Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Mtr2g3415 ATGGCATTTGAGCTCACGGAGAGAAACTCATCTTATGCCATGGCTCTTATGTGCAAGAACTTTGCAAGTAGCAGTGATTTGCCAGTGTTTCCTTACACTAAGAGTTTGTTTCCTTTGCAAACCGAGTTTCAGAGAAAGGAACCTAAACAACTAGCTGAATTGCCCGGTGTGCAATTTCCAAATTTGCCTACTTTGAATGGCTATTTAAAGCACTGGGGAACTCATCCTGTCACTGAAGACAGAACCCTTTATAGTTGGATAAATGAACAAGGGACAGTGATCGGTAAGAGGACATATAGAGAGCAACATTTAAATGCTTCTTGCATTGCAAGTAAGCTCTTAAAAAGCCAAAAGCCAGGTGACAAGGTACTTCTAGTGTACGTTCCCGGTCTAGATTTCATCGATGCATTCTTTGGATGCCTAAGAGCTAAAGTTATACCAGTCCCGGTTATTCCCCCAGATCCCATGCAAAGAAGCGGACAAGCACTTTTAAAAATTGAGAACATTGCCAAGTCATGTGGCATAGTGGCAATTTTATCAACAGTGGCTTATCACTCAGCAGTACGTGCAGGTTTAGTGAAAAACTTTATCACATTGAAAAATGGGAAATCCTCAGCTCGGTGGCCGAGCCTTCCGTGGTTGCACACTGATACTTGGGTTAATAACTCAAGAAGTTATGCTTTGGAGAATCTATATGATGATCAGCGTGAATCTCAGTCTGGTGATATATGTTTCTTGCAGTTTACTTCAGGCTCGACCGGCGATGCTAAAGGAGTCATGATCACCCATGGAGGGCTAATTCACAATGTGAAGCTGATGCAAAGCAGATACAAGAGCACCTCAAGGACAGTACTAGTGAGCTGGCTTCCTCAGTATCATGACATGGGGCTGATAGGAGGACTTTTTACGGCTCTTGTTAGCGGTGGAACCGCCCTTCTGTTTTCACCAATGACATTCATCAAGAAACCACTCTTATGGATAGAAACCATGAGCAAGTATCAAGCAACACACAGTGCTGGACCTAACTTTGCTTTTGAGTTAGTGGTTCGAAGGTTAGAGTCTTCTGACAAGGATAAACTTCAGAATCTAGACCTTTCATCCATGATTTTTCTTATGGTGGCTGCTGAACCAGTGAGACAGAAGACTCTAAAAAGATTTCTTGAGCTAACCGGTCCTTATGGCTTGTCTCAAAAGGCGATGGCTCCTGGATATGGCTTGGCAGAGAATTGCGTGTTTGTCAGTTGCGCATTTGGAGAAGGCAATCCTATTTTTGTTGATTGGCAAGGACGTGTTTGTTGTGGATACATTCATCCAGGGAATGCAGACGTTGACATCAGAATAGTTGATCCCGATGGCATTGAAGAGCTTCAGGAAGATGGAAAAGAAGGAGAAATCTGGATCAGTAGTCCAAGTGCAGGAATAGGATACTGGGGGAAGGAAGAACTGAGTCAGTCAACTTTCCAAAATCAGCTTCCGAACCATCCCGGACGCTTCTACACAAGAACTGGAGACTTGGGAAGGATAATTGATGGGAAGCTATTCATCACTGGAAGAATCAAGGATCTTATCATTGTTGCTGGAAGAAACATCTATTCGTCAGATGTTGAAAAGACGGTAGAGAGTTCGTCTGAACTTCTTCGTCCAGGATGTTGTGCTGTCATTGGTGTCCCTGAAGAAACTTTATCAGCAAAAGGGATTTCCTTGCCAGATGGTTCTGATCAGGTTGGTTTGGTTGTGATTGCAGAACTGAGGGATGGTAAACCAGTTAGCAAAGATGTGGTTGACGATATTCAGACTCGCGTGGCGGAAGAACATGGAGTCAATGTTGCTTCTGTCAAGTTGATCAAGCCTAGAACCATCAGCAAAACAACGTCAGGAAAAATTAGAAGGTTTGAATGTCTCAAACAGTTTGCAGATGGAACACTGAATTTGGTGCCACAACCTGTTTTGACAAAGAAAAAACTGGTAAGGTCGTTCACTACAGGAACATGTAAAGAAGGAAGAACACCCCGAGCACAGCTAGCGAATAGCACACCTATAACTAGTCCAAGAATTGGTAACAAGGAAATTATGGAATTCTTGAAAAGGCTTATTTCTGAGCAGGCTGGAATCCCGGTAAGCAAAATCTCTGTTACAGACAACATGTCAACCTATGGAATGGATTCAATCAGCGTGGTTAAAGCAACTCAAAAACTCTCAGATTTCCTTGGAGTTACAGTTGCAGCTATAGATGTTTTCAGTGCATCCTGCATTCAAGAATTGGTCAACTTCTCAGAGAACCTTCTGCTGAAGTCACAACCTCACCTTTTGAGCAATCCATCCTATGCTCCAGAAGCTGAAACTGAGTCTACTGAATTTATTGTGGATGTGTCCAAGTCTCACCAGTGGAGTATACATTTACTTCAACTCTTGGCACTTGTTTTCATTTCTATCCTTGTGGTTTCTCCTGCTTATCTTTCCATCACTACTTTCCAAATATTCATCGCAAGTTTCGGTAAATCAGCATATGGAATTCCTTTGTCAAACTATATATTTTCACTTGCCTTGGCACCACTTTCTTGGATCCTTTGCATTGCTTCTACATGCATTTGCATTTCATTTTTTGGAAATTCTTTCTTGAGGCCAAACTACGCTCTTACTCCTGAAATGTCCATCTATTCAATTGCCTTTGTCAAATGGTGGGCGCTTTATAAAAGCCAGGAAATTTCTTCCAAAGTTCTGGCTACACACCTCAAAGGAACTGTGTTTCTGAATTACTGGTTTGAGATACTTGGTGCAAGAATTGGTTCCTCAGTTTTGATTGACACGGTTGACATCACAGACCCGTCTCTAGTTTCAATTGGTGATGAAGCTGTCATCTCTGAAGGGGTTTTGGTTCAAAGCCATGAGGTAAAAAATGGAATTCTTAGTCTCCATCCTATAAGGATTGGCCGAAATTCTTCGATTGGACCTTATGCTGTTATTCAAAAAGGAAGTATTATCAAAGAAGGAGCTGAGATACAACCACTACAAAAAGTTGAAGGAGGCCAACATGTTCTTAAAACTGCAAAGCTTAATAATGTTAAAGAGAATGCAGTGTTGCTTGTTACTATGACCAAAACCGAGTCTGATGCTATATACCATTTTCTTGGGATTTATCTTGTTGCCTTTGTTAGTTCCCTTGCTGCAGCTATTACTTACTTCATGTATACATGGTTCTTCCAAAAACCTGCTTCAATCCAAAGCTTTTCATTTGTTTGCATATGTGGTGCCTTTCATTGGATTCCATTCACTATTACTGCATATGCTACCATGTTTTCTGAAGTTCAATCAAATCCCATTGCCTTTGCCATTTCATTTACATGTGCTTACTTGCTTCATGGTCTCATACTCACCTCTCTCACATGTTCTTTGACTCGTTTACTCAAAAGTCAAAAGCAAACACACTTCAAAACCTGGCTTCAAAACCAAATGATTCTTTCCTGCCACCTTAAATTTGCAAAGCTTCTCTCAGGAACAGAAGCCTTCTGCGTATACTTACGCCTTATTGGTGCCAAAATTGGTAAGCATTGTTCCATTAGAGCAATCAATCCAGTTTCAAACCCCGAGTTAATGTTAATTGGTGATGGTGTTCATCTTGGTGACTTTAGCCGCATAATCACTGGTTTCAACTATTCTGATGGATACACTTGTGGAAAAATAGAGGTTCAAGATAACTCGGTTGTAGGTAGTCAAAGCCTAATTCTCCCTGGTTCACTTGTTGAAAAGAATGTCATTCTAGGTGCACTTTCAGTTGCTCCAATGAACTCTATACTACATGAAGGTAGTGTTTACATTGGATCTCAAACCCGAGTTACAATGCGGAACTCGGGAAATGCTAGTTTTGATGAAAGAATAGAGGAGATGGACATTGACTACAAGAAAATAGTTGCAAATTTGGCTGCAAATTTAGCTGTAACAACTATGAATGCTAAAGCAAGATATTTTCATCGCATCGGTGTTAGTGGAAAAGGGCACTTAAAAATATACAACAAACTTGAGGGTATTCCAATGCACAAGATTTTTCACCCTGGGAAAAGCTACCCTATCATAGTAAGACATAGTAATAGCTTGAGTGCTGATGATGATGCAAGAATTGATGCGCGCGGTGCTGCTTTGAGGATATTTTCTGATGAACCTGCTACAGATTCTTCTGATTCTCCTCCTCCTACTCTCATTGACTTAACACTAAAAACAGGAAATGCATTTTACGCTCGAACTCTTGCTGATTTCGCAAGCTGGCTTGTGTGTGGACTTGCTGCAAGGGAAGAACTGGTAAAGAGTGCTCCACATGTTCGTGAAGCAGTGTGGAATTCGCTAAGACATGCTGACTCGTATGCCGAAATGCATTACTACTCAAACTATTGCAGGCTCATGCGGTTCGAAGATGGACAACAAATGTATGTGAAATTCAAGTTAAGGCCTCATGACACCAGCATCAGTGAAGACAAAGGTAAAGTTAATCCGACAGGGATTCTGCCACCAGAGACAGGTGCAATTGCTAGAGATGAAAATGATTCACGTCCTTTGCTTTTCCTTGCTAATGATTTTCAAAACCGTGTTAGTTCCTCCAATGGAGTTTCTTACGTTTTTCAAATTCAAGTAAGACCAGTTCCAGACGATACACAAGGCCGCGAGGTTGCATTGGATTGTACTAAACCATGGGATGAAAATGAATTCCCTTTCACTGATGTTGGAGAGATTAACCTCAATGAAAATATTCCTATGGAAGATTCACAAAAGCTTGAGTTTAATCCTTATCTTAAAAGCAATGAGTTGGATACAATTACAGCTACTTCCAGCACACAAAGTGCTTCAATTGATCACGGCCGTTCATTGATCTATGAGATATGTCAGCACGTGCGCAATAGACAGCCACTCCCAGAAGCTTGGAGAAACCTTGTACAACAATCCAATGTTAAGGTTGACTTGTCCTGCTGTCCAATAGCATCATCAGCTCCATTACCTGAAAAAGAACCATTGCTGAAAAAGAAAGCGACACCAGCATTAACATTGACAAGAACATGGTATCAAACATTCTCAGCACTCTTCATTCAGCCATTACTACAAACTATTTTACCTCACATGGTAATTGGTTTAGCTGCTTTTGTTCCTCTAAACATGGTTGTTTATTTTAAGGATGTCAAAAAACTTCCACTCCATTGGTTACTTCCATTCTTTTGGATTCTCTCAGGTTTTATAGCTGCATTATCATGTGTTATAGCCAAAAGGGTACTTGTAGGAAAAAGGAAACTTGGTGAAACAATACCAATATGGAGTAAAAAAATTGTCTTTGATAGCACATGGCAAGCTATAAGAACATTGGTTGGTGATTACTTCATGGATATAACAAATGGCTCATTTTTGTCTGTGATTTGGATGAAAATGATGGGTGCTGAGATTGAAATGGATGGTGTTTATGTGGATAGTAATGGAGCAATGTTGAACCCTGAAATGGTGAAGATTGAGAGAGGTGGTTGTATTGGAAGAGAGGCATTGTTGTTTGGACATATATATGAAGGTGAAGAAGGTGGAATGGTGAAGTATGGAGAGATTAAGATTGGTGAAGATGGGTTTGTTGGTAGTAGAGCTGTGGTTATGCCTGGTGTGGAAGTTGAGTGTGAAGCAAGTCTTGCTTCTTTGTCTCTTGCCATGAAAGGTGAAATCATTAGGTCAAGATAG 5700 0.4079 MAFELTERNSSYAMALMCKNFASSSDLPVFPYTKSLFPLQTEFQRKEPKQLAELPGVQFPNLPTLNGYLKHWGTHPVTEDRTLYSWINEQGTVIGKRTYREQHLNASCIASKLLKSQKPGDKVLLVYVPGLDFIDAFFGCLRAKVIPVPVIPPDPMQRSGQALLKIENIAKSCGIVAILSTVAYHSAVRAGLVKNFITLKNGKSSARWPSLPWLHTDTWVNNSRSYALENLYDDQRESQSGDICFLQFTSGSTGDAKGVMITHGGLIHNVKLMQSRYKSTSRTVLVSWLPQYHDMGLIGGLFTALVSGGTALLFSPMTFIKKPLLWIETMSKYQATHSAGPNFAFELVVRRLESSDKDKLQNLDLSSMIFLMVAAEPVRQKTLKRFLELTGPYGLSQKAMAPGYGLAENCVFVSCAFGEGNPIFVDWQGRVCCGYIHPGNADVDIRIVDPDGIEELQEDGKEGEIWISSPSAGIGYWGKEELSQSTFQNQLPNHPGRFYTRTGDLGRIIDGKLFITGRIKDLIIVAGRNIYSSDVEKTVESSSELLRPGCCAVIGVPEETLSAKGISLPDGSDQVGLVVIAELRDGKPVSKDVVDDIQTRVAEEHGVNVASVKLIKPRTISKTTSGKIRRFECLKQFADGTLNLVPQPVLTKKKLVRSFTTGTCKEGRTPRAQLANSTPITSPRIGNKEIMEFLKRLISEQAGIPVSKISVTDNMSTYGMDSISVVKATQKLSDFLGVTVAAIDVFSASCIQELVNFSENLLLKSQPHLLSNPSYAPEAETESTEFIVDVSKSHQWSIHLLQLLALVFISILVVSPAYLSITTFQIFIASFGKSAYGIPLSNYIFSLALAPLSWILCIASTCICISFFGNSFLRPNYALTPEMSIYSIAFVKWWALYKSQEISSKVLATHLKGTVFLNYWFEILGARIGSSVLIDTVDITDPSLVSIGDEAVISEGVLVQSHEVKNGILSLHPIRIGRNSSIGPYAVIQKGSIIKEGAEIQPLQKVEGGQHVLKTAKLNNVKENAVLLVTMTKTESDAIYHFLGIYLVAFVSSLAAAITYFMYTWFFQKPASIQSFSFVCICGAFHWIPFTITAYATMFSEVQSNPIAFAISFTCAYLLHGLILTSLTCSLTRLLKSQKQTHFKTWLQNQMILSCHLKFAKLLSGTEAFCVYLRLIGAKIGKHCSIRAINPVSNPELMLIGDGVHLGDFSRIITGFNYSDGYTCGKIEVQDNSVVGSQSLILPGSLVEKNVILGALSVAPMNSILHEGSVYIGSQTRVTMRNSGNASFDERIEEMDIDYKKIVANLAANLAVTTMNAKARYFHRIGVSGKGHLKIYNKLEGIPMHKIFHPGKSYPIIVRHSNSLSADDDARIDARGAALRIFSDEPATDSSDSPPPTLIDLTLKTGNAFYARTLADFASWLVCGLAAREELVKSAPHVREAVWNSLRHADSYAEMHYYSNYCRLMRFEDGQQMYVKFKLRPHDTSISEDKGKVNPTGILPPETGAIARDENDSRPLLFLANDFQNRVSSSNGVSYVFQIQVRPVPDDTQGREVALDCTKPWDENEFPFTDVGEINLNENIPMEDSQKLEFNPYLKSNELDTITATSSTQSASIDHGRSLIYEICQHVRNRQPLPEAWRNLVQQSNVKVDLSCCPIASSAPLPEKEPLLKKKATPALTLTRTWYQTFSALFIQPLLQTILPHMVIGLAAFVPLNMVVYFKDVKKLPLHWLLPFFWILSGFIAALSCVIAKRVLVGKRKLGETIPIWSKKIVFDSTWQAIRTLVGDYFMDITNGSFLSVIWMKMMGAEIEMDGVYVDSNGAMLNPEMVKIERGGCIGREALLFGHIYEGEEGGMVKYGEIKIGEDGFVGSRAVVMPGVEVECEASLASLSLAMKGEIIRSR* 1900
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Mtr2g3415 1899 Gene3D Hexapeptide repeat proteins 1783 1892 - -
Mtr2g3415 1899 ProSiteProfiles catalase family profile. 1276 1899 IPR018028 GO:0004096|GO:0006979|GO:0020037
Mtr2g3415 1899 Pfam AMP-binding enzyme 96 525 IPR000873 -
Mtr2g3415 1899 SUPERFAMILY Acetyl-CoA synthetase-like 64 645 - -
Mtr2g3415 1899 SUPERFAMILY ACP-like 687 768 IPR036736 -
Mtr2g3415 1899 Gene3D - 51 519 IPR042099 -
Mtr2g3415 1899 SMART Phosphopantetheine attachment site 691 762 IPR020806 GO:0031177
Mtr2g3415 1899 Pfam Phosphopantetheine attachment site 693 757 IPR009081 -
Mtr2g3415 1899 PANTHER AMINE OXIDASE 1 1899 - -
Mtr2g3415 1899 ProSitePatterns Phosphopantetheine attachment site. 717 732 IPR006162 -
Mtr2g3415 1899 Gene3D Hexapeptide repeat proteins 896 1013 - -
Mtr2g3415 1899 ProSitePatterns Putative AMP-binding domain signature. 246 257 IPR020845 -
Mtr2g3415 1899 Pfam Catalase 1449 1580 IPR011614 GO:0004096|GO:0020037
Mtr2g3415 1899 SUPERFAMILY Trimeric LpxA-like enzymes 911 1009 IPR011004 -
Mtr2g3415 1899 PANTHER AMP-BINDING ENZYME 1 1899 - -
Mtr2g3415 1899 SUPERFAMILY Heme-dependent catalase-like 1253 1629 IPR020835 GO:0020037
Mtr2g3415 1899 CDD FAAL 77 639 IPR040097 GO:0008610
Mtr2g3415 1899 Gene3D Hexapeptide repeat proteins 1160 1273 - -
Mtr2g3415 1899 ProSiteProfiles Carrier protein (CP) domain profile. 688 762 IPR009081 -
Mtr2g3415 1899 Gene3D - 520 648 IPR045851 -
Mtr2g3415 1899 SUPERFAMILY Trimeric LpxA-like enzymes 1733 1892 IPR011004 -
Mtr2g3415 1899 Gene3D Catalase core domain 1274 1637 - -
Mtr2g3415 1899 Gene3D - 680 761 IPR036736 -
Mtr2g3415 1899 SUPERFAMILY Trimeric LpxA-like enzymes 1171 1279 IPR011004 -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Mtr2g3415 Mtr-Chr2 48230810 48237287 Dispersed
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Mtr2g3415 235 558 Monolignol Biosynthesis Gene Families AT1G20480 27.607 3.38e-20 95.1
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Mtr2g3415 - - cam:101501314 3333.89