Information report for SIN_1008448
Gene Details
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Functional Annotation
- Putative transcription factor. Member of the floral homeotic AGAMOUS pathway.Mutations in HUA enhance the phenotype of mild ag-4 allele. Single hua mutants are early flowering and have reduced levels of FLC mRNA. Other MADS box flowering time genes such as FLM and MAF2 also appear to be regulated by HUA2. HUA2 normally activates FLC expression and enhances AG function.
Homologous
- Actinidia chinensis: CEY00_Acc28310, CEY00_Acc31352
- Citrullus lanatus: Cla97C10G194780
- Juglans regia: Jr16_08290, Jr16_08300, Jr16_08310, Jr16_08360, Jr16_08330, Jr16_08350, Jr16_08320, Jr16_08340
- Manihot esculenta: MANES_11G107600
- Nicotiana attenuata: A4A49_11606
- Prunus persica: PRUPE_1G347400
- Solanum lycopersicum: Solyc02g014130.2
Sequences
CDS Sequence
- >SIN_1008448
ATGACAGCAAGAACTGTTCCTAGATCGGAGGCAATGAGACCCTTTAAGACCTGCTCCGGAGGGGGAATAGTGGAACCTGCTGCAGTAGGGATGGAAGTGTTCCCCTTAAAGGATCCGTTGTCACCTCCATTGTCAGAACTCATCATTTCTCACATCCAAGCTCAAGTGGTTCCCACAAATGACACCAATGATGCGTACCGAATTTCTGCAGCACCACAATGGTTGAAGGACTTTCACGAAAATTTTGAGATTATCGAAGGACTAGCCTTGCAAAACAAAATATTTGTCTTCTCTCATCCACCGCCACCGCCACCACCACCGCCTCATCTTTTGCATGGAAAAGGTGTTCTCTTTTGCCTTCTCTATGGAAACGGGGACGGGAATTGGAGGGGCATGGCTCCAGGGCGCAAGCGTGGAGCGAAAGGGGTTAAGACGAAGAGCGAGTTGAGTTTGGGCGATCTCGTTTTGGCCAAGGTCAAGGGTTTTCCTGCTTGGCCTGCCAAGATTAGCAGACCAGAAGACTGGGAGCGTGCGCCTGACCCTAAAAAGTACTTCGTCCAGTTCTTTGGGACATCAGAGATAGCTTTTGTTGCTCCTGCGGATATTCAGGCATTCACCATTGAAGCAAAAAATAAATTGTCCGCTAGATGCCAGGGTAAGACAGTCAAATATTTTGCTCAAGCGGTGAAGGAAATTTGTGAAGAATTTGAAGAGTTGCAGCTCAGAAATTTAAATGGGGTGAGAGATAAAAGTGCACTGTCTCTTGCGTCTGAGGCACATTCTCTTGATCCTGTGGTAGATGAGGCCTCAGGGATTAATGGAAATGATGGAAGTGACAGGAAAGTATCAAACTGTAAGTTGGAGATCAAGGGGTCTACGGACGTGGGCGCTGCTTTAGAGCGGTGTTCACAAAGACAGGGTGAGGTGGAATGTCAAGATGTAAAGCCTTGCTTGTCAGATGACGTGAATCATAGTTTGTCTCCACATGTATCTTCAGAAAAGAGGAGCAAGCCCTATACAAATACTAGTGATCTAGTAATGGATTCAGTACCATTATCTAGCCCATCGCATGATTCCCTTGTTAATGAGGATGATTCTCATGATATCAAAGTGGCGGGTAGGTCTTCTGATGATGACCATAATAAATTGACAAATGGCCTTAAAACTAAGCTGGCAATTGGATCTAAGAAGAAACCTGCGGGTGCAATACGTAGGAATAGTGGCTTAGCTGTTCCTCATGATCGTACTGGAGAAATGATTCAAAGAAAATGTGTTTCTGGTGGCAGCATGAAGGTCTCATCTGCTGGTAATTCAAGATCAGGTTTAGATATTGGCAGTGAAAGGAAGGAAAAAAAGTTGCTGAAAGTTAAAAGGCGTTCTGAGACAGAAGATAATGGTCGAGAGGATGCTGAAGTAAGTTTTGAGGAGCATAATAAAGCTATCTCCAGGAAAAAGATAAAGGCCCAGCATGGCCGTGAAAAACAAAGGTTTCAGACAAATGAAGCCTCACCTCCAGGCAAAATGTCAAAATGTGCTGATACTGGAGATGGCGCTAGCATGATAAGAGCACGAATAAGCAAGAAAAGGGATTCTACTAGCCCTGATGTTCTTGATGACAAAATTACTGGTATAGAGTCTAAAAGGCTAACATCAGGTGGGAAGGCTGAGAATAGCCGACTCCTCAGGCTGCAGATGAGTACAAATGACCCCAAGTTTTCCAGTGATGAAGATGATCTACCCCCAATAAAGCGCCGGCGCCGAGTATCAGAAGCAATGTCTAGTTCTGCTTCAATTTCTGAAAATAGATTGGGAGGTTCCGCATCTCGGCAAAGTGATATGGTACTTCCTAACAAAGTCCGGTCCCCAGTTATGCAGTTACCAACAAAGAGGAGAGCTGTCCGCCTATTTGATGATGAGGATGATGAATCACCTAAAACCCCAATTCATGGAGGATTTACAAATAAGGTTTCTGTTATTCCACAGGTGTCAGATTCAAGAAAGAAGCCTGTAATGCATAGTGAAAGTTGTGTCTATGATCAAGGGGTCTCAAAAAATTCAGGACCAGTTGATGATGGGATAAAAGAACAGGTACAATCTGGTCATATGTCCAATAAAGTGTTATCCCCAGCAACTCAGCAAGATACAGAGAAGAGGACTAGAGAATTATCAGCTGCACATGTAATTCCTAGTCCACTGCAGGACACTGAGAAATTGCCCTCTATGGAGGCTAAACCAGTTCAAATTTCTCCTAAAAGGTCCCCTTATTCTATTGGTGGTACCAGGCTGTCAGCAGAAGTGCACAGCAAGCACTCCAGCAAGGCACCTGCTAATATTTCTCAGAAGAAAACTCCAGCGGGAGACAGCAGAAGTGCTTCAGCTTCTGATAGATCAACTTCATTTCTCGCTCAATCACTAGGTGACCGAAGCAAGCCAGCTTCTTCTGGAGATAAAAGTAAAGCTACTCCAAAGTCAGATTTACGGATCAATGACTCTGTTGTTGTAGTCGGGCCTCCAAATGAAAACCACACATCGTTTGGTGAAAGGCTGGATGGTGGTAAAGATGGCAAAACAAGTTTTCTGGTTAATTCGAAAATTCCTGACTCGGTCATGTCCATGAAACATCTTATTGCTGCTGCTCAGGCAAAAAAAAGACAAGCACACTTGCAGAACTCTCATGGAAATCCTCTGCTTCTTTCATTTCCTGATGCTGACATGTCTGCACGGAGCCCGAGCCCGCCCCCTGCTACACTAGCATATGAATCAAGCAACACAGTCCAACCTGGTGTACAAGGAATACATTCAACTTCTCCATGCGCTGATGTTCACCAATTTTCATCTATTAATCAACATGAGAATGAAGAACTTGAGGAGAGGAGGGTGAGTTCAGGCAATCTGGGTACTGGAAGTTCCCTAAGTGGGGGTACTGAGGCCGCTGTTGCTCGGGATGCTTTTGAAGGGATGATAGAGACACTGTCAAGGACGAAAGAGAGTATTGGTCGCGCAACTCGTCTTGCAATTGATTGTGCAAAGTATGGTATCGCCAATGAGGTTGTGGAGCTTCTCATCCAGAAGTTGGAAAATGAGCCAAGTTTACATCGCAGAGTGGACCTTTTTTTTCTAGTTGACTCGATAACCCAGTGCTCACATAGTCAGAGAGGAATCGCAGGAGCCTCTTACATTCCTATTGTTCAAGCAGCATTGCCCCGTCTCATTGGAGCTGCTGCTCCTGCTGGTGCAGGTGCTCAAGAGAATCGCCGTCAGTGTCATAAGGTCTTGCGCCTGTGGCTTGAGAGGAAAATCTTGCCAGAATCTGTTCTTCGCCGTTACATGGGTGATATAGGAGTTGTAAATGATGATGCATCTGTTGGGTTGTCGCTGAGACGTCCTTCTAGAGCTGAGCGGGCTATTGATGATCCTATCAGAGAAATGGAGGGAATGGTTGTTGACGAATATGGAAGGTCTAGAGCTTACTATTTGTTCTCCTTCAGTAATTTTCTGTTTTCTATTCCGCCTTTCATCATTCTTTTAGCAGAATTTGGTCTTTCTAGCTCTCTCCATTTCACTTGCAATAGCACCAGTAATGCTACGTTCCAGTTACCTGGATTGCTGTCAGCTCACGTGTTTGATGAAGAAGAGGAATATGAGGATAGTTTTCCCACAAAGTTATGCAAGGAAGATAATGATACATCACCTTCTGAACTTGCCCCTGCTACAAGCAGAGATCCTGAGAATCACAGTGTTACTCCAAGTGACAGACGACATTGCATTTTGGAGGATGTTGATGGTGAACTTGAAATGGAAGATGTTTCTGGGCACCAAAGGGACGAGAAACCACTGTTTACCAATGGTTCTTTTGGGCTTGGTGTGCTTGAGCCAAATTCAGATGGGATACTTGAATCAGCCCCTAATAACATGTCTGCTGAGTGGATGCCTTCGCCGGAGGGCTCTCCACCATTGCCACCTGGATCTCCGCCTGTAACTCCGCCTCTACCCACTTCGCCACCTCCATTGTCACCACCACTCCCACCACCACCCCCACCTCCTTCACCACCACCACCACCGCCACCACCACCGCCACCGCCCCCATCACAGCATCATCTATTTTCTCGACCAGCTGTCTGTCCTCCTCCACCGCCTACTGGTCCTCCTCCGCAACCTGTTGGACCTCCGCCACAACCTGCTGCTCCACCACCCACTGGACCTAATCCCCAATCTGTTGGTCCTCCACCACCACCTGTTGGACCTAACCCACCACCTTTTGGTTCTACGCCGCCAGTTGGGCCTCCTCCACCATTGCCTTCCCAGCAATCATTTCCGGCTCAGCCTCCATTGATGTCTCAACATATGCATCCACTTCCATCTGCGATATCACATTCCCCACGATCAACTTATCCTCTACCTTCTTTACAGCATGAGATCGGCGCGACGGCCTCTGGAAATCAGTGTTCCCATGTGGTTTCCAATGCTCGTGGGTCCCATATAGATGCATCTGCCAGAAATGAAGTGTTGACGCAGCAATCATCTTGCTTTCCCCCTTCTGGGGTTGGTATTGCACGAGAACATGTTGGCTATAATTCATCAAGGCATGGAGACTATAGACAAGGTGAGGCATATATGAATCCACAAGCTACACAACACAGGCCACCATTTGTACCTGGTCATGCACCTTTTGCACAAAGGCCTGTGCATCCCGAACACCTACCTCAACGTGCACCTAGTCATTTCTCCTATCCAAACTCCGTCCAGCAACATCAATATCCCCCTTACTCATTGCAAAACTTTTCGGATGGTCCCCGGCGATATGCTGCTAATGAACAAACGCAAATGCAAGTAAATGAGTTTAATGCGGATTGTCCGCGTGGTGGGTGGATACCAGGAGGGAGATCATGTTCCGGTCCACCTTATTCGAATGAAGGTTATTTTGGACCTCCTCGTGAAAGACCTCCTGCAAGTGTTGTTAATTTGCAGCCCTCTGCCCCAAATAATCTGCCTTCTGCTGCTCAAATCCCAGTTCATGGTGTTCCTATGATTCCCTGCAGACCAGACATGCCTTCTGGCAATTGGAGACCAGCATAG
Protein Sequence
- >SIN_1008448
MTARTVPRSEAMRPFKTCSGGGIVEPAAVGMEVFPLKDPLSPPLSELIISHIQAQVVPTNDTNDAYRISAAPQWLKDFHENFEIIEGLALQNKIFVFSHPPPPPPPPPHLLHGKGVLFCLLYGNGDGNWRGMAPGRKRGAKGVKTKSELSLGDLVLAKVKGFPAWPAKISRPEDWERAPDPKKYFVQFFGTSEIAFVAPADIQAFTIEAKNKLSARCQGKTVKYFAQAVKEICEEFEELQLRNLNGVRDKSALSLASEAHSLDPVVDEASGINGNDGSDRKVSNCKLEIKGSTDVGAALERCSQRQGEVECQDVKPCLSDDVNHSLSPHVSSEKRSKPYTNTSDLVMDSVPLSSPSHDSLVNEDDSHDIKVAGRSSDDDHNKLTNGLKTKLAIGSKKKPAGAIRRNSGLAVPHDRTGEMIQRKCVSGGSMKVSSAGNSRSGLDIGSERKEKKLLKVKRRSETEDNGREDAEVSFEEHNKAISRKKIKAQHGREKQRFQTNEASPPGKMSKCADTGDGASMIRARISKKRDSTSPDVLDDKITGIESKRLTSGGKAENSRLLRLQMSTNDPKFSSDEDDLPPIKRRRRVSEAMSSSASISENRLGGSASRQSDMVLPNKVRSPVMQLPTKRRAVRLFDDEDDESPKTPIHGGFTNKVSVIPQVSDSRKKPVMHSESCVYDQGVSKNSGPVDDGIKEQVQSGHMSNKVLSPATQQDTEKRTRELSAAHVIPSPLQDTEKLPSMEAKPVQISPKRSPYSIGGTRLSAEVHSKHSSKAPANISQKKTPAGDSRSASASDRSTSFLAQSLGDRSKPASSGDKSKATPKSDLRINDSVVVVGPPNENHTSFGERLDGGKDGKTSFLVNSKIPDSVMSMKHLIAAAQAKKRQAHLQNSHGNPLLLSFPDADMSARSPSPPPATLAYESSNTVQPGVQGIHSTSPCADVHQFSSINQHENEELEERRVSSGNLGTGSSLSGGTEAAVARDAFEGMIETLSRTKESIGRATRLAIDCAKYGIANEVVELLIQKLENEPSLHRRVDLFFLVDSITQCSHSQRGIAGASYIPIVQAALPRLIGAAAPAGAGAQENRRQCHKVLRLWLERKILPESVLRRYMGDIGVVNDDASVGLSLRRPSRAERAIDDPIREMEGMVVDEYGRSRAYYLFSFSNFLFSIPPFIILLAEFGLSSSLHFTCNSTSNATFQLPGLLSAHVFDEEEEYEDSFPTKLCKEDNDTSPSELAPATSRDPENHSVTPSDRRHCILEDVDGELEMEDVSGHQRDEKPLFTNGSFGLGVLEPNSDGILESAPNNMSAEWMPSPEGSPPLPPGSPPVTPPLPTSPPPLSPPLPPPPPPPSPPPPPPPPPPPPPSQHHLFSRPAVCPPPPPTGPPPQPVGPPPQPAAPPPTGPNPQSVGPPPPPVGPNPPPFGSTPPVGPPPPLPSQQSFPAQPPLMSQHMHPLPSAISHSPRSTYPLPSLQHEIGATASGNQCSHVVSNARGSHIDASARNEVLTQQSSCFPPSGVGIAREHVGYNSSRHGDYRQGEAYMNPQATQHRPPFVPGHAPFAQRPVHPEHLPQRAPSHFSYPNSVQQHQYPPYSLQNFSDGPRRYAANEQTQMQVNEFNADCPRGGWIPGGRSCSGPPYSNEGYFGPPRERPPASVVNLQPSAPNNLPSAAQIPVHGVPMIPCRPDMPSGNWRPA