Information report for MdERECTA
Gene Details
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Functional Descriptions
- The results showed that overexpression of MdERECTA could significantly increase the size and weight of tomato fruits.
- MdERECTA was selected in artificial selection during apple domestication and affected fruit size.
- An apple ERECTA-like (MdERECTA) gene that underwent selection during domestication on 15th chromosome was identified as a likely major determinant of fruit length and diameter, and an NB-ARC domain-containing gene was found to strongly affect anthocyanin accumulation using a genome-wide association approach.
Functional Keywords
Literature and News
Homologs
- Actinidia chinensis: CEY00_Acc28240
- Fragaria vesca: FvH4_2g30910
- Glycine max: GLYMA_17G226100
- Gossypium hirsutum: Gohir.A07G019300, Gohir.D07G019100
- Juglans regia: Jr06_10550
- Manihot esculenta: Manes.16G086000
- Poncirus trifoliata: Ptrif.0001s2072
- Populus trichocarpa: Potri.006G220100
- Prunus persica: Prupe.1G403600
- Ricinus communis: 29739.t000062
- Rosa chinensis: RchiOBHm_Chr6g0311931
Sequences
cDNA Sequence
mRNA Sequence
- />MD15G1049300
GAGAGAGAGAGAGAGCAGTAATTTTGCAGAAAACACAGAGGGAGACTGAGACCTCTGGCATGTGGTTTCTTAACTTTATCCATGAAAATAATTCTCCTTTCTCTCTCTAGCTCCTCTCACTCTCTTTCTCTCTACACACTCTAACCAGTCGGTACAGTTGTATTTACAGGCCTACGCTACTGCCAAAACGATGTGATTGAACAATAGCAGGCTTTAGATTTTTGGGTTGAAGAAGCTCTCTCTCTCTCTACGTCTGAATATTTCTCTTCAAATCAGAAGACTTTCTGGAAAAGGGAAGGGGAAAAAAAAATATACCAAAGCTTAAGGGTTGGAGAATTTTTGATCGCTCAAAATATCCTCAGCCTCCGGAGCTCTGTTTTTGTAAAGGTGGTGCAATGTAGCCGGGTCCAAGGAGAGGAGGAGGAAGAGGGAAGAAGAGGGATTCTTTTGGCTTTTGGGGGTGTACGGATTCTCTGCGTTTGTTCTTTTGGGACTGAAGTTTGGCGGCCAATTTGTGAAATGGGGTTTGATGAGACTGCAGTTGTGGCAGTTCGGGTGGAGTTTGTGCTTCTGGTTCTTCTGCTTGGGTGTATGAGCTTCGGCTATGGGGATTCACAGAACGATCAAGGAACACTGCTGGAGATAAAGAAGGCATTTAGGGATGTGGACAATGTTCTCTATGAATGGACAGACCCACCCTCTTTAGATTATTGTGTTTGGAGAGGCGTCACATGTGATAACTCTCTCAATGTCATTGCACTTAATCTATCGGGTTTGAATCTTGGAGGGGAAATCTCATCTGTAATAGGGGATCTCGAAAACCTCCAGTCTATCGATTTGAGGGGGAACCACCTATCCGGCCAGATCCCAGATGAGATTGGTGACTGTTCGGCTCTGCAAAACATTGACTTGTCCTTCAATGAGATATTTGGAGACATACCATTTTCGATATCCAAGTTAAAACAGCTGGAAAATCTGATTTTGAAAAATAATCAATTGATTGGTCCACTTCCTTCGACGTTGTCCCAGATTCCGAATCTGAAGATTTTAGACCTAGCACAGAATAATCTCACTGGGGAAATACCAAGGCTTATATACTGGAATGAAGTTCTACAGTATCTTGGTTTGCGAGGGAACAATTTAGTCGGAACCCTTTCTCCAGATATGTGCCAGTTGACTGGGTTATGGTATTTTGATGTGCGAAACAACAGTTTGACCGGTAGCATTCCTCAAAATATAGGGAACTGCACTGCTTTCCAGGTTTTGGATCTGTCCTACAACCAGCTAACTGGAGAGATTCCATTTAATATCGGGTTCCTGCAAGTAGCCACCTTATCATTACAAGGTAATCAACTTTCTGGGCCAATCCCATCTGTGATCGGCCTAATGCAGGCTCTCGCTGTATTGGATTTGAGCAGCAACGCGTTAAGTGGATCGATCCCTCCTATCCTGGGGAATTTGACTTATACAGAGAAATTGTATTTGCATGGTAACAAGCTTAATGGATCCATTCCCCCAGAGCTTGGACAGATGACAAAGCTACATTATTTGGAATTGAACGATAACCATCTTACGGGATATATTCCACCTGAACTTGGGAAGCTTACGGATTTGTATGACCTAAACGTTGCGAACAACTATCTTCAAGGGCCCATTCCTGATAATCTTAGTTCGTGTACAAATCTGAACAGCCTCAATGTGCATGGGAACAAGTTGAATGGAACCATTCCGCCTGCTCTTCAGAGGCTCGAGAGTATGACTTATCTAAATCTATCCTCCAACCATCTTCGTGGCCCAATTCCTATCGAGCTGTCTCGGATTGGTAACTTGGATACTTTGGATATTTCAAATAACAAACTAAGTGGAACCATTCCTTCATCACTTGGGGATTTGGAACATCTTTTAAAGCTGAATTTGAGTCGAAACCATTTGACGGGATTTATTCCAGGGGAGTTTGGTAATTTAAGGAGTGTTATGGAAATAGACCTTTCAAGTAATCAGCTCACGGGATTAATTCCTCAAGAGCTCAGTCAGCTGCAGAACATGAATTTATTGAGATTAGACCACAACAATATATCCGGGGATGTGGTATCGCTGATAAACTGCTTCAGCCTTTCTGTATTAAATGTATCTTACAACAACTTGGCAGGCGATATTCCCACGAGCAAGAACTTCTCAAGGTTTTCACCAGACAGTTTTATTGGAAACCCTGATCTTTGTGGCTATTGGCTCAATTCTCGATGTCATGAGTCTCGTCCAACAGAGCGAGTGACACTATCTAAAGCTGCTATCCTGGGAATCGCTCTTGGTGCCCTTGTGATTCTTCTCATGATTCTTGTTGCTGCATGCAGGCCATATAATCCAACTCCCTTTCCTGACGGTACATTTGACAAACCAGTTAATTACTCAACTCCGAAGCTGGTGATCCTTAACATGAATATGGCACTTCATGTATACGAGGACATCATGAGGATGACCGAAAACTTGAGCGAGAAGTATATAATTGGTTATGGTGCATCGAGTACAGTGTACAAATGTGTTCTGAAAAATTGTAAGCCAGTGGCTATCAAGAAACTTTACTCGCACTATCCTCAGTGCATGAAGGAGTTTGAGACTGAACTTGCGACAGTTGGAAGCATCAAGCATCGGAATCTGGTGACCCTCCAGGGGTACTCCTTGTCTTCCTCCGGAAACCTTCTCTTTTACGATTACATGGAAAATGGCAGTCTCTGGGATCTCCTTCACGGCCCTTCCAAGAAGAAAAAGCTCGACTGGACAACTCGTCTCCAGATTGCCCTTGGAACAGCCCAAGGGCTTGCCTACCTGCATCATGATTGCAGCCCCAGAATCATACACCGGGATATCAAGTCGTCCAACATTCTACTGGACAAGGATTTTGAAGCTCATTTAACTGATTTCGGCATTGCCAAGAACTTATGCCCCTCAAAGACCCATACGTCTACTTACATAATGGGCACGATTGGCTATATAGATCCTGAGTATGCGAGAACGTCACGCCTCACTGAGAAGTCCGATGTGTATAGTTACGGCATTGTTCTGCTGGAGCTGCTGACGGGAAGGAAAGCCGTAGACAATGAATCCAATCTCCATCATTTGATATTATCTAAGACGGCAAACAATGCTGTCATGGAAACCGTAGATTCTGACGTCACGGCCACATGCACGGACCTCGGAGCAGTAAAGAAGGTTTTCCAGCTTGCCCTTCTGTGCACAAAGCGGCAGCCAACAGACCGGCCAACAATGCATGAAGTAACTCGCGTGCTGGGGAGTCTCGTGCCTTCCCCTGCACCACCAAAACAACCAGCCTCCGCCAACCCACCATCGACACAACACCCGTCTGCCAAAGCGCCGTGCTACGTGGACGAGTACGCGAATCTCAAAACGCCGCACATGCTAAATTGTCCATCCATGAGCACCTCAGATGCCCAGCTGTTTCTCAAGTTTGGAGAGGTAATATCTCAGAACAGTGAGTGAAAAATGAAGCATTTGAAGAGAGGAAGAATTATTATATGATGTTACATGTCATGAAACATCTGAGAAAAATAGTAGTGGGAAAGTAAGGAGGCTCAGGGGATTGAAAACTGTGTACAAAGATTTGGCTTTCAGCTTGTTTGTAAGTGAAAAGATGGGCAAAATATGAACAACCTTTTATTAATAGCTTTATAAAGTTCAGTAGCTTTTTCGTTTTACCTTCTTGTTCAAGCGATATTCCAATTAAGAAATTTTGTTTTACCTTCTTATT
Protein Sequence
- />MD15G1049300
MGFDETAVVAVRVEFVLLVLLLGCMSFGYGDSQNDQGTLLEIKKAFRDVDNVLYEWTDPPSLDYCVWRGVTCDNSLNVIALNLSGLNLGGEISSVIGDLENLQSIDLRGNHLSGQIPDEIGDCSALQNIDLSFNEIFGDIPFSISKLKQLENLILKNNQLIGPLPSTLSQIPNLKILDLAQNNLTGEIPRLIYWNEVLQYLGLRGNNLVGTLSPDMCQLTGLWYFDVRNNSLTGSIPQNIGNCTAFQVLDLSYNQLTGEIPFNIGFLQVATLSLQGNQLSGPIPSVIGLMQALAVLDLSSNALSGSIPPILGNLTYTEKLYLHGNKLNGSIPPELGQMTKLHYLELNDNHLTGYIPPELGKLTDLYDLNVANNYLQGPIPDNLSSCTNLNSLNVHGNKLNGTIPPALQRLESMTYLNLSSNHLRGPIPIELSRIGNLDTLDISNNKLSGTIPSSLGDLEHLLKLNLSRNHLTGFIPGEFGNLRSVMEIDLSSNQLTGLIPQELSQLQNMNLLRLDHNNISGDVVSLINCFSLSVLNVSYNNLAGDIPTSKNFSRFSPDSFIGNPDLCGYWLNSRCHESRPTERVTLSKAAILGIALGALVILLMILVAACRPYNPTPFPDGTFDKPVNYSTPKLVILNMNMALHVYEDIMRMTENLSEKYIIGYGASSTVYKCVLKNCKPVAIKKLYSHYPQCMKEFETELATVGSIKHRNLVTLQGYSLSSSGNLLFYDYMENGSLWDLLHGPSKKKKLDWTTRLQIALGTAQGLAYLHHDCSPRIIHRDIKSSNILLDKDFEAHLTDFGIAKNLCPSKTHTSTYIMGTIGYIDPEYARTSRLTEKSDVYSYGIVLLELLTGRKAVDNESNLHHLILSKTANNAVMETVDSDVTATCTDLGAVKKVFQLALLCTKRQPTDRPTMHEVTRVLGSLVPSPAPPKQPASANPPSTQHPSAKAPCYVDEYANLKTPHMLNCPSMSTSDAQLFLKFGEVISQNSE