Gene: CSS0005230

General Information

Structural Information

  • Species Camellia sinensis var. sinensis
  • Gene Identifier CSS0005230
  • Transcript Identifier CSS0005230.1
  • Gene Type Coding gene
  • Location Chr1 : 31847310-31853994 : positive

Gene Family Information

  • ID HOM05D001260
  • #Genes/#Species 496/100
  • Phylogenetic origin

Gene Duplication Information

Labels

Identifiers

  • tid CSS0005230.1

Descriptions

  • Description unnamed protein product [Vitis vinifera]
  • Loading (ortholog descriptions from ath)...

Functional Annotation

Biological Process

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0009396
IEA
InterProfolic acid-containing compound biosynthetic process
GO:0009058
IEA
InterProbiosynthetic process
GO:0048364
ISO
PLAZA Integrative Orthologyroot development AT5G05980
GO:1904961
ISO
PLAZA Integrative Orthologyquiescent center organization AT5G05980
GO:0010449
ISO
PLAZA Integrative Orthologyroot meristem growth AT5G05980
GO:0009809
ISO
PLAZA Integrative Orthologylignin biosynthetic process AT5G05980
GO:0048767
ISO
PLAZA Integrative Orthologyroot hair elongation AT5G05980
GO:0046901
ISO
PLAZA Integrative Orthologytetrahydrofolylpolyglutamate biosynthetic process AT3G55630
GO:0006730
ISO
PLAZA Integrative Orthologyone-carbon metabolic process AT3G55630

Molecular Function

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0004326
IEA
InterProtetrahydrofolylpolyglutamate synthase activity
GO:0005524
IEA
InterProATP binding

Cellular Component

GO termEvidence(s)Provider(s)DescriptionSource(s)
GO:0009570
ISO
PLAZA Integrative Orthologychloroplast stroma AT5G05980
GO:0005829
ISO
PLAZA Integrative Orthologycytosol AT3G55630

Color Legend

Experimental Evidence
Computational Reviewed Evidence
Electronic Evidence
GO Sources: Primary Orthology Homology
Show redundant parents:
InterPro Description
IPR001645 Folylpolyglutamate synthetase
IPR036565 Mur-like, catalytic domain superfamily
Mapman id Description
7.5.6 Coenzyme metabolism.tetrahydrofolate metabolism.folyl-polyglutamate synthetase