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Field | Value |
---|---|
Gene ID | LotjaGi6g1v0101300 |
Transcript ID | LotjaGi6g1v0101300.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Urease subunit alpha; TAIR: AT1G67550.1 urease; Swiss-Prot: sp|P07374|UREA_CANEN Urease; TrEMBL-Plants: tr|Q949H4|Q949H4_SOYBN Urease; Found in the gene: LotjaGi6g1v0101300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:22265186..22275064) extracted from Lotus japonicus Gifu genome v1.2.
GGGGTAAAAAACATATTTAACCCTCATAAGCTATAATATCCTCCCGCTAGTCAACACCTAGTTTTTCTAAATTACACGTC ATTCTTGCAGATTATAGTAACCCATTGATCGAAATTCAGACATAAGAGTGCGGACTGAGGCTCACTCCTAAGCTTAGACT TTGATTCTCCATCCATTCTTCAAACTGGTTATTTTGGATTTTCATATTTCATAGTTTTCACTGATTTCCCCCTTTTCAGT TCATCGATCAGCACTGAGAAATGAAACTGAGCCCAAGAGAGATCGCGAAAATAGAGCTACACAATGCTGGATTCCTGGCC CAGAAACGCCTTGCTCGTGGTTTAAGACTCAATTACACTGAAGCTGTTGCTCTCATAGCAGCACAGGTTTGCTTCTCTTC TGTTGGATTAAATAAAATTAATTCCTCAATAATATTTCATACTATTTAATTTAATTTAATTTTTTCATAGACTTTGGAAT TTATTCGGGATGGTGATAAGACTGTTGCAGAGCTTATGTCTATTGGGAGAGAACTCTTAGGAAGGTATTATTGGATCAGC TTTTCTTTTTTTCAGAATCAATTCTGATATTCAGAAGCTACTAACAAAAGCTTTTCCCAGATTTCATTCTGGCTTTAGAA TCGATTGTAAAATGATTTCCAAAACATGCAGAATTAGTAATAAGGGTTGGGTGGGATGAAGGGTGAAGGGTCCAGGGTTC GAACCCTGATTATGACTAATTTACTAAGTAATGGTTGAGAGGATAACGTTAAAACTTGATTTCAGAGAATCTAAATTTGT TTCTCTGTTTTAACAGGAGACAAGTTCTTCCAGCTGTCCCCCATCTCTTGGATACTGTTCAGGTAATCTCGCGCGATTAT GTGATACTTTTCTTGATTGTTAGAAAATAACTCTCCCAAATGGCTTTATGTATATTGCATGAAATTAACTCAGCCAAATT GTTGTTATGGGTCCTACTGGGAGATCTTTCCATCTTTTGTGCCAAGATAGATAGTTATATTATTTTTATTTTGTGTTTAT GATTCAAAATATTTTTTTTTTAAATTAGTATATTTTTCGCTCTTTTAATCTCTTTGTCATGGCTCTTAAAATGTCAAAAC GACCGGTCTCCCCCATCCCCCAAGCTCATTGATAGAAAGAAATTATTGTCATAATTGAATAAATAAAATTGAATGCAGGT TGAAGGTACCTTTCATGATGGGACTAAGCTAGTCACTATTCATGACCCCATTGCTAATGAGAATGGAAACATGGAACTAG CATTATTTGGTTCTTTTCTCCCAGGTGTGCCTCTATTTTGATCTTAAAATTAGATGCTTTATTATATCTCTCTGCTGAGT GCTTCGTCTCTGTGCATGCTATACAGGTATCTTAAATTCTTTTTATTGTTTCTTTGCCTAGTTTGAATTAAAACATGACT TGCAAACTATATCTTTTAAATAAAATTCTTGTGTAATTTTAGTTTTTGTTCATGATCAGCATTTCTTTTGTTTACATGAA AAGGAAAAATCTCTTGTCTTCTAATGTCTATATAGAAGTTAGGGATATTTTAAAATTCTACAAGCTAACTTGAAGCTGCT TTTTTCTCAGAAATGATCAGTGACCTTTCAATGATGATCTGCTATCTATATCTATATGTATGAATGTATATATGTGTTTA TGTATATATTTTACATTTTTACTAAATTAGCTTATTTGACTTTGATTACTCGAATCACATGACTGTCACATTGACTATCG AGGGGTAATGGGAGCCTAGAGACATGATAAGTCATAGTATATATTTTCAGTTTAATGATGATATATGTATATTAATTTAG TATTCATAATTATTTTTGAAAATCTATGGTGTTGTTGATTTATAGAAACAGAAACTACAAACTGAAACCTGTAGTTACAT TAGCATTTCTCTTGATAATGGACTCTATGATTGCAGTACCTTCACTTGGCAGGTTTACCGAGAGCAAAGAAGATGATATA ATTCCTGGTACTGTAATATCTAGAGATGGAAGCCTGATTCTTAACTCTGGAAGGGATGCAGCAATTCTCAAAGTTGTCAA CAAAGGAGACCGGCCAATTCAGGTGTTTGCCTGTTTGTTGGACCTAGTTCCTTAGCATTTATGCATCTTTTACTTTGGCT GGCATTAAAATGAAAATTTTAATATATTCCATATTCAAAATGATCGAAAGATGCTCCAGTTACACATAGTGATAGAGTTT CTAAATGCAGTTTCATGAAATAACAAAGTGAAGTCAATGAATGAGACAATATTGGCACTTACCTCTTGAATTTATTTTCT GATCAAATAAGGAGGATTTAAATGGTTTTCAAAGTTGTCTGAAGATTCGCATCTAAGTACATGAATCTTGTTGACCACTC TGTACTAGGATTTGAGCATGTTTGGATCATAGTTATGTCAGGAAAACGAACCTCTTGAGCTTTTCTTGTCAAATTGAATG AATTTATATTATATATATGGATCCTTGTCAAATATTGAAATATTACAGCTTTTCTGTTTCATTTATTCCAGCTAATTGAT TACTTGTTTACTTATCGAGAAATGTTACAGACTCTTTCCAACACAATTTCTCTTACTGGTTGAAATTCATGCGGGAACCA TGAATCTCAATCAATAAGAGAGTGTGTTAAAAACAATGAGTTAAATAGTGTGTTTCGAGCACTCATCTTCCTTCTATTAT CCATAGAAAATAACTGAAGCTACATTTTGTAATACTTTTGAAAATTTTCAGGTTGGAAGCCACTACCATTTTATTGAAGT AAATCCCTACTTAACCTTTGATCGAAGGAAAGCATTTGGCAAGCGCCTCAATATAGCTTCTGGAACTACCACGCGCTTTG AGGTAATATTCTACATTGTTGTTTGTTTTCCTATTTACCATAGTAATAATTGTAAAATATAGTTCATTGAATTTTTTGCA TTTTAATTTTTTATTCAGTGCCGAACTGATCTCATATAAGCAGACTAGACTTGTTCATATAGTGAACTAATTCATTTATT AGATTTAGATCACTGATATTAATCTAAAAATATCTACTTTTGATAGCCAGGGGAAAGTAAAAGTGTTGTACTCGTAAGTA TTGGAGGTAACAAAGTCATTAGAGGAGGTAACAACATTGTTGATGGTCCAGTAAATAATTCTAATTGCATAGAAGCCATG GAGGCTGTGACCAAAAGGGGATTTGGGCATATGGAAGAGGCAAATGCAAGGTTTATGATTTGTTATTGAAGTGATTGTCG TATACATTTTCTTACATCTTTGCCAATTCCATGTTTGCAAAGACTTCTCATTTCAAATATCAATTTGGCAGGGAAGGTAT TACTGGGGAAGACTATTCACTTACTACACTAATTTCTCGAGAAGAGTATGCTAACAAATATGGCCCCACTACTGGTGATA AAATCCGTCTTGGTGACACTAACTTGTTTGCCGAAATTGAAAAGGATTTTGCTGTCTATGGTGATGAATGTATTTTTGGA GGTGGGAAAGTCATAAGAGATGGAATGGGTCAGTCATGCGGCCATTCACCTGATGGATCCTTGGATACTGTTATAACAAA TGCCGTGATCATTGATTATACTGGAATTATCAAAGCAGATATCGGTGTTAAAGATGGCCTTATTGTCTCAATTGGAAAAG CAGGAAATCCAGATGTGATGAATGGTGTATTCCTTAATATGATCATTGGGGTAAGTTCTCTTCCAGACATCATGGGTAAT GGGTTGAATTCATTCATCATTGTCCTGATACAGCTTACACACATCATCCATATCTAGGCCAATACTGAAGTTATTGCTGG AGAGGGCTTGATTGTAACAACCGGGGCTATAGATTGTCATGTGCATTTTATATGCCCTCAATTAGTATACGAAGCCATAT CAAGTGGTAAGTCTATAACCAAGTTCTGCTGAAATTTCACATTTCATGTATCTTTCAAATATTTAAAGCACGCTTCAGTG TGCGGTACCAGACTCATGACTGATATGTAGATGAAAAAGTTTGGGAGTTATTTGAGATCATCTGCGAATTGTTTTTGTAT TGAAGACTCCCATCTTTACCAATTTACTCATTTTCTCAAGAAATATCCATCATCCAAACTACTTGTATGATTTTATTAGT CCTTTTCTGCTTTGTACATAGGTATCACAACATTAGTGGGAGGAGGAACAGGACCAGCTGATGGAACACGTGCTACAACT TGTACACCAGCTCCAAGTCAGATGAAACTAATGTTGCAATCAACAGATGACCTGCCTCTGAACTTTGGTTTTACTGGAAA AGTCTCTTTGTTTATTTAATCTTTTACTGGGTTTTTTGTTTAGTTATGTTTCCTGTTTTTCTGCTCAATGTTATATGTTT AAAGTGAATAAAGCTTCATTTCGTTCTTCAGGGGAATAGTGCCAAGCCTGATGAACTTCATGAAATAATCAGGGCTGGAG CTATGGGACTGAAGCTGCATGAGGACTGGGGATCTACACCAGCAGCTATAGACTGTTGCTTAACTGTTGCGGAACAATAT GGCATTCAGGCACAACTTTCTTCCACATATTCACTTTTTTGTTTTTCTAATCTTGGTTTATCTCTATTGCCAATTTTTAC TTTACAACAAGTCTTTTACCAGTAAACAGAGTCAATTACATGGATCAAGTGATGCCATAATAATTTGTTGTAAATCATGT TTAAAGACAAACTATTTAAATCTAAATCATTCTTATTGGTGTGGCCAGTAGTTTTTCTTGGTCTTGTCTTGTTCTACATT TAACTATTTGATTATCTTCCATCTAATATACTCTCCTTAGTGGGACTACTGTCTTCTCCACACTTGTCCATTCCATCTTA AGTTGGATAGTACTATATTTTCCTTAATAGGTGCTACTTGAATTTTCTCCCTAATGCATTCATGCCTAATCCTATTTTGT CTTGTGTGTCACTTGCCCATTATAATATCCTTGTCTTTGTAAAATTGGAGCTTATTTCCTTGTTGCTAACTTTTAGTATA ACAGGTTAATATACACACTGACACCTTAAATGAATCTGGATTTGTGGAAGATACAATTGCTGCATTCAAAGGAAGAACTA TTCATACTTACCACAGGTATATGTTAACTCTGAGAGTTCTTATAACAGGCACAGGTCCATTGCTATTTGTTAATTACTGT CCTAACTGTTGCTGAGGGAAAATGCCCATTTTATTTTTATGTGAAAAATTCACTGTATAGAAGTATTACCTTGAAGAAAA AAGTTTATATGTAATTTCTTGGTGGAACTTTAATTTCCATCGTTTACTGAATCAGATCTTATCTGTAATGTGAAATAGGT GATAGGTTAAACTTAGAGCTTTGTTTTTCCCATAATAGGACATTTACTTGTATACATATGACTCTTTTTGTAACCCTCAA CTCTTCTCTCTGGCCGTGTGGGGGTTCGAGGTAGGCATGGTTTATTATATTATATGCTCCAATAAGGAGAACATGATGAC TTTTTGGTTCTGTTTTCTGATCTAAGTTAACTGATTTGGGCAGTGAAGGTGCAGGTGGCGGCCATGCTCCAGATATCATC AAAGTATGTGGTGTGAAGAATGTCCTACCCTCATCAACAAATCCTACACGCCCTTATACGTCTAATACCATAGATGAGCA TCTTGATATGTTGGTATGGAAGAAAATACAGTAATAATATTAATATTTAGCTTAAGCTATTTGGTTCTTAACTCAGACTT GATGATGTACAGATGGTCTGCCATCATCTTGATAAGGATATTCCAGAAGATATAGCTTTTGCAGAATCAAGGATAAGAGC TGAAACAATAGCTGCTGAAGATATTTTGCATGATATGGGGGCAATTAGTATTATATCTTCTGATTCACAGGCTATGGGGC GAATTGGAGAGGTCTTTCCTTTGATCAAGTTATCACATATGGATAAGACTTAATTACTCTCATATTTATTTTGAAAAGAA CAATGGAATTGAGAGCTTGGTAGGGCCAAATTTATTCTCAAAAATCAAATGGTGTGTGCCTGTGGTATTTCTTTCAATTT GTTTGAAGATCTCTGTTATTGTCTCATGCAGAAAATGTCTGATGCACAATGGTGTGCATGTGCTGGTAGCTTGGGTAATT ACAGCTGTTTTAGGGTGTACAGCTAGCAAGAGAGTTAGTTAGTAGTAGCATATAATATCTAGAGTCAGTTATGGTTGTTG TGATTGATTGTATTGAACTCTTCTTTCTTGAATCTATCTGTTTCTCTCTGTTCTCTCTCTCTACTCTCTTCTACTTCTGT TCTATCTATGTCTGGAATTTATGTCTTACTGTTGTTAATTTGACTATCACCGTACCATATTCCCATATTTGTCTCTTAAC TTTCACTTTTATTTATTTATATTTATTGTATATCCATGAAATTTTTTATCAAGTTTTTTATCCTCAGGATTATATTGTTG AATAATTTCTTCTTTAGGTGATAAGCAGAACATGGCAAACTGCCAACAAGATGAAGTCACAAAGAGGACCACTGCTGCCC GATGAATCAGTCAATGACAATTTTCGGATCAAACGTTATGTCGCAAAGTACACTATAAATCCAGCTATAGCAAATGGTTT GTCACGATATGTTGGTTCAGTTGAGGTATGGTGTTTGAATGTTGAGTCCTATGTCAAGTTAGGCATGCATTTTCCTGGGA AAAAACAGATAGTTCTTTGAAAATTTCGATTGGCCAAAGGAGGTCAAATGCCCAAGGCCTTGAAAGTCTATGTTAGAAAG AAAAATAGGGTTTCTAGTGGAAGTTACGATAAGGAGACAGTTATATTTAGGTCATGATAGTTATGTGTGTTTATATCTAT CTTTGGGGTAGTTATTACGAGTTTTTGATAATTATGTGTGTTTTTAATTCTAAATGCATGGGGGCTAGTTACCAATTTAG AAAAAAAAAAGTATTCTTGATCTCTGTTAGGTCTTAGGCCCGTGAATCCGTTCTTTTATTCCAATTCTGGTTGAAATCCA GAATTGTTATCAACAAAATTTTCATGTTTGTTTGTGCAATCTCTTGAACCAAATAATTTGGTTTGACTTGTCGGGTACTC TCAACAAGTATGGACTCAAGAGTCGAAGGACCGAAGAAGCAAATAGAGACAATTTTTAAATCAAATGAGATGCAGAAAAT TCAATGCGTCACGTCACGACCAATTCAGAACAATGACCTAATCTAGGGAAGAAGTAGATAGATTCTGCGAAGATGAAGAA GAAGGTTGATGGTTTGGAGGAGATGCGACTGCTATTGTAGGAATTAGTGAAAAAAAGGGTGGCTGTGGAACCAGACATTT CCAGCAATCCCAAAACTTCTTCCCCTGTGAACCAGTGTCCATTGGTCCACAGATATTAGAGTATAAGGCTATATACACAC ATAATGTACAGAACCTACTGCCAATAAAGATAATAGAGCTGTTAGCGTCAGTTAGCTCCAACTAATTCTGTTAGGAAGTT AATTAAAGTTAGTTAGGCTAGCTAAGCCTGAGTTATCACTGTATGTACTTGAAACTATCACAATAATTAATGAATAATAG ATTTAGTTAACTTCTAGCTCTCAAGGTTTTCAGCCTCAGTGGCTGAATTCTTTGGGCTTCAATTCCAATAAGAGACATAA TTATAATCTGTTAAAACCTCAGGAGTTAGTCTCACCAGTATGTGGATGTTCCCGGCTCTAACAAGATTGCACGTAAAAAA AAGACAGAAAAAAAAACTGAAGCGCACACCTGGTGAGAGGGGTTAATGACCAAGCAAAAGTTCGTCACGATTTTCAGAAA TCATTTTTTCTTATTTTTTTTATTGATTTATCAAACTTTCTTACTTTGATATGTACTTGTGTGCATAATTATATAAAGCA TACTTTATAAGTAGTGCTAGTTCCACGTCTTTGGTCAGCTATTCCTGTAGAAAAAGTTATTGAACTTTTAGCTATCTTGG AATTAGTGAGTACCTGTATTATTGCTTATTGGTATGCATTTAAGTACTAAACTATTTCTTTTTTCATACGTCAACTGCAA TTTGTGTATCATACCACAGCTATAAAGCTGGTGCCGATCCTTCTAATTTTAGTATTATCTCGACCCCTTCATTTACACCT AGTCTTGCAGGTGGGAAAGTTAGCAGATCTCGTATTATGGAAGCCATCATTTTTTGGAGCAAAACCAGAAATGGTGATCA AAGGTGGTCAGGTTGCATGGGCTAACATGGGTGACCCAAATGCAAGCATCCCAACGCCTGAACCGGTAATGTTTTCATAT ATGTATTGGCTTGCCTTCTAATATATTATGGGAAGCTATATGCAAGTGTGGATGGAGTGGGGTGTTTGAAGAAAAGGAAA GACATAGTAAAAAAAATTATTTCAATTAAATACTTTCTAATTTAATCATTTTGTAGAATGAAAGGACTAAAGTGATCGAT TATCACTTAATCTCATTCATTTTTACAAACATGATATAGCTCTTTTAATTCAGAAAAAAAAAAACCTCCAACACCCTTAG GGCGTTATGATGGAAGTGCATTAAATAAACTAGGAAACATAACTTTTCAGGTGATTATGAGGCCAATGTTCGGAGCATTT GGCAAGGCTGGGAGTTCGCACTCCATTACTTTTGTGAGCAAGGCATGGAATCCTTCTCTGCTCCTCTTTGACAGACACAA TCACACACATGCAGGCACACAAATAACGAAATAAGGATTCTCTCATGTCAAGTAATGGTGTCTTGTGATATTTTCTGTCT ATCGAGGTCTCTCTTCATAATTTTAATAAGTATAAAGAGAGATATAGACATGAAATTTTAACAAGGCAGTGACATGTGAA TTTCCAATTGAGTGGATTCTGATCTGCACGTATCACACACACTGTTAGTTTCTCTGGAAGATTACAGACTCACATCATAT GTTGATTGTGTGACAAAGCAGGCAGCTTTGGACGAAGGGGTAAAAACTTCGTACGGACTTAACAAGAGGGTGGAAGCCGT GGACAGCAATGTGAGGAAGCTCACCAAACTAGACATGAAACTGAATGATGCCCTTCCACAAATCACTGTGGACCCAGAAA CCTACACGGTCACAGCAGATGGAGCGGTTCTCACCTGCACCGCAGCTGCTTCTGTTCCTCTTTCGCGGAATTACTTCCTC TTTTAAGCACATAACTCTCTCACCTTCTCATTTTATTATGAGTCCAGATCCAACAAACTTGTAGCCAATCGTGGAATTCC CATTAGCATATCCATTAACATTGTCATGAATGCACTTTTTTCTTGGAAGAAACTGAATGTAAATTTTCGTATATTTATGG ATAGCTAAATTTAATTAATTGTTTCTTTTCTGCTCCCATATTGCATTCCATGATTACATCCTAGTTCTTACGTTCTTGTT CTGCACATGGTTTAGGATCAAGGATTGTTGGTCCCCAATTAGCAGCACTCAGGTTACTTATCACATCGAACTAGAAAACA AAAGGATTTGATTATTTTAGGGTTAATTAAGTTTTTGGTCCTTGTGTAATAGGCAAAGTTTGAAATTAGTTCTTTACTGG AGTAAAGTTTGGATTCAGTCCTTAATTTTAGGGAAACTACCCAGTTTTAGTTCCTTTTGAAGGTGGTGGTCCGATGACTT TGCCACATGACTTCAACGGTCCTACATGGCGCGCTTACGTGTTAAATGAGGCCGACATGAAATTTTAAATTAAAATTTTA TTTCCACATATGTAAATAAAAAATAAGAGTTTAATAAATTAAAAATAAAATCTATATATATATGTAAAGCACACTTGTGG TTTTGCATGCAATTAATGTATTAAACCATAAAAGCTCAC
CDS sequence (LotjaGi6g1v0101300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAACTGAGCCCAAGAGAGATCGCGAAAATAGAGCTACACAATGCTGGATTCCTGGCCCAGAAACGCCTTGCTCGTGG TTTAAGACTCAATTACACTGAAGCTGTTGCTCTCATAGCAGCACAGACTTTGGAATTTATTCGGGATGGTGATAAGACTG TTGCAGAGCTTATGTCTATTGGGAGAGAACTCTTAGGAAGGAGACAAGTTCTTCCAGCTGTCCCCCATCTCTTGGATACT GTTCAGGTTGAAGGTACCTTTCATGATGGGACTAAGCTAGTCACTATTCATGACCCCATTGCTAATGAGAATGGAAACAT GGAACTAGCATTATTTGGTTCTTTTCTCCCAGTACCTTCACTTGGCAGGTTTACCGAGAGCAAAGAAGATGATATAATTC CTGGTACTGTAATATCTAGAGATGGAAGCCTGATTCTTAACTCTGGAAGGGATGCAGCAATTCTCAAAGTTGTCAACAAA GGAGACCGGCCAATTCAGGTTGGAAGCCACTACCATTTTATTGAAGTAAATCCCTACTTAACCTTTGATCGAAGGAAAGC ATTTGGCAAGCGCCTCAATATAGCTTCTGGAACTACCACGCGCTTTGAGCCAGGGGAAAGTAAAAGTGTTGTACTCGTAA GTATTGGAGGTAACAAAGTCATTAGAGGAGGTAACAACATTGTTGATGGTCCAGTAAATAATTCTAATTGCATAGAAGCC ATGGAGGCTGTGACCAAAAGGGGATTTGGGCATATGGAAGAGGCAAATGCAAGGGAAGGTATTACTGGGGAAGACTATTC ACTTACTACACTAATTTCTCGAGAAGAGTATGCTAACAAATATGGCCCCACTACTGGTGATAAAATCCGTCTTGGTGACA CTAACTTGTTTGCCGAAATTGAAAAGGATTTTGCTGTCTATGGTGATGAATGTATTTTTGGAGGTGGGAAAGTCATAAGA GATGGAATGGGTCAGTCATGCGGCCATTCACCTGATGGATCCTTGGATACTGTTATAACAAATGCCGTGATCATTGATTA TACTGGAATTATCAAAGCAGATATCGGTGTTAAAGATGGCCTTATTGTCTCAATTGGAAAAGCAGGAAATCCAGATGTGA TGAATGGTGTATTCCTTAATATGATCATTGGGGCCAATACTGAAGTTATTGCTGGAGAGGGCTTGATTGTAACAACCGGG GCTATAGATTGTCATGTGCATTTTATATGCCCTCAATTAGTATACGAAGCCATATCAAGTGGTATCACAACATTAGTGGG AGGAGGAACAGGACCAGCTGATGGAACACGTGCTACAACTTGTACACCAGCTCCAAGTCAGATGAAACTAATGTTGCAAT CAACAGATGACCTGCCTCTGAACTTTGGTTTTACTGGAAAAGGGAATAGTGCCAAGCCTGATGAACTTCATGAAATAATC AGGGCTGGAGCTATGGGACTGAAGCTGCATGAGGACTGGGGATCTACACCAGCAGCTATAGACTGTTGCTTAACTGTTGC GGAACAATATGGCATTCAGGTTAATATACACACTGACACCTTAAATGAATCTGGATTTGTGGAAGATACAATTGCTGCAT TCAAAGGAAGAACTATTCATACTTACCACAGTGAAGGTGCAGGTGGCGGCCATGCTCCAGATATCATCAAAGTATGTGGT GTGAAGAATGTCCTACCCTCATCAACAAATCCTACACGCCCTTATACGTCTAATACCATAGATGAGCATCTTGATATGTT GATGGTCTGCCATCATCTTGATAAGGATATTCCAGAAGATATAGCTTTTGCAGAATCAAGGATAAGAGCTGAAACAATAG CTGCTGAAGATATTTTGCATGATATGGGGGCAATTAGTATTATATCTTCTGATTCACAGGCTATGGGGCGAATTGGAGAG GTGATAAGCAGAACATGGCAAACTGCCAACAAGATGAAGTCACAAAGAGGACCACTGCTGCCCGATGAATCAGTCAATGA CAATTTTCGGATCAAACGTTATGTCGCAAAGTACACTATAAATCCAGCTATAGCAAATGGTTTGTCACGATATGTTGGTT CAGTTGAGGTGGGAAAGTTAGCAGATCTCGTATTATGGAAGCCATCATTTTTTGGAGCAAAACCAGAAATGGTGATCAAA GGTGGTCAGGTTGCATGGGCTAACATGGGTGACCCAAATGCAAGCATCCCAACGCCTGAACCGGTGATTATGAGGCCAAT GTTCGGAGCATTTGGCAAGGCTGGGAGTTCGCACTCCATTACTTTTGTGAGCAAGGCAGCTTTGGACGAAGGGGTAAAAA CTTCGTACGGACTTAACAAGAGGGTGGAAGCCGTGGACAGCAATGTGAGGAAGCTCACCAAACTAGACATGAAACTGAAT GATGCCCTTCCACAAATCACTGTGGACCCAGAAACCTACACGGTCACAGCAGATGGAGCGGTTCTCACCTGCACCGCAGC TGCTTCTGTTCCTCTTTCGCGGAATTACTTCCTCTTTTAA
Protein sequence (LotjaGi6g1v0101300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKLSPREIAKIELHNAGFLAQKRLARGLRLNYTEAVALIAAQTLEFIRDGDKTVAELMSIGRELLGRRQVLPAVPHLLDT VQVEGTFHDGTKLVTIHDPIANENGNMELALFGSFLPVPSLGRFTESKEDDIIPGTVISRDGSLILNSGRDAAILKVVNK GDRPIQVGSHYHFIEVNPYLTFDRRKAFGKRLNIASGTTTRFEPGESKSVVLVSIGGNKVIRGGNNIVDGPVNNSNCIEA MEAVTKRGFGHMEEANAREGITGEDYSLTTLISREEYANKYGPTTGDKIRLGDTNLFAEIEKDFAVYGDECIFGGGKVIR DGMGQSCGHSPDGSLDTVITNAVIIDYTGIIKADIGVKDGLIVSIGKAGNPDVMNGVFLNMIIGANTEVIAGEGLIVTTG AIDCHVHFICPQLVYEAISSGITTLVGGGTGPADGTRATTCTPAPSQMKLMLQSTDDLPLNFGFTGKGNSAKPDELHEII RAGAMGLKLHEDWGSTPAAIDCCLTVAEQYGIQVNIHTDTLNESGFVEDTIAAFKGRTIHTYHSEGAGGGHAPDIIKVCG VKNVLPSSTNPTRPYTSNTIDEHLDMLMVCHHLDKDIPEDIAFAESRIRAETIAAEDILHDMGAISIISSDSQAMGRIGE VISRTWQTANKMKSQRGPLLPDESVNDNFRIKRYVAKYTINPAIANGLSRYVGSVEVGKLADLVLWKPSFFGAKPEMVIK GGQVAWANMGDPNASIPTPEPVIMRPMFGAFGKAGSSHSITFVSKAALDEGVKTSYGLNKRVEAVDSNVRKLTKLDMKLN DALPQITVDPETYTVTADGAVLTCTAAASVPLSRNYFLF
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 |
---|---|---|---|---|---|---|
PIRSF | 1 | 839 | 839 | 0.0 | ||
PANTHER | 1 | 839 | 839 | 0.0 | – | |
SUPERFAMILY | 1 | 104 | 104 | 1.22E-40 | ||
TIGRFAM | 1 | 101 | 101 | 2.4E-33 | ||
Pfam | 1 | 100 | 100 | 4.0E-40 | ||
Gene3D | 4 | 124 | 121 | 1.3E-51 | ||
CDD | 4 | 100 | 97 | 1.49714E-50 | ||
TIGRFAM | 132 | 233 | 102 | 7.6E-39 | ||
CDD | 132 | 232 | 101 | 2.48173E-52 | ||
SUPERFAMILY | 132 | 261 | 130 | 2.49E-48 | ||
Pfam | 134 | 230 | 97 | 2.2E-38 | ||
Gene3D | 153 | 269 | 117 | 0.0 | ||
Pfam | 232 | 265 | 34 | 1.8E-16 | ||
Hamap | 270 | 839 | 570 | 55.347 | ||
Gene3D | 270 | 751 | 482 | 0.0 | ||
SUPERFAMILY | 271 | 448 | 178 | 6.79E-63 | ||
Pfam | 272 | 390 | 119 | 6.5E-55 | ||
CDD | 272 | 838 | 567 | 0.0 | ||
TIGRFAM | 272 | 839 | 568 | 4.9E-292 | ||
Pfam | 396 | 723 | 328 | 7.5E-77 | ||
Gene3D | 400 | 820 | 421 | 0.0 | – | |
SUPERFAMILY | 400 | 839 | 440 | 2.5E-191 | ||
ProSiteProfiles | 400 | 839 | 440 | 222.739 | ||
PRINTS | 566 | 583 | 18 | 2.3E-33 | ||
ProSitePatterns | 588 | 604 | 17 | - | ||
PRINTS | 605 | 621 | 17 | 2.3E-33 | ||
PRINTS | 672 | 687 | 16 | 2.3E-33 | ||
SUPERFAMILY | 680 | 750 | 71 | 2.26E-9 | ||
PRINTS | 698 | 711 | 14 | 2.3E-33 |
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 |
---|---|---|---|---|
Biological process | Nitrogen compound metabolic process | The chemical reactions and pathways involving organic or inorganic compounds that contain nitrogen. | ||
Molecular function | Urease activity | Catalysis of the reaction: urea + H2O = CO2 + 2 NH3. | ||
Molecular function | Nickel cation binding | Interacting selectively and non-covalently with nickel (Ni) cations. | ||
Molecular function | Hydrolase activity | Catalysis of the hydrolysis of various bonds, e.g. C-O, C-N, C-C, phosphoric anhydride bonds, etc. Hydrolase is the systematic name for any enzyme of EC class 3. | ||
Molecular function | Hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds | Catalysis of the hydrolysis of any carbon-nitrogen bond, C-N, with the exception of peptide bonds. | ||
Biological process | Urea catabolic process | The chemical reactions and pathways resulting in the breakdown of urea, the water soluble compound O=C-(NH2)2. |
Expression pattern of LotjaGi6g1v0101300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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