CmaCh03G011910 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: CDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTGAGATTGGGAGTCATTGGCCTCGCCCCATACAGGCTGGTTCTTTAAAGTCTCCTTGGAGATTTATTTGGCATACATTAGACCTAGTTGTTAGTCAGTGCTCATCTTTGTCTTGGTAATGGAAATTCTTTAACTTTTTTAAAAGGCTCTTGGTTAAGCTGTTCACTTATAGTGACTGTTTTTCCATGTTTGTATCGCCTCACAACTCAACCAGACAGCTCTGTGGTGGATGTTTGGGTTTTGGAAACAGAAACCTGGGTTTTGTGCCTTCTTTAAATGATTTAGACACAATTGAATGGATAACCTATCACACCTTCTGTCCTTGTCAATTTGTGGGAATACTAGTGGCACACGGTTATGTCCTCTTGATTTTTCTAGTATGTATACGGTTAAATTTCGTATGGAAGACCTGGTGGACACTGCCAATCCTTTGATAAAGGACCTATACTCCGTGATGTGGAAGGATTCTTATCCGAAGATAATTAAAAAATTTCTTTGGGAGTTTAGTCCTGGGGTCATTAATACACCCGATCGGCTTCAATGGAGAATGTCTTACCTCAACCTATCCCCTACTTGGTGCATCATGCTTGCGACTAATGCTGAGTATCATGGGCAACTTTTTGGGCTTTGCCCATTCGTTTCCCGTTATTGGTTATTTTTATTGGAAGCCTTTTGGTTGGTCAATGACGTTCCTTTAACAACATTTTTTATCTCCTTGCGTTGGTTTTTGTCGGACATCCTTTTCATGGTCCAAAGAAGACTTTGTGGCTTGCCCTCAATCCATCTTTTTTCTGGAAGTAACGAGTATTGCTTTGGAGTGGTATTACTGATTAAAAGCCTCGTAATTGTCAGTGCTTCCTTCAAGGGATCATACTTAGCATTGACTATTTAATTTAGTCACAATCCATCACCACTCTCTCGTGAACCTGAACCCAGGGAGGAAGAGTTCTCATATTCACCAAAACTCATCAAAATGTCGGACAAACATCAAAGAATTGTTTAAATGCCTGCTTAGTTCCCGTCAAACTTGAAAATTGACCTATTAATTCTTGTTATAGAATGCTTTATATCAATTCATCCCGATTAATATCCATGTTCTCCACTGGAAATTTTCAGCATTTCCTTCTACACTGTTCCTACAGTTGTAAAATGTAGAAATTAGCTGTTAAAAATAATATTTTCAGCATGCTATGTGGTCACTAGTTGAGAATGAGAGCTAAATTATTATGTACTAATGTTTACAAAGCAAATCTGGGGGCATTTGGACAGAGATTAACCAACATAATTTTGAGGTAAAAATATTAATTAAGATGAGTGATTAGAGACTGGAACATATAGTGCAGATACTTGATGTGTTTGTTCTAAATAATTTAGCAATTACTCTTCTAATATAATGAATTCTTGCTGGGGTGCCGTTTTGTAGTTTTTTAGGGTTTCCTTCGTTGGGGTGCCTTTTTGCAACTTTTTTCCTTCTTTCTGGTAAGAAATTGAGAATTTTCCATTGGGACAGTGTGAAGAATATGAGAAGGATCTGTTTCTTGTTAAAAAGGATGTATATAAAGCCCCTTCTTTTCCACAACATGAAATGTAAATACTACGAAGGACATATGGCTTTTAGCTCAGATGCTTGAGGTTACTTGCAAGCAGTGTCTTGCTAGTCTCGTATTACTTCAGTTGTACTAAACTGTCTTTTTGGACCCAAATAAAAAATAATAATTGTCTAGAAAGAGTATACATTGATCATCACATTTATATGGTATTTATGAAACCACTCGCACTAATTCCCACACAAGAACTTTACAAGGATTTCTTCTGGCATGCTTTTGTGTAGTAATATGTCACATAGTTGAAATCAAATCTTATGGTTAATCTTTCAGGTCCAACATATATGCTCCATACTGAGTAAATCAGTGGATGAACATCAAAGATATCAACGAGAAGCTGCTATTGCTGCATTATCTGAGTTTGTCCGGTACAGGTATTAAGAGAGTGATCCTATTCCTTAGTTGCTTTCTTTTGTTGGTTTTCTTTTATTCACTTTACGTACTATAGTATCGTTTAATGTTTGTTTTTGCTTTTATTTCTTTGAATCTCTCTTAAGAACGAATCATCATGAATAAAGGTGAACTAACTAAAAAAATGACAAGCCGTGCTTGTACATAAAGTGAAAATGCTGAAATGTTTATTGGTTAAAACACAATTCTAAGCTGCTATAAGCACTGTTTTTATGAACAAAGACATTTTTCTCTATTTTACCCCACATATTGCCCTAATTAAAATTTTTTCGACTTGAAGAGCTAGGACTGGTACTTGCTGGGAAACAAAGTTACAAAAAGGGTATTATAATATTTTACATCTAAGCTATCAACAAATAAACAAACAAAATGGCGTATGATATTTCAATACTCTCCCACATTTTTGAGCTTAGAAATTTGTAAAAGGCCCAAAAAAGTAGAGATCAATATTAATTGTTGTCTTTTTTGAGTCATCAAGTAATTTTATTCTAAACTGACGCTGACTTTAACTCACAAATACTATTGATATTGTAGTGGACATATTGGCTCCCTGTTAGAACAAATTGTTGAGGTGTTTTGTCGAAATGTATCTGATGAGTCTCCAACTGTTAGACGTTTGTGCTTAAGAGGACTTGTACAGGTATTCAATTTTCCTTATAGTTACTTCTTCCATGGATCAGTTATAGAAAGTGAAATTGACGTCCAATGTCTTAATGTGAGATGTCATGCCTCTATTAGTTGCCCCTTTGATATAAAAGTTGAGTTTTGTTACACCGTTGGAACATACGAATCTGGCTCTACACAAATAGTTTACTGATTTTTCTCACACAAGTTTATGCGCTACAATACAATAATTTACATATATCAAGTTGTCATAATTACTTTATTTATCATATTATATAAACATGGGGTTCCATCTCAAAACTATTTGGCAATGAGATGAGTAGCCCATGTATCTTATAAAGACTTTGTAGTCTCTTCATCTTCTCGATGGGTGATCCTCAACATGCCCCTTTAAGATAGTGTCTCTTTGGGTTCCAATTTTGAACCGAATATCCATTTTGGAGAGAAATATCTGTGTATTATTCCAACCCAATAATGGGTAAATTTAATACAAGAGAAATTTTCTCAGTCAGGGAAAATTATTTTAAATGGAAATTTGATCTCTAAAATTAATTAAGAGACAAATGATTAATATTTTTAATGTAAATGCAACTGTAATCTACACAAATTTACAATCTTTATCATCACAATTATCCTGTCGTAAATATAATTGTTGCTGCTGTCATTTTAATCCATTAGCAGTCTTGTCTTGTACAAATTTGAATAGCTGACTTCTTTCTAAACTTTGAAATTACAGATACCAGTTATTCAAATTATGCAGTATACAGCTCAAGTTCTGGGTGTAATATTAGCTTTATTGGATGATGTTGATGAATCTGTGCAATCAACAGCACTGTCGTGCTTACTTATGGTTAGTTCCTCCTTTTCAATTTAACATCGAATCTGTTTTGCTTATTTTCTAAATTCTGGTCTGTATATTTATCAACTCCATTTACTTGTTTTAGATACTTGAAGCATCTCCCAACGATGCAGTGGAACCCATTCTGCTAAATGTCTCTGTGCGGCTCCGCCATCTCCAAGTGTGTTCCTGCATTCCTTACTCATTTAGTCTATATAACTGCTGAAAACAATATTTTCTACCTTATTTTCCTGGAGAAGAATTAAGTTCTTTTAAATAGAAGAAACACTCATTACAAATAAGCAAGAATAAGGAAGGCCGTGAATGCATATTACTCCTGAATCGATCTTCTCCTTTAAATGAAGTACCTCAATATGTTTTGTCCTATCACGAAGGACTGGATTGGACTATGGAAATTGTTGCCTTGTTGTCACAATAAATGTGCATGGCGTCATCTAAGAGAATTTTAATTCTTTCAATAGTCTTCTTATCCATATACCCTCACAACTACTATGGGCTAACACCCTAAATTCTGCTTCAGCACTACTTCTAACCACCACGCTTTGTTTTTTGTTTTCCCAAGTAACTAGATTCCCTCCAACAAAGGAGCAATAATCAGAAGTAGATCTTCTAACTTTGGTGTTACCTTCCCAATGAGACCCGTGTAAACTTTTAAATATCTCAGGATCCTATAATCTGCTTCAAAGTGAGCTGGCCCAAGAGCATACATGAACTGACTTACCGTACTAACAACAAAAACAATGTATGAACGTATGTGAAAGAGTATATGAGTCTCCCCTTAAGTCTTCAGTACTTTTCCTTATCTCTTACTTTTTTTCTGTTCCAGCTTGCAATTTTAAAATTTGCTCATTGGAAGTTTTTGTTGTCTTGCAACCAAGTCAAGTAAATCAATAATATACTTCCTTTGATTGACAAAGATGCCATTGGCACAGTAGGATCTGCTTGACTTGAATGAAACTGTAGCTCGTGACTACTTTTTCAAAACTTCCAAACCACGCACTGGGGGGCCGTTTAAGGCCGTATGATGATTTCTTTAACTTGCATACTTTGTTAATCCTGAGATCTGCCTCAAAATCAGGTGGTAAGTCCACAAGTACCTCTTCTTCAGATCTCCATTGATAAAGACATTCTTGACATCAAGTTGATTAAGAGGCCAATTAAAATTGAGTGCAATAGGTACGATAATTCTAATATAGTTAATTTGGTAACATTGGGTAATTCTACTATGTTGTCTATGTGCAGCTTTTTTCAGAGCATTCATCCCTTTCATAACCGTTAATTTTCACAATAAGATATTTTGTGCAATTGTGGGTACCTTTCCTTGTCGCTACCTCCTTTATCCTCCAAGTTCAATCTTGTTTTCCTCCTTCCCCTAACTCTTCCTACCCACCCCGACCTAAAAATAGAGGAGTTTTTGGTCTACTTTGACTTTTCTCACCTCTCAACAAAACAACGGAGTCTTTGGAACTTTCTCTCTCTAGAAGGAATTTTTCTCTCTAGTTCACCCACTGTACCTTACTTGGAGACTAAACTTGCAGATGCACTTACAAAATTGCCACTCACTTTAGTTTCAAATAATTAATTTATGTGAGTAAATGTTGAAGGTATGATCTTTTTTATTTCCGTCACATTTTCTTATGCTAAAAAGGCCTGAATGATGGAATAAATCTGATCTTCTTTTTTCTTTTTTTTTGTATTGATTGGTAATTTATGTGATCTTATTAAAAAAAAAGTAATGATCCCTTCGTAGGATGTATGAATAGAGATATTTACGTGAGAATCAGCTATATGTATCCCACTATTTTGTGCAAACTGACTGAGGTCCCCACTCCCCCCCCCCCCCNAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAAAAGTGAGAAAGAAAGAAAAGGAAAAGTGCACTTATAATCTTATCGCAAGAATTTGTTTATTGCAAACTAACTAATCCGAGTTGTATGCGACAGAGCTGCATGAATACGGTTATTCGAGCTAATGCCTTTGCTGCATTTGGAGTATTAAGTAACTTCGGAGTTGGGCAGCAACATGAGGCGTTTCTTGAGCAGGTTGTCCCTACCACAATTACCCACTAAAATTTTGAGATAACAATCACATGCCTTTTCCTTTACTTCTTTTATCTTTTATTTTTATGTTTTGAACCTCAAGAAGACTTCCCGTCATTTTTCTACTTGTGGTGTAGTATCCCTCAATTCACTCGATCATCTCTGTCTACTTATTTTTTGATCACTTCCTTTATGCTTCTCTTTTTTTTTTTTCTGTCTTATTTTCCACCCAGGTTACTTGTGGTTTCTTTATCTCTTTGGAACGAATTTGTTCCACTTATTTTATTGTGTTTTTTTGTATGTGATTTATAAGGATCATGGACTCTTACAGAGTTAATGTATATGCCATGGCTTGGTTTCAATAAATATCAGTTTCCTCGTATATTTATGGACTTGATATTCTTACTTCGGTTGGGGCTAATATGTAATGATGATTTGACTTAATGGAAAATATGAGACAGGTTAGAGGGAGAGGATGTGATAGGTCATTGTTCATGCTGGAGAAGTTTGGAGAGTAGGCATCTTGCTTGGGACTATAATATTAATTGATGGCGGAATGAGGGATAAATGGGGCATGTAGGTAACGGGTGTGGGGGAAAAAGGAGTTCGTGTGGCTAATAGGTTTTCTTAGAATTGCATTTTCTTGCATTGTCTTCATGCAGAAATCCTGTATACTTGAGGAACCACTTTCCTCTATTTGAATATCGTACTTTATCCCATTTGATACAGAAGAAAAAAATCGATCTTTGTTTTGCATCTCTCACATGACCATTTTCTCTATGGTATCACTCGTGTGAGCCATTCACATTGCAAAAATCTGTATTCTAGATTTCACGAATTACTCTTTATCTCTTAGTGTAACGGGAGTCGATCACATTTATTGTGTGTAAATATTTTGGTGGAGTATTTTAGGGGACTGTTCTATTAGATTTAATTGCAACTATTTTGGCCTCAGGTTCATACAACTATTCCCCGCCTTGTGTTGCATGTCTATGATGATGATACTAGTGTTCGCCAAGCTTGCCGGGTAATGGTTAACAATCTTTTCAATTGATATTTTAACGTCTGCTATCCCTTTGAAATACAACTTATTTTTGTTTCTTATCCCTCTTTATTTGATATTATCATTTGGGGACAGAATACCTTTAAGCGGATTGCACCATTACTAGAAGTTGAGGAGCTGCCTATCCTCTTCAACATGCATTTGTTCAATTCAGATCATCGGTAAGCAATAAAGTTTGACATGGCTGCCTACTCTTGGAAATGGATATTAATATTATTTATTTCCACACTGCAATGATCTATAAATATGCCTAATTGCCTTATATCAGAAATGACTATGAAAACTTCGTCCGTGATTTCTCAAAGCAAATTTCTCAGTACCTTCCCTCCAGGGTTGACTCTTACCTGGCAACCACAATAAAGGTATTCATTCTGACCCACATATCTTCAAGAGAAATATGACATTGGGGATTTATTTTCTTCCTGGCAATGATACCTCCCTTGGGATTGACTGTCTTCAGCCATACTTATCTTGTTGGACCATCTTTGACCATGCTATCATATATATATATTAGATATGTGTGTGTGCTTATTGATATTATTCTTTGTTCAATATTAAAATTATTATATCATTATTTTATTAGTAGTAGTGGTAGGTTAAATTACATTCTTAGTCTTTTTGCTTAACCTTTTATTATGACAATTTTGTTCTTATTTTGAAAGTTTCTGACATGTGGCAGGCTTTCGATGCACCTTGGCCAATGATTCAGGCAAACGCTATTTACTTCTCTAGTAGTATGCTAGCTCTGACTGATGACCCACACGTTCTGTCCCTTCACTACACGCAGGTTATTCTCCAACTATCAGCTACTGAGTACTTTAAGATTCATTACAGTCGTATCTGAAAATCATTTTATTACTTTGATTAGGTTTTTGGTTTATTGGTTGGTAAGATGAGTCGATCTGGAGAAGCAATTGTAAGAGCAACTTGCTCATCGGCCTTGGGCTTGTTATTAAAATCTTCCAATTTGCTATCATGGCGAGCAGCTCGAATTGATCCCGCAGACTTGGCTAGAAGCTAGCTCATAGATTAGCTATCTTAAAACTCTTGATGCATTCAAACATAACACTCTTGATTGCTCGCTGGAGGTTGAAGGTTTCCAGCAAGAACAAGATGACGATCATCACACGCCTTTGACGACATGGATGGATTCGGTGGCAATCTGGGCACATCACCATTGTAAAGTTTGTAATTTGGACTGTAATTTTGTGTCTTCTTGTCTGCGGGGTCAGTTGTATATATGATTTTCTTTGAAATCATGTATATTCTGTTTGTGCATTTGAACTTGGGGATGCAAAATTTGAGAGTGAGTGATTCTTTGAGTTCTAACTTTTAAGGAAAGTGTTGTTTCTAAGCAATTTAAAAATGACAAGGTTTTGATGTTCGATTGTTGGAATTCTTTTTATCTCATTTGGAAGGATATCCCTAAACTCTTCCAATACCACATTGTTTTGTGTTTCGTCACCAAGATTCTCTATCATTGTATTCAATGA ATGGTGAGATTGGGAGTCATTGGCCTCGCCCCATACAGGCTGGTCCAACATATATGCTCCATACTGAGTAAATCAGTGGATGAACATCAAAGATATCAACGAGAAGCTGCTATTGCTGCATTATCTGAGTTTGTCCGGTACAGTTACTTCTTCCATGGATCAGTTATAGAAAGTGAAATTGACGTCCAATGTCTTAATATACCAGTTATTCAAATTATGCAGTATACAGCTCAAGTTCTGGGTGTAATATTAGCTTTATTGGATGATGTTGATGAATCTGTGCAATCAACAGCACTGTCGTGCTTACTTATGATACTTGAAGCATCTCCCAACGATGCAGTGGAACCCATTCTGCTAAATGTCTCTGTGCGGCTCCGCCATCTCCAAGTTCATACAACTATTCCCCGCCTTGTGTTGCATGTCTATGATGATGATACTAGTGTTCGCCAAGCTTGCCGGAATACCTTTAAGCGGATTGCACCATTACTAGAAGTTGAGGAGCTGCCTATCCTCTTCAACATGCATTTGTTCAATTCAGATCATCGAAATGACTATGAAAACTTCGTCCGTGATTTCTCAAAGCAAATTTCTCAGTACCTTCCCTCCAGGGTTGACTCTTACCTGGCAACCACAATAAAGGCTTTCGATGCACCTTGGCCAATGATTCAGGCAAACGCTATTTACTTCTCTAGTAGTATGCTAGCTCTGACTGATGACCCACACGTTCTGTCCCTTCACTACACGCAGGTTTTTGGTTTATTGGTTGGTAAGATGAGTCGATCTGGAGAAGCAATTATTAGCTATCTTAAAACTCTTGATGCATTCAAACATAACACTCTTGATTGCTCGCTGGAGGTTGAAGGTTTCCAGCAAGAACAAGATGACGATCATCACACGCCTTTGACGACATGGATGGATTCGGTGGCAATCTGGGCACATCACCATTGTAAAGATATCCCTAAACTCTTCCAATACCACATTGTTTTGTGTTTCGTCACCAAGATTCTCTATCATTGTATTCAATGA ATGGTGAGATTGGGAGTCATTGGCCTCGCCCCATACAGGCTGGTCCAACATATATGCTCCATACTGAGTAAATCAGTGGATGAACATCAAAGATATCAACGAGAAGCTGCTATTGCTGCATTATCTGAGTTTGTCCGGTACAGTTACTTCTTCCATGGATCAGTTATAGAAAGTGAAATTGACGTCCAATGTCTTAATATACCAGTTATTCAAATTATGCAGTATACAGCTCAAGTTCTGGGTGTAATATTAGCTTTATTGGATGATGTTGATGAATCTGTGCAATCAACAGCACTGTCGTGCTTACTTATGATACTTGAAGCATCTCCCAACGATGCAGTGGAACCCATTCTGCTAAATGTCTCTGTGCGGCTCCGCCATCTCCAAGTTCATACAACTATTCCCCGCCTTGTGTTGCATGTCTATGATGATGATACTAGTGTTCGCCAAGCTTGCCGGAATACCTTTAAGCGGATTGCACCATTACTAGAAGTTGAGGAGCTGCCTATCCTCTTCAACATGCATTTGTTCAATTCAGATCATCGAAATGACTATGAAAACTTCGTCCGTGATTTCTCAAAGCAAATTTCTCAGTACCTTCCCTCCAGGGTTGACTCTTACCTGGCAACCACAATAAAGGCTTTCGATGCACCTTGGCCAATGATTCAGGCAAACGCTATTTACTTCTCTAGTAGTATGCTAGCTCTGACTGATGACCCACACGTTCTGTCCCTTCACTACACGCAGGTTTTTGGTTTATTGGTTGGTAAGATGAGTCGATCTGGAGAAGCAATTATTAGCTATCTTAAAACTCTTGATGCATTCAAACATAACACTCTTGATTGCTCGCTGGAGGTTGAAGGTTTCCAGCAAGAACAAGATGACGATCATCACACGCCTTTGACGACATGGATGGATTCGGTGGCAATCTGGGCACATCACCATTGTAAAGATATCCCTAAACTCTTCCAATACCACATTGTTTTGTGTTTCGTCACCAAGATTCTCTATCATTGTATTCAATGA MVRLGVIGLAPYRLVQHICSILSKSVDEHQRYQREAAIAALSEFVRYSYFFHGSVIESEIDVQCLNIPVIQIMQYTAQVLGVILALLDDVDESVQSTALSCLLMILEASPNDAVEPILLNVSVRLRHLQVHTTIPRLVLHVYDDDTSVRQACRNTFKRIAPLLEVEELPILFNMHLFNSDHRNDYENFVRDFSKQISQYLPSRVDSYLATTIKAFDAPWPMIQANAIYFSSSMLALTDDPHVLSLHYTQVFGLLVGKMSRSGEAIISYLKTLDAFKHNTLDCSLEVEGFQQEQDDDHHTPLTTWMDSVAIWAHHHCKDIPKLFQYHIVLCFVTKILYHCIQ
BLAST of CmaCh03G011910 vs. Swiss-Prot
Match: SHGR6_ARATH (Protein SHOOT GRAVITROPISM 6 OS=Arabidopsis thaliana GN=SGR6 PE=2 SV=1) HSP 1 Score: 176.8 bits (447), Expect = 4.1e-43 Identity = 118/313 (37.70%), Postives = 172/313 (54.95%), Query Frame = 1
BLAST of CmaCh03G011910 vs. Swiss-Prot
Match: MROH1_DICDI (Maestro heat-like repeat-containing protein family member 1 OS=Dictyostelium discoideum GN=mroh1 PE=4 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 5.3e-11 Identity = 40/142 (28.17%), Postives = 77/142 (54.23%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TrEMBL
Match: A0A0A0KES7_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G448680 PE=4 SV=1) HSP 1 Score: 398.3 bits (1022), Expect = 9.5e-108 Identity = 221/313 (70.61%), Postives = 238/313 (76.04%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TrEMBL
Match: M5VSR2_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000201mg PE=4 SV=1) HSP 1 Score: 328.6 bits (841), Expect = 9.3e-87 Identity = 183/313 (58.47%), Postives = 221/313 (70.61%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TrEMBL
Match: W9RGI1_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_022597 PE=4 SV=1) HSP 1 Score: 315.1 bits (806), Expect = 1.1e-82 Identity = 171/313 (54.63%), Postives = 217/313 (69.33%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TrEMBL
Match: A0A0B0PTH0_GOSAR (HEAT repeat-containing 7A OS=Gossypium arboreum GN=F383_05762 PE=4 SV=1) HSP 1 Score: 306.6 bits (784), Expect = 3.8e-80 Identity = 165/303 (54.46%), Postives = 213/303 (70.30%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TrEMBL
Match: A0A0D2TT25_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_007G372400 PE=4 SV=1) HSP 1 Score: 303.9 bits (777), Expect = 2.4e-79 Identity = 165/303 (54.46%), Postives = 212/303 (69.97%), Query Frame = 1
BLAST of CmaCh03G011910 vs. TAIR10
Match: AT2G36810.1 (AT2G36810.1 ARM repeat superfamily protein) HSP 1 Score: 176.8 bits (447), Expect = 2.3e-44 Identity = 118/313 (37.70%), Postives = 172/313 (54.95%), Query Frame = 1
BLAST of CmaCh03G011910 vs. NCBI nr
Match: gi|659125102|ref|XP_008462510.1| (PREDICTED: protein SHOOT GRAVITROPISM 6 [Cucumis melo]) HSP 1 Score: 400.6 bits (1028), Expect = 2.8e-108 Identity = 222/313 (70.93%), Postives = 238/313 (76.04%), Query Frame = 1
BLAST of CmaCh03G011910 vs. NCBI nr
Match: gi|778717296|ref|XP_011657679.1| (PREDICTED: protein SHOOT GRAVITROPISM 6 [Cucumis sativus]) HSP 1 Score: 398.3 bits (1022), Expect = 1.4e-107 Identity = 221/313 (70.61%), Postives = 238/313 (76.04%), Query Frame = 1
BLAST of CmaCh03G011910 vs. NCBI nr
Match: gi|700193006|gb|KGN48210.1| (hypothetical protein Csa_6G448680 [Cucumis sativus]) HSP 1 Score: 398.3 bits (1022), Expect = 1.4e-107 Identity = 221/313 (70.61%), Postives = 238/313 (76.04%), Query Frame = 1
BLAST of CmaCh03G011910 vs. NCBI nr
Match: gi|645272373|ref|XP_008241365.1| (PREDICTED: protein SHOOT GRAVITROPISM 6 [Prunus mume]) HSP 1 Score: 329.3 bits (843), Expect = 7.8e-87 Identity = 180/303 (59.41%), Postives = 218/303 (71.95%), Query Frame = 1
BLAST of CmaCh03G011910 vs. NCBI nr
Match: gi|595811260|ref|XP_007203208.1| (hypothetical protein PRUPE_ppa000201mg [Prunus persica]) HSP 1 Score: 328.6 bits (841), Expect = 1.3e-86 Identity = 183/313 (58.47%), Postives = 221/313 (70.61%), 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 Cucurbita maxima
Date Performed: 2017-05-20
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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