	_	_	\|a 10.1002/yea.1058 \|g Vol. 21, p. 63 - 73 \|p 63 - 73 \|q 21<63 - 73 \|0 PERI:(DE-600)1479172-9 \|t Yeast \|v 21 \|y 2004 \|x 0749-503X
856	7	_	\|u http://dx.doi.org/10.1002/yea.1058
909	C	O	\|o oai:juser.fz-juelich.de:32554 \|p VDB
913	1	_	\|k L02 \|v Biotechnologie \|l Biotechnologie \|b Leben \|0 G:(DE-Juel1)FUEK256 \|x 0
914	1	_	\|y 2004
915	_	_	\|0 StatID:(DE-HGF)0010 \|a JCR/ISI refereed
920	1	_	\|k IBT-1 \|l Biotechnologie 1 \|g IBT \|z ab 31.10.10 weitergeführt als IBG-1 \|0 I:(DE-Juel1)VDB55 \|x 0
970	_	_	\|a VDB:(DE-Juel1)35369
980	_	_	\|a VDB
980	_	_	\|a ConvertedRecord
980	_	_	\|a journal
980	_	_	\|a I:(DE-Juel1)IBG-1-20101118
980	_	_	\|a UNRESTRICTED
981	_	_	\|a I:(DE-Juel1)IBG-1-20101118

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Marc 21

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