Information report for g09932
Gene Details
Functional Annotation
- Encodes SR45, a member of the highly conserved family of serine/arginine-rich (SR) proteins, which play key roles in pre-mRNA splicing and other aspects of RNA metabolism. SR45 is a spliceosome protein, interacts with SR33 and the U1-70K protein of the U1 snRNP. Also involved in plant sugar response. sr45-1 mutation confers hypersensitivity to glucose during early seedling growth.
- FT, together with LFY, promotes flowering and is antagonistic with its homologous gene, TERMINAL FLOWER1 (TFL1). FT is expressed in leaves and is induced by long day treatment. Either the FT mRNA or protein is translocated to the shoot apex where it induces its own expression. Recent data suggests that FT protein acts as a long-range signal. FT is a target of CO and acts upstream of SOC1.;E9 gene 1, Flowering locus T gene 2a, Flowering locus T-like gene 3;Encodes a florigen that is an orthologue of Arabidopsis FT
Homologous
- Brassica napus: BnaC08G0236200ZS, BnaA08G0265500ZS
- Brassica oleracea: Bo8g066720
- Glycine max: Glyma.15G255400, Glyma.08G172000
- Gossypium hirsutum: Gohir.A01G039100
- Juglans regia: Jr09_00760, Jr09_00770
- Manihot esculenta: MANES_06G171800, MANES_14G016200
- Populus trichocarpa: POPTR_011G143100v3
- Prunus persica: PRUPE_4G139800
- Solanum lycopersicum: Solyc10g005590.3
- Solanum tuberosum: PGSC0003DMG400011240
- Vitis vinifera: VIT_19s0027g00590
Sequences
gDNA Sequence
- >Bo6g099320
GGTTTTGAAGCAAGGTTTCTCGCGATTTTCTCGAGTATCGCCCATGGCGAAACCAAGTCGTGGCCGTCGTTCCCCTTCCGTTTCTGGCTCATCATCTCGTTCCAGTTCCAGATCTCGTTCCCGCTCCGGTTCTAGTCCCTCCAGGTCTCTTTCCCGCTCCCGGTCCCGTTCTAGATCGCTCTCTTCATCCTCATCTCCTTCCCGGAGCGTCAGTTCTGGGAGTCGCAGTCCTCCTCCTCGTGGAAAGAGGTTAGGGTTTCTTTCAAACAATTACCAATTTTCGAATTGGATTTGTGTAATTTGGCTTGAATTTGAATTGATGTTCTGATATATCTTCTTGTGTAGTCCTGCTGGACCTGCTAGGCGAGGTCGCTCTCCTCCTCCTCCACAATCTAAAGGAGCATCTTCACCTTCTAAGTAATATCTGACTCGTTACACATATATTCTAGTGTTTATGCTTCCGTCAATTTTGCTGACTTTACAATCTATTATGCTTTCAGGAAAGCTGTTCAAGAATCTCTTGTTCTTTATGTTGATTCTCTTAGCAGGAATGTGAATGAAGGCCATCTCAAAGAGATATTCGGTATGTTGATCGATCTTTTCTGTGTTTCTTCTGCTTCTTCTAATTTTATTACATGATGACTGAGAGTACACCTGTGCTCTAATGTCATCAGTAATATATTCGTCATTACGATCATCACTGGTATTTTGTCTTGCTTGTGTTGGCTAAATCTTTTAAGTCTTATAACACATGGCTTGTTTTCATGTTATTAGGCAACTTTGGTGAAGTTATACACGTCGAAATTGCCATAGATCGATCTGTGAGTTGCTATTTCATTACCCTCTGTTGTTTACTTGCATCACTTGTTGAAATCTGCTCATAACTCCTTTGAATATTAACAGGTTAATCTTCCAAAAGGACATGCTTATGTTGAGTTCAAGGCAAGAGCTGATGCTGAGAAAGCGCAGCTGTTCATGGATGGTGTATGTCTCTTTCCAAATATGAGATGCACTGTACTTTACATATTGGCCAAGAAGATTTATGCATGTGTTTTTTTTGGTTTACTGAACGCAGGGCCAAATTGATGGAAAGGTTGTTAAAGCAACGTTCACACTACCACCTCGTCAGAAAGTATCTTCACCCCCTAAACCTGTCTCAACTGCACCAAAAAGAGATGCTCCTAAATCTGATAATGCTGGTCCTGACACTGAGAAAGATGGGCCCAGGCGCCCAAGAGAGAGTATGTCTATGTTTATATTTTGGTGATTTGTTATTGTTGTAGTCTATGTTTTATGTTGTGTTATTTATTATCATCAATATGTGCGTAGCATCTCCTCAACGGAAAACAGGACTTTCTCCAAGAAGGCGATCACCTCTACCTAGGAGAGGCTTATCACCTAGGAGATTTCCTGATTCTCCCCATCGCCGGAGGCCGGGATCTCCTATCCGTCGTCGCGGTGATACACCTCCTAGGCGCAGGCCAGCATCACCATCTAGAGGCCGTTCTCCATCTTCTCCGCCTCCAAGACGAAATAGATCTCCTCCAAGGTTAGTTGTGGCACCATCTGTTTTGTCTGGTGTTTTCAGAATCGATAGCTCACCTTTTATCTGTCAGCAGGGGATCCCCTAGAAGAATCCGTGGCAGTCCTGTTCGAAGACGGTCTCCTCCTCCTCTAAGACGAAGGTATGTGTATTTAGTACCCGAATTACACCCTTAGTAATCGTATGTTAGGAATTACAGCTTTATAGAATATAGTGTTCAATAAATTAGACCTGGAAAAATGTCAGTTTTAAATATGTTTTGTATTGGGCTTGTTTCAGGTCTCCACCTCCAAGGAGACTACGCAGTCCTCCCAGAAGATCTTCAATCCGCAGGCGTAGCCGATCCCCAATTCGTAGGCCTGGTCGCTCTCGTTCAAGGTCCATCTCACCCCGCAGGTATGTTTTAACTCATTTAATTTGGTATCTCCTGGGCTTTATTTTGTTGCAGATGCATAGCTAAGATAGTATTTGTAATGATATTAATTCAGTACAAGTTTGTAAGTCTTTCATAATTCATGAGTATACCCCAAGATCCTACTCTGTCTTATCCTTATATGTAGGTTTGTGACATACCAGCTCCTTGCGACGTTGATACCAAATATGATTTAAGTTGTAGACCAATGTGGAGTTTGTTAATGATGTAATTTTGTCTTTAACTGTAAGCAGGGGACGAGGTCCAGCTGGGAGACGTGGGAGGTCTTCTTCTTACTCTAGTTCGCCAAGTCCCAGAAGGGTAAGGGCTTCTTGCAGATCCCTGTTTAGCTATAAAAATGTTGATGCCTTAGTGAGTTATATGTGTTTTGACTTTCTATCTTGTGTGCATTATTAAACCTTTGCAGATTCCTAGGAAGATTTCAAGGAGCCGCAGTCCTAGGAGGTAAACACTTTCTATTGTCTTAAAACTAATCCTCGTCTTAAACTGGAAACACTTTAGTCTGTAGAATGCATTAGCTGAAGAAGTTCCACGCTTGAGTTATGTGTAGTAAAGTTTAGGTTAATCCAATTCCTGATAAAAGACATACCTTAAACATCTGGAACCTTCACTTTCTTAGAAGTTAATGAGTTTGGTGATAAAATAAAGACAAATAGAATTGTTGTGTGGATATTTTTTGCGTTGAAGTCTAATAAAAGAAAATGGGTTGTTGTTGGCTATGTTTAGGCCACTGAGAGGAAAAAGAAGCAGCAGTAACAGCAGCAGCAGCAGTTCACCGCCACCACCACCACCACCTCGCAAAACTTAAGATAATAAAAAATGTTCAAAAAAAAAAAAACCTGAGTCTTCATGTCTCTTTCTCCATCTTTATCTTTATCATACAGTGACCAGATGAGAGTTGTGGCTTTTGTAGTGTTTGGATGTTTTAATCTTCTTTTGTGGATCTCCCCATTAGATGCAATGATATT
CDS Sequence
- >Bo6g099320
ATGGCGAAACCAAGTCGTGGCCGTCGTTCCCCTTCCGTTTCTGGCTCATCATCTCGTTCCAGTTCCAGATCTCGTTCCCGCTCCGGTTCTAGTCCCTCCAGGTCTCTTTCCCGCTCCCGGTCCCGTTCTAGATCGCTCTCTTCATCCTCATCTCCTTCCCGGAGCGTCAGTTCTGGGAGTCGCAGTCCTCCTCCTCGTGGAAAGAGTCCTGCTGGACCTGCTAGGCGAGGTCGCTCTCCTCCTCCTCCACAATCTAAAGGAGCATCTTCACCTTCTAAGAAAGCTGTTCAAGAATCTCTTGTTCTTTATGTTGATTCTCTTAGCAGGAATGTGAATGAAGGCCATCTCAAAGAGATATTCGGCAACTTTGGTGAAGTTATACACGTCGAAATTGCCATAGATCGATCTGTTAATCTTCCAAAAGGACATGCTTATGTTGAGTTCAAGGCAAGAGCTGATGCTGAGAAAGCGCAGCTGTTCATGGATGGTGGCCAAATTGATGGAAAGGTTGTTAAAGCAACGTTCACACTACCACCTCGTCAGAAAGTATCTTCACCCCCTAAACCTGTCTCAACTGCACCAAAAAGAGATGCTCCTAAATCTGATAATGCTGGTCCTGACACTGAGAAAGATGGGCCCAGGCGCCCAAGAGAGACATCTCCTCAACGGAAAACAGGACTTTCTCCAAGAAGGCGATCACCTCTACCTAGGAGAGGCTTATCACCTAGGAGATTTCCTGATTCTCCCCATCGCCGGAGGCCGGGATCTCCTATCCGTCGTCGCGGTGATACACCTCCTAGGCGCAGGCCAGCATCACCATCTAGAGGCCGTTCTCCATCTTCTCCGCCTCCAAGACGAAATAGATCTCCTCCAAGGGGATCCCCTAGAAGAATCCGTGGCAGTCCTGTTCGAAGACGGTCTCCTCCTCCTCTAAGACGAAGGTCTCCACCTCCAAGGAGACTACGCAGTCCTCCCAGAAGATCTTCAATCCGCAGGCGTAGCCGATCCCCAATTCGTAGGCCTGGTCGCTCTCGTTCAAGGTCCATCTCACCCCGCAGGGGACGAGGTCCAGCTGGGAGACGTGGGAGGTCTTCTTCTTACTCTAGTTCGCCAAGTCCCAGAAGGATTCCTAGGAAGATTTCAAGGAGCCGCAGTCCTAGGAGGCCACTGAGAGGAAAAAGAAGCAGCAGTAACAGCAGCAGCAGCAGTTCACCGCCACCACCACCACCACCTCGCAAAACTTAA
Protein Sequence
- >Bo6g099320
MAKPSRGRRSPSVSGSSSRSSSRSRSRSGSSPSRSLSRSRSRSRSLSSSSSPSRSVSSGSRSPPPRGKSPAGPARRGRSPPPPQSKGASSPSKKAVQESLVLYVDSLSRNVNEGHLKEIFGNFGEVIHVEIAIDRSVNLPKGHAYVEFKARADAEKAQLFMDGGQIDGKVVKATFTLPPRQKVSSPPKPVSTAPKRDAPKSDNAGPDTEKDGPRRPRETSPQRKTGLSPRRRSPLPRRGLSPRRFPDSPHRRRPGSPIRRRGDTPPRRRPASPSRGRSPSSPPPRRNRSPPRGSPRRIRGSPVRRRSPPPLRRRSPPPRRLRSPPRRSSIRRRSRSPIRRPGRSRSRSISPRRGRGPAGRRGRSSSYSSSPSPRRIPRKISRSRSPRRPLRGKRSSSNSSSSSSPPPPPPPRKT