Information report for OsTMF
Gene Details
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Functional Descriptions
- OsTMF attenuates cold tolerance by affecting cell wall properties in rice.
- Under cold stress conditions, OsTMF negatively regulated pectin content and peroxidase activity, and positively regulated cellulose content, causing corresponding alterations to cell wall properties, all of which collectively contribute to the negative effect of OsTMF on cold tolerance.
- Cold stress increased the expression of OsTMF and accumulation of OsTMF in the nucleus, where OsTMF acts as a transcription activator and modulates the expression of genes involved in pectin degradation (OsBURP16), cellulose biosynthesis (OsCesA4 and OsCesA9), and cell wall structural maintenance (genes encoding proline-rich proteins and peroxidases).
Functional Keywords
Literature and News
Gene Resources
- UniProt: Q6AT30
- EMBL: AK067197, AP014961
- AlphaFoldDB: Q6AT30
- EnsemblPlants: Os05t0559900-01
- Gramene: Os05t0559900-01
- KEGG: osa:4339592
Sequences
cDNA Sequence
- >LOC_Os05g48620.1
GCGCGGTCGGGCGGCTCAGATCACACCCGGTGGCGAGCTGCTGCGATCACCGACGCGGCGCACCCACGCCACCACCACCACCCGCGGCCGAACGCACTAAGCCTCTCTCTCTCTCTCTCTCTCTCGCCGCCGCCACGACCCGACGCGACGCGACGGGGCCCAGCCCACGCCCAACTCCCCCTACATCTCCCCCCGCCGCGGCGGCGGGGGCGCGGTGAAGCTTCCTCCCCGCTCCGCTCCGCCGCGCTGCTCTGCTCTGCCTCTGCAGCCGCCGCCGCCGTTCCCGGCCCTTCGATCGGGGCGGGGGGCCAGATCCCCCCCGCGCGTCGGCCGAGTGGGAGTGGGGCGCGCGGGACGGAGGTGCGGATCTGATTGGTCTACGCGCGAGATCTAGCCGGGTGCTGCTGTTCCTGCTGGTGGTTGCGGGGATCGGAGCGGAGGCGGGGGAGGAGGAGGGATGGCGTGGTGGTCGGGGAAGGTGTCGCTCGGTGGCCTGCAGGATATCGCAGGGGCCGTGAATAAGATCAGCGAGAGCGTGAAGAACATCGAGAAGAACTTCGACAGCGCGCTCGGGCTCGAGGAGAAGCGCGACGATGAGGAAGGATCAGGATCACATGCATCTAACTCTGATAGAATAGGGTTCTTTAATCCTGTCATGGCATTCATGGGAAATAATGGCGAGGAGGATTCTGCTGAAGCATCAGAAAAGCAGCAACCTCCAAAAAGTACAACCGCAGAACAGAGCCAAAGTGCCTCCACAGAGGCGCCTACATCCAAGGTAGATGCTTCTGAAGAATCGGAATCAACACAATCTCCAAAGCCTTCTGAACAAGGAGAGACTCTTATCAGCTCAACTGAGCCACCTGTATCCAAGGCTGAGGTTTCTGAGCAACTAGCAACACCAAAAACTCCAAAATCACTTTCAGCAACAGAAGAAAAGCCTAGTCATTCTACTGAATCACCCACATATAAAGGGGATTCAGAAGCACCACAATCTCCCACAGATCCATCAACAGCAGAAGAAAACAGTGGATCCACTGAGACGGGTAATACAATTGAGACGGGAAACCAGGATCATCAAGAGACAAAATATTCTGGTCCTAATGATGAAGCGCCACAAAGTCAGATTGGAGAATCTGACAGAGGCATACCTGATGGTACAAAGCCTTCTTCACCTACTGAATTAGATCAATCAGGTAACACGGGAACAACTGAATACCTTCATGCTGGAACGGAAAACATAGATGATAAAAATGCCATACAATCACAACCACTAGATTCCATTCTAGCCAGTTCAGATGATGTAAATGAAGCTGTGAAAATTGTTAAAGGAGCTGATGATCGAAATGAAATAAGCAGTTCACATGAGAATACTGACACCGTTGACCAAGCTAGTCATGTGGAAGTCATAGAACATGATGAGCATACTAATGCTGCTGAAAATGATGAAGAAGCTAATCGAACAGAAGCACAGGTAGCAACTGTTGTTGAAAGGGAGGAGAATACAATGGTGCAGCTTGAAGACCTTAGCTCAATGTCCATAATTGTGAGCAATGATTCAAACTCGCAAAATGAGTCGGTGCCCACTTCTGCAGATGTGCCTGTTGGACTGGTAGAGGTTGGTTCCAATTCAAATGATTTGAGAAAAGAAGAAAATATCCAGGGCTCTGTTACAACTAGCAATCATCTGGAATCTGTCGGTGCTGTCGCTGAACTTGAGAAATTAAGACGTGAAATGAAGATGATGGAAGCTGCATTGCAAGGTGCTGCAAGACAATCCCAGTCCAAAGCTGATGAAATTGCAAGACTGATGAATGAGAATGAACAACTGAAATCAACAATTGATGATCTTAAGAGCAAGTCAGCTGAAGCCGAAATGGATGCACTTAAAGATGAATATCACCAGAGAGTAGCAACTCTTGAAAGGAAGGTGTATGCCTTGACCAAAGAACGGGATACATTAAGGAGAGAGCAAAATAAAAAAAGTGATGCAGCTGCTCTTTTGAAAGAAAAGGATGAAATTATCAGTCAGGTCATGGCGGAAGGTGAAGAGCTATCAAAAAAACAAGCTGCTCAAGAAGCTACTATGCGGAAACTTAGGGCACAGGTTCGTGAACTTGAAGAAGAAAAACAACGGCTGAACTCAAAGATCCAGGTTGAGGAGACAAAGGTTGAGAGTATTAAAAGAGATAAGGCTGCAACGGAGAAATTGCTACAGGAAACAATAGAAAGAAATCAAACTGAACTTGCAGCTCAGAAGGAGTTCTACACCAATGCTCTTAACGCAGCTAAAGAGGCTGAGGCATTAGCCGAAGCAAGAGTCAACACTGAAGCCAAAGTTGAACTTGAGAGTCGTTTAAGAGAAGCTTGTGAAAAAGAAAATATCTTAATTAAGACGATTGAGGAGTTGAGGCATGCTCTCACAAGGCAAGAACAGGAGGCTGCATTCAGGGAAGAAAGGCTGAAAAGGGATTATGATGATCTTCAAAGGCGGTATCAATCCAGTGAACTTCGTTACAATGAACTGGTCACACAAGTTCCTGAATCCACCAGACCACTTCTAAGGCAAATTGAAGCCATGCAGGAAACAGCTGCTCGAAGGGCAGAGGCTTGGGCTGGTGTAGAGAGAACCTTAAACTCTCGACTTCAGGAAGCAGAAGCAAAAGCTGCTGCTGCAGAAGAAAAGGAACGGTCTGTAAATGAACGTTTGTCTCAAAGCTCATCCCGGATAACTGTTCTAGAGACCCAGATTACAATTCTTAGAACAGAGCAGACACAGCTGAGTCGATCTCTTGAAAAAGAGAGGCAGAGAGCATCCGAAAGTAGACAGGAGTACCTGGCAATTAAGGAGGAGGCGGCAATGCAAGAAGGACGGGCGAAACAGCTTGAAGAAGAAATAAAGGAGCTTCGTACTAGGCACAAAAAGGAGCTGCAAGATGCAGCAGAACACAGGGAGCTGCTTGAGAAGGACCTTGAAAGAGAAAAGGCTGCCAGGGCAGAGCTTGAGAAAACATCTTCCCGTGATGCACCAAAAATTCCGCTTCCAGATCAGACAAGAAATGCTCCTCTCAGAAAGCTCTCTAGTTCTGGCAGTATCAATAGTCTGGAAGAAAGCCATTTCCTTCAAGCATCATTAGATTTGTCAGACAACGCTTCATTAGAGAGGAGAATGTCTGCTGAAAGTAATATGTCGTATTATCTTCGGAGCATGACTCCAAGTGCTTTTGAATCAGCACTCCGTCAGAAAGATGGAGAGCTAGCTTCTTACACATCGCGTTTGGCCTCATTAGAATCTATTCGGAATTCTCTGGCAGAGGAGTTGGTGAAAATGACTGAACAGTGTGAGAAGTTGCGTACCGAGGCTTCTGCTCTGCCTGGTTTAAGGGCTGAGCTGGAAGCTTTGAAACAAAGACACTTTCAAGCTCTAGAACTAATGGGGGAACGTGATGAAGAGTTGGAAGAGCTAAGAAATGACATTGTTGACCTAAAAGAGATGTACAGAGAACAAGTGGATCTTCTTGTTAGCCAGCTCCAATCTTTGGGTGCTCGTGTATAGTGCTGCTGTATGTCAGTATGTAGCTTCGGCTGCCATCCATTTTTTTTTCGCATCGCGCTAATCTACTAAGCCCCATACAGCAGATCTGAAGCTTGGCGTGTTTCTTCGAAATTCAAGCCGTGACAAATACCGAAAGTTCATAGCCATACCAGTGTGAAAATATTCGTTTTTGTACATCTTGAAGCACAAGTCTTTTTGGACAGTTGAGCACCCTTGTTTAATTTAGTAGGTTACTCTGTTGTATACTAGTTTGGATAGCTTTACGGTTTTTAAGCCTATTGTTTGCAATTCTTTCCAGTGAAGTGTATCAAATTTGTAATTCGATTAAAAGTGTATCACAGCGGAATGCAACCCCAATAATATGAGAGCTCGTTTTTGTCATTTTCCTCAGGTTCGACC
CDS Sequence
- >LOC_Os05g48620.1
ATGGCGTGGTGGTCGGGGAAGGTGTCGCTCGGTGGCCTGCAGGATATCGCAGGGGCCGTGAATAAGATCAGCGAGAGCGTGAAGAACATCGAGAAGAACTTCGACAGCGCGCTCGGGCTCGAGGAGAAGCGCGACGATGAGGAAGGATCAGGATCACATGCATCTAACTCTGATAGAATAGGGTTCTTTAATCCTGTCATGGCATTCATGGGAAATAATGGCGAGGAGGATTCTGCTGAAGCATCAGAAAAGCAGCAACCTCCAAAAAGTACAACCGCAGAACAGAGCCAAAGTGCCTCCACAGAGGCGCCTACATCCAAGGTAGATGCTTCTGAAGAATCGGAATCAACACAATCTCCAAAGCCTTCTGAACAAGGAGAGACTCTTATCAGCTCAACTGAGCCACCTGTATCCAAGGCTGAGGTTTCTGAGCAACTAGCAACACCAAAAACTCCAAAATCACTTTCAGCAACAGAAGAAAAGCCTAGTCATTCTACTGAATCACCCACATATAAAGGGGATTCAGAAGCACCACAATCTCCCACAGATCCATCAACAGCAGAAGAAAACAGTGGATCCACTGAGACGGGTAATACAATTGAGACGGGAAACCAGGATCATCAAGAGACAAAATATTCTGGTCCTAATGATGAAGCGCCACAAAGTCAGATTGGAGAATCTGACAGAGGCATACCTGATGGTACAAAGCCTTCTTCACCTACTGAATTAGATCAATCAGGTAACACGGGAACAACTGAATACCTTCATGCTGGAACGGAAAACATAGATGATAAAAATGCCATACAATCACAACCACTAGATTCCATTCTAGCCAGTTCAGATGATGTAAATGAAGCTGTGAAAATTGTTAAAGGAGCTGATGATCGAAATGAAATAAGCAGTTCACATGAGAATACTGACACCGTTGACCAAGCTAGTCATGTGGAAGTCATAGAACATGATGAGCATACTAATGCTGCTGAAAATGATGAAGAAGCTAATCGAACAGAAGCACAGGTAGCAACTGTTGTTGAAAGGGAGGAGAATACAATGGTGCAGCTTGAAGACCTTAGCTCAATGTCCATAATTGTGAGCAATGATTCAAACTCGCAAAATGAGTCGGTGCCCACTTCTGCAGATGTGCCTGTTGGACTGGTAGAGGTTGGTTCCAATTCAAATGATTTGAGAAAAGAAGAAAATATCCAGGGCTCTGTTACAACTAGCAATCATCTGGAATCTGTCGGTGCTGTCGCTGAACTTGAGAAATTAAGACGTGAAATGAAGATGATGGAAGCTGCATTGCAAGGTGCTGCAAGACAATCCCAGTCCAAAGCTGATGAAATTGCAAGACTGATGAATGAGAATGAACAACTGAAATCAACAATTGATGATCTTAAGAGCAAGTCAGCTGAAGCCGAAATGGATGCACTTAAAGATGAATATCACCAGAGAGTAGCAACTCTTGAAAGGAAGGTGTATGCCTTGACCAAAGAACGGGATACATTAAGGAGAGAGCAAAATAAAAAAAGTGATGCAGCTGCTCTTTTGAAAGAAAAGGATGAAATTATCAGTCAGGTCATGGCGGAAGGTGAAGAGCTATCAAAAAAACAAGCTGCTCAAGAAGCTACTATGCGGAAACTTAGGGCACAGGTTCGTGAACTTGAAGAAGAAAAACAACGGCTGAACTCAAAGATCCAGGTTGAGGAGACAAAGGTTGAGAGTATTAAAAGAGATAAGGCTGCAACGGAGAAATTGCTACAGGAAACAATAGAAAGAAATCAAACTGAACTTGCAGCTCAGAAGGAGTTCTACACCAATGCTCTTAACGCAGCTAAAGAGGCTGAGGCATTAGCCGAAGCAAGAGTCAACACTGAAGCCAAAGTTGAACTTGAGAGTCGTTTAAGAGAAGCTTGTGAAAAAGAAAATATCTTAATTAAGACGATTGAGGAGTTGAGGCATGCTCTCACAAGGCAAGAACAGGAGGCTGCATTCAGGGAAGAAAGGCTGAAAAGGGATTATGATGATCTTCAAAGGCGGTATCAATCCAGTGAACTTCGTTACAATGAACTGGTCACACAAGTTCCTGAATCCACCAGACCACTTCTAAGGCAAATTGAAGCCATGCAGGAAACAGCTGCTCGAAGGGCAGAGGCTTGGGCTGGTGTAGAGAGAACCTTAAACTCTCGACTTCAGGAAGCAGAAGCAAAAGCTGCTGCTGCAGAAGAAAAGGAACGGTCTGTAAATGAACGTTTGTCTCAAAGCTCATCCCGGATAACTGTTCTAGAGACCCAGATTACAATTCTTAGAACAGAGCAGACACAGCTGAGTCGATCTCTTGAAAAAGAGAGGCAGAGAGCATCCGAAAGTAGACAGGAGTACCTGGCAATTAAGGAGGAGGCGGCAATGCAAGAAGGACGGGCGAAACAGCTTGAAGAAGAAATAAAGGAGCTTCGTACTAGGCACAAAAAGGAGCTGCAAGATGCAGCAGAACACAGGGAGCTGCTTGAGAAGGACCTTGAAAGAGAAAAGGCTGCCAGGGCAGAGCTTGAGAAAACATCTTCCCGTGATGCACCAAAAATTCCGCTTCCAGATCAGACAAGAAATGCTCCTCTCAGAAAGCTCTCTAGTTCTGGCAGTATCAATAGTCTGGAAGAAAGCCATTTCCTTCAAGCATCATTAGATTTGTCAGACAACGCTTCATTAGAGAGGAGAATGTCTGCTGAAAGTAATATGTCGTATTATCTTCGGAGCATGACTCCAAGTGCTTTTGAATCAGCACTCCGTCAGAAAGATGGAGAGCTAGCTTCTTACACATCGCGTTTGGCCTCATTAGAATCTATTCGGAATTCTCTGGCAGAGGAGTTGGTGAAAATGACTGAACAGTGTGAGAAGTTGCGTACCGAGGCTTCTGCTCTGCCTGGTTTAAGGGCTGAGCTGGAAGCTTTGAAACAAAGACACTTTCAAGCTCTAGAACTAATGGGGGAACGTGATGAAGAGTTGGAAGAGCTAAGAAATGACATTGTTGACCTAAAAGAGATGTACAGAGAACAAGTGGATCTTCTTGTTAGCCAGCTCCAATCTTTGGGTGCTCGTGTATAG
Protein Sequence
- >LOC_Os05g48620.1
MAWWSGKVSLGGLQDIAGAVNKISESVKNIEKNFDSALGLEEKRDDEEGSGSHASNSDRIGFFNPVMAFMGNNGEEDSAEASEKQQPPKSTTAEQSQSASTEAPTSKVDASEESESTQSPKPSEQGETLISSTEPPVSKAEVSEQLATPKTPKSLSATEEKPSHSTESPTYKGDSEAPQSPTDPSTAEENSGSTETGNTIETGNQDHQETKYSGPNDEAPQSQIGESDRGIPDGTKPSSPTELDQSGNTGTTEYLHAGTENIDDKNAIQSQPLDSILASSDDVNEAVKIVKGADDRNEISSSHENTDTVDQASHVEVIEHDEHTNAAENDEEANRTEAQVATVVEREENTMVQLEDLSSMSIIVSNDSNSQNESVPTSADVPVGLVEVGSNSNDLRKEENIQGSVTTSNHLESVGAVAELEKLRREMKMMEAALQGAARQSQSKADEIARLMNENEQLKSTIDDLKSKSAEAEMDALKDEYHQRVATLERKVYALTKERDTLRREQNKKSDAAALLKEKDEIISQVMAEGEELSKKQAAQEATMRKLRAQVRELEEEKQRLNSKIQVEETKVESIKRDKAATEKLLQETIERNQTELAAQKEFYTNALNAAKEAEALAEARVNTEAKVELESRLREACEKENILIKTIEELRHALTRQEQEAAFREERLKRDYDDLQRRYQSSELRYNELVTQVPESTRPLLRQIEAMQETAARRAEAWAGVERTLNSRLQEAEAKAAAAEEKERSVNERLSQSSSRITVLETQITILRTEQTQLSRSLEKERQRASESRQEYLAIKEEAAMQEGRAKQLEEEIKELRTRHKKELQDAAEHRELLEKDLEREKAARAELEKTSSRDAPKIPLPDQTRNAPLRKLSSSGSINSLEESHFLQASLDLSDNASLERRMSAESNMSYYLRSMTPSAFESALRQKDGELASYTSRLASLESIRNSLAEELVKMTEQCEKLRTEASALPGLRAELEALKQRHFQALELMGERDEELEELRNDIVDLKEMYREQVDLLVSQLQSLGARV*