Gene: PSO566G0075

General Information

Structural Information

  • Species Papaver somniferum
  • Gene Identifier PSO566G0075
  • Transcript Identifier PSO566G0075.01
  • Gene Type Coding gene
  • Location NW_020627707.1 : 7719153-7720645 : positive

Gene Family Information

  • ID HOM05D004892
  • #Genes/#Species 151/84
  • Phylogenetic origin

Gene Duplication Information

Labels

Identifiers

  • tid rna-XM_026583630.1
  • pid XP_026439415.1
  • id gene-LOC113338109

Descriptions

  • product methionine gamma-lyase-like
  • Loading (ortholog descriptions from ath)...

Functional Annotation

Biological Process

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0019346
IEA
InterProtranssulfuration
GO:0051289
ISO
PLAZA Integrative Orthologyprotein homotetramerization AT1G64660
GO:0009970
ISO
PLAZA Integrative Orthologycellular response to sulfate starvation AT1G64660
GO:0042631
ISO
PLAZA Integrative Orthologycellular response to water deprivation AT1G64660
GO:0019458
ISO
PLAZA Integrative Orthologymethionine catabolic process via 2-oxobutanoate AT1G64660

Molecular Function

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0030170
IEA
InterPropyridoxal phosphate binding
GO:0003824
IEA
InterProcatalytic activity
GO:0018826
ISO
PLAZA Integrative Orthologymethionine gamma-lyase activity AT1G64660

Cellular Component

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0005829
ISO
PLAZA Integrative Orthologycytosol AT1G64660

Color Legend

Experimental Evidence
Computational Reviewed Evidence
Electronic Evidence
GO Sources: Primary Orthology Homology
Show redundant parents:
InterPro Description
IPR000277 Cys/Met metabolism, pyridoxal phosphate-dependent enzyme
IPR015422 Pyridoxal phosphate-dependent transferase, small domain
IPR015424 Pyridoxal phosphate-dependent transferase
IPR015421 Pyridoxal phosphate-dependent transferase, major domain
Mapman id Description
4.1.2.2.8.2 Amino acid metabolism.biosynthesis.aspartate family.aspartate-derived amino acids.isoleucine.methionine gamma-lyase
4.2.9.1 Amino acid metabolism.degradation.methionine.methionine gamma-lyase