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
- Arabidopsis thaliana — AT5G23150
Sequences
CDS Sequence
- >SIN_1008448
ATGACAGCAAGAACTGTTCCTAGATCGGAGGCAATGAGACCCTTTAAGACCTGCTCCGGAGGGGGAATAGTGGAACCTGCTGCAGTAGGGATGGAAGTGTTCCCCTTAAAGGATCCGTTGTCACCTCCATTGTCAGAACTCATCATTTCTCACATCCAAGCTCAAGTGGTTCCCACAAATGACACCAATGATGCGTACCGAATTTCTGCAGCACCACAATGGTTGAAGGACTTTCACGAAAATTTTGAGATTATCGAAGGACTAGCCTTGCAAAACAAAATATTTGTCTTCTCTCATCCACCGCCACCGCCACCACCACCGCCTCATCTTTTGCATGGAAAAGGTGTTCTCTTTTGCCTTCTCTATGGAAACGGGGACGGGAATTGGAGGGGCATGGCTCCAGGGCGCAAGCGTGGAGCGAAAGGGGTTAAGACGAAGAGCGAGTTGAGTTTGGGCGATCTCGTTTTGGCCAAGGTCAAGGGTTTTCCTGCTTGGCCTGCCAAGATTAGCAGACCAGAAGACTGGGAGCGTGCGCCTGACCCTAAAAAGTACTTCGTCCAGTTCTTTGGGACATCAGAGATAGCTTTTGTTGCTCCTGCGGATATTCAGGCATTCACCATTGAAGCAAAAAATAAATTGTCCGCTAGATGCCAGGGTAAGACAGTCAAATATTTTGCTCAAGCGGTGAAGGAAATTTGTGAAGAATTTGAAGAGTTGCAGCTCAGAAATTTAAATGGGGTGAGAGATAAAAGTGCACTGTCTCTTGCGTCTGAGGCACATTCTCTTGATCCTGTGGTAGATGAGGCCTCAGGGATTAATGGAAATGATGGAAGTGACAGGAAAGTATCAAACTGTAAGTTGGAGATCAAGGGGTCTACGGACGTGGGCGCTGCTTTAGAGCGGTGTTCACAAAGACAGGGTGAGGTGGAATGTCAAGATGTAAAGCCTTGCTTGTCAGATGACGTGAATCATAGTTTGTCTCCACATGTATCTTCAGAAAAGAGGAGCAAGCCCTATACAAATACTAGTGATCTAGTAATGGATTCAGTACCATTATCTAGCCCATCGCATGATTCCCTTGTTAATGAGGATGATTCTCATGATATCAAAGTGGCGGGTAGGTCTTCTGATGATGACCATAATAAATTGACAAATGGCCTTAAAACTAAGCTGGCAATTGGATCTAAGAAGAAACCTGCGGGTGCAATACGTAGGAATAGTGGCTTAGCTGTTCCTCATGATCGTACTGGAGAAATGATTCAAAGAAAATGTGTTTCTGGTGGCAGCATGAAGGTCTCATCTGCTGGTAATTCAAGATCAGGTTTAGATATTGGCAGTGAAAGGAAGGAAAAAAAGTTGCTGAAAGTTAAAAGGCGTTCTGAGACAGAAGATAATGGTCGAGAGGATGCTGAAGTAAGTTTTGAGGAGCATAATAAAGCTATCTCCAGGAAAAAGATAAAGGCCCAGCATGGCCGTGAAAAACAAAGGTTTCAGACAAATGAAGCCTCACCTCCAGGCAAAATGTCAAAATGTGCTGATACTGGAGATGGCGCTAGCATGATAAGAGCACGAATAAGCAAGAAAAGGGATTCTACTAGCCCTGATGTTCTTGATGACAAAATTACTGGTATAGAGTCTAAAAGGCTAACATCAGGTGGGAAGGCTGAGAATAGCCGACTCCTCAGGCTGCAGATGAGTACAAATGACCCCAAGTTTTCCAGTGATGAAGATGATCTACCCCCAATAAAGCGCCGGCGCCGAGTATCAGAAGCAATGTCTAGTTCTGCTTCAATTTCTGAAAATAGATTGGGAGGTTCCGCATCTCGGCAAAGTGATATGGTACTTCCTAACAAAGTCCGGTCCCCAGTTATGCAGTTACCAACAAAGAGGAGAGCTGTCCGCCTATTTGATGATGAGGATGATGAATCACCTAAAACCCCAATTCATGGAGGATTTACAAATAAGGTTTCTGTTATTCCACAGGTGTCAGATTCAAGAAAGAAGCCTGTAATGCATAGTGAAAGTTGTGTCTATGATCAAGGGGTCTCAAAAAATTCAGGACCAGTTGATGATGGGATAAAAGAACAGGTACAATCTGGTCATATGTCCAATAAAGTGTTATCCCCAGCAACTCAGCAAGATACAGAGAAGAGGACTAGAGAATTATCAGCTGCACATGTAATTCCTAGTCCACTGCAGGACACTGAGAAATTGCCCTCTATGGAGGCTAAACCAGTTCAAATTTCTCCTAAAAGGTCCCCTTATTCTATTGGTGGTACCAGGCTGTCAGCAGAAGTGCACAGCAAGCACTCCAGCAAGGCACCTGCTAATATTTCTCAGAAGAAAACTCCAGCGGGAGACAGCAGAAGTGCTTCAGCTTCTGATAGATCAACTTCATTTCTCGCTCAATCACTAGGTGACCGAAGCAAGCCAGCTTCTTCTGGAGATAAAAGTAAAGCTACTCCAAAGTCAGATTTACGGATCAATGACTCTGTTGTTGTAGTCGGGCCTCCAAATGAAAACCACACATCGTTTGGTGAAAGGCTGGATGGTGGTAAAGATGGCAAAACAAGTTTTCTGGTTAATTCGAAAATTCCTGACTCGGTCATGTCCATGAAACATCTTATTGCTGCTGCTCAGGCAAAAAAAAGACAAGCACACTTGCAGAACTCTCATGGAAATCCTCTGCTTCTTTCATTTCCTGATGCTGACATGTCTGCACGGAGCCCGAGCCCGCCCCCTGCTACACTAGCATATGAATCAAGCAACACAGTCCAACCTGGTGTACAAGGAATACATTCAACTTCTCCATGCGCTGATGTTCACCAATTTTCATCTATTAATCAACATGAGAATGAAGAACTTGAGGAGAGGAGGGTGAGTTCAGGCAATCTGGGTACTGGAAGTTCCCTAAGTGGGGGTACTGAGGCCGCTGTTGCTCGGGATGCTTTTGAAGGGATGATAGAGACACTGTCAAGGACGAAAGAGAGTATTGGTCGCGCAACTCGTCTTGCAATTGATTGTGCAAAGTATGGTATCGCCAATGAGGTTGTGGAGCTTCTCATCCAGAAGTTGGAAAATGAGCCAAGTTTACATCGCAGAGTGGACCTTTTTTTTCTAGTTGACTCGATAACCCAGTGCTCACATAGTCAGAGAGGAATCGCAGGAGCCTCTTACATTCCTATTGTTCAAGCAGCATTGCCCCGTCTCATTGGAGCTGCTGCTCCTGCTGGTGCAGGTGCTCAAGAGAATCGCCGTCAGTGTCATAAGGTCTTGCGCCTGTGGCTTGAGAGGAAAATCTTGCCAGAATCTGTTCTTCGCCGTTACATGGGTGATATAGGAGTTGTAAATGATGATGCATCTGTTGGGTTGTCGCTGAGACGTCCTTCTAGAGCTGAGCGGGCTATTGATGATCCTATCAGAGAAATGGAGGGAATGGTTGTTGACGAATATGGAAGGTCTAGAGCTTACTATTTGTTCTCCTTCAGTAATTTTCTGTTTTCTATTCCGCCTTTCATCATTCTTTTAGCAGAATTTGGTCTTTCTAGCTCTCTCCATTTCACTTGCAATAGCACCAGTAATGCTACGTTCCAGTTACCTGGATTGCTGTCAGCTCACGTGTTTGATGAAGAAGAGGAATATGAGGATAGTTTTCCCACAAAGTTATGCAAGGAAGATAATGATACATCACCTTCTGAACTTGCCCCTGCTACAAGCAGAGATCCTGAGAATCACAGTGTTACTCCAAGTGACAGACGACATTGCATTTTGGAGGATGTTGATGGTGAACTTGAAATGGAAGATGTTTCTGGGCACCAAAGGGACGAGAAACCACTGTTTACCAATGGTTCTTTTGGGCTTGGTGTGCTTGAGCCAAATTCAGATGGGATACTTGAATCAGCCCCTAATAACATGTCTGCTGAGTGGATGCCTTCGCCGGAGGGCTCTCCACCATTGCCACCTGGATCTCCGCCTGTAACTCCGCCTCTACCCACTTCGCCACCTCCATTGTCACCACCACTCCCACCACCACCCCCACCTCCTTCACCACCACCACCACCGCCACCACCACCGCCACCGCCCCCATCACAGCATCATCTATTTTCTCGACCAGCTGTCTGTCCTCCTCCACCGCCTACTGGTCCTCCTCCGCAACCTGTTGGACCTCCGCCACAACCTGCTGCTCCACCACCCACTGGACCTAATCCCCAATCTGTTGGTCCTCCACCACCACCTGTTGGACCTAACCCACCACCTTTTGGTTCTACGCCGCCAGTTGGGCCTCCTCCACCATTGCCTTCCCAGCAATCATTTCCGGCTCAGCCTCCATTGATGTCTCAACATATGCATCCACTTCCATCTGCGATATCACATTCCCCACGATCAACTTATCCTCTACCTTCTTTACAGCATGAGATCGGCGCGACGGCCTCTGGAAATCAGTGTTCCCATGTGGTTTCCAATGCTCGTGGGTCCCATATAGATGCATCTGCCAGAAATGAAGTGTTGACGCAGCAATCATCTTGCTTTCCCCCTTCTGGGGTTGGTATTGCACGAGAACATGTTGGCTATAATTCATCAAGGCATGGAGACTATAGACAAGGTGAGGCATATATGAATCCACAAGCTACACAACACAGGCCACCATTTGTACCTGGTCATGCACCTTTTGCACAAAGGCCTGTGCATCCCGAACACCTACCTCAACGTGCACCTAGTCATTTCTCCTATCCAAACTCCGTCCAGCAACATCAATATCCCCCTTACTCATTGCAAAACTTTTCGGATGGTCCCCGGCGATATGCTGCTAATGAACAAACGCAAATGCAAGTAAATGAGTTTAATGCGGATTGTCCGCGTGGTGGGTGGATACCAGGAGGGAGATCATGTTCCGGTCCACCTTATTCGAATGAAGGTTATTTTGGACCTCCTCGTGAAAGACCTCCTGCAAGTGTTGTTAATTTGCAGCCCTCTGCCCCAAATAATCTGCCTTCTGCTGCTCAAATCCCAGTTCATGGTGTTCCTATGATTCCCTGCAGACCAGACATGCCTTCTGGCAATTGGAGACCAGCATAG
Protein Sequence
- >SIN_1008448
MTARTVPRSEAMRPFKTCSGGGIVEPAAVGMEVFPLKDPLSPPLSELIISHIQAQVVPTNDTNDAYRISAAPQWLKDFHENFEIIEGLALQNKIFVFSHPPPPPPPPPHLLHGKGVLFCLLYGNGDGNWRGMAPGRKRGAKGVKTKSELSLGDLVLAKVKGFPAWPAKISRPEDWERAPDPKKYFVQFFGTSEIAFVAPADIQAFTIEAKNKLSARCQGKTVKYFAQAVKEICEEFEELQLRNLNGVRDKSALSLASEAHSLDPVVDEASGINGNDGSDRKVSNCKLEIKGSTDVGAALERCSQRQGEVECQDVKPCLSDDVNHSLSPHVSSEKRSKPYTNTSDLVMDSVPLSSPSHDSLVNEDDSHDIKVAGRSSDDDHNKLTNGLKTKLAIGSKKKPAGAIRRNSGLAVPHDRTGEMIQRKCVSGGSMKVSSAGNSRSGLDIGSERKEKKLLKVKRRSETEDNGREDAEVSFEEHNKAISRKKIKAQHGREKQRFQTNEASPPGKMSKCADTGDGASMIRARISKKRDSTSPDVLDDKITGIESKRLTSGGKAENSRLLRLQMSTNDPKFSSDEDDLPPIKRRRRVSEAMSSSASISENRLGGSASRQSDMVLPNKVRSPVMQLPTKRRAVRLFDDEDDESPKTPIHGGFTNKVSVIPQVSDSRKKPVMHSESCVYDQGVSKNSGPVDDGIKEQVQSGHMSNKVLSPATQQDTEKRTRELSAAHVIPSPLQDTEKLPSMEAKPVQISPKRSPYSIGGTRLSAEVHSKHSSKAPANISQKKTPAGDSRSASASDRSTSFLAQSLGDRSKPASSGDKSKATPKSDLRINDSVVVVGPPNENHTSFGERLDGGKDGKTSFLVNSKIPDSVMSMKHLIAAAQAKKRQAHLQNSHGNPLLLSFPDADMSARSPSPPPATLAYESSNTVQPGVQGIHSTSPCADVHQFSSINQHENEELEERRVSSGNLGTGSSLSGGTEAAVARDAFEGMIETLSRTKESIGRATRLAIDCAKYGIANEVVELLIQKLENEPSLHRRVDLFFLVDSITQCSHSQRGIAGASYIPIVQAALPRLIGAAAPAGAGAQENRRQCHKVLRLWLERKILPESVLRRYMGDIGVVNDDASVGLSLRRPSRAERAIDDPIREMEGMVVDEYGRSRAYYLFSFSNFLFSIPPFIILLAEFGLSSSLHFTCNSTSNATFQLPGLLSAHVFDEEEEYEDSFPTKLCKEDNDTSPSELAPATSRDPENHSVTPSDRRHCILEDVDGELEMEDVSGHQRDEKPLFTNGSFGLGVLEPNSDGILESAPNNMSAEWMPSPEGSPPLPPGSPPVTPPLPTSPPPLSPPLPPPPPPPSPPPPPPPPPPPPPSQHHLFSRPAVCPPPPPTGPPPQPVGPPPQPAAPPPTGPNPQSVGPPPPPVGPNPPPFGSTPPVGPPPPLPSQQSFPAQPPLMSQHMHPLPSAISHSPRSTYPLPSLQHEIGATASGNQCSHVVSNARGSHIDASARNEVLTQQSSCFPPSGVGIAREHVGYNSSRHGDYRQGEAYMNPQATQHRPPFVPGHAPFAQRPVHPEHLPQRAPSHFSYPNSVQQHQYPPYSLQNFSDGPRRYAANEQTQMQVNEFNADCPRGGWIPGGRSCSGPPYSNEGYFGPPRERPPASVVNLQPSAPNNLPSAAQIPVHGVPMIPCRPDMPSGNWRPA