Lag0015318 (gene) Sponge gourd (AG‐4) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGTATGGATCAAAAGAGCCATTGGGAACAGAAAACGACAAACCAGAGAGGAGTGAACTGGGTCAGATAATAATTTCTGAAATAGAGGGTCTAATCCAATTAGCTAATGGGGCTGATGGAAAGGAAAAAAAGAGAGACAGTAAAGAAGACAAGAGATTTCTGTCGGTAGGAAAAAATGAAACTAAAAAAGGGGAAGTAGGGAGTGAGTTGTGGAAAAATGGAAAAGGAAAAGTTAAAGCGTTAACCAGTGACCACAGTACAAAAATGACAAAGGAAAATTTCAATAGAATAGGAGAAGATACAGAAGAAGTGAGCAGTCATAAAGAAAGGATAAATGATTTAGATCCCATGACGATGGATTCTCAAACCACAGGAAGAGTTTTGGTGAATTCTAAGGATAAGGAAAACGAAAACAAGAAAGTCAATTCAAACAGAGGTGTCAGTCAAATGAGACCGAAATCTGAGTACGGGAAAGGAGCAGGTAAAACTTTGGAGATTAAGAATGGGAAAGAAACAGAGGAAGTCCGAAGGAACAACGTTAAAATGTGGAAAAGAATCGCTAGAACCAACAATGATATGAGCAATGAGTTCAGACTATCTGAGGAGATACAGAAGAAAAAGCTTAGAAAGGACCAAGAAAGCATGGAAACCGTGTTTGACAAAAAAAGCAGTGCACCAAGCCTCTCGAAGAAAGCGAGGGGGGATCGGCAGAGGCTGTGAATCAGCCCCGCCGGTCATTATGAAAATCTTAGTTCGAAACGTTCGAGGGGTGGGGAATCCTCGAACGGTCTATTATCTACACTTTGAAGTGCGTAAACACAACCTCAATCTTGTTTTCTTGATTGAATCTAAAAGCCAAAGCACTAATCAGGATAGGCTGAAGAGCAAGCTGAATTGTGGAGGCTATTTTTGCGTTTCGAGTATTTTAGAGGACTTGGTGGTTAATATTAAGTCTTTTTCCAAAGGTCACATAAACTATATGATTCATAAAGGCGATGAGTAGTGGCGTTTTACTGGTTTCTACGGAAGCGCGGGCCCCAATGGCAGGAAAGACTCGTGGGAGCTCATCAGAAGGCTCCACTCTTTTGACGATTCCCCATGGATTATAGGTGGGGATTTCAACAAGATTTTATTCGATTCCGAAAAGAATGGTGGTAGACAAAAAAGTAAGAGGCTTATAGATGAATTCAAATCTACTTTGAGCTTTTGTCATTTGGTGGATGTAGGCTTCAGAGGTGATAAGTTCATGTGGAGAAGAAGAGATAATAAAGGAGATATGGTCAAAGAAAGATTGGATAGATTTGTGGCTAACTTGCCCATGATTAACAAGATCCAAAAAATGGAGGTGGAGCATCTCAACTACCACAATTCAGACCATAAGCTTATTCTTGCTTCCTGGAACTCTAAAAATAGGCAAATCAATAGAAATGTGAAGAAAAGAAAACCTAGATTTGAGGAGAGTTGGCTACTTTTTGATGAGTGTAATCAGATTGTGAAAGAGGCTTGGGGTAAAAATCAGGGAGGGGGAGCTTGTGAGATTGTCCAGAAAACTGAAGAGAGCATGATGAAGCTGGCTTCATGGAACTTTAACAGATTGAAGGGTACTCTTAAAGGGGCGATTGACTGAAAATTGCAAGAAATAAATGTTGTGGATAAGTCCAACCAAGGTGACCTTTACAGTAACATAGAAAAAACAGAGAAAGAGTTGGACCTTTTGTTAGAAGAAGAAGAGACGTATTGGAGGCTGAGAGCGAGGAAAGATTGGCTTAAATGGGGTGATAGAAATACTAAATGGTTTCACTTCAATGCCTCTCATAGAAAAAGGAAAAACTCGATTGATAGGATTAAGGATTCGAATGGAGCTTGGGTGGAAGGAGAGGACAATATTGGAGTGGTGGCAATAGAGTACTTCAAAAAGCTCTTCTCATCTTCCAAACCCAATCAGGAGTTGATTGAATTTACTACAAAAGATATCAAAGCCAAGTTATTTGAGGATCAAAGAAGAGAGTTAGAGCGCCCTTTCTCTAAAGGTGAAATTGAGAGAGCTTTGAAAAATATGAATCCGTCTAAAGCGCTAGGTCCTGATGGTGCCCATGCTACGTTTTTCCAGAATTACTGGGATATCATAGGTGAAGACATCTCAAAAGTTTTCCTTGACATCCTGAACAAGGATGGTGAGTTAGGGTCATTGTATAGTTCATGGACTAAGCTGATTCCCAAAGTTAAAGTCCCAAAAAAGATGGAAAGATTTTGGCCTATCAGTTTGTGTAAAGTGGTTTATAAAATCATAGCTAAAGCCCTAGCTAACAGAATGAAGCAAGCTCTAGATAGTGTTATTTATCCATCTCAGGCGACTTTTATTCCAGGAAGGCTTATAACGGATAATGTGCTTATCGAGTTTGAGTGTATTCACGCTATTATCTGGAAAGGGGCGGGTAAGGAAGGGTACATTGCCATGAATTTGGATATGAGCAAGGCGTACGATCGTGTGGAATGGGCTTATATTCATAAAGTCATGGAGAAGTTGGGGTTTGGAGACAATTGGATCAACAAGGTGATGAAATGTGTGGAATCTGTCAGATATGTTGTGAAGATCAATGACTGCCCTACCTCAGAGTTCTATCCAGAAAGAGGCCTTCGCCAAGGAGATCCCCTATCCACGTATTTGTTTTTTCTTTGTGCTGAAAGATTCTCCGCTCTGATTAATAGGGAGGAAAATCTATCATCTTTAAATGGCTTAAAAATTAATAAATGTTGTCTTTTTCTAACTGATCTCTTTTTTCAGATGACAGTATGATATTCCTCAAAGCCAACTGGAAAAATTGTGAGACCATCAAAAAATTCTTGGGAGAATACGAAGCGGTATCGGGTCAAACTATAAATTTTGACAAATCGGCATGTATGACGAGTAAGAATATCAATAGGGAATCGGTAAGAGGGTTCAGTAACTTCCTTGGGGTTAAACTTGTTGAGTCTTTGGGATACTACCTTGGTATGCCCTCTCAAACAGGTAGAAGGAATCATCATGTTTTTTTGGAAAGTAAAAGAGAGTATTTGGAAAATCCTCCAAGGTTGGAAGGAAAGGCTTTTCTCTATGGGAGGAAAGAAGGTGTTGATTAAAGCGGTGGCTCAAGCTATTCCAACGTACACTATGAGTTGTTTTATGCTCCCAAAAGGTATTTGTGAGGAGATCAATAAGCTTTGTGCTAAGTTCTGGTGGGGCTTTGTAGGGGATAAAAAGAAGGCCCATTGGATGAGTTGGAAAAAGCTTTGCGCTAGTAAGGAGTTTGAAGGGCTTGGTTTTAGAGATATTAGTTTGTTTAATCAAGCAATGCTCACAAAGCAAAGTTGGTGGATCATAAAAAAATCCCTACAACCTCCTTGCCAAAGTTTTAAGAGGGAAATATTTTAAGTACAACAATTTTTTTGAAGCCTCGCTTGGGTCAAACCCTTTCTTAACTTGGAGAAGTATCCTTTGGGGAAGGGACCTTTTTAAACAAGGCATGAGATGGAGGGTGGGGAGTGAAGCTCATATTAGGATTAAAGATGATCCCTGGATCCCAAGAGAAGGGAATTATAAACCAATGTGGATTAGGGAAGAGTTAGTTGATGGTAGAGTAGCTGATGTGCAATTTGCATACCGCAAGTGTACGAGTCAAGTAATAATATAGTGTTTTCGTGATTAAACGAGTGTCGTCCTCTGGATTGGTTTTCTAGCAAATTAAGTACCGTGAATACTTTTGTCCAATTTTATTTAGGGAGCAAAACTCAATGATAAAGATAAAAGTAAAGACTAAAAGCATAAAAATAAAAGTGGAGACTCAAATGGAAAGACTCTTAGGGAATTGATTTCATTGATTAAGATTGAGGATTGATTAATAGGAATGAATTGACCGTGCAATTATTCTACAAGCCAAGGAAACTTTTATCACGATTACCTCTCCCGAGTATAATTGATTCTCATGCATATAAACTAACTTGATATCCCTATCTAAGTTCATTAACATGCAAGACATTGTTCGGTTCGGTCCTTGTTACACTTCTAAAGATATTCCAAATCCCGTCACAAACTTAGAATTTCTACTCTAGTCATGCAATTAAACAAAGTAAGTCTTAGGCCAAATCCTCCCTCCCGAGTTAGATTCAACACTTAAATCATTCAATTAGTGATCAAGTAATTGAAAGCATTAAACAAAATTGCATGAATAAAATAAAAACACATTCATACCTAAAATCAATCCAACAACTTAAACAACTACATCAAACCCTAAGACAAACAACTAGAAATGCATAGTCTTTAAACTACAAACACTAATTGAAAGAAAAGCCATAAAAACTACAAGAGTTAAGGGAAAGAGAAAGGAAAACTCAAATCCGCTAACACCGCACGTCCCTGTCACGATCTCCACGTCTTCTTGCTTGATTCCCACTCCTTGGCCTTGCCTTTAGCTCCCACAAAAGGTCTCTAGTCGAAATTAGGGCTAAAATCTTACCAATTGGACTCCCCTAATCCGTAGCTGAAAAGAGAAATTTATAGAAAATATGTCGATAGCGTCACGACGCTATTTTTTTTTTTTTTTTTTTTTTTTTTTAGGATTGAACTCCATTTTACTCCAATTGTTGAATTAAGATTCAAACACATACTTCCTACAAATAAAACATAAAAATGCATAAATTTGGGCAAATAATTGTAAAAGACTAACTTAATTAATCAGAGAAAAATAGCTAGCTATGCTCGCTATCAGTAGCTGAGCTTATTTCTGATACAGGCGCTTGGAAAAAAGAATAGATAAAAACAGCCTTTATCAAGGCAGATGCAGAAGCTATTCTCGACATTCCAACAGGGAATAAAGAAGCAAAAGACACCATCATCTGAGGGTCGGACTCCAAAGGAAAGTTCACTGTTAAAAGTGCATACCACCTAGCCTATAACATTGATAAATCAGATAAGGAGTCTGCATTAAATTCTTCTAATCTAAGGACATCTAGAAAGGTTTTTGGAAGATTAAATTAGCTTTGAAGGAGAAACTTTGTGCTTGGCGAGCTATTCAGAATTTCCTCCGTACTCAAGTTAACATTATTAGCAAAGGAATCGATGCTAATCATCTATGTTTCTTGTGTAGGAAGAAGGCCGAGTCCGTGGAGCACGTGATGTGGAACTGCAAAATTGCTAGGTTTGTTTGGGGTCATTTTTTCCCTATCTTACAGGAGTTTTTGGATTTTTTCAAGGATGGATGGGTTGCTAAGGATAAATGGGTGAAGCTGCTGGAGTTGATCAAAGCTGAAGGTTCATCTAAAGCCATCAACATTATTTGGAGCATATGGTGTTGGGTTTTATGCCCTAAAACTCGTAGATAGTGAATGTAACTGTTGACCGGATATTAATGAAATAATATTGATATATTTTTCCATTAATTGTTATTAGTTATTTTATATTTGTCTTTGCCTAAAAATAACTCTAATACAATAAACTAGACATCCAAGGCTGTAATATGAGTCTTGAACGATATGTAGCGACATATGGGATCATTGTTCAAGAAACAGCCTAAAGGGTCTATAGTATAGGGATAAGACTGGGTGCCTTATCCTGGTGACACTATGGACACGACCCACTTTGTATTTGATACAAACGTTGCGATCCAACGCGTTCATGTAGTAGACATGCGAGTGGGGTATCCTATGCAATGAGTTTGCATAAGACCGGACCGCGAAATAGTAACCACTGGTTATAACACCGTTAACTAGTTGGTTTTCTATTTCACTAGGACGACCTAGACAACTTAGTCTTAATCCTGAGTTGATTATGGACTCCTGCTCATGAGAGATTGTCCTTTGATTTGTATGGGTGAGAGTGGCCAATATGCCGACTCAATAAGCCTACCATTTTGGGGACAAGACCGAATGGGGAGCTGGGAACATAATCGTACAAGATGGAATTCACTCCTTCCTGACTTTAGGGAAGCAGATGAGTGTTCCCTTAAGTGGTTACTCCGAGTCTTGAACAAAGGGCCATACTCTCTCAATGGCACGAGAGGGTTTTCTGTTTGA ATGTATGGATCAAAAGAGCCATTGGGAACAGAAAACGACAAACCAGAGAGGAGTGAACTGGGTCAGATAATAATTTCTGAAATAGAGGGTCTAATCCAATTAGCTAATGGGGCTGATGGAAAGGAAAAAAAGAGAGACAGTAAAGAAGACAAGAGATTTCTGTCGGTAGGAAAAAATGAAACTAAAAAAGGGGAAGTAGGGAGTGAGTTGTGGAAAAATGGAAAAGGAAAAGTTAAAGCGTTAACCAGTGACCACAGTACAAAAATGACAAAGGAAAATTTCAATAGAATAGGAGAAGATACAGAAGAAGTGAGCAGTCATAAAGAAAGGATAAATGATTTAGATCCCATGACGATGGATTCTCAAACCACAGGAAGAGTTTTGGTGAATTCTAAGGATAAGGAAAACGAAAACAAGAAAGTCAATTCAAACAGAGGTGTCAGTCAAATGAGACCGAAATCTGAGTACGGGAAAGGAGCAGGTAAAACTTTGGAGATTAAGAATGGGAAAGAAACAGAGGAAGTCCGAAGGAACAACGTTAAAATGTGGAAAAGAATCGCTAGAACCAACAATGATATGAGCAATGAGTTCAGACTATCTGAGGAGATACAGAAGAAAAAGCTTAGAAAGGACCAAGAAAGCATGGAAACCGTGTTTGACAAAAAAAGCAGTGCACCAAGCCTCTCGAAGAAAGCGAGGGGGGATCGGCAGAGGCTCGCGGGCCCCAATGGCAGGAAAGACTCGTGGGAGCTCATCAGAAGGCTCCACTCTTTTGACGATTCCCCATGGATTATAGGTGGGGATTTCAACAAGATTTTATTCGATTCCGAAAAGAATGGTGGTAGACAAAAAAGTAAGAGGCTTATAGATGAATTCAAATCTACTTTGAGCTTTTGTCATTTGGTGGATGTAGGCTTCAGAGGTGATAAGTTCATGTGGAGAAGAAGAGATAATAAAGGAGATATGGTCAAAGAAAGATTGGATAGATTTGTGGCTAACTTGCCCATGATTAACAAGATCCAAAAAATGGAGGTGGAGCATCTCAACTACCACAATTCAGACCATAAGCTTATTCTTGCTTCCTGGAACTCTAAAAATAGGCAAATCAATAGAAATGTGAAGAAAAGAAAACCTAGATTTGAGGAGAGTTGGCTACTTTTTGATGAGTGTAATCAGATTGTGAAAGAGGCTTGGGGTAAAAATCAGGGAGGGGGAGCTTGTGAGATTGTCCAGAAAACTGAAGAGAGCATGATGAAGCTGGCTTCATGGAACTTTAACAGATTGAAGGAGAAAGAGTTGGACCTTTTGTTAGAAGAAGAAGAGACGTATTGGAGGCTGAGAGCGAGGAAAGATTGGCTTAAATGGGGTGATAGAAATACTAAATGGTTTCACTTCAATGCCTCTCATAGAAAAAGGAAAAACTCGATTGATAGGATTAAGGATTCGAATGGAGCTTGGGTGGAAGGAGAGGACAATATTGGAGTGGTGGCAATAGAGTACTTCAAAAAGCTCTTCTCATCTTCCAAACCCAATCAGGAGTTGATTGAATTTACTACAAAAGATATCAAAGCCAAGTTATTTGAGGATCAAAGAAGAGAGTTAGAGCGCCCTTTCTCTAAAGGTGAAATTGAGAGAGCTTTGAAAAATATGAATCCGTCTAAAGCGCTAGGTCCTGATGGTGCCCATGCTACGTTTTTCCAGAATTACTGGGATATCATAGGTGAAGACATCTCAAAAGTTTTCCTTGACATCCTGAACAAGGATGGTGAGTTAGGGTCATTGTATAGTTCATGGACTAAGCTGATTCCCAAAGTTAAAGTCCCAAAAAAGATGGAAAGATTTTGGCCTATCAGTTTGTGTAAAGTGGTTTATAAAATCATAGCTAAAGCCCTAGCTAACAGAATGAAGCAAGCTCTAGATAGTGTTATTTATCCATCTCAGGCGACTTTTATTCCAGGAAGGCTTATAACGGATAATGTGCTTATCGAGTTTGAGTGTATTCACGCTATTATCTGGAAAGGGGCGGGTAAGGAAGGGTACATTGCCATGAATTTGGATATGAGCAAGGCGTACGATCGTGTGGAATGGGCTTATATTCATAAAGTCATGGAGAAGTTGGGGTTTGGAGACAATTGGATCAACAAGGTGATGAAATGTGTGGAATCTGTCAGATATGTTGTGAAGATCAATGACTGCCCTACCTCAGAGTTCTATCCAGAAAGAGGCCTTCGCCAAGGAGATCCCCTATCCACTATGATATTCCTCAAAGCCAACTGGAAAAATTGTGAGACCATCAAAAAATTCTTGGGAGAATACGAAGCGGTATCGGGTCAAACTATAAATTTTGACAAATCGGCATGTATGACGAGTAAGAATATCAATAGGGAATCGGTAAGAGGGTTCAGTAACTTCCTTGGGGTTAAACTTGTTGAGTCTTTGGGATACTACCTTGGTTGGAAGGAAAGGCTTTTCTCTATGGGAGGAAAGAAGGTGTTGATTAAAGCGGTGGCTCAAGCTATTCCAACGTACACTATGAGTTGTTTTATGCTCCCAAAAGGTATTTGTGAGGAGATCAATAAGCTTTGTGCTAAGTTCTGGTGGGGCTTTGTAGGGGATAAAAAGAAGGCCCATTGGATGAGTTGGAAAAAGCTTTGCGCTAGTAAGGAGTTTGAAGGGCTTGGTTTTAGAGATATTAGTTTGTTTAATCAAGCAATGCTCACAAAGCAAACCTCGCTTGGGTCAAACCCTTTCTTAACTTGGAGAAGTATCCTTTGGGGAAGGGACCTTTTTAAACAAGGCATGAGATGGAGGGTGGGGAGTGAAGCTCATATTAGGATTAAAGATGATCCCTGGATCCCAAGAGAAGGGAATTATAAACCAATGTGGATTAGGGAAGAGTTAGTTGATGGTAGAGTAGCTGATGTGCAATTTGCATACCGCAAGAAGAAGGCCGAGTCCGTGGAGCACGTGATGTGGAACTGCAAAATTGCTAGGTTTGTTTGGGGTCATTTTTTCCCTATCTTACAGGAGTTTTTGGATTTTTTCAAGGATGGATGGGTTGCTAAGGATAAATGGGTGAAGCTGCTGGAGTTGATCAAAGCTGAAGATTGTCCTTTGATTTGTATGGGTGAGAGTGGCCAATATGCCGACTCAATAAGCCTACCATTTTGGGGACAAGACCGAATGGGGAGCTGGGAACATAATCGTACAAGATGGAATTCACTCCTTCCTGACTTTAGGGAAGCAGATGAGTGTTCCCTTAAGTGGTTACTCCGAGTCTTGAACAAAGGGCCATACTCTCTCAATGGCACGAGAGGGTTTTCTGTTTGA ATGTATGGATCAAAAGAGCCATTGGGAACAGAAAACGACAAACCAGAGAGGAGTGAACTGGGTCAGATAATAATTTCTGAAATAGAGGGTCTAATCCAATTAGCTAATGGGGCTGATGGAAAGGAAAAAAAGAGAGACAGTAAAGAAGACAAGAGATTTCTGTCGGTAGGAAAAAATGAAACTAAAAAAGGGGAAGTAGGGAGTGAGTTGTGGAAAAATGGAAAAGGAAAAGTTAAAGCGTTAACCAGTGACCACAGTACAAAAATGACAAAGGAAAATTTCAATAGAATAGGAGAAGATACAGAAGAAGTGAGCAGTCATAAAGAAAGGATAAATGATTTAGATCCCATGACGATGGATTCTCAAACCACAGGAAGAGTTTTGGTGAATTCTAAGGATAAGGAAAACGAAAACAAGAAAGTCAATTCAAACAGAGGTGTCAGTCAAATGAGACCGAAATCTGAGTACGGGAAAGGAGCAGGTAAAACTTTGGAGATTAAGAATGGGAAAGAAACAGAGGAAGTCCGAAGGAACAACGTTAAAATGTGGAAAAGAATCGCTAGAACCAACAATGATATGAGCAATGAGTTCAGACTATCTGAGGAGATACAGAAGAAAAAGCTTAGAAAGGACCAAGAAAGCATGGAAACCGTGTTTGACAAAAAAAGCAGTGCACCAAGCCTCTCGAAGAAAGCGAGGGGGGATCGGCAGAGGCTCGCGGGCCCCAATGGCAGGAAAGACTCGTGGGAGCTCATCAGAAGGCTCCACTCTTTTGACGATTCCCCATGGATTATAGGTGGGGATTTCAACAAGATTTTATTCGATTCCGAAAAGAATGGTGGTAGACAAAAAAGTAAGAGGCTTATAGATGAATTCAAATCTACTTTGAGCTTTTGTCATTTGGTGGATGTAGGCTTCAGAGGTGATAAGTTCATGTGGAGAAGAAGAGATAATAAAGGAGATATGGTCAAAGAAAGATTGGATAGATTTGTGGCTAACTTGCCCATGATTAACAAGATCCAAAAAATGGAGGTGGAGCATCTCAACTACCACAATTCAGACCATAAGCTTATTCTTGCTTCCTGGAACTCTAAAAATAGGCAAATCAATAGAAATGTGAAGAAAAGAAAACCTAGATTTGAGGAGAGTTGGCTACTTTTTGATGAGTGTAATCAGATTGTGAAAGAGGCTTGGGGTAAAAATCAGGGAGGGGGAGCTTGTGAGATTGTCCAGAAAACTGAAGAGAGCATGATGAAGCTGGCTTCATGGAACTTTAACAGATTGAAGGAGAAAGAGTTGGACCTTTTGTTAGAAGAAGAAGAGACGTATTGGAGGCTGAGAGCGAGGAAAGATTGGCTTAAATGGGGTGATAGAAATACTAAATGGTTTCACTTCAATGCCTCTCATAGAAAAAGGAAAAACTCGATTGATAGGATTAAGGATTCGAATGGAGCTTGGGTGGAAGGAGAGGACAATATTGGAGTGGTGGCAATAGAGTACTTCAAAAAGCTCTTCTCATCTTCCAAACCCAATCAGGAGTTGATTGAATTTACTACAAAAGATATCAAAGCCAAGTTATTTGAGGATCAAAGAAGAGAGTTAGAGCGCCCTTTCTCTAAAGGTGAAATTGAGAGAGCTTTGAAAAATATGAATCCGTCTAAAGCGCTAGGTCCTGATGGTGCCCATGCTACGTTTTTCCAGAATTACTGGGATATCATAGGTGAAGACATCTCAAAAGTTTTCCTTGACATCCTGAACAAGGATGGTGAGTTAGGGTCATTGTATAGTTCATGGACTAAGCTGATTCCCAAAGTTAAAGTCCCAAAAAAGATGGAAAGATTTTGGCCTATCAGTTTGTGTAAAGTGGTTTATAAAATCATAGCTAAAGCCCTAGCTAACAGAATGAAGCAAGCTCTAGATAGTGTTATTTATCCATCTCAGGCGACTTTTATTCCAGGAAGGCTTATAACGGATAATGTGCTTATCGAGTTTGAGTGTATTCACGCTATTATCTGGAAAGGGGCGGGTAAGGAAGGGTACATTGCCATGAATTTGGATATGAGCAAGGCGTACGATCGTGTGGAATGGGCTTATATTCATAAAGTCATGGAGAAGTTGGGGTTTGGAGACAATTGGATCAACAAGGTGATGAAATGTGTGGAATCTGTCAGATATGTTGTGAAGATCAATGACTGCCCTACCTCAGAGTTCTATCCAGAAAGAGGCCTTCGCCAAGGAGATCCCCTATCCACTATGATATTCCTCAAAGCCAACTGGAAAAATTGTGAGACCATCAAAAAATTCTTGGGAGAATACGAAGCGGTATCGGGTCAAACTATAAATTTTGACAAATCGGCATGTATGACGAGTAAGAATATCAATAGGGAATCGGTAAGAGGGTTCAGTAACTTCCTTGGGGTTAAACTTGTTGAGTCTTTGGGATACTACCTTGGTTGGAAGGAAAGGCTTTTCTCTATGGGAGGAAAGAAGGTGTTGATTAAAGCGGTGGCTCAAGCTATTCCAACGTACACTATGAGTTGTTTTATGCTCCCAAAAGGTATTTGTGAGGAGATCAATAAGCTTTGTGCTAAGTTCTGGTGGGGCTTTGTAGGGGATAAAAAGAAGGCCCATTGGATGAGTTGGAAAAAGCTTTGCGCTAGTAAGGAGTTTGAAGGGCTTGGTTTTAGAGATATTAGTTTGTTTAATCAAGCAATGCTCACAAAGCAAACCTCGCTTGGGTCAAACCCTTTCTTAACTTGGAGAAGTATCCTTTGGGGAAGGGACCTTTTTAAACAAGGCATGAGATGGAGGGTGGGGAGTGAAGCTCATATTAGGATTAAAGATGATCCCTGGATCCCAAGAGAAGGGAATTATAAACCAATGTGGATTAGGGAAGAGTTAGTTGATGGTAGAGTAGCTGATGTGCAATTTGCATACCGCAAGAAGAAGGCCGAGTCCGTGGAGCACGTGATGTGGAACTGCAAAATTGCTAGGTTTGTTTGGGGTCATTTTTTCCCTATCTTACAGGAGTTTTTGGATTTTTTCAAGGATGGATGGGTTGCTAAGGATAAATGGGTGAAGCTGCTGGAGTTGATCAAAGCTGAAGATTGTCCTTTGATTTGTATGGGTGAGAGTGGCCAATATGCCGACTCAATAAGCCTACCATTTTGGGGACAAGACCGAATGGGGAGCTGGGAACATAATCGTACAAGATGGAATTCACTCCTTCCTGACTTTAGGGAAGCAGATGAGTGTTCCCTTAAGTGGTTACTCCGAGTCTTGAACAAAGGGCCATACTCTCTCAATGGCACGAGAGGGTTTTCTGTTTGA MYGSKEPLGTENDKPERSELGQIIISEIEGLIQLANGADGKEKKRDSKEDKRFLSVGKNETKKGEVGSELWKNGKGKVKALTSDHSTKMTKENFNRIGEDTEEVSSHKERINDLDPMTMDSQTTGRVLVNSKDKENENKKVNSNRGVSQMRPKSEYGKGAGKTLEIKNGKETEEVRRNNVKMWKRIARTNNDMSNEFRLSEEIQKKKLRKDQESMETVFDKKSSAPSLSKKARGDRQRLAGPNGRKDSWELIRRLHSFDDSPWIIGGDFNKILFDSEKNGGRQKSKRLIDEFKSTLSFCHLVDVGFRGDKFMWRRRDNKGDMVKERLDRFVANLPMINKIQKMEVEHLNYHNSDHKLILASWNSKNRQINRNVKKRKPRFEESWLLFDECNQIVKEAWGKNQGGGACEIVQKTEESMMKLASWNFNRLKEKELDLLLEEEETYWRLRARKDWLKWGDRNTKWFHFNASHRKRKNSIDRIKDSNGAWVEGEDNIGVVAIEYFKKLFSSSKPNQELIEFTTKDIKAKLFEDQRRELERPFSKGEIERALKNMNPSKALGPDGAHATFFQNYWDIIGEDISKVFLDILNKDGELGSLYSSWTKLIPKVKVPKKMERFWPISLCKVVYKIIAKALANRMKQALDSVIYPSQATFIPGRLITDNVLIEFECIHAIIWKGAGKEGYIAMNLDMSKAYDRVEWAYIHKVMEKLGFGDNWINKVMKCVESVRYVVKINDCPTSEFYPERGLRQGDPLSTMIFLKANWKNCETIKKFLGEYEAVSGQTINFDKSACMTSKNINRESVRGFSNFLGVKLVESLGYYLGWKERLFSMGGKKVLIKAVAQAIPTYTMSCFMLPKGICEEINKLCAKFWWGFVGDKKKAHWMSWKKLCASKEFEGLGFRDISLFNQAMLTKQTSLGSNPFLTWRSILWGRDLFKQGMRWRVGSEAHIRIKDDPWIPREGNYKPMWIREELVDGRVADVQFAYRKKKAESVEHVMWNCKIARFVWGHFFPILQEFLDFFKDGWVAKDKWVKLLELIKAEDCPLICMGESGQYADSISLPFWGQDRMGSWEHNRTRWNSLLPDFREADECSLKWLLRVLNKGPYSLNGTRGFSV Homology
BLAST of Lag0015318 vs. NCBI nr
Match: XP_023878301.1 (uncharacterized protein LOC111990748 [Quercus suber]) HSP 1 Score: 560.1 bits (1442), Expect = 4.4e-155 Identity = 320/847 (37.78%), Postives = 450/847 (53.13%), Query Frame = 0
BLAST of Lag0015318 vs. NCBI nr
Match: PRQ56718.1 (putative RNA-directed DNA polymerase [Rosa chinensis]) HSP 1 Score: 548.5 bits (1412), Expect = 1.3e-151 Identity = 312/865 (36.07%), Postives = 457/865 (52.83%), Query Frame = 0
BLAST of Lag0015318 vs. NCBI nr
Match: XP_030923330.1 (uncharacterized protein LOC115950239 [Quercus lobata]) HSP 1 Score: 545.4 bits (1404), Expect = 1.1e-150 Identity = 310/841 (36.86%), Postives = 432/841 (51.37%), Query Frame = 0
BLAST of Lag0015318 vs. NCBI nr
Match: XP_010688579.1 (PREDICTED: uncharacterized protein LOC104902491 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 532.7 bits (1371), Expect = 7.5e-147 Identity = 309/836 (36.96%), Postives = 427/836 (51.08%), Query Frame = 0
BLAST of Lag0015318 vs. NCBI nr
Match: XP_030936391.1 (uncharacterized protein LOC115961572 [Quercus lobata]) HSP 1 Score: 531.2 bits (1367), Expect = 2.2e-146 Identity = 310/863 (35.92%), Postives = 442/863 (51.22%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy Swiss-Prot
Match: P14381 (Transposon TX1 uncharacterized 149 kDa protein OS=Xenopus laevis OX=8355 PE=4 SV=1) HSP 1 Score: 134.4 bits (337), Expect = 7.8e-30 Identity = 92/310 (29.68%), Postives = 155/310 (50.00%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy Swiss-Prot
Match: P11369 (LINE-1 retrotransposable element ORF2 protein OS=Mus musculus OX=10090 GN=Pol PE=1 SV=2) HSP 1 Score: 127.5 bits (319), Expect = 9.5e-28 Identity = 92/322 (28.57%), Postives = 153/322 (47.52%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy Swiss-Prot
Match: O00370 (LINE-1 retrotransposable element ORF2 protein OS=Homo sapiens OX=9606 PE=1 SV=1) HSP 1 Score: 119.8 bits (299), Expect = 2.0e-25 Identity = 138/596 (23.15%), Postives = 251/596 (42.11%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy Swiss-Prot
Match: P93295 (Uncharacterized mitochondrial protein AtMg00310 OS=Arabidopsis thaliana OX=3702 GN=AtMg00310 PE=4 SV=1) HSP 1 Score: 109.8 bits (273), Expect = 2.0e-22 Identity = 54/152 (35.53%), Postives = 79/152 (51.97%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy Swiss-Prot
Match: P0C2F6 (Putative ribonuclease H protein At1g65750 OS=Arabidopsis thaliana OX=3702 GN=At1g65750 PE=3 SV=1) HSP 1 Score: 90.5 bits (223), Expect = 1.3e-16 Identity = 51/166 (30.72%), Postives = 78/166 (46.99%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy TrEMBL
Match: A0A2P6SDG4 (Putative RNA-directed DNA polymerase OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr1g0340391 PE=4 SV=1) HSP 1 Score: 548.5 bits (1412), Expect = 6.4e-152 Identity = 312/865 (36.07%), Postives = 457/865 (52.83%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy TrEMBL
Match: A0A2N9EWI8 (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS6846 PE=4 SV=1) HSP 1 Score: 543.9 bits (1400), Expect = 1.6e-150 Identity = 304/819 (37.12%), Postives = 432/819 (52.75%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy TrEMBL
Match: A0A7N2L6Z9 (Reverse transcriptase domain-containing protein OS=Quercus lobata OX=97700 PE=4 SV=1) HSP 1 Score: 541.2 bits (1393), Expect = 1.0e-149 Identity = 303/829 (36.55%), Postives = 430/829 (51.87%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy TrEMBL
Match: A0A2N9J6I3 (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS60908 PE=4 SV=1) HSP 1 Score: 538.5 bits (1386), Expect = 6.6e-149 Identity = 317/832 (38.10%), Postives = 433/832 (52.04%), Query Frame = 0
BLAST of Lag0015318 vs. ExPASy TrEMBL
Match: A0A2N9IPS8 (Reverse transcriptase domain-containing protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS55418 PE=4 SV=1) HSP 1 Score: 535.8 bits (1379), Expect = 4.3e-148 Identity = 299/880 (33.98%), Postives = 448/880 (50.91%), Query Frame = 0
BLAST of Lag0015318 vs. TAIR 10
Match: ATMG00310.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 109.8 bits (273), Expect = 1.5e-23 Identity = 54/152 (35.53%), Postives = 79/152 (51.97%), Query Frame = 0
BLAST of Lag0015318 vs. TAIR 10
Match: AT4G29090.1 (Ribonuclease H-like superfamily protein ) HSP 1 Score: 93.6 bits (231), Expect = 1.1e-18 Identity = 49/142 (34.51%), Postives = 68/142 (47.89%), Query Frame = 0
BLAST of Lag0015318 vs. TAIR 10
Match: AT1G43760.1 (DNAse I-like superfamily protein ) HSP 1 Score: 77.8 bits (190), Expect = 6.1e-14 Identity = 98/405 (24.20%), Postives = 161/405 (39.75%), Query Frame = 0
BLAST of Lag0015318 vs. TAIR 10
Match: AT4G20520.1 (RNA binding;RNA-directed DNA polymerases ) HSP 1 Score: 77.8 bits (190), Expect = 6.1e-14 Identity = 33/96 (34.38%), Postives = 59/96 (61.46%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (AG-4) v1
Date Performed: 2022-08-01
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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