Gene Details:

Protein Features:

Annotation Proteins:

  • Refseq:  XP_004307578.1  — PREDICTED: delta-1-pyrroline-5-carboxylate synthase
  • Swissprot:  O04015  — P5CS_ACTDE; Delta-1-pyrroline-5-carboxylate synthase
  • TrEMBL:  A0A2P6SKS1  — A0A2P6SKS1_ROSCH; Delta-1-pyrroline-5-carboxylate synthase
  • STRING:  XP_004307578.1  — (Fragaria vesca)

Gene Ontology:

  • GO:0006561  — Biological Process — proline biosynthetic process
  • GO:0009555  — Biological Process — pollen development
  • GO:0009737  — Biological Process — response to abscisic acid
  • GO:0009793  — Biological Process — embryo development ending in seed dormancy
  • GO:0042538  — Biological Process — hyperosmotic salinity response
  • GO:0055114  — Biological Process — oxidation-reduction process
  • GO:0005829  — Cellular Component — cytosol
  • GO:0009506  — Cellular Component — plasmodesma
  • GO:0009507  — Cellular Component — chloroplast
  • GO:0003677  — Molecular Function — DNA binding
  • GO:0004349  — Molecular Function — glutamate 5-kinase activity
  • GO:0004350  — Molecular Function — glutamate-5-semialdehyde dehydrogenase activity

Family Introduction:

  • The plant-specific B3 superfamily encompasses well-characterized families, such as the auxin response factor (ARF) family and the LAV family, as well as less well understood families, such as RAV and REM.
  • All members of the B3 superfamily contain an ~ 110 amino acid region called the B3 domain. This domain was initially named because it was the third basic domain in the maize gene VIVIPAROUS1 (VP1).
  • The first and second basic domains (B1 and B2) are specific to the VP1-like proteins, but genes that contain the B3 domain are widespread in plant genomes. The B3 domain of VP1 encodes a sequence-specific DNA binding activity.

Literature:

Sequences:

CDS Sequence:
  • >mrna20854.1-v1.0-hybrid|Fragaria_vesca|B3|mrna20854.1-v1.0-hybrid
    ATGCCAAGAGCTTTTGTCACCCACTTCAATGGACCAGCACTTTGCAAACTTCAAGGCCCTACTGGAAAATCCTGGGATGTGAAATTGGAAGAGAAAAATAATGAAATTTTCTTCCATAAAGGCTGGAAGAAGTTTCTGAAGGATAATTTTTTGGATGGAGGAGACTTTCTGGTTTTCAATTATGATGGTGATTCGTGTTTCAGTGTGACAATCTATGATGAAAGTTCATGTGAAATGGACATGGAAGTAGCCAAGACAAAGAGAAGTGGCGGTGGTCGAAGAAGGGATCACATTTGGCCTGGGGAGTCAAGAATCATTGAGTTCAACTCAAAGCATTTTTGCTTCAAGAGGACTTTTACGAAGCACAAATTGTATCAGCTGACCATTCCTATAAAGATAGTCAGGGCAAAGCTTCAGATGAGCAAGCAGATTTTGGAGCTTCGGGATCCAAAAAACATGTCATGGCCTGTTACAGCGACTCCCATCCCAGATGGTCGTCTACTTATGACCACAGGCTGGTGTGATTGTTGCAAGGCGAACAAGATTGAGGAAGGGCACACCATTGTCTTTGAGTTTGTGAAGGGACATGTGAAGCTCCACATCTTTAGATCTGAGGGGTGTAATGTGATACTCATAGCTGTTGCCCTCATTATCAACCGATTGGTTTTTGGTACACATTCGCATGCAAGTGCTGTTGTTTCTCACAATGCAAGCTCAAGATTCAGTGATGGTGCTCGATTTGGACTTGGGGCAGAGGTAGGGATAAGCACAAGTCGAATTCATGCTCAGGGTCATGGACTACTGTTAACAACGAAATGCCACCGCAGATTTAGCAGCAAACAACGGCTGCATTCTCTTCTCCGAAAAAAAAACCCTATCAAAGATAGAAAGAAAAAAGAGCAGACACCGCCGAGTTCGACTCGTTTGGGTTTTGTGGACCGAGTTTTGACTCGCCGCCGGGAAGTGATGGGTGACGTGGATAGCTCTCGGGGTTTCCTCAGAGATGTCAAGCGCATCGTGCTTAAGGTTGGGACTGCTGTTGTGACTAGGAAAGATGGGAGGATTGCGCTTGGGAGATTAGGGGCGCTTTGTGAGCAGCTGAAGGAGTTGAACACTCAAGGATATGAGGTTATATTGGTGTCGTCTGGAGCGGTGGGGCTCGGCCGCCAAAGGCTCAAATACAGGAAATTGATTAACAGCAGTTTTGCTGATCTTCAGAAGCCACAAGTTGAACTCGACGGGAAGGCATGTGCGGCAGTTGGACAGAACTGTCTGATGGCTCTCTATGATACGTTGTTTAGTCAGTTGGATGTGTCATCAGCGCAGCTTCTTGTAACAGATAGTGATTTTAGGGACAGAGATTTTAGGAAGCAACTTAGCGATACAGTGAAATCATTGTTATCTTTGAAGGTTATTCCCATATTTAATGAGAATGATGCAGTCAGTACGAGGAGAGCTCCATATGAGGATTCTTCTGGTATATTTTGGGATAATGATAGTTTAGCAGCTCTACTTGCTTTGGAGCTAAAGGCCGATCTTCTTGTTCTTTTGAGTGATGTTGAGGGTCTGTATAGTGGGCCTCCAAGTGACCCACGTTCAGAGCTTATCCATACCTACATAAAGGAGAAGCATCAGACTGAAATTACTTTTGGTGACAAGTCTAGAGTGGGAAGAGGGGGTATGACTGCTAAAGTAAAAGCTGCTGTTAATGCTGCTTATGCTGGCATCCCTGTTATCATCACCAGTGGATATGCTCCTGAAAACCTCACTAAAGTCCTTCAAGGGGAACGCATTGGTACCCTCTTCCATCAAGATGCACATTTATGGTGTTCTGTTAAAGATGTTGATGCAAGAGGGATGGCAATTGCAGCAAGGGAAAGTTCCAGACGTCTACAGGCCATGACTTCAGAGCAAAGGAAAAAAATTCTTCTGGATATAGCCGATGCAATTGAAGCAAATGCAAAAAAGATCAATGTTGAAAATGAAGCTGATGTTTCTGCTGCACAACAAGCAGGATATGAAAAATCCTTGGTAGCTCGTCTGGCTCTAAAGCCGGGCAAGATTACAAGTCTTGCAAATTCTGTTCGTGTCCTTGCAAACATGGAAGATCCAATTGGTCATGTTTTGAAAAAGACTGAGCTTGCAGACGGTCTTGTCTTAGAGAAAACATCAAGTCCATTGGGCGTTCTCTTGATTGTATTCGAATCCCGTCCTGATGCACTAGTACAGATAGCTTCATTAGCCATCCGAAGCGGGAATGGGCTTCTCTTGAAGGGGGGAAAGGAGGCTAAGAGATCGAACGCAATTTTACATAAGGTTATTACAGAAGCCATCCCAGAGAGTGTTGGTGGGAAGCTAATTGGACTTGTTACTTCAAGAGAGGAGATTCCAGATCTGCTTAAGCTTGACGATGTGATTGATCTTGTGATCCCAAGAGGCAGCAATAAACTGGTTTCTCAAATTAAGAATTCGACCAAGATTCCAGTTTTGGGGCATGCTGATGGAATATGCCATGTTTATGTTGACAAGTCTGCAAATATGGATATGGCAAAGCAAATTGTTTTAGATGCAAAACTAGATTATCCAGCAGCCTGTAATGCAATGGAAACACTTCTTGTACATAAGGATTTAATGCATACGACTCCCTTCAATGATCTTATTGTTGACCTTCGTTCTGAAGGGGTTACATTATATGGTGGACCAAGGGCGAGTGTGTTTCTCCATATTCCAGAGGCACATTCGTTTCATCTAGAGTACAGTTCATTGGCTTGCACTATTGATGCACATACTGAGTGCATCATTGCAGAAGACCAAGAAGTTGTTAATGCATTTTTTGGTCAAGTTGACAGTGCTGCTGTCTTTCACAATGCAAGCACAAGGTTTTGTGATGGTGCTCGATTTGGACTTGGTGCAGAGGTTGGGATAAGTACAAGTCGCATTCATGCTCGGGGTCCTGTAGGAGTAGAAGGATTGTTAACGACCAGATGGATTCTGAAAGGAAGTGGACAAGTAGTGAATGGTGATAAGGGGATCATTTACACCCACAAGGACCTCCCAATTGAGCCCTAA
Protein Sequence:
  • >mrna20854.1-v1.0-hybrid|Fragaria_vesca|B3|mrna20854.1-v1.0-hybrid
    MPRAFVTHFNGPALCKLQGPTGKSWDVKLEEKNNEIFFHKGWKKFLKDNFLDGGDFLVFNYDGDSCFSVTIYDESSCEMDMEVAKTKRSGGGRRRDHIWPGESRIIEFNSKHFCFKRTFTKHKLYQLTIPIKIVRAKLQMSKQILELRDPKNMSWPVTATPIPDGRLLMTTGWCDCCKANKIEEGHTIVFEFVKGHVKLHIFRSEGCNVILIAVALIINRLVFGTHSHASAVVSHNASSRFSDGARFGLGAEVGISTSRIHAQGHGLLLTTKCHRRFSSKQRLHSLLRKKNPIKDRKKKEQTPPSSTRLGFVDRVLTRRREVMGDVDSSRGFLRDVKRIVLKVGTAVVTRKDGRIALGRLGALCEQLKELNTQGYEVILVSSGAVGLGRQRLKYRKLINSSFADLQKPQVELDGKACAAVGQNCLMALYDTLFSQLDVSSAQLLVTDSDFRDRDFRKQLSDTVKSLLSLKVIPIFNENDAVSTRRAPYEDSSGIFWDNDSLAALLALELKADLLVLLSDVEGLYSGPPSDPRSELIHTYIKEKHQTEITFGDKSRVGRGGMTAKVKAAVNAAYAGIPVIITSGYAPENLTKVLQGERIGTLFHQDAHLWCSVKDVDARGMAIAARESSRRLQAMTSEQRKKILLDIADAIEANAKKINVENEADVSAAQQAGYEKSLVARLALKPGKITSLANSVRVLANMEDPIGHVLKKTELADGLVLEKTSSPLGVLLIVFESRPDALVQIASLAIRSGNGLLLKGGKEAKRSNAILHKVITEAIPESVGGKLIGLVTSREEIPDLLKLDDVIDLVIPRGSNKLVSQIKNSTKIPVLGHADGICHVYVDKSANMDMAKQIVLDAKLDYPAACNAMETLLVHKDLMHTTPFNDLIVDLRSEGVTLYGGPRASVFLHIPEAHSFHLEYSSLACTIDAHTECIIAEDQEVVNAFFGQVDSAAVFHNASTRFCDGARFGLGAEVGISTSRIHARGPVGVEGLLTTRWILKGSGQVVNGDKGIIYTHKDLPIEP*