ClCG01G010120 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATCCCAATCTCCCTCTCTCTCAGACTTTGTCCCAATTTCGCTCTCTTTGAGACTCTCTCTCGCTTTCTCTCAGTCCTCGCTCTCTCTCTCTCATCGTCCGTACAAATATCCGAATTCCATTTGGCCCTAAAAGGGCCTTCCTTACAAAAAAAGCCCCATCATCGGAGCTCCGTCAATCAATGGCGATCAACAAGCTCCCTGCTGCAAATTCCGACTATGAACGCATCGTTGTTGCATCCGCCATAGCTTCACGGCTTCTTCTACTCTTCCTAATCGTCTTTTGGCGCTCTCTCCTCAGCCCTTACGACACTTCAGCTTCTCTTAATCCTGCATGCTTAATCAACCCATCTTCTTCGCCTCTCCCCGAACATCCGGTTCTTTTTCCTCGAATTGGCTCCGCCATTGAGAGCAGCATTGTCTGGGACGGCGTTCACTTCGTCCGAATCGCTCAGTGCGGTTATGAATACGAGAAGTCCTACGCTTTCTTGCCCCTTCTCCCTTTCTGCACTTCCCTCCTGTCCCGCACAGGTTTGCTAATTATACTTCGATTCAATGTTTATTTTTTGTTGGTTTTATTGGTTGTGTTTAATGTTGGGTTCTTACAGTTGCCTTGAGGTAGTTTATGAGCAACTGCTGATGTGCTTTGTAATTTTGCTACAGTATTGTTGCCTTTGGTTCCGATAATTGGGCATAGAGCTGTATTGGGACTATCTGGATATCTAATCAATAACATTGCTTTTGTGCTTGCTGCACGTTATCTTTTCAGGTGGGTTTATTGAGATCACAAGTTTTGGACAGTAATACTTAGGTTTATACTCTGATTTTTCAAATGGGTGTTTACTTAGTGAATTATGGGTAAATAGCTATTCATCTGCAATTGTATTTTCTTGGTTCATTCTATGTAAAATCCTGACGTCTTCTACCTGGTCGCTCTAACAGGCTTTCACTTATTATTTTGAAGGATGCGGAAGCAGCAATGCGGGCCTCAATTCTATTTTGCTTCAATCCTGCTTCTATATTTTATTCATCGTTGTAAGTGGCTTTTCCTTTCCATATCACTTTGTGCTTAAAAAGTTTAGATGATGATGGACTATACTTGCCATTGCAGATATAGTGAGAGTTTGTACTCACTATTTTCATTGGGAGGATTATATCACTTGATGAGTGGCAGACATAGTGTTTCTGCCCTTTGGCTAGCTCTTTCTGGCTGTGCTCGGTCTAATGGAGTGCTTAATGCTGGTTACATCTGTTTTTTGACAATGCATTGGGCTTATGATGCTCTTTTGCTGAAGAAACGTGTCCGTGTTAGTATCCTTGCTAATTGGTAGATAATAGATTTTATAATATCTCTTGGTTAGTTATCTTGAGAGAAGATGCATTCTTTAATTTTTTGTTGCACCGGGCCTTGCAGGTTCTCATTTCTGGAGCCTTCAACTGTATCTGTATATTTGCTCCATTCATTGCGTTTCAAGCATATGGGTATTACAATATTTGCAGTGGACGTATACCAGATGAAATGAGGCCATGGTGCAAAGCTAGGGTACCGCTGCTATACAATTTTGTTCAAGGTCACTACTGGTATCGCCTTTTTAACTTGCCCATTATTCCAACATTATATCAATATTTTGTAGACCATAGGCGACAATTCTTTTCTAAATCTCCAGATAATCTTGCAACTCTCTAGGGTTTCTAATATGAAATGCTTGAAATAGGTCAAAATTGTAGGAACTTGTCAACGAGGAGAATCAGTAAATAATTTGACTATCAAATAAAATAACTCAATAATCCCAACTCTAGCTAGAGGATACTAATTATACTTTACGGGTGAGGAAAAGAAATTGAAATTTTATCACGGAAGAAAAATTTACGAAGAATGAGTCTGTCAAGACTCAATAGGATAAAGTTTCCCCTCCCCAAAGGAAGGATCATAAAGGAATCCAAATTCATAACATTGCAAATGCAAAGTTATAGACAGCTTCCTAACATCCCCAGACAGGATGTATAGCAATCATATCCTGATGCTGCCATATTCATCAAGGAAGTGGAGAGATTACATGGTCTTGTTCAATTATCCCTAATCGTGACAAGATATTTGTGAGACTTTTGGAGTGAGTTGTTTAAGATGGGAGGAATTCAACTTCAAAGCACCACCTTCCATCTTGAGACAGCTGACCAATCTGAGATTGTCAACAAGTGCTAGGAGATCTATCTTAGGCGTTTTTGTAGTGGGCAGCCACAAAAATGGGGACACTGGATTCCATGGGCCGAATGCTAGTCTAAGTTTCGACATTTTCCTGATATCATGTAAGTTCATTTAACTTCAATATTAACGAGAAAGATTGCTATCTATTCTTAGTGAAGCTATTGAAGAAAATGATTTGTAAGAAGTTCTTTTGAAATGTTCTTTTCTTACGTGCCAAGAAGTACGTGATCTTGGTAAGTTGAATGGGTGGGCTACTTTGGTTGGATGTGAAGTAGAGCCATTTCCTTCTCCTTACTTGGGTCTCCATCTAAGCCACAACCCCAAGAGCATTTTCTTTCGAGATCTTAGAGACTTGTCTTGTAAAAGAGCTTTTTCTTGGGAGGTGGTGGATTTACTCTCATCCAATTTGTTTTGAGTGGTATGCCTATTTGCTTCGTATCCTTTTTTAGGTTCTCTATGTCATTGAGTAAAATTCTAGAGAAACTTATGAATGAGTAGAGCCGCCCCATTGAATGGCTCGAGTGGGGTTAAAAGCCCACCAGAAACTGGTGGAAAGGTACCGATTAGGAAATTCCTTTCCCTTCTCCTTTTGTCCATTGCTCGGTGGAGGATGGGAGAGTACTTTTTTTTGGAAGGATAAATGGTTGGGGGATAGACTCCTTTGTTCTTTGTTTCCTCCTTTATAACATTAATCTTTGGTGTGGAACCATTTGATAGTTGATGTTGTCTCATCCTATGACCTTCCCTTTGCCTTTTTTGGGGTCTAGTTGTCTTTCTTTGATTGGGGAGTTTTGTTGTACTGAGAGTGGATGTATTTGGAGTCCTAGATTGTCCGAATGTTTTTCTTGTAAATATATATATATTTTTCTCTTTGTGTGGTTAATCCCTCTCCCAGGAGTGGTTTTGTCTTTGTCTCATCATGGAAAGTGAAAATTTCCAAGAAGGTTAAGTTTTTTTGTGTTGTATGTTTTCCATAGAAGAGTTAACACCTTGGTTCAGGTGTCAGAGGAAGGTGGCTAATTTGATTGCTATGGGTCTTTGACCATATTCTTTGGAGTTGTGATCTAGCTTAGGCTGTTTGGAGTTGTTTCTACGAAAAGTTTTGTTTATGCTAGACTAGGCATAGAGGTTGCAACGAGATGATTGAGAAGTTTCATCTCCATTCTTCCTTTTGTGAGAATGTAAGGTTTTTGTGGTGAGTCGAGGTGTGTGTGGTTTTGTGGGACTTTTGGGGAGTGAAGAACAAAGCTTGAGAGGTCGTCAAGTGATGTTTGGTTCGTTGTTAGTTTCAATGTTTCTTCATAGGCCTCTATTTGTGAAACCTTTATATAATCACCCTTTAGGTCTATTTTTATTTGATTGGAGACCCTTGTTTTAAATTCTCTCCTTTCAAGGGCATTTGTATAATTTCATTATATATATATAATACAACTTTGAGTTTCTTTTTGTCGCACACTCAAATTGGATTTGGATCTATTTAATTTAAGGCACTGGTAATTTTCCAAGAAGCAGGCGCAGAAAAAGAAAGCTTATGGAATTAATTGATTTTCAGTATTCTTTACAAACTATTGTGAAAAGACAATACGTTGGGAATGTTTACTTTGTTTCAGGAAATGGATTGTGAAGCTGTTATTAGATTTTGCATTATTTATATTCTAATTGACATTGCTATGTGCTTTTTTGAACATCTTACATGCATCTTTTGGGATGGCAGGGGAGTAGGTTTCTTAAGATATTTCCGATTCAAACAGCTACCAAACTTTCTACTTGCATCCCCAATTTTGTCTTTGGCTTTTTTCTCAATTGTTCACTACGGAAGGTCAAAGACAAAGCTTTTATTCTCAGTGGGCTTCCAAGCTACGGCTGATGATAGAAATTCTGCTGCCATGCTTTACTTTCCAGAACGTATTTCAAGGTCAAGCATACCTCATCCTACAGTGGCATCTTCCTCTGAGTTACAAGGTACTGCTTATTAAGTAATGGCAATGCGACAAGATTTGTGTTTGTCTGAGTGGGTAGAAGTTTTGAATTGGAGCAATTTCTTGACTTTCCCTATCATTGTGTTTTGTTGCAATCTTGGATGCACCTTAAGCTATTATTTCATAGGAAATCAGAATCTTAGACGAAGAAAGAAGATTATTGGACAGGATCCTGCTGAGCTTCCAGTAGAGGATGAACCATCCAAGGAGTCAGGATACTTTTCTGCTCTTGTTCTTCCATTTATCCTACATATGGTATTTATGGCTGCCACAGCATTTTTTATCATGCATGTACAGGTTTGTCTCCTCTCTAGAAGTTATGTTTCTTTAAAAATATATGTACATAGTGTGTGCTGAAGAATATCATTTGTTTGCTTTTTTGTCATTTACAAGTTCACTGTTTTATTTTTCTGTGTAGCATTATTGTTTGCATGGTAAATCTAGTTTCAGTTTATATACATATATATAAGGAAAATTATCATAAATAGAAAAAATATCAAACTATTTACAAATATAGCAAAATTTTACTTTCTATTTGGGTCTATCGCGGTCTATCACAGATAAAAAGTAAAATTTTGCTATATTTGTAATTATTTTTAGCAATTTTTCTATTTTTGAAAACATCTCTACATATATTTATATATATATACACACACACATATATACACACATATATATATATATGTATGTATGTATGTTGCAGATTTTGGAACAACTGTCAAGTAATTTTGAGTTTGGAACCCTTTGGAACTATGAGGCAATAACTGTCAAAATTAAACCAAATGAATTTTGAGAAGTGTTTTTTAGGTAAAAATTTAGGGCTTGTTTGGATTAACTTAAAGAATGAATGTTTTTCAAAAAAATCATTTTCATTTAAACACTTTTGATAAGAATTGTTTAAAAATAAAAATACTAATAGCTTTCAAAATCCATTTTGAGTGGTTGTTTCTTTCAAAATGACTTGTTTTTTTAAATTAAACACTTGAAAATGTATTACAAGTACACCCTTAAACAATAGAATTAATTTATGCTTTCAACATTTTAGAAGAGTTAAAACTGGTCTCGTAGCTTTAAGCCTTTCAAAGGCTGAAGAAGTGAGACCTACTACTTGAGAAGGTATGAGGAAAAGCCTTAATTCTAAATTTATATATACATTAATGAAAACTTTAAATGTAAAGCTGAATTTTTTTTAAAAGGAGATCTCTTTTGCGTTTACCAAGTTACTTTGTTCTTAAGGTCATATGTATATATATATTTAATAAAGACAACAACCAATGGCAAACATCACAACCAGCTAGTCCCTAACCTCATTGTCATTGGGGAGAATACTACATGGAAAAACATATTTCCAGAAATGCTAAAACAGAGTAGACAATGTTTTTACATCATTCATGTTGTATTAATATTATATAGTTAGTTAGACTTTTATATTATAAAGAATAGACAATATTTTTACATTATTCTTCTTCACTGAGCTTTTGTACAATTGGCATAAGCCTATTCTTAGGAGCATAAATTTAATTTTATAAGACAGAAAACCAAAATTAAATGGGTACCAAATGGAGCCTAAGTTATTCAATCCCTAGCACAATGAATCTATGAAAATATTCTACATTTCATGTCTTTTCAAGCTTAGTATCTCACAGTTCGGAACTCGACAGGTTGCAACACGATTTCTCTCTGCAAGCCCTCCTCTGTATTGGTTTGCCTCATACATTACAGTTTCTCCCGATCGCTTTAAGAGATGGGGCTATATTATCTGGGCGTACTCTGTTGCTTATATTCTCCTCGGCAGTCTGCTCTTTTCAAATTTCTACCCTTTCACATGATTAGTTCTTGCCGCAAAAAGACTCTTTAGCTTTGGTATGGAAGCATCTGGTTGCTGCTGATCATGCTATTGCTTCATTGTCCAAAATTGACTGTTTTGGGTAAGAAAAACTGGTTAGAACTAGAGCCATAAAGTGTATGCTGCTTTTTTGAGGCACCAATGAAAGAAACTGGAATTTGAAGCGATTCTAGTTAGCTTTTGTTATAGTTGTACTTCATTATATTCCATGCATTGATGAACTGAATGAGCAGAACCTGATGGTGCTGGGTAGAATATTCTCAATCTTATGCGGTTGAGAGTGGATTGTTGGGTGAGTTTATCAGCTTCAAGGTAGAGTCTTTGATTGAATGCTTGGTTGAATTAGCGGTTGCTAGATTTGTTTATATCTTGAATCTCTGCAGTTGTAATCGGAGTACAAATATTTGATGTAGTGCGAAGAGTTTGAAAAGATTGTTTGGGGGAATTCTTGAGTACAAAT ATCCCAATCTCCCTCTCTCTCAGACTTTGTCCCAATTTCGCTCTCTTTGAGACTCTCTCTCGCTTTCTCTCAGTCCTCGCTCTCTCTCTCTCATCGTCCGTACAAATATCCGAATTCCATTTGGCCCTAAAAGGGCCTTCCTTACAAAAAAAGCCCCATCATCGGAGCTCCGTCAATCAATGGCGATCAACAAGCTCCCTGCTGCAAATTCCGACTATGAACGCATCGTTGTTGCATCCGCCATAGCTTCACGGCTTCTTCTACTCTTCCTAATCGTCTTTTGGCGCTCTCTCCTCAGCCCTTACGACACTTCAGCTTCTCTTAATCCTGCATGCTTAATCAACCCATCTTCTTCGCCTCTCCCCGAACATCCGGTTCTTTTTCCTCGAATTGGCTCCGCCATTGAGAGCAGCATTGTCTGGGACGGCGTTCACTTCGTCCGAATCGCTCAGTGCGGTTATGAATACGAGAAGTCCTACGCTTTCTTGCCCCTTCTCCCTTTCTGCACTTCCCTCCTGTCCCGCACAGTATTGTTGCCTTTGGTTCCGATAATTGGGCATAGAGCTGTATTGGGACTATCTGGATATCTAATCAATAACATTGCTTTTGTGCTTGCTGCACGTTATCTTTTCAGGCTTTCACTTATTATTTTGAAGGATGCGGAAGCAGCAATGCGGGCCTCAATTCTATTTTGCTTCAATCCTGCTTCTATATTTTATTCATCGTTATATAGTGAGAGTTTGTACTCACTATTTTCATTGGGAGGATTATATCACTTGATGAGTGGCAGACATAGTGTTTCTGCCCTTTGGCTAGCTCTTTCTGGCTGTGCTCGGTCTAATGGAGTGCTTAATGCTGGTTACATCTGTTTTTTGACAATGCATTGGGCTTATGATGCTCTTTTGCTGAAGAAACGTGTCCGTGTTCTCATTTCTGGAGCCTTCAACTGTATCTGTATATTTGCTCCATTCATTGCGTTTCAAGCATATGGGTATTACAATATTTGCAGTGGACGTATACCAGATGAAATGAGGCCATGGTGCAAAGCTAGGGTACCGCTGCTATACAATTTTGTTCAAGGTCACTACTGGGGAGTAGGTTTCTTAAGATATTTCCGATTCAAACAGCTACCAAACTTTCTACTTGCATCCCCAATTTTGTCTTTGGCTTTTTTCTCAATTGTTCACTACGGAAGGTCAAAGACAAAGCTTTTATTCTCAGTGGGCTTCCAAGCTACGGCTGATGATAGAAATTCTGCTGCCATGCTTTACTTTCCAGAACGTATTTCAAGGTCAAGCATACCTCATCCTACAGTGGCATCTTCCTCTGAGTTACAAGGAAATCAGAATCTTAGACGAAGAAAGAAGATTATTGGACAGGATCCTGCTGAGCTTCCAGTAGAGGATGAACCATCCAAGGAGTCAGGATACTTTTCTGCTCTTGTTCTTCCATTTATCCTACATATGGTATTTATGGCTGCCACAGCATTTTTTATCATGCATGTACAGGTTGCAACACGATTTCTCTCTGCAAGCCCTCCTCTGTATTGGTTTGCCTCATACATTACAGTTTCTCCCGATCGCTTTAAGAGATGGGGCTATATTATCTGGGCGTACTCTGTTGCTTATATTCTCCTCGGCAGTCTGCTCTTTTCAAATTTCTACCCTTTCACATGATTAGTTCTTGCCGCAAAAAGACTCTTTAGCTTTGGTATGGAAGCATCTGGTTGCTGCTGATCATGCTATTGCTTCATTGTCCAAAATTGACTGTTTTGGGTAAGAAAAACTGGTTAGAACTAGAGCCATAAAGTGTATGCTGCTTTTTTGAGGCACCAATGAAAGAAACTGGAATTTGAAGCGATTCTAGTTAGCTTTTGTTATAGTTGTACTTCATTATATTCCATGCATTGATGAACTGAATGAGCAGAACCTGATGGTGCTGGGTAGAATATTCTCAATCTTATGCGGTTGAGAGTGGATTGTTGGGTGAGTTTATCAGCTTCAAGGTAGAGTCTTTGATTGAATGCTTGGTTGAATTAGCGGTTGCTAGATTTGTTTATATCTTGAATCTCTGCAGTTGTAATCGGAGTACAAATATTTGATGTAGTGCGAAGAGTTTGAAAAGATTGTTTGGGGGAATTCTTGAGTACAAAT ATGGCGATCAACAAGCTCCCTGCTGCAAATTCCGACTATGAACGCATCGTTGTTGCATCCGCCATAGCTTCACGGCTTCTTCTACTCTTCCTAATCGTCTTTTGGCGCTCTCTCCTCAGCCCTTACGACACTTCAGCTTCTCTTAATCCTGCATGCTTAATCAACCCATCTTCTTCGCCTCTCCCCGAACATCCGGTTCTTTTTCCTCGAATTGGCTCCGCCATTGAGAGCAGCATTGTCTGGGACGGCGTTCACTTCGTCCGAATCGCTCAGTGCGGTTATGAATACGAGAAGTCCTACGCTTTCTTGCCCCTTCTCCCTTTCTGCACTTCCCTCCTGTCCCGCACAGTATTGTTGCCTTTGGTTCCGATAATTGGGCATAGAGCTGTATTGGGACTATCTGGATATCTAATCAATAACATTGCTTTTGTGCTTGCTGCACGTTATCTTTTCAGGCTTTCACTTATTATTTTGAAGGATGCGGAAGCAGCAATGCGGGCCTCAATTCTATTTTGCTTCAATCCTGCTTCTATATTTTATTCATCGTTATATAGTGAGAGTTTGTACTCACTATTTTCATTGGGAGGATTATATCACTTGATGAGTGGCAGACATAGTGTTTCTGCCCTTTGGCTAGCTCTTTCTGGCTGTGCTCGGTCTAATGGAGTGCTTAATGCTGGTTACATCTGTTTTTTGACAATGCATTGGGCTTATGATGCTCTTTTGCTGAAGAAACGTGTCCGTGTTCTCATTTCTGGAGCCTTCAACTGTATCTGTATATTTGCTCCATTCATTGCGTTTCAAGCATATGGGTATTACAATATTTGCAGTGGACGTATACCAGATGAAATGAGGCCATGGTGCAAAGCTAGGGTACCGCTGCTATACAATTTTGTTCAAGGTCACTACTGGGGAGTAGGTTTCTTAAGATATTTCCGATTCAAACAGCTACCAAACTTTCTACTTGCATCCCCAATTTTGTCTTTGGCTTTTTTCTCAATTGTTCACTACGGAAGGTCAAAGACAAAGCTTTTATTCTCAGTGGGCTTCCAAGCTACGGCTGATGATAGAAATTCTGCTGCCATGCTTTACTTTCCAGAACGTATTTCAAGGTCAAGCATACCTCATCCTACAGTGGCATCTTCCTCTGAGTTACAAGGAAATCAGAATCTTAGACGAAGAAAGAAGATTATTGGACAGGATCCTGCTGAGCTTCCAGTAGAGGATGAACCATCCAAGGAGTCAGGATACTTTTCTGCTCTTGTTCTTCCATTTATCCTACATATGGTATTTATGGCTGCCACAGCATTTTTTATCATGCATGTACAGGTTGCAACACGATTTCTCTCTGCAAGCCCTCCTCTGTATTGGTTTGCCTCATACATTACAGTTTCTCCCGATCGCTTTAAGAGATGGGGCTATATTATCTGGGCGTACTCTGTTGCTTATATTCTCCTCGGCAGTCTGCTCTTTTCAAATTTCTACCCTTTCACATGA MAINKLPAANSDYERIVVASAIASRLLLLFLIVFWRSLLSPYDTSASLNPACLINPSSSPLPEHPVLFPRIGSAIESSIVWDGVHFVRIAQCGYEYEKSYAFLPLLPFCTSLLSRTVLLPLVPIIGHRAVLGLSGYLINNIAFVLAARYLFRLSLIILKDAEAAMRASILFCFNPASIFYSSLYSESLYSLFSLGGLYHLMSGRHSVSALWLALSGCARSNGVLNAGYICFLTMHWAYDALLLKKRVRVLISGAFNCICIFAPFIAFQAYGYYNICSGRIPDEMRPWCKARVPLLYNFVQGHYWGVGFLRYFRFKQLPNFLLASPILSLAFFSIVHYGRSKTKLLFSVGFQATADDRNSAAMLYFPERISRSSIPHPTVASSSELQGNQNLRRRKKIIGQDPAELPVEDEPSKESGYFSALVLPFILHMVFMAATAFFIMHVQVATRFLSASPPLYWFASYITVSPDRFKRWGYIIWAYSVAYILLGSLLFSNFYPFT
BLAST of ClCG01G010120 vs. Swiss-Prot
Match: PIGV_MOUSE (GPI mannosyltransferase 2 OS=Mus musculus GN=Pigv PE=2 SV=2) HSP 1 Score: 166.4 bits (420), Expect = 8.0e-40 Identity = 110/369 (29.81%), Postives = 175/369 (47.43%), Query Frame = 1
HSP 2 Score: 41.2 bits (95), Expect = 3.9e-02 Identity = 19/56 (33.93%), Postives = 29/56 (51.79%), Query Frame = 1
BLAST of ClCG01G010120 vs. Swiss-Prot
Match: PIGV_RAT (GPI mannosyltransferase 2 OS=Rattus norvegicus GN=Pigv PE=2 SV=1) HSP 1 Score: 165.6 bits (418), Expect = 1.4e-39 Identity = 108/366 (29.51%), Postives = 177/366 (48.36%), Query Frame = 1
BLAST of ClCG01G010120 vs. Swiss-Prot
Match: PIGV_HUMAN (GPI mannosyltransferase 2 OS=Homo sapiens GN=PIGV PE=1 SV=1) HSP 1 Score: 155.2 bits (391), Expect = 1.8e-36 Identity = 105/365 (28.77%), Postives = 177/365 (48.49%), Query Frame = 1
HSP 2 Score: 41.2 bits (95), Expect = 3.9e-02 Identity = 32/121 (26.45%), Postives = 44/121 (36.36%), Query Frame = 1
BLAST of ClCG01G010120 vs. Swiss-Prot
Match: PIGV_DROME (GPI mannosyltransferase 2 OS=Drosophila melanogaster GN=PIG-V PE=1 SV=1) HSP 1 Score: 134.4 bits (337), Expect = 3.4e-30 Identity = 93/303 (30.69%), Postives = 148/303 (48.84%), Query Frame = 1
BLAST of ClCG01G010120 vs. Swiss-Prot
Match: PIGV_DROPS (GPI mannosyltransferase 2 OS=Drosophila pseudoobscura pseudoobscura GN=GA19757 PE=3 SV=1) HSP 1 Score: 131.7 bits (330), Expect = 2.2e-29 Identity = 100/353 (28.33%), Postives = 157/353 (44.48%), Query Frame = 1
HSP 2 Score: 56.2 bits (134), Expect = 1.2e-06 Identity = 31/92 (33.70%), Postives = 51/92 (55.43%), Query Frame = 1
BLAST of ClCG01G010120 vs. TrEMBL
Match: A0A0A0LZG3_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G604050 PE=4 SV=1) HSP 1 Score: 869.4 bits (2245), Expect = 2.1e-249 Identity = 440/503 (87.48%), Postives = 460/503 (91.45%), Query Frame = 1
BLAST of ClCG01G010120 vs. TrEMBL
Match: D7SLG2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_06s0004g00920 PE=4 SV=1) HSP 1 Score: 674.9 bits (1740), Expect = 7.7e-191 Identity = 330/492 (67.07%), Postives = 394/492 (80.08%), Query Frame = 1
BLAST of ClCG01G010120 vs. TrEMBL
Match: W9S353_9ROSA (GPI mannosyltransferase 2 OS=Morus notabilis GN=L484_001330 PE=4 SV=1) HSP 1 Score: 662.5 bits (1708), Expect = 4.0e-187 Identity = 331/491 (67.41%), Postives = 394/491 (80.24%), Query Frame = 1
BLAST of ClCG01G010120 vs. TrEMBL
Match: M5W449_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa004654mg PE=4 SV=1) HSP 1 Score: 651.4 bits (1679), Expect = 9.1e-184 Identity = 324/499 (64.93%), Postives = 390/499 (78.16%), Query Frame = 1
BLAST of ClCG01G010120 vs. TrEMBL
Match: V4UA18_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10015009mg PE=4 SV=1) HSP 1 Score: 643.7 bits (1659), Expect = 1.9e-181 Identity = 317/494 (64.17%), Postives = 390/494 (78.95%), Query Frame = 1
BLAST of ClCG01G010120 vs. TAIR10
Match: AT1G11880.1 (AT1G11880.1 transferases, transferring hexosyl groups) HSP 1 Score: 607.8 bits (1566), Expect = 5.9e-174 Identity = 307/495 (62.02%), Postives = 375/495 (75.76%), Query Frame = 1
BLAST of ClCG01G010120 vs. NCBI nr
Match: gi|659100441|ref|XP_008451101.1| (PREDICTED: GPI mannosyltransferase 2 [Cucumis melo]) HSP 1 Score: 899.8 bits (2324), Expect = 2.1e-258 Identity = 451/503 (89.66%), Postives = 468/503 (93.04%), Query Frame = 1
BLAST of ClCG01G010120 vs. NCBI nr
Match: gi|449462575|ref|XP_004149016.1| (PREDICTED: GPI mannosyltransferase 2 isoform X1 [Cucumis sativus]) HSP 1 Score: 869.4 bits (2245), Expect = 3.1e-249 Identity = 440/503 (87.48%), Postives = 460/503 (91.45%), Query Frame = 1
BLAST of ClCG01G010120 vs. NCBI nr
Match: gi|778663489|ref|XP_011660096.1| (PREDICTED: GPI mannosyltransferase 2 isoform X2 [Cucumis sativus]) HSP 1 Score: 682.2 bits (1759), Expect = 6.9e-193 Identity = 344/391 (87.98%), Postives = 360/391 (92.07%), Query Frame = 1
BLAST of ClCG01G010120 vs. NCBI nr
Match: gi|1009123919|ref|XP_015878796.1| (PREDICTED: GPI mannosyltransferase 2 isoform X1 [Ziziphus jujuba]) HSP 1 Score: 675.2 bits (1741), Expect = 8.5e-191 Identity = 336/499 (67.33%), Postives = 403/499 (80.76%), Query Frame = 1
BLAST of ClCG01G010120 vs. NCBI nr
Match: gi|225435692|ref|XP_002283435.1| (PREDICTED: GPI mannosyltransferase 2 [Vitis vinifera]) HSP 1 Score: 674.9 bits (1740), Expect = 1.1e-190 Identity = 330/492 (67.07%), Postives = 394/492 (80.08%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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