Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Mupr7882g00002 ATGTTGGATTTCATAGGTTCATTGTTGGACATCATAATTCGCTTGTGGGACTGTTGTGCCTACATCCGCGAGTTTGAAGAGAACCTTTCTAGTTTGAGTGACATAGTGACTGAACTCCATAATGTTTGGCTTGATGTGAGGGTGAAGGTTGAAGCCGCTGAGGAGCAGCACCTGAGGCGTTTGAACGAAGTGAATGATTGGTTGTGTAAAGTTGAAGCCATGGAAAGAGAAGTCCAAGCTATTCAGCACAAAGTTGGTCATGTTCAAGAAACACATAGCACATGTTTGGGGAGTCTATATCTCAGGAATAGTTCAACTAGATGCAGGATGGGAAGGGTTATACCTAAAAAAATAGGTGAGATTCGTGAACTAATTAATAAAGGGCATTTTGATGTAGTGGCTCATGAAATGCCACATGCTTTGGTGGATGAAATGCCTCTAGTGATCATGGTAGGTCTAGAATCAACCTTTGATGACCTTGGTGCATGTTTTGATGACAATCATGTTGGAGTTATTGGCTTGTATGGCATGGGGGGTGTAGGAAAGACAACCCTGCTCAAAAAGTTCAACAATGAGTTCCTTCCCACAAAATTCTATGATGTGGTCATTTGGGTTGTGGTGTCTAAAGAAGCAGATGTAGGGAGTGTTCAACAAACCATAGGGAACAAACTAAATGTTCCTGAGGGTAAATGGGCTGGTAAGACCATTAATGAGAGAGCTATTGTTTTGTACAATTTCTTGAAAAAGAAGAAGTTTGTGTTGCTGTTGGATGATTTGTGGGAGCGTATAGATCTTCTGAAGTTGGGGATTCCTCTTCCTGATATGGACAATGGATCAAAAGTGATATTCACAACAAGGTCCATGGAGGTTTGCAGGTACATGGAAGCCAACAGATGCATCAAAGTAGAATGTTTAGCACCAGAGGAAGCGTTTAAACTATTCAGAGAGAAAGTGGGTGAAGAAACTCTCAATTCTCATCCTGAAATAGTTCATCTTGCTCAAATTGTGGCCAAGGAGTGTGAAGGACTTCCACTGGCTCTTATCACTGTTGGTAGATCTATGGCCGGCAAAACTCTCCCTGAATGGAAACGAGCAATACAAATTTTGAAGAATTATCCATCAAGATTTTCAGGTATGGTTGACTATGTCTATTGTTTGCTTGAATTTAGCTATGACAGTTTGCCAAGTGCCATACACAAGTCTTGTTTTCTGTACTGCTCCATCTTCCCTGAGGACTATGACATTAGAAAAGATGAACTCATTCAGCTGTGGATTGGAGAGGGTTTTTTAACTGGATTTGGAGATGATATCTATGAAGCGCGTAATCAAGGAGAAGATATCATAGCAAGCTTGAAGTTTGCTTGTTTGTTGGAGGAAAGTGAGAGAGAAAATAGGATTAAGATGCATGATGTGATCAGAGACATGGCTTTGTGGCTAGCATGTGATCATGAATCTAACACCAGGATTTTGGTGAAAGATGGTGCATGCAGCAGTTCAGTTGAAGCATATAATCCTACAAAGTGGAAAGAAGTAGAGATAGTATCACTGTGGGGACCTAGCATTCAAAACCTCTCAGGAAAACCACATTGCTCAAATCTCTTGACTATGCTTGTTAGAAACACAGAGCTAACAAACTTCCCTGATGAGATCTTTTTGACTGCAAACACTCTTAGAGTGTTAGACTTGTCAGGTAATAAAAGAGTAAAAGAATTACCTGCAAGTATTGGGGAGTTAGTTAACTTGCAGCATTTGGATCTATCAGGTACTGACATACAAGAATTGCCAAGGGAGCTCCAGAACTTGAAAAAATTGAGGTGCTTGCTACTAAATTATATCTGCAATAAGCTTGTCTTCCAAAGGAATTTGATATCAAGTTTGTTGTCATTGCAAGTGTTTAGCAAATTACCATGGGAAGATCAGTTTACTATTCCTGACTTAGGGGAAACTGAGGAAACTATCTTGTTGCAAGAATTGGAATGCTTGGAATGCCTTCAAGACATAAGCATTGCTCTCTTTCGCTTTTCTTCTATGCAAGTATTACTGAAATCTCCCAAATTGCAAAGATGCATTAGACGTTTGAGAGTAATTTCACATTTCAACTCAATTCTACTTGTTGTGTTATTCTCATTATTGAGAAAAATGCAACATCTAGAGGTATTATCCATATCAAATTCTTCATCTCCAGGTTTAGATTCTGACATGAAAAAGGAGTCTCCATCACATGATTCTATGACTGAGTGTATTCCAATGAGTTCTAAACTTAGTGAGTATGATTACATTGTTGGCCTTCGTGAGTTATCCCTGGAAGGGTGTGGCATGTTTAACTTGAATTGGCTCATTCGTGCTCCAAGCCTTCAACTCCTTAGAATATACAATTGTCCCTCATTGGAAGAAGTCATAGGTGAAGAATTTGGACATGCAGAAAATGTTTTTTCAAGTCTTGAAATTGTTGATCTAGATTCTCTACCAAAGTTGAGGAGCATATGCTCACAAGTATTGCAATTTCCTTGTCTCAAGGAGATATGTGTGGCAGATTGTCCAAGGTTGACAAAGCTCCCTTTTGATTCCAATACTGCAAGGAACAGTTTGAAGCACATCAATGGACAGAAAAAGTGGTGGCACAAATTGCGGTGGGAAGATGAAGCCACAAAGGCTCTCTTTGCTTCAAAATTTGTACCTTTGCCTTCCAAAACCCTAAGGCAATCGAACTACCTATCATTGTTGTGCAATTTCAATTTGAACTTCAACCCAATAACCAACAGATTAACCAATGAACGCTTTTCTGTGACTCGCGCACTGTTTTGTTCCCAGTCACGGCAAAGCAGCAGCACGAGAGAGAAAAGCTCCATAGATTTGAGCCAATACCCTGCAGAGCTCGTTAGAAACTTCTCAATCATTGCACACGTGGATCATGGCAAGTCCACCCTCGCTGATCGGCTTCTAGAACTCACTGGAACCATTAAGAAAGGCCATGGCCAACCCCAGTATCTTGATAAACTGCAGGTGGAGAGAGAGAGGGGAATCACAGTTAAAGCCCAGACAGCAACAATGTTCTATAAGCACAACTTAAATGGCGATGATTGCAGTGATGGAAAGGAGTCACCTAGTTTTTTGCTGAATCTTATTGACACTCCTGGACATGTTGATTTTAGTTATGAAGTGTCAAGGTCACTGGCAGCTTGTCAGGGTGTACTTTTGGTTGTTGATGCTGCTCAGGGAGTCCAAGCACAAACTGTTGCTAACTTTTACCTTGCCTTTGAGTCTAACCTAACAATTGTGCCTGTTATAAATAAGATTGACCAGCCAACTGCTGATCCTGATCGCGTTAAAGCCCAATTGAAATCGATGTTTGATCTTGACCCAAGTGATGCACTACTAACATCTGCTAAAACTGGAGAGGGTCTTGAACAAATCCTTCCGGCAGTCATAGAGCGCATACCTGCCCCTCCTGGGAGAAGCGATTCTCCTCTACGCATGCTTTTACTTGACTCATATTATGATGAATACAAAGGGGTAATATGTCATATTGCTGTTGTTGATGGTGTCCTGCGCAAGGGGGATAAGATTTCTTCTGCAGCTACTGGTCAGACATATGAAGCTTTAGATATAGGCATCATGCATCCCGAACTTACACCTACTGGAATCTTGCTTACCGGACAAGTCGGTTATGTTGTAAGTGGCATGCGGTCAACCAAAGAGGCCCGTGTTGGTGATACAATTTACCATGCTCGAAGTGTTGTAGAGCCTCTTCCAGGCTTCAAGGCAGCAAAACATATGGTGTTCTCTGGTCTTTATCCAGCAGATGGATCCGATTTTGAAGCTCTAAATCACGCAATAGAGAGGCTGACATGCAATGATGCCAGTGTCTCTATTACTAAAGAAACTAGCACTGCTCTGGGTCTGGGTTTCAGATGTGGGTTTTTAGGCCTTTTGCACATGGATGTTTTTCATCAACGGCTTGAACAGGAGTATGGAGCTCATGTTATCTCAACTGTTCCTACTGTGCCTTATCTATTTGAGTATTCTGATGGAAGGTATGTGGGACCTGTTATAACCCTTGTCTCTGAGCGTAGGGGTCAGCAATTGGAGTACTCATTCATTGACAGTCAACGGGTATTCATGAAGTACCGCCTGCCTTTGAGGGAAATTGTTGTTGACTTTTATAATGAATTGAAGAGTATAACATCAGGCTATGCATCATTTGATTATGAGGACTCAGATTATCAACAAGCTGATCTGGTGAAACTTGATATTCTCTTGAATGGACAACCAGTTGATGCAATGGCAACCATTGTTCATAACATGAAAGCATATCGTGTTGGGCGTGAACTGACAGAGAAATTGAAGAACGTCATAGACAGGCAAATGTTCGAGATAACCATACAAGCTGCCATTGGATCAAAAATCATAGCAAGGGAGACGATTTCTGCTATGAGGAAAAATGTTCTTGCCAAGTGTTATGGTGGTGACGTTACTCGAAAAAGGAAGCTATTGGAGAAGCAAAAGGAAGGAAAGAAGCGAATGAAGCGTGTTGGTTCTGTTGATATACCACAAGAAGCATTTCACCAACTATTGAAGGAATCTAGTTTGAATCAAAATGTACTTGTTAAGGTCCTCCATATCACAGATAAAGATAATTGA 4641 0.4098 MLDFIGSLLDIIIRLWDCCAYIREFEENLSSLSDIVTELHNVWLDVRVKVEAAEEQHLRRLNEVNDWLCKVEAMEREVQAIQHKVGHVQETHSTCLGSLYLRNSSTRCRMGRVIPKKIGEIRELINKGHFDVVAHEMPHALVDEMPLVIMVGLESTFDDLGACFDDNHVGVIGLYGMGGVGKTTLLKKFNNEFLPTKFYDVVIWVVVSKEADVGSVQQTIGNKLNVPEGKWAGKTINERAIVLYNFLKKKKFVLLLDDLWERIDLLKLGIPLPDMDNGSKVIFTTRSMEVCRYMEANRCIKVECLAPEEAFKLFREKVGEETLNSHPEIVHLAQIVAKECEGLPLALITVGRSMAGKTLPEWKRAIQILKNYPSRFSGMVDYVYCLLEFSYDSLPSAIHKSCFLYCSIFPEDYDIRKDELIQLWIGEGFLTGFGDDIYEARNQGEDIIASLKFACLLEESERENRIKMHDVIRDMALWLACDHESNTRILVKDGACSSSVEAYNPTKWKEVEIVSLWGPSIQNLSGKPHCSNLLTMLVRNTELTNFPDEIFLTANTLRVLDLSGNKRVKELPASIGELVNLQHLDLSGTDIQELPRELQNLKKLRCLLLNYICNKLVFQRNLISSLLSLQVFSKLPWEDQFTIPDLGETEETILLQELECLECLQDISIALFRFSSMQVLLKSPKLQRCIRRLRVISHFNSILLVVLFSLLRKMQHLEVLSISNSSSPGLDSDMKKESPSHDSMTECIPMSSKLSEYDYIVGLRELSLEGCGMFNLNWLIRAPSLQLLRIYNCPSLEEVIGEEFGHAENVFSSLEIVDLDSLPKLRSICSQVLQFPCLKEICVADCPRLTKLPFDSNTARNSLKHINGQKKWWHKLRWEDEATKALFASKFVPLPSKTLRQSNYLSLLCNFNLNFNPITNRLTNERFSVTRALFCSQSRQSSSTREKSSIDLSQYPAELVRNFSIIAHVDHGKSTLADRLLELTGTIKKGHGQPQYLDKLQVERERGITVKAQTATMFYKHNLNGDDCSDGKESPSFLLNLIDTPGHVDFSYEVSRSLAACQGVLLVVDAAQGVQAQTVANFYLAFESNLTIVPVINKIDQPTADPDRVKAQLKSMFDLDPSDALLTSAKTGEGLEQILPAVIERIPAPPGRSDSPLRMLLLDSYYDEYKGVICHIAVVDGVLRKGDKISSAATGQTYEALDIGIMHPELTPTGILLTGQVGYVVSGMRSTKEARVGDTIYHARSVVEPLPGFKAAKHMVFSGLYPADGSDFEALNHAIERLTCNDASVSITKETSTALGLGFRCGFLGLLHMDVFHQRLEQEYGAHVISTVPTVPYLFEYSDGRYVGPVITLVSERRGQQLEYSFIDSQRVFMKYRLPLREIVVDFYNELKSITSGYASFDYEDSDYQQADLVKLDILLNGQPVDAMATIVHNMKAYRVGRELTEKLKNVIDRQMFEITIQAAIGSKIIARETISAMRKNVLAKCYGGDVTRKRKLLEKQKEGKKRMKRVGSVDIPQEAFHQLLKESSLNQNVLVKVLHITDKDN 1546
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Mupr7882g00002 1546 ProSiteProfiles Translational (tr)-type guanine nucleotide-binding (G) domain profile. 958 1150 IPR000795 GO:0003924|GO:0005525
Mupr7882g00002 1546 CDD lepA_C 1346 1412 IPR035654 -
Mupr7882g00002 1546 FunFam Probable disease resistance protein At1g61300 133 298 - -
Mupr7882g00002 1546 FunFam Translation factor GUF1, mitochondrial 1152 1250 - -
Mupr7882g00002 1546 Gene3D Elongation Factor G (Translational Gtpase), domain 3 1251 1332 - -
Mupr7882g00002 1546 Gene3D - 137 304 IPR027417 -
Mupr7882g00002 1546 Hamap Elongation factor 4 [lepA]. 956 1533 IPR006297 GO:0005525
Mupr7882g00002 1546 Gene3D - 1341 1411 - -
Mupr7882g00002 1546 Gene3D Translation factors 1153 1250 - -
Mupr7882g00002 1546 Gene3D - 1412 1486 IPR038363 -
Mupr7882g00002 1546 PANTHER TRANSLATION FACTOR GUF1-RELATED 934 1344 IPR006297 GO:0005525
Mupr7882g00002 1546 Pfam Elongation factor G C-terminus 1344 1418 IPR000640 -
Mupr7882g00002 1546 Gene3D - 305 390 IPR042197 -
Mupr7882g00002 1546 ProSiteProfiles Leucine-rich repeat profile. 580 602 IPR001611 GO:0005515
Mupr7882g00002 1546 CDD LepA 961 1149 - -
Mupr7882g00002 1546 SUPERFAMILY EF-G C-terminal domain-like 1259 1336 IPR035647 -
Mupr7882g00002 1546 FunFam Elongation factor 4 957 1151 - -
Mupr7882g00002 1546 Gene3D Ribonuclease Inhibitor 508 871 IPR032675 -
Mupr7882g00002 1546 FunFam Translation factor GUF1, mitochondrial 1333 1410 - -
Mupr7882g00002 1546 SUPERFAMILY EF-G C-terminal domain-like 1344 1426 IPR035647 -
Mupr7882g00002 1546 Coils Coil 64 91 - -
Mupr7882g00002 1546 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 959 1171 IPR027417 -
Mupr7882g00002 1546 Pfam GTP-binding protein LepA C-terminus 1420 1526 IPR013842 -
Mupr7882g00002 1546 CDD EF4_III 1258 1333 - -
Mupr7882g00002 1546 FunFam Translation factor GUF1, mitochondrial 1251 1332 - -
Mupr7882g00002 1546 SUPERFAMILY Translation proteins 1148 1246 IPR009000 -
Mupr7882g00002 1546 NCBIfam small GTP-binding protein domain 964 1138 IPR005225 GO:0005525
Mupr7882g00002 1546 FunFam Translation factor GUF1, mitochondrial 1412 1486 - -
Mupr7882g00002 1546 Pfam Leucine rich repeat 532 591 IPR001611 GO:0005515
Mupr7882g00002 1546 SUPERFAMILY L domain-like 457 870 - -
Mupr7882g00002 1546 ProSitePatterns Translational (tr)-type guanine nucleotide-binding (G) domain signature. 998 1013 IPR031157 -
Mupr7882g00002 1546 MobiDBLite consensus disorder prediction 725 745 - -
Mupr7882g00002 1546 CDD EF4_II 1157 1242 - -
Mupr7882g00002 1546 Gene3D - 958 1151 IPR027417 -
Mupr7882g00002 1546 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 149 406 IPR027417 -
Mupr7882g00002 1546 Gene3D - 391 477 IPR036388 -
Mupr7882g00002 1546 Pfam NB-ARC domain 167 392 IPR002182 GO:0043531
Mupr7882g00002 1546 FunFam Probable disease resistance protein At1g63360 391 478 - -
Mupr7882g00002 1546 Pfam Elongation factor Tu GTP binding domain 960 1147 IPR000795 GO:0003924|GO:0005525
Mupr7882g00002 1546 PRINTS Disease resistance protein signature 552 568 - -
Mupr7882g00002 1546 PRINTS Disease resistance protein signature 340 354 - -
Mupr7882g00002 1546 PRINTS Disease resistance protein signature 246 260 - -
Mupr7882g00002 1546 PRINTS Disease resistance protein signature 171 186 - -
Mupr7882g00002 1546 FunFam Probable disease resistance protein At5g66910 304 390 - -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Mupr7882g00002 Mupr-Chr7882 8257 18983 Dispersed
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Mupr7882g00002 960 1101 Eukaryotic Initiation Factors Gene Family AT1G56070 39.583 3.56e-22 102
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Mupr7882g00002 K21594 - gmx:100781638 1485.7