Information report for RchiOBHm_Chr4g0435671
Gene Details
|
|
Functional Annotation
- Encodes a nuclear protein that acts in a phyB pathway (but downstream of phyB) and induces flowering in response to suboptimal light conditions. PFT1 promotes flowering in CO dependent and independent pathways and integrates several environmental stimuli, such as light quality and JA-dependent defenses. Mutants are hypo-responsive to far-red and hyper-responsive to red light and flower late under long day conditions. Also shown to be a Mediator subunit regulating jasmonate-dependent defense.
Homologous
- Actinidia chinensis: CEY00_Acc28536
- Citrullus lanatus: Cla97C05G104840
- Cucumis melo: MELO3C012221
- Cucumis sativus: CsGy5G024500
- Daucus carota: DCAR_026720
- Glycine max: Glyma.02G098300
- Gossypium hirsutum: Gohir.D02G115800, Gohir.A03G097900, Gohir.D13G070100
- Juglans regia: Jr15_00420
- Manihot esculenta: MANES_14G098600
- Nicotiana attenuata: A4A49_17575
- Populus trichocarpa: POPTR_010G128600v3, POPTR_008G117700v3
- Prunus avium: Pav_sc0000567.1_g810.1.mk
- Vitis vinifera: VIT_01s0011g03160
Gene Resources
- Pfam: PF11265
- UniProt: A0A2P6R207
- EMBL: PDCK01000042
- AlphaFoldDB: A0A2P6R207
- OMA: NQMHQQT
- InterPro: IPR021419 , IPR036465
- PANTHER: PTHR12433 , PTHR12433:SF11
- SUPFAM: SSF53300
- STRING: 74649.A0A2P6R207
Sequences
CDS Sequence
- >RchiOBHm_Chr4g0435671
ATGACGGAGAAGCAGTTGATCGTGGTCGTTGAAGGCACGGCGGCCATCGGGCCTTACTGGTCAGCCGTCGTCTCCGATTACGTCGAGAAGATCATCAGGTCTTTCTCTGGAAACGAGTTAAGTGGTCAGAAGCCCTCCACTTCTATTGTTGAGATGTCTTTGGTCACATTCAATACTCATGGATCTTATTCCGGTTGCTTGGTACAACGGAGTGGTTGGACAAGAGATGTTGATCGTTTCTTACAATGGCTGTCAGCTATTCCCTTAGCAGGTGGTGGTTTTAGTGATGCTGCAATTGCAGAAGGGCTTTCTGAAGCCCTAATGATGTTCACTAACATTCAAAATGGAAGCCAAAATCAACAAAATGTGGATTTTCAAAAGCATTGCATTCTTGTTGCCGCTAGTAACCCTCATCCCCTGCCCACTCCAGTCTATAGACCACAAATTCAAAATGTGGAGAAGAGTGAAAATATTGATGCACAAACCGAAAGCCGTCTGTATGATGCTGAGGCTGTTGCTAAATCATTTGCACAGTGCCTTGTTTCTCTGTCAGTCATCTGTCCGAAACAGCTTCCTAAACTCAGAGCCATTTACAATGCGGGAAAGCGCAACCCCCGGGCAGCAGATCCACCGATTGATAATGTGAAAAACCCCCACTTTCTCGTTCTAATCTCAGAGAATTTTATGGAGGCGCGGGCTACTTTAAGTCGTCCCGGAAGTACAACTTTGCCCTCAAATCCGAGTACTGTAAAGATGGACATAGCTCCTGTTGCATCAGTGACAGGGCCACCTCCAACTTCTATGCCATCTGTGAATGGATCTGTTATGAATCGGCCATCAGTTTCTGTTAACAATGTGCCTCCTGCGACAGTGAAAGTGGAGCCAAGCACTGTAAGTTCAATGGTAGCTGGACCTCCTTTTGCACACGTTCCATCTGTTCGTCCTCCTTCCCAAGGAGTTCCAACCTTGCAAACTTCTTCACCATCTTCTGGTGAGATGATTACAAACAATGAGAGTGTGCCAGATTTGAAACCTATAGTGAGTAATGTGACACATCAACTACGTCCTGTGGGTAGCATCCTCAATAATATCTCTCAAGCACGCGTGATGAATTCTGCAGCCTTATCTGGAGGATCTTCTATAGGTCTCCAAAACATGGGTCAAAATCCTATGGCCATGCATGTATCAAACATGATATCGAGTGGAATGGCATCTTCGGTGGCTGCTACTCAAAATGTATTTTCATCTTCAGGGCCTCACACTCTTGCACAGGTTGCTCAGAGCACAGGTCTTAGTTCATTTACTTCAGGTACTTCCAATGTGTCTGGAAATTCTAACCTTGGGATGTCGCAACCAATGAGTAACCTCCAAGGTGGTGTTAGCATTGGCCAATCTGTTCCTGGCATGAGTCAAGGAAATCTCTCAGGACCCCAGATGGTTCAAAGTGGCATTGGAATGACTCCAAACATGATGAGTGGCCTTGGTTCATCAGGTACCTCCTCTGGAACTGGGACAATGATTCCCACTCCAGGCATGTCTCAACAGGCACAATCTGGGATGCAGTCACTTGGTGCAAACAATAGTTCAGTTTCTAATGTGCCGTTGTCACAACAGACGTCAAGTGCTCTGCAGTCTGCACAATCCAAATATGTGAAAGTGTGGGAGGGAAACTTATCTGGGCAGAGACAAGGGCAACCTGTGTTTATTACTAGATTGGAGGGATACAGAAGTGCTACAGCATCTGAGACGCTTGCAGCAAACTGGCCACCGACAATGCAAATAGTCAGGCTCATATCTCAGGATCACATGAATAACAAGCAATATGTGGGAAGGGCAGACTTTCTAGTATTTCGGGCAATGAATCAGCATGGATTTCTTGGGCAGTTGCAAGAAAAGAAGCTTTGTGCTGTCATCCAATTGCCGTCTCAGACACTACTGCTCTCTGTTTCGGACAAAGCTTGCCGCTTGATTGGAATGCTTTTCCCAGGGGATATGGTTGTGTTTAAGCCACAAGTAGGCGGTCAGCAGCAGCAGATGCAACAAATGCAACAACAGCAGCCGCAGCTACAACAGATGCAGCAACAGCAACCACAGCTCCAGCAACAACAGCAACCGCAACTGCAGCAGCAGCAGCATCCACAAATGCAACAACAGCAACAGCAACCGCAACTGCAGCAGCAGCAGCATCCGCAGATGCAACAACAGCAGCAGCATCCGCAGATGCAACAGCAGCAGCAGCAGCAGCATCCACAGATGCAACAGCAGCAGCAGCAGCTTCCGCAGATGCAGCAGCAACAGCAGCATCCACAGATGCAACAGCAGCAGCTCTCGCAGCTCCAGTCACAACAGCAAATTCCACAACTGCAGCAACTGCAGCAACAACACCAACAGCAACAGTTGGTTGGGGGTGGAATGGGTCAAGCTTATGGTCAAGGCCGGTCACAATTACTTTCACAAGGACAAGTTTCATCACAACAAGGGCCTAATATGCCCGGAGGAGGCTTTATGGGTTAA
Protein Sequence
- >RchiOBHm_Chr4g0435671
MTEKQLIVVVEGTAAIGPYWSAVVSDYVEKIIRSFSGNELSGQKPSTSIVEMSLVTFNTHGSYSGCLVQRSGWTRDVDRFLQWLSAIPLAGGGFSDAAIAEGLSEALMMFTNIQNGSQNQQNVDFQKHCILVAASNPHPLPTPVYRPQIQNVEKSENIDAQTESRLYDAEAVAKSFAQCLVSLSVICPKQLPKLRAIYNAGKRNPRAADPPIDNVKNPHFLVLISENFMEARATLSRPGSTTLPSNPSTVKMDIAPVASVTGPPPTSMPSVNGSVMNRPSVSVNNVPPATVKVEPSTVSSMVAGPPFAHVPSVRPPSQGVPTLQTSSPSSGEMITNNESVPDLKPIVSNVTHQLRPVGSILNNISQARVMNSAALSGGSSIGLQNMGQNPMAMHVSNMISSGMASSVAATQNVFSSSGPHTLAQVAQSTGLSSFTSGTSNVSGNSNLGMSQPMSNLQGGVSIGQSVPGMSQGNLSGPQMVQSGIGMTPNMMSGLGSSGTSSGTGTMIPTPGMSQQAQSGMQSLGANNSSVSNVPLSQQTSSALQSAQSKYVKVWEGNLSGQRQGQPVFITRLEGYRSATASETLAANWPPTMQIVRLISQDHMNNKQYVGRADFLVFRAMNQHGFLGQLQEKKLCAVIQLPSQTLLLSVSDKACRLIGMLFPGDMVVFKPQVGGQQQQMQQMQQQQPQLQQMQQQQPQLQQQQQPQLQQQQHPQMQQQQQQPQLQQQQHPQMQQQQQHPQMQQQQQQQHPQMQQQQQQLPQMQQQQQHPQMQQQQLSQLQSQQQIPQLQQLQQQHQQQQLVGGGMGQAYGQGRSQLLSQGQVSSQQGPNMPGGGFMG