Information report for Sspon.01G0000290-2C
Gene Details
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Functional Annotation
- Encodes the Arabidopsis homolog of the transcriptional regulator MED12, is dynamically expressed during embryogenesis and regulates both developmental timing and the radial pattern formation. Involved in flowering time. The mutant enhances the expression of the flowering time (FT) gene. A knockout mutant of this gene showed late-flowering phenotype.
Homologous
- Actinidia chinensis: CEY00_Acc20206, CEY00_Acc09119
- Capsicum annuum: T459_21805
- Glycine max: Glyma.18G232900, Glyma.09G259400
- Gossypium hirsutum: Gohir.D11G093200, Gohir.A11G088900
- Juglans regia: Jr07_06650, Jr07_06640, Jr12_03720
- Manihot esculenta: MANES_05G034300
- Nicotiana attenuata: A4A49_00155
- Populus trichocarpa: POPTR_014G084500v3
- Prunus avium: Pav_sc0000102.1_g390.1.mk
- Prunus persica: PRUPE_2G170500
- Solanum lycopersicum: Solyc01g094620.3
- Vitis vinifera: VIT_15s0046g02510
Gene Resources
- Pfam: PF09497
Sequences
CDS Sequence
- >Sspon.01G0000290-2C
ATGCAGAGGTACGCCGGCAACAGCGCTGGGTTCAGCGGCGGCACCAGGTCGGAAGCCTCGTCGTTTTCGTCCTCCTCCTCTGGTTACCCCGTCAGCTCCAGGCGGCAGCAACAGCTAGCTCCATACAAGCTAAAGTGTGACAAAGAGCCACTTAATAACAAGCTTGGGCCACCTGACTTCTATCCACAAACACTAAACTGTCCTGAAGAGACATTAACCAAAGAGTACGCGCAAGCTGGGTATAAGGAGACTGTTGAAGGAATTGAGGAAGCAAGAGAGATTGTACTCAGCCAGATCCCATACTTCTGTAAGCCAGATGTGGTCATAAAGTGCAAGGAGATAAGGCTACAACTAACACTTTGTCGCATTCATTCTTTGATGAAGGCATTAAAGAAGCGTTTAAGAGCGATCAATGAATCTCGTGCTCAAAAGAGAAAGGCTGGCCAAGTTTACGGAGTTCCTCTTTCTGGATCTCTATTGATCAAGCCTGGAGTTTACCCAGAGCAAAGGCCATGTAATGAAGACGCACGCAAAAAATGGCCTGAGGCCCTTGCTCAGCCAAACAAGCGACTGCGTTCATTGTCTGAGCACGTTCCTCATGGGTACCGTAGGAAATCACTTTTTGAAGCTCTCATTCAATATAATGTCCCGTTACTAAGAGCAACATGGTTTATTAAAGTCACATACCTGAATCAGCTACAGACCCGACAGACACCTAACAGTATTTCAGTAGCTGCTTCTGATAATCAACGATCTAATCAGTGGACAAAGGATGTTGTTGAATATTTACAACAGATTTTGGACGAATTTTGTTCTAAAGAGGGTGCCGTTGTACCTCCATCTTTTAGAGAGCAGTCATCACCAGGACTTACTGCTGGAACCAATCAAATAAAAATTAAAACAGAAGCATCTCCAGCTGCTGGAGAGAGTGAAGAACCCTTGGTGCACTTGAAATTGAAATGGCGGTATATGGAGAGAGATTCGGTTGATGTTTTAGAGCTTCTTTTGCCTATTATGCTTGGTCTGGTTGACACCATTACTCTCTCACAAACATATGTGCGCATGTTTGTGGATCTTCTAGTGAGACGTCTCAATGATGCTTCTGTTGCTGATAGTCCAAAAAGGTCTTCAGTTTCTTCTGTTATAGCAGAGTTACTGCGATACATGAAACGTGCATATGATCTCGCAACAGTTGCTAACCCTAACCTTCAAGCACGTGGTGCAGCCAAAGTGTCCCGTTACCTGAATAATATCACCAAAGGTTCTTCATTGACTGATGCTTGTTTGACAACAGCTGCTGTGGATGATTCTTCTGGATTGCGAAGTAATGCAAAGAATGTGGATGATAAGAAGGATACGAATGATATCTTTGAAAGCCCTGGTCCACTGCATGATATCATCGTGTGTTGGTTGGATCAGCACGAAGTTAGCAGTGTTGCAGGTTTTACCCGGGTGGATGTTCTCATTGTAGAACTTATCCGCAATGGTATATTTTTTCCTCAGGCTTATGTCAGGCAGCTAATTATTAGTGGAATTACTGACAAGAATGACACAATGTTGGATGTTGAAAGAAAAAGGAGGCATCATAGAACTTTAAAGCAGCTTCCTGGGTCTTCTTTATTTGATATTCTTGAGGAAACTAGGACTGCGGAAGAGCAACAGTTATATGAGATGATGTCAACATACCCAGCGAGCGACGCCTTGTTCTCTCAGAGCTTTCATGTGGCCACTCATTTTATGCAAGTGGCAGAGGTGGGTATGCTGCAAGTTCCTGCATTCGGAAGCAGAGTGATCTTCCAGTTGCATCAGGAGGTGATAAGCATGGAAGAGTGCCAGAACAAGTACGAGAACATACTTCTTGCGAGTGACATCTTGCCTGATGTTCTAAGTGCTTTAGTGAACAGAAATTCTGTGTCAGCAACTGTCAGGCATCCTGGTTCAACAGCTTTTGCTTATGTCCGATATTTTTTGAAGAAATACAGAGATGTGGCTGGTGTGGCCAAGTGGGAAAAAAGCTTTCGGACCACTTGTGATCAGCGCCTGTTAGCTGAACTTGATAATGGGCGGTCCATTGATGGTGATTTGATTTCTTCTTCGGGGGTTTCAGCAGGCGAGGAGATTGATGAGCAGGTCCGCCAAAAGTTGAATGGAAGGAGTTCAAGACTCGTGCAGAATATGAAAGAGATAGTGCAACGGCAAGCTGATGAAGTTCAGCGCAGTTTGAAGGAAAAGAAAGTTCTTGCAGCTCCCAGGAATCCACCCACTTTTGAGAAAGAAGATAGCTATCAAATTGCACATGACATTGTTTCGGGCTTAGTAGATTGTATCAGGCAAAATGGGGGTGCAAATCCAGATGGAGACCTTTCAACAGTTGCTTCTGCTGTTTCTGCAATTGTTGTGAACGCTGGACATGTGATAGCAAAACATTTGGACTTTGCAGGAGAAACTCTTGGGGACCGCTTCAGCCGTGCATTTGAAATAGCTCTGGCTGTTGAAACTTCTGCAACTGTTACAGCAGCTTTTGCTCCTCCAAAGATGCACCGCAATCAGTTTCAACCATCTCCTGAGGCCCATGATGCATATGGAAATCATACAAGTGATCTTAGCAACTCAGGGAAAGGCTTTGTTGGGAGAGCTGCAAAAGTATCTGCTGCTGTTTCTGCTCTTGTTGTGGGGGCTGTTGTTCATGGAGCTGTTAGTCTTGAGCGGATGGTTGCTGCTTTAAAAATAAAAGATGGTTTGGATATTCTGCAGCTCCTGAGAGGTTTGAAATCAAGTACGAATGGTGTATCCCGTCCTACTGGAACTTTTAGGATTGAAAACTCCACAGAAGTTTCGGTACATTGGTTTAGGATTCTATTGGGGAACTGCAGAACTGTCTATGATGGGCTTATTGCAGATATTCTTGGAGATTCATACATTCTTGCACTCTCAAGGTTGCAGCAGATGCTTCCTCTAAGTGTAATCTTTCCTCCGGCCTACTCAATTTTTGCCATGGTTCTTTGGAGACGATATATTTTTAACCGTGAAGATCCACAGCTTTATCAGTCTCTGTCAAACGCAATAAGCGATATTACCAGACATCAACCTTTTCGGGAGATCTGCTTCCGTAATACACATCGGCTGTATAACCTTCTGGCTTCTGATGTTGGTGATTCAGAGTTTGCAGCAATGCTTGAAAGTCATAGCCCGGACAGGAATTCAAAAATATTGCCATTTATACCTCTCCGTGCCCGGCTTTTTCTGGACGCTCTTATTGATTGCAACACACCAACTATTCAGGGGGATGGTGCTTCAGAGCCTTGTGACCCCAAAGATAATGAATTAAAGCTTTCAGAGAGGCTTATGCAACTTCTTGATACTCTTCAACCTGCAAAGTTCCATTGGCAATGGGTTGAGATGAGGCTTCTTTTAGATGAACAGGCTCTTATGGAAAAAGTTGCAGCAGGCAAGACACCACTTGAATCACTTCGGTCATTATCCCCTAATGCTGAGGGTTTTGCCCTTTCTGATAGTGAAAAAGGGTTTACTGAAGTCATTCTATCAAGGCTACTTGCTAGACCTGACGCTGCTCCTCTCTATTCAGAAGTTGTCCACCTTCTTGGAAAGCTTCAGGAGTCGCTTGTTATGGATGTAAAATGGATTTTACAAGGGCAAGATGCTATTCTTGGCCGCAGGTCAACAAGACAGCAGCTTGTTCATATTGCCCAACGAAAAGGGCTTTCAACAAAGGCACAGGTTTGGAAACCATGGGGTTGGTCCAGCTTGCTTAGCGATGTCATTGCTAATAAAACTGCAAAAAGGAAGTTGGAAGTCACATCAATTGAAGAAGGAGAAGTTGTGGATGACACTGTTGATGCTAAAAGGCCTAGCAAGACTCCCCCTCATAATATTGATAGAAGCTTTGATGCGATTAGATCAATAAATAAATATTTAACTGAGAAAGCCCTTGCTGAATTAGTATTGCCATGCATTGACAGAAGTTCTGCTGATATCCGGATGGGGGCTATTAGTGAACACATCAAAGCAATAGCACGGAATGGTGCTAAACAAGCTGGTTCAGTTCCTTTAGGAAATGAAGTGCCATCAAACAAATCAAGTGGTCGTAAAGGAATTCGAGGTGGAAGCCCAAACATTGGCAGAAGAGCTCCGGTTGGTAATGACCCAAGTCCTCCTTCGGTTTCTGCTCTGCGGGCAGCATTGTGGTTACGTCTCCAATTCATCATTAGATTGCTTCCAGTAATCGTGGCAGACAGGAGCATGAGACAAACACTTGCTTCTGCAATTCTAGGCCTGCTTGCAACGCGGATGATTTATGAAGATGCAGATTTGCCCCTTCCTCCTACCAATGCAACTGCTTTAAGGCGGGAGATGGATTCCTTGCTGGAACCTCCCCTGGATGTCCTGCTTGATCGGCCTGGTGAAAGTCTTTTTGAGAGGCTTTTATGCGTTCTCCATGCGCTGCTTGGCAGCCACAAACCAAGTTGGTTGAAGTCAAGGTCAGCCTCTAGGTCGACAATTAGAACTCAACGAGATTTCTCCACATTTGATAATGAAGCAGCCGAATTCTTACAGTCTACGCTGGATCACATGGAATTGCCTGAAACAATCAGGCGAAGGATCCAAGCAGCCATGCCTCTTCTTCCACCATCCCGGCACCCTTCTATGCAATGTCAACCTCCTCAGTTGTCGTTGGCTGCATTAACACCACTCCAGAGCAGTACATCTGGTGCAGGTCCTCAACAGAAAAGTTCTTCTGTGAGTTGGGTGCCCACTAATGTCTCGAGCAGAAGCAAGGCAGCATTGCCTTCTCATGATCCTGAAATGGAGGTAGATCCGTGGAACTTGCTCGAAGATGGTACAAGCTGCCCCTCCACAACATCTGGAAGCAATGGTGCGAGTGGAGTGACGGGTGACCATGCTAATCTGAAAGCGTGCAGCTGGCTTAAGGGTGCTGTGAGGGTGAGGAGGACAGAACTGACCTACATTGGGTCTTTAGATGATGACAGCTGA
Protein Sequence
- >Sspon.01G0000290-2C
MQRYAGNSAGFSGGTRSEASSFSSSSSGYPVSSRRQQQLAPYKLKCDKEPLNNKLGPPDFYPQTLNCPEETLTKEYAQAGYKETVEGIEEAREIVLSQIPYFCKPDVVIKCKEIRLQLTLCRIHSLMKALKKRLRAINESRAQKRKAGQVYGVPLSGSLLIKPGVYPEQRPCNEDARKKWPEALAQPNKRLRSLSEHVPHGYRRKSLFEALIQYNVPLLRATWFIKVTYLNQLQTRQTPNSISVAASDNQRSNQWTKDVVEYLQQILDEFCSKEGAVVPPSFREQSSPGLTAGTNQIKIKTEASPAAGESEEPLVHLKLKWRYMERDSVDVLELLLPIMLGLVDTITLSQTYVRMFVDLLVRRLNDASVADSPKRSSVSSVIAELLRYMKRAYDLATVANPNLQARGAAKVSRYLNNITKGSSLTDACLTTAAVDDSSGLRSNAKNVDDKKDTNDIFESPGPLHDIIVCWLDQHEVSSVAGFTRVDVLIVELIRNGIFFPQAYVRQLIISGITDKNDTMLDVERKRRHHRTLKQLPGSSLFDILEETRTAEEQQLYEMMSTYPASDALFSQSFHVATHFMQVAEVGMLQVPAFGSRVIFQLHQEVISMEECQNKYENILLASDILPDVLSALVNRNSVSATVRHPGSTAFAYVRYFLKKYRDVAGVAKWEKSFRTTCDQRLLAELDNGRSIDGDLISSSGVSAGEEIDEQVRQKLNGRSSRLVQNMKEIVQRQADEVQRSLKEKKVLAAPRNPPTFEKEDSYQIAHDIVSGLVDCIRQNGGANPDGDLSTVASAVSAIVVNAGHVIAKHLDFAGETLGDRFSRAFEIALAVETSATVTAAFAPPKMHRNQFQPSPEAHDAYGNHTSDLSNSGKGFVGRAAKVSAAVSALVVGAVVHGAVSLERMVAALKIKDGLDILQLLRGLKSSTNGVSRPTGTFRIENSTEVSVHWFRILLGNCRTVYDGLIADILGDSYILALSRLQQMLPLSVIFPPAYSIFAMVLWRRYIFNREDPQLYQSLSNAISDITRHQPFREICFRNTHRLYNLLASDVGDSEFAAMLESHSPDRNSKILPFIPLRARLFLDALIDCNTPTIQGDGASEPCDPKDNELKLSERLMQLLDTLQPAKFHWQWVEMRLLLDEQALMEKVAAGKTPLESLRSLSPNAEGFALSDSEKGFTEVILSRLLARPDAAPLYSEVVHLLGKLQESLVMDVKWILQGQDAILGRRSTRQQLVHIAQRKGLSTKAQVWKPWGWSSLLSDVIANKTAKRKLEVTSIEEGEVVDDTVDAKRPSKTPPHNIDRSFDAIRSINKYLTEKALAELVLPCIDRSSADIRMGAISEHIKAIARNGAKQAGSVPLGNEVPSNKSSGRKGIRGGSPNIGRRAPVGNDPSPPSVSALRAALWLRLQFIIRLLPVIVADRSMRQTLASAILGLLATRMIYEDADLPLPPTNATALRREMDSLLEPPLDVLLDRPGESLFERLLCVLHALLGSHKPSWLKSRSASRSTIRTQRDFSTFDNEAAEFLQSTLDHMELPETIRRRIQAAMPLLPPSRHPSMQCQPPQLSLAALTPLQSSTSGAGPQQKSSSVSWVPTNVSSRSKAALPSHDPEMEVDPWNLLEDGTSCPSTTSGSNGASGVTGDHANLKACSWLKGAVRVRRTELTYIGSLDDDS