ClCG09G012960 (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.AAACAACCAAACAAAACAAAACAAAGCAACCCCAGAGGCAGAGGCTTCCAGAATTGCTTCGACTTGAACAGAGGAAACAGGACGCGGCGGAGAGAGCGGCGGAGAGAGAAGGATGGCACTAGCAGTTAAGGCTTTTCCGTTCACTGTGGTGAGTCACGTGCTGGCAATCGTGGCGCTCATTCTTGTCCTGGTTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTCAATAAGAATCTCATCTTCAACGTAAGTCTCTCTGTCTCTACAAATCGAATTTTTCGGAAGATTTGTTGGAAATTTTGAATCTCTCCTCTCCCGGTTCCTTTTGGGTTTCTTTTTTCTTTTTAATTTTATTATATATTGCTAAATTAGTAAATTTAATTACTAATGCCGTCTCACCGACGAATTTTTCTTTTGATTGATTGGGTTTTTATTATTATTTCAGATTTTTCTACTTTGATTTTTGAAATTTTACGTCAAAAATGTGTTTTAATAGTTGTGGCTTACATTTATTATATTATACTTGATTCGAATTTTGGATATTGTCAATTTGTCACATCAACTTTTTTATCGATTTAATCAATTGAATTGGATATAGTAATAATTAATAATAAAATTAAAAATTAGGTGGTTGGAAATTTAATCAAGGATAAGGAACTGGGAAAAGTTTTTTTCTTTTTTTTTTTTCTTAAGACTTGTGAATTCAAATTCTACATAAAACAAACCGGAAATTTGAGGTAGCTTTCTTTAAATTAATACGTTTTCTGTGATTTTTTTATAATAGTATTAATTTATTATTATTTTATGGTTAAATTATTCATTCAGTCTGATGATTTAATTTTATTTTTAATTTTAAATTTATTTAAATGATTTAAAAATTATAATTTGGATCCTATGACTTTGACTTATTCAATTGTTCATTGTAATTTTAAAAATTTTTGAAATTGTAGTTATAATTTGGTCCATTTTCACAAATGTTATTGCACTTGCAAACAATTGCCATGTTACTTCATACTATTTATAATTTCACGAGAAGTCTTTAAATAATGTATAAGTACTTTTAAGTCTGAGTTAAAAATCTATAAGTTTATATTTGTGATATATTTGAATTTTTTTTAAATTAATTGATTTAAATGATATAAAATCTGTTTGAAAAAAAAAATTGATATAAAATCTTCCTTTTGTGTGTTGCGTAGGTAGGTCTTTAAAAAAAAATTTAGTTAAGGTTAAATAAGTGAAATACATAATAGAAAATGTTCAGAATTAGCCTCCTAAAATTTCTATCTTTAAAAAATAGCACATTTTTTAAATTTGATAAACTAGTTTTATTTTTCTCGATCTATCTTGACTACAATCGATCATTGAGATTTAGCTAAAAAAAAATTAACTAATCTTCTTAATTGTTTTGTTTTGAGCTTTCTAGCTGAAATCTAGCTCAATATTAACACATTTTCTACTAATTTTTCAAATATAACCTATCCAATTTTTATATCTTTTAAAAATTTCTCTCATCTTTATCAAATCTTTTGTAGTTTTTCAAATCTTTCACCAATTTGTTTTTCACAATTATTTGAATTTTCAAATTTCGAGATGGATAATTATCAAAATTGATTTTTTAAATTGATTTTAGATTGTTGCATTGACAAATTATATAGAATTTCAGTGTTAGTTGAAATTTCACCGACAAAGCCCAAATATATAGAATCTTTGTGTTATTTTGTCTTGGGTTAACATGGGGATCCACATAAATTTTTTCAAATTATATGCAATCTCTCCAAATCTTATACCAACTTTTACCTCTTTTCAAATTTTGTCTAGTAATCTTCCCAAATCTTATATAAAAGTTTGCAAATCTAAACTCAATTATGTCTACATAATTTCTAAATTGATTTACCGATATTTGAATGATTTACCAATTATCTTTTCAAATTTCTCCAAATTATGTGATTTTTAAATTTTAGAAATTTTAGAAAGATCATAAAAGATTAAGTGAGATTTGGTAAAATTATGTGAATCTCGGTTCATACTAGTCGAGTTTCCACCAAGAAAGCCTAAAAAAATCTCTAGTTTGGAAATAATCATATAAGTTAAAAAAACAAACTTTTTATACAAATCTCGTGATTGATCTTGATCGAGAAACACTAAAAAAACTATTTTAACAAGTTAACAAAAAGTGTGCTAATTTTGAAAAGTGAGATTTAAAAACAGATATTTATGACAATTTCCCTAATAGAAATGGAATTGAAAATAAATTGTTTGGAGGATAGGATTCAAATTGAGTGAGTTCAACTAATAAAGCCTAGTTTGATAACCATTTAATTTTTTATTTTTTGTTATTGAAAATTAAGTCTATAACCACCACTATTTATTATGTTCTATGTTTACATTTTGGAATATTCTCAAAACCAAAATCATAGTTTGAAAACTATGCCTCATTTGGTAACCATTTCATTTTTTAAGTTTGATTTTTTAAAAATTAAGAATATTTTCCCTCAATTTCTTAGAATGTATGTAAAAGAGGTAAACTCTTAGTCAAAATTCTAAAAATAAAAACATAAGATTTTAAAATGGCTCTTTTCAAATATAGCAAAATGAATAAAAATATTTTAAAATTTTAAATATAGTCAAAGGGACAAAAATATTTACAAATATGGTGAAATTTCACTATCTATCTGTTAGATCACAATAAACTATTATCTGTTTCTAGATAGTAGTCTATTGCAATCTATCTGCGATAAATTGTGTATTTTGTTATAAATATATTCAAATAATTTGCCTTAAAAATTAAATTGGAATTTTTATCTTATTTTAAATTATATGGATTGGTGGGGACAGGGAAGCATTTGAATTTGGGCTATTTAAATCGAGGGTAAATAATGTATAAAATATTTAAATAAAAAAAAAAAAAAATAGGTGGTAGTTTCCGAGTCCAAACAAGAAACTGCAATTGGCATATTTTCAAATGAAAAGGGTTAATTAGCAATGAGAAATCTATTCCCTTTCTTAATGATATTTCGATTTCCCACCTTTTAGGTCCTATTTGCCTTTTTCCACCAACCTCCACTAAAGCCGAACCCTTTCCTATTTTTCTTTCATAGACTATAAATTATAAATATTCATTTGAAGATCTTTTTTTATCTTTTTATCTTTTTTCGTTTTGTATTTATATTATTATTCATGCACAAAATAACTAATTTGTACTCTTTATATTGTTTCCTTGAATGAAAGTTTGTTTATTTCATTAAAGAAAAAAGAAAAGAAAAAAAAGGGACAAACATGAATGTATAATTTTAGTCCATTATCGATTTAATTTTTTACTTTTAAATTTTTAAAATTAATTTCATGTTTTTTATAATTAAATTTTGTTTAATAATGATCTTGATTTAAATTTTTTTGTTTTTGAATTTTATACTTGTAATCTCCCAATTTCTTTATTTTAGTTTTTTCATTTAAATTCATAGTGAAATTTCAAAAATCTAAATAAGCTTTCAAAAATTACATTATTTTTGTTTTCAAAACTCAACTTAATTTTTAGAAATAATGGTAAGAAGTGGATAACCAACTAAATAAACTTCTAGGCCGAAGTGGTATTTAAAAACTTACTCTTCAAATATCAAAAACTAAAATTCAAATGACTATTAAATGAATTATTTATTTTTCGGTAAGTGAAAACTCGAACACACGTCATATTTTTAATTAGACTTGGGACAAAATAGTTTTTTATTTTTTTTTTTTGACAATTATTTTTGTAAAAACTATTTTGATGTACGAGGTGTTTTTTTCTTTTTTTTCATCTGCTATTTGAAAATATTTTTAAAATAACATTTTTAAAACTAAAAAAAGAACATGTAGTTTAGGGTTCAAAATATCTTTAAAGAGTTAATAACAATAGTTTAGAAGTTGTAGAAAAATAAATACAATTATAAAAAAGTACATATATATATAATAAAAGCCGAAATTGGTATCAAATGATGCTCATAAAATAGGCAAAACTTATGGTAATAAAATGATATTTGACTTTATGTCGTTGGATAGGTTTATTTGATTAAAATACCATTTTGATATGTTGAATTTCAAGTTTTATATTTTTAATCTTAGTTTTTATACTTTTAATAAATCTTAAATTTAGTCACTTAAAATTTATTTTTTTTCGAAATTGATTAAATAATGATATGGTAATAGATAATAAATTTTTTTTTTCAAAAATTAACAGTAAGTTAGAGTGGGAACGGGGTCTAAAATTTATTAATAGTATAAATGTTAGAATTAAACCAACTTTAAAATATAGAAACTAAAATTGTGTTTTAATTCATCATTTATTTTATTAAAATAAATGTAAAGTGTCAATGTTCAACAATAGCTGTTTTTTTTTAAGAAAAAATAATAATAAAAAAAAGAAGGCGGCTAATGTGTATTCAATGTTGAACATGATAAATAATAGGAAAGAATGTGTGGGATTGAGCTGTAAATAGATTCCATGGATTATGGAATAATTACAATGCTGCAAGTTAAAAAGTTAATTATTTCTTATTTCTTTTGGTCCATGAAGAATACAATATTCTTATCTTTCTTTCTTTTTTAGACACATTATTCTTACTTTATCTTTATATTTCTATTAATGTGTATGAAAAAACGTTTTAAACCATGTTCCACTCAATAACGCAATTGAAATTAAATAAAATAATAGTGACGTTATCTGTAAAAAACAAAGTACTCCGATATAATATTAAGAGTTGTTTCTAAATATAGTAAAACAAGCTAAAACATTTATTAATATAGAAAATTTTTACTGTCTAGTGATAGACTCTTATTGGTGAAGCAATAGACAATGAATTTTTATATATTTATAAATAGTTTGATATTTTTCTATTTATAATAATTTTTTTTGATATTAAAATATTATTAAATTTTAGAAAAAACTTATTTTATACCATAAACTTTAGATGTATATCAATTAAAATGTACATATTTAAAATATAAACTTTTATAAATTAATTGATTTAGGCTATCATCATAATTAATTAGAAGAAAACTAAACCTATTACATTTTATCTTGTTTGAGAGAAGTAGTCTTTATTTGTTAATGTAATGTATATTTTGAAATATTCTTAAACTTTGTCCGACATTTTAAAAATATCAATATTTTTTGACAAGTTACAATATTTTCTTGATATTTGAGAAACATTTCGAAACTATCATTTAAGTAGAAATTTGTTGGATAACAATGATTCGAAAGAGAACTTGGGTCACACTCATATCTATTTGAATGGTGGTTTTGTAAAATTTATGAAGGTCAAAGTTGGAGAATATTTTGTATAGTTCAACAATTTTTTTTTAATTTTCAAAAAAAAAAGATAAAACTTTTTTTCTAAAAAAACTTTTAAAAACTTTTATTTAAACTTTTCTTTTTCTTTTACACTATGTGGAGTGAAAAAATTGATCTCTAACCTTAAAGTTGATATCATAATATTTATGTTAGTTGAATTAGACACTATATTTGATTCAAATTTACTAATATTGGGCAACGTTTAAAGTAATAGAGTTCCTTTTTTGTTTAAAAATATAATGATATTATCTCAAAGGGTTCTTAGATATAGATTAATTTATAAACATGAATTTAAATGGGAGTAAATTTCAATGTTATGTTAAGTATTAATAAGTTTTCAAACCTAACGTGGGTGCATGAAATTCAACATATTTTTTTTTTTTTTTTTTTTTGGGAGAATGTGAATGAAATTCAATTTTCAACTTTAGGAAAGTTGCTGTTTTAATAGAAAAATGATTCTATGAAACAATCCATTCAACTTTCAACATTTGACATTTCACATTAAATTTTTTCACTTCTTTACTTGATCAACATCATCCTTTTATTCAACATAGCTTGTAAAAGAAAATGTTGAAGAATCAATTAATTCGATCTTGGACTCTATTGCTTAATTGCATTTAAGAACTATGATAAAGGCTACCCTTGAATTTCATAAACTTTTAAGGTCAAATTAGAGATTAGCTGTTGGTAATCTTTTTCATCCAATGGGTAATATTTTGTACAAACAATAATAAATTGAAATTATGAACTTTTACCATAACAAAACATTCCAACCTTTTTCTCTCAATAGATTCATCCTGTTCTTATGCTACTGGGATTGATCATCATAGGAGGTGAAGGTAATGAACTAAATTCAAATCTATATTTTGGGAATTCATTAAAATTAATTTCCAAATGTAAGTTAATTAACTGATTAGAGAAAATGGTTTTAAAAAAATGCAGCAATAATTAGTTATAAATCACTGCCATTAAGGAAAGAAGTGAAGAAAGTGATTCATTTGGTGCTACACGGCGTCGCATTGGCACTGGGTATTGTGGGGATCATCGCCGCTTTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTAGCCTTTATGGTCTCCAGGTATTTACATAATTGCCCCTTAATCCTTCATTTGGTTTTTCTTCCTACAATTTTCCAAATTTTATAATTGTGAGTGTCATCCTCAATTGTGAACTATATTTGATTTTATAATTTAGGCATCCTTTCACTTTGTTTTTAATATATATATATATATTCTCTTTTGTTTAATTTTAGTTGACGTGGCTCTAACAGTTTAATTTTAGATCTATGTACTTTTAACAAAGTTTATATTTAGTCCTTCAAAATTAAATTCTACCATAAATATAATATGTGAATATATTTTAAAATTTATCACAAAAGTACTAATACATAATGAAAAGTTCTTTTTTTTAAAAAAAAATAATCAACAACTACAAGTAATGGTGAGTAAATTAAGATCTATTAAAAATTTAAAGATGAAAATTCAACCATTTAAAATATAAGAACTAAAATTAAAAATATTTCAAAGTATAGGGATCAAAATGATATCTTGACAATGTTTTATTATTATTAGTATTTTAATTATCTTGTTTTAAGATAGTTATGTTTCGTGACTTAGTTCTTTTTGATTATTTCTATGTCAGAGTAGTCACATGCGTTTGTAAAATTGTATTTTATTTTATTGTTTTTTAAAATTAAGAAGATTCGCTTAAAAGTATTAAATAAACATGCATTAAATTTTAAATTGTTGTACGATTAAATTGTTCTTGATTTGGTTGTATAGTTTGGAGGTTAGAATAAACTTGGTCCATATTTATTTAATAACTTCAAGATTAAAATATGATTTTGACTTTTATACTCTGAAATTTGTACTCCTTTGCTTATTTTCGTCCAATTTTAATTTTTTTACTTTCAATAAATCTATATTTAGTTATTTAAAGGTTAACTTATACTGAAATCGGTTAATAGTAATAGTAAATTCTTGAACTATGATTTTTATGTCTAATGGATTTTTCTACCTCTTGACATTTTTCACAATTCACAACTTTACTGAACACAAATGAAAATTTACTAGTGTTTATTTCTCGTTAATAAAAGTTATTAGGAAAAAAAAGTACAATTTTGGTCGTTTTCATTTGGTTCCTAGATTTCAAAATTTAGATAATTAGTATTGAAATTTTGATTTTAGTTTTAATTTAGTCTCTCAATTTCAAAATGTTACAATTTTACCTTTGGAATTTGTGTTTTGTTTCCATTTGGCTTCAAAGTTTCAGAGTTTTCATCACTACTAAAAATCTTGAATTCTAATTAATGAAGTGTTTAATGAAAAACTGAGATTAAAAGTGTAAATCTTGAAACCTAGGAACTAAATTGAGACAAAATCAAATTTAAATGGAAAAATTGTAACATTTGAAACTTGGAAACTAAATTGAAACTTAAATTCAAGGACTAAATATCTAATATTTACTGTATGAAAATTAAACTAAAAACTTAGAAACAAAAAAAAAAGAAAAGTCTCGTTTGGTAATCATTTTGTTTTTTTTAAAAATTAAGGTAAAAGTTAAAAACCAAATAGGTATTGAGCAGCCTAAATTTCCCAGATTATTATTATTCTCCAGTGAGTCAAGTGTATAGAAGGTGCATAAATCACATTTAGAGATAAAAATATTTTAACCATATATTAGACACTCTATTTTGTACTATAGATACTGAAATATTTAGAATATTTGCAATGAAATGTACAGTGGGTGTACGGGTTCGTGACATTCTTCTACCCAGGAGGATCCGCAAATCTCCGACGAGCGTCACTCCCATGGCACGTGCTTTTTGGGATTACTATATACATATTGGCCGTCGGCAACTCGGCATTGGGTTTCCTTGAGAAGCTCACATTTCTAGAGAGCTCCGGCCTCGCTAAATACGGCACCGAGGCCTTTCTCGTCAACTTCACCGCCATCACCACCGTCATTTTTGCACTGTTTGTGATTTTGTCTGTTATTTCTCAGCCTTGCGTTCAAGAAGACAACCATGGCGATTATTCTGCGATATGAAATCTCCTCATGCTTTCCGTATTTGTGATTTTGTCTCTTTTCTCTTGCTTGCCGTATTTGTGTTTTCCAAAGTATAAGCTTGGATGTTCATTAACTACACTTCTATTATATGTCGTGAGTGTTTAATTAATATATATATACTATCCATAAGAGGTTTAAGGAATAAC AAACAACCAAACAAAACAAAACAAAGCAACCCCAGAGGCAGAGGCTTCCAGAATTGCTTCGACTTGAACAGAGGAAACAGGACGCGGCGGAGAGAGCGGCGGAGAGAGAAGGATGGCACTAGCAGTTAAGGCTTTTCCGTTCACTGTGGTGAGTCACGTGCTGGCAATCGTGGCGCTCATTCTTGTCCTGGTTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTCAATAAGAATCTCATCTTCAACATTCATCCTGTTCTTATGCTACTGGGATTGATCATCATAGGAGGTGAAGCAATAATTAGTTATAAATCACTGCCATTAAGGAAAGAAGTGAAGAAAGTGATTCATTTGGTGCTACACGGCGTCGCATTGGCACTGGGTATTGTGGGGATCATCGCCGCTTTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTAGCCTTTATGGTCTCCAGTGGGTGTACGGGTTCGTGACATTCTTCTACCCAGGAGGATCCGCAAATCTCCGACGAGCGTCACTCCCATGGCACGTGCTTTTTGGGATTACTATATACATATTGGCCGTCGGCAACTCGGCATTGGGTTTCCTTGAGAAGCTCACATTTCTAGAGAGCTCCGGCCTCGCTAAATACGGCACCGAGGCCTTTCTCGTCAACTTCACCGCCATCACCACCGTCATTTTTGCACTGTTTGTGATTTTGTCTGTTATTTCTCAGCCTTGCGTTCAAGAAGACAACCATGGCGATTATTCTGCGATATGAAATCTCCTCATGCTTTCCGTATTTGTGATTTTGTCTCTTTTCTCTTGCTTGCCGTATTTGTGTTTTCCAAAGTATAAGCTTGGATGTTCATTAACTACACTTCTATTATATGTCGTGAGTGTTTAATTAATATATATATACTATCCATAAGAGGTTTAAGGAATAAC ATGGCACTAGCAGTTAAGGCTTTTCCGTTCACTGTGGTGAGTCACGTGCTGGCAATCGTGGCGCTCATTCTTGTCCTGGTTTGGACCATTCACTTCAGAGGCGGCCTCGCTTGGGAGGCTGTCAATAAGAATCTCATCTTCAACATTCATCCTGTTCTTATGCTACTGGGATTGATCATCATAGGAGGTGAAGCAATAATTAGTTATAAATCACTGCCATTAAGGAAAGAAGTGAAGAAAGTGATTCATTTGGTGCTACACGGCGTCGCATTGGCACTGGGTATTGTGGGGATCATCGCCGCTTTCAAGAACCATAATGAGAGTGGGATCGCTAATCTTTACAGCTTGCATTCTTGGATTGGAATTGGCGTAATTAGCCTTTATGGTCTCCAGTGGGTGTACGGGTTCGTGACATTCTTCTACCCAGGAGGATCCGCAAATCTCCGACGAGCGTCACTCCCATGGCACGTGCTTTTTGGGATTACTATATACATATTGGCCGTCGGCAACTCGGCATTGGGTTTCCTTGAGAAGCTCACATTTCTAGAGAGCTCCGGCCTCGCTAAATACGGCACCGAGGCCTTTCTCGTCAACTTCACCGCCATCACCACCGTCATTTTTGCACTGTTTGTGATTTTGTCTGTTATTTCTCAGCCTTGCGTTCAAGAAGACAACCATGGCGATTATTCTGCGATATGA MALAVKAFPFTVVSHVLAIVALILVLVWTIHFRGGLAWEAVNKNLIFNIHPVLMLLGLIIIGGEAIISYKSLPLRKEVKKVIHLVLHGVALALGIVGIIAAFKNHNESGIANLYSLHSWIGIGVISLYGLQWVYGFVTFFYPGGSANLRRASLPWHVLFGITIYILAVGNSALGFLEKLTFLESSGLAKYGTEAFLVNFTAITTVIFALFVILSVISQPCVQEDNHGDYSAI
BLAST of ClCG09G012960 vs. Swiss-Prot
Match: ACFR1_ARATH (Transmembrane ascorbate ferrireductase 1 OS=Arabidopsis thaliana GN=CYB561A PE=1 SV=1) HSP 1 Score: 332.4 bits (851), Expect = 3.9e-90 Identity = 158/235 (67.23%), Postives = 188/235 (80.00%), Query Frame = 1
BLAST of ClCG09G012960 vs. Swiss-Prot
Match: ACFR2_MAIZE (Ascorbate-specific transmembrane electron transporter 2 OS=Zea mays PE=2 SV=1) HSP 1 Score: 308.1 bits (788), Expect = 7.9e-83 Identity = 147/224 (65.62%), Postives = 178/224 (79.46%), Query Frame = 1
BLAST of ClCG09G012960 vs. Swiss-Prot
Match: ACET1_MAIZE (Ascorbate-specific transmembrane electron transporter 1 OS=Zea mays GN=ZCYB PE=1 SV=1) HSP 1 Score: 304.7 bits (779), Expect = 8.8e-82 Identity = 144/224 (64.29%), Postives = 178/224 (79.46%), Query Frame = 1
BLAST of ClCG09G012960 vs. Swiss-Prot
Match: ACET1_ORYSJ (Probable ascorbate-specific transmembrane electron transporter 1 OS=Oryza sativa subsp. japonica GN=Os02g0642300 PE=3 SV=1) HSP 1 Score: 297.0 bits (759), Expect = 1.8e-79 Identity = 141/224 (62.95%), Postives = 173/224 (77.23%), Query Frame = 1
BLAST of ClCG09G012960 vs. Swiss-Prot
Match: ACET2_ORYSJ (Probable ascorbate-specific transmembrane electron transporter 2 OS=Oryza sativa subsp. japonica GN=Os04g0533500 PE=2 SV=2) HSP 1 Score: 293.1 bits (749), Expect = 2.6e-78 Identity = 137/222 (61.71%), Postives = 171/222 (77.03%), Query Frame = 1
BLAST of ClCG09G012960 vs. TrEMBL
Match: Q3LGX5_CITLA (Cytochrome b561 OS=Citrullus lanatus GN=CLb561A PE=2 SV=1) HSP 1 Score: 455.7 bits (1171), Expect = 3.4e-125 Identity = 230/232 (99.14%), Postives = 232/232 (100.00%), Query Frame = 1
BLAST of ClCG09G012960 vs. TrEMBL
Match: A0A0A0LHJ1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G914000 PE=4 SV=1) HSP 1 Score: 420.6 bits (1080), Expect = 1.2e-114 Identity = 208/233 (89.27%), Postives = 221/233 (94.85%), Query Frame = 1
BLAST of ClCG09G012960 vs. TrEMBL
Match: M5X204_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa010860mg PE=4 SV=1) HSP 1 Score: 361.7 bits (927), Expect = 6.7e-97 Identity = 169/232 (72.84%), Postives = 204/232 (87.93%), Query Frame = 1
BLAST of ClCG09G012960 vs. TrEMBL
Match: B9R9C0_RICCO (Cytochrome B561, putative OS=Ricinus communis GN=RCOM_1496030 PE=4 SV=1) HSP 1 Score: 347.4 bits (890), Expect = 1.3e-92 Identity = 166/232 (71.55%), Postives = 196/232 (84.48%), Query Frame = 1
BLAST of ClCG09G012960 vs. TrEMBL
Match: B7FIG9_MEDTR (Cytochrome b reductase OS=Medicago truncatula GN=MTR_1g100643 PE=2 SV=1) HSP 1 Score: 346.3 bits (887), Expect = 2.9e-92 Identity = 166/226 (73.45%), Postives = 193/226 (85.40%), Query Frame = 1
BLAST of ClCG09G012960 vs. TAIR10
Match: AT4G25570.1 (AT4G25570.1 Cytochrome b561/ferric reductase transmembrane protein family) HSP 1 Score: 332.4 bits (851), Expect = 2.2e-91 Identity = 158/235 (67.23%), Postives = 188/235 (80.00%), Query Frame = 1
BLAST of ClCG09G012960 vs. TAIR10
Match: AT5G38630.1 (AT5G38630.1 cytochrome B561-1) HSP 1 Score: 214.9 bits (546), Expect = 5.1e-56 Identity = 101/211 (47.87%), Postives = 141/211 (66.82%), Query Frame = 1
BLAST of ClCG09G012960 vs. TAIR10
Match: AT1G14730.1 (AT1G14730.1 Cytochrome b561/ferric reductase transmembrane protein family) HSP 1 Score: 154.8 bits (390), Expect = 6.3e-38 Identity = 74/205 (36.10%), Postives = 123/205 (60.00%), Query Frame = 1
BLAST of ClCG09G012960 vs. TAIR10
Match: AT1G26100.1 (AT1G26100.1 Cytochrome b561/ferric reductase transmembrane protein family) HSP 1 Score: 137.1 bits (344), Expect = 1.4e-32 Identity = 75/201 (37.31%), Postives = 114/201 (56.72%), Query Frame = 1
BLAST of ClCG09G012960 vs. NCBI nr
Match: gi|77403835|dbj|BAE46406.1| (cytochrome b561 [Citrullus lanatus]) HSP 1 Score: 455.7 bits (1171), Expect = 4.9e-125 Identity = 230/232 (99.14%), Postives = 232/232 (100.00%), Query Frame = 1
BLAST of ClCG09G012960 vs. NCBI nr
Match: gi|659131821|ref|XP_008465873.1| (PREDICTED: transmembrane ascorbate ferrireductase 1 [Cucumis melo]) HSP 1 Score: 421.4 bits (1082), Expect = 1.0e-114 Identity = 210/233 (90.13%), Postives = 221/233 (94.85%), Query Frame = 1
BLAST of ClCG09G012960 vs. NCBI nr
Match: gi|449461255|ref|XP_004148357.1| (PREDICTED: transmembrane ascorbate ferrireductase 1 [Cucumis sativus]) HSP 1 Score: 420.6 bits (1080), Expect = 1.8e-114 Identity = 208/233 (89.27%), Postives = 221/233 (94.85%), Query Frame = 1
BLAST of ClCG09G012960 vs. NCBI nr
Match: gi|694391630|ref|XP_009371327.1| (PREDICTED: transmembrane ascorbate ferrireductase 1-like [Pyrus x bretschneideri]) HSP 1 Score: 367.9 bits (943), Expect = 1.3e-98 Identity = 180/234 (76.92%), Postives = 204/234 (87.18%), Query Frame = 1
BLAST of ClCG09G012960 vs. NCBI nr
Match: gi|694445883|ref|XP_009349345.1| (PREDICTED: transmembrane ascorbate ferrireductase 1-like [Pyrus x bretschneideri]) HSP 1 Score: 365.5 bits (937), Expect = 6.7e-98 Identity = 179/234 (76.50%), Postives = 203/234 (86.75%), 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:
|