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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0757000 |
| Transcript ID | LotjaGi1g1v0757000.2 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | SWR1-complex protein 4/DNA methyltransferase 1-associated protein 1; TAIR: AT2G47210.1 myb-like transcription factor family protein; Swiss-Prot: sp|Q8VZL6|SWC4_ARATH SWR1-complex protein 4; TrEMBL-Plants: tr|I1NBE9|I1NBE9_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0757000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:133035637..133043706) extracted from Lotus japonicus Gifu genome v1.2.
GTGCTTATCTATAAACTACGTCGTTTGAGTAGCTGTAAAACGAAGTGTGCAGAGAAAGCGAGGCAGATCCTACGACGTCG TTAGCATCAGGCCCCATCCATCTTCGTATCGACGACAGTTGAGGAAGTGAGAGGGAAAACCGAAGCTTTGCTTCCGTTCG GTAATGGAGATCATCTTCCTCCTGAAACCCTAACCGCTGCATGAATCGATTCGGAAGAAACCAATGGATGCGAAGGATAT CCTGGGATTAACCAGACACTCATTCTCACTCGAGAAGAAGCCTCGTCCTCCCAAAGAATCTCAGAGAAAACCAGATGGCA TTTCGCGCGAGGTACCAACCAAACAACCATTCATTCTTTCAACATTTTCATGGCGGTTACTGAATTGAATTGTATCTGTG GTTGTAGGTGTATGCGCTTACTGGTGGATTACCATCTCTTATGCCCGCAATCGATTCCTCTCAATTCAAGAAAAAGCCTC CTCCTGATGAAAAGGTTTTGTTTCGTTCGCATTGCTCAATTATTGAAATTTCAGTTTGGTTTTTTCACCTTCTCTTCTTC AGATCACTTGGCAATGGCTTCCTTTCACCAGTTCTGCTCGTAAAGATAATCTTCAACTTTACCATTGGGTCAGTCACGGT TTCTGTAAAATTTTCAACTGTGACTATGAGCATGCTAGTGACTGTTCTCTTGCAGGTTCGTGTCGTCAATGGTGTTCCCC CTACAGGGGATTATTCTTTTGCCAAGTATAACAAGGTACTGTTTGTATATTTCGATTTAAATCAATGTTTTCTGTTTGTA TAATTGATTGGCGGTTTACGCGCTGTGGTGCAGTCTGTTGACATTATCAGATACACAGATGAGGAGTATGACAAGCATTT GACCAATCCGGTGGGTATCAACTATCGTCTAATTATGCAATTTTATGGAAATTTATGTATGAGCTTGCTTAAACTACTGA GTAGAAAATTTTCATGCTATCCAAACTGAAATTTAATTTTTGTATGAAGTTGTGATAGTAGAGTCATTTTGACTTCTATT GTGAGGTAACAAATTGAAACCTTTTTTTTTTATTTTGTGTGTGTAACACTATACAGGTTTGAAGTTACAAAATTGTTTGC TTGTTATTACTTATGTTGGAGCTTATAAATCACAATGTAGAAAGCCTTTTTTTTGTTTTTGTCAGAAAAGGATATTGGAT TATTCGTTTATAGGCTAATAGCAACAAGCCATGCTGTGGCAAGCCTAGGGGTGTTCTCTTTTGTCATTAATTTAATAAGG ATTTCATGTAAAGATATTAATTGGTCCTTGAACCTCGAGAGTTTAGTGTGAAGTTGGAATGATGTACATTTTTCTTTGGA TGACAACATTGGGATTCCTAAAAACAAACACGACTGTAGTTTGGTTTTTTTGATTGCGTCTCAGCCAAATTTCTGATCTA CTTTTGCTGAGGGTTGTCTCTTGTGATGCAAACATCTAGCAATTGGCATATATTTATTTAATGGTCAGCTTCCGTTCTGG GCATTTATATAAATATGAAGGAATACTGTTTGGTTTGTGGTGATAAAATTTGATTGAAGCTTAAATCTTGATTGCGCTAA TGTATATCTTTATATAGGAGATCATATGAGTAGGATAAATTATCCCCTTCTAGATGAATAGCTATGCTCGGTTTGTGATG GAGTTGGTGATTTTTGGAGAATTGCCATTGTAAACCAATTCGATAATTATTTGAATCACGTCAGGAAAATTTGCAGTAAC TTTTTTTGGAAATACATAATGTTGGATGGTTTTTTAAAGCTTTCGAATTGGGTGACACGCTGGTATCATGATGTCTGGTT TCAAGAATAGCAAGAAACAGAGAGGAAAATTTGTCACTAACTTAAAAGGATCTGCATCTATGAACCTGGCTTAGCTCTGC GTCTGCTTCTTTTGTACACCACACTCAATTGTACTTCTCATCTTGTAAAATTACCCACCCTTAACTGCAGTTGTGATGTT CTGTGTGCTTTTCACCACTGAAATTGGAATGTGAAACATATAAGCATTTTTATGAAGGTTTTTATATCCATCTATTTTAC TAAGCATTCAATGCATTGCTTTGTTCCATTATTAATTTATCTACATAGATGTGGACCAAGGAGGAGACGGATGAACTGTT TGACTTGTGTGAGAGGTTCGATCTCCGATTTATTGTAATTGCTGATAGGTTCCCATCATCTCGGACTGTAGAAGAATTAA AGGATCGATATTATAGTGGTATGTCTTTGTTCAATAAAATATTATATGTTGCGCTCTGTTATGCATTTTCTTTAATTCAC GCTTTATGTTTGATTGTATGGAGACTGCACAAGCAAAAATGTGATATGTTTATGTTTATATTTGATCACATTCCCATGTC TGTCCTGTAGTATCTCGGGCTATATTAATTGCAAGGGCTCCATCTGCAGGAGACGTTGCCACACATCCTGTTGTTAAGGT ACAGTAAACACCTTTGATAAAATAGTTTTGTATGTTGCTTTGAAGTAGTTACTTTCTTTTGTTTGTTGTGTAGAGTCTTT GTAGAAAAATCAAATTTGTATCTGCCTTAGGACATTGTCATGTGGTCATCCATAGTAACTTGTTTTCCCTCCTCAATGTA GCAACCATATAAAGTTTCACAAGAAGTGGAACGAAAACGAGCACTGTCCGTGGTGCTTTCTCAAACAAGGCAACAAGAGC GAAGAGATGAAGAGGTTTAGTTCTATAAAAAAAAAATTAAATCAGTAGTTTATGTGTTGCTGCTACCTGTAATTTCAAAT GAAGCATAGCTTCCTTCTTTTGTTATGCCATGCAGGTTATCATTGAAGCAAAAAAAATATCTGAATTGCGCGTGTCTTCT AAGGTAGTTCTTTAAATATTGTTTTTCTATAGCACCACTAATTACCTGCGGAGAGGAGTAATGTTTGAAAAGATTCAAGA CTGATTTTCAGATTATCTAATTCTGATTTCTTGATTTACCATGGTTATAAATTCCTACTCATGAACTTAAAACTTTGGGG AATGTTCTTATTACTGTATTTATGCATCAGACAAAGTCTTCCTTGTATGTACTTTTTTCATTTGCACTGGGAGTGTGGGA GGTAGGATAGAACTGTGCTCTGGTAACTAACGGTTAATCTTTACTCATAGTAAAATGTATGTTGAAGGTATGTCATTGAA ACAACTGTTCCTAGTTTATAATTCCCAGTTAGGGTAACAAAGTTCATGGAATATATAATTGTTTTCACATGTGTTGTACA TGCATGTGTGCCTTTGATTTTGATATCATGCGTATGACTTTATATATGTTTCAGGTTGTTGAAGAGTCTCAGTTGGCTGT AACTTCGAATGCTGGTGCAGAATTTTCAGAGAGGGTCATCCCTGGTGACACTGTTTCTCCATTGAATGTGCCTTCCACAT CACCAGACAATGCATCTATTCTAGCTTCTCTTCGCATGGTAAGTTATACAGAAGGTTTCCAGTTGTGCTTCCTCTGGCTT TTCTTCTTCAAATCTCACTCTCTTCCCTCTCCCCTATGGAAGGTTAACAAGGATCTTACAACAACAACAAAAAACCCTTT TTCTACTAGGTGAGATTGGGTACATGGATAAAAAAAGATGCCATAACGTCCTATTGGCCATTGTTTTTTTTTTGTACATC GGAAAGATAAACTACAGCCCTCCAGGGTTGATTGCTAGACCTCCCCATCCCCAACCCATATGTCCACCAGCTCTTACCAC TTGAGCTATCCTTCGGGCACGTTCCATTGGCCATTGTAAAAATCATTTCTAACAAACCTGTTAATTCTATATCCTTCTTA ATAGTTTGGCTTGATGTTGCATTACATAGCCCGTCCCAAGCCCAAAGAAAAAGAGGATAGTAGTGTTGAGCAATCAACAT CCAAAACAAAATTTTGTCAAACCCTCATGACATTGGTGTTAACAAGGACTCTGACGTCCTAAAATTTGATCCTGCTTTCA TCAAATATTCTAATTAACTGTTTTTTTCATCAGCGGAAATTTCATCAAATTTTTTAATGCTTATACTTCAGAACATAATC TGATAATAAGAAATATTTCAGCTTCGTGTATATTCAAGAATGTATGCACTTGAGCAAATGGTGCAAGCCGGAAACTCAAC TACTGGACTTCGGACTGTCAAACGGATTGAGCAAACTTTGCAAGATCTTGGGGTTTGTCGAGACTCTTTTGAACTTTTAA TGCAGTTTAGATATTTCATTTTTCCCCTAGCTGGTGCAGTTGTGTAGTTATTACTGATCTTTTCTTTTAACAGCATATGA AAGCCTTGTTTTTTCATTTCTGGAGAGCTGATTATTTTAAATGCTTTTTCTAACTATTAAATTTGTTTGGTTTTGAGAGT AGAACTGTGATTGAGCTTGTGCACTTTCAGATAGGTATATAGGCCCAGTTGCTTGTCTCAGCTTGACAAGCCTCACTAAT AGTTCAATTAAGAATAAGAAGATTGTATATATTTTTGGCAGAACAGTTTATATCTACATGTATATATTAACTTAGCATAA TATATACTAGTGCTCATTTAAGCTTGAAATCAGCTAGTTTTGGAACCTTGAATTCTCAACCATACATACATGTGCCCGCG CGTTGTGTTTTAATGTCAGATCCAAACTGAAATACTGATTATGTGAGTTGAGCTTGAGCATATCTGTGGACTTATGAGTA GTGCCCAGACACAAGAACCACACTGACCCTCTGATATGTACCCGCATTACATAGTTTAGTTAGTTAAGGGAGTTATCCCA TAGTCCAGTTAGTTAGTGAGTGGTATTATAAATAAGAGTAAGTTAGAGATCTTTTGTATCTTTTGGGTATGATTTGGGAA TTGGGTTAAAGAGAGGAGATTTATCTTGTATCTTCCTCTAATTCCCTAATTGGGGATTAGGGTTCTATCTTTGAAGAATA ACAGTTTCTGGGTTGGGTTCCTTTCACACTCTTCCTGATCCATTTCCTTTTAATTTGATTCTGTGATTGCAGGTCAATTT GAAACCAAAGGTTCCAACGAAAGCTGTTTGTGCCGAGCATCTTGAACTAAGAAAAGAAATACTAACTTGGTTGAATCTCC AGAGACAGGTAATCCGTATATGGGATTTGAGAGAAATATATTTGCCAAATGTGTCGAATAATTTTATATTACGATTTACG AGCAGATTGTGACAATTTCACTTGTTAGAATGTCCATAGGGTTGTAGTATGTCCTTCTAATGTTTGATCGTCTATAAAAT CAGAACTTCGCTTGCTTTTTCCAAATTTGTTTGATTTTGTTACGTGTTAAAATATATGATTCAGGTGCAATATAAGGAGG CTGAGGGTTCATCTCTCCGTGATGGGACATACGGTGAATCACCAGGCACACCAAAGGTTAGAAATATGTTTTATTTTGGT ATTGTCCATATATTGTTTTCAATGCTTAAGGCTTGTGGTTAATGATTATCCAAGTACGCTGTTCTTTTTCTTTGTGATTT GGTGAACACTGACAGCATTTGCATTGTGCTGGGGATCAGGATCGTACATTTATTCCGGACTTCATGAATTTCGGAGGTAA CAGACTACTTTTGTTAGTACCTGCAATCTAATTTTCTGTAAGTGATGGGAGTTTCCTTTTATTTATTATTAAAGCTACAC ATATAACTGTGGTTTCAGGCGAAAGGGTTGGCAAAAAGGACCACAAGCGCAAGGTACACTATAAAGACTTTTGTCTAATT ATTCTCTCTTTGATTGTTTGTTTCCAAGGTACGTTTGGACCATTTTCATAATGCATTGTTATTGATCTTAGAAATCATAT TTGCACAGGGACCGTCATCAGGTCATAAAAGACCTAAAAAACAGAAGGCGTCAGATTTCTAGTTCCTCTGGTAAGTTATA TTTAGCACACGGGATACAGACAATATTATTATGCACCATTGTTTTATAATTTAATATACATCTGTATCAACTTTGAGCTC TGTAATATGATATCTTCATTGCGTCAACAACCTTGTGGTACTTGTTTGAGTTGTTTCTCTATTTTGCTTGTATAATGAAT CAGCACGAGAACGCTAGTCCATTGTTTTACTGAACGGCGTTTTGCATTTATGCATCAGGTGGCACTCCGGAGAGGTGTTT GAATTTGTGTAATTCTTAATCAGATTTATGAATGTTTCGGAGAGCGGCACCGAGCTCTAAACGCATGGGAATTCTGATTA CTCTGGTCTGTGAATGATAATAATGCCATTCTTGGTATTCAGTGCAAAGAGTAGTATTGAAATCCCTGAGATGAGTGGGT GGGATCTCGCATCTTCACCGTGTTTGCTCCTACTGAGAGGCTTAACTTTATATTTTCTTGCTGGCAAAGCTTCACAGTTT ACAGGGATGCCATGTATATTAGGTTGGAGTTGGGATGTCCATTAGATTAATTGTGTACATTCAGATAATAATGCAATTGT ATTTTTTTTTTATATATTTAATCAATGTCGCCACCTGTTCGGAAACGTTGCATTTGTATGGTATTCCTAGGTGGTGGTGG TGAGGTAACATTGAGAATATGTGGAAACTTTCCTTGATAGCAGCTTTGATTCCTGATCCAATGGAGTCAGGCCCAACATA ATTCACGTGACAGTCACCGCCTTCAACAGACAACACTTGTACGCTCCCTCCAAAATTCTTAATAGCGGGTCTCAAAATCT CAAGATGATTATTCACATCCTGAAATCAAACCACAAATCTAAACATCATTTCATATTTTCATTTGGTTCCTCATCATAGA TTTGCACTATGTCTTTAACCGTATCTCAGAAATTTTCCTTCTGAATGCGCTCGATCCCCATTGTCATGGTTGTGGTTGAG CCAGGGCAGCTTTCACATTCTCCTAAGAGCCATAGAGAAATCACGCTGTTCTTAACGAAGATGACTTTGATGTTGCTGCT GTAAGATATGAGGTAAGGTCGGACATCTTCGAGGACGAGATCGACATTCAGAGCGGTGAGGTCGAATTTGTGGGCAGAGT ACAATTTGGGAGAAGAAGACTAGTTCTGATTGAGTGCAGTCTGTGCAGAGGAAAATCCGATGGTGCTTGAGCTTCTCTTT TGCTTCCGAGTTATGAAATTGGTAACTGTCAGTTTTAGTTGATCGGCATGGTGAGGGTGATGGCTTTGTTGACCGCTCAA TTTCATCATCGAACAAATTGAGGTTAGAGCTGCCATGGGAGTGGAGGAAGGGTTTGGCGTATCATCGACAAGGCAATCAT ATGTAGCCTTAGCTTCAGGGAATATGTCTAAGATGAACATCTCAGTTTTGATCCAGAATCCTATGAATGACAAGTAGATG CCCTGCATACATGTGTGTTAGAAGTCCCACATTGGCTAGAGATAGAGCATAAATAGCCTTTATAAGGGTAGTGCAAACCT TAACTCTTGAGCTAGCTTTTGGGTTGAGTATAGGCCCCCTAATTTCTGATATGGTATCAGAGCCTATCCTAGATCCATTT GTTGTTTGTTGTGGAGACCTCCCATTATTGGGCCACCCGTTGTTGTTGATCCCACGTTCCAGGTTGTTCAGTCCTGGACG TGAGGGGGTGTGTTAGAAGTCCCACATTGGCTAGAGATAGAGCATAAATAGACTTTATAAGGGTAGTGCAAACCTTAACT CTTAAGCTAGCTTTTGGGTTGAGTATAGGCCCCCTAATTTCTGATAATGTGGACAATCACTAAGGCAATGGAGGATGTCG TCATCATCGTGCGAGCATCTAGAGAAACTTGGCGAAGAAGTGTGGTTACCCTGTAAGCGGTGATTATTAACTTGAAGCAT ATTATGCATGAGCAACCACATGAACACTTAAATCTTTTCCGGTGCCTTGATTTTTCAAATTCATTTCCAGGATTTTGCAG ACCAAGTAGCAATATTGTTATCATTCAACCATTTATAAGCTGAAGCGGTCAGCAAAATCCTTGTAGTGCTTGGATTCCAA ATTTACAATTCATTGAACCTATCATCAATAGAGAGAGGAAAAAAAAGCAACGCTTCCTTAAAAACCTGGA
CDS sequence (LotjaGi1g1v0757000.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATGCGAAGGATATCCTGGGATTAACCAGACACTCATTCTCACTCGAGAAGAAGCCTCGTCCTCCCAAAGAATCTCA GAGAAAACCAGATGGCATTTCGCGCGAGGTGTATGCGCTTACTGGTGGATTACCATCTCTTATGCCCGCAATCGATTCCT CTCAATTCAAGAAAAAGCCTCCTCCTGATGAAAAGATCACTTGGCAATGGCTTCCTTTCACCAGTTCTGCTCGTAAAGAT AATCTTCAACTTTACCATTGGGTTCGTGTCGTCAATGGTGTTCCCCCTACAGGGGATTATTCTTTTGCCAAGTATAACAA GTCTGTTGACATTATCAGATACACAGATGAGGAGTATGACAAGCATTTGACCAATCCGATGTGGACCAAGGAGGAGACGG ATGAACTGTTTGACTTGTGTGAGAGGTTCGATCTCCGATTTATTGTAATTGCTGATAGGTTCCCATCATCTCGGACTGTA GAAGAATTAAAGGATCGATATTATAGTGTATCTCGGGCTATATTAATTGCAAGGGCTCCATCTGCAGGAGACGTTGCCAC ACATCCTGTTGTTAAGCAACCATATAAAGTTTCACAAGAAGTGGAACGAAAACGAGCACTGTCCGTGGTGCTTTCTCAAA CAAGGCAACAAGAGCGAAGAGATGAAGAGGTTATCATTGAAGCAAAAAAAATATCTGAATTGCGCGTGTCTTCTAAGGTT GTTGAAGAGTCTCAGTTGGCTGTAACTTCGAATGCTGGTGCAGAATTTTCAGAGAGGGTCATCCCTGGTGACACTGTTTC TCCATTGAATGTGCCTTCCACATCACCAGACAATGCATCTATTCTAGCTTCTCTTCGCATGCTTCGTGTATATTCAAGAA TGTATGCACTTGAGCAAATGGTGCAAGCCGGAAACTCAACTACTGGACTTCGGACTGTCAAACGGATTGAGCAAACTTTG CAAGATCTTGGGGTCAATTTGAAACCAAAGGTTCCAACGAAAGCTGTTTGTGCCGAGCATCTTGAACTAAGAAAAGAAAT ACTAACTTGGTTGAATCTCCAGAGACAGGTGCAATATAAGGAGGCTGAGGGTTCATCTCTCCGTGATGGGACATACGGTG AATCACCAGGCACACCAAAGCATTTGCATTGTGCTGGGGATCAGGATCGTACATTTATTCCGGACTTCATGAATTTCGGA GGCGAAAGGGTTGGCAAAAAGGACCACAAGCGCAAGGGACCGTCATCAGGTCATAAAAGACCTAAAAAACAGAAGGCGTC AGATTTCTAG
Protein sequence (LotjaGi1g1v0757000.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDAKDILGLTRHSFSLEKKPRPPKESQRKPDGISREVYALTGGLPSLMPAIDSSQFKKKPPPDEKITWQWLPFTSSARKD NLQLYHWVRVVNGVPPTGDYSFAKYNKSVDIIRYTDEEYDKHLTNPMWTKEETDELFDLCERFDLRFIVIADRFPSSRTV EELKDRYYSVSRAILIARAPSAGDVATHPVVKQPYKVSQEVERKRALSVVLSQTRQQERRDEEVIIEAKKISELRVSSKV VEESQLAVTSNAGAEFSERVIPGDTVSPLNVPSTSPDNASILASLRMLRVYSRMYALEQMVQAGNSTTGLRTVKRIEQTL QDLGVNLKPKVPTKAVCAEHLELRKEILTWLNLQRQVQYKEAEGSSLRDGTYGESPGTPKHLHCAGDQDRTFIPDFMNFG GERVGKKDHKRKGPSSGHKRPKKQKASDF
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| MobiDBLite | 1 | 34 | 34 | - | – | |
| MobiDBLite | 1 | 32 | 32 | - | – | |
| PANTHER | 2 | 423 | 422 | 5.4E-122 | ||
| Gene3D | 97 | 184 | 88 | 2.2E-33 | – | |
| Pfam | 100 | 174 | 75 | 5.5E-31 | ||
| SUPERFAMILY | 123 | 173 | 51 | 1.96E-6 | ||
| SMART | 124 | 173 | 50 | 6.1E-6 | ||
| CDD | 128 | 170 | 43 | 1.42854E-18 | – | |
| Pfam | 309 | 369 | 61 | 6.9E-6 | ||
| MobiDBLite | 362 | 429 | 68 | - | – |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
| Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
| Biological process | DNA repair | The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway. | ||
| Biological process | Chromatin remodeling | Dynamic structural changes to eukaryotic chromatin occurring throughout the cell division cycle. These changes range from the local changes necessary for transcriptional regulation to global changes necessary for chromosome segregation. | ||
| Cellular component | NuA4 histone acetyltransferase complex | A complex having histone acetylase activity on chromatin, as well as ATPase, DNA helicase and structural DNA binding activities. The complex is thought to be involved in double-strand DNA break repair. Subunits of the human complex include HTATIP/TIP60, TRRAP, RUVBL1, BUVBL2, beta-actin and BAF53/ACTL6A. In yeast, the complex has 13 subunits, including the catalytic subunit Esa1 (homologous to human Tip60). | ||
| Biological process | Histone H4 acetylation | The modification of histone H4 by the addition of an acetyl group. | ||
| Biological process | Histone H2A acetylation | The modification of histone H2A by the addition of an acetyl group. | ||
| Biological process | Negative regulation of transcription, DNA-templated | Any process that stops, prevents, or reduces the frequency, rate or extent of cellular DNA-templated transcription. |
Expression pattern of LotjaGi1g1v0757000.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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