Lcy12g007340 (gene) Sponge gourd (P93075) 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.ATGGACAGCTTTCTAAATACGCTCAATAGATGTTTGCTTGTAGATGCTGGGTATTCGGGGGACAAATTCATCTGGAGGAGGGGCAAATCTAAAAAGAATTAGATCAAAGAGAGGCTTGACCGGTTTTGCCTTAATCACGCTATGATGAGTAAGGCCCCTTGCATTAAAGTTAACCACCTAAGTTTTTATGGTTTTGATCACAGGGTGATTGTCGCTAGCTGGGAGGACAGATTCACTTACATACCCAAAAATCATCAAAGCCGTGGCAAAATCCTGAGATATGAAGAAAGTTGGGGTAAGAAGAAAGAGGCCAAAGATGTGATCTCCAATAGTTGGGAAGACCATGCGGATTGTACTGTTGGAGGAGCCCAAAAGCTCAGCAAGAAGGTGTATAGATGCATACACAATCTTCACATTTGGAATAAACAGAGGTTAAATGGCAGCATACAAAAGGCTATTTCTACTAAAGAAGACGCTCTAAACAACTTGTATGAAGAGAACAATGAAGACATATGGGAAGAGATAGTCAAGGCTGAGATGGAACTAGATGAATTATTGGCTGAGGAGGAAGAGTATTGGCGCAATAGAGCTAGAGAGGATTGGTTAAAAAGTGGGGACCGTAACACCAAATGGTTCCATGCCAAAGCATCTAAAAGAAGAAAGAGGAATAGAATCGAAGGTTTGTTTGCGGAGAATGGGGATTGGGTGGAGGATGAAAATGATATTGGGAGCATTGCTACTGACTATTTTGTGAAGTTATTCCAATCCTCCAATCCGGACTAGGACGCTATGGAACGAATATCTGATTGCATTCTCAATATGATCCCCGAACAAGTTAAAGAGGACCTTGAGAGACCGTTGTTGAGTGAGAAATTTCGGCCAATCATAAATTGCCACGTCATTAATTTGAATTAATGATGAAATAAATTTTGGGACCAATTACAAATTTACATGTGTCCCTAAATTAAATTAATAGACATTAAAATTCGGCAAATCAAACAATGCCACTTGTCTATTATTGATCTATCAGATGACATAAGCCGAGTCCAATCAAATTATGCCACGTGGCAATTGGACCCGAGACTAATGTGACCCGAGATCATTGAAGAAATTGGGCTAAATTAAAATAATCCAATTTTATTAAAAATGAGTTGGATTAAAGCCCAAATATAGCCGAAGCCCAAATGTTGGGCCCAAGCCCAAGCCCATATGAGGTCCATCAAACTCTATAAATAGAGGAGGCCACCATTCATTTTGGGCATTCAGACAGAGTTAGAGAAGCCAGAGCCCAGAGCATTCTCCCAAGGTCCAGAGTCTTCAGAAGTCAGAGAGTCCAGAGAATTCAGAAGATCCAAGATTCAGAATTCGACTATCTCAAGACTCAGAAGATCCAACGACTGGAAGACTCCAAAGAATCAACCGTTTCTTCATCAAGATACAAGTTGAAGATTCAACCTTCCTCCGTCTGAGATCAAGCTCGCCAGCCCTCAGATCAGACTCTACATTTTGAGAGAAAGCATCAGAGGATAAATATTAGAGACTGTAACACTTCTACATACAAAATCAATAAAATCAAGTTCATTTCCACGAATTAAATTTCCTTTGTCGAAATCTCGTGTGAACAACCGTACTCAAGAAAAGAAGTCGAGGTTGCTTTAAACAACCTTAACCCCACAAAGGCCCCTGGTTTGGATGGAACTCATGCTGCTTTTTACCAATCCTTTTGGGATATAGTAGGGGATGATACCATTGGAGTATGTCTCCAAATTTTGAACGACAACGTTGACATTTCTCCCATTAACAAAACAGTCATAGCCCTTATCCCAAAGGTGAAAGATCCAAAGCATATGCACGAATTCAGACCAATCAGTCTGTGCAATGTAAGTTATAAGATTGTTGCCAAAACTATTGCGAACCATTTCAAGAAAGTCCTGGACTTAATTATATCTCCTTCTCAAGTGGCCTTTGTCTCGGGAAGATTAATCTCTGACAATGTGATTGTGGGCTTCGAATGCATCCATGCTATTAGAAGTAGGAAAAAGTGGAAGGAAGGTCAAGTGGCCATTAAACTCGACATGAGCAAGGCTTATGATCGGGTTGAATGGAAGTTCATTAGAGAAATGCTATCTAAGATGGGATTTGGCACCAAATGGGTTAGCAATATCATGAAGTGCGTGGAATCGGTTAGCTTTTCGGTCATGATTAATGGATGGCCACAAGAGGAGTTCTCTCCACAACGAGGCATAAGACAGGGAGATCCGCTATCACCATACATCTTCCTTATATGTGCCGAAGGGTTCTCGAGTCTCCTAACTAGGGAAATTGATTCCAGAAATCTAAATGGCTTTCGTATTAATAACTATTGCCCTAATATTTCCCATTTATTTTTCGTTGATGTATGAAGAAGCCTCTGGGCAAAAAATCAACTTGGAGAAATCTGCCTTCATTCTGAGTAAAAATGTTAAGAAAGAGGATGCGGTGATGATTGAGGAGATCCTTGGGATTAAGAAATCTAATTCCCTAGGTCCCTATTTAGGAATGCCATCCCAAGGCGGTAGGAACAAATCCAAAATGTTCGACAAAATAAGGCAGAAAGTCGCAAACATGCTCCAGGGTTGGAACGAAAGGCTTTTTTCGGCGAGAGGGAAAGAGGTTCTCATTAAAGTAGTCATCCAAGCGATTCCCACATACAACATGAGTTGCTTTAAGCTCCCTAAAGGAATTTGCGATGACATTAACAGAATGTGTGCTAGATTTTGGTGGGGAGCAGTGGGAGATAAGAAGAAGATGCATTGGGCCAGCTGGAAAAAACTTTGTATCAGCAAAGATATGGGAGGCCTTGGCTTTAGGGATTTAAGCCTTTTTAACCAAGCGCTCCTGGCTAAGCAGAGCTGGCGAATATTGAGAGATCCTAATAGCCTCATGAGCAAGGTTCTTAGAGGCTGGTGAAGGTGTTCATATAACATATGCGGAAGCAATTGAAGATCGGGAGCACCTAACTACATCAATTTTACATCTAAAGCATGCATGTCCTAAAGAAACCAGAACAGAGAGTTTAGAACAACCAACCTTTTGGAGCTCAATAGGTGGACCTCCGTGGATTCTTTTCTTCTCCAATCTACTTAGGACAACCCTTAGAGTCTTCCCTACTATTCTCCGGGCCAAGAACGACTTGTGGGAGTCTATAAAGATAGGGAATGGGAAGGGAATGCTTGAAGGTTCAAGCACTTGAGAGATATGAGGAGATGAGAGTGTTTGAGTGTAAATTCCAGCAGCATAACAGTATGGAAAATCACTCTCTTGCTTTAAATCTGATTCATACTTTATTTATAGAGAGTTCTCATGCAAGGAGAAGCCTCATGAAGCAAGACACATGGTAAATTTGCAAGTCAAAGTGGATTCTAGGTGTTCATATCACAAGACATGCAACTATGCATGGGTGAGTTGTCTTTCCACTTTGTATCAACATGCAAGAAGTGGGAATTCAACTAAATCCACTAAGTTAGGATTGAAATCATATTTCATGCTTGCAAATTAATTCAAATTTCAATTCTAAATTGAAATTGAATTCCTTGGTAATTAATTGAAACATTTCCAACTAATTTGATATGATTAATCCAATTAATCATTGTCACCTTGTGCAATCTAATTATATATGATTCCTAATTCATATATAGTATTTAAAACACTTTTAAATACATAATCTCTCGTTTTCTAATTTAATTCATAATTAAATATTGTGTCAAACACAATTTACGAAAATACCCTTTTTCCCGATTTTGAACAATTCAAAGAATCCTATCTTATTGTTCTTGGCTTTATTCCGATATGAGCTAGTAGGGGGACCTAATGGACCTATAGATCATGGGCTCCAACGGTTCGAGGCTAACCGACTAATCTCATTATCTAAGCTACCCAAGATTCGTTAACTACCGGGACACTCCACTATAGCCCGATAGTTGCACTCCCCTCACTATAGATATATTTCCGTCCACTTGATTTAACCATGCTCAGTAAGTCGATCCTTCACAGGTTGTTCGTAGCTATAGCTAGGTCAAAAGTCCGTTTTACCCCTATAGTACTTTTTGTTCCTTAAGTCCCACTGATCCTCTAATGAACAATTGGTTTATGGTCCAACCAATAAACCGAGTCCCTCTCGGGCCAATGAGAGGGCGTGATCCCTTTGTTCAAGCCCCGGAGTCAGCACTTAAGGGAACAACCTCTCTACTATCCCTAATTTGGGTAGGAGTGAATTCCTTCTCGCACGACTATGTCCCCAGCTATCTACTCGTTCCTATCCCTGAAATGGGAGGCTTATTGAGTCAGCGATACTGAGCCACTCTCACCTATACAGATCTAAGGATAAGTCCGAATAAACAGGAGTTCATAGTTAGCTCAGGATTAAGATTGAGTTACCTAGGTCATCACATGAAATAGTCAGTCTCGTCAGTAAACGGTGTTATAAAGCGAGAGCGACTTATTTCTCGGTCCTGGTCTTATGCAAACTCATTGCATAGGACGCCCCCACTCGCATGTCTCTACATGGACGATTTAGGATCACATCGTCTATACTATTTATAAAGTGGGTCGCGTCTCATAGTGTCCCCAGAATAAGGTACCCAGCCCTATCCCTATACTATAGACCGTTTTGGCTATTACTCGAGCTTGATCCACTTTTATGTCTCTACATAAAGCTCAAGTGTTCATCCTATAGCCATGGATCTTAGTTTATTTGATTTGGGTTATTAAAAGTGCAATTTACTTATTCAGTTATGACTTTACTGAATTAATCTCGATAACGACTTTATCGAACAAGTATTTAATTTTTGTTTAACATTCACTATCTACGAGTTTTAGGGCACCAATCCCAACAGCCGGTACTTTAGGAATAATGACTTCCTAAATGCCCCAGAGGGCAAAAACTCATCCTATGTTTGGAAGAGTATAGTCTGGGGCAGGGAGCTGTTCCAGGTCGGCTTCAGATGGCGGATAGGAAATGGAACATATGTGTACATTGATCATGACCCCTGGATAGCTAGAGAAGGGAGGAAATCCCCTCTTATAGTTATCGCGGTCTTGAAGGGAAGAAAAGTGGAGGACCTAATCCAATCATCAGGGGAATGGAATGAGCAGCTCATCAAAAACCTTTTTATTCTATTGGATGCAGAGGATATTCTAGCTATTCCCCTAGGTCTCAACAATGAAGCGGATGAAATTATTTGGAATGAAGAGCCTAAAGGTGTTTTCAGCGTTAAAAGCGCATACCATTTGGCTACTAACATTCAGAATGCAAAAGATTGTTCAGGATCTAAATCCCAGGCCCAAGCTGCGAGATGGAGAGGCATTTGGAATCTCAATATTATTCCCAAGGCTAAGATTGGTGTTTGGAGAATCATTAAAAATCTTATCCCTACTAAAATTAATCTTATTAACAAGGGAATTGATATTGACCCGTTGTGTGATCTTTGCAGGTGCTCGAGGGAGGACTCAACCCACTTATTCTGGAATTGCAAAAAGGTTAGGAGTATTTGGCCTAATATATTCCCTAATCTTATATATATTGTGGGTATTTGCAGAGGGCAAGCAGACATGGTTGACTGTTGGGATGAGCTTTCCAAAGGATTAGACAAAGAAGAAGTTGAACGGATCGCTATAACACTATGGACAATCTGGAATTTCAGAATCCAAGTCACAATAAAAAAGGAGAATCTCAACAACAACAGGCTAGATTGGTGGATAAAAAAAAAATCTGGAGAAGCACAAGAGAAGAGCGTCAAACCTGCTGTTTTCAGAGCAGAGAGCCTCAGTAATCACGAAAAATGGATCCCCCAGCCAATTGCTTGAAGATGAATACTGATGCCTCGTGGAACGATGATCGAAGAATTGGAGTTGGGGTTGGATAGTTCGTGATTCCTCAGGATTTCTTATTGAAGCGGGCTGCAAGCAAATTGGCAGAAAATGGAATATTAAATCCATCGAAGCCTTTGCCATCAAAGAATTTCTCAAAGCTTACCATTCCAGAAATCAGAGAAGCAACTTACCTTTGATCGTAGAGACAGATGCAGCGAAGGTCATTAAACTGCTCAATTTCGAAGCCATCGACATCTCAGACACCGAGCTGATCGTGAATGAGGTGATCTCCCTGGCGAATCTAGCAGGGCTGGTTTCGTTCGCTAAATGCCCGAGGAAGGGCAACCAAATTGCGCATCTCCTTGCGCGCACCGCGACTGGTTTCTCGTCGTTGGGTCAGCTGCCGTCCGATGTCGACGAAGGAGGGTTTTTGTCATCGTCTTTTTGTTCGTCTTCCACTCTGGAAGGCTATTTTTTGGAGAGGGATTCACATATCCCTAGTTGGTTGGCCTCTTTAATTGAGGAAGATGTACCTAACTCTGTTCCTTAA ATGGACAGCTTTCTAAATACGCTCAATAGATGTTTGCTTGTAGATGCTGGGGTGATTGTCGCTAGCTGGGAGGACAGATTCACTTACATACCCAAAAATCATCAAAGCCGTGGCAAAATCCTGAGATATGAAGAAAGTTGGGGTAAGAAGAAAGAGGCCAAAGATGTGATCTCCAATAGTTGGGAAGACCATGCGGATTGTACTGTTGGAGGAGCCCAAAAGCTCAGCAAGAAGGTGTATAGATGCATACACAATCTTCACATTTGGAATAAACAGAGGTTAAATGGCAGCATACAAAAGGCTATTTCTACTAAAGAAGACGCTCTAAACAACTTGTATGAAGAGAACAATGAAGACATATGGGAAGAGATAGTCAAGGCTGAGATGGAACTAGATGAATTATTGGCTGAGGAGGAAGAGTATTGGCGCAATAGAGCTAGAGAGGATTGGTTAAAAAGTGGGGACCGTAACACCAAATGGTTCCATGCCAAAGCATCTAAAAGAAGAAAGAGGAATAGAATCGAAGGGGATGATACCATTGGAGTATGTCTCCAAATTTTGAACGACAACGTTGACATTTCTCCCATTAACAAAACAGTCATAGCCCTTATCCCAAAGGTGAAAGATCCAAAGCATATGCACGAATTCAGACCAATCAGTCTGTGCAATGTAAGTTATAAGATTGTTGCCAAAACTATTGCGAACCATTTCAAGAAAGTCCTGGACTTAATTATATCTCCTTCTCAAGTGGCCTTTGTCTCGGGAAGATTAATCTCTGACAATGTGATTGTGGGCTTCGAATGCATCCATGCTATTAGAAGTAGGAAAAAGTGGAAGGAAGGTCAAGTGGCCATTAAACTCGACATGAGCAAGGCTTATGATCGGGTTGAATGGAAGTTCATTAGAGAAATGCTATCTAAGATGGGATTTGGCACCAAATGGGTTAGCAATATCATGAAGTGCGTGGAATCGGTTAGCTTTTCGGTCATGATTAATGGATGGCCACAAGAGGAGTTCTCTCCACAACGAGGCATAAGACAGGGAGATCCGCTATCACCATACATCTTCCTTATATGTGCCGAAGGGTTCTCGAAAGCCTCTGGGCAAAAAATCAACTTGGAGAAATCTGCCTTCATTCTGAGTAAAAATGTTAAGAAAGAGGATGCGGTGATGATTGAGGAGATCCTTGGGATTAAGAAATCTAATTCCCTAGGTCCCTATTTAGGAATGCCATCCCAAGGCGGTAGGAACAAATCCAAAATGTTCGACAAAATAAGGCAGAAAGTCGCAAACATGCTCCAGGGTTGGAACGAAAGGCTTTTTTCGGCGAGAGGGAAAGAGGTTCTCATTAAAGTAGTCATCCAAGCGATTCCCACATACAACATGAGTTGCTTTAAGCTCCCTAAAGGAATTTGCGATGACATTAACAGAATGTGTGCTAGATTTTGGTGGGGAGCAGTGGGAGATAAGAAGAAGATGCATTGGGCCAGCTGGAAAAAACTTTGTATCAGCAAAGATATGGGAGGCCTTGGCTTTAGGGATTTAAGCCTTTTTAACCAAGCGCTCCTGGCTAAGCAGAGCTGGCGAATATTGAGAGATCCTAATAGCCTCATGAGCAAGAGTATAGTCTGGGGCAGGGAGCTGTTCCAGGTCGGCTTCAGATGGCGGATAGGAAATGGAACATATGTGTACATTGATCATGACCCCTGGATAGCTAGAGAAGGGAGGAAATCCCCTCTTATAGTTATCGCGGTCTTGAAGGGAAGAAAAGTGGAGGACCTAATCCAATCATCAGGGGAATGGAATGAGCAGCTCATCAAAAACCTTTTTATTCTATTGGATGCAGAGGATATTCTAGCTATTCCCCTAGGTCTCAACAATGAAGCGGATGAAATTATTTGGAATGAAGAGCCTAAAGGTGTTTTCAGCGTTAAAAGCGCATACCATTTGGCTACTAACATTCAGAATGCAAAAGATTGTTCAGGATCTAAATCCCAGGCCCAAGCTGCGAGATGGAGAGGCATTTGGAATCTCAATATTATTCCCAAGGCTAAGATTGGTGTTTGGAGAATCATTAAAAATCTTATCCCTACTAAAATTAATCTTATTAACAAGGGAATTGATATTGACCCGTTGTGTGATCTTTGCAGAGGGCAAGCAGACATGGTTGACTGTTGGGATGAGCTTTCCAAAGGATTAGACAAAGAAGAAGTTGAACGGATCGCTATAACACTATGGACAATCTGGAATTTCAGAATCCAAGTCACAATAAAAAAGGAGAATCTCAACAACAACAGGCTAGATTGGTGGATAAAAAAAAAATCTGGAGAAGCACAAGAGAAGAGCGTCAAACCTGCTGTTTTCAGAGCAGAGAGCCTCAGATTTCTTATTGAAGCGGGCTGCAAGCAAATTGGCAGAAAATGGAATATTAAATCCATCGAAGCCTTTGCCATCAAAGAATTTCTCAAAGCTTACCATTCCAGAAATCAGAGAAGCAACTTACCTTTGATCGTAGAGACAGATGCAGCGAAGGTCATTAAACTGCTCAATTTCGAAGCCATCGACATCTCAGACACCGAGCTGATCGTGAATGAGGTGATCTCCCTGGCGAATCTAGCAGGGCTGGTTTCGTTCGCTAAATGCCCGAGGAAGGGCAACCAAATTGCGCATCTCCTTGCGCGCACCGCGACTGGTTTCTCGTCGTTGGGTCAGCTGCCGTCCGATGTCGACGAAGGAGGGTTTTTGTCATCGTCTTTTTGTTCGTCTTCCACTCTGGAAGGCTATTTTTTGGAGAGGGATTCACATATCCCTAGTTGGTTGGCCTCTTTAATTGAGGAAGATGTACCTAACTCTGTTCCTTAA ATGGACAGCTTTCTAAATACGCTCAATAGATGTTTGCTTGTAGATGCTGGGGTGATTGTCGCTAGCTGGGAGGACAGATTCACTTACATACCCAAAAATCATCAAAGCCGTGGCAAAATCCTGAGATATGAAGAAAGTTGGGGTAAGAAGAAAGAGGCCAAAGATGTGATCTCCAATAGTTGGGAAGACCATGCGGATTGTACTGTTGGAGGAGCCCAAAAGCTCAGCAAGAAGGTGTATAGATGCATACACAATCTTCACATTTGGAATAAACAGAGGTTAAATGGCAGCATACAAAAGGCTATTTCTACTAAAGAAGACGCTCTAAACAACTTGTATGAAGAGAACAATGAAGACATATGGGAAGAGATAGTCAAGGCTGAGATGGAACTAGATGAATTATTGGCTGAGGAGGAAGAGTATTGGCGCAATAGAGCTAGAGAGGATTGGTTAAAAAGTGGGGACCGTAACACCAAATGGTTCCATGCCAAAGCATCTAAAAGAAGAAAGAGGAATAGAATCGAAGGGGATGATACCATTGGAGTATGTCTCCAAATTTTGAACGACAACGTTGACATTTCTCCCATTAACAAAACAGTCATAGCCCTTATCCCAAAGGTGAAAGATCCAAAGCATATGCACGAATTCAGACCAATCAGTCTGTGCAATGTAAGTTATAAGATTGTTGCCAAAACTATTGCGAACCATTTCAAGAAAGTCCTGGACTTAATTATATCTCCTTCTCAAGTGGCCTTTGTCTCGGGAAGATTAATCTCTGACAATGTGATTGTGGGCTTCGAATGCATCCATGCTATTAGAAGTAGGAAAAAGTGGAAGGAAGGTCAAGTGGCCATTAAACTCGACATGAGCAAGGCTTATGATCGGGTTGAATGGAAGTTCATTAGAGAAATGCTATCTAAGATGGGATTTGGCACCAAATGGGTTAGCAATATCATGAAGTGCGTGGAATCGGTTAGCTTTTCGGTCATGATTAATGGATGGCCACAAGAGGAGTTCTCTCCACAACGAGGCATAAGACAGGGAGATCCGCTATCACCATACATCTTCCTTATATGTGCCGAAGGGTTCTCGAAAGCCTCTGGGCAAAAAATCAACTTGGAGAAATCTGCCTTCATTCTGAGTAAAAATGTTAAGAAAGAGGATGCGGTGATGATTGAGGAGATCCTTGGGATTAAGAAATCTAATTCCCTAGGTCCCTATTTAGGAATGCCATCCCAAGGCGGTAGGAACAAATCCAAAATGTTCGACAAAATAAGGCAGAAAGTCGCAAACATGCTCCAGGGTTGGAACGAAAGGCTTTTTTCGGCGAGAGGGAAAGAGGTTCTCATTAAAGTAGTCATCCAAGCGATTCCCACATACAACATGAGTTGCTTTAAGCTCCCTAAAGGAATTTGCGATGACATTAACAGAATGTGTGCTAGATTTTGGTGGGGAGCAGTGGGAGATAAGAAGAAGATGCATTGGGCCAGCTGGAAAAAACTTTGTATCAGCAAAGATATGGGAGGCCTTGGCTTTAGGGATTTAAGCCTTTTTAACCAAGCGCTCCTGGCTAAGCAGAGCTGGCGAATATTGAGAGATCCTAATAGCCTCATGAGCAAGAGTATAGTCTGGGGCAGGGAGCTGTTCCAGGTCGGCTTCAGATGGCGGATAGGAAATGGAACATATGTGTACATTGATCATGACCCCTGGATAGCTAGAGAAGGGAGGAAATCCCCTCTTATAGTTATCGCGGTCTTGAAGGGAAGAAAAGTGGAGGACCTAATCCAATCATCAGGGGAATGGAATGAGCAGCTCATCAAAAACCTTTTTATTCTATTGGATGCAGAGGATATTCTAGCTATTCCCCTAGGTCTCAACAATGAAGCGGATGAAATTATTTGGAATGAAGAGCCTAAAGGTGTTTTCAGCGTTAAAAGCGCATACCATTTGGCTACTAACATTCAGAATGCAAAAGATTGTTCAGGATCTAAATCCCAGGCCCAAGCTGCGAGATGGAGAGGCATTTGGAATCTCAATATTATTCCCAAGGCTAAGATTGGTGTTTGGAGAATCATTAAAAATCTTATCCCTACTAAAATTAATCTTATTAACAAGGGAATTGATATTGACCCGTTGTGTGATCTTTGCAGAGGGCAAGCAGACATGGTTGACTGTTGGGATGAGCTTTCCAAAGGATTAGACAAAGAAGAAGTTGAACGGATCGCTATAACACTATGGACAATCTGGAATTTCAGAATCCAAGTCACAATAAAAAAGGAGAATCTCAACAACAACAGGCTAGATTGGTGGATAAAAAAAAAATCTGGAGAAGCACAAGAGAAGAGCGTCAAACCTGCTGTTTTCAGAGCAGAGAGCCTCAGATTTCTTATTGAAGCGGGCTGCAAGCAAATTGGCAGAAAATGGAATATTAAATCCATCGAAGCCTTTGCCATCAAAGAATTTCTCAAAGCTTACCATTCCAGAAATCAGAGAAGCAACTTACCTTTGATCGTAGAGACAGATGCAGCGAAGGTCATTAAACTGCTCAATTTCGAAGCCATCGACATCTCAGACACCGAGCTGATCGTGAATGAGGTGATCTCCCTGGCGAATCTAGCAGGGCTGGTTTCGTTCGCTAAATGCCCGAGGAAGGGCAACCAAATTGCGCATCTCCTTGCGCGCACCGCGACTGGTTTCTCGTCGTTGGGTCAGCTGCCGTCCGATGTCGACGAAGGAGGGTTTTTGTCATCGTCTTTTTGTTCGTCTTCCACTCTGGAAGGCTATTTTTTGGAGAGGGATTCACATATCCCTAGTTGGTTGGCCTCTTTAATTGAGGAAGATGTACCTAACTCTGTTCCTTAA MDSFLNTLNRCLLVDAGVIVASWEDRFTYIPKNHQSRGKILRYEESWGKKKEAKDVISNSWEDHADCTVGGAQKLSKKVYRCIHNLHIWNKQRLNGSIQKAISTKEDALNNLYEENNEDIWEEIVKAEMELDELLAEEEEYWRNRAREDWLKSGDRNTKWFHAKASKRRKRNRIEGDDTIGVCLQILNDNVDISPINKTVIALIPKVKDPKHMHEFRPISLCNVSYKIVAKTIANHFKKVLDLIISPSQVAFVSGRLISDNVIVGFECIHAIRSRKKWKEGQVAIKLDMSKAYDRVEWKFIREMLSKMGFGTKWVSNIMKCVESVSFSVMINGWPQEEFSPQRGIRQGDPLSPYIFLICAEGFSKASGQKINLEKSAFILSKNVKKEDAVMIEEILGIKKSNSLGPYLGMPSQGGRNKSKMFDKIRQKVANMLQGWNERLFSARGKEVLIKVVIQAIPTYNMSCFKLPKGICDDINRMCARFWWGAVGDKKKMHWASWKKLCISKDMGGLGFRDLSLFNQALLAKQSWRILRDPNSLMSKSIVWGRELFQVGFRWRIGNGTYVYIDHDPWIAREGRKSPLIVIAVLKGRKVEDLIQSSGEWNEQLIKNLFILLDAEDILAIPLGLNNEADEIIWNEEPKGVFSVKSAYHLATNIQNAKDCSGSKSQAQAARWRGIWNLNIIPKAKIGVWRIIKNLIPTKINLINKGIDIDPLCDLCRGQADMVDCWDELSKGLDKEEVERIAITLWTIWNFRIQVTIKKENLNNNRLDWWIKKKSGEAQEKSVKPAVFRAESLRFLIEAGCKQIGRKWNIKSIEAFAIKEFLKAYHSRNQRSNLPLIVETDAAKVIKLLNFEAIDISDTELIVNEVISLANLAGLVSFAKCPRKGNQIAHLLARTATGFSSLGQLPSDVDEGGFLSSSFCSSSTLEGYFLERDSHIPSWLASLIEEDVPNSVP Homology
BLAST of Lcy12g007340 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: 122.9 bits (307), Expect = 2.0e-26 Identity = 85/347 (24.50%), Postives = 150/347 (43.23%), Query Frame = 0
BLAST of Lcy12g007340 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: 118.6 bits (296), Expect = 3.8e-25 Identity = 103/392 (26.28%), Postives = 165/392 (42.09%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy Swiss-Prot
Match: P93295 (Uncharacterized mitochondrial protein AtMg00310 OS=Arabidopsis thaliana OX=3702 GN=AtMg00310 PE=4 SV=1) HSP 1 Score: 118.2 bits (295), Expect = 4.9e-25 Identity = 62/152 (40.79%), Postives = 82/152 (53.95%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy Swiss-Prot
Match: O00370 (LINE-1 retrotransposable element ORF2 protein OS=Homo sapiens OX=9606 PE=1 SV=1) HSP 1 Score: 104.4 bits (259), Expect = 7.4e-21 Identity = 99/387 (25.58%), Postives = 165/387 (42.64%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy Swiss-Prot
Match: P14381 (Transposon TX1 uncharacterized 149 kDa protein OS=Xenopus laevis OX=8355 PE=4 SV=1) HSP 1 Score: 96.3 bits (238), Expect = 2.0e-18 Identity = 93/366 (25.41%), Postives = 150/366 (40.98%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy TrEMBL
Match: A0A2N9EWI8 (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS6846 PE=4 SV=1) HSP 1 Score: 533.9 bits (1374), Expect = 1.4e-147 Identity = 303/841 (36.03%), Postives = 432/841 (51.37%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy TrEMBL
Match: A0A803PIB6 (Uncharacterized protein OS=Cannabis sativa OX=3483 PE=4 SV=1) HSP 1 Score: 531.6 bits (1368), Expect = 6.9e-147 Identity = 329/937 (35.11%), Postives = 458/937 (48.88%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy TrEMBL
Match: A0A803Q9W0 (Uncharacterized protein OS=Cannabis sativa OX=3483 PE=4 SV=1) HSP 1 Score: 531.2 bits (1367), Expect = 9.0e-147 Identity = 311/932 (33.37%), Postives = 453/932 (48.61%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy TrEMBL
Match: A0A803PLN3 (Uncharacterized protein OS=Cannabis sativa OX=3483 PE=4 SV=1) HSP 1 Score: 526.6 bits (1355), Expect = 2.2e-145 Identity = 345/1097 (31.45%), Postives = 502/1097 (45.76%), Query Frame = 0
BLAST of Lcy12g007340 vs. ExPASy TrEMBL
Match: A0A803PV25 (Uncharacterized protein OS=Cannabis sativa OX=3483 PE=4 SV=1) HSP 1 Score: 524.2 bits (1349), Expect = 1.1e-144 Identity = 317/926 (34.23%), Postives = 444/926 (47.95%), Query Frame = 0
BLAST of Lcy12g007340 vs. NCBI nr
Match: XP_030923826.1 (uncharacterized protein LOC115950728 [Quercus lobata]) HSP 1 Score: 542.0 bits (1395), Expect = 1.1e-149 Identity = 325/926 (35.10%), Postives = 466/926 (50.32%), Query Frame = 0
BLAST of Lcy12g007340 vs. NCBI nr
Match: XP_023881891.1 (uncharacterized protein LOC111994244 [Quercus suber]) HSP 1 Score: 539.7 bits (1389), Expect = 5.2e-149 Identity = 303/859 (35.27%), Postives = 442/859 (51.46%), Query Frame = 0
BLAST of Lcy12g007340 vs. NCBI nr
Match: XP_006491472.1 (uncharacterized protein LOC102626455 [Citrus sinensis]) HSP 1 Score: 533.9 bits (1374), Expect = 2.9e-147 Identity = 311/859 (36.20%), Postives = 427/859 (49.71%), Query Frame = 0
BLAST of Lcy12g007340 vs. NCBI nr
Match: XP_030497600.1 (uncharacterized protein LOC115713257 [Cannabis sativa]) HSP 1 Score: 531.6 bits (1368), Expect = 1.4e-146 Identity = 329/937 (35.11%), Postives = 458/937 (48.88%), Query Frame = 0
BLAST of Lcy12g007340 vs. NCBI nr
Match: XP_030502555.1 (uncharacterized protein LOC115717715 [Cannabis sativa]) HSP 1 Score: 522.3 bits (1344), Expect = 8.7e-144 Identity = 323/922 (35.03%), Postives = 446/922 (48.37%), Query Frame = 0
BLAST of Lcy12g007340 vs. TAIR 10
Match: AT4G29090.1 (Ribonuclease H-like superfamily protein ) HSP 1 Score: 146.7 bits (369), Expect = 9.2e-35 Identity = 93/297 (31.31%), Postives = 134/297 (45.12%), Query Frame = 0
BLAST of Lcy12g007340 vs. TAIR 10
Match: ATMG00310.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 118.2 bits (295), Expect = 3.5e-26 Identity = 62/152 (40.79%), Postives = 82/152 (53.95%), Query Frame = 0
BLAST of Lcy12g007340 vs. TAIR 10
Match: AT3G09510.1 (Ribonuclease H-like superfamily protein ) HSP 1 Score: 76.3 bits (186), Expect = 1.5e-13 Identity = 58/218 (26.61%), Postives = 93/218 (42.66%), Query Frame = 0
BLAST of Lcy12g007340 vs. TAIR 10
Match: AT4G20520.1 (RNA binding;RNA-directed DNA polymerases ) HSP 1 Score: 70.1 bits (170), Expect = 1.1e-11 Identity = 30/88 (34.09%), Postives = 54/88 (61.36%), Query Frame = 0
BLAST of Lcy12g007340 vs. TAIR 10
Match: ATMG01250.1 (RNA-directed DNA polymerase (reverse transcriptase) ) HSP 1 Score: 52.4 bits (124), Expect = 2.4e-06 Identity = 21/35 (60.00%), Postives = 27/35 (77.14%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
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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