Gene Details:
- Gene ID: Achn367861
- Gene Family: BES1 Family
- Description: BES1 Family protein
- Species: Actinidia chinensis
- Source: BES1 family gene from PlantTFDB
Protein Features:
Annotation Proteins:
- Refseq: XP_028118850.1 — beta-amylase 8 isoform X2
- Swissprot: Q9FH80 — BAM8_ARATH; Beta-amylase 8
- TrEMBL: A0A2R6Q313 — A0A2R6Q313_ACTCH; Beta-amylase
- STRING: EOY25398 — (Theobroma cacao)
Gene Ontology:
- GO:0000272 — Biological Process — polysaccharide catabolic process
- GO:0016161 — Molecular Function — beta-amylase activity
Family Introduction:
- Brassinosteroids (BRs) signal through a plasma membrane-localized receptor kinase to regulate plant growth and development. We showed previously that a novel protein, BES1(BRI1-EMS-SUPPRESSOR 1), accumulates in the nucleus in response to BRs, where it plays a role in BR-regulated gene expression; however, the mechanism by which BES1 regulates gene expression is unknown. In this study, we dissect BES1 subdomains and establish that BES1 is a transcription factor that binds to and activates BR target gene promoters both in vitro and in vivo.
- BES1 interacts with a basic helix-loop-helix protein, BIM1, to synergistically bind to E box (CANNTG) sequences present in many BR-induced promoters. Loss-of-function and gain-of-function mutants of BIM1 and its close family members display BR response phenotypes. Thus, BES1 defines a new class of plant-specific transcription factors that cooperate with transcription factors such as BIM1 to regulate BR-induced genes.
Literature:
- A new class of transcription factors mediates brassinosteroid-regulated gene expression in Arabidopsis. DOI: 10.1016/j.cell.2004.11.044 ; PMID: 15680330
Sequences:
CDS Sequence:
- >Achn367861|Actinidia_chinensis|BES1|Achn367861
ATGTCCGTTACTACTTTGATTAAAGAAAATGGTTTTCATGGCCCAAGTGCCAACCAGATTAAATCGGAAGCAGACCAAGTGAAAGCTAAATGTTACAGTAAAGTTAAGGCTGAGCAACCTGATGAAACAGCCTGTATATCTTCTATCAACGAGTATGATGAGTGGGGGCAGTCAACCCTGTCAGATTCGGACTCTAGGGCTGGTAGTAGTTCTTCCCGAGCTTTCACTACTCGGTCATTGGGCCCTCCAAGTCGATCCCTTTCTTGCTTCAGGTTCTTTCCCGGTAATTCAATCTTCAGGCTGAGCAGTGCAACAAGTTTAGGATCATCAACGGCTGATCCGTCAGCATCAACAAGTTTCACAGTTTCAAACGAAGAGGAACAACATCATGTACACAGAGATCCTGCCCGTGGCTCAGTTAACAGAAATGGATCTTCACAAGGTCGAGAATTCCTTCCTGCATGTCTAATTAATAGGTTGCCCTCACCACAGTTTGACGATTTTGCTTCCGGTAGCTTAGAGTCGAATCGTACTTCTGTATTTTTTGATAATTTGCTAGATGATCAGATTACTTCTGCTCTAAATGTGGTGGCCAGGGACGTTGATAATCCTATGGGTGAGTTCAATGTAAATTTGTTTTCTGTACGAAACCATACTGATATTGAGAGCATGGAGACAACAAGACTTGCTGATAGGCGGATCGGAGCTCAAGAACCTGTGGAACGGAATGTTCGCTTTAGTAGAACCCTAAGTGTTGGAAGACTTCGTGACAGAGTTCTTCGAAGATCATCATTTCCTGATTCAACATTTTCTGCTTTGCAACAAGAGAGGGAAGTGAGAGATGTTAGTCAGCCTGGTGGGACACAGGCTTTGGGTGGTGGAACAGGGGCATTGTCGTCCAATGAGAACGCCTCGATCTCATCAGGTTCTTCTATTTATGCTTCATCTGGTATGCCTAGCTCATTCTATGGTAGTCAAGATTCTGAAGTGGAAACCTCACGTGCAAGAGATACTAGGTATCATGATCTTTTGGAACATAGATCAAATTTCCTTGAACGAAGACGAAGAATACGATCTCAGGTTCTGGATGAAATTCACCAACAATCTGTGGTGTTATCTTCTCGGTCTTCTGTGTCTCCAATTGGATCCGTTCCTGCTCCTAATGAAGTTGTGGAATCCCTGCCTGTGAAATTGTACAGTAAATCACAAAAGCATCTGAATGAGGAGGCTGCACAACTCCATGCTACTGTAAGAATGCTTATTCCTGTGCACCCTTTCCTCATTGCTGCTGCTACATTCTCCCCTGCTTTCTTGAAATTTATTGGAGAATTAGGGGAGGAAATCCATCAATGTTACATATGCCTTGTTGAGTATGAGGAAGGAGATAGCCACCGCCGCCCACGCGGCTTCGCTGCAGCCGCCGCCACGGTCGGTGGAGGCGCGAAGGGGAAGAAGGAGAGAGAGAAGGAGAAGGAGCGGACGAAGCTGCGGGAGCGCCACCGGCGCGCCATCACGAGCCGCATGCTCGCCGGCCTCCGTCAGTACGGCAACTTCCCTCTCCCGGCGCGCGAAGACATGAACGACGTTCTCGCTGCACTCGCCCGCGAGGCCGGTTGGACCGTTGAGCCCGACGGCACCACCTATCGCTCCTCTCCGCCTCCTTCCCAAATGGGGGTGTTTCCTGTTAGGTCAGTTGGAAGCCCAGTATCTACTGGTTCATTGAAAAATTGCTCCATGAAAGCTTCACTAGATTGTCAGCCATCAGTTCTCAGAATTGAGGAGAGTTTATCACCAGCTTCTCTTGATTCTATTGTGGTTGCTGAGAGGGATACAAAGAGTGAAAAATATACAAGTGCAAGCCCCATTAATTCACCTGAATGTTTGGGGGCTGACCAGCTTATGGGCGATGTGGGTTCCAGGGTGCATGGAACTGATTTTACTGGAACTCCATATGTCCCTGTTTACGTTATGATTGCTGCTAGTGTAATCACCAATTTCTGCCAGTTGATTGATCCTGAAGGTGTTAGACATGAGTTACGTCATCTCAAATCTTTACATGTAGATGGTGTTGTTGTAGATTGTTGGTGGGGTATTGTTGAAGGATGGAGTCCACAGAAATATGAATGGTCCGGATATAGGGAACTATTTACCATCGTCAGAGAGTTCCAACTGAAATTGCAGTGGGTTCTGGAGATTGGGAAGGAGAACCCAGACATATTCTTCACAGACCGTGAAGGAAGGAGAAATACTGAATGCCTATCTTGGGGCATTGATAAAGAACGGGTACTGAAAGGAAGAACTGGTATAGAGGTCTATTTTGACTTCATGAGAAGCTTTCGATCAGAGTTTGATGACTTTTTCACTGAAGGTCTGATCTCTGCGGTTGAAATTGGTCTGGGAGCTTCTGGGGAGTTGAAGTATCCTTCTTTCTCAGAAAGGATGGGATGGAGATATCCTGGTATTGGTGAGTTTCAGTGTTATGATAAATACTCACAACAAAATCTACGAAAAGCTGCAAAACTGCGGGGGCACTCATTCTGGGCTAGGGGACCCGATAATGCTGGTCAATACAATTCTAGACCGCATGAAACTGGATTCTTCTGTGAACGAGGTGATTATGATAGCTACTATGGGCGCTTTTTCCTCCACTGGTATGCTCAATCTTTAATAGATCACGCGGATAATGTCCTATATCTTGCAAGCCTTGCATTTGAGGACACGAGATTAGTTGTAAAGATTCCGGCTGTCTATTGGTGGTACAAAACTGCAAGCCATGCAGCAGAGCTGACAGCTGGATATTATAACCCAACGAACCAGGATGGATATTCTCCCGTTTTTGAGATTCTGAAGAAACACTCCGTGACAATGAAGTTTGTCTGTTCAGGACTGCAGGTTCCTTGTCAGGAAATCAACGATGCAAGGGCTGATCCAGAAGGTTTGAGCTGGCAGCTGTCATCTTTGGTTCAAGGAACAATATTCTTCCCGGAATTGGATTACTTTGTTAAATCCATGCATGGAGAAATTGCAGGTGGCCGAGAACTCTGA
Protein Sequence:
- >Achn367861|Actinidia_chinensis|BES1|Achn367861
MSVTTLIKENGFHGPSANQIKSEADQVKAKCYSKVKAEQPDETACISSINEYDEWGQSTLSDSDSRAGSSSSRAFTTRSLGPPSRSLSCFRFFPGNSIFRLSSATSLGSSTADPSASTSFTVSNEEEQHHVHRDPARGSVNRNGSSQGREFLPACLINRLPSPQFDDFASGSLESNRTSVFFDNLLDDQITSALNVVARDVDNPMGEFNVNLFSVRNHTDIESMETTRLADRRIGAQEPVERNVRFSRTLSVGRLRDRVLRRSSFPDSTFSALQQEREVRDVSQPGGTQALGGGTGALSSNENASISSGSSIYASSGMPSSFYGSQDSEVETSRARDTRYHDLLEHRSNFLERRRRIRSQVLDEIHQQSVVLSSRSSVSPIGSVPAPNEVVESLPVKLYSKSQKHLNEEAAQLHATVRMLIPVHPFLIAAATFSPAFLKFIGELGEEIHQCYICLVEYEEGDSHRRPRGFAAAAATVGGGAKGKKEREKEKERTKLRERHRRAITSRMLAGLRQYGNFPLPAREDMNDVLAALAREAGWTVEPDGTTYRSSPPPSQMGVFPVRSVGSPVSTGSLKNCSMKASLDCQPSVLRIEESLSPASLDSIVVAERDTKSEKYTSASPINSPECLGADQLMGDVGSRVHGTDFTGTPYVPVYVMIAASVITNFCQLIDPEGVRHELRHLKSLHVDGVVVDCWWGIVEGWSPQKYEWSGYRELFTIVREFQLKLQWVLEIGKENPDIFFTDREGRRNTECLSWGIDKERVLKGRTGIEVYFDFMRSFRSEFDDFFTEGLISAVEIGLGASGELKYPSFSERMGWRYPGIGEFQCYDKYSQQNLRKAAKLRGHSFWARGPDNAGQYNSRPHETGFFCERGDYDSYYGRFFLHWYAQSLIDHADNVLYLASLAFEDTRLVVKIPAVYWWYKTASHAAELTAGYYNPTNQDGYSPVFEILKKHSVTMKFVCSGLQVPCQEINDARADPEGLSWQLSSLVQGTIFFPELDYFVKSMHGEIAGGREL*