Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0234200
Transcript ID	LotjaGi2g1v0234200.1
Lotus japonicus genome version	Gifu v1.2
Description	Sodium transporter; TAIR: AT4G10310.1 high-affinity K+ transporter 1; Swiss-Prot: sp\|Q6H501\|HKT6_ORYSJ Probable cation transporter HKT6; TrEMBL-Plants: tr\|A0A072UBQ8\|A0A072UBQ8_MEDTR High-affinity potassium transporter; Found in the gene: LotjaGi2g1v0234200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:69327006..69338905) extracted from Lotus japonicus Gifu genome v1.2.

TATAAATTGTACCCTGCATCCAAAGATCGTTGCCACCAACATTTCCCTGCTGGAAACCAAAACCACAGGGATGAAGACAC TCACTAGTTTTATAAAAATGTTACAAGATATTTGTAGCGCTTCATGTCAAAAAGCCGCCAGTATTAGCAAATCAGGTTCC TCCTTAATGGCATGCTGTGGTCGCTTCATCCTCCGCAGTTCACCAAATCCTCTATGGGTTCAAATTTTCTACTTCACCTC TCTCTCGTTAATGGGGTACGGAGTTCTCAAGGCTCTGCACCCCAGAAAAACAGGGTCAGATTTCACTCCTACTAGCTTAG ACATTTTCTTCACCTCTGTTTCAGCCACCACAGTTTCAAGCATGTCCACGGTTGAAATGGAGGTTTTTTCCAACTCCCAA TTGATCATGATGACCATTTTAATGTTCATAGGTGGTGAGATTTTCACCTCAATGGTGGGTCTCTGTTTCTTTAGGTTCAA GCTCAAAACAGAGCTTCATAAACTTGCTGCTTCTCATAGCCGTCTCAGTTGTCCAAATCAAATGATTTTGGACCAAGTTG AACTAGGTGGTATGGTCACAATCACAAACACTAACTCAGATAGTTCTCATTCTCTACCTAAATTCAATGAGATTGAACAC GAATCTCATGATTATTTGAGTGCCTCAAATAAAAACTTGAGGTACTTATCTATGAAATGCTTGGGTTTTGTAGTTCTAGC TTATCTTCTAGTTGTCCAATTGATAGGGGTTATTGGAATTTCCCTTTACCTGGATTTAATTCACAGTGCTAAAGAGGTGA TACAGAAAAAGGGGTTAAACAAGGTCACATTCTCTGTTTTCACTGTAGTTTCAACTTTTGCTAGCTGTGGTTTTGTTCCA ACAAATGAAAACATGGTTGTTTTTGGGAAGAATTCAGGTCTTCTTCTCATGCTGATTCCTCAGATTCTTCTTGGCAATAC CCTTTTCCCTCCTTGCTTGAGATTTGGGATCTGGGTTCTGGGGAAATTTCATAAGAAGAAAGAGTGTGAGTACCTTCTGA AAAATAGTACACAGGAGGTTGGGTACAAACACTTGCTTCCAAAACAGCACTCTGTATTTTTGGTGGGCACTGTTTTTGGG TTTATTGTGGTTCAAGTTTTGGTTTTTTGTTTGATGGATTGGGATTCAGAAGGTTTGAAGGGGATGAATGAGTACCAGAA ATTCATTGGAGTGTTGTTTCAGAGTGTGAATTCCAGACACACAGGGGAAACCATTGTGGACATCTCAATCCTTTCCCAGG CCATCTTGGTGCTGTTTGTGGTGATGATGTGAGTCTCTCTCTCTCTCACTCCCCACAATATTTACTTTTTGATAAGAGCA TGCTAACAAAACTTACTTAAACATTCTCCTTACAAATACTCTTTTATTAAGATGAAAATTTATGTGGGTATCATGAAATT AGAAGCGAGATTCATATATTAGTGGGTCTCACATAAATTTAAATTCATCGATTAATGAAAAAGTGTTAAAATCGGTGCTA CCAGTATTTTTCTTACTTGAAGTTTTTGATACTTCGATCAGATATGTTGAAAGTAAAGTGTTTTGTTTACTAAAAGTGCG ATTAATACAAATTAAACTTTTCAACTTAAAAATTTAAACATCAAACTTATTTTGAAAATATTTTTTCTAGAGAAAAATAA GACTAAGCTCAAGTGGTAAGAGTTATGAGACATAAGAGTTGGGTGAGATGAAACGTTAATGATCCAGGATTCGAACCCTG AAGATGACCAATTTACATACATTACTAACAACTAACATTTGACTATAAAAACACTTATTCTACTTTTATAAAAAATATAA ATTTTAAAATCGTTAATTTCAATTTTTTTCTACCACAAATTTGAATGTTACTTGATTTATTTCTGCAATATGTAGTGGAA TTATGAGCAAAAAATTTCAAGGTTTTTCTAGCACTAATTAATTTTGGGTCATGCTAAGTTAATTTATACTTGAATTATTG GTTCAGAAACTAAAGTCTATTTATAAAAAAAATACATAAATTCAATACATAAATGGGTTACATTTTTCAATACAAACTTT ATATTTCTTATTCCTTATCATTTTTTCGTGCATAATCCTTAATACTAATAACATTTGCCTTATTTTTTTTCCCGTGAAAA TGGTTTTTAATTTGGGGCTTCAAATTTTAGTTTCAAACAGATGGATGCAAGGGGTAAAACACTTGCTTAATTGAACTTCC AGAATTAATTATCAAAGCCATATTAATTTTAATATTTATATCTTATGATGATTTTATTTTGTTGTAAAGCAAAAGATATC TATTATCTTCACACCTCATTTTTAGGTGTGGAGAGTTGGAAGAAGAGAAATATATGAAAAAAATGAGAGAGAAAATAGAG ATGTGTAGATGAATTAATTGATAAAAAAATAGATAGAAAATAAAGTTGAGAAAGAGTTTTTTTTTTTTTTTTAAAGTAAG TTGAAAAAGAGGTCGATGTATGTATATATCACAAGTGGAGTGAAAAGTAAACCACCACCCTTAGGTTCGGTGGGTGTCTA TCTCTCTTCTTGTAATATTCTCATCTTTGGGTGTTTTTTTTTTTTGTTACAAGAGGAAAATTAACAAAAGAGAAAAGCTA ACTAACTGCATCCAAAAACAGTGATGCATAAATAAAAGAGGGAGGTCTAATCCAAACTTGCAAAGGTGAACCCAATCTTC GGGTGTTTTATGCCATCTATTAATGGTAAGGGGCAGTGCACAACCGCCACTACGTTATCTATAGCTTAAAATCTCTTCAT TCTATTATCATAAATCTTCAGTTTCATTTTCAAAAAATAAACTTCAGTTTTCAAAAAGAAAAAAGTTATAAATATAACTT TAAAAACTGAAAAGACAATAATATAATCAGGTATTCAGGTTCAGGCATGTTACTCTCCTTCTCTATTGAAAAATACTAAC TAAAGAATAATATTTAACTCACAAACTAATTTCATCTCGATAAGGTAGAAATGAGATATATAATAGATGATGTGATAGAA ATAGAAAATAGATAAAAAGTAAAGTGTGTAAAAATGAGATAAAAGAAAAATAGAAGTGTGGATGAATCGTATAATTATAT CTTCACACCTAAAAAATAAGGTGTGGAGAGGTGTAGGAAGATAGAGATAAGAAAAAATGAGAGAGAAAGTAAAGATGCAT GTGACATGTGATTTGATTAATAGAGAAAAGAGAAATAGATAGAAATGAATGTGAAAAAAAAGTGGAAAGGTGTATATATA TCATAACTCAGATGAATCAATACTCTAACTAAATTGATGTCACGTAACTCGCTTGCATGTTCGACATTTGTAAAATGCAT AATTGTGCCATGCTGGCAATAGTTGCAATAATGTGGATCTCACTTATTTCTATTAACAAGCTCATAGCTTAGGTTGACCA TTTAGTCCCATGATATCTATGGTCAGTTTGTCACATTCCTAATCATTTCTAATTTTCAATTACATTGAATTATTTGCATA ATTTGACTTCTCATATGTTGTCTATTTTATAATAAAATAAATTCATTGTGTTATGTATTTATTTAGAAGTTTAAGATAAT ATTACTATTTTTTTCAACTAATTATAAGTATATATTATCCTTATGTATCATTTTTGAAGCAGTATAAATAAATAAATAAT TCAATAAACTTAAAGTTAAAACGTAAAGTATGAAGTTTACAAATTAAATTAAAAAACAAAAATGTTAATTGCATTTAGTA AACTCCTTAGAAGAATAATATATTATCACTTTTGTTTATTTATTTGGGGTATACTACGTATACTCTCTAGAATTGTCAAC TAAAATTATTCCAAATAATAATGACATTATGTAGGAAAAGTCGAATATAATTCTTGCTCATGCATATGTCACTATGCCAC GCGGAATGAAATTGAAAATACTGGAGTACTAACCTTTTCATTGAATAGAATAATAACAAATTTTCTTTACCATTAAATGG TAACACTCAGTTTGAGTGTAAACATCTAAGTAGGGAAGACAACAAATATTAGATGTGATATATAATATGATGTGATTACT CACTTGTTTTTGTTTCTGCCGGTTGATGAAGCTTTCCCCCTGTTTTTGCTGCGTTTTTTTGTTGTTCTTTCCCCCATAAT TACTCACTTTGCTCTATTTTCCTTTTGTCTTTGCTTTTTTTGTTGGAGTACCCCTAATATTTCAAATTTTAATATATATT CTTTGCCTAAAAAATATGATGTGGTAAAAAATTAAGTGTTTCTGAGTTATTGTTGCTGATTGTGGTTTATCAATCGGGAT TTGTAAGTTGAAACTAAATAACAACGAATTTTCTAAGTGTTTGTCCATATGTACTAGGTACCTTCCTCCTTACACCTCTT TCATTCCAATGAAAGATGGTATGCAAGACTCAGATGAGAAGATTCAAAAAAGAAGAGGAAAAGTTGTAGAGAACTTGATA TTCTCTCAACTCTCCTATTTAGTCATATTCATCATCCTCGTGTGCATAACTGAGAGGAAAAAATTGAAGGAGGATCCTCT CAATTTCAACGTCTTGAACATTGTCGTTGAAGTCGTCAGGTTAGGTTTCTTTCAATTTGTTCCAGTTCCAACCTTCCCCA TTCCATTCAAATTTTGGCGAACTCAATTTTTTGATTAACCCAACCATCACATTCAGGTTATTGAAAAGCAATGCATTATT CATTAAAATATTATTTACCCCTCAATATTCTTTTCCTGGATATTGATTGATTAGGCACTTTGATTTTGCTTTCTGTTTTA GTCTTTTAGATACTCCATCTTGTCTTTGTTTTTATATATTAGTTATTATTATTTAATTTTCAATATTGAAAAGTCTTTAT TAGCAATAAATTTGTATTAATATTTATTAAATTTTCAAATTGATCCTTATATTAAAATAAATATTTGCATCCTCCTTTAT CTCTATATTAAAATCTTATCAATTTATTCTGTTTCCACTTTAATTATATTATTAATTTCTCATAAACTTATCTCTCTAAG TTAACAAATTTTCTAAATTTTAATATCTCTTTCATATTAAATATAAGGGTAATTTTTAAAAATATTGAATGATTCCTAAA TACTAGTTCCGTAACCCGTGCGTTGCACGGAAATTTAATGTTGTAATATTTTAATAAATAAATAAGCTATTCTTGTATAA GGCAACCCTGTAAAGATAGATGAAGAGAAAAATGAAATAAATAATTGTAGTTGTAATTGTGTATTGTACATCAAACATTT CCAAAAACTTCCTTAAACACTACATTTACAGTACTGGTCTGTTGTTTGCCCGCCTCATCGAGTATACAAAGTTTAAGACC TTTTCTTGAGCGTACTCTAGAAAGAGCTACATATAACTGACCATGAGTGAAGACGGGCCTCGGAAGGAATAGGCCAACCT GAGATAGTGTTTGTCCTTGGCTCTTGTTTATGGTCATAGCAAAGCATATTGCAATTGGAAACTGTCTTCTTCTGAATTTA ATTGGAAATTTGGAATCAGAAGGAACCAAGTCCATTCTTAAAATGTGCACTTTGTCACTGACATTTGTTCCCGTGATAAC AGTTGCACCAATAAAACGTTCACCAAGTTCATCCACAATTAACCTGGTTCCATTGCATAAACTTGCTGCTTGGTCTATAT TTCTCAAAAGCATGATTGGAGTACCAACTTTCAATAAAAGTTTGTGGTTAGGCATTCCTGAACTTTTAGTGTCGTTCAAA AATTCGGTGGTAAACCACTCACCTTGGATTTCAGAATCTTCATCAGATCGCAAGGCAGAGTCGGAGCTCAGATATTCATG CTCTGGTGCAGCTATCATCCCAAGCATGTATGTGTTTATCATTTCAACAGCCTCTAGTGTAGGGGCCAATATTGCCCTAT CTTGAAAGAACTGAGGGTCTTTCATTTTGTGCGCAAGGTCAGGATATGTATATCTAATCAATTCCATTAATGGGTCAGGA CTATTTGGGATGAGCAGATCTGGCGGGATTTGGACTTCGTACTCTCCTGCTCCGGAATCTGGATGGTCGCCATTTCCAAT TTTAAGAATCCAATCTGCAAAGTCTTTGATTTCTTTTGCTTCATCAGCCGTCTCAGCTGCGGTTAGGCGCATGTTCTTAG TCAATTTCATAACTTTGCAGTGTTTCCACAATGAGGAAGAGTTTACAGTAGATTCGACGATTTCCTGTCTGCTTCCTCTA GTTATTACAGGTAGTATTTGTCTAAAATCACCTCCAAGTATTACTACTTTTCCTCCAAAAGGCTTATGGGCGTTATCTTC ATTCTTCGACCTCATTAAATCTCGGAGTGTAACGTCTAAAGCTTCGAAACAATACTTTTTCAACATTGGAGCTTCATCCC ATATAATAAGACTTGTTTCAAGTAGAAGTTTTGCTCGTAGACTTCCCTGCTTTATATTACATGTCGAGGTCTCTGTAGCA TCTAATGGAATGCAGAATTTAGAATGAGCTGTTCTGCCTCCAGGCAAGAGTAATGATGCTATGCCACTGGAAGCAACGGT AAGAACAATTAGTCCTTTGGATCTAAGTGACGCTGATAAAGTGTTCCACACAAAAGTCTTTCCAGTTCCACCATATCCAT ATAAAAAGTAGAAGCCTCCTGAGTTTGACAACACAGATGTGACAACCCTCTCATATACAGACTTTTGCTCAGGTGTAAGC ATACTAAGCAACTCTTCATATTGTACCTTTAATGCATCTTTGTCATAGTTTAGTTCATCAACAATAAATCTATTGTCAAA TACTTCATCATATTCTGGAGTTGGCAAACATGGGTAATCATTTAATGACCTACCATTTCTTTGAAGCAACTTCTCAATTT CAATGATACATAAAATTTTCAAATCAGCATCTGCGATTCGTAGGCCTACAGTCGAGAATAAAGATTAACAAATTATTTTT AACTGTATCGAATATAACTTATGTTGTTCACAGATAATTCATTTATATTGCGCAGTTTGATTTTTTAAAGTTGTGAATTT CAATTAAATTAAATCCAATCAATAATTAACTTATTATAACAGCATTTTAAATCTTAATAATATAACTTGTAAAATTTCGT ACCTGGATTATGCAATTCTTTTCTTCTATGGTGTAGAATGCCTTCTGATAAGAGTAGCCAACATGATTCCCAAACATCAA TAGGTTTTGAGATTGAATTCATCATCAACATTCTTACAAAGAGTTTCCTCATTTGTTCTCCGGAAGCTAAATCAGAGACT TCTTTAATTGCATCAATATATTCTTTGTCATCTGTTAGCAATCCCAATTGATCGCATGCTTCCTTAAAAGTATCATATGT TACTCCTTTCACTGTTCTGATACTTCTATATGATGTACAACCCTTTTGCATAGTTAGTAGGATTCTCATGTAATATAACT CACCGATGCCTGGAGGGATATACTGTAGTCTGCCAATTTTAAAACCCCTCTTTCTTGGTTTCCAGATTCTATCTTTTTTA TGATAAACAAATCTACTGGGAAATTCAGCATATGTTAGATCCTGCCCTTCTCGGTATTTTTCATTAGCTGCAAACCAAGC CATAAACATTGTGGATTTTGTACCACTCTTTTCTAGAACATCTCCAACGTCTTCGTCATCATTATAGTAAACCAAATATT CATTTGGGAGATGAAAATTTAGTTTTTGCATAGACGGCCATCGTTTGTGTATGGTAAAGCCAAATGTTCTCCAAGCTGCC TCGCACGGAGATAGATAACGGCAATCATAATATTGCTTTACCTCATCCACTGGCTCTTTCGCTTGAGCATCGTTGTCCTT CTGTGAAATTTCAAGCATTGCTCGGTCTGCGCCTTTGTTGATATATTTGAACAAATATTTTATAGCATTGGATTTGTTGC AATACTCCACATTTATGTGAGCTTGATACCTCATAAGGAGAGTGGGATTGTAAGGCACAACATACCTGCAATGTCGGTTA TGGCGAATATAGATTACAATTGTATTAAATAACATATCTGATGTATTTTCCATATTTTCACGGAAAACATATTACATTTG TAAAAAATTGCATACTTGTTATCTATTTCAATGTCTTTTTTCTTGATTACAATTCCTGTTTGCCTTCTTTTATACTGCGG ATAGCCTTCTTCGTCAATCGTTGTGGTGTTTTGAAATTTTTTTGGAAAGAATTTAGTGCACCTACCCTTCTCCATGCATG GTGATTTTTTATTTGCACTACCACACGGTCCATGTATCATGAAGTTAGAAACTACAGCGTGCAATTTGGGATATAACACT GGATCAGGAAGCTCGGCAGAGATGACTTTGTCAATGTCGTCCCCAGTCTTCAACTTATTTTCTCCTTGCAACCAAATCAG TATGTGCGCGTGAGGAAGTCCTCTTTTCTGAAATTCAATTGTATACATACCTAAAAAAACATATTAATGATTAAAAAAAA TTCTGTAACAGCTTCACATATTTCGTAGCTTATTCTAAATTAGAAACATATTTTTCTTTTAAAATAATAACAAAAAAAGT AGAATAATTCAAAAATTTTGGTTGATTAGAGACGTGAAACATGATAACTGAGCAATAAATTAAACAACATAAGTGAGGCA TAGTAATGTAGTGAGAATGTATTACGAACCTGCATCCACTTTTCCAAATAAATGACCATTTTTGAAATCTTTCATTAGCT GATTCACCTTCATCTTAAAAATGCGAACTAACATATCTGGACGCTCATCTGGGCGAGATCCTCTCGACTCAACAAACGAC TTGATTTCTGGCCAATTGGCGTTGCATGTCATAGTTATGAACAAATCTGGATATCCAAATTTCTTGCAAATTGCCATAGC GTCCTGACAATTATTGAACATATATCGTGTGCTTCCCATATATGAAGCTGGGGTGTCGCCCCTAGCTACTGCGTCATGTA ATCCAGAATAAACCTCAGCTCTGATCTTATTTTGATTAAATCTCACCCAATTTAACCGTTGAGATTCTATCATGGTATAT GCATCAACGATAAATTGTTGAAAGAGTCGTCCAGCACGAATGACATTGCCGTATTCAATGCGTCTATCCTGAATACGAAA AGCAACAAAGTCTTTAAGAGTAACTGAGTCTCTTTTGTTATATTGATCCTCCACGACAGGTTCCCTGTATGGGATGTCGT CTTGATAGCCATCTTCTCCATATGGAAATAACAAAGGATACTGCAGGGTGCAAGTGGGGGAAACAGTGGTGGATGTCGTT TTAATCTGTGTGCGCAATATAATCAGGGCTGACCCAAATTCCAAGAGGAATGAAGCAATGGTGGATGGAAAAGTCTGTTA TAAATAATGGATTATCAATATTAGACAACCAACAATCAAGAGGACGAAATCTTTAAAATAAAAATAATAATAGCTGACAA GTAATGAAAGGGAGAATTTGAACTTACGAATTGGACTCCTGAAGCCTCATAAGCCGAAAGTCTAACAACGATTTCAGGAA GTTTTCTCTTATATGTGATAAGAACTCGGCGACCGCTACCCACTTTTGTTATAGTAGGAATGTCTCTGTTGTCAGAGAAA GGAACTAAAGCACGAAGAAACATGAGATTTGCATGATTTGTGACAACAGGCCAACCATGGTACTTAATTTCGTCAAAAGT TTCAGTATAGATAGATATATTAAAAGTGAACTTTCTTATTTGACAAAAAAGTACCCAACAATTGTAATTGAAATTGTAGA ATGAACGGAGGCCAGTCCATCCATCGGTTAGTACAGTATAACCTTCATGAACTTCGAACCTCAAAACTTTCGTCTTTCCC AAAGGGTCCACAGTGTACAATGTCCCATTAGTCTGAAACTTTATCCTCATGGAATCATATTCACTGATCAACCCAAAGTC CTGTAAATCAAAAAGAAAACTTTAATAATACCGTACATAATACAAAATATATAAGACAATTTTCATAAATAATTGTAGGT AAAGTACAAACCTTCCCCATTTGATGTAGAACAACAAAATTCTGCATCTCAATGATAAAAACAAATACAATGCATAGTAA AAAAAATTCGGCCAAAACTTTTGAGTGGGTGTTTGAATTGACATGAGCAAATGAATTTATATAGCATAATATGAGAAAGG GGGGGGGGGAATTTGAAATGAAATAATTTAATTTTTTCAATAAATAAGTCAGTGATTTTAGGGAAAATTAATCATTGACT TATCTTAATAATTTGAAAGAATACACAAATTTACATTTAAAACTTGTGTGTAGTCAATATGAAAGAAGACAAATTGTTCA CGGTAATTTCGAATATGAAAGAAGTCAAATTTAGCTTGGAAAGAAAATTTCGAATAAGAAAATTAATCATTTCATACAGC TCATTTTCTATTTCCATATTTGTTCTCCTGAAATTGAAACCATATTTGGTTTTTACGTGGCATATCAAGTTAGGACTTTT TCCATATTAAACAAAATTTAAAATTTTAATATTTACTTAATATGTGGGCAAAACCGGGTACTAATTAATATTGACAAAAC CATGTATGAATAAAGACAAAACCGTGTGCTATTGACATTTCTAATTAATGATTCAATGATTTCGACCAATCAAAATGCAA GGATTTGGACCAATCAGCTAAGGACATGTGGAAAATAGGAGAAACCAACCAATAGAGCTGGGACATGTGGAAATTAAATA ACAGTACGGCCCACTTTGGTGGATGGGCTTTATATATTATTAAGATTAAAAAATGACATAGATTTAGGAAAAAAACTGAC AAAAATAAATTAATAAGGAACAAATGAAGTAATTTTTAATTATGTGTAAGTATTTTAACAGTCTGCCATATTTTGTTTGC TTTATAATTATATACCAAATTGATTAAGAATGACTATCAAAACTATTACTTAAAACTTAATTAATTTAATGATTATATAT TAATATCAATGCATTATTGATAGAAGTGAAAAATTAGACTGAAATTGAAGTTAGCCAAATCGAATCTCATAAAATAAAAA ATGAAGTTCAATAATGTTGTATTTTATTTGAGACTGTCTTGTTACTTGCCTCACATTAAAAAGAAAATCATCATTTGTCG AATAACTGTGCTGCCTCGTGGTGCATCTTACTTGGTCACAATTCACAAACATGACACGTTATACATAAAATAAAAGATAC CATGATTCAAGAAATATAGACTATAACGTTTGATGCGGCCGAACATGCCCTTTTAAATAAAAAATGGTGAATGAAAAAGA AGTACACACAGCTAGCTAGTTGGATATATATTTAATTTGTTGATCAACAAATTTTTTTTTTGAAACAAATAATGATATTT TCAACATTAATTCTTCTCCTATTTAGTTTTTTTTGGTTACATATATCTCTTATTTAGTTTAGCTCCGCTTGTTTATTTGA ATATTAATAGTTTTAGTCTGCCGTGAACTAATAAAAATCTGGTTTCAGAGTTTCTGAGAAAATTAATTTTAGCATGTAAA GACTATATTGTGATTAACGTGCATTTTGGTTGCATGTGTATGTAAACAGCGCTTATGGGAACGTAGGGTTTACGACAGGA TACAGTTGTGAGAGACAGTTGCATCGAGAGGCAAACTGCCTAAACAAGTCGATTGGATTTGTGGGAAAATGGAGTGATAA GGGGAAGATTATTCTCATTTTTGTCATGTTGTTTGGAAGGCTCAAGAAGTTTAATATGGATGGAGGCAAAGCATGGAAAC TCCTTTGATTAAATAAATATATCATTCTTTTTCATTTGTACTTAATTTCATTTTCATCGATCATTATATTCTCTCCCATT CTCATATCACTGAATTGAGTATGCAATTGTACTGTGCAAAAGCAAAAAGCTTATCTTAGG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0234200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAGACACTCACTAGTTTTATAAAAATGTTACAAGATATTTGTAGCGCTTCATGTCAAAAAGCCGCCAGTATTAGCAA ATCAGGTTCCTCCTTAATGGCATGCTGTGGTCGCTTCATCCTCCGCAGTTCACCAAATCCTCTATGGGTTCAAATTTTCT ACTTCACCTCTCTCTCGTTAATGGGGTACGGAGTTCTCAAGGCTCTGCACCCCAGAAAAACAGGGTCAGATTTCACTCCT ACTAGCTTAGACATTTTCTTCACCTCTGTTTCAGCCACCACAGTTTCAAGCATGTCCACGGTTGAAATGGAGGTTTTTTC CAACTCCCAATTGATCATGATGACCATTTTAATGTTCATAGGTGGTGAGATTTTCACCTCAATGGTGGGTCTCTGTTTCT TTAGGTTCAAGCTCAAAACAGAGCTTCATAAACTTGCTGCTTCTCATAGCCGTCTCAGTTGTCCAAATCAAATGATTTTG GACCAAGTTGAACTAGGTGGTATGGTCACAATCACAAACACTAACTCAGATAGTTCTCATTCTCTACCTAAATTCAATGA GATTGAACACGAATCTCATGATTATTTGAGTGCCTCAAATAAAAACTTGAGGTACTTATCTATGAAATGCTTGGGTTTTG TAGTTCTAGCTTATCTTCTAGTTGTCCAATTGATAGGGGTTATTGGAATTTCCCTTTACCTGGATTTAATTCACAGTGCT AAAGAGGTGATACAGAAAAAGGGGTTAAACAAGGTCACATTCTCTGTTTTCACTGTAGTTTCAACTTTTGCTAGCTGTGG TTTTGTTCCAACAAATGAAAACATGGTTGTTTTTGGGAAGAATTCAGGTCTTCTTCTCATGCTGATTCCTCAGATTCTTC TTGGCAATACCCTTTTCCCTCCTTGCTTGAGATTTGGGATCTGGGTTCTGGGGAAATTTCATAAGAAGAAAGAGTGTGAG TACCTTCTGAAAAATAGTACACAGGAGGTTGGGTACAAACACTTGCTTCCAAAACAGCACTCTGTATTTTTGGTGGGCAC TGTTTTTGGGTTTATTGTGGTTCAAGTTTTGGTTTTTTGTTTGATGGATTGGGATTCAGAAGGTTTGAAGGGGATGAATG AGTACCAGAAATTCATTGGAGTGTTGTTTCAGAGTGTGAATTCCAGACACACAGGGGAAACCATTGTGGACATCTCAATC CTTTCCCAGGCCATCTTGGTGCTGTTTGTGGTGATGATGTACCTTCCTCCTTACACCTCTTTCATTCCAATGAAAGATGG TATGCAAGACTCAGATGAGAAGATTCAAAAAAGAAGAGGAAAAGTTGTAGAGAACTTGATATTCTCTCAACTCTCCTATT TAGTCATATTCATCATCCTCGTGTGCATAACTGAGAGGAAAAAATTGAAGGAGGATCCTCTCAATTTCAACGTCTTGAAC ATTGTCGTTGAAGTCGTCAGCGCTTATGGGAACGTAGGGTTTACGACAGGATACAGTTGTGAGAGACAGTTGCATCGAGA GGCAAACTGCCTAAACAAGTCGATTGGATTTGTGGGAAAATGGAGTGATAAGGGGAAGATTATTCTCATTTTTGTCATGT TGTTTGGAAGGCTCAAGAAGTTTAATATGGATGGAGGCAAAGCATGGAAACTCCTTTGA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0234200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKTLTSFIKMLQDICSASCQKAASISKSGSSLMACCGRFILRSSPNPLWVQIFYFTSLSLMGYGVLKALHPRKTGSDFTP TSLDIFFTSVSATTVSSMSTVEMEVFSNSQLIMMTILMFIGGEIFTSMVGLCFFRFKLKTELHKLAASHSRLSCPNQMIL DQVELGGMVTITNTNSDSSHSLPKFNEIEHESHDYLSASNKNLRYLSMKCLGFVVLAYLLVVQLIGVIGISLYLDLIHSA KEVIQKKGLNKVTFSVFTVVSTFASCGFVPTNENMVVFGKNSGLLLMLIPQILLGNTLFPPCLRFGIWVLGKFHKKKECE YLLKNSTQEVGYKHLLPKQHSVFLVGTVFGFIVVQVLVFCLMDWDSEGLKGMNEYQKFIGVLFQSVNSRHTGETIVDISI LSQAILVLFVVMMYLPPYTSFIPMKDGMQDSDEKIQKRRGKVVENLIFSQLSYLVIFIILVCITERKKLKEDPLNFNVLN IVVEVVSAYGNVGFTTGYSCERQLHREANCLNKSIGFVGKWSDKGKIILIFVMLFGRLKKFNMDGGKAWKLL

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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	47	47	-	–
PANTHER	PTHR31064:SF24 View details on PTHR31064:SF24 Search for proteins/transripts with this domain View external data on PTHR31064:SF24	5	552	548	7.6E-242	–
PANTHER	PTHR31064 View details on PTHR31064 Search for proteins/transripts with this domain View external data on PTHR31064	5	552	548	7.6E-242	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	48	66	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	48	70	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	67	77	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	78	99	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	100	110	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	111	134	24	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	112	134	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	135	209	75	-	–
Pfam	PF02386 View details on PF02386 Search for proteins/transripts with this domain View external data on PF02386	181	513	333	8.3E-30	IPR003445 Show description in modal box View details on IPR003445 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	210	234	25	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	211	233	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	235	253	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	254	272	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	273	283	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	284	307	24	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	285	307	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	308	341	34	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	340	362	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	342	362	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	363	394	32	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	395	415	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	400	422	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	416	445	30	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	442	464	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	446	464	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	465	552	88	-	–

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:0006812 View details of GO:0006812 AmiGO InterPro QuickGO	Biological process	Cation transport	The directed movement of cations, atoms or small molecules with a net positive charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore.	Subterm of View details of GO:0006811
GO:0008324 View details of GO:0008324 AmiGO InterPro QuickGO	Molecular function	Cation transmembrane transporter activity	Enables the transfer of cation from one side of a membrane to the other.	Subterm of View details of GO:0015075
GO:0055085 View details of GO:0055085 AmiGO InterPro QuickGO	Biological process	Transmembrane transport	The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other.	Subterm of View details of GO:0006810

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0234200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0234200.1