Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Cmu04g0770 ATGATTGTTTCCATGGACTTAAATGCCTCGCCGGTGCCTGAAGAGGATGAAGAGACGTTTGAGAGGCATGAAGAGGTGTATAGTGCTCCAGAGGAACATATAGAGACTGCTGTAAGCATAGCACGGCGGGAGCGAGAAGAAAGAAAAAGGCGGTTGAAAAGAGATCGCTCTCTCGAGAGACCGGTGCATGAATACCAGCAACCTGCACGGGATCAGTTTTACCCTTCTAAAAACCAAAAATCTGATAGAAACAGGCTTCCTCCAGGTTGGTTGGATTGCCCTGCATTTGGTCAAGAAATATGTTGCATGATTCCGTCCAAGGTTCCTCTGGGCGAATCCTTCAATGATTGTATAACACCTGGTAAAAGATACTCATTTAAGCAAGTGATCCATCAGCAGAGAGTTTGGGGAAGAAAACTCGGTTTGGTGATCGATTTGACAAATTCTTATCGTTATTATACAACAGCAGATTTGAATAAGGAGGGTATCAAGTATGTTAAGATTCCTTGCAAGGGGAGGGATTCCGTACCTGACAACAAGTCAGTCAATATGTTTGTTTACGAGGTCATGCAGTTCCTATCTCGTCAGAAACACTCGAAGAAGTATATTCTTGTCCACTGTACGCATGGCCATAATCGCACTGGATATATGATCATAAATTATCTCGTGCGTGCACTGTCCATTTCTGTTACCCAGGCTCTTAAAATGTTTGCTGATGCACGCCCTCCTGGAATTTACAAGCCTGACTACGTTGATGCATTATATACCTTTTACCATGAAAGAAAACCTGAAGCAGTTGTTTGTCCATCCACGCCTGAGTGGAAGAGATCTTCAGATCTTGATCTTAATGGCGAAGCAGTTCCAGATGATGATGATGATGGAGGTCCTGCTGCTCCTTTGAATGAAAATCATGATGATGGTGCTCAAGTGATGACAAATGATGATATTTTGGGTGATGAGATACCTGAGGACCAAGAACGTGCTTTGAAACAATTTTGCTATCAAATGCTTAAATTGAATGCTGGAGCAAGAGCAAATTTGCAATTTCCTGGGTCGCATCCAGTGTCTCTTAACAGAGACAATCTTCAACTGCTAAGGCAACGCTATTATTATGCCACATGGAAAGCTGATGGAACAAGATATATGATGCTCATTACCATGGATGGATGCTACTTGATTGACAGAGGTTTTAAATTTCGAAGAGTCCAAATGAGATTCCCATACAGAAATGCAAATGATGGCCAAGGTGAGAAGATTCACCACTATACACTACTTGATGGAGAAATGATTATTGATACTATGCCAGACTCGCAGAAGCAAGAGAGAAGATATCTTATATATGATATGATGACAATTAATCATGTTCCGGTCATTGAGCGTCCTTTCTACGAACGGTGGAAGATGCTTGAAAAAGAAGTGATCGAACCTCGCAATTCTGAGCGCCAGAGTATTTACCAAAGCAGGAACCCTCATTATAGATATGACCTAGAGCCATTCAGGGTGAGGAGAAAAGATTTTTGGTTGCTCTCCACGGTTACCAAACTTTTGAAGGAGTTCATACCTAGGCTTTCACATGATGCTGATGGTCTGATATTTCAGGGGTGGGATGATGCTTATGTTCCTCGAACTCATGAGGGTCTTTTAAAGTGGAAATATCCAGAAATGAACTCAGTCGACTTCCTATTCGAGTTGGGTGAAGATGATTCTGAGGTTCTTATTTTGTTTGAACGAGGAAAGAGGAAGACCATGGAAGGAAATAGGGTTAAGTTCAAAGATGGGGATCCCTCCTTTTATTCAGGAAAGATTGTCGAGTGCTCTTGGGATTCTGATGAGCAAGTATGGGTCTGCATGCGTATCAGGACGGACAAAACAACTCCTAATGATTTCAATACTTATAAAAAGGTCATGCGGAGCATTAGAGACAATATCACGGAGGAGGATTTGTTGAAAGAGATTCATGAGATCATACGCTTGCCCATGTATGCAGATAGGATAAGGATTGATAGTAAAGCAGCTCAACATACGAATTCAACACGACGGAGCGGAAAGACGCCACTGCAGTTGGATTGCACGGATCCTTTCTGGGGGTTTTGGCAATTTGATGTTGTTGGCTTTGCGTTTCATCTTGCGGAGCTACGGTGTGGCGGATTCATGAAATTCTCGGTGATTTTAGCTCTTCTGATTTGTCTAATTCTCTTCGTTCCGTTGAAATGCATTCACGGCGAGGAGCCCAAGAAAAACAAATTTCGGGAACGAGAAGCCACGGATGATGCCCTTGGATACCCTGAGATAGACGAGGATGCTTTGTTGAATACACAATGTCCAAAGAATTTGGAGCTAAGATGGCAAACAGAAGTGAGTTCTAGCATATATGCTACACCCTTGATCGCTGATATTAACAGTGATGGGAAACTTGAGATAGTGGTTCCATCTTTTGTTCACTACCTTGAGGTTCTAGAAGGTTCTGATGGAGACAAAATGCCAGGGTGGCCTGCTTTCCATCAGTCGACTGTGCATGCTAGTCCTCTTCTATATGATATAGACAAAGATGGTGTGAGGGAAATAGCTTTGGCCACATACAATGGAGAAGTGCTCTTTTTCAGGGTGTCAGGATATATGATGACAGACAAGTTAGAGATACCACGTCGCCGTGTGCGCAAGAATTGGTATGTGAGTTTAAATCCAGATCCAGTGGACCGGTCTTATCCAGATGTTCAAGATGAACAACTTGTCAGAGAAGCAACTAAGACAAAATCAATCTCTCAAACAAATGGAAGCGTTCCAGAGTTAAACCAGACAACAGAGACTACGATAAATGGAAGTGTGACCGAACTAAATACTTCGGCTGCCATACCAACTCAAATGTTGAATATTTCAGATACAGTGAATAATAGTATGGTGAATGACAGCAAAGTTGAACCGGATATTGTCCTGCCTACAAGCATGGCCAACAATGCTTCTATCAATGCTACAACTGGAATACTCGATAATAAGAATGGAACTGGGACGAGTAGACGAATTTTGGAAGTTAGTGACTCCAAACAATCTCAAGAAGATGGTTCTGGGTCCAAGGCAGATGGTAGTGGAGATGAGCATGTTGCCACAGTTGAAAATGATGAAGCTTTGGAAGCAGAAGCTGATTCATCATTTGATATATTCCGTGAAAATGATGAGCTGGCTGATGAGTATAATTATGACTATGATGATTATGTTGATGAATCCATGTGGGGAGATGAGGAGTGGACTGAAGTTAAGCATGAAAAAGTGGAGGAATATGTGGATATTGATGCACATTTATTGTGCACTCCTGTGATAGCTGACATTGACAACGATGGGATATCTGAAATGATTGTAGCTGTTTCATACTTTTTTGATCATGAGTACTATGATAACCCAGAGCACAAGAAAGAATTGGGTGATCTTGACATTGGGAAATATGTAGCTGGGGCCATTGTTGTTTTCAATCTGGATACAAAGCAAGTGAAGTGGACGACTGAACTAGACTTGAGCACAGATTCTGCAAACTTTCGTGCTTATATATATTCCTCCCCTACTGTCATCGATTTGGATGGTGATGGGAATCTGGATATTCTTGTTGGCACATCCTTTGGCTTGTTCTATGTCTTGGACCATCATGGCAAGGTGAGAGAAAAGTTTCCTCTTGAAATGGCTGATATTCAGGGAGCTGTTGTTGCAGCTGATATCAATGATGATGGGAAAATTGAACTTGTGACTGCTGATACACACGGAAATGTTGCTGCCTGGACTGCTCAAGGTCAAGAAATTTGGGAAAAGAATCTAAAGAGCCTTATACCGCAGGGTCCATCCATTGGTGATGTTGATGGGGACGGTCGTACTGATGTGGTGGTGCCGACGGTATCAGGAAATATATATGTTCTCAGTGGCAAGGATGGGTCATTTGTTCGTCCTTACCCCTATAGAACCCATGGAAGAGTGATGAATCAAGTTCTTCTTGTTGATTTGAACAAACGCGATGACAAAAAGAAGGGGCTTACTCTGGTCACATCATCGTTTGATGGGTATTTGTATCTCATTGATGGACCGACATCATGTGCTGATGTTATTGACATTGGCGAGACTTCATATAGCATGGTTCTGGCTGACAATGTTGATGGTGGAGATGATCTTGATCTTATTGTCTCAACCATGAATGGAAATGTTTTCTGCTTTTCAACTCCTGCTCCACATCATCCTCTCAAGGCATGGAGATCAACTAATCAAGGAAGAAACAACAATGCAGTCCGGCACAACCGTGAAGGTGTTTTTGTTTCACATTCATCTAGAACTTTCCGTGACGAGGAAGGCAAGAACTTCTGGGTTGAGATTGAGATTGTAGACCGTTACAGAAATCCTTCAGGGACTCAAGCACCATATAACGTCACTACAACCTTGATGGTTCCTGGCAATTACCAGGGAGAGAGGAAAATAAAACAAAACCAAATCTTCAAAGAACCAGGCAAACATCGGATAAAACTTCCAACCGTCAGTGTTAGAACAACAGGCACTGTTTTGGTGGAGATGGTTGACAAGAATGGACTCTATTTTTCGGATGAGTTCTCCCTCACATTCCACATGTATTACTATAAGCTCCTGAAGTGGCTTCTCGTCCTCCCGATGCTTGGAATGTTTGAAACGAGGATGATTGAAAATTTTGGTCTCTCTAACGTCACAAATTCTCCCTTCAGCAAAAACCTCCATTCCATTCTTGAAGCCGATCCTTCACTCTTCTCTTATTTAGATATGAAACCGAATCGCAAACTCAAAAAAACCGATCCATCTTCAAAGCTTGTATTGGAGGAAATTATCGGCTCCACTACAAAGAACAACAATGGATTGGCTTCCAATGTCAATTCTGCAAACTGTGTCTATTTGGCCGGATGCGTTGTGGTTGTGCACAATGTCGACTCTGGTACTCAATCGCATCTCGTGGTGCCTCATCGGTCGAGCAAGCCTCTGAGCTGTGTGGCAATGTCCCAGGATGGCCGCTTCGTGGCTGCTGGAGAGTCAGGGCCTCAACCTGCAGTATTTGTGTGGGATTTAGCTGGCATGGCCTTTGTATCAGAACTGAAAGGTCATCTGTATGGTGTTGCTTGCCTTGCTTTTTCACCTGATGGGAAATATCTAGTGTCTGTTGGGGGATACATATATATTTGGGACTGGCGGACTACAGCGTTGCTAACAAAGCTCAAAGCAAGTTCATCTTGTACTGCCATCTCATCGGTTTCCTTCTCATCAGATTCAAAATCCCTTTTAACTGCTGGGAAGAAGCACTTGAAGTTCTGGACAATTACATCTCCTAAGACCCACTTTAATTTAGGGACAAGTTCACTGTCTTTGCATGGAAAACCTGTTAATCTTGGTCCGCATCAAGGAAGCTCATTTGTTTCTATTGCCTCTGGTTTTTTGGCGGATGGTAGCTCAGGTGAAGTTTTTCCGATGTATGCATTGACTGAAACAGGTGTCCTTTACCTGGTGAACTCAGGATTTTCAGTAACAAAGTCCGTCAATTTAAAGGTTGATAAAAGTTTCGCTGTATCCGCATCTAGCAAGTTAATTGCTTGTGCTTGCAGCAACGGAATAGTACAACTTTTTGATGCTGAGAATCTTCAATATTCTGGAAGTTTAGTCTATTCAAGATCCAAGCAATTCAATGGGGCAAGCAATATTGTTTATCCCATGAAAAATGATGGAAATGTTTTACAAAACTTACCTTCCCTTCCTGATGCCGTTGCATGTTATTTTTCAACCTCAGAAAAGCTTGTGGTTATTTATGGAGATCACTATCTTAACATATGGGACATCCATGACCCGAAGCAGGCTACCAGGTCTTGTGTGCTAGTTTCACATTCTGCTTGCATATGGGATATCAAAGTTCTTTGTTGTGAGAACATGCACGATCCATCTCTTGCTTGTGTTGCTAGAGGTTGTTCAGGAGGAATGTCTTTTGCAACATGCTCAGCAGATGGTACTATAAGGTTGTGGGATCTAGCTTTGGAACCTGATTCAGAAGATGCAATGGACAATCAAGTTCGGCGAGCGAGCACTACACGCTTTGAAAGTGCTGGAATATTTGAACGAGAAACTGTGGAGGCTGGTTGTAGCACTCAAGGCTTTCGTTCTCTGGCAGCAAGTTCAGATGGAAAATACCTTGCCGTTGGTGACTGTGATGGAAACATTCACATATTTAACCTGCTAACTTCTGATTATACATGTCTTCAGGGTGCTCATGATGCAGAGGTCCTATCATTAAGCTTTAGCTTGTTGAGTAGAAATGATGCTATATCTAAAGAAGTTATGCAAAGCCATTACTACCTGGCTTCAGCAAGTCGAGATCGAATTATCCATCTTTACAATGTTGAAAGGAATTTTGATCTCACTGATAGTATTGTTGATCACTCAGCAGCTGTAACTTCAGTAAAGATCAGTTGCAATGGACACAAAATTATAAGCTGCAGTGCTGACAGGTCTTTGATTTTCCGCGATTTCACGACAACAGATAGTGGTCATATGATTTCCCGCAGTCATCACCAAATGGCATCTCAGGGTACTGTCTATGATATGGCTATAGATCCTAAAAAAGACGTTGTTGTTACAGTTGGGCAGGATAAGAAAATCAATACATTTGATGTTGCTTCTGGGAAGCTAATAAGATCATTCAGGCTGGAGAAAGATTTTGGAGAACCAATAAAAGTTGCAATGGATCCAAGTTGCAGTTACCTTGTTTGTTCCTATTCGAACAAGTCTATATGCTTGCATGATTTCATTACTGGGGAAATGGTTGTACAGGCAATGGGGCACGGTGAAGTTATTACTGGTGTTATTTTCACACCAGACTGTAAACGCATTATTTCTATTGGAGGAGATGGTTGCATTTTTGTATGGAGACTTCCTGCATTTTTATCTTCAAGTATGCATCAGAAAATGAATGAAGGTTCCGGTCCACTGTCTCCCGGAAGCATGACTCAGCCTATACCTTTTAGTAGAATCATGATTTACGAAGAGGATGGAGATGAAGCAAAGCAACATACAACCAATTCTGGTGATGATTCCAAGCAAGATGGTTTCCGAGTGCTTCATCAAGGAGAAGCTGCTCCGGAAGCAACATTTAGATTTAGCATTTCAAGACTGCCCAGATGGGCACAAGATAAAGTAACAAACTCTGACAATGCCCAAATAAATCACGAGTCCACACCTCTGCAGAAAAGTCGCTGTTCTTTGGTGGTTGATGATCATGGAAATGCACCTCTACCTCCAGAATTTCAAATTTGTTCTGACAACATCCTTGGATCTGTTAACTCCTGCACCAGCAGCTTATCCGGAAACTCTTCTGACAATAGCGATACTAATGGTTCTCATGTGCCTCAAGAAACTTTTAGTGGCCATCCTGGCATGGAAAACCGCTGGCTCTCCATTTACAACGTGTGTCTTGATCTACCGAGTTCTCCTGAAATGCAGAATTATGTGGACAGAAAATCGGTGTCTTCCACTAATGGACTACAAGATGCAGCAAAGCTACCAGCTTATAATGGATGCTCTTCTGGTCAAGCTAGTAATGATATAGATATTGGGGGAGAGTTGACTTCTAGTAAGATTGCCATTCTTCATAATTCTGCACCTAGTAAGCGTGAATTTCACACGAGAATAAATGAGGTTCATTCGGGGGAAATGGAAGAGCTGCTTTCCAGCAATGTGAAAAGTGAAAAGCAAGCAATTGGAGATAGTATTCTGTGCCGCATTAAGGGTGAAGATGGTGATCTATTCAAGCTACATTTCGCCAGTTTGTCAATGTCACATAAGAAGAGTGAATCATCAGCAAGGAGAAGATACTCTTCCAAATATGTAGTGCAGAAGGACTGTCTTGGAAGCACCAAAAGACTTCGAATGCTGCCTAATGACTATGGTTGTAAAACTTTGAATTACGTGGACGAAGCTACTAATCATTCTCCATCAGAGATATTGCCAACTCAGGTTTTGGCAGAGCAAGAATCGGATATTACAAGAACGACAGAGACCTTGCTGAGCTCAAAGTCGTCAAACTTTTCACAAAATGAAAACTATCCAGGTGAAAAAGAGTCAAAAAGAGCAAAGCTAACAAAAGAAGGCAATAATGACAGTTCTCCAGTTCCAAGTGAATTGCAGGAGAAACGAACTAGTTGTAGGGAAGCTCTACTTGGTTTGGATGCTGCAGCTGAGAATGCATTCCAGTTCTTCTCAAGATTAGTTACCCCGGCTTGTCATGAAGATAGTTTACATGAATCTGGATTGGAGTTGTATGATGAAGCAGCCAAGTTACTTCCATCAATTATAGAGAAAATTAATGCAGTTGCCAAGTTGGTGCAATGCAATAACAAAGATAAATGTGAAAGTACGAAAGACGTTACTCCAGGATTTGAACCTCTCTTAGGAACATTTTCTGGGAATCTTTCTGAAAAGATTGAAGTTTTGAGGAAGAATCTTGGTAGAAATTCATAG 8493 41.85 MIVSMDLNASPVPEEDEETFERHEEVYSAPEEHIETAVSIARREREERKRRLKRDRSLERPVHEYQQPARDQFYPSKNQKSDRNRLPPGWLDCPAFGQEICCMIPSKVPLGESFNDCITPGKRYSFKQVIHQQRVWGRKLGLVIDLTNSYRYYTTADLNKEGIKYVKIPCKGRDSVPDNKSVNMFVYEVMQFLSRQKHSKKYILVHCTHGHNRTGYMIINYLVRALSISVTQALKMFADARPPGIYKPDYVDALYTFYHERKPEAVVCPSTPEWKRSSDLDLNGEAVPDDDDDGGPAAPLNENHDDGAQVMTNDDILGDEIPEDQERALKQFCYQMLKLNAGARANLQFPGSHPVSLNRDNLQLLRQRYYYATWKADGTRYMMLITMDGCYLIDRGFKFRRVQMRFPYRNANDGQGEKIHHYTLLDGEMIIDTMPDSQKQERRYLIYDMMTINHVPVIERPFYERWKMLEKEVIEPRNSERQSIYQSRNPHYRYDLEPFRVRRKDFWLLSTVTKLLKEFIPRLSHDADGLIFQGWDDAYVPRTHEGLLKWKYPEMNSVDFLFELGEDDSEVLILFERGKRKTMEGNRVKFKDGDPSFYSGKIVECSWDSDEQVWVCMRIRTDKTTPNDFNTYKKVMRSIRDNITEEDLLKEIHEIIRLPMYADRIRIDSKAAQHTNSTRRSGKTPLQLDCTDPFWGFWQFDVVGFAFHLAELRCGGFMKFSVILALLICLILFVPLKCIHGEEPKKNKFREREATDDALGYPEIDEDALLNTQCPKNLELRWQTEVSSSIYATPLIADINSDGKLEIVVPSFVHYLEVLEGSDGDKMPGWPAFHQSTVHASPLLYDIDKDGVREIALATYNGEVLFFRVSGYMMTDKLEIPRRRVRKNWYVSLNPDPVDRSYPDVQDEQLVREATKTKSISQTNGSVPELNQTTETTINGSVTELNTSAAIPTQMLNISDTVNNSMVNDSKVEPDIVLPTSMANNASINATTGILDNKNGTGTSRRILEVSDSKQSQEDGSGSKADGSGDEHVATVENDEALEAEADSSFDIFRENDELADEYNYDYDDYVDESMWGDEEWTEVKHEKVEEYVDIDAHLLCTPVIADIDNDGISEMIVAVSYFFDHEYYDNPEHKKELGDLDIGKYVAGAIVVFNLDTKQVKWTTELDLSTDSANFRAYIYSSPTVIDLDGDGNLDILVGTSFGLFYVLDHHGKVREKFPLEMADIQGAVVAADINDDGKIELVTADTHGNVAAWTAQGQEIWEKNLKSLIPQGPSIGDVDGDGRTDVVVPTVSGNIYVLSGKDGSFVRPYPYRTHGRVMNQVLLVDLNKRDDKKKGLTLVTSSFDGYLYLIDGPTSCADVIDIGETSYSMVLADNVDGGDDLDLIVSTMNGNVFCFSTPAPHHPLKAWRSTNQGRNNNAVRHNREGVFVSHSSRTFRDEEGKNFWVEIEIVDRYRNPSGTQAPYNVTTTLMVPGNYQGERKIKQNQIFKEPGKHRIKLPTVSVRTTGTVLVEMVDKNGLYFSDEFSLTFHMYYYKLLKWLLVLPMLGMFETRMIENFGLSNVTNSPFSKNLHSILEADPSLFSYLDMKPNRKLKKTDPSSKLVLEEIIGSTTKNNNGLASNVNSANCVYLAGCVVVVHNVDSGTQSHLVVPHRSSKPLSCVAMSQDGRFVAAGESGPQPAVFVWDLAGMAFVSELKGHLYGVACLAFSPDGKYLVSVGGYIYIWDWRTTALLTKLKASSSCTAISSVSFSSDSKSLLTAGKKHLKFWTITSPKTHFNLGTSSLSLHGKPVNLGPHQGSSFVSIASGFLADGSSGEVFPMYALTETGVLYLVNSGFSVTKSVNLKVDKSFAVSASSKLIACACSNGIVQLFDAENLQYSGSLVYSRSKQFNGASNIVYPMKNDGNVLQNLPSLPDAVACYFSTSEKLVVIYGDHYLNIWDIHDPKQATRSCVLVSHSACIWDIKVLCCENMHDPSLACVARGCSGGMSFATCSADGTIRLWDLALEPDSEDAMDNQVRRASTTRFESAGIFERETVEAGCSTQGFRSLAASSDGKYLAVGDCDGNIHIFNLLTSDYTCLQGAHDAEVLSLSFSLLSRNDAISKEVMQSHYYLASASRDRIIHLYNVERNFDLTDSIVDHSAAVTSVKISCNGHKIISCSADRSLIFRDFTTTDSGHMISRSHHQMASQGTVYDMAIDPKKDVVVTVGQDKKINTFDVASGKLIRSFRLEKDFGEPIKVAMDPSCSYLVCSYSNKSICLHDFITGEMVVQAMGHGEVITGVIFTPDCKRIISIGGDGCIFVWRLPAFLSSSMHQKMNEGSGPLSPGSMTQPIPFSRIMIYEEDGDEAKQHTTNSGDDSKQDGFRVLHQGEAAPEATFRFSISRLPRWAQDKVTNSDNAQINHESTPLQKSRCSLVVDDHGNAPLPPEFQICSDNILGSVNSCTSSLSGNSSDNSDTNGSHVPQETFSGHPGMENRWLSIYNVCLDLPSSPEMQNYVDRKSVSSTNGLQDAAKLPAYNGCSSGQASNDIDIGGELTSSKIAILHNSAPSKREFHTRINEVHSGEMEELLSSNVKSEKQAIGDSILCRIKGEDGDLFKLHFASLSMSHKKSESSARRRYSSKYVVQKDCLGSTKRLRMLPNDYGCKTLNYVDEATNHSPSEILPTQVLAEQESDITRTTETLLSSKSSNFSQNENYPGEKESKRAKLTKEGNNDSSPVPSELQEKRTSCREALLGLDAAAENAFQFFSRLVTPACHEDSLHESGLELYDEAAKLLPSIIEKINAVAKLVQCNNKDKCESTKDVTPGFEPLLGTFSGNLSEKIEVLRKNLGRNS 2830
       

Gff information


Chromosome Start End Strand Old_gene Gene Num
4 22241186 22280015 - CmPI595203_04g007700.1 Cmu04g0770 414355
       

Annotation information


Select Seq ID Length Analysis Description Start End IPR GO
Cmu04g0770 2830 CDD Adenylation_mRNA_capping 324 552 IPR001339 GO:0004484(InterPro)|GO:0005524(InterPro)|GO:0006370(InterPro)
Cmu04g0770 2830 SUPERFAMILY Integrin alpha N-terminal domain 771 1329 IPR028994 -
Cmu04g0770 2830 Gene3D - 1077 1404 IPR015943 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 2272 2301 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 2043 2070 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 2135 2165 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 1693 1726 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 1735 1768 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Pfam WD domain, G-beta repeat 1976 2002 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SUPERFAMILY WD40 repeat-like 1656 2093 IPR036322 GO:0005515(InterPro)
Cmu04g0770 2830 Gene3D - 1610 1908 IPR015943 GO:0005515(InterPro)
Cmu04g0770 2830 ProSiteProfiles Trp-Asp (WD) repeats profile. 2270 2303 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 2678 2721 - -
Cmu04g0770 2830 ProSiteProfiles Trp-Asp (WD) repeats circular profile. 2270 2303 - -
Cmu04g0770 2830 Pfam mRNA capping enzyme, catalytic domain 353 551 IPR001339 GO:0004484(InterPro)|GO:0005524(InterPro)|GO:0006370(InterPro)
Cmu04g0770 2830 Gene3D - 1914 2130 IPR015943 GO:0005515(InterPro)
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 1010 1031 - -
Cmu04g0770 2830 Pfam FG-GAP-like repeat 1234 1290 IPR013517 -
Cmu04g0770 2830 Gene3D Protein tyrosine phosphatase superfamily 82 294 IPR029021 -
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 2678 2693 - -
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 22 66 - -
Cmu04g0770 2830 Gene3D - 550 658 IPR012340 -
Cmu04g0770 2830 ProSiteProfiles Tyrosine specific protein phosphatases domain profile. 183 252 IPR000387 GO:0016311(InterPro)
Cmu04g0770 2830 Pfam mRNA capping enzyme, C-terminal domain 581 649 IPR013846 -
Cmu04g0770 2830 ProSiteProfiles ATP-dependent DNA ligase family profile. 435 580 IPR012310 GO:0003910(InterPro)|GO:0005524(InterPro)|GO:0006281(InterPro)|GO:0006310(InterPro)
Cmu04g0770 2830 SMART WD40_4 1643 1686 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2129 2168 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2177 2216 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2219 2260 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1729 1769 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1903 1940 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1306 1353 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1837 1872 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1689 1726 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2031 2070 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1962 2002 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2263 2302 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 1216 1256 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 SMART WD40_4 2073 2125 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 Gene3D - 2131 2323 IPR015943 GO:0005515(InterPro)
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 1 85 - -
Cmu04g0770 2830 SUPERFAMILY (Phosphotyrosine protein) phosphatases II 86 275 IPR029021 -
Cmu04g0770 2830 CDD RNA_5'-triphosphatase 89 255 - -
Cmu04g0770 2830 SUPERFAMILY Nucleic acid-binding proteins 554 665 IPR012340 -
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 2441 2463 - -
Cmu04g0770 2830 Pfam Dual specificity phosphatase, catalytic domain 138 258 IPR000340 GO:0016311(InterPro)
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 2441 2467 - -
Cmu04g0770 2830 PANTHER WD REPEAT DOMAIN 62, ISOFORM G 1588 2818 IPR052779 -
Cmu04g0770 2830 ProSitePatterns Tyrosine specific protein phosphatases active site. 205 215 IPR016130 GO:0016311(InterPro)
Cmu04g0770 2830 Gene3D DNA ligase/mRNA capping enzyme 312 549 - -
Cmu04g0770 2830 FunFam mRNA capping enzyme family protein 550 658 - -
Cmu04g0770 2830 MobiDBLite consensus disorder prediction 275 309 - -
Cmu04g0770 2830 FunFam mRNA capping enzyme family protein 82 296 - -
Cmu04g0770 2830 ProSiteProfiles Trp-Asp (WD) repeats profile. 1989 2003 IPR001680 GO:0005515(InterPro)
Cmu04g0770 2830 FunFam mRNA capping enzyme, putative 312 549 - -
Cmu04g0770 2830 SUPERFAMILY DNA ligase/mRNA capping enzyme, catalytic domain 313 552 - -
Cmu04g0770 2830 SUPERFAMILY WD40 repeat-like 1989 2302 IPR036322 GO:0005515(InterPro)
       

Pathway information


Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Cmu04g0770 - - - 0.0