Information report for Glyma.18G000100
Gene Details
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Functional Annotation
- Encodes the Arabidopsis homolog of the transcriptional regulator MED13, is dynamically expressed during embryogenesis and regulates both developmental timing and the radial pattern formation.
Homologous
- Actinidia chinensis: CEY00_Acc04100
- Citrullus lanatus: Cla97C03G064720
- Cucumis sativus: CsGy1G028520
- Gossypium hirsutum: Gohir.A08G227900, Gohir.D08G248200
- Juglans regia: Jr14_21970, Jr14_21990, Jr14_21980
- Manihot esculenta: MANES_14G121800
- Medicago truncatula: Medtr3g083500
- Populus trichocarpa: POPTR_001G004200v3, POPTR_003G220800v3
- Prunus persica: PRUPE_6G003600
- Rosa chinensis: RchiOBHm_Chr5g0083741
- Vitis vinifera: VIT_06s0004g00450
Gene Resources
- Pfam: PF11597 PF18296
- UniProt: A0A445FM28
- EMBL: QZWG01000018
- InterPro: IPR009401 , IPR021643 , IPR041285 , IPR051139
- PANTHER: PTHR48249 , PTHR48249:SF3
Sequences
CDS Sequence
- >Glyma.18G000100
ATGTGGACAAATGTTTTCAAAATCGGAAGTATGCATCAGATATCTTGGTTTCAGTTTCTTCCTCATGAACCTGACCTGAACCCTCTACCTGACAAAAGTGTTAAAGTGGACCAAAAGGATGCTGCAATGTTACTGGTGCTTTCATCACATCTGCAACTTCAGAAGGAGGGGTTTCTCAGCACATGGACCAATTCCTTTGTTGGACCTTGGGATCCATCCCAGGGATTGCATAATCCAGATGAAAAGATTAAGCTGTGGCTTTTTCTTCGGGGGCGTCATTCATCAGTTGTTGAGACTGCTCAGACAGCAGTATCTGGATTAAGAGTTGTTGCTTCTGGGCTTTGGTTGGCTCCTGGGGATTCAGAAGAGGTTGCAGCTGCTCTCTCTCAGGCTTTAAGGAATTGTATAGAAAGAGCTTTGCTTGGGCTTTATTACATGAGATTTGGAGATGTATTTTCAAAGTTTCATCAATTTCAAAGAGAAGAAATTTTCAGAAGAGGACAGCCTGCAGTTGAATTTGTCTTTGCTGCAACTGAGGAGGCAATCTTCATACATGTCATAGTATCCTCAAAGCATATCCGAATGCTTTCCACAGCTGATCTGGAAAAAGTATTAAAACATTCTATGGAGTCGACATATAGACTTCCAGTAATTGTTTCTCCGCATGGAATTCGTGGCAGCTTGACTGGTTGTTCTCCTAGTGATCTTGTCAAGCAAAGCTATTTCAGTTCTACCAAATTTAGGGTGTCCAATGGAATTATAGGTCTCCCATATCATGTTTCCCAGGGTGTTGGTTGCCAGCTGAGGGGGCAGAATTGTTATGTTGAAGTAAGTCTTGGCTTCCCTAGATCTGGAACTGACAACACGTTGCAGCCAAACAAAAATAGTGTCAGGAATTTACCCAAACTTCATGTTGCTGAATCTCCTGTTGTGGGACGAAGTGATCACAAGGGACCACCAGATCATTTGTTGGATTACGATAAAACGTTTCTCTATCCAGCTGAGGCAGTGCTTGTGCCAGTCTTACAAACATCATTAGCAAGGTCTTCCTTGAGAAGATTTTGGCTGCAGAATTGGATGGGACCATCCCTGCCTGGTTCCTCTTCCTTTATTCACTGTGCTGGTAATGTGGATTGTACTGAAGATCCTTGGACTGAAATCAATGGAACCCGCACACAAAGTAGTTATGATAGTAGTAGCAATAGCAATAATAGCAGTATTAGTAGCTTAAGTGCCAGCTCTAGTGATAGTGATTACAAGACTACAGGACCAAGTGAACTAGAGGCAGATGCTGATTCTTTGACGTGTAGACAGTCTATGGTATCTTCTGCTGATCAGTTGGACAGTGATGGCCCCAAATTGGGCTCTAAGCGGTCTCGAACAGGGGTGACAGAGTTGTTAAGTACAGCTACAAACATTCCTGTGCAAGATGCTTACATGTCTGATTTTGGTTCCATGGAAGTGAACAATTCAGCCATTACAGGAGTAGGAAATGAGCCAATTGGGTCTTACTGGGACTGGGATGATGATGATAGAGGCATGGAAATGGATATTCAAGCCCTTCTATCAGAGTTTGGTGATTTTGGTGACTTCTTTGAAAATGATGTTTTACCTTTTGGAGAGCCCCCAGGAACTGCAGAATCTCAGGCACTCATGCTTTCTGCCCCGGATTGTGGAGATGTCAACAGCAGTCCAGGTGGTGTGATAGATGTTCCAGATCAAATACTTTTGCCTGTTGGCTTTGCTTCCTTTGAGAGCTTTAACCCCCCTCCTTCAACATCCATAGAAGAATGTCTTAACAAAAGTCAAGATAACTTGAATAACTCCATGTCTTTGGGTCCAACCAATCAAAATCAACTGTTGTATACAAGGGAGTTTGATCATATAATGAAAGCTGAAGCAATGATGACATTCGCTCCTGAATTTGGAGCTGTTGATACCCCTACTTGTGAGTTCTCCACAACATTATTCAGAAGCCCATATTTTCCGAAATCTCGAAAAGCAAAGAGTTCAACTTCAAGTTCAAGCAATTACTTATATGGTGCAGCACCGCCCACTTCTACTTGCACTGAAGGATCAGAGGGGAAGAATGGAAAGTCCGTCAACACAAAAACAGGTTCTGGAAAACATGATGCTAGTACTATGAGTCTCCACTCAAAATATTACTACACTTTTGTGGAAAGTAGGAAAGAAAAAAATGATAAAAATCCTGCCACTTGCAATGATAACAGCATAACTAAATCTGAGGGGATGCCACCACTCTCAAACATTGGTTCTAATGCTATTGTCAAGTCTGCCATAAGGAAGACAACTGATTGCACACATGAAGCAGAGCAGTTCCTTCTATCTGCAAAAACTTTGTTGGCAACTGATATCACATGTATTATGTTGCAAGCTTCCATGTGCAGGTTACGCCATATTCTCTTGTCTTCAGGTAACCTAATGCCTGCTGGTTTGAGTAGGTCAACTGGGGTTTCATTTTTGAATCAGCTTCCTAGTGATCCAAGTATGACAACAGACAACATATCTGGCAAGTATGATGTTAAGAAGAAAGAAAATATACCAATTAGAATTGCAGGTGATATTGATGGAGGAATGCTTGATGGGCACCTTAATGCCCCTGTTGGTGTTTGGCGCACATTAGGAGCTTCCAAAGTTGTAAAACCTTCAAATTCACCTAACATGGAAGTTGTTCCTTCCTTTCCTCATAATTCTTTCAATGAAGAAGGTATCCTTTCTTATGGTCAAAGGAAACCACTTCAGGAGCTTCTTGATGGGATAGCATTACTTGTCCAACAAGCTATTTCCTTTGTTGATCTGGCCTTGGATGTGGATTGTGGTGATGGTCCTTATGGTTTGCTTGCAATGCAAGAACAGTGGAGGCGTGGATTTTGTTGTGGGCCTTCCATGGTCCATGCTGGCTGTGGGGGAAGTCTTGCCTCTTCTCATTCATTGGACATTGCTGGCTTGGAGTTAGTGGATCCACTTTCTGCTGATGTTCATGCATCCACTGTCATCAGTTTGCTGCAGTCTGACATAAAAACAGCTTTGAAATCTGCTTTTCCCAATTTGGAAGGGCCATTATCTGTAACTGATTGGTGCAAAGGACGCAATCAATTGATTGATACTGGAAGCGTAGTTGATGGAGTTTCTGCTGAATCCAACATTAATGAATGTAGGGATTCTTCAGAACCAATGAGTCCATCTCAATCATCTGTTGGTGGATCTTCCAGTATTAAGGTTTCCAACATGATGGATAAGGTGGATGAGACTTCTCAAAGGAGATCTGGCCAAGATTTATGCAGCACAGAGTCAGAGCAGCAAACATGTTCCCGGCTAAAACCTACTCTCATTGCTCTTCCGTTTCCTTCTATACTTGTAGGGTATCAGGATGATTGGCTCAAGACATCAGCAAACTCTTTGCAGCACTGGGAGAAGGCTCCTCTAGAGCCCTATGCTCTACAGAAACCTATTACGTATCATGTTGTATGTCCCGACATTGATCCCCTTACTTCTGCTGCTGCTGATTTTTTTCAACAACTAGGAACAGTGTATGAGACATGCAAGCTAGGTACTCATTCACCTCAAGGCTTGGGGAATCAGATAGAGATAGAGTCTGCAAAGTTGTCATCTTGTGGTTTTGTTTTACTTGATTGCCCCCAATCAATGAAGATTGAGAGCAGCAATGCATCTCTTGTTGGTTCAGTAAGTGATTATTTTTTATCTTTATCTAATGGTTGGGACCTGACTAGTTATCTCAAGTCTCTTTCAAAGGCACTTAGAGGTTTGAAAATTGGCTCTTGCTTTTCTACAAACCCCAGCGAAGGAAGTAACAGCTCATGCTTGGTAATCTATGTGGTGTGCCCATTTCCTGATCCCACTGCAATTTTGCAAACTGTAATTGAGTCTTCTGTTGCCATTGGATCGGTTGTCCAACAGTCGGATAGAGAGAGGAGATCTAGCTTGCATAGTCAGGTTGTGAAGGCATTAAGTGGCTTGGCCACTGTCGATGAAGCTTCAGCGTCTAATATCCTTGTGCTTTCTGGGTTTAGTATTCCAAAATTGGTCTTGCAGATAGTTACAGTGGATGCCATTTTCAGAGTCACAAGCCCATCTGTTAGTGAGCTTGTCATTTTAAAAGAGACTTCCTTTACTGTATACAGCAAGGCTCGTCGCATTTCACGTGGAATCTCTAGTGATTTTGCTCAATCTGCATTTTCTAGTAGATCTCATTCTGGTTTGACACAAATGCCTTCTCCCATCTCTGGGATGTGGAAAGACTGTGTTGGTCCTCGAATGGCAGGACATTCTCTTCCAAGAGAGGGTGACATTGATGCTAGCTTGAGGCCTGGTACTTGGGATAATTCTTGGCAACCAACAAGGACTGGGGGGTTAAGCTGTGATCCAAGTAGAACTGGGGATAATTTTCTTCATGATGAAATTCGTTACATGTTTGAACCCCTTTTTATTCTCGCAGAACCAGGTTCTCTTGAAAATGGTATTTCAGTTATTGGTAGTCCCACTTCAGAATCTTCCAAGGCATTGGCAGATGACAGTAGTGGTAACTATGTACAGAGTACAAGTACAGCAGGAAGTGTGGAGTCTGCTTCAAGCACTGATGCATCTGGGTCCGATCCAAAGACTCCTCCAAGCCTACATTGTTGCTATGGATGGACTGAGGACTGGCGTTGGCTCGTGTGCATCTGGACAGACTCAAGGGGAGAATTGCTGGACTGCAATATTTTCCCCTTTGGTGGAATAAGCAGCAGGCAGGATACAAAGGGTCTGCAGTGCCTATTTGTTCAAATTCTTCAACAAGGTTGTCTGATACTTCAATCTTGTGATCCTGGCCTTGCAAAGCCTCGAGATTTTGTGATAGCACGCATTGGAGGTTTTTATGAGCTCGAGTACCTTGAGTGGCAGAAAGCCATTTATTCAGTTGGTGTATCTGAGATGAAGAGATGGCCTCTGCAATTGCGGAAATCTATGTCTGATGGGATGTCTGCAACTAGTAATGGTTCTTCTTTGCAACAATCAGATATGAGTTTGATCCCAGAAAGAACTCTTCCTTCCTCACCGAGTCCTTTGTACAGCCCTCATACCAAATCCCCTGGTTTTATGAAAGGCAGTTTAGGGCAACCTACTGCAAGAAAGCAACTTATCGGTGGACATTCTATGGTTGACAATTCTAGGGGTTTGCTTCATTGGGCGCAAAGCATTAGTTTTGTTGCAGTTTCCATGGACCATACTTTACAACTAGTTCTCCCAGCAGATTCATCAACTCCTGGTTACATAGAAGGTTTCACTCCAGTTAAGTCTCTTGGTTCTACGTCTTCTGCATATATTCTAATTCCTTCTCCTAGCATGCGGTTCCTTCCTACAACAGTTCTTCAACTCCCAACATGCCTCACAGCAGAGTCGCCACCACTAGCTCATCTGCTTCACAGCAAGGGTTCTGCTCTTCCTCTCTCTACTGGATTTGTGGTTTCAAAAGCTGTACCTTCCATGAGGAAGGACTATAGAGCCAACCAAAAAGAAGAATGGCCCTCTGTACTTTCAGTGAGCCTCATTGATTATTATGGAGGTACTAACATCCCCCAAGAGAAGATTGTCCGAGGAATTAACAAGCAAGGTGGTAGAAGTTTAAGCTGGGAAGCTAAAGATTTTGAAATTGAGACCCACTTGGTTCTGGAGTCTCTTGCAGCAGAGCTTCATGCCTTGTCATGGATGACAGTGAGCCCCACATACTTAGAGCGGCGAACAGCACTTCCTTTCCACTGTGACATGGTTCTAAGACTAAGAAGACTTCTTCACTTTGCTGATAAAGAGCTCTCCAAGCAGTCCGAGAAATCTTGA
Protein Sequence
- >Glyma.18G000100
MWTNVFKIGSMHQISWFQFLPHEPDLNPLPDKSVKVDQKDAAMLLVLSSHLQLQKEGFLSTWTNSFVGPWDPSQGLHNPDEKIKLWLFLRGRHSSVVETAQTAVSGLRVVASGLWLAPGDSEEVAAALSQALRNCIERALLGLYYMRFGDVFSKFHQFQREEIFRRGQPAVEFVFAATEEAIFIHVIVSSKHIRMLSTADLEKVLKHSMESTYRLPVIVSPHGIRGSLTGCSPSDLVKQSYFSSTKFRVSNGIIGLPYHVSQGVGCQLRGQNCYVEVSLGFPRSGTDNTLQPNKNSVRNLPKLHVAESPVVGRSDHKGPPDHLLDYDKTFLYPAEAVLVPVLQTSLARSSLRRFWLQNWMGPSLPGSSSFIHCAGNVDCTEDPWTEINGTRTQSSYDSSSNSNNSSISSLSASSSDSDYKTTGPSELEADADSLTCRQSMVSSADQLDSDGPKLGSKRSRTGVTELLSTATNIPVQDAYMSDFGSMEVNNSAITGVGNEPIGSYWDWDDDDRGMEMDIQALLSEFGDFGDFFENDVLPFGEPPGTAESQALMLSAPDCGDVNSSPGGVIDVPDQILLPVGFASFESFNPPPSTSIEECLNKSQDNLNNSMSLGPTNQNQLLYTREFDHIMKAEAMMTFAPEFGAVDTPTCEFSTTLFRSPYFPKSRKAKSSTSSSSNYLYGAAPPTSTCTEGSEGKNGKSVNTKTGSGKHDASTMSLHSKYYYTFVESRKEKNDKNPATCNDNSITKSEGMPPLSNIGSNAIVKSAIRKTTDCTHEAEQFLLSAKTLLATDITCIMLQASMCRLRHILLSSGNLMPAGLSRSTGVSFLNQLPSDPSMTTDNISGKYDVKKKENIPIRIAGDIDGGMLDGHLNAPVGVWRTLGASKVVKPSNSPNMEVVPSFPHNSFNEEGILSYGQRKPLQELLDGIALLVQQAISFVDLALDVDCGDGPYGLLAMQEQWRRGFCCGPSMVHAGCGGSLASSHSLDIAGLELVDPLSADVHASTVISLLQSDIKTALKSAFPNLEGPLSVTDWCKGRNQLIDTGSVVDGVSAESNINECRDSSEPMSPSQSSVGGSSSIKVSNMMDKVDETSQRRSGQDLCSTESEQQTCSRLKPTLIALPFPSILVGYQDDWLKTSANSLQHWEKAPLEPYALQKPITYHVVCPDIDPLTSAAADFFQQLGTVYETCKLGTHSPQGLGNQIEIESAKLSSCGFVLLDCPQSMKIESSNASLVGSVSDYFLSLSNGWDLTSYLKSLSKALRGLKIGSCFSTNPSEGSNSSCLVIYVVCPFPDPTAILQTVIESSVAIGSVVQQSDRERRSSLHSQVVKALSGLATVDEASASNILVLSGFSIPKLVLQIVTVDAIFRVTSPSVSELVILKETSFTVYSKARRISRGISSDFAQSAFSSRSHSGLTQMPSPISGMWKDCVGPRMAGHSLPREGDIDASLRPGTWDNSWQPTRTGGLSCDPSRTGDNFLHDEIRYMFEPLFILAEPGSLENGISVIGSPTSESSKALADDSSGNYVQSTSTAGSVESASSTDASGSDPKTPPSLHCCYGWTEDWRWLVCIWTDSRGELLDCNIFPFGGISSRQDTKGLQCLFVQILQQGCLILQSCDPGLAKPRDFVIARIGGFYELEYLEWQKAIYSVGVSEMKRWPLQLRKSMSDGMSATSNGSSLQQSDMSLIPERTLPSSPSPLYSPHTKSPGFMKGSLGQPTARKQLIGGHSMVDNSRGLLHWAQSISFVAVSMDHTLQLVLPADSSTPGYIEGFTPVKSLGSTSSAYILIPSPSMRFLPTTVLQLPTCLTAESPPLAHLLHSKGSALPLSTGFVVSKAVPSMRKDYRANQKEEWPSVLSVSLIDYYGGTNIPQEKIVRGINKQGGRSLSWEAKDFEIETHLVLESLAAELHALSWMTVSPTYLERRTALPFHCDMVLRLRRLLHFADKELSKQSEKS*