Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0531200
Transcript ID	LotjaGi1g1v0531200.1
Lotus japonicus genome version	Gifu v1.2
Description	Fanconi-associated nuclease 1 like; TAIR: AT1G48360.2 zinc ion binding/nucleic acid binding/hydrolase; Swiss-Prot: sp\|Q5XVJ4\|FAN1_ARATH Fanconi-associated nuclease 1 homolog; TrEMBL-Plants: tr\|G7KUQ4\|G7KUQ4_MEDTR Fanconi-associated nuclease-like protein; Found in the gene: LotjaGi1g1v0531200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:105816603..105826005) extracted from Lotus japonicus Gifu genome v1.2.

GTTTTCATTTCATTTCATTTCATCTCATCTGAGCTCTCTCGAAGACAATGCTGAGCGGCAGAGAAAGCTTGATTCGATTG ATCGGCAAACGCCGTCGCTTCCTTCCTCATCGCCATTCCATCCTCACCGATCCCATTCCCACCCCTCTCCACGCCGTTCA ACCCGAACAACAACAACCGCTGCAACCTCCCCCAGCCGAACACACCCCCCAAAACGACGACGTTCGCTGCCCCATCTGTG GCCGCACGCTTCCCTCCAACAACCGCGACATCAACTCTCACCTCGGTATCTATCTATCTATTAATCTATCTATCGATACA CACACAAACGCACTTTCACTTCAGGTTTAGCGTTTAGGTCATGTTTGGAAGCACTGTAGATTTTCCACTTGGGGAGTAGA AGTGATTCAAGCTACTTCCAGTGGCGTTTGTGAGATGGGAAGTGAAACCAAACATGTTATTAGGGTTTATTCTGATGCCA ATTTTCTGCTTTCAGATTTGTGTCTTTCTCTTTCACAATCAGTAGAAAGAAGTAGTGGAAAGAAACGAAGACTCACCCAA CGCACACTTCTTCAGTTAAACTTCACTCGCCCTCCTAAGGATATCGTTAGCAACGGGGATGCTGCATCACTCGTGCAGAG TCCGGAGGAAGAGGAGGATGACAGGTGTGGAGGAGACTTCACGGAGGTTGAACCCGATGCTGCAATTAGCATCGCCACCA CCTCCTTGAACAATGGGGTGCTAGATCAAGATGATAACTGTTTTGAACACGTGCGAGGCCTGGAAGAAGAGGATGATCAT GGCACGTGTGAAGAAGGAGAATCCACGGAGGTTGATCTTGATTCTGCAATGCCAATTAGCACCCCCGCCGCCACCTCCTC GAACGGTGGGGTGGTTGATGATGATAATTTTTGTGAACCCCACAATTTATACGGATCGAAGCTTCAAACGTTTATAGTTG GTCGAAGATATGCTGATCAAGAGGAAATGTGTGCTGGTGCAGAAGTGTTACTTTTGAGAGACCCTCAAAATGTTAAGGAC CCCAATGCCATAAAGGTTTCTTTTTTTGTTTGTTTTTAATTTATAAAAATTTTTAGAGGCTTATATGAGCTAGTGCTATA TATCTTCCATGTATAACTCTAAGGTACTAAGTTGCTCCTCTTGGTTGGTCCAGGTTGTTTCTGCAGATTCTGGGTGTTCT AAATTTCTAGGTTTTCTCCCGCGTGTGCTAGCTCAGTATCTATCTCCTCTTATTGACAATTACGGCCTTATATTTCAGGT ATATCAAAGTTCAGTGCAATGATGTGTTGTTTATGTGTGCCATCATCATTTTTTATTTGCTTTGTCATTTGCTGATTTGC ACTTGTGTCAAACGAATTAATGATATAGAAGCCACTTGAGAGTCGTGTTTTGCATTGTGTGTTTGTTCTTTCCCAGAAAA TGCTTTTTGGTGTTGTGAACACGGTACTTTGGGAGTTAGCGTTTTGGGTTTGAATTTGATGGGTTTTGACAGAAAATAAA GGAACAATCAATTATCAGTTTGAACGGACACTGATATTTTCCACAAAATTTGCTCTAGGCAGTTGATAATAGGTTAGCAA TTGAGAGACAGAAGAAAGAAACTAGGCCTGATATACATTCAAGATTGGTGGAGTATCCTGCTGTAGTTTCTGAATGTTAT CATTTTAATAAAATCACAGCTTTGTAGGCCTTCTTAGTCTACTTGATTGAGAGTCATAGTCATGAGAGTAGCATTTTGAC TTGATAGTTTTTTATCCTTAAAAATTACCTGATAATCCCTAATTACTAAAAAAATGTATTAAGCTTCTTGATTCAAGTCC TTATACTTTAATTTTTTGGAACTTGTTCTAGGGACATGTCACTTCTGTTCCAAAACATGCTCTTGATGTTGTTCCGATTC AGATTATGTGCCACAGAACATCATATGGTGAATGCAATTATGAAGATGAGACCTTTAAATGCTTATGGACAAATGTTCAG CGTGTTGTTAAATTTGCATTCAAGGATCCTCCTTCATCTGTAAAGTATCATCTGAATTTTTGTCTTATGCTACAAGAGGT GTTAAGAAATAATATTCACCTTCTAACAGAAGACGAGAAAACCTATATGGGTATTAATATTAGTACTCGTGGATTTTATT CTTTAAAAATTTTCTTATCAAATCCTGTAAACTTTAAACGATGTCTCATCCATTGACAGAGTCATTCACTTTACTCTCAA ATGACAGTCAGAGGCTTTTTATTCGGCTATACACAAGAAAAGGTTATTTGAACATTTGATATTTAACTTCTCATTGTATT TATAAAGTCCTTCCCATAGTTATAGCGATTTTCTCTTGTCTGCCCAATTCTTCAATATAAAAGGGAAAGAACTTGTAACA AAGGATGAAATCTAATCTTGTATTTTCGTAAACTGTAGTAAGAAGTTAAAGGCTGTAGAAACCAACGAACGCTTTGAGAG TTTTTGAATCCATCAGCAGTCAGCACCTCAATTTAGGAGGGTCATTAAGATATTATGTGCTATGCATCAAAGGGGTTATA AGACACAGTTATATTCTGCAACATATTCTTGGTTAGTGACTTCTAATATATGCTAATAAAAACTACAAACACTCTGCCTT ATTCTAATTCCCTAAAGACATCTTATATAGTAATGTACCATTTTATTGAAATAAAAATATACATAGCTAGTGCACTATCA TAAAACTTTGCTCTCTTTCTATAGTCCCACCAAAACCTGTGTACCTGATCCAAGGAGGCTACTATAAACATTAATAACAC TGGAATCACAAAAAGCATAGTAAGTTTATATTGTAAGTTAGTTGGTGGGTAGTGTAAAAAAATTAGCAGGCATTTTAGAA TGCGAACAATATTTTACACATTGAAAATACAGTGTTTCATGATATCTGGAAAGTCGCAACATCTCAAATGTTGCTGTGTT TTTCTATATAAATGAAATTCTTGGAGATAGATTTTATTTTTATCCCTGAAATAAAAACAAATACCAATCTGTTGTAGCAT AGGGCTTAATAACTTGGCTGTCCACATTATTGCGAGCTAAATCACCTTTGTCAAATTGGTTTTGATATTAGTTGTCTGCC CTGATGCTCCAAAATCGGTCCTGTACCAGAATACCTACATCACAACTTTAGACATGTGATTGTGAAATTGCCTTTCATTC ATTATTCATGTTACAACAGTACTTCACATCTGTGAAAGATTTTTAGCTGTAGGGCATCTAGGCATGTATAAGAAATTCTT CTATTTTTATCCCAGTAGAAACCTTAGTGCTCCAAGAGTTATAACAAAAATATCTCTTGACTTTCTTGATGTAATATTTT TTGCGCCCAAGTATTGATTTTACTGAACTTGAAAGTACTACTTTTTAGATTATTTTTCATTCTGGAGGTAATGTATTTTT CATATTGGGCTCTTATGAAGGACCTTGGTTTCGCATGTCTAGTATATCATATCCTGAAATAATGGATGCTCAAAGGGCCG CCAAGGAACTTGCTGGTAATTTAATATAATTAGCTAGGTATATTTTTTCTCCCAGCAAATATAATTGGCTTTCTTACTGG CAAACCTTCTTATCGCTACCTTATGGCCTGTCACTTTGGTTTCTTTATATTGCAGAGAAAGAGTACATACATTCTGTTGA AGATGGAATTCAACTTTGTGAAGATGACATGAATGATATATTGAATGTGCTCACTGTCTCTGAACTGCGAGAAATTTGGT GCCTTTTGCTTAAAAAGGTCGGAATCAACCCCTAGTTTTAGGGCCAATAGTTTAATTTCAAATCAAACCTCATCATGAAT GGATTTCTGTAGTTTTGTGAATAATTCTTTTATAGTATAGCAGTTGGTCTTACTTGTGTGCAAGATTGCATGCTTCATGA ATTAATAATCTTGGTATGAATATCCCTTATTATGAAATACTAGCTGTTTCCTTCAATGCACATGAAGTGATATTAACTTG AACATAATGAAATCTATATTAGCTGATGGTTCTAGGTGTTGGAGTGCTTGCTTCCAGAGTAGTTACTGAAGTTGGGCAAT AAAGTGAGCTGATGTTTAGTGCCTAGCCATCATGTTATTTTTATTCCCTTTTTAAAAAAGGAAAGACATCACTTTTTTTT TGTTTTGAAATGGTTGAGTTTCGTGTGTTGTTTTTCTTTTTTGGATAAATGGTTTATTCACAATATCTTGCAATGTAAAA TACAAGATTTATGCTTTACCTTGTTCCTTTAGTTTTGTCCTTCCATCCATATACACTAGTTTGATTCAATTTTTCAAAAC TCATGTCAATATTTCCGATTACTTCTTTTATTATTTAGGGGAGCCTGATCATGTATGTCTGTCATATCATAAGTGAGTGG AGCATTTTGGATGGATCCTTCTAAATTTGGTTGCATCCATAGTAAATGCTCCTAAATTGATGATTGGCTTCTGATGACTA CATAGTATGAGACCTACTGTGGACAGATACGGGCCAAACAATTGACATTCCATTGTGTTTCTCTATATAATATAAGTTTT AATAAAAGTAGTCATAACTCATAAGGCATAGGTAATGCATGTCATACATACATGTTATTTGCTCTGTCTCTCCCTGACAA TTCTCTTATGAGCTATCTATAAAATTTAGTATATTCTATTGATGTTCTAGAATTGTGGTCGTGGGATGAAGAAGCAAGAT CTCATTTCATCTCTTCTTTCTACGCATGCAGGCGTACTCTGGTATCAAACTTTTAGTTGTGTTTTAATAATTTATGGAGG AGCCACTTAATATTTTATTTAATGGCTGGTTGGTTTTTGTTTACAGGGCACACCTAGTAACTATAATTTTGGACAGAACT GGTTCCTGTATTAAGATTTCTTCAAAAGCTGAAACTCTTATCTGGCGTACTGAGGTGACTCTTTGACTTCTGTTGCTTGT GTCAATTGCAGGATTCAATCAATTTGGGTAATATTTTGATCTGATGCAAATGGTATTGCTTTTGCAGCGACTTTTCTTCT TAAATGGAGAACAGGATCTCTCATCCTTTCTACTTGTTGATATGGGGAAAATGAAGTATCCCACTTACAACTGCATAATA TCAGAACCAATTTTCTCAAATCGCAGTAATCTGCTCGCATACGAAGAGGTACACCGTACATGTCTAAGTTCAGATGTAAA TGTAATAGCTGCCTTCTATTACTTCTTCCACATATGACATTTGTTTTCAGGCCATTGAAGTTGCACAGCTTATGGATGAA GCACTTGATGCAAACAGAGATGATGTGGTATTAAGGTGCATAAAGAATGCTGAATCCTATGTATCCACTGCTTTGCCCAT TCAGTACTCAACTTCTGAATCAGCATCTACAATCCGTCAGTTGTTTACAGCATCATATGTATACTCCAAAGTGGTCACAT TGGGAATCTCCTTCCTTGAGCAAGAGCGCAGGTATTGAGGTTCATGGTTTAATCTACTACTTTGTACACTTTTTAAAGGA TATTCTTTGAAAATTATAGCAGAAACATCTTGACCTTGTATAATATTGGTATTATTAAAATCCAGTTATAGAAAGGATGG CCCAAAATTAATGGGGAAAATGGATTACAAGAAATTAAAGCAAATTATCACCAAACTATTTGTATATTGTTTCAATCACT TGATGCCAATTTCCAAGTCTATACACATACTTGAAATAAGTTGACGATCGGGCACAAAAGATCTTAGATTCTTTCAGAAA TGACCATACCCTGCACTATAAATGCCCTTATTTGGTTGTGATTGTGAAATAACTTAAAACTTATGGCTAAGATAGATGAT CTGTTGCTTTACATTGTTGAATGTCAAAGATGACCTTCACTCCAATATTACTAGAGTCAAAGATTTTTATTTTTATTTAC ATTTTGTCATTGGGTTATTGACTGCAGTTTTGCATAACATATGACTACCCCAAAAGGGATCCTCTGTAGTCGATTTACCT CCAATAATCAAGTAAAGGATGAAGCTCAAACATAGTCTTCCTTTACTCACTAGATACTAGATAGGGTTGCACACTCAAAT CACCAAAATTCACCATATCGAATAATTGACAATAACTCTTGAAAGTTGAAACCATCAAATGTGACTCCTCAATATCCAAT GGATTTATTAATTTTTCTCTGACAAATCAGACATTATTGCTTTTTCCCCCACTAGTTGATATTACCTCTTTGAGATCCAA GACTGTGACCGTCCATTACATTCTCTCTCCTTATTCTTTATGCAATGATGGCTGTGATTTATTTACCCCAGAATGAAAGG GTGGAGATAGATATGACTACCCTAGTAATACGAGTACCTTTGCTGCTTTTCATCCTTCAACCTGATTGTTTTATTTATTT GTCCATGTTTATCGATTGAATTAGTTTCTCATGTAAAAGATGCTGAACTCTAGATTACACCAGGCTTGTTAATAGCGCGC TATAGCGGCGCAATAGCCTATAGCGTAGCACCCTGAGGGTTCACCGCTACTCCACTATTCACCGCTATTTGCGCTACGTT CCGCTATAGCGCCGCAATAGCGCTCTGAATAGCGTTTTTTGGGCTTGCCGCTACACTACGCTATCCGCCATTAACAACCC TGGATTACACTAAGGATTTTACTCTATGATTCTAAATTTAATGCTAAACAAGCATGGTTCTCATAGGCTTCTTTTAATTT ATTGATATGTGATTGCATAAGGTCCAGTCTAACTTATATAATTAATTCTGGGCTTTTCATTCGTATGATATGCTGATGCA GTGCACATTGTTTGTGCTCATGTTGCCCTTGCTTGGTTGCCATTTATGCAGAACTAAGTGGAGCTTATAGTTATATCTAT TTACACAGACATGGTATTATCGTAGCAATTTATCTTGTGCAATGCAAATGTTGAAGAAAAGTGGTCTGTTTCTTAGGTAT AATGAGGCAATTGACTTACTTAAGTGGCTGCAAAATGTTTTTACCTGTGATGTAAAAAGAGGATATTGGACACTGAGGTT ATCAGTTGACTTGGAGCACTTGGGCCGCTTTGAAGAAAGCCTTCAAGTGGCTGAAAATGGGTTGTTGGATCCATGGGTAC GTGCTGGTTCAAGATTGGCACTGCAAAGGCGGGTTCTTCGTTTAGGGAAACCACCAAGACGGTGGAAAGTTCCTAGTTTT TCTAGGTCTGCACTGCGTAAGATCCCTGAGGTAATTACTGTATTGTTTTACGATTACACTATTCCTGCTTCTGATTTGAT AGTTTATTATTCTAGTCAAATTGTTATTATAGATTTGCTTTCAATATCATGGCTTTCTCATTGTGCCTTATATGATGATT CAGATTTATGTTCAAGGTAGACCTCTGAATTCTGAATTGGGAGCAAAGAATAGGTTCTACAATGAAGAGGGAGAGCAATG TGGAGTGGAAGAGCTTGCTTTGCACTATTATGCCGGGGAGGGAGGTGGATGGCAAGGTGTTCATACAGAAAGTGGCATAT GGTTAACCATTTTTGGGCTTCTTATGTGGGATGTAATATACGCTGATGTTCCGAATGTCTTCTACACTAGATTTCAGGTA AGCTTAACTGAATGAATAAGTAAGCTTCCTTCTTACTTAAAGTCTCAAGTTTGTGCTGCATCTATGTTTTCTGCGTGGTT TGTTGTAGTATATATGAAATAGAATTATCTCCAGGTGAAGGATACCTGTAGTCCTAGATGAATTACTTTTGGTGTCCCTC TTCGCCACCCTTTATGTGATTACTTGTACTTCGCCTTTTACTTGATAGGGTTCCAAATAAATCCTCAATGCTGTAGTTTG TATTTGATTATAGACAGCTATATTCATTCATTGCAATTTTACTTTTTAATCCTCTGAATTTACAGAATGCTCCTTTGGAT TTGGGTACTGATAGCTTTTATACAGCAAGAAAGAGTAGCATAGAGTCCCGTCTGCAACAAATTCGCGATGGCATGGCTGA GGAGTTTCTTATTAAGTCATGGGAAACACACATGGGAACAGCTTGTAGAGGAGTTAACTGGGACCGCCATTCTTTAGATG AGCTTCGTGCTGCTGTTACTTGTGTTGGGGGCTCTTGCTTGGCGTCTCTCTGTGAACTTCTTTGTCAAGACTATCGTAGC TGGTCCAGCGGAATGCCTGACTTGCTGTTATGGCGTTTCTGCGGAGAATACAGTGGTGAAGCCAAGCTTGTTGAAGTGAA AGGCCCCCGGGATCGACTCTCTGAACAGCAGCGAGCATGGCTCATGCTGCTAATGGATTGTGGATTTATGATCGAGGTTT GTAAAGTGAAACCTTTGTTAGATCAACAAAAATGATCACAAGCTGCTTAAAATTACTTTAGAAGCACACAGAAGATTACA ATAACAATTTTTTCATCATGAGAAGAGTTCACTTGGCAGAATTTCATCATCAATTCACCAGCATTGTTCTTGGAAAGAAA AGGAACTGCTCTAGACCAAAATTGATTATACTAGATTGAAAATAAGGAGGTCTGCCAGAGGAATTAAAGGAGTTCAAGGA ACTGATGAAGTATTGGAACCCAGACCGAAATATACTGGTCCCACATAATGAAGAAGCTGAAGGGGTTTCTGACACCACAT ACAAATATACTCGAGTCGGGTAGAACCACTATGAGAGTTCTTCAGGCATGCCTAAAGCTCAAACCTCCATACAAAGTGGG ATCAACCCCTTGCTAGCTTATCCGGCCATTCACTTGGTCGCATCTCATTTTTACCGTATAACATCAAATCTGATTTTTAC TTATTTTTTAATTTATTTTTTTAAACTTGAGTTGGATTCTTGAAAGAATGTTGTATTAATTTAAGTACCGAGTGATATTT TATATTTACATACATGTTTAATGTTGAAGTTTTAAGGAAAAATTGAACAAGGGGCAATAACATAATTAAATTTTGATACA ACAAATGTTCAAAATAATTTCAATCAACCCAAAGATGTGTCAATAACATAATTAAATTTTGTTACACGAATGAGATTGAG ATCAACTTAAAATTCCATAGATTACCACTTACCCGTGTTGGTGTCTAATCGAATTTGAAGCATTTTCATCACAGCAGCAT CAATCGCAACATGTAGGAGACGAAGACATCGAGACAAAACTCAAGAGTCCCACGAGGTGTCATCATCCACTCTCATTTCA CATCATATCATGTGACCCTCCATTCATTCATATCACCATCGCAATTCTCAAAGCCATGATACCTAGCTAATGCCCCTTAC TCTTTATTTTTCCTACTACTATTATTATCATTATCATCATAACACTAGACCAAATGTTGGTCAAGTAAAAACAGGGATGT TGATTAAGGATTTGAAAATATGAAAATAACATATCTCGGTGCA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0531200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCTGAGCGGCAGAGAAAGCTTGATTCGATTGATCGGCAAACGCCGTCGCTTCCTTCCTCATCGCCATTCCATCCTCAC CGATCCCATTCCCACCCCTCTCCACGCCGTTCAACCCGAACAACAACAACCGCTGCAACCTCCCCCAGCCGAACACACCC CCCAAAACGACGACGTTCGCTGCCCCATCTGTGGCCGCACGCTTCCCTCCAACAACCGCGACATCAACTCTCACCTCGAT TTGTGTCTTTCTCTTTCACAATCAGTAGAAAGAAGTAGTGGAAAGAAACGAAGACTCACCCAACGCACACTTCTTCAGTT AAACTTCACTCGCCCTCCTAAGGATATCGTTAGCAACGGGGATGCTGCATCACTCGTGCAGAGTCCGGAGGAAGAGGAGG ATGACAGGTGTGGAGGAGACTTCACGGAGGTTGAACCCGATGCTGCAATTAGCATCGCCACCACCTCCTTGAACAATGGG GTGCTAGATCAAGATGATAACTGTTTTGAACACGTGCGAGGCCTGGAAGAAGAGGATGATCATGGCACGTGTGAAGAAGG AGAATCCACGGAGGTTGATCTTGATTCTGCAATGCCAATTAGCACCCCCGCCGCCACCTCCTCGAACGGTGGGGTGGTTG ATGATGATAATTTTTGTGAACCCCACAATTTATACGGATCGAAGCTTCAAACGTTTATAGTTGGTCGAAGATATGCTGAT CAAGAGGAAATGTGTGCTGGTGCAGAAGTGTTACTTTTGAGAGACCCTCAAAATGTTAAGGACCCCAATGCCATAAAGGT TGTTTCTGCAGATTCTGGGTGTTCTAAATTTCTAGGTTTTCTCCCGCGTGTGCTAGCTCAGTATCTATCTCCTCTTATTG ACAATTACGGCCTTATATTTCAGGGACATGTCACTTCTGTTCCAAAACATGCTCTTGATGTTGTTCCGATTCAGATTATG TGCCACAGAACATCATATGGTGAATGCAATTATGAAGATGAGACCTTTAAATGCTTATGGACAAATGTTCAGCGTGTTGT TAAATTTGCATTCAAGGATCCTCCTTCATCTGTAAAGTATCATCTGAATTTTTGTCTTATGCTACAAGAGGTGTTAAGAA ATAATATTCACCTTCTAACAGAAGACGAGAAAACCTATATGGAGTCATTCACTTTACTCTCAAATGACAGTCAGAGGCTT TTTATTCGGCTATACACAAGAAAAGGACCTTGGTTTCGCATGTCTAGTATATCATATCCTGAAATAATGGATGCTCAAAG GGCCGCCAAGGAACTTGCTGAGAAAGAGTACATACATTCTGTTGAAGATGGAATTCAACTTTGTGAAGATGACATGAATG ATATATTGAATGTGCTCACTGTCTCTGAACTGCGAGAAATTTGGTGCCTTTTGCTTAAAAAGAATTGTGGTCGTGGGATG AAGAAGCAAGATCTCATTTCATCTCTTCTTTCTACGCATGCAGGCGTACTCTGGGCACACCTAGTAACTATAATTTTGGA CAGAACTGGTTCCTGTATTAAGATTTCTTCAAAAGCTGAAACTCTTATCTGGCGTACTGAGCGACTTTTCTTCTTAAATG GAGAACAGGATCTCTCATCCTTTCTACTTGTTGATATGGGGAAAATGAAGTATCCCACTTACAACTGCATAATATCAGAA CCAATTTTCTCAAATCGCAGTAATCTGCTCGCATACGAAGAGGCCATTGAAGTTGCACAGCTTATGGATGAAGCACTTGA TGCAAACAGAGATGATGTGGTATTAAGGTGCATAAAGAATGCTGAATCCTATGTATCCACTGCTTTGCCCATTCAGTACT CAACTTCTGAATCAGCATCTACAATCCGTCAGTTGTTTACAGCATCATATGTATACTCCAAAGTGGTCACATTGGGAATC TCCTTCCTTGAGCAAGAGCGCAGGTATAATGAGGCAATTGACTTACTTAAGTGGCTGCAAAATGTTTTTACCTGTGATGT AAAAAGAGGATATTGGACACTGAGGTTATCAGTTGACTTGGAGCACTTGGGCCGCTTTGAAGAAAGCCTTCAAGTGGCTG AAAATGGGTTGTTGGATCCATGGGTACGTGCTGGTTCAAGATTGGCACTGCAAAGGCGGGTTCTTCGTTTAGGGAAACCA CCAAGACGGTGGAAAGTTCCTAGTTTTTCTAGGTCTGCACTGCGTAAGATCCCTGAGATTTATGTTCAAGGTAGACCTCT GAATTCTGAATTGGGAGCAAAGAATAGGTTCTACAATGAAGAGGGAGAGCAATGTGGAGTGGAAGAGCTTGCTTTGCACT ATTATGCCGGGGAGGGAGGTGGATGGCAAGGTGTTCATACAGAAAGTGGCATATGGTTAACCATTTTTGGGCTTCTTATG TGGGATGTAATATACGCTGATGTTCCGAATGTCTTCTACACTAGATTTCAGAATGCTCCTTTGGATTTGGGTACTGATAG CTTTTATACAGCAAGAAAGAGTAGCATAGAGTCCCGTCTGCAACAAATTCGCGATGGCATGGCTGAGGAGTTTCTTATTA AGTCATGGGAAACACACATGGGAACAGCTTGTAGAGGAGTTAACTGGGACCGCCATTCTTTAGATGAGCTTCGTGCTGCT GTTACTTGTGTTGGGGGCTCTTGCTTGGCGTCTCTCTGTGAACTTCTTTGTCAAGACTATCGTAGCTGGTCCAGCGGAAT GCCTGACTTGCTGTTATGGCGTTTCTGCGGAGAATACAGTGGTGAAGCCAAGCTTGTTGAAGTGAAAGGCCCCCGGGATC GACTCTCTGAACAGCAGCGAGCATGGCTCATGCTGCTAATGGATTGTGGATTTATGATCGAGGTTTGTAAAGTGAAACCT TTGTTAGATCAACAAAAATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0531200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLSGRESLIRLIGKRRRFLPHRHSILTDPIPTPLHAVQPEQQQPLQPPPAEHTPQNDDVRCPICGRTLPSNNRDINSHLD LCLSLSQSVERSSGKKRRLTQRTLLQLNFTRPPKDIVSNGDAASLVQSPEEEEDDRCGGDFTEVEPDAAISIATTSLNNG VLDQDDNCFEHVRGLEEEDDHGTCEEGESTEVDLDSAMPISTPAATSSNGGVVDDDNFCEPHNLYGSKLQTFIVGRRYAD QEEMCAGAEVLLLRDPQNVKDPNAIKVVSADSGCSKFLGFLPRVLAQYLSPLIDNYGLIFQGHVTSVPKHALDVVPIQIM CHRTSYGECNYEDETFKCLWTNVQRVVKFAFKDPPSSVKYHLNFCLMLQEVLRNNIHLLTEDEKTYMESFTLLSNDSQRL FIRLYTRKGPWFRMSSISYPEIMDAQRAAKELAEKEYIHSVEDGIQLCEDDMNDILNVLTVSELREIWCLLLKKNCGRGM KKQDLISSLLSTHAGVLWAHLVTIILDRTGSCIKISSKAETLIWRTERLFFLNGEQDLSSFLLVDMGKMKYPTYNCIISE PIFSNRSNLLAYEEAIEVAQLMDEALDANRDDVVLRCIKNAESYVSTALPIQYSTSESASTIRQLFTASYVYSKVVTLGI SFLEQERRYNEAIDLLKWLQNVFTCDVKRGYWTLRLSVDLEHLGRFEESLQVAENGLLDPWVRAGSRLALQRRVLRLGKP PRRWKVPSFSRSALRKIPEIYVQGRPLNSELGAKNRFYNEEGEQCGVEELALHYYAGEGGGWQGVHTESGIWLTIFGLLM WDVIYADVPNVFYTRFQNAPLDLGTDSFYTARKSSIESRLQQIRDGMAEEFLIKSWETHMGTACRGVNWDRHSLDELRAA VTCVGGSCLASLCELLCQDYRSWSSGMPDLLLWRFCGEYSGEAKLVEVKGPRDRLSEQQRAWLMLLMDCGFMIEVCKVKP LLDQQK

Download Protein Sequence

Domain prediction

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
PANTHER	PTHR15749 View details on PTHR15749 Search for proteins/transripts with this domain View external data on PTHR15749	2	960	959	4.5E-284	IPR033315 Show description in modal box View details on IPR033315 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR15749:SF4 View details on PTHR15749:SF4 Search for proteins/transripts with this domain View external data on PTHR15749:SF4	2	960	959	4.5E-284	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	23	58	36	-	–
Gene3D	G3DSA:3.30.160.60 View details on G3DSA:3.30.160.60 Search for proteins/transripts with this domain View external data on G3DSA:3.30.160.60	55	87	33	2.9E-6	–
ProSiteProfiles	PS51908 View details on PS51908 Search for proteins/transripts with this domain View external data on PS51908	58	87	30	11.635	–
SMART	SM00734 View details on SM00734 Search for proteins/transripts with this domain View external data on SM00734	58	83	26	0.0076	IPR006642 Show description in modal box View details on IPR006642 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	112	138	27	-	–
Gene3D	G3DSA:3.30.70.2330 View details on G3DSA:3.30.70.2330 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.2330	216	334	119	3.2E-13	–
SMART	SM00910 View details on SM00910 Search for proteins/transripts with this domain View external data on SM00910	228	323	96	1.3E-6	IPR014905 Show description in modal box View details on IPR014905 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08797 View details on PF08797 Search for proteins/transripts with this domain View external data on PF08797	229	310	82	5.4E-12	IPR014905 Show description in modal box View details on IPR014905 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00990 View details on SM00990 Search for proteins/transripts with this domain View external data on SM00990	843	960	118	4.8E-21	IPR014883 Show description in modal box View details on IPR014883 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08774 View details on PF08774 Search for proteins/transripts with this domain View external data on PF08774	846	959	114	3.8E-26	IPR014883 Show description in modal box View details on IPR014883 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0003676 View details of GO:0003676 AmiGO InterPro QuickGO	Molecular function	Nucleic acid binding	Interacting selectively and non-covalently with any nucleic acid.	Subterm of View details of GO:0097159 View details of GO:1901363
GO:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
GO:0004518 View details of GO:0004518 AmiGO InterPro QuickGO	Molecular function	Nuclease activity	Catalysis of the hydrolysis of ester linkages within nucleic acids.	Subterm of View details of GO:0016788
GO:0006281 View details of GO:0006281 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006259 View details of GO:0006974
GO:0008270 View details of GO:0008270 AmiGO InterPro QuickGO	Molecular function	Zinc ion binding	Interacting selectively and non-covalently with zinc (Zn) ions.	Subterm of View details of GO:0046914
GO:0016788 View details of GO:0016788 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity, acting on ester bonds	Catalysis of the hydrolysis of any ester bond.	Subterm of View details of GO:0016787
GO:0016818 View details of GO:0016818 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides	Catalysis of the hydrolysis of any acid anhydride which contains phosphorus.	Subterm of View details of GO:0016817
GO:0036297 View details of GO:0036297 AmiGO InterPro QuickGO	Biological process	Interstrand cross-link repair	Removal of a DNA interstrand crosslink (a covalent attachment of DNA bases on opposite strands of the DNA) and restoration of the DNA. DNA interstrand crosslinks occur when both strands of duplex DNA are covalently tethered together (e.g. by an exogenous or endogenous agent), thus preventing the strand unwinding necessary for essential DNA functions such as transcription and replication.	Subterm of View details of GO:0006281

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0531200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0531200.1