ClCG02G000300 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGATGGAAGAGGGAATATTGTTCATGAACCTCCAAATGCAAAGTTTGAATTCACTCCAACATGGATCATTGCTGTTGTTTCATCTATTATTGTTATCATTTCCTTCTCTGTTGAGCGTGGCCTTCATCGCCTTGGACAGGTTCTTATATATATATATATATATATTCTCAATACCTTTCACTTTTTTTTTTTTTTTTGTTGTTTCTTTAAACCTACTTTTACCTATTTATAGTTTAAATTTAGTAATATATTTTTCGTTTGATTACTACTTTCTTTCATACTTTGGAATTTGGTTCACAAACATGCAAAAATGTAATGAATATAATTATAGTTTGGGTTGAACTTTTGTTGGTGTGATCGTATTATATCTTATGTTAATGAAATAATAATATATATCAAATTCTATTAACAAATATCTTACAAATGTGACTTTTTAACCTAATTTACTCGTATATAACAAAATGATAATTTTTCTGTCTTAACGTGGTTGTTTCTTTGAATCAGTTATTGAAACGTAAAAAGCAGGATGAATTGAATCACGCATTGCTGAAATTAAAGGAAGGTTATTCCTCAAATTTATTACCTTTTTTTTAAAAAAAAAAGATTATATGGTTCTCTCTAATTAACTTTTTGTAATTATTTAATTCTACAGAATCACATCTTTAGACGCAAAGTAAAAATTGTTATGTGACGAAGTTTGAATTTGAGTCAACTAGTTAAAATAATATTAATTAAAAAAGAGAAAAAAAAAACCTTAAACACACCTTAAAATGAAATTGAGAAAGTTTAATGGATTTCAGACTTGGAAAAAAATGGTTTTTTTTTTTTTTTTTAATTTAAAAAAACACTTTTAATTATCATACTAGGAAATTTTAAAATGTGCTTTGCCAAAATAAATGTATTTATTATTTAAGTCCAAAGTTGATCCTCCTAACTCACTTAGTAGAAAACTACTTTACTTGAAAGCATTAGATTATCATTGAAGTATACTTAGATTAATTTAATATCATGCATGTCAATTTAACTAGGCTATTTAGCTAATTTGTTAAGAAAAAAAATATGAAATTCGAAGATTTGTAAGACTATATATTTAAGACGACCTCCTCTCTTCTAATCAATGCAAGACTATATGTATTTATTTTAGGTACTTAATCCAACTCATAAAAAAATGACTTTTTAATTTTTAAATTCACAAACAATTATCGTCGGATAATAAAATCGCAAATGTAGAAGTTATAATAAAAGTATATTGTATTAGAAGTTTGTCATGAATTTTTGTTTGTTTTTTTTGGGACAGAGTTGATGATTTTAGGGTTTATCTCCCTATTATTGAATGTGTTTCAAGGGGCAATTGGACGTTTTTGTATGCCCAAAGATTTTGCAAACCATATGCTTCCATGCAAGAGACCTGTATCCACTGTAAACCATTTTTCATCGCCAAATTTCATTGACGATTATAATATTCATCGTCATCTATTATCATCGCAAACTAATTTTCAACATTGTTCACGAAAAGTAAGGACTCTTTTGATAACATTCTTGTAGCTATTTTTATTACTATTTTCATTATCAATTAAATCTATAATCTTAGATAGTTCGTGATAGACTTTTATCGCAATAATTTAGATGGAAGTCTATCACTAAACAGTGAAATTTTTATATATTTGTAAATAGTTTAGCTCATTTTGTTATATTTGAAAATAACCTAAAAACATATCTATCACCTTTAATCAAACATTCATATTAAAAAATGTTAACATCCAAAATTCATGAAAAATTATCGATAAAAAAAAAAAAAAAAATTACTATCCTCATGAAAATGTTAGGTTTGTAATATTTGTGGAGAATTTAATTTAGGAGAATTTGAAATAAAAATTACTTCACATTTATATCCTCACAGGGAAAAGTTCCTCTATTGTCCTTGGAAGCTTTGCATCAGCTGCATATTTTCATATTTGTGTTGGCTGTTGTTCATGTCATCTTCTGTGCTACAACCATGCTTCTAGCTTCTGCAAAGGTAAACTCTCTCTCTCTTTTTCGAGATCGAAAAATTATTAAATGTGACCGTCTCTATTCAACTCGATATTCAAAATAAGGTTTAATTTTGATCCATGGTTAATATTTTAGTTCTTTAATGCTAATAAACTCACATTTTACTATATTTGTAAATATTTTAGCTCATATTAAAGAAATCTTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATTTTTTTTTTTTTTTTCTTAATCTCTCTTTTTCCAATTTGCATAGATAAGATTGTGGAAGAGGTGGGAGGATTCTATTTATCGGGGAACTACAATATCTCAAGATGGTAAATGATTTAGGTTAAAATATCATTTTATTTATAATTGGTTCTATTTTAATCTTTTTTCTACTTTCAAACCTCCAAATTACTTCCATGAATCTTTAAATTATTTCTACATAAAAGTTTTCAAGAATAATAATAATAATAAATAAATAAAAACAGACTCTATTACTATTATTTCTATAAATTTTGGAAATCATGGTATCTTTTTCTGGAATAAAAATATAAAATTGTGTTATTATGTTACAAATTTTGACTAACAAAAAAGTTCAAACTAATAATGGAAACTGAATTTCTATTGTATATATACATGTGTATGATTTAATCACTTGAGTTATATAAGGTTGGTGGGTTTTATATATCATGTTAAAAGAAAATTTAGGTAGCTTTCTAATATTAGTATAAAAATCAAAATGGAATGTCTCACAGGAATCAAAATAGTATTTTAATATGATTAATAACGTTTTTCACTTACTATTTTTGGAATGTTTTAAATAATTTAGAGTAGATTTTAGCAAATGCTTGAATTAAACATTTTGATTGTCCAATGTTTCTTCTGAAGATAATGAGTTTAAAGAACGTGCCGAAGGATTTTGGAAAAATGCTGCTGTCGTAGCTTGGATGGTAATTAAACATTCTATTCTTTAATAACGATTTTCTTTTTGTTTTTTTTTTTTATTATTATTATTATTATTTTTTTTATATATATAAATTTAATGACGAAAATGGTATTTTTTACTGTACTTTTTTATCTTTCAAATTATATGCTTATTTACTTCTAATTTTTATTATGTTGAATTACAAGTCGGGAGAAAATTAGAATTTAGTCCCTATTTATATACTTATTTTAAAATGCTTATTTTAGGTTGCATTTGCGAAGCAATTTCATGGATCAATCACAAAGTCCGATTACATTTATCTTCGACGAGGCTTTATTAAGGTTACAAATAATTTTCATCCTAACAAATTTTATTCATATATTCTTTAGTTTCCATATTTATTTTGAGGATTTTTATTTTTCTTTTTTCTTTTTTTTTTTTTTACTCTTCTACTTAAATTTAAAATTAAGTTGAAATTATTCGCAATACCCAACATAAGGAAAAATTCCATTTTGATAGGTTGTATCAATTTCAACTTTAAACTTTCAATTTCATCAAAGTAGAACTCAAACTTAAATAAGTGTTAATAGAATCAAACTTGTAATATTATAGAAGATAACACTAGGATTCTTTATGGCGGACAATTTTCTATATCAGTTTTTAGAATTAGAGTATAATTTTACAATGAGTTAATATTTCAAATTCAATGCAATAATAAAATTAAAAATTTAAGATAAAAGTCTATTCCAATTTAGTTTTTTTATTTTATTTTATTTATTTTAATGATGCAGAAACATTGCCCTGGGGAACCTAATTTTAATTTCTATGACCACATTACAAAGACATATCAACATGATTTCAAGAAAGTTGTTGGTATAAGGTGAGTCACTTTTCATTTACCAGAAACATTTATTAAAAAAATACGAAAATATTATATTTCCAACTATTTAATTTTTATTTCTAAAGTTTAGTTTGGGTAGGGTAAAAAAAGGTAAATGGGACTATTTTTCCAGACATAATGGAAACTTTTTAACATATATAAATAAATATATTCTCATCAAAATTATTTCAAATTAATTAACTGAATGTTAATTATTGGCACAAACCAAAAATTGAGCATTAGTGATACCTGTGGGCCTTTGTTGAAACTTTTGAAATATTATTATTATTACTACTTTTGTGTTTTAACTAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAATCGAAAATTGTTTGGCTGAATTATTAAATATAAACTCAACATTTTGTAGTTGGTACCTTTGGGCCTTTGTTGTGCTCTTCTTGCTGCTTAATCTTGAAGGTAAATATCATGTTTTTACCATTCCTATTTACCCAAATTTGACTAATTATTATATCTTACTTTGGGTTACAATACATTTATTTGCAAATGTGATATTTACTTTTGTAGGATGGCACACTTATTTTTGGATGTCGTTTCTACCACTAATTGTAAGTTCTTAATATTAGACTAATTTTTTTTAGTGAAATAAAATCTACCAAAAAAATATTATGTTCAAATTTCATAGGTAGTTTTACACATACCTACCCTATTTGCAAAGATGTAGTGTAATAAAAGTAATTTTCGATATACGTGTTCCTTAGTTACTTGCATATATTGTTTTTAAAAGTTAAGGCAAATATATTTTTGATCCTTGAGGTTTGATTTAATCTATTAGGTCTCTTAAATTTAAAAATGTAGACATTTTAGTTTCTAAGATTTAGATAAAAAAAGTTCCAAATGTTTCCTCAACCCAACCATCAGTTGACCTAACAATAAGAAAGAAGAGAAAGAAAAAAGTCACACGTCGACTGTCCAATCAACAAATTTTGACACATCATCAATATTTAATTGTCATCTCAACATTCTATCATGTTGTTTTTAGTACAACAATTGTGAGGATGGAAGATCGAACATCTTACCTCTATGATAAAATGTTATATCAATTACCGCTGAGCTAAACTCACATTGACTACATTAATTAGACTTCATATGGTTAATCAGATGCTACTTCTAGTTGGGGCAAAGTTGGAATACGTAATAACACGTATGGCTCAAGAATTAAACTCGAGAATAGAAGACAAAGAAGCACAACAAGAACAAGTACATGACAACATTAATAGATTTCATAGACAACATAAGGAAATCAAAAGACATGGTAGCCGCCATGTAGTGAATCCCTCAGACGAACACTTTTGGTTTGGTCGTCCTTCTCTTGTTCTTGTCTTGATTCATTTCATTCTGTTTCAAAATTCCTTCGAGATTGCCTTCTTCTTTTGGATTTGGGTAAGATTTTTTCTTTCCTAATCTTTTAAATTATTACTTTCAAAAACTATACTCATCTTTTATGTTATGGTTGGAAAATATTTGCAGACGACTTATGGATTTAAGTCATGCATTATGGACAAACCTGCGTTCATCATCACTAGACTCATCTTGGGGTAACATTATTGATCTTGATATGATTGATAACGATTTCATTGTTACCTACTTTTTTTTTAATTAAATATATACACACACGTGCGCTAAGAGTAAACTTGCCAATTACAATTTTCTTTTTCAAGTGATATGACTTTTGCCGTTTCAAGATCAATGAGTTTATGATTTAAAAAATGGGGAGTTGCAAATATAATAATAAAGTCTAAAGTATTAATAGATACAGCAAAATCTAGATCTACTCTCGAAGTCTTTCAGTGATAGACTATATTACTAATATGAGTATAAGAAATAGAATCTATCATAGATAGATTTTGCTATATTTGCAATACTTTAAAATGTTTCATGTATTTAATTATTGGCCCTAAAAGTACTACCGTTGTAATTACCCTTTCAAAAAATGCATATATTCATAAAAAAAAAAAAAAAATTAATTGAGACGGAGAATATGAAGATATGTTAGTAAATCTAGATTTTGTTTTATAATTTTAGATTATTCAGTAAATATGTATTAAATGACAGGATTATTGTTTTTATATAGATATTGTGATCTAATCCATATAAATTTTGAACTAGTCTAATTATCCCAATTTTGAATTATAAATTTTAAAATTTTAAAAACATAATTATATTTTTCAAAAAATAAAATTTTAAAAATTTTGTATTTCATATTATAAACTCAATTCATGTTTTAAAAAATAAAATATGTATTATGTAATGTATTATGAATTATAGGATTGTTTTCAAATATAGGAAAATGAATCAAAATATTTATAAATATAACAAAATTTCAGTCTATCTGCAATAGATCGGGATAGACTACTATTTATGTCTATTTGTGTTATGATATACACATATAGTAGTCTAGTGATATTTTGCTATTATTTGTAAACATGTTCAATAGTTTTGTCATTTAAAATAATTTCCCTAAATTATATGATATAAAAATATATTTCCAAACCCTAATTGGTTAATTAATTATAGTTTATATTCAACGTGGTGGTAACTACAACTAGTTGTATATTTTATAAATATACTATCAAACAAATCTAAAACAATTGTTTAAATTTATGAATATACTATCAAATACATATTTGAAAACATGGAATATTGATTTTTTTGTCCTTTAATTTTTTTTTGTAAACATGGAATATTGATTTTTTTGTCCTTTAATTTTTTTTGTTTTCAAATTTCTATTTCAAATTGCTTATCAAATAGACCCTTAGATTTCAATTTATTTTTTTATTTTTTTAAAATTAAGGTGACTAACATTTTGCTCAAATTGTTTCACACAGTGGCATTGTTCAAGTGCTATGCAGTTATAGCACATTGCCTTTGTATTCTTTAGTCACTCAGGTTGGTTCTCCCTCCTCTTTAATGGTTCAACTAATTAAAAAAGTGTAATTAAAAATTAAATTATTTACTTTCATACTTATTGTTTTCTTTTTCTTCATAATTTCAACCCTTTTCATTTTCTTCTTATATAGTATAGGAAGGATGGTTTGTTAAAAGCTTGGTCGGTAACGTTTTAGTTATTGTTTTCTGTTTATTATTTCCTCTCTTTTAATGGAAAAAAATAAAAATATGTTTGATAACTGTTTTTCTTTTTTTCTTTAAAAAATGTGTTTACCAATTTAAAATCAACATTGTAAAACTTTTAAGAAAATCATTTCTTAAAACTAAATATTTAAACTTTTTTTATTTAATTTTAAAAATTTAATATACATTTTGTAATACTGTTTTCAAATATAGTAAAATCAATCAAACTATTTACAAATATAGAAAAATTTCATTGTCTATATAGACCGTAATAGACATGGACATATCACTAATAGAGGGTAAAAATTTTCTATATTTGTAAATAGTTTTATATTCGGTTCTATTTATAATAATTTTTCCATTTTATAAGTCACATAGATAAAATAATACTTTTACCTTATGTTTTGATGGGAAAAAAAATTGTGTTTAACTATTTTGGTTGTGTTGTTTCAAATCTAGTCTCTCCATTTTTTAAATATCTATTTCGATCCATATTTTAAATAGTAATTGTTTGTACGGATTATTCTTTGGATTTTTTGTACGGATGGCCCAAAATAAAATTTGCACCACTAATTAAAGCTTAAGTTTTCGGACATTTTGCTTACGTCATATCGGTGTGAAATTATCATAATGCTTCTAGTCTTGCTTGTTCTTTACTCTCGCTACTCGCTCGCTATCTCTCTCTATTTTCTCTTACAACTTGTTCTCTTTCTTGCATGCTCTCGTTCTTTGTTTTTGGCTTCTCACTCTTTGTATTAAAAGAAAACGAATAACAAAAGTTGTAAGATTGAAAGTGAGGGAGCGAGAGTTAAGAGTTGAGAGCCTAGCAAGTGTGCACAATAAAATCATTTCATTAATTTTCACCGATAATGACGCAAGCAAAAAATGTCAAAAAAAAAAACTTGCATTTTAAAAAGTGGAGCAAATTCTATTTTATGTCTTGATTTGGGGTCAACAGCGTACAATTATCTCATCATTTTTAGCAAAAAGGATTTCTACGAGAATGTATAAGTTTTACAAACATAGATTAAAAGCACTTACATAGACCAAAATTAGAAAATGTATATATGAAGTTGAAATAAACTAAAGTCGAAAGTACAAGTAGGATTGATTTGTGGCTAGATATAAAAGAGCTTATTTTGAGTGTTATTTTTGTCACAAACTTGAAGATGGGAAGCGAATATAAGAAGCCAATGGAAGAAGATCAAATGTCAGAGGGTGGAGATCACCAAGTGCAAGAAAGAAGCAGCTGA ATGGATGGAAGAGGGAATATTGTTCATGAACCTCCAAATGCAAAGTTTGAATTCACTCCAACATGGATCATTGCTGTTGTTTCATCTATTATTGTTATCATTTCCTTCTCTGTTGAGCGTGGCCTTCATCGCCTTGGACAGTTATTGAAACGTAAAAAGCAGGATGAATTGAATCACGCATTGCTGAAATTAAAGGAAGAGTTGATGATTTTAGGGTTTATCTCCCTATTATTGAATGTGTTTCAAGGGGCAATTGGACGTTTTTGTATGCCCAAAGATTTTGCAAACCATATGCTTCCATGCAAGAGACCTGTATCCACTGTAAACCATTTTTCATCGCCAAATTTCATTGACGATTATAATATTCATCGTCATCTATTATCATCGCAAACTAATTTTCAACATTGTTCACGAAAAGGAAAAGTTCCTCTATTGTCCTTGGAAGCTTTGCATCAGCTGCATATTTTCATATTTGTGTTGGCTGTTGTTCATGTCATCTTCTGTGCTACAACCATGCTTCTAGCTTCTGCAAAGTTTAAAGAACGTGCCGAAGGATTTTGGAAAAATGCTGCTGTCGTAGCTTGGATGGTTGCATTTGCGAAGCAATTTCATGGATCAATCACAAAGTCCGATTACATTTATCTTCGACGAGGCTTTATTAAGAAACATTGCCCTGGGGAACCTAATTTTAATTTCTATGACCACATTACAAAGACATATCAACATGATTTCAAGAAAGTTGTTGGTATAAGTTGGTACCTTTGGGCCTTTGTTGTGCTCTTCTTGCTGCTTAATCTTGAAGGATGGCACACTTATTTTTGGATGTCGTTTCTACCACTAATTATGGGAAGCGAATATAAGAAGCCAATGGAAGAAGATCAAATGTCAGAGGGTGGAGATCACCAAGTGCAAGAAAGAAGCAGCTGA ATGGATGGAAGAGGGAATATTGTTCATGAACCTCCAAATGCAAAGTTTGAATTCACTCCAACATGGATCATTGCTGTTGTTTCATCTATTATTGTTATCATTTCCTTCTCTGTTGAGCGTGGCCTTCATCGCCTTGGACAGTTATTGAAACGTAAAAAGCAGGATGAATTGAATCACGCATTGCTGAAATTAAAGGAAGAGTTGATGATTTTAGGGTTTATCTCCCTATTATTGAATGTGTTTCAAGGGGCAATTGGACGTTTTTGTATGCCCAAAGATTTTGCAAACCATATGCTTCCATGCAAGAGACCTGTATCCACTGTAAACCATTTTTCATCGCCAAATTTCATTGACGATTATAATATTCATCGTCATCTATTATCATCGCAAACTAATTTTCAACATTGTTCACGAAAAGGAAAAGTTCCTCTATTGTCCTTGGAAGCTTTGCATCAGCTGCATATTTTCATATTTGTGTTGGCTGTTGTTCATGTCATCTTCTGTGCTACAACCATGCTTCTAGCTTCTGCAAAGTTTAAAGAACGTGCCGAAGGATTTTGGAAAAATGCTGCTGTCGTAGCTTGGATGGTTGCATTTGCGAAGCAATTTCATGGATCAATCACAAAGTCCGATTACATTTATCTTCGACGAGGCTTTATTAAGAAACATTGCCCTGGGGAACCTAATTTTAATTTCTATGACCACATTACAAAGACATATCAACATGATTTCAAGAAAGTTGTTGGTATAAGTTGGTACCTTTGGGCCTTTGTTGTGCTCTTCTTGCTGCTTAATCTTGAAGGATGGCACACTTATTTTTGGATGTCGTTTCTACCACTAATTATGGGAAGCGAATATAAGAAGCCAATGGAAGAAGATCAAATGTCAGAGGGTGGAGATCACCAAGTGCAAGAAAGAAGCAGCTGA MDGRGNIVHEPPNAKFEFTPTWIIAVVSSIIVIISFSVERGLHRLGQLLKRKKQDELNHALLKLKEELMILGFISLLLNVFQGAIGRFCMPKDFANHMLPCKRPVSTVNHFSSPNFIDDYNIHRHLLSSQTNFQHCSRKGKVPLLSLEALHQLHIFIFVLAVVHVIFCATTMLLASAKFKERAEGFWKNAAVVAWMVAFAKQFHGSITKSDYIYLRRGFIKKHCPGEPNFNFYDHITKTYQHDFKKVVGISWYLWAFVVLFLLLNLEGWHTYFWMSFLPLIMGSEYKKPMEEDQMSEGGDHQVQERSS
BLAST of ClCG02G000300 vs. Swiss-Prot
Match: MLO1_ARATH (MLO-like protein 1 OS=Arabidopsis thaliana GN=MLO1 PE=1 SV=1) HSP 1 Score: 277.7 bits (709), Expect = 1.5e-73 Identity = 146/323 (45.20%), Postives = 187/323 (57.89%), Query Frame = 1
BLAST of ClCG02G000300 vs. Swiss-Prot
Match: MLO3_ARATH (MLO-like protein 3 OS=Arabidopsis thaliana GN=MLO3 PE=2 SV=1) HSP 1 Score: 197.2 bits (500), Expect = 2.6e-49 Identity = 108/296 (36.49%), Postives = 154/296 (52.03%), Query Frame = 1
BLAST of ClCG02G000300 vs. Swiss-Prot
Match: MLOH1_ORYSJ (MLO protein homolog 1 OS=Oryza sativa subsp. japonica GN=MLO1 PE=3 SV=2) HSP 1 Score: 193.0 bits (489), Expect = 4.9e-48 Identity = 110/297 (37.04%), Postives = 160/297 (53.87%), Query Frame = 1
BLAST of ClCG02G000300 vs. Swiss-Prot
Match: MLOH1_ORYSI (MLO protein homolog 1 OS=Oryza sativa subsp. indica GN=MLO1 PE=3 SV=2) HSP 1 Score: 192.2 bits (487), Expect = 8.4e-48 Identity = 110/297 (37.04%), Postives = 159/297 (53.54%), Query Frame = 1
BLAST of ClCG02G000300 vs. Swiss-Prot
Match: MLO13_ARATH (MLO-like protein 13 OS=Arabidopsis thaliana GN=MLO13 PE=2 SV=1) HSP 1 Score: 184.5 bits (467), Expect = 1.8e-45 Identity = 94/180 (52.22%), Postives = 122/180 (67.78%), Query Frame = 1
HSP 2 Score: 143.3 bits (360), Expect = 4.5e-33 Identity = 60/104 (57.69%), Postives = 81/104 (77.88%), Query Frame = 1
BLAST of ClCG02G000300 vs. TrEMBL
Match: A0A0A0LQD7_CUCSA (MLO-like protein OS=Cucumis sativus GN=MLO PE=3 SV=1) HSP 1 Score: 485.7 bits (1249), Expect = 4.1e-134 Identity = 249/313 (79.55%), Postives = 264/313 (84.35%), Query Frame = 1
BLAST of ClCG02G000300 vs. TrEMBL
Match: A0A0S3S474_PHAAN (MLO-like protein OS=Vigna angularis var. angularis GN=Vigan.05G101600 PE=3 SV=1) HSP 1 Score: 335.9 bits (860), Expect = 5.2e-89 Identity = 169/297 (56.90%), Postives = 206/297 (69.36%), Query Frame = 1
BLAST of ClCG02G000300 vs. TrEMBL
Match: Q2HSS4_MEDTR (MLO-like protein OS=Medicago truncatula GN=MLO PE=3 SV=1) HSP 1 Score: 334.7 bits (857), Expect = 1.2e-88 Identity = 170/306 (55.56%), Postives = 204/306 (66.67%), Query Frame = 1
BLAST of ClCG02G000300 vs. TrEMBL
Match: G7IFS4_MEDTR (MLO-like protein OS=Medicago truncatula GN=MLO PE=3 SV=2) HSP 1 Score: 334.7 bits (857), Expect = 1.2e-88 Identity = 170/306 (55.56%), Postives = 204/306 (66.67%), Query Frame = 1
BLAST of ClCG02G000300 vs. TrEMBL
Match: A0A061GAK3_THECC (Endoglucanase OS=Theobroma cacao GN=TCM_028111 PE=3 SV=1) HSP 1 Score: 330.5 bits (846), Expect = 2.2e-87 Identity = 163/299 (54.52%), Postives = 207/299 (69.23%), Query Frame = 1
BLAST of ClCG02G000300 vs. TAIR10
Match: AT4G02600.1 (AT4G02600.1 Seven transmembrane MLO family protein) HSP 1 Score: 277.7 bits (709), Expect = 8.6e-75 Identity = 146/323 (45.20%), Postives = 187/323 (57.89%), Query Frame = 1
BLAST of ClCG02G000300 vs. TAIR10
Match: AT2G44110.2 (AT2G44110.2 Seven transmembrane MLO family protein) HSP 1 Score: 258.1 bits (658), Expect = 7.0e-69 Identity = 133/301 (44.19%), Postives = 176/301 (58.47%), Query Frame = 1
BLAST of ClCG02G000300 vs. TAIR10
Match: AT3G45290.1 (AT3G45290.1 Seven transmembrane MLO family protein) HSP 1 Score: 197.2 bits (500), Expect = 1.5e-50 Identity = 108/296 (36.49%), Postives = 154/296 (52.03%), Query Frame = 1
BLAST of ClCG02G000300 vs. TAIR10
Match: AT4G24250.1 (AT4G24250.1 Seven transmembrane MLO family protein) HSP 1 Score: 184.5 bits (467), Expect = 9.9e-47 Identity = 94/180 (52.22%), Postives = 122/180 (67.78%), Query Frame = 1
HSP 2 Score: 143.3 bits (360), Expect = 2.5e-34 Identity = 60/104 (57.69%), Postives = 81/104 (77.88%), Query Frame = 1
BLAST of ClCG02G000300 vs. TAIR10
Match: AT1G11310.1 (AT1G11310.1 Seven transmembrane MLO family protein) HSP 1 Score: 174.9 bits (442), Expect = 7.8e-44 Identity = 112/318 (35.22%), Postives = 151/318 (47.48%), Query Frame = 1
BLAST of ClCG02G000300 vs. NCBI nr
Match: gi|778670305|ref|XP_011649433.1| (PREDICTED: MLO-like protein 13 [Cucumis sativus]) HSP 1 Score: 485.7 bits (1249), Expect = 5.9e-134 Identity = 249/313 (79.55%), Postives = 264/313 (84.35%), Query Frame = 1
BLAST of ClCG02G000300 vs. NCBI nr
Match: gi|694329211|ref|XP_009355375.1| (PREDICTED: MLO-like protein 13 [Pyrus x bretschneideri]) HSP 1 Score: 337.0 bits (863), Expect = 3.4e-89 Identity = 164/302 (54.30%), Postives = 210/302 (69.54%), Query Frame = 1
BLAST of ClCG02G000300 vs. NCBI nr
Match: gi|965600449|dbj|BAT87627.1| (hypothetical protein VIGAN_05101600 [Vigna angularis var. angularis]) HSP 1 Score: 335.9 bits (860), Expect = 7.5e-89 Identity = 169/297 (56.90%), Postives = 206/297 (69.36%), Query Frame = 1
BLAST of ClCG02G000300 vs. NCBI nr
Match: gi|87241061|gb|ABD32919.1| (Mlo-related protein [Medicago truncatula]) HSP 1 Score: 334.7 bits (857), Expect = 1.7e-88 Identity = 170/306 (55.56%), Postives = 204/306 (66.67%), Query Frame = 1
BLAST of ClCG02G000300 vs. NCBI nr
Match: gi|922386108|ref|XP_003594424.2| (seven transmembrane MLO family protein [Medicago truncatula]) HSP 1 Score: 334.7 bits (857), Expect = 1.7e-88 Identity = 170/306 (55.56%), Postives = 204/306 (66.67%), 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:
|