Information report for Achn386081
Gene Details
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Functional Annotation
- TrEMBL: A0A2R6QE47 — A0A2R6QE47_ACTCH; Increased DNA methylation like
- GO:0006355 — Biological Process — regulation of transcription, DNA-templated
- GO:0006412 — Biological Process — translation
- GO:0005618 — Cellular Component — cell wall
- GO:0005730 — Cellular Component — nucleolus
- GO:0005774 — Cellular Component — vacuolar membrane
- GO:0005886 — Cellular Component — plasma membrane
- GO:0009506 — Cellular Component — plasmodesma
- GO:0022627 — Cellular Component — cytosolic small ribosomal subunit
- GO:0003677 — Molecular Function — DNA binding
- GO:0003723 — Molecular Function — RNA binding
- GO:0003735 — Molecular Function — structural constituent of ribosome
Family Introduction
- Dof (DNA binding with one finger) family, a particular class of zinc finger domain TFs characterized by a conserved region of 50 amino acids with a C2-C2 finger structure, associated to a basic region, that binds specifically to DNA sequences with a 5’-T/AAAAG-3’ core. Dof proteins have been reported to participate in the regulation of gene expression in processes such as seed storage protein synthesis in developing endosperm, light regulation of genes involved in carbohydrate metabolism, plant defense mechanisms, seed germination, gibberellin response in post-germinating aleurone , auxin response and stomata guard cell specific gene regulation.
Literature and News
Gene Resources
Sequences
CDS Sequence:
- >Achn386081|Actinidia_chinensis|Dof|Achn386081
ATGAGGGAGGGTTTAAGATCCAGTGCGAAGCGAGAGAGTGGTGTGGTTCCAGAGAAAGATAATGCCGATTCAGGGCTAAACAATGGTGAGGAAATCGAGAGTGACGGTGAGAACGAGAAGAGATGGTCATGCGGCCGAGGCAGACGAAGGCAGAGAGTCAAAGGTGGTGGAAGTTACCTGCCGGATCCAGAGCCAGATCACCTCACGTGCCCGCGATGTGATTCTACGGACACCAGGTTCCTGTACTACAACAACTACAACCCCTCTCAGCCGCGGCACCACTGCAATTCCTGCCGTCGCGCCTGGACTCGCGGGGGGACACTCCGCCGTGTTAAATGTTCCTGGGTTCGTGTGAAAGCCAGAGAAATCGAGGGAGGGTCTGAGAATGTGGAGCAAGGAGAAGGTGGTGATGTCTCTGCCGATGCGAATATTTGGAAAGGGCAACTGGGGAGAAGAATAAGGGTGGATAGTTCTGACAAAGAGGAAGATAAAATTAATTTATGTCTAGAAGAAGGTGATGAAACCAAGAAGACTCATGGCAATGAGATGCAAGCACAGGTTCAAAATTCATTGGATGACAGAAAAATTGAGGGTGGGTCTGATAATGTGAAGCAAGTAGAAGATGCTGATGTCTGTGCGGATGGGAAAATTGGGAGAGGGGGACCAAGGAGGAGAAGGGTGAATAGTTCTGATGAGGAGAAAGATGTTAACTCGGGTTTAGGAGATGGTGATTATACTAAGAATGATTACGATAATGAGATGCAAGCACAGGTTCCAAATTCATTGGAGGACAGAATATTCCAGGGTGGGTCTGACAATGTGGGACAAGGAGAAGATGCTGATGTCTATATTGATGGTAAATGTCGGAGAGGGCGACCGGGGAGGGAGAGAAGAAAGGTGGGTGATTCTGTGAAGGAGAAAAATGAAGTTAACTCATGTCCAAAAGAAGGTTATGAAGCCAAGAACACTGGCCCAAACTTTACTGATCCAAACTGCGTGGAAGACTCAATGCCGTCCTCTCTAGAGAAAAAAGTAGAAGGGGAGAGAAATGGCCGTGAGGCTGAACACATGGAATGCAATGAAGAAGCTTATGCGAATGCCCATGGTGACAATCACACAGATACAGGTGGCATGCACCCACCAGGGCCAGAGCCGGAGCACCTCCCATGCCCGCGATGCAACTCCACCAACACCAAGTTCATTTACTACTGCAACAACAGCCTCTCTCAGCCCCGGCATTACTGCTCTTCCTGCTGCGAGTCCTGGACTCAGGGTGGAACTATTTGCAGTTATTGCCCACCAGTGAAGAAGAAAAGGCTGGACTGTTCTGATGAAGTAACAGATGAAGTTAACTCAGATCTGGAAGGTGATGAAACCAAAAAAACTGATGCTAATAATAGGCAAGCACTGGTTCCAAATTCACTGGCTTCCTCTCAAGAGAGAAAATTGGAAGGGGAGAGAAATGGGTCTGAGGTATCTGAACAAATGGAATGCTATGAAGAATCTGATGTTAATGCCCATGGTGACAACCATACAGGTAAGCCCAGAACTGGAAGAGGGCAAAAGGGGAGGAAAAGAAAATTAGTGGAGGGTTCTGTGCGCGACGGGGAAGATGGAACACAAATAAAGAAGGTTAAAGAGATTCCTTTTGGTGGTGAGACTCAGGTTGTCGGTAGGTTTTTGAGATCAAGGACAGTGCTGATGGGTGGTGGTGAGAAGATGGTTGACGGTGAACCGGTTGGAGGTGTTGACGTGAAAAAGGACAGTGATTCTTTGAGCAAGAAAGTGGTTGACATGGAAAAAGATGGAATTGCACAGTTGATTGGCAGGGGAAAGAAAAAATTAAAAGGACGTCGAGGGAGGCCACCCAAAGTCTTTGAGCGACTACAGATGCTTCTTGGTGTTAAACATCAACTGGAAGAAGGATTTTCATGGACTCTTATTCAGAGGTTTGATGTTAGCAAAGACATATCTCTCAGCAGTGTTCCTCAAAAAGTTGAATGCAACTCCAAGTTAGCAATTGCATTGTCTATTATGGATGAGTGTTTTTTGCCAATTGTTGACCAAAGAAGTGGGATCAACATGATGCATAATGTTGTCTACAGTTGTGGGATACACGGGAATCGTTTAGCAGAGATGCCATTTATTGGGACTCGTCATATTTATAGGCGTCAAGGGATGTGTCGTCGTCTTCTAAATGCAATTGAAACGGCTCTCTGCTCTCTTGATGTTGAGAAACTGGTTATACCTGCCATTGCTGAACTTCTGCAAACATGGACTTCAGTTTTTGGTTTCATGCCCCTCGAAGAATCAAACAAGAAAGACATGGAATATATGAACCTAATAGTGTTCCCTGGTGTAGATATGTTACAGAAACCTTTATTGAACCAAAAGTTTGCTGAAGAGAATCTTATTTCTATTGCAGCTACAAAGTCCATGGAACCCATAACCAAACATCACACAGCACATGAGCGGGCAAGTGATACTGATATGGATCGTTCTTCTGAGTCTGATTTAAAAGTTTCCCATGAGGTTATTTTAGATAATGCTCCTGGAACAAGTGATATAGCTGCTCCTGTTGAATCTACTTTGCAGCTCCCTGATGTCTCCTTGAATGATGCATGTGATTTACCAAGTGAGACCATGAAGCTTAAAGAATATGTTACCATTGAAAATTCTCTTGCTCATTCAGGTGTGACCCATGATAATCATGAGTTGGAGAACAAAGATATTAAGGCTTCTGAGGCTTCTGGTGTGAATGCTCTTGAACTTGGTGGACAACATACTACAAAGGAGATTAATAAAGAAGAAAATGCTCATTCGGGGTCTACCAATATGACTCCTGATGAGATATCCAAGTTGAATCAGCAGCGTGTTTGTGTTTTAGGTGTCCAACACAAGTTATTTTTTGATTTCCTGACTCTGTCTGATGCAACGAATTGCGAGGGTAAAACTCTTCATGCAAAAGATGTTTCGAATGTGTTCTTGAATGCTGCGTGTGATTTACCAAAAGAGTCCGTGAAGCTTAAAGAATCTGTTACCATTGAAAATTGTCTTGTTCATTCTCGTGTGACCCATGATAATCAGGAGTGGCAGAATAAAGATATTAAGGATTTTGAGGCTTCTGGCGTGGATGCACTTGAAGTTGGTGGACAGCATGCTGCAAAAGAGATGAATAAAGAAGAAAATGCTCATTCAAGGTCTACTAATGTGCCTCCTGATGAGATTTCCAAGTTGAATCAGCTGGGTGTTTCGGGTGTGGAACTCAAGTTATCTTATGATTTCCAGACTCTGTCTAATGTAACAAATTGTGAGGGAAACACTCTTTATGCAAAAGATGGCCCGGATGTCTCCTTGAATGGTACGTGTGACTTACCAAGTGAGACGGTGAAGTCTAGAGAATCTGTGACAGTTGAAAATTATCTTGATCATTCAGGTGTGACCCATGATAATCAAGCTTGGGAGAACAAAAATGTTAAGGATTCTGAGTCTTCTGGCTTGTATGCTATTGAACTTGTCGTACAGCATACTACGAAGGAGATTAATAGAGAAGAAAATGCTTGTTCAGGGTCTACTACTAATGTGACTCATGATGTGGTCTCCAAATTGAATCAGCTGAGTGCTACAGTGTCTGATGCAACGAATTGCAGGGTGGGGAAAGCTCTTCATGCAAAAGGTCCTGATTGTCAGCTAAATGGGGAAGTTGATACTGCAGATTTCATTTGTCAAGATTCGGCATCTACAAATCTGATGCATTCTGACGGACAATGCAGGACACAACTACAGTCCGCAGCAGTTACACGCCACAGCTCCCGATCTGAAACCCTAGCCATGTCGCTGGTAGCGAATGAAGAATTCCAGCACATTCTTCGTGTGCAGAACACGAACGTCGATGGGAAGCAGAAAATCATGTTTGCGCTGACCTCTATCAAAGGTATCGGCCGTCGTTTCGCCAACATCGTCTGCAAGAAAGCCGATGTCGACATGAACAAGAGGGCTGGTGAACTCTCAAGTCAAGAACTGGATAACCTAATGACCATCGTTGCAAATCCTCGCCAGTTCAAAATCCCTGACTGGTTTCTTAATAGGAAGAAGGATTACAAGGATGGGAAATTTTCTCAGGTGACATCCAATGCCCTGGACATGAAGCTGAGGGATGACTTGGAGCGACTGAAGAAGATCAGGAACCACCGCGGTCTCCGTCACTACTGGGGTCTTAGAGTGCGTGGACAGCATACCAAAACCACTGGCCGCAGGGGAAAGACTGTAGGGGTCTCCAAGAAGCGATAA
Protein Sequence:
- >Achn386081|Actinidia_chinensis|Dof|Achn386081
MREGLRSSAKRESGVVPEKDNADSGLNNGEEIESDGENEKRWSCGRGRRRQRVKGGGSYLPDPEPDHLTCPRCDSTDTRFLYYNNYNPSQPRHHCNSCRRAWTRGGTLRRVKCSWVRVKAREIEGGSENVEQGEGGDVSADANIWKGQLGRRIRVDSSDKEEDKINLCLEEGDETKKTHGNEMQAQVQNSLDDRKIEGGSDNVKQVEDADVCADGKIGRGGPRRRRVNSSDEEKDVNSGLGDGDYTKNDYDNEMQAQVPNSLEDRIFQGGSDNVGQGEDADVYIDGKCRRGRPGRERRKVGDSVKEKNEVNSCPKEGYEAKNTGPNFTDPNCVEDSMPSSLEKKVEGERNGREAEHMECNEEAYANAHGDNHTDTGGMHPPGPEPEHLPCPRCNSTNTKFIYYCNNSLSQPRHYCSSCCESWTQGGTICSYCPPVKKKRLDCSDEVTDEVNSDLEGDETKKTDANNRQALVPNSLASSQERKLEGERNGSEVSEQMECYEESDVNAHGDNHTGKPRTGRGQKGRKRKLVEGSVRDGEDGTQIKKVKEIPFGGETQVVGRFLRSRTVLMGGGEKMVDGEPVGGVDVKKDSDSLSKKVVDMEKDGIAQLIGRGKKKLKGRRGRPPKVFERLQMLLGVKHQLEEGFSWTLIQRFDVSKDISLSSVPQKVECNSKLAIALSIMDECFLPIVDQRSGINMMHNVVYSCGIHGNRLAEMPFIGTRHIYRRQGMCRRLLNAIETALCSLDVEKLVIPAIAELLQTWTSVFGFMPLEESNKKDMEYMNLIVFPGVDMLQKPLLNQKFAEENLISIAATKSMEPITKHHTAHERASDTDMDRSSESDLKVSHEVILDNAPGTSDIAAPVESTLQLPDVSLNDACDLPSETMKLKEYVTIENSLAHSGVTHDNHELENKDIKASEASGVNALELGGQHTTKEINKEENAHSGSTNMTPDEISKLNQQRVCVLGVQHKLFFDFLTLSDATNCEGKTLHAKDVSNVFLNAACDLPKESVKLKESVTIENCLVHSRVTHDNQEWQNKDIKDFEASGVDALEVGGQHAAKEMNKEENAHSRSTNVPPDEISKLNQLGVSGVELKLSYDFQTLSNVTNCEGNTLYAKDGPDVSLNGTCDLPSETVKSRESVTVENYLDHSGVTHDNQAWENKNVKDSESSGLYAIELVVQHTTKEINREENACSGSTTNVTHDVVSKLNQLSATVSDATNCRVGKALHAKGPDCQLNGEVDTADFICQDSASTNLMHSDGQCRTQLQSAAVTRHSSRSETLAMSLVANEEFQHILRVQNTNVDGKQKIMFALTSIKGIGRRFANIVCKKADVDMNKRAGELSSQELDNLMTIVANPRQFKIPDWFLNRKKDYKDGKFSQVTSNALDMKLRDDLERLKKIRNHRGLRHYWGLRVRGQHTKTTGRRGKTVGVSKKR*