Information report for Et_s2262-0.18-1.path1
Gene Details
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Functional Annotation
- Encodes a ubiquitin-specific protease, and its activity has been confirmed in an in vitro assay. ubp15 mutants have defects in cell proliferation, and the associated processes of leaf, root, stem, flower, and silique development. UBP15 can be found in the nucleus and cytoplasm in transient assays. Though UBP15 is expressed in many tissues, UBP15 transcript levels are higher in rosette leaves and inflorescences than in other parts of the plant.
Homologous
- Brachypodium distachyon: BRADI_3g09260v3
- Setaria italica: SETIT_016222mg
- Setaria viridis: SEVIR_1G020400v2
Sequences
CDS Sequence
- >Et_s2262-0.18-1.path1
ATGCTCCAACCAAGGGAAGCTGATGTGCCTGTACTCATTGTTGTCTTCGTTGTACTTCCTGTGCTAGCTTATTTTATTCTTGGGAAATGGAATGATGCTGTAAGTAAGAAGGCAAGGGCAAGTGTGCTTGCACAGCGTGCTGCAGAAGACACCTTTACAGTGGAAGCAATGGCATGTCCAGATGTTATATCACCAGGACCTTCTTTGAGACCTATGCCTTATTGGAGACCTGCACCTTCTTTCAGACATGAATACCATGAATGTGCTACTTGCCATGCCCCTGCAAAGACTCGCTGCTCCAGATGCAAGTCTGTTAGATATTGCTCTGGAAAGTGCCAAATAATACATTGGCGGCAAGGACACAAGGAAACATGCGAGCAATGGCTTGGTAATGGCACATGCAGCTCTGGTGTGCCTGCAACTGAGGCTACAGAACATATGCCCTTCCTGAGTAACTTAAACTCCCCTCTTCCTGGTGGTGACATTCACTTGCGAGACATGAACTTTGATACTTTATCAGAGCCATCCTTTCCGACGACTGATAGCTACAATCTAGATATGGATCCATTTCCAGTAGACAGAAGCAACATGAAGAAGTCCAATCATAGTCGTCATACGAGTGAAATGGGTGCTATTGGTGTATCTTTTGAGAAGAATAATATCATTGGTGATGAAGAATCCCGGCCTTCTGAGATTCTATCAGGAAGCAAGGTGTCAGGTTCAGAAGTGAAGAGTGGAAACTGTGACGCAACTTATCCCGTCAAAAGTACTGCACAACAATCTAGCATTTCTACTCCTGAGACAAGAAAACGGCCAAAAGTGAGCATCACTGTTTATGAACCCGATGCGGGTGTTTATTTAACATCGGATATGATCAGTTCCTGTGAGGGGCCATATGCTTCTGCTACTGTGCCACTACAAAGGAGTTTCTCATCTGGAAAAAGTATTGGGAAAGGAAACACGGTGCATAAGAGGCCTCCATATCCATCAGGTAGGGTGGCTGCTCCACAAAAATCGCAGGAGAAGGTGCCCGCGTCACATCAAAATGATGGCCATGAGAAGAATCCTTGCAACAAAAATGACCAAAGAGCAACCCAAACAAACGCTCCAACAAGCAGCAATCTACAAGGATGCAATGGGATCTCAAAGATAGGAGCATCTAAGGTTGATGTTTTGAAGAAGCCCTCAAAATTTCTCAAAACCAGCCTTGTCGGATTGATCAATGATAACAAGAGGAGTAAGGTACTGTTTCCGTATGAGGATCTTGTGAAGTTTTTCCAATATGAAGTACAGGGCATTTCTCCTAGAGGTCTCTTCAATTGTGGAAACAGCTGCTATGCCAATGCTGTTCTACAATGTCTCATGAGCACAAAGCCACTGATGATCTACCTGCTTCTGAGATTGCATTCTAAAGACTGTTACTCAAAGAGTTGGTGTCTTATGTGTGAACTTGAGCAATATGCATCATCTTTACGTGAAAGTGGTGGACCCGTATCTCCAAGCAGAATTCTATCCAATCTTAGGAATATTGGATGTCGTCTGGGTGGCGGAACTCAAGAAGATGCACATGAGTTTTTAAGGCATCTTGTGATGTCTATGCAAACATCATGCTTGGATGGACTGGGTGGTGAGAAGCATGTTGAACCAACTTTGCAGGAAACAACACTTATCCAACAGATGTTTGGTGGCCGTCTTAAGTCCAAGGTTAAGTGCCTCAGATGCTATCATGAATCTGAAAGATACGAGAATATAATGGATCTTACTCTGGAGATTCATGGCTGGGTGGAGTCCTTGCAAGATGCTTTGACACAATTCACTGCTCCTGAAGATTTAGATGGCGAGAATATGTATAAATGTGGAAGATGTGCTGCGTATGTGAGAGCTAGGAAACAGTTGAGTGTGCATGAGGTGCCAAACATATTAACTGTTGTTCTTAAAAGATTCCAGTCAGGAAAATACGGCAAGATCAACAAATGTGTCACATTTCCTGATATGTTGGACATGGTTCCTTTTGTGACTGGGTCTGGTGACAATCCCCCTCTTTATTTCTTGTATGCTGTGGTTGTACACGTGGATACAGAAAACGCATCATTTTCTGGGCACTATATATCATATGTCAAAGATATGCAGGGTACATGGCTGAGAATTGATGACTCAGAGTCAGGAAAATACGGCAAGATCAACAAATGTGTCACATTTCCTGATATGTTGGACATGGTTCCTTTTGTGACTGGGTCTGGTGACAATCCCCCTCTTTATTTCTTGTATGCTGTGGTTGTACACGTGGATACAGAAAACGCATCATTTTCTGGGCACTATATATCATATGTCAAAGATATGCAGGGTACATGGCTGAGAATTGATGACTCAGAGGTCCAGCCTGTATCAGTGAATCAAGTCATGTCAGAAGGTGCATATATGCTTTTCTACTTGAGGTCTTTTCCTCGACCTCCAAGGATATACATTGAGAAGGGGCTTTTGCCTGTTTCGACATCTGCAAAGCGTCATACATCAAAATCCTCCAAGGGCTCTAAACAAGAGCACAAGCAGACAGACTTGTTATTTTCTGCCCATGATCAAGCCTATGGCATTTACGATTTTAGACCTGATGGGGAAGGTTACGCGCAAGATCAGCATGCAGAATTTAGATCAAGAAATTTCCATCATTCTGATGATGCCTTTACAGACTCAGTTAGCACAGACTTCTCAGAAGCTACATCAAGTGAATGGTCACTGTTTACCAGCTCTGATGAATCCTCATTTACCACCGAAAGCACTAGAGATTCATTCAGTGTTGTGGATTATGGAGACAATGCCGGTCTCGATCCAATTTCATCTATATTTGGGCCATGTTATGCTCCAGAACATCCTCCTGGGAATTTTGTCTCATCTACAAGGTTCTCGCCTACCAATCCACAAACAAGATACTTTTCAGAGAGCACAGGCTTTGTCTCGGATTCTTCCATGCCGGCCCACCCTCACGGCACTGTACATAGAGGAAGATATCCAGATAGGGCATGTGCTTCTTCGGCTGAACCTCTCGCTTCAGCACATCAGCGAAGTGCGTACGGTCGATATGCCCTTAGTAGAGATGGTTTTGTTCAAACTTCTGGATTTTGTCAAATGTAA
Protein Sequence
- >Et_s2262-0.18-1.path1
MLQPREADVPVLIVVFVVLPVLAYFILGKWNDAVSKKARASVLAQRAAEDTFTVEAMACPDVISPGPSLRPMPYWRPAPSFRHEYHECATCHAPAKTRCSRCKSVRYCSGKCQIIHWRQGHKETCEQWLGNGTCSSGVPATEATEHMPFLSNLNSPLPGGDIHLRDMNFDTLSEPSFPTTDSYNLDMDPFPVDRSNMKKSNHSRHTSEMGAIGVSFEKNNIIGDEESRPSEILSGSKVSGSEVKSGNCDATYPVKSTAQQSSISTPETRKRPKVSITVYEPDAGVYLTSDMISSCEGPYASATVPLQRSFSSGKSIGKGNTVHKRPPYPSGRVAAPQKSQEKVPASHQNDGHEKNPCNKNDQRATQTNAPTSSNLQGCNGISKIGASKVDVLKKPSKFLKTSLVGLINDNKRSKVLFPYEDLVKFFQYEVQGISPRGLFNCGNSCYANAVLQCLMSTKPLMIYLLLRLHSKDCYSKSWCLMCELEQYASSLRESGGPVSPSRILSNLRNIGCRLGGGTQEDAHEFLRHLVMSMQTSCLDGLGGEKHVEPTLQETTLIQQMFGGRLKSKVKCLRCYHESERYENIMDLTLEIHGWVESLQDALTQFTAPEDLDGENMYKCGRCAAYVRARKQLSVHEVPNILTVVLKRFQSGKYGKINKCVTFPDMLDMVPFVTGSGDNPPLYFLYAVVVHVDTENASFSGHYISYVKDMQGTWLRIDDSESGKYGKINKCVTFPDMLDMVPFVTGSGDNPPLYFLYAVVVHVDTENASFSGHYISYVKDMQGTWLRIDDSEVQPVSVNQVMSEGAYMLFYLRSFPRPPRIYIEKGLLPVSTSAKRHTSKSSKGSKQEHKQTDLLFSAHDQAYGIYDFRPDGEGYAQDQHAEFRSRNFHHSDDAFTDSVSTDFSEATSSEWSLFTSSDESSFTTESTRDSFSVVDYGDNAGLDPISSIFGPCYAPEHPPGNFVSSTRFSPTNPQTRYFSESTGFVSDSSMPAHPHGTVHRGRYPDRACASSAEPLASAHQRSAYGRYALSRDGFVQTSGFCQM