Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi6g1v0306600 |
Transcript ID | LotjaGi6g1v0306600.2 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | DNA/RNA helicase protein; TAIR: AT3G06400.2 chromatin-remodeling protein 11; Swiss-Prot: sp|Q8RWY3|ISW2_ARATH ISWI chromatin-remodeling complex ATPase CHR11; TrEMBL-Plants: tr|A0A0B2RF13|A0A0B2RF13_GLYSO Putative chromatin-remodeling complex ATPase chain; Found in the gene: LotjaGi6g1v0306600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:62378108..62384998) extracted from Lotus japonicus Gifu genome v1.2.
GACGAAGAAGACGAGGAGGAGCTCGAAGCGGTGGCGCGTCCCGCTAGCTCCGGCGACGACGAAGTTGCGGAGGATATTCC GCCGGATTCCGATGAAGATCCTGCCGCCGCTGAAGATGCTGATGACGACGACGACGAACAGGTTGGAGTTCTCGTTTACT CTCTTGTTCTCACTCCTTTGTTAGGGTTTATAATTTGGTGCTGTTTTGGTCATGCATGGTTTGTGAAACGATTTTGACTG GGAGCTTGACTTTTGTTGACTGGCTTCAGGGTGGGGATCATGTTGATCCTGAAATTAGAAAGCGTGAGAAGAGTAGGTTA AGGGAAATGCAGATAATGAAGAAGCAGAAGGTTCAGGAGATTTTGGATGCTCAAAATGCAGCCATTGATGCTGACATGGT TCGTGTAGTTATGATTAATCTTTGTCGTTTGTGTTCTTGACTGTTTATATGATTGGTGAGTAAATGGCTCTGATGTTTAA TGCAGAACAATAGAGGAAAGGGGCGTCTGAAGTATCTGTTACAGCAGACGGAGCTGTTTGCGCATTTTGCTAAGGGTGAT CAGTCTTCATCTGTGAAGAAGTCACGAGGAAGGTACATTCCTAATATTCACTCATACTATGAGTCTATGACAATGTCCCC CACTTTTCCCTCTGTTTTGCTCAGGAGTTTACTACATTTACCATTCAGATTTTGTCACATGTTATAACTTCACCACATTC CTTGGAAGTTTGAAGTAATTTTGTAGGGCATTTACACGCTTTATACGCCTTGGAAGTAGGGAAAAACTGGTCTTTTAACT AGTTGATACAATTTTTACATGCCTTGAAGTACTTTTAAAGGGCATATACTGATATACACGCTTTATACTCCTTGAAAGTA GAAACAAACGGGCCGTCTAACTAATTGGTATACAGGCAGAGTTCTTATATGCGCTTTAGTGTTTCAGGAAACCAGTAGAA ACAATTGTCTTTTAATTTACATTATTGCTAAACAATTTTTGAATAGTTTCCTCTTAAATGCTAGTTATGTCATTCTCGTC ATAGTTGTTTGTAGCCATAAAAAATATTATGGTTAATTTCTACTGGTGGTTTCTCATAGACTCCGAAATTTACTGTTGTC TATTTTAGGGGCCGCCATGCATCAAAAGTGACTGAAGAAGAGGAAGATGAAGAATACCTAAAAGAAGAAGAAGATGGTTC AGCAAACACACGCCTAGTGACACAACCAGCATGTAAGTGTTATTACACTTTTTAGTACATCTAGTACATTCCACTATAAT GGAATCTTCCTATCATACTAGTAAACACTTCCACCTGGTTGTTCCTTTCTTGTTTATTCCCGAAAACTAGTCAGTTGACA TTGATTGATTCTAATCCTTGTGTGATAAGTATCATGGTTCATTATTTTGAACTACTGGTTCAAATGAATGTGAATTGCTT ATTTTGTTCATCATTACAGGTATCCAAGGAAAAATGAGGGATTACCAGCTGGCTGGATTGAACTGGCTCATACGATTGTA TGAGAATGGAATAAATGGAATTCTAGCTGATGAAATGGTAGGTGTTTGTTGTTGGGCTTGCAGTTGTCTTATTAATTGCA TAAGAATGCATCTACTTCATCGTTGTAGTTTGGTTAAGTCAATTTATTTAAATGCCCAATCACATGGCTAAGGTGTAGTG TAGATATTATTGATTAGTTGATTCTGATTAAAATTTACAAATAAATGTGATTTGCAGGGGCTTGGTAAAACATTGCAAAC TATATCTTTATTGGGTTATTTGCATGAGTTTAAAGGAATCAAAGGCCCACATATGGTTGTTGCTCCAAAATCTACTCTTG GAAATTGGATGAATGAGATTCGGCGCTTTTGTCCTATTCTGCGTGCTGTAAAATTTCTTGGCAACCCTGATGAAAGGGTA AGACCAGCTTTTGTTGGGTTGTTTATTTTTTTTTTGGGCAAAGTTTGCAATTGATGATTAAATGACCACTTTTTTACTGT TTTTTAAATTGCTGCAGAGACATATAAGAGAGGACTTGTTGGTTGCTGGGAAATTTGACGTTTGTGTTACAAGTTTTGAA ATGGCAATCAAGGAGAAGACTGCATTGCGTCGATTTAGCTGGCGCTACATAATCATTGATGAAGCCCATCGAATCAAGAA TGAGAACTCTTTGCTGTCCAAAACAATGAGGCTCTACAGTACAAACTATCGCCTCCTTATTACTGGCACACCACTTCAAG TAATTATATTGTTTATTTCTTTACTTTTGTTTAATTTATTGGTCTATTTTAAAAATGAAAATGGAGTCCTGCCAACTTTC TCATATAGTCAAAATTAGTATGATCTCGTCCTCATGAGTCTCAGCAAATCTTCAAATGAAGAAATTGTTAGTAGTGCTGG AAATATTGGCTGCATTGTTGAATTTCTAAATAATGATCTTCATTAGTTGTTGTAGACTAGGCCATTTTTACTTCTTTCTT TTTGGGGGAGGAGGGATGTGAATAGCATTACCTGTGGAAATTGCTATTATAGTAAGGAAAGAGTATTTGAAATTAATTAG CTACCTTCAGGGGAACCCATATTATGTAGTATGTTACCAAATTTTGTAAGAGGTTACACATCTGGCATTGCGCTTGTACT GTGATTTTTTATTAACAGTCAAATTTGGTTAGTTAGCAGGCATAGTAAGTCAGATGATTTAATCCTTTGCATTGGTGAAC GTTTTAGTGTTCTTGTTTGGTGTTACTGTTGGTTTTTCCTTCTGCTTTGCAGTTTAAATTGCTGAGTTATATGCTTTTCT GGCTTATTTTGAAATCTGAATTTTATATTTTTTGTTGTATGTACACTCAAGTACTGACTGCTGTTTGTTATTCATTTTAA TGACACAGAACAATCTTCATGAACTTTGGTCTCTTCTCAACTTTCTTCTGCCTGAAATTTTTAGTTCTGCTGAAACTTTT GATGAATGGTTTCAAATCTCTGGAGAAAATGATCAACAGGAAGTTGTCCAACAATTACACAAGGTAAATTATGGAAACAT CATTTTGATTGTTGTCAGTCTTTAATGTAAATCTGATGCATAATTGAAATTTCCATTTATGTGTATATTAGGTTCTCCGA CCATTTCTGCTTCGAAGGTTGAAATCAGATGTTGAGAAAGGGTTGCCACCAAAAAAGGAAACAATTCTCAAAGTAGGCAT GTCACAAATGCAGAAACAGTATTATAAAGCATTACTGCAGAAGGATCTTGAGGTTGTCAATGCTGGTGGAGAGCGAAAGC GTCTTCTGAATATAGCTATGCAATTACGTAAATGTTGTAATCATCCATATCTTTTTCAAGGAGCTGAACCTGGTCCTCCC TATACAACAGGAGACCATCTCATTACCAATGCCGGTAAAATCTATTTATATAGAGACTTAAGATGTTTTTGCGGGTTGGT GAATAAAACCTGAAATTGCTCCTTGCTTAAAAATATATTTCCAGGTAAAATGGTTCTTTTGGATAAGCTACTTCCAAAAT TGAAAGAGCGTGATTCCAGGGTGCTCATATTTTCACAGGTCAGTTCAGTCAGAATACAGTTCTTCTTACTTGCAATTGTG AATGCTATACATTTCGCGACCTGTTTTTATTTGTTAAATGCTTCGTATGTTAATGTATCACTGACTTTTGAATTTTCTTT TATGCTTATTTTGTGGCCTTCCCCCAGATGACCAGGCTGCTAGACATACTTGAAGATTATTTGATGTTTCGTGGATATCT ATATTGTCGCATAGATGGTAATACTGGTGGGGATGATCGTGATGCCTCCATTGATGCTTTCAACAAGCCAGGAAGTGAGA AATTTGTCTTTTTGCTATCAACTCGGGCTGGAGGTCTTGGTATTAATCTTGCTACGGCTGATGTTGTCATTCTATATGAC AGTGACTGGTCAGTATTTCAAGCCGTTGGGGACACAGCCATCTGATTTTATATCTGTACTTAATTTTCATTGTTTGTTGA TTGCTTTATGGTTTTACAACAGGAACCCACAAGTTGACTTGCAGGCTCAGGATCGTGCTCATAGGATAGGTCAAAAGAAA GAAGTTCAAGTGTTCCGTTTTTGCACCGAGGTATGCAATTTTTAAACTTTATTGTACTGTTCAATTAATCTTTCACTGTG GATGTGTGTATTAGTATCTCATGGCATCACGGTAATGGTACAGTATACAATTGAGGAGAAGGTCATTGAAAGGGCCTACA AAAAGCTTGCACTTGATGCTCTGGTGATTCAGCAAGGGCGATTGGCGGAACAAAAGAGTAGGATTTGCTGGATGAGTGTT CTTGTTTCTTTGTTGCATGATGTATGAATTGTCTAATATAGTTCCATTGGCCTATATGTGCAGCGGTAAATAAAGATGAG TTACTTCAAATGGTTAGATTTGGGGCTGAAATGGTTTTCAGTTCCAAGGATAGTACAATTACGGATGAGGATATTGATAG AATTATTGCTAAAGGAGAAGAGGCAACTGCTGAGCTTGATGCCAAGATGAAGAAATTTACTGAAGATGCAATCAAGTTTA AGATGGATGACAGTAAGTAACCTATATCTATATATTATAGCTTTGGAAATTATAATGGCTTGATCTTTACAAGTTTTATG CTTTCAGCTGTTCACTAGTTTGGAGATACTGATACTGATACTTTATTTTTGTAGCTGCTGAATTATATGATTTTGATGAT GATAAGGTAAAAATGACATTTATTCTGTCTTTGCCATCTATTAATGCCTTATATCAGCCTTCTCTTCCCAGCCTGTCCTG ATCTATTTAATTGACATTGACATCATTTTTCTTTTTTAAATAAAGGATGAGGACAAATTTGATTTCAAAAAAATTGTGAG TGAAAATTGGATTGAACCACCAAAGAGGGAGCGGAAGCGCAAGTAAGCATCGCCCTTTAAATTTCATACTTCCAAATTTA TTCAGTATCTTCTAATGACATGACATACTGGTTTGGTTTTTTCTGGCTTCTTACAGTTACTCAGAGTCTGAATACTTCAA GCAAACTATGCGTCAAGGTGGTCCTACTAAACCAAAAGAGCCCCGTATTCCTAGGATGCCCCAGTTGTAAGCTTCTACAC TTGATTTTCCTTTCAATATATAGTGCCCCTGTATTACTCAGTTTTTCCCCCCTTTTGCTTCCAGGCATGATTTCCAGTTC TTCAACACACACAGGCTGACTGAGCTGTATGAAAAGGAAGTACGCAATCTCATGGTAGGTGTCTGGAACCTGAATTTGCT TATATGTTTAGGTTTAGTTCTCCAAGTTATTGCTGTTTAATGCGTTTTATTTGAAAAATTTCAGCAAGCACATCAGAAGA ATCAAATAAAGGATTCGATAGATGTTGATGAACCAGAAGGTACATGTGTGTTCTGCACTATTATTTTGAATCCTCCTTTC TACATGTCTATTGTTAATTTTAATTATGATGTATTGGATGTTTAGAGGTGGGAGAACCATTGACTGCTGAAGAGTTGGAA GAAAAGGAACGCCTGCTAGAAGAGGTGAACAATTTCCCCCATACTTTGCAAACTAGGCTTTCATGTGGACATTTTTTAAC TTGTTATTTGGCTAATATAGGGATTTTCATCATGGAGCCGGAGAGATTTTAATACTTTTCTTAGGGCCTGTGAAAAGTAT GGACGGAGTGATATAATAAATATTGCTTCTGAGATGGAAGGAAAAACTGAGGAGGAAGTTGAAAGATATGCAAATGTCTT CAAAGAAAGATACAAAGAGTTAAATGGTATGTTACAGTCAATGTGACCAAGGAGCAATCTTTTTTTATTTTGTATGTTTG AACATGGAATCTAAATAGATAGCCAAATCCAAATGAGTGTATCTGAGTTGACAATAGTGTCCAAGAAAATCAAATTTCTT TTTTCATGTAGCCAACATTATTGATATTTTGATATGGACTTGTGCTGTGTTGAGTTAAAATGCATCTCATTTCTGGATTT ATTCTTTTTGTTATGCATGTGTATGTGCTATTTATCAATTGTAGCTTGAATTTAGTCTCATCAAAATGTTAAGGTTCTGC TTAATTTGTGCATTTTGAATCATTGTCTACAGATTATGATAGAATTATTAAAAACATTGAGAGGGGGGAGGCTAGAATTT CTCGGAAAGATGAGATCATGAAAGCTATAGGGAAGAAGTTGGACCGTTACAAGAATCCTTGGCTAGAGTTGAAGATACAG TATGGGCAAAACAAAGGGAAGTTATATAATGAAGAATGTGACAGATTTATGGTAGGAATTTCATTTATTTTTTCAATTTT TTTCTTTCATGTCCAGCTCCAGTGGTCTTTAATTCTGCTATAAATTTGCAGATATGCATGGTTCACAAACTCGGCTATGG GAACTGGGATGAGTTGAAGGCAGCATTTCGAACATCTCCCTTGTTTAGATTTGATTGGTTTGTTAAGTCTCGCACAACAC AGGAACTAGCCAGGAGGTGTGACACCCTCATTCGGCTGGTAGAAAAGGAAAACCAAGAATATGATGAGAGGGAGAGACAA GCTCGTAAAGAGAAAAAACTGGCCAAGGTAAGTTTATCTGTGTTTACTCAAAATACCTTCAGGTTTCTACTATTGCATTT TTGAAATTTCCCCATACTCAAGTTTGACAAATTTTTCAGAGCATGACCCCATCAAAGCGTGCTGTGGCTAGACAAACAGA GTCTCCATCTTCTACAAAGAAGCGCAAGCAATTAACTATGGATGATTATGCAAGCACGGTATGCATACTTTCTAAACATG CTGTATTTCTTCATGATACTTAGAAGTTTTTTGCTGGATTGTTTTACTGAAGCAGATCATGCTATTGTGGCAGGGGAAGA AAAAAAAGTAA
CDS sequence (LotjaGi6g1v0306600.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCAGATAATGAAGAAGCAGAAGGTTCAGGAGATTTTGGATGCTCAAAATGCAGCCATTGATGCTGACATGAACAATAG AGGAAAGGGGCGTCTGAAGTATCTGTTACAGCAGACGGAGCTGTTTGCGCATTTTGCTAAGGGTGATCAGTCTTCATCTG TGAAGAAGTCACGAGGAAGGGGCCGCCATGCATCAAAAGTGACTGAAGAAGAGGAAGATGAAGAATACCTAAAAGAAGAA GAAGATGGTTCAGCAAACACACGCCTAGTGACACAACCAGCATGTATCCAAGGAAAAATGAGGGATTACCAGCTGGCTGG ATTGAACTGGCTCATACGATTGTATGAGAATGGAATAAATGGAATTCTAGCTGATGAAATGGGGCTTGGTAAAACATTGC AAACTATATCTTTATTGGGTTATTTGCATGAGTTTAAAGGAATCAAAGGCCCACATATGGTTGTTGCTCCAAAATCTACT CTTGGAAATTGGATGAATGAGATTCGGCGCTTTTGTCCTATTCTGCGTGCTGTAAAATTTCTTGGCAACCCTGATGAAAG GAGACATATAAGAGAGGACTTGTTGGTTGCTGGGAAATTTGACGTTTGTGTTACAAGTTTTGAAATGGCAATCAAGGAGA AGACTGCATTGCGTCGATTTAGCTGGCGCTACATAATCATTGATGAAGCCCATCGAATCAAGAATGAGAACTCTTTGCTG TCCAAAACAATGAGGCTCTACAGTACAAACTATCGCCTCCTTATTACTGGCACACCACTTCAAAACAATCTTCATGAACT TTGGTCTCTTCTCAACTTTCTTCTGCCTGAAATTTTTAGTTCTGCTGAAACTTTTGATGAATGGTTTCAAATCTCTGGAG AAAATGATCAACAGGAAGTTGTCCAACAATTACACAAGGTTCTCCGACCATTTCTGCTTCGAAGGTTGAAATCAGATGTT GAGAAAGGGTTGCCACCAAAAAAGGAAACAATTCTCAAAGTAGGCATGTCACAAATGCAGAAACAGTATTATAAAGCATT ACTGCAGAAGGATCTTGAGGTTGTCAATGCTGGTGGAGAGCGAAAGCGTCTTCTGAATATAGCTATGCAATTACGTAAAT GTTGTAATCATCCATATCTTTTTCAAGGAGCTGAACCTGGTCCTCCCTATACAACAGGAGACCATCTCATTACCAATGCC GGTAAAATGGTTCTTTTGGATAAGCTACTTCCAAAATTGAAAGAGCGTGATTCCAGGGTGCTCATATTTTCACAGATGAC CAGGCTGCTAGACATACTTGAAGATTATTTGATGTTTCGTGGATATCTATATTGTCGCATAGATGGTAATACTGGTGGGG ATGATCGTGATGCCTCCATTGATGCTTTCAACAAGCCAGGAAGTGAGAAATTTGTCTTTTTGCTATCAACTCGGGCTGGA GGTCTTGGTATTAATCTTGCTACGGCTGATGTTGTCATTCTATATGACAGTGACTGGAACCCACAAGTTGACTTGCAGGC TCAGGATCGTGCTCATAGGATAGGTCAAAAGAAAGAAGTTCAAGTGTTCCGTTTTTGCACCGAGTATACAATTGAGGAGA AGGTCATTGAAAGGGCCTACAAAAAGCTTGCACTTGATGCTCTGGTGATTCAGCAAGGGCGATTGGCGGAACAAAAGACG GTAAATAAAGATGAGTTACTTCAAATGGTTAGATTTGGGGCTGAAATGGTTTTCAGTTCCAAGGATAGTACAATTACGGA TGAGGATATTGATAGAATTATTGCTAAAGGAGAAGAGGCAACTGCTGAGCTTGATGCCAAGATGAAGAAATTTACTGAAG ATGCAATCAAGTTTAAGATGGATGACACTGCTGAATTATATGATTTTGATGATGATAAGGATGAGGACAAATTTGATTTC AAAAAAATTGTGAGTGAAAATTGGATTGAACCACCAAAGAGGGAGCGGAAGCGCAATTACTCAGAGTCTGAATACTTCAA GCAAACTATGCGTCAAGGTGGTCCTACTAAACCAAAAGAGCCCCGTATTCCTAGGATGCCCCAGTTGCATGATTTCCAGT TCTTCAACACACACAGGCTGACTGAGCTGTATGAAAAGGAAGTACGCAATCTCATGCAAGCACATCAGAAGAATCAAATA AAGGATTCGATAGATGTTGATGAACCAGAAGAGGTGGGAGAACCATTGACTGCTGAAGAGTTGGAAGAAAAGGAACGCCT GCTAGAAGAGGGATTTTCATCATGGAGCCGGAGAGATTTTAATACTTTTCTTAGGGCCTGTGAAAAGTATGGACGGAGTG ATATAATAAATATTGCTTCTGAGATGGAAGGAAAAACTGAGGAGGAAGTTGAAAGATATGCAAATGTCTTCAAAGAAAGA TACAAAGAGTTAAATGATTATGATAGAATTATTAAAAACATTGAGAGGGGGGAGGCTAGAATTTCTCGGAAAGATGAGAT CATGAAAGCTATAGGGAAGAAGTTGGACCGTTACAAGAATCCTTGGCTAGAGTTGAAGATACAGTATGGGCAAAACAAAG GGAAGTTATATAATGAAGAATGTGACAGATTTATGATATGCATGGTTCACAAACTCGGCTATGGGAACTGGGATGAGTTG AAGGCAGCATTTCGAACATCTCCCTTGTTTAGATTTGATTGGTTTGTTAAGTCTCGCACAACACAGGAACTAGCCAGGAG GTGTGACACCCTCATTCGGCTGGTAGAAAAGGAAAACCAAGAATATGATGAGAGGGAGAGACAAGCTCGTAAAGAGAAAA AACTGGCCAAGAGCATGACCCCATCAAAGCGTGCTGTGGCTAGACAAACAGAGTCTCCATCTTCTACAAAGAAGCGCAAG CAATTAACTATGGATGATTATCAGATCATGCTATTGTGGCAGGGGAAGAAAAAAAAGTAA
Protein sequence (LotjaGi6g1v0306600.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MQIMKKQKVQEILDAQNAAIDADMNNRGKGRLKYLLQQTELFAHFAKGDQSSSVKKSRGRGRHASKVTEEEEDEEYLKEE EDGSANTRLVTQPACIQGKMRDYQLAGLNWLIRLYENGINGILADEMGLGKTLQTISLLGYLHEFKGIKGPHMVVAPKST LGNWMNEIRRFCPILRAVKFLGNPDERRHIREDLLVAGKFDVCVTSFEMAIKEKTALRRFSWRYIIIDEAHRIKNENSLL SKTMRLYSTNYRLLITGTPLQNNLHELWSLLNFLLPEIFSSAETFDEWFQISGENDQQEVVQQLHKVLRPFLLRRLKSDV EKGLPPKKETILKVGMSQMQKQYYKALLQKDLEVVNAGGERKRLLNIAMQLRKCCNHPYLFQGAEPGPPYTTGDHLITNA GKMVLLDKLLPKLKERDSRVLIFSQMTRLLDILEDYLMFRGYLYCRIDGNTGGDDRDASIDAFNKPGSEKFVFLLSTRAG GLGINLATADVVILYDSDWNPQVDLQAQDRAHRIGQKKEVQVFRFCTEYTIEEKVIERAYKKLALDALVIQQGRLAEQKT VNKDELLQMVRFGAEMVFSSKDSTITDEDIDRIIAKGEEATAELDAKMKKFTEDAIKFKMDDTAELYDFDDDKDEDKFDF KKIVSENWIEPPKRERKRNYSESEYFKQTMRQGGPTKPKEPRIPRMPQLHDFQFFNTHRLTELYEKEVRNLMQAHQKNQI KDSIDVDEPEEVGEPLTAEELEEKERLLEEGFSSWSRRDFNTFLRACEKYGRSDIINIASEMEGKTEEEVERYANVFKER YKELNDYDRIIKNIERGEARISRKDEIMKAIGKKLDRYKNPWLELKIQYGQNKGKLYNEECDRFMICMVHKLGYGNWDEL KAAFRTSPLFRFDWFVKSRTTQELARRCDTLIRLVEKENQEYDERERQARKEKKLAKSMTPSKRAVARQTESPSSTKKRK QLTMDDYQIMLLWQGKKKK
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 |
---|---|---|---|---|---|---|
Pfam | 4 | 47 | 44 | 1.7E-4 | ||
PANTHER | 8 | 967 | 960 | 0.0 | – | |
PANTHER | 8 | 967 | 960 | 0.0 | – | |
MobiDBLite | 52 | 85 | 34 | - | – | |
SUPERFAMILY | 84 | 315 | 232 | 1.54E-59 | ||
SMART | 96 | 288 | 193 | 1.9E-37 | ||
CDD | 97 | 317 | 221 | 3.27096E-137 | – | |
Gene3D | 101 | 316 | 216 | 2.0E-72 | ||
ProSiteProfiles | 112 | 277 | 166 | 25.335 | ||
Pfam | 113 | 380 | 268 | 3.7E-72 | ||
SUPERFAMILY | 317 | 598 | 282 | 1.82E-73 | ||
Gene3D | 321 | 613 | 293 | 5.0E-123 | – | |
CDD | 401 | 526 | 126 | 7.76645E-53 | – | |
Pfam | 403 | 515 | 113 | 1.7E-18 | ||
ProSiteProfiles | 405 | 556 | 152 | 19.955 | ||
SMART | 431 | 515 | 85 | 1.0E-24 | ||
Gene3D | 652 | 750 | 99 | 3.4E-20 | ||
SUPERFAMILY | 663 | 753 | 91 | 3.4E-22 | ||
Pfam | 664 | 747 | 84 | 2.9E-7 | ||
ProSiteProfiles | 750 | 802 | 53 | 16.237 | ||
SMART | 751 | 800 | 50 | 2.0E-5 | ||
Gene3D | 752 | 834 | 83 | 5.5E-30 | – | |
CDD | 754 | 798 | 45 | 3.09843E-6 | ||
SUPERFAMILY | 754 | 804 | 51 | 1.03E-12 | ||
SUPERFAMILY | 806 | 928 | 123 | 7.08E-44 | ||
Pfam | 808 | 918 | 111 | 1.6E-44 | ||
Gene3D | 839 | 943 | 105 | 2.3E-40 | – | |
SMART | 853 | 914 | 62 | 28.0 | ||
Coils | 908 | 935 | 28 | - | – | |
MobiDBLite | 922 | 963 | 42 | - | – | |
MobiDBLite | 922 | 939 | 18 | - | – |
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 | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
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 | 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. | ||
Molecular function | Hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides | Catalysis of the hydrolysis of any acid anhydride which contains phosphorus. | ||
Molecular function | Nucleosome binding | Interacting selectively and non-covalently with a nucleosome, a complex comprised of DNA wound around a multisubunit core and associated proteins, which forms the primary packing unit of DNA into higher order structures. | ||
Biological process | ATP-dependent chromatin remodeling | Dynamic structural changes to eukaryotic chromatin that require energy from the hydrolysis of ATP, ranging from local changes necessary for transcriptional regulation to global changes necessary for chromosome segregation, mediated by ATP-dependent chromatin-remodelling factors. |
Expression pattern of LotjaGi6g1v0306600.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…