Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Glsi09g0983 ATGGCGGAACAAAGGGACCGGTGGAACTGGGAGGTCAGTGGGTTCGAGCCATGGAAGTCTTCGCCGTCGTCTTCTTCATTTGAGCAAGACGACCGAATATCTAATGCACCATTGGTGAGGAGGTACACCATCTCGGCCTCCTCGGTTCTTCCGCATCCGGAGCTGTCCAAACACTCCGTCGCCTCCAAGCTTCAGCGATTGAGGGACAAAGTCAAGCTTGCTAGAGAAGATTACATGCAGTTAAGACAAGAGGCGAGTGAACTTCAAGAATATTCAAATGCAAAACTTGATCGAATCACACAATATCTTGGTGTCATCGCTGATAAAACCCGCAAACTAGATCAAGCTGCTCTTGAAACTGAAGCCAGAATATCTCCTGTGATAAGCGAGAGAAGGAGATTGTTCAATGACTTATTGGCATCTAAAGGAAACATACGAGTATTCTGCCGTACAAGACCATTATTTGAAGATGAAGGTCCCTCGGTTGTCGAATTTCCAAATGATTATACTATTCGTGTAAATACTAGTGATGAATCCTTGTCCAGTGCCAAGAAAGATTTTGAATTTGACCGTGTTTATGGACCTCATGTTGGACAAGTTGAATTGTTTAGTGATATTCAACCACTGGTGCAGTCAGCTTTGGATGGATATAATGTCTCCATATTTGCTTATGGACAAACCCACTCCGGAAAGACACACACTATGGAAGGATCAAGCTATGATCGGGGTTTGTATGCTCGTTGTTTTGAGGAACTGTTTGATTTAGCCAATGCGGATTCAACTTCTACTTCTCAATATAAATTCTCTGTTACAGTTTTTGACCTCTATAATGAACAGACAAGGGATCTGCTTTTGGAATCAGGGAAAAGCATGCCCAAACTCCATTTCGGATCACTGGAATATTCTGTAGATTTGGTGCAGGAAAAAGTTGAAAACCCTCTGGACTTTTCTAGGGTTTTGAAAGCTGCATTTCAGAGTCGGGGAAATGATATATTAAAGATTAATGTCTCTCATTTGATTGTCACAATACACATATTTTATAACAATTTGATCACTGGTGAAAGCTCATATAGCAAACTTTCTCTGGTTGACCTGGCTGGAAGTGATGGTTTAATAACAGAAGATGATAGTGGGGAGCGTGTGACAGAGTTGCTGCATGTTATGAACACACTTTCAGTTTTGGGAGATGTTTTGTGCTCCTTGACATCAAAGAAAGAAGTTATTCCTTATGAGAATTCAACGCTTACAAAATTGCTTGCAGATTCACTTGGTGGGAGTTCGAAAACTCTGATGATAGTAAATGTCTGTCCAAATGTGTCAAATTTATCTGAGACATTATCATCTCTCAATTTCTCTGCTAGAGCTCGAAATTCTGTATTAAGCCTTGGAAATCGAGACACAATTAAGAAGTGGAGAGATGTTGCAAATGATGCACGCAAGGAGCTGTATGAGAAGGAAAATAAAATCCAAGATCTGAAACAAGAGGTTTTGGGACTCAAGCATGAACTAAAAGACGCAAATGATCAGTGTGTCTTACTCTTCAACGAAGTTCAGAAGGCATGGAAAGTTTCTTCTGCCTTGCAGACAGATTTAAAGTCAGAGCATATTATGCTAGTGGATAAGCATAAGATAGAGAAAGAACAAAATGCTCAGATTAGAAATCAAGTTGCTCAACTGTTACAGTTAGAGCAAGACCAGAAATTGCATATACAACAGCAAGATTCAACCATCCAAAGTTTGCAGGCTAAAATAATAGACCTTGAAACACAACTCAATGAAGCCCTTAGATCTAGTGAAACTAGGTCAATGCATGGCCCTGAGCCAAATTTTGGAGCTCTATCCAATTCCAGGGCAACTGGAGATGGCATGGATTCTTCTGCAGTAACCAAGAAACTGGAAGAGGAGCTCAAGAAGCGGGATGCTCTGATTGAGAGGTTGCATGAAGAAAATGAGAAATTGTTTGATAAGTTAACTGAGAAAGCATCTCTGGCTGGATCGCCTCAGCTGTCAGGTCCATTATCTACAGGATCAGTTACTATTCAGCCTCAAGATACAGGGAGGAATGACACCAACAATACAAGAGCTCGTTCCACGGATTTCCTTCCTTCACCTTTGGCCACAGATAAAAATGATGGCACAGTTGCTTTAGTTAAATCTGGCTCTGAAAAAGTTAAGACTACCCCTGCAGGTGAATATCTTACTGCTGCCCTGAATGACTTTGATCCAGATCAAGCTGAAGGCCTTGCTGCCGTTTCTGATGGTGCAAACAAGCTTTTGATGCTGGTTTTAGCCGCTGTCATCAAAGCTGGTGCCTCCAGAGAACATGAGATACTTGCTGAAATTAGGGATGCTGTTTTCTCTTTTATCCGAAAGATGGAACCAAAGAGAGTAATGGACACCATGCTTGTTTCCCGTGTTAGAATCCTTTATATAAGATCTTTGCTTGCAAGATCCACAGAGCTGCAATCCATTAAGGTCTTGCCTGTTGAGTGCTTTCTTGAAAAGACTAATACTGGGCGGAGTAGAAGTTCCAGCCGAGGGAGCAGTCCTGGAAGATCTCCTGTTCAATATGTTGATGAGCAGATCCATGGATTTAAAGTAAATCTAAAGCCAGAAAAGAAGTCCAAATTTTCATCTGTTGTGTTAAAGATACGTGGAATTGATCAGGACATCTGGAGACAGCAGGTAACTGGTGGAAAGCTTAGGGAAATTACTGAGGAAGCCAAAAGTTTTGCAATTGGGAACAAGGCTCTTGCTGCACTCTTTGTGCATACTCCAGCAGGTGAGCTGCAGCGCCAAATTAGATCCTGGCTTGCAGAGAACTTTGATTTTTTGTCTGTTACTGGAAATGATGCATCGGGGGGGTCAACTGGTCAGTTGGAGCTTCTTTCAACTGCAATTATGGATGGCTGGATGGCTGGACTTGGTGCTGCCCTACCTCCCAACACTGATGCTCTTGGTCAGCTTTTATTTGAATATTCAAAGCGTGTCTATACTTCTCAACTACAGCACTTGAAGGATATTGCTGGCACCTTAGCTACAGAAGAGGCCGAAGATGCTCCACAAGTAGCAAAGCTGCGTTCAGCACTTGAATCTGTTGATCACAAAAGAAGAAAGATTTTGCAACAAATGAGAAGTGATGTAGCTTTATTGAAATTGGAGGATGGTGGCTCACCAATTCAAAGTCCTTCTACTGCAGCTGAAGATGCACGATTAGCATCTCTCATTTCACTTGATAGCATATTGAAGCAAATCAAGGATATAACAGGACATTCTACTGGAAACGCCATGAGCAACAGTAAGAAAAGAACATTGCTTGCTTCTCTTGATGAACTAACCGAAAGGATGCCTTCGCTTCTTGAAATTGATCATCCATGTGCTCAGAGGCAAATTGCAGATGCTCGCCGCATGATTGAGTCGATTCCTGAAGATGACCGCATTCAAGATCCATCCCATGCTCGGAAGCCATCAACAGATTTAGGGTCTGGATCTGAAACTGATGTGGCACAGTGGAATGTACTTCAATTTAATACGGGCACTACCTCACCATTTATAATCAAGTGTGGAGCAAACTCAAATTCAGAACTAGTCATTAAAGCAAATGCTCGAGTTCAGGAACCTACGGGTGGCGAGATTGTGAGGATTGCCCCTAGACCGACCATTTTGGAAAATATGAGCTTGGAGGAGATGAAACATGTATTTGCCGAACTACCTGAGGCTCTCAGCTTGCTTGCCCTAGCAAGGACCCCAGATGGAACTCGAGCACGGTATTCTAGGTTATACAGGACCTTGGCTATGAAGGTTCCATCTCTCAGGAATATGATCAGTGAGCTTGAAAAAGGAGGTGTACTGAAAGATCCGCAGTTATCATCCAGTGTGTCGGCCTCTCCGTCTTCGTTCTCGGCTTCTTCCCCGTCAAACCAGTTCTATCCGGCCACAGGTACTCAGTGCAGTGTCTATCAATCTCTTTGGCGAATTGGAATTGTGGAAACTTGTTCTCTGAGTGATTTATTGACTCCATTTTTTCTTGCTAGTGGTTTGGAGAGCTTCCAACCGCCAACTTGCAGTGGCATTGGAAATCAGAGCGAGGCATCTTTGCCTCCTGATCGGCTTAGGTTGTTGTATCAGGAAGTATCTGAGGTCCCGCCTTCATTTGACCGACTCGTCTTAATGGTCATTGATGGTCTTCCAGCAGAATTTGTGCTTGGCAAGAATGGTCAGCCTCCAAGAAAAGCTTATATGGAAGCTATGCCATATACCCAATCATTATTAGCGAATGGTATGGCAGTTGGGTATCATGCAATGGCTGCCGCTCCAACTGTTACCATGCCCCGATTGAAGGCCATGGTTTCTGGAGCAATTGGGGGTTTCTTGGATGTGGCTTTAAACTTTAACACCCAGGCACTTTTAGATGACAATCTTCTTGCCAAATTCTTTAATATTGGGTGGAAAATGGTTATGCTTGGTGATGATACATGGCTCAGGTTGTTTCCAGGTTTATTTGTGAGACACGATGGAGTTAGCAGTTTCTTTGTTAAAGATACTATACAAGTAGACCAAAATGTGTCTCGACATCTGGGGAATGAAATTGACAGAGATGACTGGAATTTATTAATTCTTCATTATCTAGGCTTGGATCATGTTGGACATATTGGTGGGCGCAACAGTGCCTTAATGGCTCCTAAACTTTCTGAAATGGATGAAGTGGTGAAGATGATTCATATGAATACCTTACAAAATATAGAAGATGATCAAGGGCAGACACTTCTGGTTTGTTACTACCTTTTTGTGGTAGTTAGTGACCATGGCATGACTGAGAATGGTAACCATGGTGGTTCTTCATATGAGGAAACTGACTCTCTTGCTCTGTTTATTGGCCTGAAAAATCATGTCTATGACCATTCATTATCCAATTATGACACAGTTTCACAGGTTGACATTGCACCAACATTAGCTCTACTTTTTGGTGTGCCGATTCCTAAAAACAGTATTGGTGTTTTGATCTCAAAAATGTTTGATTCTCTGACAGATGATCAAAAGTTGAGGGCTTTGGAGTTGAACTCGTGGCAACTATTCAGATTACTTCAAGCACAGTTGCCGGGTTTGTCTTGTAAAAAGTTTCCATGTGATGCCTTCATAATTGATAGTAAGCCAGGGGTTAGAGAATGCAATGGAAGCCAGGAGGAGATGTTTTGTTGCTTGTATCTAAATGCTGCTGCACTTCATGATGCCTGGAAAACCAAAGTGGTCTCCAGGTCCAACCGTATAGAAGACTGTTGTAGCAGCACTATTGCTGCATATCATGAGTTTTTAAAACAAGCGAGTGAGTGGCTGTCGCACAAAGCAACTGATGTATGTATAAATCTTGTGATCCTCATACACAAAGAAGTTCCTGCTGGGGAGGAGAAGCAAGACCTTGATGATTATTTGAAGCATTGGAAGCTGGATGAGGCATTTATTTTGCTTGGCATAATAATTCTGGTCATAAGTATGGGATCAAGTTCTATGATCGAGGAAGAGCATTATATTTGGCATTTTCTGACATCGTCAGTTATTTTGATATTTCTTCGCCAAGCATTACAGTCTTTTGATTATCTCAGTTTGATAAAGGGACAGAATAAAAGATCAGGTTGCAAAATGAGTTTATTGTTATTTATTCTTTTTTGTGGAAGGATTTTGAGAGGCTGGCATCAAGGTGGTGTGAATTGGACTAACCTTCCCGATATTTCCAAGTGGTTTGAGCAGGATGGGAGTCACTATATAAAATTTGTTCATCTAACCGCATGTGTCCTGATTACCAGTCTAGGCCTTTTTGTTTTATGTAAAATAGGATCCAAAACTAAAATTGTTCTGGTGGTTGGGTTCAGCTTTTTATTATCTGGCATTTTGATATTGCGACATGTTATCAAACATCAGGACATACTTGCCTCGTCTAGTAAGGATGCCACCTCATCAATACAAATAATATATATTATTCTGGGAATATCCACTGTTACAGTTGTTGTGGCTTTGCCATGGATTACGCCTATGCCAAGTTCTGAAATGTGCTCAAGATGGAACAAGTCAACTGCTCATCCTGCTGAAATTCAGAACATAACTCCAATTTTGGGATTAAAAGATTGCTTATGTGTGATTGGGTGTGCATACATAACTTCTTGGTGTCTGCTGCAGTTGTTGCTGCAACAACCTATTAATGTGATGCCTGTGTTGTTGCTCTTTGTACAAGTCTTGACCATCATGCTTACATTTTCTTCTAGTGGATCACATCGTAAGCAATGGGTTGAGATCGCAGCATTGTACTATATGGGATGGGCAGGCCATTTTGCTCTTGGGAACAGCAATACACTAGCTACCATTGATGTTGCTGGAGCTTTCATTGTAACATTACCTTCTTTTCTTTGTATGGTGCTATACATCTCTGTAAAGGACACTGTCTGTCCACTTATTACCGAGGATGGAAATTCAGTTCTCAAGACTCTGCTTGGGTTTCCTTGCCTTGTTCCTCTGAGCGTGAATTCTGTTTTAGTGACTGCATACACGATTGTCTTGCTTTTGATGAGGAACCATCTATTTATTTGGAGTGTCTACTCTCCCAAGTACCTTTATGTATGTGTTGCAACTGCATGTGTCTATATCGGGGTCTTCATTGTAGCTGCAACTGTGATTTATACATATACGGTTCTCTTCCGGCATAAAAAAAAGAGGAGTCTCTCCTCCGGTAGCAAGCAAAACGGTACCCAGTCAATTAAGGAAAGAACAGATTAG 6765 0.4173 MAEQRDRWNWEVSGFEPWKSSPSSSSFEQDDRISNAPLVRRYTISASSVLPHPELSKHSVASKLQRLRDKVKLAREDYMQLRQEASELQEYSNAKLDRITQYLGVIADKTRKLDQAALETEARISPVISERRRLFNDLLASKGNIRVFCRTRPLFEDEGPSVVEFPNDYTIRVNTSDESLSSAKKDFEFDRVYGPHVGQVELFSDIQPLVQSALDGYNVSIFAYGQTHSGKTHTMEGSSYDRGLYARCFEELFDLANADSTSTSQYKFSVTVFDLYNEQTRDLLLESGKSMPKLHFGSLEYSVDLVQEKVENPLDFSRVLKAAFQSRGNDILKINVSHLIVTIHIFYNNLITGESSYSKLSLVDLAGSDGLITEDDSGERVTELLHVMNTLSVLGDVLCSLTSKKEVIPYENSTLTKLLADSLGGSSKTLMIVNVCPNVSNLSETLSSLNFSARARNSVLSLGNRDTIKKWRDVANDARKELYEKENKIQDLKQEVLGLKHELKDANDQCVLLFNEVQKAWKVSSALQTDLKSEHIMLVDKHKIEKEQNAQIRNQVAQLLQLEQDQKLHIQQQDSTIQSLQAKIIDLETQLNEALRSSETRSMHGPEPNFGALSNSRATGDGMDSSAVTKKLEEELKKRDALIERLHEENEKLFDKLTEKASLAGSPQLSGPLSTGSVTIQPQDTGRNDTNNTRARSTDFLPSPLATDKNDGTVALVKSGSEKVKTTPAGEYLTAALNDFDPDQAEGLAAVSDGANKLLMLVLAAVIKAGASREHEILAEIRDAVFSFIRKMEPKRVMDTMLVSRVRILYIRSLLARSTELQSIKVLPVECFLEKTNTGRSRSSSRGSSPGRSPVQYVDEQIHGFKVNLKPEKKSKFSSVVLKIRGIDQDIWRQQVTGGKLREITEEAKSFAIGNKALAALFVHTPAGELQRQIRSWLAENFDFLSVTGNDASGGSTGQLELLSTAIMDGWMAGLGAALPPNTDALGQLLFEYSKRVYTSQLQHLKDIAGTLATEEAEDAPQVAKLRSALESVDHKRRKILQQMRSDVALLKLEDGGSPIQSPSTAAEDARLASLISLDSILKQIKDITGHSTGNAMSNSKKRTLLASLDELTERMPSLLEIDHPCAQRQIADARRMIESIPEDDRIQDPSHARKPSTDLGSGSETDVAQWNVLQFNTGTTSPFIIKCGANSNSELVIKANARVQEPTGGEIVRIAPRPTILENMSLEEMKHVFAELPEALSLLALARTPDGTRARYSRLYRTLAMKVPSLRNMISELEKGGVLKDPQLSSSVSASPSSFSASSPSNQFYPATGTQCSVYQSLWRIGIVETCSLSDLLTPFFLASGLESFQPPTCSGIGNQSEASLPPDRLRLLYQEVSEVPPSFDRLVLMVIDGLPAEFVLGKNGQPPRKAYMEAMPYTQSLLANGMAVGYHAMAAAPTVTMPRLKAMVSGAIGGFLDVALNFNTQALLDDNLLAKFFNIGWKMVMLGDDTWLRLFPGLFVRHDGVSSFFVKDTIQVDQNVSRHLGNEIDRDDWNLLILHYLGLDHVGHIGGRNSALMAPKLSEMDEVVKMIHMNTLQNIEDDQGQTLLVCYYLFVVVSDHGMTENGNHGGSSYEETDSLALFIGLKNHVYDHSLSNYDTVSQVDIAPTLALLFGVPIPKNSIGVLISKMFDSLTDDQKLRALELNSWQLFRLLQAQLPGLSCKKFPCDAFIIDSKPGVRECNGSQEEMFCCLYLNAAALHDAWKTKVVSRSNRIEDCCSSTIAAYHEFLKQASEWLSHKATDVCINLVILIHKEVPAGEEKQDLDDYLKHWKLDEAFILLGIIILVISMGSSSMIEEEHYIWHFLTSSVILIFLRQALQSFDYLSLIKGQNKRSGCKMSLLLFILFCGRILRGWHQGGVNWTNLPDISKWFEQDGSHYIKFVHLTACVLITSLGLFVLCKIGSKTKIVLVVGFSFLLSGILILRHVIKHQDILASSSKDATSSIQIIYIILGISTVTVVVALPWITPMPSSEMCSRWNKSTAHPAEIQNITPILGLKDCLCVIGCAYITSWCLLQLLLQQPINVMPVLLLFVQVLTIMLTFSSSGSHRKQWVEIAALYYMGWAGHFALGNSNTLATIDVAGAFIVTLPSFLCMVLYISVKDTVCPLITEDGNSVLKTLLGFPCLVPLSVNSVLVTAYTIVLLLMRNHLFIWSVYSPKYLYVCVATACVYIGVFIVAATVIYTYTVLFRHKKKRSLSSGSKQNGTQSIKERTD 2254
       

Annotation information


Select Seq ID Length Analysis Description Start End IPR GO
Glsi09g0983 2254 Coils Coil 629 652 - -
Glsi09g0983 2254 Coils Coil 64 91 - -
Glsi09g0983 2254 PANTHER PHOSPHATIDYLINOSITOL GLYCAN-RELATED 1344 2227 IPR039527 GO:0006506|GO:0051377
Glsi09g0983 2254 Pfam GPI ethanolamine phosphate transferase membrane region 1818 2125 IPR045687 -
Glsi09g0983 2254 FunFam GPI ethanolamine phosphate transferase 2 isoform X4 1503 1687 - -
Glsi09g0983 2254 CDD GPI_EPT_2 1382 1668 IPR037674 GO:0006506|GO:0051377
Glsi09g0983 2254 MobiDBLite consensus disorder prediction 664 704 - -
Glsi09g0983 2254 SUPERFAMILY Alkaline phosphatase-like 1386 1668 IPR017850 -
Glsi09g0983 2254 SMART kinesin_4 142 466 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
Glsi09g0983 2254 Coils Coil 545 565 - -
Glsi09g0983 2254 Gene3D Kinesin motor domain 88 458 IPR036961 -
Glsi09g0983 2254 Gene3D Alkaline Phosphatase, subunit A 1386 1682 IPR017850 -
Glsi09g0983 2254 Coils Coil 468 509 - -
Glsi09g0983 2254 MobiDBLite consensus disorder prediction 598 626 - -
Glsi09g0983 2254 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 144 504 IPR027417 -
Glsi09g0983 2254 FunFam kinesin-like protein KIN-14B isoform X1 91 459 - -
Glsi09g0983 2254 MobiDBLite consensus disorder prediction 1141 1164 - -
Glsi09g0983 2254 MobiDBLite consensus disorder prediction 664 705 - -
Glsi09g0983 2254 Coils Coil 570 597 - -
Glsi09g0983 2254 PRINTS Kinesin heavy chain signature 359 377 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
Glsi09g0983 2254 PRINTS Kinesin heavy chain signature 216 237 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
Glsi09g0983 2254 PRINTS Kinesin heavy chain signature 408 429 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
Glsi09g0983 2254 Pfam Kinesin motor domain 150 457 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
Glsi09g0983 2254 ProSiteProfiles Kinesin motor domain profile. 144 458 IPR001752 GO:0003777|GO:0005524|GO:0007018|GO:0008017
       

Duplication type information


Select Gene Chromosome Start End Duplicated_type
Glsi09g0983 Glsi-ChrGlsi09 6878459 6902991 Wgd
       

Functional genes information


Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Glsi09g0983 77 459 Calmodulin-binding Proteins AT5G65930 35.000 6.97e-50 193