Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Csa03g00392 ATGCAGTCTTACATCGTTTACTTGGGTTCGGAACATTCCTCGGCTTTGGATCCTTCCTCTTTATCAGAGCATTCCCGACAAGTTACTGCATTACATTATGATTTGTTGGGATCTTTGTTTGGAAGTAAAACGATGGCAGAGGAAGCGATTTTCTACTCCTATACAAGAAGTTTCAATGGTTTCGCTGCCAAACTTGATGACAAAGAAGCTGAAAATCTAGCAAGAAACCCTAAGGTGATATCAGTGTTTGAAAATAAGGCAAGAAAATTGCACACAACGCGTTCTTGGAACTTCCTTGGAGTGGAGAATGATATTGGAATTCCTTCAAATTCCATTTGGAATACTGCAAAGTTTGGTGAAGATGTAATCGTAGCCAACATTGATACAGGTGTTTGGCCAGAATCAAAGAGCTTTAGTGATGAAGGCTATGGACCTGTGCCATCAAAATGGAGAGGCATTTGTCAAACTGACTCCACCTTCCATTGCAATAGAAAGCTTATTGGAGGAAGATATTTCCACAAAGGATATGAAGCCGCCGGAGGAAAACTCAACGCCACTTTACTCACCGTACGCGACCACGACGGCCATGGAACCCACACTCTCTCAACCGCTGCCGGAAACTTTGTCACCGGAGCCAACGTTTTTGGCCATGGTAATGGCACGGCCAAAGGGGGTGCTCCCAAGGCTCGCGCCGTTGCCTACAAGGCCTGCTGGCCTCCACTCTTTGACTCACAATGCTTCGACGCCGATATTCTTGCCGCTTTCGAAGCTGCTATTGCTGATGGAGTCGACGTGCTATCAACTTCCCTTGGTGGAGCAGCCGACGAATATTTCAACGATCCACTTGCTATCGCCGCCTTCCTCGCTGTTCAACGAGGCATTCTGGTCGTCTTCTCTGGTGGGAATTCCGGTCCTTTCCCAATGACCATCGCCAATATTTCCCCTTGGGTATTCACCGTCGCGGCGAGCACCATAGACAGAGAGTTCGCCAGTTATGTGGGGCTTGGAAACAAGAAACACATTAAGGGTTTAAGCCTTTCTTCAGTTCCTTCGTTACCAAAGAAGTTCTTTCCATTGATCAATTCAGTGGATGCAAAATTCAGAAATGTCACCGAATTCCATGCTCAATTTTGCGGCAAGGGGACGCTTGATCCAATGAAAGTAAAGGGAAAGATAGTGATTTGTCAAGTAGGGGAAACCGATGGAGTAGACAAAGGCTTCCAAGCTTCTCGAGCTGGTGCCGTAGGAGTCATTATAGCTAACGATCTCGAAAAAGGAGACGAAATTTTTCCCGAATTACACTTCATTCCCGCTTCCGATATTACAAATACCGATGCACAAATAGTCCAAAACTACCTCAAATCCACCAGAACACCAATGGCTCATTTAACTAGTGTCAAAACATTGTTGAGTGTCAAACCAGCTCCAACCATCGCTACCTTCTCAGCTAGAGGCCCCAACCCAATTGATAGTACCATTCTCAAGCCTGATGTTACAGCCCCTGGTGTGAATATACTGGCTTCTTATCCCACTGGAATTGCTCCGACGTTCTCCCCTGTGGACCGACGGCGTATCCCGTTTAATGTTATCTCTGGTACTTCCATGTCTTGTCCTCACGTTGCCGGTATCGCCGGTCTTATTAAGTCCATTCATCCTAATTGGAGCCCTGCTGCTATCAAATCTGCTATAATGACCACTGTGACGTATTCTTTTGCAGCCAAAACAAGAGGCAACAACAACCAAACAATCCTCGACTCAACAAAACTGAAGGCCACGCCATACGCTTATGGCGCAGGACAAGTAAATCCAAACGATGCGGCAGACCCTGGCCTTGTTTATGATATCACTGTTAATGACTACTTGAACTTCTTGTGTGCTCGAGGCTACAATGCAATGCAAATCAAAAAATTCTATGCTAAGCCATTTAGCTGTGTTAGATCGTTCAAAGTCACGGATCTCAACTACCCGTCGATCTCGGTCGGGGAGCTGAAAATTGGTGCTCCCTTGACAATGAATAGAAGAGTTAAGAATGTGGGAAGTCCAGGAACGTATGTTGCACGGGTCAAAGCGTCACCCGGTGTTGCGGTTTCGATCGAGCCAAGCACATTGGTGTTTAGTAGGGTGGGTGAAGAGAAGGGCTTTAAGGTTGTATTGCAAAACACAGGAAAAGTGAAAAATGGATCAGATGTGTTTGGAACATTGATATGGTCTGATGGGAAGCACTTTTCCTACATTGTTTACTTGGGATCACATACACACGGCTCGAATCCTTCAGCGTTTGATCTCGAAATCGCAACAGAATCTCACTATAGTTTGCTTGGGTCATTGTTAGGAAGCCATGAAGCAGCTAAGGAAGCAATTTTCTATTCCTACAATCGACATATTAATGGCTTTGCAGCCATTCTTGACCAGAAAGTTGTACAAGATTTAGCAAGGAATCCTGCTGTGGTATCTATCCATGAGAACAAGGGAAGAAAACTGCACACAACAAGTTCATGGAAATTTCTTGGAGTAGAGCATGATGATGGAATTCCTCATAACTCTATTTGGAATCGTGCAAGTTTTGGTGAATCTACAATCATTGGCAACCTTGACACAGGCGTTTGGCCAGAATCAAGGAGTTTCAATGATGAAGGATATGGACCTGTTCCCACAAGGAAGCTAATTGGAGCAAAATATTTCAACAAGGGCTATGCAGCTAATGCCGGATCTCTCAATGCAAGCTATGAAACAGCAAGAGACAATGAAGGCCATGGAACACACACTTTATCCACAGCTGGGGGCAATTTCATTTCAGGAGCTAATGTTTTTGGGAATGGCAATGGCACTGCAAAAGGAGGGTCCCCTAAAGCCCTTGTTGCTGCATATAAAGTATGTTGGCCTCAAGTGGATTCTGGTGGTGGTTGTTATGATGCTGATATACTAGCAGCTATGGAAGCTGCTATTAGTGATGGAGTTGATGTTCTCTCACTTTCACTTGGTGGAGGTTCCAAAGATTTTTCCGACGACGTAACGGCTATTGGGGCCTTCCATGCCGTTCAACAAGGTATTGTCGTCGTTTGTTCTGCAGGTAACTCTGGACCAGCTCCAGGGACAGTTGAAAATGTGGCACCTTGGATCATAACTGTGGGGGCTAGCACAATCAATAGAGACTTTACAAGTTTTGTTTCGCTTGGAAACAAGAAGCATATTAAGGGTGCAAGTCTTTCTGATAAAATATTGCCAGAACAGAAATTCTATCCATTGATCGATGCTGTAGATGCAAAAGCCAACAAAGTTTCATCCGATATCGCCCAACTATGTCTGGTGGGCTCCCTTGATCCCGAAAAGGTAAAAGGGAAGATTATAATTTGCCTTAGAGGGGAAAATGCAAGAGCAGACAAAGGTTATGCGGCAGTTAAAGCAGGTGCTGTTGGAATGATTCTTGCTAACGCTGAGGAAAATGGGGATGAAATTATAGCTGATGCTCACCTACTTCCTGTTTCTCATGTAAGCTATACTGATGGCCAATCAATCTACCAATACATCAATTCCACCAAAACTCCAATGGCTTACATGACTCATGTAAGAACAGAGTTAGGAATCAAACCAGCACCAGTTATGGCTTCATTCTCATCAAGAGGTCCTAATACAGTTGAGGAGACAATACTCAAGCCTGATATAACAGCACCTGGTGTCAATATCCTAGCAGCCTACTCTGAAGATGCATCGCCAAGTGGTTCATTCTTTGATAAACGTCGAATTCCATTTAATATAGTATCTGGAACTTCCATGTCATGCCCCCATATTTCTGGTATTGTTGGCCTTCTCAAGACCCTTTATCCCAATTGGAGTCCAGCAGCAATCAAATCAGCAATCATGACCACAGCTGAAAGCAGAGCCAATGACATGCATCCAATACAAAACGGAGGCAACCTTAAAGCCAACTCATTTGCATATGGTGCAGGACATGTCCAACCCAACAGAGCAATGAACCCTGGCCTTGTTTATGACCTTACCACCAAGGACTACATGAATTTCTTATGTGCTCAAGGCTACAACAAATCCCAAATCAGTAAATTCTCAGCTATGTCGTTCGTTTGTTCAAAGTCGTTCAAACTAACAGATTTCAACTACCCATCAATCTCCATACCCGACATGAAATCAGGGGTTGTGACAATCAAAAGAAGAGTTAAGAATGTGGGAAAGCCAAGCACTTACGTTGCTAGAGTGAAAGTACCCCATGGAGTATCAGTTTCGGTTGAACCAAGAACATTAAAGTTTACCAGGATTGATGAAGAGAAAAGTTTCAAAGTTGTAATTGGGAGTGTTGCAAATAACAAGCATAAAGGGTATGTATTTGGATCTTTAATATGGGAAGATGGGAAGCATCATTCTTATATTGTTTATTTGGGATCACATTCACATGGGTTTAATCCTTCTTCAACTGATGCTCAAATTGCAACAGAATCTCACTTTAATTTGCTTGGATCCTTTTTGGGAAGCAATGAAGAAGCTAAGGAAGCAATTTTCTACTCATACAATCGACACATCAATGGCTTTGCAGCTGTGGTAGATCAGAAAGTTGCTGAAGATTTAGCAAAACACCCTGATGTGGTATCAGTACTTGAAAACAAAGGAAGAAAACTTCACACAACAAATTCATGGAAGTTTCTTGGACTTGAGAATAATGGTGCAATTCCTTCAAACTCCCTTTGGAATCTTGCAAGTTTCGGTGAATCTACAATCATTGGCAATCTTGACACAGGTGTTTGGCCAGAATCAAAGAGCTTCAGTGATAAAGAATATGGACCTATCCCATCAAGGTGGAAGGGAAGTTGTGAAGGTGGCTCCAAATTTTATTGCAACAGGAAGCTAATTGGAGCAAGGTATTACAACAAAGGATATGCAGCCATTGTGGGACCTCTAAACTCAAGCTATGAATCAGCAAGGGACCATGAAGGGCATGGAACACACACATTATCAACAGCAGGAGGCCATTTTGTTCCAAATGCCAATTTATTTGGGTATGGTAATGGCACTGCAAAGGGAGGTTCCCCTAAAGCCCTTGTTGCTGCCTATAAAGTTTGTTGGCCACAAGTGCTCTTTTTTGGTGAGTGCTTTGACGCAGACATTCTTGCTGGCTTTGAAGCTGCCATTGGTGATGGAGTTGATGTTCTATCTGTTTCACTTGGTGGAAGTCCATCTGATTTTGCCAAAGATTCAATATCTATAGGATCATTTCATGCAGTTCAAAATGGTATTGTTGTTGTTTGTTCTGCTGGAAACTCTGGCCCAACTCCTGGCTCTGTTTCTAATGTTGCACCATGGATTATAACTGTGGGAGCTAGCACTACTGACCGGCTTTATACGAGTTATGTTGCAATCGGAGACAAGAGGCACTTCAAGGGTGCAAGTGTTTCTGATAAAAAATTGCCAGTTCAGAAGTTCTATCCATTGATCAGTTCTCTAGATGCAAAAGCCAAAAATGTCACGGACAACGATGCGCTACTATGTGAAGAAGGGTCTCTTGATCCTAAAAAGGTAAACGGGAAGATTATAATTTGCCTTAGAGGAGACAATGCAAGAGTGGCCAAAGGTTATGTGGCTGCTAAAGCAGGTGCTGTTGGGATGATTCTTGCTAATGCTGAGGAAAATGGGGATGAAATTTTGGCTGATGCACATTTGCTTCCTGCTTCTCATATAACCTATTCTGATGGCCAATTAGTCTACCAATACATCAACTCTACCAAAATTCCAATGGCTTACATGACACACGTAAGGACAGAGGAAGGAATCAAACCAGCACCAGTTATGGCTTCATTCTCGTCAAGAGGTCCCAACACAGTCGATCCATCAATACTCAAGCCAGATATAACAGCACCAGGTGAGAATATATTAGCAGCTTATAGTAGAGATGCATCACCAACAGGGACAGATTTTGATAAACGTAGAGTGCCATTTAATGTTGAATCTGGGACTTCTATGTCATGCCCTCATGTTTCTGGGATTGTTGGTCTTCTCAAAACACTTTATCCTAAATGGAGTCCTGCTGCTATTAGATCTGCTATCATGACCACAGCTGGAACAAAGGCCAATGACTTGACTCCAATACTAAGCACAAATCAAGAGAAAGCAAATGCATTCGCATATGGTGCAGGCCATGTTAGTCCAAACAGAGCAGCAGATCCAGGCCTTGTTTATGATCTTTCCACTAAGGACTATTTGAATTACTTATGTGCTCAAGGCTACAACACTGCACAAATCAAACAATTCTCCAATGACACTTCATTCGTTTGTTCGAAATCATTCAAACTAACCGATCTCAACTACCCGTCGATCTCGATCCCAATTTTGGAGTATGATGTTGCCGTGAAGATCAAAAGGAAACTGAAGAATGTGGGAAGTCCAGGCACATATGTTGTTCAAGTCAAAGAGCCACTAGGGGTTTCGGTTTCGGTTGAGCCAACTAGTTTGAAGTTCACTGGAATTGATGAAGAGAAGAGTTTTCGAGTTGTATTGAAGAGTTATGAGCCTAATGGTTCTGGTCCAAAGTATCTGTTTGGGAAACTTGAATGGTCCGATGGGAAGCATCGTGTTAGAAGTCCAATTGTAGTGAGATTAGGTGGATGA 6612 43.18 MQSYIVYLGSEHSSALDPSSLSEHSRQVTALHYDLLGSLFGSKTMAEEAIFYSYTRSFNGFAAKLDDKEAENLARNPKVISVFENKARKLHTTRSWNFLGVENDIGIPSNSIWNTAKFGEDVIVANIDTGVWPESKSFSDEGYGPVPSKWRGICQTDSTFHCNRKLIGGRYFHKGYEAAGGKLNATLLTVRDHDGHGTHTLSTAAGNFVTGANVFGHGNGTAKGGAPKARAVAYKACWPPLFDSQCFDADILAAFEAAIADGVDVLSTSLGGAADEYFNDPLAIAAFLAVQRGILVVFSGGNSGPFPMTIANISPWVFTVAASTIDREFASYVGLGNKKHIKGLSLSSVPSLPKKFFPLINSVDAKFRNVTEFHAQFCGKGTLDPMKVKGKIVICQVGETDGVDKGFQASRAGAVGVIIANDLEKGDEIFPELHFIPASDITNTDAQIVQNYLKSTRTPMAHLTSVKTLLSVKPAPTIATFSARGPNPIDSTILKPDVTAPGVNILASYPTGIAPTFSPVDRRRIPFNVISGTSMSCPHVAGIAGLIKSIHPNWSPAAIKSAIMTTVTYSFAAKTRGNNNQTILDSTKLKATPYAYGAGQVNPNDAADPGLVYDITVNDYLNFLCARGYNAMQIKKFYAKPFSCVRSFKVTDLNYPSISVGELKIGAPLTMNRRVKNVGSPGTYVARVKASPGVAVSIEPSTLVFSRVGEEKGFKVVLQNTGKVKNGSDVFGTLIWSDGKHFSYIVYLGSHTHGSNPSAFDLEIATESHYSLLGSLLGSHEAAKEAIFYSYNRHINGFAAILDQKVVQDLARNPAVVSIHENKGRKLHTTSSWKFLGVEHDDGIPHNSIWNRASFGESTIIGNLDTGVWPESRSFNDEGYGPVPTRKLIGAKYFNKGYAANAGSLNASYETARDNEGHGTHTLSTAGGNFISGANVFGNGNGTAKGGSPKALVAAYKVCWPQVDSGGGCYDADILAAMEAAISDGVDVLSLSLGGGSKDFSDDVTAIGAFHAVQQGIVVVCSAGNSGPAPGTVENVAPWIITVGASTINRDFTSFVSLGNKKHIKGASLSDKILPEQKFYPLIDAVDAKANKVSSDIAQLCLVGSLDPEKVKGKIIICLRGENARADKGYAAVKAGAVGMILANAEENGDEIIADAHLLPVSHVSYTDGQSIYQYINSTKTPMAYMTHVRTELGIKPAPVMASFSSRGPNTVEETILKPDITAPGVNILAAYSEDASPSGSFFDKRRIPFNIVSGTSMSCPHISGIVGLLKTLYPNWSPAAIKSAIMTTAESRANDMHPIQNGGNLKANSFAYGAGHVQPNRAMNPGLVYDLTTKDYMNFLCAQGYNKSQISKFSAMSFVCSKSFKLTDFNYPSISIPDMKSGVVTIKRRVKNVGKPSTYVARVKVPHGVSVSVEPRTLKFTRIDEEKSFKVVIGSVANNKHKGYVFGSLIWEDGKHHSYIVYLGSHSHGFNPSSTDAQIATESHFNLLGSFLGSNEEAKEAIFYSYNRHINGFAAVVDQKVAEDLAKHPDVVSVLENKGRKLHTTNSWKFLGLENNGAIPSNSLWNLASFGESTIIGNLDTGVWPESKSFSDKEYGPIPSRWKGSCEGGSKFYCNRKLIGARYYNKGYAAIVGPLNSSYESARDHEGHGTHTLSTAGGHFVPNANLFGYGNGTAKGGSPKALVAAYKVCWPQVLFFGECFDADILAGFEAAIGDGVDVLSVSLGGSPSDFAKDSISIGSFHAVQNGIVVVCSAGNSGPTPGSVSNVAPWIITVGASTTDRLYTSYVAIGDKRHFKGASVSDKKLPVQKFYPLISSLDAKAKNVTDNDALLCEEGSLDPKKVNGKIIICLRGDNARVAKGYVAAKAGAVGMILANAEENGDEILADAHLLPASHITYSDGQLVYQYINSTKIPMAYMTHVRTEEGIKPAPVMASFSSRGPNTVDPSILKPDITAPGENILAAYSRDASPTGTDFDKRRVPFNVESGTSMSCPHVSGIVGLLKTLYPKWSPAAIRSAIMTTAGTKANDLTPILSTNQEKANAFAYGAGHVSPNRAADPGLVYDLSTKDYLNYLCAQGYNTAQIKQFSNDTSFVCSKSFKLTDLNYPSISIPILEYDVAVKIKRKLKNVGSPGTYVVQVKEPLGVSVSVEPTSLKFTGIDEEKSFRVVLKSYEPNGSGPKYLFGKLEWSDGKHRVRSPIVVRLGG* 2204
       

Gff information


Chromosome Start End Strand Old_gene Gene Num
3 3280005 3299082 + CsaV3_3G003920.1 Csa03g00392 521297
       

Annotation information


Select Seq ID Length Analysis Description Start End IPR GO
Csa03g00392 2203 Pfam PA domain 1101 1172 IPR003137 -
Csa03g00392 2203 Pfam PA domain 1832 1901 IPR003137 -
Csa03g00392 2203 Pfam PA domain 376 447 IPR003137 -
Csa03g00392 2203 ProSiteProfiles Serine proteases, subtilase domain profile. 832 1324 - -
Csa03g00392 2203 SUPERFAMILY PA domain 1839 1917 IPR046450 -
Csa03g00392 2203 Pfam Subtilase family 1573 2047 IPR000209 GO:0006508|GO:0008236
Csa03g00392 2203 Gene3D Peptidase S8/S53 domain 121 620 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 CDD PA_subtilisin_like 1056 1184 - -
Csa03g00392 2203 ProSitePatterns Serine proteases, subtilase family, serine active site. 1255 1265 IPR023828 -
Csa03g00392 2203 PANTHER SUBTILISIN-LIKE PROTEASE SBT5.4 1458 2202 - -
Csa03g00392 2203 SUPERFAMILY Subtilisin-like 827 1328 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 Gene3D Peptidase S8 propeptide/proteinase inhibitor I9 1 91 IPR037045 -
Csa03g00392 2203 SUPERFAMILY Subtilisin-like 90 611 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 SUPERFAMILY Subtilisin-like 1543 2059 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 Pfam Subtilase family 119 573 IPR000209 GO:0006508|GO:0008236
Csa03g00392 2203 ProSiteProfiles Serine proteases, subtilase domain profile. 95 607 - -
Csa03g00392 2203 PANTHER SUBTILISIN-LIKE PROTEASE SBT5.4 3 740 - -
Csa03g00392 2203 SUPERFAMILY PA domain 1108 1188 IPR046450 -
Csa03g00392 2203 ProSitePatterns Serine proteases, subtilase family, serine active site. 1986 1996 IPR023828 -
Csa03g00392 2203 ProSitePatterns Serine proteases, subtilase family, serine active site. 532 542 IPR023828 -
Csa03g00392 2203 PANTHER PROPROTEIN CONVERTASE SUBTILISIN/KEXIN 3 740 IPR045051 -
Csa03g00392 2203 Gene3D - 1049 1193 - -
Csa03g00392 2203 Gene3D - 326 470 - -
Csa03g00392 2203 Gene3D - 1780 1924 - -
Csa03g00392 2203 SUPERFAMILY PA domain 377 456 IPR046450 -
Csa03g00392 2203 PANTHER PROPROTEIN CONVERTASE SUBTILISIN/KEXIN 742 1456 IPR045051 -
Csa03g00392 2203 CDD Peptidases_S8_3 89 566 IPR034197 -
Csa03g00392 2203 Gene3D Peptidase S8/S53 domain 1575 2068 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 Pfam Fibronectin type-III domain 1369 1458 IPR041469 -
Csa03g00392 2203 Pfam Fibronectin type-III domain 652 741 IPR041469 -
Csa03g00392 2203 Pfam Fibronectin type-III domain 2101 2199 IPR041469 -
Csa03g00392 2203 Pfam Subtilase family 857 1316 IPR000209 GO:0006508|GO:0008236
Csa03g00392 2203 Gene3D - 624 747 - -
Csa03g00392 2203 Gene3D - 1341 1464 - -
Csa03g00392 2203 Gene3D - 2072 2201 - -
Csa03g00392 2203 CDD PA_subtilisin_like 1786 1915 - -
Csa03g00392 2203 Pfam Peptidase inhibitor I9 3 91 IPR010259 -
Csa03g00392 2203 Pfam Peptidase inhibitor I9 1459 1544 IPR010259 -
Csa03g00392 2203 Pfam Peptidase inhibitor I9 743 828 IPR010259 -
Csa03g00392 2203 PANTHER SUBTILISIN-LIKE PROTEASE SBT5.4 742 1456 - -
Csa03g00392 2203 PANTHER PROPROTEIN CONVERTASE SUBTILISIN/KEXIN 1458 2202 IPR045051 -
Csa03g00392 2203 CDD Peptidases_S8_3 826 1290 IPR034197 -
Csa03g00392 2203 Gene3D Peptidase S8/S53 domain 859 1337 IPR036852 GO:0004252|GO:0006508
Csa03g00392 2203 ProSiteProfiles Serine proteases, subtilase domain profile. 1548 2055 - -
Csa03g00392 2203 CDD Peptidases_S8_3 1542 2021 IPR034197 -
Csa03g00392 2203 PRINTS Subtilisin serine protease family (S8) signature 119 138 IPR015500 -
Csa03g00392 2203 PRINTS Subtilisin serine protease family (S8) signature 192 205 IPR015500 -
Csa03g00392 2203 PRINTS Subtilisin serine protease family (S8) signature 531 547 IPR015500 -
Csa03g00392 2203 CDD PA_subtilisin_like 332 461 - -
       

Duplication type information


Select Gene1 Location1 Gene2 Location2 E-value Duplicated-type
Csa03g00390 Csa-Chr3:3265436 Csa03g00392 Csa-Chr3:3280005 0 dispersed
Csa03g00392 Csa-Chr3:3280005 Csa05g00754 Csa-Chr5:5213871 3.36E-157 dispersed
Csa03g00392 Csa-Chr3:3280005 Csa03g00396 Csa-Chr3:3323657 0 proximal
Csa03g00391 Csa-Chr3:3274637 Csa03g00392 Csa-Chr3:3280005 1.04E-56 tandem
       

Pathway information


Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Csa03g00392 - - csv:101212014 1807.34