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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0367100 |
Transcript ID | LotjaGi1g1v0367100.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | ATP-dependent zinc metalloprotease FTSH protein; TAIR: AT2G26140.1 FTSH protease 4; Swiss-Prot: sp|O80983|FTSH4_ARATH ATP-dependent zinc metalloprotease FTSH 4, mitochondrial; TrEMBL-Plants: tr|G7J7N5|G7J7N5_MEDTR ATP-dependent zinc metalloprotease FTSH protein; Found in the gene: LotjaGi1g1v0367100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:84493024..84503460) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCGTGGAGGCACTTGATAACGCAGGTGAGCTATTCATCATCGATCGAACTTGTTTGGTTTTGTTTATTTCGTGAACC CTAAATTAGATTTTCAATTTTTTCGAGGGTTTTGATTTAGGATCAGATATATAGAGAAGATTTTCATTTTAGGGTTTCGA ATTTGAACGAGATACTATAATATGGTATAGGAGTATTAGCATCTTCTTCTACAAGCTCAATTTTTCCTCCTGCTCAAATA AGCTTGACCTTAATCTTAGCATAGTTATGATGAAGAAATTAGATTTTTATGAGTGGAGATTTCTGCTGAAAATTTCTGTC TATATGTAATAGCATGTTTCGGATATCGGGGCATTTCGGTTGGGGATTGTTTGCTTTGAATTGAAAATGGAGGTAAGGTT GTTGGTTTGATGTACGCACTGGTATAATCGCTGAACTGCTGGTCGTTACTAATTATAGTGCATATTTTCTTGTTTTGCTT CTTGGGGACAATGTATTAGACACTAGGCGGGTAAGAATTTGTTGAGAACGTGGTGTTGGATGTATAATGGCTATTGATTA GCTTTAAGGTAAGACACCAACAATATCCAAATATTATTATGGGCCTTGCCTTGCAGTGGAGGACATTTTCAAAATTAGTT GCGTGTTTCGTCTGAAACTGACACACAATTAAACGCTTATATCCCATTTCCATTGTTTATGAAAGGTTTGTGTATATACG GATAAACTTGATGTATGAATTTTTGATCAAATGTGCTTATTTTTACATGTAGTCAGTTTCCAACTATGATCTGTATCTTG TATTAATTTTATTTGTTATTTAATTTTATGCTTTATTTTTACAGGTTACAAGACATCAATCAGAATTTGGAATGGTCAAA AATTTGTTGGCTAGAAGCTATTTGTCCGCTAATAAGTTTGGAGGCTTTACAAGTATGAAACTCTTGTTCATACAGCACAT TTAGTTTGTGTTATGTGTTTCTATGAGCATTTGTTTTTGTTTCTCTTGTTTGGGGTAGAATTATTTTTCTCAACTATTTT GCTTAAGGTTTAACTTATGTTTTTTGTTGTTGTTGTGGAATTCATGATATATATATGTATTTGGTTCCTTATAGGATTAG TTATGTCTGTTTTATTCATTTGTGTTTGAAGGACCTGGAAACGACTAAGTTTTTATCTTACTTGTTCTTGTAGGGAATAG GCTTTGCCGCTCCCAGGAGAGATTCCAATCAAGCTATGTTGGTAATCTGGCCCGTCGAGCACGTGATGCAGATGAAGCCA GTGAAGTTGCTCATCTTAAAGAACTTTACCATCGAAATGATCCTGAAGCTGTGATTAGAGCATTTGAAAGTCAGCCATCT CTACATGCTAATCCTTCAGCGGTTTCTGAATATGTTAAAGCCCTAGTGAGAGCTGGGAGGCTGGATGAAAGTGAATTAGT GAAGACTCTGATAAGAGGTGACTATTTGGATAAAACTGCTTATTTTCTTTTGGCTGTATTTCCATATGTTGTGCCTTGCT CTATTTGACCTGTACTTCTTGTCAACATTGGCTTGCTGACTTGTTAACTTTGCTCAAGAAAAAAGGTGCTTTTTCACAAG AAGGAAACTAGAGATATGCTTTGAAGTGATGAATTTTTAAATAGAAAGCTCAGTTAATTACTACTCTGTCTAAAGGAACT AAGGAAGTACTGTACTGTGGTTGGGTCCTGTAAAATCTCAAGGCATGGATTTTTTTGTATTCCATTATGCATCCTAACTT GCTGAATATTGGGATTTGAGGTTAAATATTCTTCTGAATGTACTTGGTATGGCCTCTTTTTCAATTAGAAATGTATTTAA ATAAGAATTCTTTGCCTTCTTCTCCATTTACTGTGAACTTATCGATGATCTAGGTTTTGAGGAAAATCATTATGCTACAT GACCTGCAATATTGTCTGGGATTGAATGTTGACTATGAGCCAACAAGAAAATAAGCCTAATGACACAAAGATGGGTATGT TTGGATGGACAGGCAGTTACATAAGACAATATAGTATTAGAAATGCAGTTATTAGAAAGAAAGTGAAGTAGCTCCTGTGA TAGGAAGGAAGGGATAGTTTGTTACGGGTAGTTGTTGATTAGCTGGCAGTTAGAATAACAGAAGCAGTTACTTGCTCAGT TAGTTAGTTAGCAGAGTCAGTCAGTTAGTTAGTAGAGTATATATAGTCTCTGTGATATACTGTAATGGCTATGTTGATGA TAATAGAGTTCTTTCTCTCATTCTCTCTCTAATTCTCTCTCTCTCTCTATATATATATCTTCTTCCTATCTTCTTCCTAT CCTAACATTGGTATTCAGAGCTTGCGATTCCTGGAGCGCCATGGCTGACGCTACGCGATTGCAGAGTGCGATTCGAGAAG CAGAGGAAAGGTTCGCAGCGACGATTGAACCCAGCATTGATGAGCGTATGCGTGGATTCGAAGAACGCATAAAACTGAGC ATGGAGTCTCGATTCAATAGCTTCCAGGAGACGTTGAGAGGCGTTGGATTGCAGATGGCGGAGCTTTCTACGGCGCGTAG AACTCGTGGAGGTGGCGATGGCGAGCATCGTGTCGCAACGCGATTGACGCGTTTGGATTTTCCAAAATTCAACCGCGAAG ATGTGGATTCTTGGCTCGCGAAGTGTGAGCGCTTCTTTGCGCTGGATTCAACACCAGAAGATGATCGAGTTGCTGTTGCT AGCATTGCACTCGATGAAAGTTCATTTCAATGGTTCCAGAGCTTGGAACAGAGCACGGTGGGAAGGCTTGCATGGAGGGA ATTTGCTACAGCTGTCAAGATTCGTTTTGGTTTGGAATTTGAGTCTCCAATGGAGGAACTCAAACGTTTGGTGCAAACTG GAAGTTTGGATGAGTATCAGGAAGCGTTTGACAATCTCACAGGTCGCACTGAGTTAACAGAGGGCCAGAAATTGCAATGT TATTTGGGAGGTCTCAATGCAGAGCTTAGTAATGGAGTCAAGATGTTTGCTCCAAGAACTGTGTTAGAGGCTACAAGGAT GGCGAAATTACAGGAGAGAAGCTTCGAATTGCTGCAGAAGCGCATGGTGCCTGTTTCTAGAGGTTATGGAAATTGGTCAG AGAAGAAGAATGTAAGTGTTCTTCCTGAAAAGAAAGCTTTTCAAACTGATAAGAAGGCACAGAATGATACTACACAGAAA AGCATTTTAGGGAAACCTAATTACACATTTCAAAAGAAGTTAACTCCTAAGGAATTGGATGAGCATCGTGCTCAAAACCT TTGTTTCTTTTGCCATGAGAAGTATTCTCCTGGTCATGAGTGCACACAGAGGAAGAAGTTGCAAGTGTTTTTGATGGAGG TACATGATGAAGAGCTACCTGAAGGGGAACAAGAAGGGGAAATGGAGGTAATTGACACAGCTTCTGGTGTTCCCAGAGTC TCTCTCAATGCTTTGAATGGGAATGGGGATTCTTCTGATGAACCTATGATGAGATTGACTGGTTGGATAGGGAAGAGGAA AATTTTTGTGCTTATGGACACAGGTAGCACACACAATTTTATTGACCAGAAATTGTGCAAAGCTAGCTTAGTAAAGTTGA AGCCCTTGCAACCTGTCAGCATCACAGTAGCAGATGGTGGTTTAATCCAAAGTTCTGGTTGGTGTGAAGATGTCCACTGG AAAATGCAAGGTTACAACTTCTCTGCCAACACTATAGCTATTCCTCTTACTAGTTGTGACTTGATTTTGGGAATGCAATG GCTGAAACAGTGGGGTAAGATTTCTTGGGACTTTGCAAACTTAGTTATGGAATTTAATATGGGAGGTATTCCTGTTGTTT TACATGCCATGGAGGAACAAGTACCCCGAGTAGTATCTACTACCAAGTTGAATCATATGATGTTAGAAGATAAAGTTTGC TGTATGTTGCACTTAATTCCTTGCTGTCAGGGGTTAGTTTGTTGCAATGTTACTACTGCTGAGACTGATTTGACACAGCA ACAAGAATTGTTACTTCAAGATTTTCAGGATGTGTTTGAGGAGCCTAAATCTTTACCACCATTTAGAGGCATCCATGATC ACAAAATCATTTTGAAGGAGGGCTCTAATCCTGTTTCCCTTAGGCCCTATAGATATCCTCCAGCACAGAAGGATGTGATA GACACTATGGTCAAGGACTTATTGAATTCAGGGGTCATCCAACCTAGTTCCTCTCCTTTTGCATCTCCAGTTGTGCTAGT TAAGAAGAAGGATGGCAGTTGGAGGATGTGTGTTGATTATAGGAGGTTGAATGAGATGACTATCAAAGCTAAATTTCCAA TTCCTTTGGTAGAAGATCTGTTAGATGAATTGGGGGGGGGGGGGGGCAAAGGTCTTCTCTAAGTTGGATTTGAGGGCTGG ATATCACCAATTGAGGATGAAGCCTGAAGATGTAGAGAAGACAGCTTTCCAAACACATTCAGGGCAATTTGAGTATGTGG TGATGCCTTTTGGCTTAACCAATGCTCCTTCTACATTTCAAGGTGCTATGAATTCCATTTTCTCAGCTCAATTAAGGAAG AGTGTCTTAATTTTCTTTGATGATATTCTTGTCTATAGTGCATCTGTGGAGGCCCATATTCAGCATCTCAGGGAAGTGTT CAGTATTCTCAGGGCTAATTCATTTTTTGTTAAAAGAAGCAAGTGTGCTTTCTTTACTCCTAGGATTGAATATTTGGGAC ATTTTATCACTGCCAATGGAGTGTCTACTGACCCAGCTAAAGTCCAGGCAGTACAAGACTGGCCCCAGCCCTCTACAGTG AAGCAATTAAGGGGTTTTTGGGGCCTTACTGGTTACTATAGAAGATTTGTGAAGGGCTATAGTATTGTGGCTTCTCCTCT CACTGATCTACTTAAGAAAGACAGCTTTATTTGGACTGAGGAAGCTCAATCTGCATTCCTTCAACTTAAACAAGCTATGA TTCAAGCTCCTGTTTTAACTATCCCTGACTTGTCTAAACCTTTCATGGTGGAGACAGATGCTTCCAACACAGGTATTGGG GCTGTTTTGCTTCAAAATGCTCACCCAGTAGCCTTTATCAGCAAGGTTTTGTCTCCCAGAAATAGGTTGCTGTCAGTGTA TGATAGAGAATTGTTGGCATTGGTACATGCAGTGACCAAGTGGCATCAATATCTGTCCATTCAGCCTTTTACTATTCTTA CTGACCAACAAAGTTTGAAGTTCTTGTTAGAACAAAGATTGTCTACCCCAGCTCAATACAGATGGGTTACCAAGCTTATG GGTCTGTCCTATGTGATTCAATACAAGAAAGGCAAGGAGAATGTGGTGGCAGATGCTCTTTCTAGGGATACTCATGGGGA ACTACTTCAGCTTTCAGTTTCCTCTATTTCCACAGAGTTATGGGATTGTATCCTCAAGGCTTATGGTGCAGATGTTGCTC TTCAACAATTGAAGAGTCAAGTGGTGGAGGATCCTACTGCTCACCCTCATTACACTGTGGTGGATGACATAGTGTTTAGG AAACACAAATTAGTGATCCCTGCGGATGTTCATGTTAAGGAGTTGATCCTCCAATGGTTGCACTCTTCTCATCAAGGAGG TCACTCTGGCATTAGGGCTTCTATTCATAGAATTAAGTCACTTTTTCATTGGAAAGGTATGAGTAAGGATGTTGCTCTCT TTATTCAAGCTTGTGAGACTTGCTTGCGATGCAAGTATGAGACTAGGGCTACTCCTGGACTGCTACAACCTTTGCCTATT CCCGGGGGCATTTGGCAAAGTATTGCCATGGATTTTATTGATAAACTTCCTTTGTCTCATGGGAAGGAAACTATTTGGGT AATTGTGGATAGATTGAGCAAATATGCTCATTTTATTCCTTTGTCCCACCCTTATACAGCTTCCAAGCTTGCTGACATTT TTCTGAAGGAAATCTATAAGTTGCATGGAGCTCCTGCCAACATTGTTAGTGATAGAGATTCTGTGTTCACTAGCAAATTT TGGTCCACTTTCTTGCAGCAGCTGGGCATTTCACAGAGCCTCACTACTGCCTATCATCCCCAATCTGATGGCCAAAGTGA AGTTCTCAATCGCTGCTTGGAGCACTATCTTAGATCTATGACGTGGCAAAGGCCAAAGGAATGGGTTAACTGGTTTCCTT TAGCTGAGTGGTGGTATAATACCACATATCATTCAGCCACACAAGCAACCCCATTTGAAGTTGTGTATGGTCAAGCACCT GCATTGCACCTGCCCTATTTCCCTCAAAGCACTAATTTGGAGGCCATTGACAGAAGTTTTGTGGCTCGGGAGGAGATGAT TAGAAAGCTACAAGGCAACTTGGTTAGAGCTCAAGCTAGGATGAAGAGAATGGCTGATAGGCACAGGTCTGATAGGGAAT TTCAGGTTGGAGATTGGGTGTTCTTGAAGCTGCAGCCTTATAGGCAGACTTCAACTCAGTACAGGGCCTCTGAAAAACTT TCTCCTCGATTCTTTGGGCCATATCAGGTGTTGTACAGGGTAGGCAAGGTGGCCTATACTTTGAGTCTACCACCCACATC CAGGGTTCATCCTACTTTTCATGTGTCTCTATTGAAGCCTTGTCCTGATCCTCAAGTTCCTATGCAACCTCTCCCTGAAG ATTGGGGCAATCTGGATCAGCCAAGGGCTCCACTCAAGATCCTTCGGAGAAGGATGGTTCAGAAGAAGCATAGGGCTGTG ACTGAAGTCCTGGTTCAGTGGCATGGTGAGATGCCAGAAGAAGCTACATGGGAAGTCTTATACATTTTGCAGAAGCAGTT TCCATTGTTTGATACCTCTGTGGACATTACTCCAGTTGATTTACCTGTTCTTCCTTGAGGTCAAGGAAGTGGTTATGGGG AGGGATATGTTACGGGTAGTTGTTGATTAGCTGGCAATAGCTGGCAGTTAGAATAACAGAAGCAGTTACTTGCTCAGTTA GTTAGTTAGCAGAGTCAGTCAGTTAGTTAGTTAGTAGAGTATATATAGTCTCTGTGATATACTGTAATGGCTATGTTGAT GATAATAGAGTTCTTTCTCTCATTCTCTCTCTAATTCTCTCTCTCTCTCTCTCTATATCTTCTTCCTATCTTCTTCCTAT CCTAACATAGTTTTAGATGGTTTTGGACATATGGGAAGAAGATTTTGTAGAAGCATCAATAAGGAGGGTTGAACCGATGG AATAGGTAAGGTAGAGGTAGAGGGAGATTGGGAAAAGTGGAAAACTATAAGCTGAACAATTAAAAAGAGAATTGGAGGTA AATATTATATCTTTGAACTTAATATATAATAGGCCATTGTGGCGCCGTGTGATTTATATAGTCGATCTCACCTAATGGGA AAATACTTAGTCGTGGTGGTTGTTTTGAATAAATTTATGGCATCACTATATTATTGAAATAGTAGAGCTAATTGCAATGT ATTTGGGTCTCTGATCTTGGTTTACCTTAAACCAAGTAAAGTCTTTGAGCTGAGTATTCTTATGGTAAATTGGTAAATTA GTTTGTTTACTTATTTCCAACTTTTCATTTATCTTGTTGCATTCATCATAATCTTTTGTTGGGGATTATGAAGTTCGCTT AATATCTTCCAGTAGTAATCATTATAAACAAAATAGGATTGCTTTAATCTGTGCTTTATGCTGCAATTCTGCAATCACAA TCACGATGCCTCTTTTGACCTTTCATGTAGTACTAGGACGAGTACGATTTTATAGGGCTTTCTCAAATGAGATAATTTAA TGATGGAAGATGCTGAACAAAATCATATTTAGATCTCTGATTGAGTCTGTGAATTTCAAATTTGGCATTTCATTCTTGCG CTTGTTGAATTGTGTGATTCCTCTTCTTTTTCAATCAGCTATTTTGGACAGTCATTTCTTTAACAAATTTTACAGATTAT AACCAAGAGGTGTCTGAAAATTTTCAGGTATTCCGAAATCAGGGAGAGAGGAAGACAGTTTGGGTGCCTTTTCAGCTCTT AGAAATGTGGGAAAATCTACAAAAGATGGAATTCTTGGAACTCCAGGTTCTCCTATTCATATGGTGGCTGCAGAAGGTGG GAATTTTAAAGAGCAGCTATGGCGTACAATTAGGTCTGTTGTAGTGGTCTTCCTCTTGATTTCTGGTGTAGGAGCACTCA TTGAGGATAAAGGAATTAGTAAAGGTATTGCCATGTTGTTGTAACTTATGAACTGCTCAGACTAATTCATTATTGAATCT GAATTTGATGCGCACATTCTTTGTTATACTTTTCACCTTTCCTAGGACTTGGTATGAATGAGGAAGTGCAGCCCAGTGTG GAGACAAGTACTAAATTTAGTGACGTAAAAGGTGTTGATGAGGCAAAGGCAGAACTGGAAGAAATTGTTCACTACCTCCG AGATCCTAAGGTAGACTTCTTTGACATTATTTCATGCTCTCTCTCTTGCATGCATTTCTAGTACTCAAGCATGGGTCATT TTAAATAACTTGTAAATGAAGATAGAGCAATTTCATCATATTTATTAACATGTGTCTCAAGCATGGGTGATATACTCTCG TGACTGAAGGCCTTTATTATCATGTTGGATGACTTGTTTCCTTTGCAACAGCGCTTTACTCGTCTTGGTGGCAAGCTCCC CAAAGGGGTTTTGCTTGTTGGCCCGCCTGGCACGGGTAAAACAATGTTGGCAAGAGCTATTGCTGGAGAGGCTGGGGTTC CTTTCTTCTCATGCAGTGGAAGTGAATTTGAAGAGATGTTTGTTGGTGTTGGTGCACGAAGGGTGAGGGATCTTTTTACT GCTGCAAAAAAGCGGTCACCTTGTATAATCTTCATTGATGAGATCGATGCCATTGGAGCAAGTCGAAATGCAAAGGACCA AATGTACATGAAGATGACTTTAAATCAATTGCTTGTGGAGCTAGATGGATTCAAGCAAAATGATGGCATAATTGTGATTG CAGCTACTAATTTTCCAGAGTCATTAGATAAGGCTTTGGTAAGACCTGGGCGATTTGATCGCCATGTCGTTGTTCCCAAT CCAGATGTAGAAGGAAGGCGTCAGATTCTAGAATCTCACATGTCAAAGGTATGCTTTTAATCCTTTGAAAAAATTTATCT AATCTTATGGCATGGGTTTCCTTATGAATTCTATCTTTTGAGGCAAAGTTCAGTGGTTACTCTGTATTGATGCAAAACTT TGCTGTAGCATATTTCTTTAACATATGATTCGGTATCCTGTGGATACTTCACAGTTCACACGAGCTCACACCCAGATTAC TTTTTTCACTGTTTTCTATTTTGATGCGAGAGTTATGTAAATGTGCCATATATATATATATATATATATATATATATATA TATATATATACATACCTGGGTAACTTTAGTATACCTTGCCATAATTGTGCAAGGTTATGGACTTGTTAGAAGGTAACTTT AATATGTTGGCATATTAAAGTATGTGTGTGTGTGTGTGTCTCTGTCTTTGTTCATTCCTGTTTGCCTATCTACTTGTTAT GCTCATTTTCTTTTTCCATGAAGGTTCTGAAGGCTGATGATGTTGATCTAATGATCATTGCTCGAGGAACACCTGGGTTC TCTGGTGCTGACCTTGCAAACATGGTTAATATTGCGGCTCTTAAGGCTGCAATGGATGGTGCCAAAGCTGTGAGCATGCA TGATTTAGAGTTTGCGAAGGATAAGATTATGATGGGAAGTGAACGCAAGTCGGCTGTTATATCTGATGAGTCGAGAAAGA TGACTGCTTTCCACGAGGGTGGCCACGCCTTGGTGGCAATTCATACTGATGGAGCGCTTCCTGTTCACAAGGCAACTATA GTTCCCCGGGGTATGGCTCTTGGCATGGTTACTCAATTGCCTGAAGTTGATCAGACCAGTACGTCCCGCAAACAGATGCT TGCCCGACTAGATGTCTGCATGGGTGGCCGGGTTGCTGAAGAGTTGATTTTTGGAGAAAGTGAAGTAACTTCAGGTGCAT CCTCAGATCTTTCTCATGCAACTAAACTGGCTAGGGCAATGGTTACTCAATATGGTATGAGCAGTGAAGTTGGACTTGCC ACTCACAATTACAATGACGATGGGAGAAGCATGAGCTCAGAAACTAGGCTGCTTATTGAGAAAGAGGTGAGGAACTTGCT TGAGAGGGCTTATACCAATGCAAAAACTATTCTAACCACCCATGATAAGGAGCTTCAGGCACTTGCAAATGCTCTTCTAG AGCATGAGACACTTACAGGAAGTCAGATAAACGCTTTACTTGCTAAAGTTAACTCCCAGCAGCAGCAACAGCCACAAGTA GTTGAAACTCAGGGCAGTTCACGGTCCAATCCTGCTGCTGCTGCTGCTGCAGCGGCGGCCGCAGCTGCAGCTACTGCTGC AGCCAAGGCTCAAGGTGTTGCCCCAGTTGGATCTTAG
CDS sequence (LotjaGi1g1v0367100.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGTGGAGGCACTTGATAACGCAGGTTACAAGACATCAATCAGAATTTGGAATGGTCAAAAATTTGTTGGCTAGAAG CTATTTGTCCGCTAATAAGTTTGGAGGCTTTACAAGGAATAGGCTTTGCCGCTCCCAGGAGAGATTCCAATCAAGCTATG TTGGTAATCTGGCCCGTCGAGCACGTGATGCAGATGAAGCCAGTGAAGTTGCTCATCTTAAAGAACTTTACCATCGAAAT GATCCTGAAGCTGTGATTAGAGCATTTGAAAGTCAGCCATCTCTACATGCTAATCCTTCAGCGGTTTCTGAATATGTTAA AGCCCTAGTGAGAGCTGGGAGGCTGGATGAAAGTGAATTAGTGAAGACTCTGATAAGAGGTATTCCGAAATCAGGGAGAG AGGAAGACAGTTTGGGTGCCTTTTCAGCTCTTAGAAATGTGGGAAAATCTACAAAAGATGGAATTCTTGGAACTCCAGGT TCTCCTATTCATATGGTGGCTGCAGAAGGTGGGAATTTTAAAGAGCAGCTATGGCGTACAATTAGGTCTGTTGTAGTGGT CTTCCTCTTGATTTCTGGTGTAGGAGCACTCATTGAGGATAAAGGAATTAGTAAAGGACTTGGTATGAATGAGGAAGTGC AGCCCAGTGTGGAGACAAGTACTAAATTTAGTGACGTAAAAGGTGTTGATGAGGCAAAGGCAGAACTGGAAGAAATTGTT CACTACCTCCGAGATCCTAAGCGCTTTACTCGTCTTGGTGGCAAGCTCCCCAAAGGGGTTTTGCTTGTTGGCCCGCCTGG CACGGGTAAAACAATGTTGGCAAGAGCTATTGCTGGAGAGGCTGGGGTTCCTTTCTTCTCATGCAGTGGAAGTGAATTTG AAGAGATGTTTGTTGGTGTTGGTGCACGAAGGGTGAGGGATCTTTTTACTGCTGCAAAAAAGCGGTCACCTTGTATAATC TTCATTGATGAGATCGATGCCATTGGAGCAAGTCGAAATGCAAAGGACCAAATGTACATGAAGATGACTTTAAATCAATT GCTTGTGGAGCTAGATGGATTCAAGCAAAATGATGGCATAATTGTGATTGCAGCTACTAATTTTCCAGAGTCATTAGATA AGGCTTTGGTAAGACCTGGGCGATTTGATCGCCATGTCGTTGTTCCCAATCCAGATGTAGAAGGAAGGCGTCAGATTCTA GAATCTCACATGTCAAAGCATATTTCTTTAACATATGATTCGGTTCTGAAGGCTGATGATGTTGATCTAATGATCATTGC TCGAGGAACACCTGGGTTCTCTGGTGCTGACCTTGCAAACATGGTTAATATTGCGGCTCTTAAGGCTGCAATGGATGGTG CCAAAGCTGTGAGCATGCATGATTTAGAGTTTGCGAAGGATAAGATTATGATGGGAAGTGAACGCAAGTCGGCTGTTATA TCTGATGAGTCGAGAAAGATGACTGCTTTCCACGAGGGTGGCCACGCCTTGGTGGCAATTCATACTGATGGAGCGCTTCC TGTTCACAAGGCAACTATAGTTCCCCGGGGTATGGCTCTTGGCATGGTTACTCAATTGCCTGAAGTTGATCAGACCAGTA CGTCCCGCAAACAGATGCTTGCCCGACTAGATGTCTGCATGGGTGGCCGGGTTGCTGAAGAGTTGATTTTTGGAGAAAGT GAAGTAACTTCAGGTGCATCCTCAGATCTTTCTCATGCAACTAAACTGGCTAGGGCAATGGTTACTCAATATGGTATGAG CAGTGAAGTTGGACTTGCCACTCACAATTACAATGACGATGGGAGAAGCATGAGCTCAGAAACTAGGCTGCTTATTGAGA AAGAGGTGAGGAACTTGCTTGAGAGGGCTTATACCAATGCAAAAACTATTCTAACCACCCATGATAAGGAGCTTCAGGCA CTTGCAAATGCTCTTCTAGAGCATGAGACACTTACAGGAAGTCAGATAAACGCTTTACTTGCTAAAGTTAACTCCCAGCA GCAGCAACAGCCACAAGTAGTTGAAACTCAGGGCAGTTCACGGTCCAATCCTGCTGCTGCTGCTGCTGCAGCGGCGGCCG CAGCTGCAGCTACTGCTGCAGCCAAGGCTCAAGGTGTTGCCCCAGTTGGATCTTAG
Protein sequence (LotjaGi1g1v0367100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAWRHLITQVTRHQSEFGMVKNLLARSYLSANKFGGFTRNRLCRSQERFQSSYVGNLARRARDADEASEVAHLKELYHRN DPEAVIRAFESQPSLHANPSAVSEYVKALVRAGRLDESELVKTLIRGIPKSGREEDSLGAFSALRNVGKSTKDGILGTPG SPIHMVAAEGGNFKEQLWRTIRSVVVVFLLISGVGALIEDKGISKGLGMNEEVQPSVETSTKFSDVKGVDEAKAELEEIV HYLRDPKRFTRLGGKLPKGVLLVGPPGTGKTMLARAIAGEAGVPFFSCSGSEFEEMFVGVGARRVRDLFTAAKKRSPCII FIDEIDAIGASRNAKDQMYMKMTLNQLLVELDGFKQNDGIIVIAATNFPESLDKALVRPGRFDRHVVVPNPDVEGRRQIL ESHMSKHISLTYDSVLKADDVDLMIIARGTPGFSGADLANMVNIAALKAAMDGAKAVSMHDLEFAKDKIMMGSERKSAVI SDESRKMTAFHEGGHALVAIHTDGALPVHKATIVPRGMALGMVTQLPEVDQTSTSRKQMLARLDVCMGGRVAEELIFGES EVTSGASSDLSHATKLARAMVTQYGMSSEVGLATHNYNDDGRSMSSETRLLIEKEVRNLLERAYTNAKTILTTHDKELQA LANALLEHETLTGSQINALLAKVNSQQQQQPQVVETQGSSRSNPAAAAAAAAAAAAATAAAKAQGVAPVGS
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 |
---|---|---|---|---|---|---|
Hamap | 4 | 681 | 678 | 31.003 | ||
PANTHER | 6 | 677 | 672 | 0.0 | – | |
PANTHER | 6 | 677 | 672 | 0.0 | – | |
Gene3D | 210 | 391 | 182 | 2.7E-65 | – | |
TIGRFAM | 210 | 660 | 451 | 1.2E-179 | ||
SUPERFAMILY | 221 | 482 | 262 | 3.08E-67 | ||
SMART | 256 | 392 | 137 | 9.4E-26 | ||
CDD | 257 | 389 | 133 | 6.42369E-29 | – | |
Pfam | 260 | 389 | 130 | 2.5E-43 | ||
ProSitePatterns | 360 | 378 | 19 | - | ||
Gene3D | 392 | 473 | 82 | 6.7E-21 | – | |
Pfam | 420 | 463 | 44 | 2.5E-9 | ||
Gene3D | 474 | 671 | 198 | 4.9E-69 | ||
Pfam | 479 | 658 | 180 | 3.7E-65 | ||
SUPERFAMILY | 479 | 664 | 186 | 3.66E-65 |
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 | Metalloendopeptidase activity | Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain by a mechanism in which water acts as a nucleophile, one or two metal ions hold the water molecule in place, and charged amino acid side chains are ligands for the metal ions. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Proteolysis | The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
Expression pattern of LotjaGi1g1v0367100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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