Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Bda06g00131 ATGGCTGGGAATGCAACAGTCTCTCCGACTCCAATGAAAGCCACCTCCAATGGCCTGTTTCAAGGAGATAATCCTCTTCATTTTGCTCTACCTCTCCTCATCTTGCAGATATGCCTCGTGGTTATTCTCACTCGTCTTCTTGCTGCTATTTTCCGTCCATTGAGACAGCCTCGGGTGATTGCTGAGATTGTTGGAGGAATATTACTTGGTCCATCAGCTTTGGGTCGAAACAAGAATTATTTAAACACAATCTTCCCAGCAAAAAGCCTCACGGTCTTAGACACTGTAGCCAATCTAGGCCTTCTCTTCTTCCTCTTCCTCGTAGGCCTAGAGTTGGACATAAAATCTCTCCGCCGAACTGGTAAAAAAGCTTTAAGCATAGCGGCGGCAGGAATTACCCTTCCATTTCTTCTGGGAATTGGAACATCTTTTGTGCTCAAAGGAACTATTTCTAAAGGAGTAGATGGACCTCCTTTTCTTGTTTTCATGGGTGTTGCTCTGTCTATCACAGCCTTCCCTGTCTTGGCTCGTATTTTAGCCGAACTCAAGCTTTTAACCACTGATGTGGGCCGAATGGCCATGTCTGCAGCAGCAGTAAACGATGTCGCAGCTTGGATTCTCCTCGCTCTCGCCATTGCCCTTTCTGGAACTGCTCGTTCGCCTCTTGTCTCTCTCTATGTTTTATTATGTGGAAGTACCTTTGTCGGTTTTTGTATATTCTCTTGTCCCCGCATTTTCAAATGGATGGCTCAGCGATGTCCAGAGGGTGAGCCGGTCAATGAATTATTCGTCTGTGCCACTTTAGTCATTGTTTTGGCGGCCGGTTTTATCACAGACATGATCGGAATTCATGCCCTTTTCGGCGCGTTTGTGGTCGGAGTTCTTGTGCCGAAGGAAGGCCCATTTGCAGGGGCTCTAGTGGAAAAAGTTGAGGATCTGGTTTCGGGCTTGTTCCTTCCTTTATACTTTGTTTCAAGTGGTTTGAAGACTAACATAGCTACCATTCAAGGAGCTCAATCATGGGGCCTCCTCGTTTTAGTCATTTTTACAGCTTGCTTTGGGAAAATTGTTGGTACTTTGATTGCTTCCTTCCTCTGCAAGATGCCTTTTGCTGAAGCAGTTGCCCTTGGATTCTTGATGAACACCAAAGGGTTGGTCGAGCTCATTGTCCTCAACATCGGCAAAGACAGAAAGGTACTAAATGATCAAACTTTTGCTGTCATGGTTCTAATGGCGATCTTCACGACCTTCATCACCACTCCGATAGTTATGGCGGTTTATAAACCGGCCAAAAGGGCAAGTAAGGCGGATTACAAGATCAGAACAGTCGCCAGAAAAAACCCGAACACTCAGATGAGGATTTTAGCCTGTTTCCACACCGTTAGAAACATACCCACCATGATTAATCTCATTGAAGCTTCTCGAGGAACTGATAAGAGGGAAGGACTCTGCGTATATGCACTGCACATGCTCGAACTCACAGAGAGAACTTCCGCCATTTTAATGGTCCACAAAGCTAGAAAGAATGGATTGCCGTTCTGGAATAAAGGGCTCCGATCAGACTCCGACCAAGTCATTGTTGCTTTCGAAGCTTTCCGGCAGCTTAGCAGAGTCTCAATTCGTCCGATGACGGCGATATCTTCCTTGTCGGACATGCACGATGATATATGTGGAAGTGCAGAGAGAAAAAGAGCAGCGATCATAATCCTTCCGTATCATAAGCATCAGCGACTCGACGGGACTTTCGAGACTACTAGGCCGGAATTCCGATTAGTTAACCGGAAAGTTTTGGATCATGCTCCCTGCTCCGTTGGAATACTGATCGATCGGGGGCTCGGAGGAGGCAGCCATGTCTCGGCAAGCAATCTTTCGTCAAGCTTGACTGTTCTCTTCTTCGGCGGCAGAGACGACCGCGAAGCTCTCTCTTATGGATCTAGAATGGCGGAGCATCCCGGAATTACTCTCACTCTCGTTCGCTTCCTTGAAAACTCCGAAGCCACCCGAGAATTCGCCGGTTCCGAGATCAATCCAAATTCAACCACCCCTTCAACGGATATGGAGGACGATGAAGCAATTAACGAATTGAAGAAAAAGATCAATACAGCCGGAGAAGAGTCGATCAAGTATGTAGACAGAGTGGTGAGAAACGGAACGGAGACCATAGACGCAATCAAGGAGTTCAGTAAATGCAATCTCATCTTAACCGGAAAGAATCCGGAAGGGAGAGTAGTTTCCGCCATTAACGTGAAGATCGAGCACTCTGAGCTCGGCCCAATCGGAAACGTACTGACCTCGCCGGAATCCTCAACGTCAGCGTCGGTGTTGGTGGTTCAGCATTCAATGGCGGCAACTGGATGTCCGTCGCCGATGAAGACAACCTCAAACGGAGTTTTCCAAGGAGATAATCCTCTCGATTTTGCGCTTCCGCTGGTGATTTTGCAGATATGTTTAGTTCTTTTCGTTACGCGAAGTCTCGCCGTTCTTTTAAAGCCCCTGAGACAGCCTCGGGTCATCGCCGAGGTCGTGGGAGGAATACTGCTTGGGCCATCGGCACTTGGAAGAAACAAGACCTATCTTCAAGCTGTGTTTCCATCTAAGAGTCTTCCTGTCTTAGAAACTATTGCAAACATTGGTTTATTGTTCTTTCTTTTCCTCGCCGGCCTCGAGTTAGATCCCCGATCGCTCCGTCAAACCGGAAAGAAGGCGCTTTGCATTGCCATCGCCGGAATTAGCCTCCCTTTTGCGTTAGGAATCGGTTCGTCGCTTGTCCTCCGGCAAACCATAGCCAAAGCCGAAAATGGCAGCGCATTTCTCGTCTTCATGGGCGTCGCACTTTCGATTACAGCCTTTCCTGTATTGGCTCGGATTCTCGCCGAACTGAAGCTTTTAACGACCAATATCGGTAGGATGGCTATGTCGGCGGCGGCGGTCAACGATGTGGCGGCTTGGATTCTTCTCGCTCTTGCCATTGTTCTCTCTGGTTCTGGCCATTCTCCACTGGTTGCAGTCTGGGTTCTTCTCTCCGGATGCGGGTTCGTCATCGTTTCGATTCTTATTTTCTCCCCGTTGTTCAAATGGATGAATAAACAATGCCCTAGTGGGGAGCATGTCAGAGAGATATTCATATGCATCACCCTAGCTTGTGTTCTAGCCGCTGGATTCGTCACTGATTTTATCGGAATTCACGCGATGTTCGGAGCTTTCGTGGTGGGAATTCTAGTCCCGAAGGACGGATCATTCGCCGGAGCTTTGACGGAAAAAGTGGAAGATCTTGTCTCCGGTCTATTCCTTCCTCTTTACTTTGTATCCAGTGGATTGAAGACTGATATAACGACAATTCAAGGCCTTCAATCTTGGGGGCTCCTGGTTTTAGTCATATTTGCTGCTTGTTTCGGAAAGATTGTCGGCACCGTCGCAGTATCCTTGTCGTGCAAGATTCCGGCACGAGAGGCGTTGACGCTCGGGTTTTTGATGAACAGTAAAGGGTTGGTGGAGCTCATCGTCCTCAACGTCGGGAAAGATCGAAAGGTTTTGAATGATCAGACCTTTGCGATCATGGTTTTAATGGCGGTTTTTACTACTTTCATTACAACTCCTCTCGTCATTTCCGTCTACAAGCCGTCTAGACAGGAGGAAACAGATGATTACAAGCACAGAAAAATCGAGAGAGAAAATCCAGACACAGAGCTCAGGGTCTTGGCCTGCTTTCACAGCGCAGGAAACATCCCGTCGTTGATAAATCTGCTCGAGGCGTCGAGAGGGTCGGAGAAACGCGACGGACTCTGCGTATATGCAATGCACCTGATGGAGCTCTCCGAGAGGTCTTCCGCCATTATAATGGTGCATAAAGCGAGAAAAAATGGCTTACCCTTCTGGATCAAAGGCCGGAGATCTGATTCCGAGCAGGTCATCGTTGCCTTCGAGGCGTACCAGCAACTGAGCCGAGTTTCAATCCGGCCAATGACGGCAATTTCTTCCATTTCGAGCATGCACGAAGACATCTGCACCACCGCCGGAATCAAAAAAGCTTCGATCATAATCCTTCCATATCATAAACACCAGAGAATGGACGGTTCGCTGGAGATCACTCGCAGTAGCTTCCGGTTGGTCAACCAGAAAGTCCTTGATCACGCGCCGTGCTCCGTCGGAATTCTCGTCGATCGTGGACTTGGTGGATCCTTCCATATCCCTTCCAGTCACGTCTCTTATCTTATCACTGTTCTCTTCATCGGCGGTCCTGACGATCGGGAGGCGCTCGCTTATGGAACCCGGATGGCCGAGCATCCCGGCATTAGTTTGACTGTCGTCCGCTTCTCCGTCCATCCCGCCGCGACGGCGGAAACTGTCAGAGTCCATATACATCAAAACTCTTCCTCTTTAACAGGATCAGATGACGGACAAGAAGAATATTTTGAGCAGTACAAGCAAAAAGTAGGCGACAATAATTCGATTACATTCGATGAAAGAGGAGTAAAGAATTATGCAGATATTATTGACGTGATCAAAGGATTAAAGCCCTGCAATCTGTTTCTTGCTGGTAGATTTCCCAGCGGGGAAGTAGCTTTAGCGTTGAACATCCGAAGTGAGTGCCCGGAGCTTGGCCCCGTCGGGAGCTTGTTGACTTCTACAGACATTCCGACGACAGCTTCAGTTCTAGTGCTGCAGCAGAAATCATATGCCTAA 4683 48.15 MAGNATVSPTPMKATSNGLFQGDNPLHFALPLLILQICLVVILTRLLAAIFRPLRQPRVIAEIVGGILLGPSALGRNKNYLNTIFPAKSLTVLDTVANLGLLFFLFLVGLELDIKSLRRTGKKALSIAAAGITLPFLLGIGTSFVLKGTISKGVDGPPFLVFMGVALSITAFPVLARILAELKLLTTDVGRMAMSAAAVNDVAAWILLALAIALSGTARSPLVSLYVLLCGSTFVGFCIFSCPRIFKWMAQRCPEGEPVNELFVCATLVIVLAAGFITDMIGIHALFGAFVVGVLVPKEGPFAGALVEKVEDLVSGLFLPLYFVSSGLKTNIATIQGAQSWGLLVLVIFTACFGKIVGTLIASFLCKMPFAEAVALGFLMNTKGLVELIVLNIGKDRKVLNDQTFAVMVLMAIFTTFITTPIVMAVYKPAKRASKADYKIRTVARKNPNTQMRILACFHTVRNIPTMINLIEASRGTDKREGLCVYALHMLELTERTSAILMVHKARKNGLPFWNKGLRSDSDQVIVAFEAFRQLSRVSIRPMTAISSLSDMHDDICGSAERKRAAIIILPYHKHQRLDGTFETTRPEFRLVNRKVLDHAPCSVGILIDRGLGGGSHVSASNLSSSLTVLFFGGRDDREALSYGSRMAEHPGITLTLVRFLENSEATREFAGSEINPNSTTPSTDMEDDEAINELKKKINTAGEESIKYVDRVVRNGTETIDAIKEFSKCNLILTGKNPEGRVVSAINVKIEHSELGPIGNVLTSPESSTSASVLVVQHSMAATGCPSPMKTTSNGVFQGDNPLDFALPLVILQICLVLFVTRSLAVLLKPLRQPRVIAEVVGGILLGPSALGRNKTYLQAVFPSKSLPVLETIANIGLLFFLFLAGLELDPRSLRQTGKKALCIAIAGISLPFALGIGSSLVLRQTIAKAENGSAFLVFMGVALSITAFPVLARILAELKLLTTNIGRMAMSAAAVNDVAAWILLALAIVLSGSGHSPLVAVWVLLSGCGFVIVSILIFSPLFKWMNKQCPSGEHVREIFICITLACVLAAGFVTDFIGIHAMFGAFVVGILVPKDGSFAGALTEKVEDLVSGLFLPLYFVSSGLKTDITTIQGLQSWGLLVLVIFAACFGKIVGTVAVSLSCKIPAREALTLGFLMNSKGLVELIVLNVGKDRKVLNDQTFAIMVLMAVFTTFITTPLVISVYKPSRQEETDDYKHRKIERENPDTELRVLACFHSAGNIPSLINLLEASRGSEKRDGLCVYAMHLMELSERSSAIIMVHKARKNGLPFWIKGRRSDSEQVIVAFEAYQQLSRVSIRPMTAISSISSMHEDICTTAGIKKASIIILPYHKHQRMDGSLEITRSSFRLVNQKVLDHAPCSVGILVDRGLGGSFHIPSSHVSYLITVLFIGGPDDREALAYGTRMAEHPGISLTVVRFSVHPAATAETVRVHIHQNSSSLTGSDDGQEEYFEQYKQKVGDNNSITFDERGVKNYADIIDVIKGLKPCNLFLAGRFPSGEVALALNIRSECPELGPVGSLLTSTDIPTTASVLVLQQKSYA 1560
       

Gff information

Chromosome Start End Strand Old_gene Gene Num
6 2017833 2024239 - Bda023328.1 Bda06g00131 7713
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Bda06g00131 1560 PANTHER CATION/H + ANTIPORTER 6 779 - -
Bda06g00131 1560 PANTHER CATION/H(+) ANTIPORTER 18 783 1557 - -
Bda06g00131 1560 PANTHER CATION/H(+) ANTIPORTER 18 6 779 - -
Bda06g00131 1560 Pfam Sodium/hydrogen exchanger family 40 422 IPR006153 GO:0006812|GO:0015299|GO:0016021|GO:0055085
Bda06g00131 1560 Pfam Sodium/hydrogen exchanger family 817 1199 IPR006153 GO:0006812|GO:0015299|GO:0016021|GO:0055085
Bda06g00131 1560 Gene3D - 810 1214 IPR038770 -
Bda06g00131 1560 Gene3D - 32 437 IPR038770 -
Bda06g00131 1560 PANTHER CATION/H + ANTIPORTER 783 1557 - -
       

Duplication type information

Select Gene1 Location1 Gene2 Location2 E-value Duplicated-type
Bda01g00243 Bda-Chr1:26611821 Bda06g00131 Bda-Chr6:2017833 7.44E-62 dispersed
Bda06g00131 Bda-Chr6:2017833 Bda07g00029 Bda-Chr7:467471 0 dispersed
Bda06g00131 Bda-Chr6:2017833 Bda03g00840 Bda-Chr3:7189169 0 transposed
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Bda06g00131 - - zju:107430239 1145.95