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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0543700 |
| Transcript ID | LotjaGi3g1v0543700.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Origin recognition complex subunit 3; TAIR: AT5G16690.1 origin recognition complex subunit 3; Swiss-Prot: sp|Q6E7H0|ORC3_ARATH Origin of replication complex subunit 3; TrEMBL-Plants: tr|K7LSF3|K7LSF3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0543700 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:95976710..95988072) extracted from Lotus japonicus Gifu genome v1.2.
ACCACCATCACTGCCTATCACACAACCAACTCTGACCACCATTAATCTTCACCACCAACCCCACCACCAGCTCCATTACT CATTCATCCTACACCATAAATCCCTTTACTTCCTATATTAGTCCCCTATGCACCAAAGACATCCTACACCATTACATTAT TTATGTATTGTAATTTTGTTTAAATTGGATTATGTAACTTTTAAATTTTAAAGTCATGTTATTTTTGCTGCAATTGGACT AAAGTCATGTTATTTCAACTGTAATTAAAGAATCCGAACTTATAACTCTCGTACTAGTCCAAAACATCAACCTCTGGACT GGTATAGAGGTTTAAGTCCCGGAGGGTAGTCCCGACATTTTTTTAAAAAGACTAGGGTGGCAATTCTAAAAGAGGGGGTG GGAAATCTAATTCCCTTTAAATCCTCTCCCTCCAACGTTCGTCGTCGATCTCACCGCCATGGCCACCGCTTCATCGAGCG CCGCGTCTCTGGGCGCAACACCCGCAGAGAGAGATCTTCAGGTTCCTCTCTCACCTACCTTCTTCTCGTAACTCACTCTC ATGATGTAGTAGATAACTCAAATTAACACTGTTCTACTTCACCATTTTCGGACATTGCTTCGATTCCAATCTTGTTGATG AACCCTATGCGCTTCTGTCTTTGATTTTGATTTCAACTGCTCTGGCTATATATTTTGTATCTAGTGAGAGAACAATAGTG TCGCTGCCAATCGCGTCTGTTCAACCATTCAATTGCTCACTAGGTTTTTCATTGTTTGCCATTTTAAACTTATTACGAAT GTCCATAAGAACAATTAGAATAATCGAGCCTCTGTAATCCATTGCAGCAATGCTAGTTAGTGGGCTTCATTTTTTGTTTA TATAATGAAGGAAGACAGATAAGAAAGAACCAGTGCATATGTGGAAGTTCGTTCGGTTAAGTTTTTTATTGATTTTCCTC CAAGCTATTACCGGCAGAGTGCTGATTTAGTCCTCATCTGGGTTCCTTTTGATAGCCATTCTTTGTTCTTCATAAAGCGT CAACCGGAAGAAAAGATAGAACGTCGAATGGGCAGGGGAAATTGCGCAAGAGAAACGAGCCGTCTTCATCGTCGCCAAAA TGCGGAAAGAAACTGGAAGGAAGTATGTCTGAAGGAGGTGATCGCCTTTTGTTTGAGCAACAGCAGGTTGAAGCTTTTGA CATTGTTTGGGCAAAGATTGAATCTACCATTAAGGTCCTCTATTTATCCTCCCCCGTGTTTTGTTTCTTACTAATATTGG TTATTGGTTTTGCTGTATGTTCATGTAGAGATTAGACTTTTATTTATCTATTTATTTTGCATTCTTCACCTCAGCATGAT CCAGTAAGAATATTATGAAGAGTCTTCTTTTTATTGCAGGACGTTTTGAGAGATCAAAATGCTAGTGTATTTAACAATAT ACAACAATGGGTTCTGGAGTGCTTCAATGCTACCAGACTGCTTGGAGAACCTAGCATTGCTGAAGCAACTAGGTCTTTTC CTGTTCTAAATAATACTACTCCCGGGCAGCTGTTCACTGCATTAGTTATTACCAGTAAGTGTTTGTGTTCACATTCTTGG TAAATCCTCTGAAAGCTTTCATTATTGGAAACTGGGAATAATTAAGATTAAGATAGATGTTCATCAATTCTCTCTGCAGC TAAATTGAGTTTCTTTTCATCATCATACTCTATTATGAGGAATGAAAGCTTCCTGAGATTGAATTATAATTGGCAGGAAA CATGGAGTTTGTTGATGATATATTGACATTTGAAGAGCTAAGCCATTGCTTGAAATCCCATGGATGCCATGTGGCTATGC TTTCATCACTGGAGTTTTCGTTAAAAAATGGGATTGCTGGTTGCTTGAAAGCTTTATTGCGAGAGTTTCTAGGGTGTGCT ATTGACGTGGGTGCTTCTGTGAACTTATTATCTATAATTAAATTAATTTTATCTACTTCCACTGTCTCCTTTACTTATTC CTTTTCTTTATGCTAATGGTAAGCAGACAGCCGATATATCAATCTTAGCATCATGGTATAGAGAACAAGACAGCTACAAT AAACCATTGGTGCTGATCATTAATGATTTGGAAAGATGTTGTGGATCAGTCTTAACTGATTTTATCCTGATGTTAAGGTA TGTTTAAGCATCTTCTGTAAGAATGTCTGCATGCATATTTGTAATATGATTTTTCATATGTGCGCCTTGAACATTTTATT TGGTTATTCTATTGCTTAGGTCACCTATGGTTGAGGCCTGTCCATGTACATACAATAACAACAACTAACACCTTTTCCTA GTAGGTGGGGTCGGTTACATGTATTCAATGACTTTATTGTGTTCTGCCCCAAACCATTGAGACCTCACCTTGCATATGTT TATTGCTATTATTTGTTTTCTTGTTTCATTGTATAATTGTGAATTTTAGTTAGATGATGTGAATTGGCTTTCATCTTCTT CCACTTTTTTCTGCCAGTGAATGGGTTGTCAAGGTGCCAATTATCTTAATATTTGGAGTTGCAACAACGGTGGATGCTCC AAGAAACATTCTGCCATCACATGCTCTTGAGCATTTGTGCCTCTCTAAGTTTATGCTTGGAGCACCAGCTGAGAGAATGG ATGCAATTGTTGAAGCTGTTCTTGTGAAACATTGCACCACATTTAATATAGGTTATAAAGTGGCACTCTTCCTTCGAAAC TACTTCATCAACCAGGATGGGACAGTAACATCTTTTATAAGGGCTTTGAAGGTTATTAATATGGTTTTTGCCCTTTTGAT TTACTGACTGTTATCTGTATTATCGTTTTATGAATTCCATACACAGTGATGGGAAGTATGACATGGGCTCTTACATGCCA TATTCTTTTACTAAATCTTTCAGGTGGCATGCTTATTACATTTCTCTATGGAACCTCTGAGTCTCATACATGGGCAAATA CTTGCTGAAGACCAAAAGGTCTCTCTAAAACTCTTCTAATTTTGGAATTGTCTTTCCTGAATTTGCTTTTTCAAATCTGA CTTGCTTACAACTTTTATAGCTTTGAAGTTTACTTTTTTACTATGTATTTAACATTTAGCCCAAATTGTTCTTGTTTTTA GTTAGTTTTGTGTTTCATCTGTGCTTCTCGGGACTTAAATTTACACAGTTCAACATATGGATGCGGGTATTTCATCTAAG GTTCAAAGTGCTGGGTGTTCTTGTTAATTAACATTTTTAGCAATACAAACGTCACTATCTCCTTGGTACTCCATTGATTA ATTGTAATCAAGCCATAATTGATAGACTGGGTCCAATCTATACATGCAATTTTCTCCCAAACACTATTTCAACATATTGA TTGGAGTACTTACTTCCTTCTTCTTCAATCAATACCAATATATGAATCAAATGATCTATCACATTTTGAGTTTTATGGAA TTAAATGGAAGTTCATTAGAATTAGGTCCATGGAGAATTACCTTCATTATTTGTTCATATATTTTATTCATCAGAAACTT GCCTAGAAGTCTTTTTTTGTATTTTTTAATAACTCTTAACATTTTTTTTTCTTTTTTATTATGTTAATGGTTTGTTATAA ATGGGTTCTCAGGAGGGAAAGTCTGCATTTCTGCCTGAAACTATGTTGAAATACATGGATGAACTTCCATCGTATGCAAG GTATTTATTTATGGTGTACAAATTTCCATGTTCTGGTTTAGATTTTCTTAATGGATATGACAATAAATTCACCTTTTGCT TAAAATTATCTAGGAATCAAATGGATGATCAGACTAAAGAGAGCATGGCTAAGGGTTTGTCAGAATTGGTGACAGTGCAG AAGCTTTGGAGCACTGTGGTTCTCGTAAGATTTAGGAATTGCTTTTAAATCCTTGTGCACTTATAGTCCATTCTTATTGG TCAAATTCCTTTTATTTTTAAGGTCGTTTGATAATCTTTTGTATTATAATTGATAAATTGATCAGCGTAGAAATCTAAAC AATCCGATTACTAGCTTTTCAGTACATTATATAATTACTACTGAATAATTTCAAATACAAGAAAAACTAATAAAAAGGGG TACATGCCACCCGATTATAAGGGTCACATTCTTCTTCCCCGTAGAATAACTGACTTCCTCTAGTCCTCTTCAAAGATGTG GTTGCCAAGATGCTAGTCAAAGTGTCAAACTAATGCATTCTTATGAAGATTTGTTATTGGTAGTGGATGCTACCCGTTTG GATCACGAAAAAGAATTATGCACATGACTGGTCCAATGTCGCCTAATAGATACATTTGGTTGAGAAAAGGTATTCTCACG TACTGACAGTGTTTGGAAATTTGTGTAGTTTAGAATATGCATCCTCATCTTTGCTGTATCATCATTGTGAATTTCACACA TCAGAGTTTAGGTTTTCTAGGGTAATCATGGATCGAAAAGGGAAGATTGAAGGTTCATCATGTTTATGTGAGGTAAGGGG AGCTGTAGGATTGTGGCTTTAGGTTGAATTGATGGCTGTTTGGATACTATGAATGATACCTGGGGGATTAATGTTTTGGG ATTTGACCAGTTAGGGAAAAGGAAGAATGAACTAGGATGCCCTTATATTAATGTATGTCATAGTTTTTTTTGAAAGTGGA AAATATATATATTAATAAATCAAGGTCTGAGAGCATGCCTCTCGAATAGGACAACCAAACGAAACTGATCTGCTACAGAA AAAAGAGCAAATCATCACAAAGACCATGACAAAAATGCCCAAAATGACAAAAGAGATCAAATCTAACAGCCCAGGCAAAA ACCACCCTAAACAACACCAAAGCCCAAAAACGAATAAAAGACCTACGCCAAACACCCTCGAACCCGCAAGCAGGATCAAA CCAAAGAACCAAGCACCCAACACAAAGCACCAAGACCACTAAGAACCTCCATTTAACCTCGGATGGTTAGATATGAGATG ATCAACATAGCTCTGAAGGACTTCATCATCGGTCCCCTTGAAAACAACTCCAACCTGTTTGGCAACTATCAAATCCCTCC TAGATCTCGTCATAATGTATGTATGTCATAGTTATTTGATGATGTTATGATATTACATTATCATGGACGCATCATGTGCC GGCTGCTGATCTTTAATTTTATTTTTGTATGTTTGAGGTTCTTCTCATCTCCCTTTGATGATACTTTTTTCTTGATAATC CCTTTTTTGTGGTGGATGGAAATTCTATTATATTCACCTTGCAAGTAGCTATGCCAGATTGCTAGTGAATTTCATCTGCC TATAAAACGTTGGAAAATGTTCTGTGTTCATTTTGACCTGCCTACTCTGCTAATAAAGTTATTTGGTAATTGGTAGCTCC TTACTTGCCTAAGTGGGAGCTCATGAAACCGATTTTTCCTTTTGTTCAGTGCCTATATGAAGCTGGAAAATATAGCAAAG TGCAATTACTGGATTTGTTGTGTGAAGCACTCAATAAAGATTTGTACCCATTAAGGGATTCAAGTTGTCAGGAGGGGGAT GAAAAAGATAATGGAGTGTCCTTGACAAATGAACCCTGTCAACAATATTCTATCATGCAAAGCAATGGTTTTATTTGCCA GATAGGACGCAAAGTGAGGTAGCTAAGAATATGATACTTTGCTAAACTTAACCATCAACTTGTTAACTATGTCACATGAA TATATTTTTGTTGTTGGTTTGGTTTAATTCATATATGTAGACTTCTGATTCAAAATTATACAGGGACCTCCCAACAGGAA TGCTATATCGGTTGATTGAGAGTTGGGAAAAACTTACTGCAGATATTCCAGAGGTATGTTTACACCTGAACATATGCTTG CTGCGTTAATTTTTTCCAAATTTGATTTTTTTCTTGCGGAGACCATTTTTTTGGAGAAATTTGGATCCAATTGTTGATTA TTGGCATCTTGAATGATGAAGTTACTGTTGCCCTCTTTTTAGTGGCTGTCAACAAGAGTTGAGCACGTTAATGTTGAGAT ATGGTCAAACTAGAGCTGATAAAGGCTTAGGCAATCCTAATTCCTCACCTCATGAGCTAGCTTTTGAGGTTAAGCTAGGC TGAGTCCGCGAGTCCAAATTCTAAGATGGTATTAGACTCTACCATAGATATGGTATTGGACCTGAATTTGTGCCATCATT GTGGAGTGTGGTCCCCTAGCCGCCTTCATTACGGCCATTCCCTGAATTTTCGCCTTCATTGCAGGCCCTTAAGTGCCTTT GTTGCAGCCAAACTAGGCCGCCTACGTTGCAGCCTTCAGTTCTACGAACTCAATGCTCCAGATGTTCAATCTTGAGTGTG ACAGAGTGTTAAGATCCCACATCGCCTAGATATATGGGCATATTAGGACTTATAAAGGTTTCGACAATCCTCACCTCATA GCTAGCTTTTAGGGTTGAGTTAAGCCGAATCCAAATTCTATGATTTAGGGTGCCCCATTGACCTTAGCTTGCTGCAATTA ATTTGCTGTCAAAGAGAATAAATCTTGTTCTGTTCTGTCCATGTGCCAAAGATTTCTTTGGTGAGCTCCTTCTTTCCATA GTGTGTGAACAAATCTGTGTTGATTGTTATATAATTTGTGGGAGTGGCAAGGACGGTAAATGATTTTGCTTTATACATTG TATAACTTGACTGATTGGTTTGTTTTGCTTCCATATCACTAATTCAAAGGTTTCTGGATTGCTTTCATTTATGATATTTC TTCCTTTATCACAAAATATATTGGGTGGTCAGTTATATTTTATACTTAAGATATATTCTAGACGTTAAGGAGTTAATTTA TAAGTTATGTAGGTAATATTTTTGTGATGTAGAGAATAACTGATTTTACGCTTGTGTTTGAAATGACAACTCTAACAATC TTCTATCTGTTTATTTCGTTTTCCCAATTCCTTATTGTAGTCTTTGGGATAGCAAATGCTCAAATTTTCTACAACTTGAT TCCTGGTCAAAGCTAATACTTACCGAATACCAATTTGTTGCAGATTCATCAGAAACTGAAAAAGTTGCAATCTTCAGTAG CACGTGAAGGTGGAAAGAGTCCCCGCAAGAGTTCCAAGGACATTTCCAAGTAAGAAACTACTCCTTGTGCTTTATTATTT CCTTGTAGGTTTCTGGGGGCTATACAGCAAGAATGGGAGGTTAAGGGATCCAAGAACTGAGTTATTAGAAAAGAAAGAAC TACTAGTATTATTGAATCAAGGGGAATTTCCCTTAACAAACTTAGGAGATAGTCTCTGAGGTTCAAACCCAAATAATGAT TAAAGCTGTCTTTATTTTCCGCAAAGACTTCTATATATACTTCTATTCCTAATTAACCCTAACTAATTTCTAACAGACCT ACAGCAGTTTTCCTCTTCTGCCCTTCAAGCACGTTTCTTTTTCTTCTTTGTATAAACGATCCACTCTCTTTTGAGGCATC ATCATCATTCACATTTTATGGAATATTGAACATTTTGGTGTTAAGTTGTGACTTTTCTAACTATTAAATTACAAGGCACA TTTGCTGCTATCAACATTTCCTCATGCTTTGAAGGCATAAACTCATTGATGGGATATACTTATTTTGCCTTTTTCTGGCT GGGTTTTATCAAGTGCCTCTTCTGGGGGGGGGGGGGGGGGGCGTAATTTTGTTGTGTGTGAGAAGGACTGGAAGGTCCTT ACTCCTTAATAGCTGCTGTATCGTCTTTTTCGCTTTAGGTTGTCAAGAAGGATTCCTTGTTTAACACTTGCATAATTTTT TTTCTCTAATGGAGTCTTCTTTTAATTATTTTTTTAATGCATGCATGATTAGGCTTCTAGGTTGTTTTTCCTTTTGCGTT AATTATGGCTAACTATTTATATTTTCAGGAGATATACGTCCAGAGTTTCAGTTAACACCGACAAGGACTCAAGAACATTA AACTCCCAAGCTGGTACATTTCTTGATTATTTAATTAGGTAAGGTTTTGCATTGTAACTGTGTTTCATTTCATGTTTAGG CTGATTGATGAAGGAAAACTAGATACGCAATCTTTTATGCTGAATCTATTATCTATATAATATGTTATTGTCAAATACCT GCCTTATCTGCATAATACTAAATATATAAAAGGAAAGGCATACATTGCTACAAAAAGGGCTTGAGTTTTGATCTTCAATA ACTGAATGGATTGTTTTTGTTGACATCATTATAATGGTTCTATGCAGAGCTTTACTTATTGCCTTCCTCATGCTGTATAG CTTTGCCCAGAAGTATAATAGAAAAACACCCCTTTTATTGTTATGTATTAATCTGGCATTTCCTCGTTGCTGGTTATAAA TTATTGTTAGGAGTTGTTATTAGAACACATGAGTACACAGTACTCGAGTGTATTTTTGCTGACCTCATTGGGTCCTTTAG GGGCAGTTAGCCAGCTGCACAAGTTAGTTATCTAGCTGTTTGTGTTAGTTCTAGTTAGTTAGTAGCTTGTTGTGTAAGCT ACTCCTTCAGCTCTATATTAAGAGAACTTCCTTTGTAAATCTGTTAATCATAATACAATTCAGTTAGATTCCCTCTCCCT CTCTCTCTCTCTCTCTCTCTCTGTACCAGTTCTAAGTTTCTAACAGGAGTCATTCTTTTTCATGGAACAGAAATTTTTTG AGGCCCATTGAAGGAATGCCTTTCCATGAATTTTTCTGCTTCAAGAATGTTGAGAAGCTTCAATTGGTAAGAGATCTATA TTTTTCACTGTACTGAGCTTCCAGTTTACTCACCCAATTACAGTTGGGATTTATTTTGTGGCCTGATATTACTTTTTGAC CCTGCCAGATCATACACTACTCTGACTAACTTATGAATTACTGCAGTTTATCAGAACCTTTCTCTTGTATCACAACTTCT GATTCGTAAATCTTACTTATACGACTAGTACTAGAGTATTAATCCTAATTTGTTTGTTCAGAAATGCAGCTCACTATCAT TTGCTGATAGCCTGGATAGAATGATAATATAAATTTTACAACCATGAAATTGTATTTACTCTGTATTAATGTTTTGAATA ACTCTGCTCTTTTGTTGGCAACATGTTAACTGTATTCGATATTTTCTACACGTACTTGAGAATTCATTTCTTTTCCAAAG AGTTAGATCACCAAAGCTTTTCACTGTTTCCATGCTCATAAGGTTCCATTTGTTGAGAACTGAGATTCCTTAGCTTAATT TAAGCACTGACTTGCCTTGACTACATTTCATTTTTCTTGAGCATGTTTGATGCATCATGAATGAGACAGAGGTACAGAAT GTCCATCTATTTTCACCCTTTTGAAAATGGGTATTTTGGGTCCAGATCTGTATTTAAACTGCAAATAATAAGATTCTATT CCTGCACAGATTTGAAGTTCTTTAGAATCTTTTTAATAAACTTCTTGTTCTTGCTTATTGTAGGTTTTGAATGGGGATCC AAGAAAAAGGATTCAAGTTGATCTGTTGGAGTTCCACAAGATTTTAGGGTGCAGTTGCTGTTACAAGAGTGGCAATGCCC TATTGTCATCCTGGCATGATTCCTCAATTATGTAAGTGTGTGCGTGTGTAATAAAGTGCTTGCTTATGGCATGCTAAAAA CTTGTTACTTTTCTTTCTTGGGAGGGTGGGAGTTCGTTCCCAAGTTCAATCAAATCCTATTCCTTCTTACTTACATACTA CTGACTTTATAAATCTCTTCTATGTCTTGCTTGGTACTTAGTGGTTGACTTTATTTAACCTGTTCTGCTGTCTTGTATAT ATGCCTAAATCATGGATATAGAGAGTATGCTTAGACCAACATGGAACTGAGATTTCTTTCATTCAGCTTTGAAGTTCCTA ATGGAAGGGTGGAATTGATGTTAATATTTTTGTTCAGGTATTCCCTAGGTCAAGAGCATGGAGATCTTATCAATCTTCAT GACTGGTTCCAAGCTTTTAAAACAATTGTTCTTCAAAATACAAATAAAAGGAAACAAAAATCAAAGCAATCCCAGCTCCC AAAGAAGAGAAAGGATATGAATGGATCTGGAAACGAAAATGAAGCATCAATTCAGTATCCTTTATATTTTCTATTTTACA GAGCATCTTTGATAAGCATTAGGCATAACACTTCAGATTTGTGCCATTTATTATTGCATAGACATATGCATTTGAACACG TGAAGAAACTGAAAGATTTGCTTTTTGTTGCGAAATTCTTGATGGAAAAAGTTCAACTTAACAGCTCCATGGCTGAAGTG CATTTGGGTCTGGGGAACTTTAAAAATGTGATCATTTTTGTTAATGTTTGATGAAATATTTGACTGAAAGACCAAGATGA ACACTTTAAAACAGTTTAGCAATTGTGCTGCTTGTTTAAATGAGTGAGCATGACTCAGTTTGAGTGGGTAAGTTAGACTT TTCATTTATATATTTCAGTTTTCTATCTTCTCCATCCTATATTGCAATGCATTTTGGTCAAAATCCTTAACCTTGGTTTG TCACAGAGCACGCTTTTGCAGGGCAATAACAGAGCTACAGATCACTGGGCTTATTAGAATGCCCAGCAAAAGACGCCCAG ATTTTGTACAAAGAGTAGCATTTGGACTCTGAATCCATGTTTCCCTGATTTAATTTCTTCTTTTGGTATGCTAATTTTAT CATTAGAAAAATGTAATATAATATTCTTATATTATCTAATTCATGCTGATTATCTATCTGGATAATTGATACGCCTAATA CAAGACCAAACAGAAAAAGAACTGGAATATACAAACTGTCTGCGTGACATTAAGGTTCTACTTAGAAAATCGCTTCATAC CAGTGTCTTAGCCCTTAGGCCTACTTCTTTTTATCTAAAGAAGAAAAGAGGCTCCTTCACATACAGAAATTCTATATTAT TTTTCTTTTCCCTTTTCTTTGTCTCAATCAATGCGTCTCTTTGAATTTGTGAACTAATGTATATCAATCAATTTTGAAAG AGTAAAAAGCTATTTGGCACCGGTAATTCATAGACGAAGCAGACTGATGGTTTATATTCAATAAGAACTAGAAACAATGC AATGAAGTTGGAAAAAGAAACATAAATGTTACACGTTCAATCAAGTCGTGCATTATGTGGAGGCGATCCATCGTGTCACA TAGATTTTTTCATAATGAAGTGACAATTGATCATCACAATTAGGCCACATAGCTTTTTCCATTATGAAATGACAAATAGC CAACTAGGCATATCAATGGGGAGAATGTCGTTTACTTATGTGTTGAGATGCAAATTAGGTAGCACATTTCTTGTCCAAGC ATTGTCTCATTCTGATGAGTCTTGGTTTGATTATTATTTACCCTTAAGAATTAAGATTCCAATCTTTGTAATTGCTGATG CTA
CDS sequence (LotjaGi3g1v0543700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCCACCGCTTCATCGAGCGCCGCGTCTCTGGGCGCAACACCCGCAGAGAGAGATCTTCAGCCATTCTTTGTTCTTCA TAAAGCGTCAACCGGAAGAAAAGATAGAACGTCGAATGGGCAGGGGAAATTGCGCAAGAGAAACGAGCCGTCTTCATCGT CGCCAAAATGCGGAAAGAAACTGGAAGGAAGTATGTCTGAAGGAGGTGATCGCCTTTTGTTTGAGCAACAGCAGGTTGAA GCTTTTGACATTGTTTGGGCAAAGATTGAATCTACCATTAAGGACGTTTTGAGAGATCAAAATGCTAGTGTATTTAACAA TATACAACAATGGGTTCTGGAGTGCTTCAATGCTACCAGACTGCTTGGAGAACCTAGCATTGCTGAAGCAACTAGGTCTT TTCCTGTTCTAAATAATACTACTCCCGGGCAGCTGTTCACTGCATTAGTTATTACCAGAAACATGGAGTTTGTTGATGAT ATATTGACATTTGAAGAGCTAAGCCATTGCTTGAAATCCCATGGATGCCATGTGGCTATGCTTTCATCACTGGAGTTTTC GTTAAAAAATGGGATTGCTGGTTGCTTGAAAGCTTTATTGCGAGAGTTTCTAGGGTGTGCTATTGACACAGCCGATATAT CAATCTTAGCATCATGGTATAGAGAACAAGACAGCTACAATAAACCATTGGTGCTGATCATTAATGATTTGGAAAGATGT TGTGGATCAGTCTTAACTGATTTTATCCTGATGTTAAGTGAATGGGTTGTCAAGGTGCCAATTATCTTAATATTTGGAGT TGCAACAACGGTGGATGCTCCAAGAAACATTCTGCCATCACATGCTCTTGAGCATTTGTGCCTCTCTAAGTTTATGCTTG GAGCACCAGCTGAGAGAATGGATGCAATTGTTGAAGCTGTTCTTGTGAAACATTGCACCACATTTAATATAGGTTATAAA GTGGCACTCTTCCTTCGAAACTACTTCATCAACCAGGATGGGACAGTAACATCTTTTATAAGGGCTTTGAAGGTGGCATG CTTATTACATTTCTCTATGGAACCTCTGAGTCTCATACATGGGCAAATACTTGCTGAAGACCAAAAGGAGGGAAAGTCTG CATTTCTGCCTGAAACTATGTTGAAATACATGGATGAACTTCCATCGTATGCAAGGAATCAAATGGATGATCAGACTAAA GAGAGCATGGCTAAGGGTTTGTCAGAATTGGTGACAGTGCAGAAGCTTTGGAGCACTGTGGTTCTCTGCCTATATGAAGC TGGAAAATATAGCAAAGTGCAATTACTGGATTTGTTGTGTGAAGCACTCAATAAAGATTTGTACCCATTAAGGGATTCAA GTTGTCAGGAGGGGGATGAAAAAGATAATGGAGTGTCCTTGACAAATGAACCCTGTCAACAATATTCTATCATGCAAAGC AATGGTTTTATTTGCCAGATAGGACGCAAAGTGAGGGACCTCCCAACAGGAATGCTATATCGGTTGATTGAGAGTTGGGA AAAACTTACTGCAGATATTCCAGAGATTCATCAGAAACTGAAAAAGTTGCAATCTTCAGTAGCACGTGAAGGTGGAAAGA GTCCCCGCAAGAGTTCCAAGGACATTTCCAAGAGATATACGTCCAGAGTTTCAGTTAACACCGACAAGGACTCAAGAACA TTAAACTCCCAAGCTGGTACATTTCTTGATTATTTAATTAGAAATTTTTTGAGGCCCATTGAAGGAATGCCTTTCCATGA ATTTTTCTGCTTCAAGAATGTTGAGAAGCTTCAATTGGTTTTGAATGGGGATCCAAGAAAAAGGATTCAAGTTGATCTGT TGGAGTTCCACAAGATTTTAGGGTGCAGTTGCTGTTACAAGAGTGGCAATGCCCTATTGTCATCCTGGCATGATTCCTCA ATTATGTATTCCCTAGGTCAAGAGCATGGAGATCTTATCAATCTTCATGACTGGTTCCAAGCTTTTAAAACAATTGTTCT TCAAAATACAAATAAAAGGAAACAAAAATCAAAGCAATCCCAGCTCCCAAAGAAGAGAAAGGATATGAATGGATCTGGAA ACGAAAATGAAGCATCAATTCAAGCACGCTTTTGCAGGGCAATAACAGAGCTACAGATCACTGGGCTTATTAGAATGCCC AGCAAAAGACGCCCAGATTTTGTACAAAGAGTAGCATTTGGACTCTGA
Protein sequence (LotjaGi3g1v0543700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MATASSSAASLGATPAERDLQPFFVLHKASTGRKDRTSNGQGKLRKRNEPSSSSPKCGKKLEGSMSEGGDRLLFEQQQVE AFDIVWAKIESTIKDVLRDQNASVFNNIQQWVLECFNATRLLGEPSIAEATRSFPVLNNTTPGQLFTALVITRNMEFVDD ILTFEELSHCLKSHGCHVAMLSSLEFSLKNGIAGCLKALLREFLGCAIDTADISILASWYREQDSYNKPLVLIINDLERC CGSVLTDFILMLSEWVVKVPIILIFGVATTVDAPRNILPSHALEHLCLSKFMLGAPAERMDAIVEAVLVKHCTTFNIGYK VALFLRNYFINQDGTVTSFIRALKVACLLHFSMEPLSLIHGQILAEDQKEGKSAFLPETMLKYMDELPSYARNQMDDQTK ESMAKGLSELVTVQKLWSTVVLCLYEAGKYSKVQLLDLLCEALNKDLYPLRDSSCQEGDEKDNGVSLTNEPCQQYSIMQS NGFICQIGRKVRDLPTGMLYRLIESWEKLTADIPEIHQKLKKLQSSVAREGGKSPRKSSKDISKRYTSRVSVNTDKDSRT LNSQAGTFLDYLIRNFLRPIEGMPFHEFFCFKNVEKLQLVLNGDPRKRIQVDLLEFHKILGCSCCYKSGNALLSSWHDSS IMYSLGQEHGDLINLHDWFQAFKTIVLQNTNKRKQKSKQSQLPKKRKDMNGSGNENEASIQARFCRAITELQITGLIRMP SKRRPDFVQRVAFGL
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 |
|---|---|---|---|---|---|---|
| Phobius | 1 | 1 | 1 | - | – | |
| Phobius | 1 | 18 | 18 | - | – | |
| Phobius | 2 | 13 | 12 | - | – | |
| PANTHER | 7 | 734 | 728 | 1.5E-207 | ||
| Phobius | 14 | 18 | 5 | - | – | |
| Phobius | 19 | 735 | 717 | - | – | |
| MobiDBLite | 25 | 64 | 40 | - | – | |
| MobiDBLite | 29 | 53 | 25 | - | – | |
| Pfam | 75 | 358 | 284 | 1.9E-37 | ||
| MobiDBLite | 524 | 551 | 28 | - | – | |
| Pfam | 606 | 733 | 128 | 1.1E-25 | ||
| MobiDBLite | 671 | 696 | 26 | - | – |
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 | Nuclear origin of replication recognition complex | A multisubunit complex that is located at the replication origins of a chromosome in the nucleus. | ||
| Biological process | DNA replication | The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA. |
Expression pattern of LotjaGi3g1v0543700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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