PI0020665 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTGTACTTAGCTTAGCTAAGCCAAGTCTTTTCTTTGAATTTTCAAAAACTTTGTTCTCTCCTTCTCCATTCTCTTTGTTATAGCAGACAAAAAAATAATTATAAATTGGATTATACAACTCCACAGTCCACACTTCTCCTTCAAAGTTAAGGTTTGGTTTAATCTTGAAATTAGATTAAAAGATGGCCAGCGCTGGTGGTATTGCGGCGAACTCGGCAAACGGGTCGCCATGGTCCAGCGGCCTTTGTGATTGCTTCTCCGACATAGGATCATGTAAATTCACTCTCCCTCTTCTTTTGATTTCTATCCACTATCAACATATTTTAGGACTGATTTTTGGTGGATAATATCACTGCTAGGTGTGAGCATCGATCGGTCGGAGTTGATTTTTCGATTAAATTTCCACTGCACCGACTATAATCAATTTAATAAATGTACAAATCGATCCTGACCGTCGAGAAGAAAAAGTCAATCAGTCGGTTTAACTCTTTAAAAATATTTTTTAATTTTTGTTGATTTAAAATTTTCCAAAAAATCAACTTCAACTTATCCTTCTTATTCGGTCGGTCGGTTTTCTTTTTCGGCCTATCATGTTCATCCCTATTCACCACTGTTTTAAAGTAGTGATGTTTGACAATCGTGTATGAGTGTTTTTTTATCATTTACTTGAGAGGTATTAGATAAATATGTGAGGTTATATCTCAAAATTAATTAACAATAAGAGGAGTAGACTCATGTATCTGGTCGAATACCTATTTAAGTTTCATGTGTAATTATGGATGATTATCGATCGGCCGACGTGAGTTTTGAGCTTAGACTGACAATGACCATAAACATATAGAGGTGTATTGTCGGTCGAGGCTTGTGGATTATGTTGAAGGTAGCAACACTAGCCAACTAGCCAGCTAACTGACCGATCCATTGATTATTATGTCGGTTTTGTATCTTTGACAAGTTGGGTGAGAAAAAAACAAATGAAAACAAATGAAAAGAAGAGAGGTTGACTCGGTATAAGAACTAGAAAAGAAAATACATGAAAAAAGATTAAAAAGAGAAAACTAGGGCGAAGAGAAGAGGAAAATAATAGAGAAAAAAGAAGAAGAAAGGAAGAAGAAGAAAAAGAAAATGGCGGAGAGAAAGAGAGAAAAATTAGAAAAATCGAAGAAGAAAATAGTAGAGATTAGAGAAAAAAAGAAAACAAAAGAAGGAAAGTTCAAAGAAGAACAATGAAAGGAAGAAAGTTCAAAGAAGAACAATGAAAGGATATGAGTGAGAGAGAGATATTAATAAAACTGAAAATAAAATAGAAAATAAAACGTCGGAAAATAGAGAACCAACTCCTAGTTTCATGTAGCAATCAATATTAGTTTTTTTTTCTTTTTAACCTCCGACCAATCATCAACTGATAGACCGACTTCGGGTTGGTTAGTATCGATTGATTGCTTCAATTTTTTGAGTTTTTTTTATTACCGCCATGAAACACAAGGTTTTATCTCAAAATTAATTAACAATAAAAAAAAGTTAATTTTCATAAATATAACAAAATACCAAAATATTTACAACCCGTATAACAAAATCAAAAAGTCCAGGAAGCCGGTAAAATATTTTCATAAATTCCAAATTTTCCCTTGATATTGCAGACGATTTGTCACGTCTTTTTTTCTTTTTGCGATTTATTCATCTTCTTTTCCAGATTTCTTCATCTTCTCTTCCAAATTTTCTTTCTTCTATTTTTATTCATCTTTCTTTTTTTTTTTTCTTTCTTTCTTCATCTTCTCTTTCTTTCTTCCGGCTGAAAGAAATTGTTAGAGTTAATAATAGGAACAATGAATTGAAGACAATGATAGTTATTTATTCTTCTTAGATAGACAGAAATAGTGGAATATCAAAATATTTACGTTTTGCTCTTGACTTTTTTTTGTTTTGTTTTCCCTCCTCATATTTTCTTATTTATCACTTTCATCTGATGTTTCATTATCTTGTTATTCATCTTCAACTACTTCTTCTTGTCCATCTTTATCTTCATCTATCTGAACGTAACAAAAAAAAAAGTTGTCAAAATGATTGTGAAAGAAAATGTAAACGATCGCGTAGAAATGTAAACGATCATTTACCATTGTCAACATGATTGTTTAGTACAGTCAACACGATCGTTTAGATATGATCTAAACGATTACTTACCATAATCAACATGATTGTTTAGCGTGGTCAACACAATCGTTTAGATTTGAAGCATTTTTTCCATCGTTAAAAAGAACTACACAATCGTGTTGATACTACCTACACGATCGTGTATCTTTTCCTACACGACGTGTATCTTTCCCACGAGCGCGTATCTTTGAAACCTTTTTCTCATCATTTTTTTAATTACATGATCGTGTGGATATGATCTAAACGATCACTTACCATAATCAACACGATTGTTTAGTGTGGTCAACACGATCGTTTAGATTTGAAACATTTTTCTCATCGTTAAAAAAAACTACACAATCGTGTTGATACTACGACACGATTGTGTATCTTTTTCTATACGAGCACGTATCATGATCGTAAGAAGAATTACACGGTGCGTGTGGTCAATTAATCGCATGTTGACTGGGGCATTTTTTACACTTTCCATTGTGGGCTTGTGGGCATTTTTGTTTTCGAAATTGTTCTAATGTAAATATTTAATCAGTTTGTTATATTTTTAAAAAAACCCCATTAAAAAAGTAATTCGTATTTACATCTTTTTAACGTGGGGTTCTTAGCAAAGGAAGTTTTTTTCAAGTCCTTTTTGTCAAAATGATTGAGATTTTTGCTCTCATCTTTGTGATTTTTTTTAAATGATCATCACCGTCAATGTGTTGGAAATTGATTTTCATAGTAATTTTAGTCGGTCAAATTATGAAAATACCCGTAGTTGGTTTCAATTATACTTACAAACTATGAAACTTTCACTTTAATTGACCCTTGAAGTTTATTTTGTTTTTTTCCAAAAACAACTATCAAAGATTTTGTGGTTAAATTCTTGTACGAAAAAGTTTGTGTTACTTGAAGGAAACAAATTAATCTAAATACGTATGAAAATAAATTTGGGGACGAGTTAGCAAAAAAGAACTTAAACAAAAGAACAAAAAAATTAAGTGTGGAGTTGAATGGAGTTAAACAACAAAGACAAAAATGGTAAGAGATGCACATGTTTAGATTTGTTTATATAAGCAAATATAAGTTTTGTTCGACTATGAATTTAGTGACAAAAATCTAGGGGAGTAAGTCCGAAACAAACTTCAAACTTTAAGGGTTAGAATATTTTCTTCCTAAATTCAAAGGTATATGCAAACGAACTCCCTATTTTGAAGTATTTTTACTTTTTTTTTGGGAATTTTCATAGATGGCAACATTTTCAAACAATTTACATATAATAGCAAAAGATAGATGAAAAACACAGGAGGTTTAAAATTTTCTATAATACTGAATATACCCCCACGTTTGACCAATCGTCGATTCATCCTCGCACTTTCTCATCCCTAACCTTCTTCTCCTCCTCTGCTTTCTTCTTCTCAGCTCTACCTTAGCATCCTAATCAAGATCTTTAATTAATCTCTTAAAACACTCCACCTATTTCTTTCCCTTCTTATTTCGACATCAAATTCTCTACCACGTTTGACAATGTCATTTCTATTTCCTATAACATCTCCCTAATTTTATCATATGAATCATCTCATTCAATATCCAAGAAATTCATCCTAATAACTTATCCCAAATTCAAATTTAATTGGATTAAGGTGAAATGTTGAAAGGAAAATTGATGGAGTAGGAGGGAAAATGATATGAATCAAAGATGGAGAGAGTGAGAAACAATTATAAAAGAGGAGAAATCTAAAAGAGGAAGAAGAATGAGGGGTAAGAATTAATAATAGATTTTCTGTGAAATCATAAGAGTCAATTTGATTTATCGTAAAAATAATCAATCTCTTTCTGCCACAAGCAGACCAAATCCCAACAATCAAATTCCACAACCCAGATAATGTAATTTTACTCTATTTGTTTTCATATTTTTAACCTTCTTATCTTCACCTTCCTCCTTCTTTGTTTCTTCTTCTTCTGTTGCCTAGTTAGATCTAGGTATATATTATCATATCATCTCATTCCTCATTAGTGATAGAATTCTATCATTGTTTGTCACTGTACTTCTTCATCTTCTTCACTAAAAAGTCTTTTCCATCTTCATTCTTATTTGTTTAATCGAAGAACAGATGTCGAACACCTCCTCAATTATTATTATTATTATTTTGTAGTTTTTATTACTTATTGACAGACATTGATAAATTCTTATCAGTCTTTATCAGTGATAGACTTTATTATCACTGATAGACACTAATAGACTTCTATCAACATCTATTAATGATAGACTTGCTATATTAGTTTCTATCATTGATAGATACTAATAGAGTTATATCAGCATCTATTAGTTTCTATAACTTATGACATTGATAGACTTCTTTCAGCCTCTATCAATGATAGACTTGTATCAGTTTCTATTACTGATAGACTTCTATCAACCTGTTACGTCCGCCTTAAGATGCCTTTCTCGCAACATTTCTGAGACGGAATGCGACTTGGGCAGTCCAGATATTCCAAAAGAACTTCAGAATGCCTAGTCTTAAACCTTAACTGAAAAAATAAAGCCTAAACGCAAAGAAAGTTCTACGCTTCTAAAAGCATCGACAAAACGCCTAGTTTAACTTAACTTCTTATTGCAAGGTTTTACTTAGAAGAGAAATGAGATGCAAACATACTTAAACGCCTTACAAAAGAACAATCAATACTTTTATTAAACGCATGTAGAAAATGGGTTACAAAGACTTAAGCAAAACTACAAATAAAGGCTTGAAACACCCATTTGTGGTTCCTATCGCCTCGCCTAGTACTTAACGCCTTTAGCTCGCCTGGCATTTCCTTAGCTCAACTACACTGCTCGCTTAACCTTAGAACACTTCATAACCTTTTGCTTACCTGGGGAAAGGAAAACTTAAAGGATAATTTGAATGCTTAGTGAGTGATGCTTTTGAAAAACTCTTGGGAAAACAAACAAGCATATAAAATCATTTTACATTCAAAACCATTTCTCAACGCCTCATATAGACTAAAACATAAACACGCATTAGTCTTTCTTATTCATCTTGCCAGGACCTTGAACCATGTCCAACTACTGTGATGATCGCCTCATCACCAGCATCTCTTGAACAATCCAGGCTCAACGCATATCATGTTATTAAGGTTGTTGACTTAGGTATGCTATGCTCAACGTATCCGTCAACTTCTTACTGCAATGTGGTACGCTCACACACATGTTGGTCTCAATTTGTTATGTGCACATAACAACTAGCTTATGATAAGATCACATACAAGCACATAAACTCTTGTATGTGACTAATGATTTACTCGCATACAAGACTAATGATTTACTCGCATACAAGCACATCATAAAATCTTCTTTGAACGCGTAACTTCTCTTAACTTCACTTTCATTAAACATAAACTCAAGCATACACGTACACATGAATATAAGTAGTATAACAACATGCTTCTTAATAAACATAAACTAAGAAAGAGAAAGAACATAAAAATCTTCTTTTCTTTGGAAAAACACTCACAACGCCTAGCTTTAAGTTCCCTTTCTTAAAATCTTTTCTTCTCGCCTAATGATACTCTTGGCAGAAATTCAACTCTCTAAACGCCTTGTGACTTTTCTGCAGAATTTTAGTCTTTTCTAACAATTTCATAACATTGATTCTCAGATCTTAACCCCTATTATACTAATTCTAAACTTGATTAGTCACTTAAGCTTGCTTGCTTAGCCTGCCACCTCTTAATAAACTTTTCATGTGTTAACAAATAACCATGCTTGACTTCTTAACTCAACACGTAAACTTCAAACTTAATAAACTAAGGATTTCTCCACTATATCGACTGAACTAAGACCCGAGATCGCTTAACTCTTCTTCGCGTTACTCAAACCCAGAAACTCTCTTCGCAAACTTCTCGTGTTAGCTCAAAATGCCAACTTACTAGCTCGCGATAACTCTTGAATGTGTAATAACACTTAAGATCTCATTTTCTTTACTTTCCTCATGTTACTCAGAACGCGTACTAACACTTAGAAAATCGTAAACTTCTTACTATGTTTGCGTAATTCAAAACGCATACTTCTCCTTAACTTTCCTGCTCTTCTCGCGTTTGTCCAAACACAAACTCAAAGCTAACCAAAACGCATAGCCCAGACTCAGTCAGAAAGCACAGCTTACACAACCTCTATCAACGACAGACTTCAACCAATTCCTATCATTGATAGATACTAATAAACTTCTATCAACTAAAGGCGATAGACTTGTATTCATTTTCATTAGTAATAGACATTGATAGGTTTCTATCAGTCCTTTCAGCGATAGACTTATATCAATTTCTATCATTGATAGACATCGGTATACTTCTATTAACGACAAACTTGTATCAATTTCTATCATTAATAGACACTAATAGACTTCTACCAACCCCACTGGTATCAATTTCTATCAGTGATTTCTATCATTAATAGGCACAATGATAGAAACCAATAGACTTCTATCAACCTCGAATAATTCTATCAGTTTCTATCTCTAATAGACACTGATAAACTTCTATCAACTTCTATCAGCATCTATCAATGATAAATAGTGATAAAACACTTTCAATTTTATCACAAATAAACACTAATAGTAGTCTATCAATATCTATTTAGGATTGACATTGATAGAACACTGTGAATGTCTAACTAATGCAATTGAAACCATGAAATCAATCCTATAATTAAACTAAACCGAAAACAAAACAAATATCAATACACCAAACCAACATCAAAACACCAAACCAACTACACAATGCAATAGCTAGCCCTTAAACATATCCATTAACAACAAACATATCATTTGATAGATAGCATTTGTGTATCACTATCAATCACTGCTAGACAGTGATAGAGGATTTTAATGTCTATCATAGATAGACACTGATAGCACTATCGAGATAGACATTGATAAAACACTATTAGTGTCTGTCAGAGATACTCTATCAATAATAGACATGCTCTATCACAAGTTTGTTTATATCTTTAGTTGTACTTTCCCATGTTCCTTTTTAGTTTTATATATTTTGGTTTTTTGAATGGTTCCCTTTTAACATGTTTCCTTTTGTGATTGTTTCCCATTTGTAAACAAAACACAGTTGTTGTGATGTAAAAGACTAAGATGGAAATTAAAGAACACCTCAAAGAAAAGGTAAAAAGAACTTACTTTGAATGTTAGTGAGATAAATAGCTAAAAATATCAAAAGAGAGGGTAGGAAAAAGGAGAAATATAAGGATATAACAAATAGAAAAATGATTGAAAACAATGGAAAAATTCTACTAAACAACTTTCTCAATCTTTGTCAATGGGAACCATAATCAAGATGGAGTAGAGGTTATTCTAAGAAAATATTGCAGAAAGAAAAATTTTGAGTTGGAACGTGGTTTTTCCTTAACTAAAGTTTTAGAAAATAATTAAAAAAACATTTCAAAAGAATAAACATCTCGAGATGAATAATCAGAAGAAAAAAAAAAAAAAAAAAAAAAACTTAAAAAGAGAATAATGTGATAAGAATTTAGTTTGAACAAACCAAAAACAATTTGAAAAGAAGCTTCAGACCAAAAAGAACGAAATTAAAGATTAATAAGAAGCAGCGGTGGAAGAAGAAGAAGCTTTGCAATCTATGGTGGAAAGAAGAAGAAGCTTTGCAATCTATGGTGGAAAAAAGAAGAAACAACTGGTGGAAAGAAAAAGAAGAAGAAGATGGTGGAGAAAAACAATGGAAATGAAGAAGATGAACGGTCACTACGTGCGTTGAAAGGAAATTTTAGTTTGAAAATGAAAAAAAAAATCAAATAGAAAATCACGATTAACTGTGGATCAGATGGATCACAATGGTCGGGTCGAGTTTTGGAAGAAAAATGGTGACATGTTTTTTATGTTTGGGCTAGGTTTTTTAGGTATTTTACAAGCCTTTTTGGATTGCTACTTAGCTGCATAAAATTTTGCTATGGGTTGTAAATACTTTCCTCACTACTTCTATATTTAAAAATCTCCTCGATTTTTTTTTTTATACTCCCTTTATAATTATTTTTTTATTTGTTAATTATGTTATTTTTATGCTGTAATGTTTAGTTTTAACTTCTTTTTTCTCTCCTTTTAGGTTGCTGTACAATATGGTGTCCATGTGTGCCTTTTGGGCAAGTCTCTGAGATTATAGATGAAGGGTCAACTTGTAAGCTCTTATTCAACAATTTGTTTTTTTGCTTTTTTTTCCTTTTTTATAAACTAAATATTTATTCTTTAAACTTTTAGGTTTGTGCCTATTTGAACACCGAACTTTTAAGGTCCTTCACCTTTAAAAAAAATACTTAATAGATTCTTAAACTTTCAATTTTATGTTCATTAAGTTTGTAAACATTTGAAAAGACGATTAATTAAGTCTTTAAACTTTTAATTTTGTGTTTAATAGATCCTTAACATTTTCAATTTTTATCTAATAAGTTTTAACCTGTTAAAAATATTTTTACTAAACATAAATTAAATTTTTAGAGTCTCATTAAACATAAAAATGTTTATGTATAATAGCTAGATTTTGAATTATCAATAATTTTTTTTTTAATTTTATATACGAGGGATTAATTAGATACAAAATTAAGAACTAAGAACCTTATAGAACACAAAATTTAAATTTACAAATTTGTTAGGTGTAAATTGGAAGGTCATAAATTATTATACACTTTTAGGAGTTTAAAGAGTTTAGAGATGTTCAAAAGCCTAAAACTTAATTTATAATAAACAAATAAAATGATATGATTACTTAGATTTTTTTCACAACAATTGTGAAAATGAGAAATCGAACTTTCCATTTCTAAAGTAATAAATCATGTCAATTGTTATTGAATTGAACTCACTGTGACATATGATTACTATTTGATAGTATGAAAAGTTTCTCCCCTTGTTTTCCTATTGTGTGATTCAACAACTGAACATGTCCCCTTAAGATGGTAGGTGTCTTTTTCGGGTTCACTAATCTTCATTGGATCTCAATTTTTTTTTATTGGACCAAACACCATTTGGGTTTTATTGGTTTGATATCATATTTGATATTTCTATCTCAAAACCAATTGACTAGAATAGTAGTTCTATCTTTTTCTTTTTTCTTTCTAATGTGAGATTCTCATTATCTCACCAATTACTTAGGTCGGTAGAGGATTCAAATGGATAAGATGTTAAATTGTCCATTTAGGTACTAAAGAAAATGGTCACATGTGTTAATAGTTTCAGTTTTGATTTTAATTTAAAGAAAATTTTATTCTACACGTCATCTTATAATTTTGTTTGAAAAACATTTTTGAAACGTCTGACAGAAAACATAAATCAACTATGTGGATGTGAATAGTTTGCATAATTTGATTAGTTTCCATTAATTTTTGCCTAAAATACTTCCCTACAATACAAACCTAAATAGAAAAAAAAATCTAGAAAAAAAAAGAAAAGGAAAGACTTCCTATCATCATATCCTTTAGTGGTGAACAGTAAAAATTTCTAATCTAATTAGTAGACGAACATTATTGTTCTTTTAACGTTCTTTTAATATAAGTTAAGATCACAACATGATCAAAACTTTCAAAACATAATAAGGTTAAAAGTAAAATTAACTACGTAGATCAATAATGTCTTGTATGATTTAAGAGGTGTTGTCGTCTTCAATATTTAGACATCTAACAACGTCTTTGTCCTTGCCCCTTGACCTCTCTCTCGTCTTCGATATGTTCATTATGTTTTCGTCCTTATTCAATTCTATTATTGAGACTATCTAATTCCTTCATTAGTTGAATCAATTGATTGACAATTTTTTTCTCTTTTCTTCATATATTCTTGTAACGAACCCATGAGTGCTCAATGGCCATGGCTCCAAGTCTTTTGTTTCTTTGATTATGGTAACAATATGTTCAAATTTTGGATCTAATACTCTTAGTATTTTCTCAATGCTTTTTACATCATTAGTTTTTTCACCATTTCTTTTTAGTTGATTGATGATAGTTAAGACTCTAGAGAAATAGTTTGAGATGACTTCCACTTCTTTCATTTTCAAACTCAACTCTTAGATTTTGAAGACATATATTTTTTTTTATGGGATCCACATCCTTGTACGAAGTTTGAAGCTTATTACATGCTTCTTTTGTTGTCTTTGCTTTTGAAATCTTCTAAAAAACAATGTGATTTAATCCTTGATTATTTGATAGAGAGTTTCTTGTCTCTCTTTCTTGAATCTCTATATTATCTTTTTATACTAATTGAGAAAGATGACCATCATCATTTTCTGATTCGATATATATATCTTTTCTCTACAACCTCCCACACGTCTTGTGAGCCAATGAGAGTTTTCATCTTGATTATCCAATTATTATAGTTGCTCCTGTTGAACATTGGCACTTGGAATGCGACCATGTTGTTTCTTACCATCTTCTTAGAAAGAAATTTTTTAACTCTAATATCACTTTATTTGAAATGAATTTTTGGAGGTTCGAGGTAATTTGACAAATTGAGTTAAAAAAATGGTTATTTGTGTTATTGATCACTTCTTTTTTTTTTTTTTTTTTTTTTTTGTTTTTTTTTTTTTTTTTTGGCTTAATACAAATCCTAAGACATCTATCTTTGCTTTATACTAGTTGGCATCCCTATATTTATGGCTAGGATTTTGTCAATACATTAAGATCTAATGGTAATAAATGTCTTCGTAGAATATTCTTTACAATTACACTTTTCTCACATATTCTAGGTAATTGTACACTAAACTATAAGCATATGCATCTCCTACAAATAATTTATTGAAACTATTTTAATACTTAATATTTCTAGAAATTGGAGTTTTGTTTTAAACTAGACCCAAATACTTCTAACCCAAAATAAAGTTTATATATCAACAATTTATTTGTTGTGTTGTGGATGCAGCGTGTTTTGGTAACGCATTAATCTTTTTTGTAATTGCTTTCTGCACGCCTTGCATTTGCCTTTATACTTGTTCTTATCGAACTCAATTGAGGGGAAAATATAACCTCCAAGAAACTCCATGCAACGATTGTTGTGTTCACTTTTGGTGTTGGAGTTGTGCAATGTGTCAAGAGTATCGTGAGCTCAAAAACCGCGGTTTCAACATGCATATCGGTATTTTCTCTCTTCTCTCTTTTACATATGTCTCTTTTTAAATAAAAAATGTGATATTGAAAGAGTGATATGCTCAGGTTGGCAAGAAAACGTGCAGAGAGGAAATAGGGGAATAGAGATCCCACCTGCAGTTGAGGGACAAATGAAACGTTAAAGTCAAAATGCAAGTCATATTCTCCATGGGAGTCAAGCTCGTGATCCCATTGTTCTCTTCCAGCTTCTTCGGACTTGTGTGCATGCTCATGCTGTTTCTTGGTGTGAGAATGTGCATGTCAATATTTAGTTTGTGCTTTCTTTTGGTTTTGGTTTTGTTTGTCCCTGTGCTTTGGGGTTGTATTTTGGTATTGTTGTTTTTTTGTGATGTTTCTTCTTTGTTTTCATTGTACTATCTATGTTGTTGAGCCTTGTTTGCTCTGGTACCTTGACCTCAAGGTATAAGGTCCTCTTTGTTGTTGTGTAATAAATTACCTTTTAAAAAAAATGCTAGTCATCACAATAATGATTGGTTCTCTTTA GTTGTACTTAGCTTAGCTAAGCCAAGTCTTTTCTTTGAATTTTCAAAAACTTTGTTCTCTCCTTCTCCATTCTCTTTGTTATAGCAGACAAAAAAATAATTATAAATTGGATTATACAACTCCACAGTCCACACTTCTCCTTCAAAGTTAAGGTTTGGTTTAATCTTGAAATTAGATTAAAAGATGGCCAGCGCTGGTGGTATTGCGGCGAACTCGGCAAACGGGTCGCCATGGTCCAGCGGCCTTTGTGATTGCTTCTCCGACATAGGATCATGTTGCTGTACAATATGGTGTCCATGTGTGCCTTTTGGGCAAGTCTCTGAGATTATAGATGAAGGGTCAACTTCGTGTTTTGGTAACGCATTAATCTTTTTTGTAATTGCTTTCTGCACGCCTTGCATTTGCCTTTATACTTGTTCTTATCGAACTCAATTGAGGGGAAAATATAACCTCCAAGAAACTCCATGCAACGATTGTTGTGTTCACTTTTGGTGTTGGAGTTGTGCAATGTGTCAAGAGTATCGTGAGCTCAAAAACCGCGGTTTCAACATGCATATCGGTTGGCAAGAAAACGTGCAGAGAGGAAATAGGGGAATAGAGATCCCACCTGCAGTTGAGGGACAAATGAAACGTTAAAGTCAAAATGCAAGTCATATTCTCCATGGGAGTCAAGCTCGTGATCCCATTGTTCTCTTCCAGCTTCTTCGGACTTGTGTGCATGCTCATGCTGTTTCTTGGTGTGAGAATGTGCATGTCAATATTTAGTTTGTGCTTTCTTTTGGTTTTGGTTTTGTTTGTCCCTGTGCTTTGGGGTTGTATTTTGGTATTGTTGTTTTTTTGTGATGTTTCTTCTTTGTTTTCATTGTACTATCTATGTTGTTGAGCCTTGTTTGCTCTGGTACCTTGACCTCAAGGTATAAGGTCCTCTTTGTTGTTGTGTAATAAATTACCTTTTAAAAAAAATGCTAGTCATCACAATAATGATTGGTTCTCTTTA ATGGCCAGCGCTGGTGGTATTGCGGCGAACTCGGCAAACGGGTCGCCATGGTCCAGCGGCCTTTGTGATTGCTTCTCCGACATAGGATCATGTTGCTGTACAATATGGTGTCCATGTGTGCCTTTTGGGCAAGTCTCTGAGATTATAGATGAAGGGTCAACTTCGTGTTTTGGTAACGCATTAATCTTTTTTGTAATTGCTTTCTGCACGCCTTGCATTTGCCTTTATACTTGTTCTTATCGAACTCAATTGAGGGGAAAATATAACCTCCAAGAAACTCCATGCAACGATTGTTGTGTTCACTTTTGGTGTTGGAGTTGTGCAATGTGTCAAGAGTATCGTGAGCTCAAAAACCGCGGTTTCAACATGCATATCGGTTGGCAAGAAAACGTGCAGAGAGGAAATAGGGGAATAGAGATCCCACCTGCAGTTGAGGGACAAATGAAACGTTAA MASAGGIAANSANGSPWSSGLCDCFSDIGSCCCTIWCPCVPFGQVSEIIDEGSTSCFGNALIFFVIAFCTPCICLYTCSYRTQLRGKYNLQETPCNDCCVHFWCWSCAMCQEYRELKNRGFNMHIGWQENVQRGNRGIEIPPAVEGQMKR Homology
BLAST of PI0020665 vs. ExPASy Swiss-Prot
Match: B6TYV8 (Cell number regulator 2 OS=Zea mays OX=4577 GN=CNR2 PE=2 SV=1) HSP 1 Score: 161.4 bits (407), Expect = 8.0e-39 Identity = 74/151 (49.01%), Postives = 100/151 (66.23%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy Swiss-Prot
Match: Q9LQU4 (Protein PLANT CADMIUM RESISTANCE 2 OS=Arabidopsis thaliana OX=3702 GN=PCR2 PE=1 SV=1) HSP 1 Score: 153.3 bits (386), Expect = 2.2e-36 Identity = 66/137 (48.18%), Postives = 92/137 (67.15%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy Swiss-Prot
Match: D9HP26 (Cell number regulator 10 OS=Zea mays OX=4577 GN=CNR10 PE=2 SV=1) HSP 1 Score: 152.9 bits (385), Expect = 2.9e-36 Identity = 69/142 (48.59%), Postives = 93/142 (65.49%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy Swiss-Prot
Match: P0CW97 (Protein PLANT CADMIUM RESISTANCE 3 OS=Arabidopsis thaliana OX=3702 GN=PCR3 PE=3 SV=1) HSP 1 Score: 148.3 bits (373), Expect = 7.0e-35 Identity = 69/147 (46.94%), Postives = 95/147 (64.63%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy Swiss-Prot
Match: D9HP25 (Cell number regulator 9 OS=Zea mays OX=4577 GN=CNR9 PE=2 SV=1) HSP 1 Score: 147.5 bits (371), Expect = 1.2e-34 Identity = 69/151 (45.70%), Postives = 94/151 (62.25%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy TrEMBL
Match: A0A1S3BT42 (cell number regulator 2-like OS=Cucumis melo OX=3656 GN=LOC103493439 PE=4 SV=1) HSP 1 Score: 305.1 bits (780), Expect = 1.7e-79 Identity = 136/150 (90.67%), Postives = 142/150 (94.67%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy TrEMBL
Match: A0A4Y5UXT8 (Lsfw2.2 protein OS=Lagenaria siceraria OX=3668 PE=2 SV=1) HSP 1 Score: 299.3 bits (765), Expect = 9.1e-78 Identity = 133/150 (88.67%), Postives = 140/150 (93.33%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy TrEMBL
Match: A0A1S3CM72 (cell number regulator 2-like OS=Cucumis melo OX=3656 GN=LOC103502518 PE=4 SV=1) HSP 1 Score: 282.3 bits (721), Expect = 1.2e-72 Identity = 126/150 (84.00%), Postives = 132/150 (88.00%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy TrEMBL
Match: A0A0A0KIS6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G027940 PE=4 SV=1) HSP 1 Score: 281.2 bits (718), Expect = 2.6e-72 Identity = 124/150 (82.67%), Postives = 132/150 (88.00%), Query Frame = 0
BLAST of PI0020665 vs. ExPASy TrEMBL
Match: A0A6J1KJU3 (cell number regulator 2-like OS=Cucurbita maxima OX=3661 GN=LOC111495886 PE=4 SV=1) HSP 1 Score: 263.5 bits (672), Expect = 5.5e-67 Identity = 113/147 (76.87%), Postives = 127/147 (86.39%), Query Frame = 0
BLAST of PI0020665 vs. NCBI nr
Match: XP_008452392.1 (PREDICTED: cell number regulator 2-like [Cucumis melo]) HSP 1 Score: 305.1 bits (780), Expect = 3.4e-79 Identity = 136/150 (90.67%), Postives = 142/150 (94.67%), Query Frame = 0
BLAST of PI0020665 vs. NCBI nr
Match: QDD67543.1 (Lsfw2.2 protein [Lagenaria siceraria]) HSP 1 Score: 299.3 bits (765), Expect = 1.9e-77 Identity = 133/150 (88.67%), Postives = 140/150 (93.33%), Query Frame = 0
BLAST of PI0020665 vs. NCBI nr
Match: XP_038892870.1 (cell number regulator 2-like [Benincasa hispida]) HSP 1 Score: 290.4 bits (742), Expect = 8.7e-75 Identity = 128/150 (85.33%), Postives = 138/150 (92.00%), Query Frame = 0
BLAST of PI0020665 vs. NCBI nr
Match: XP_008464696.1 (PREDICTED: cell number regulator 2-like [Cucumis melo]) HSP 1 Score: 282.3 bits (721), Expect = 2.4e-72 Identity = 126/150 (84.00%), Postives = 132/150 (88.00%), Query Frame = 0
BLAST of PI0020665 vs. NCBI nr
Match: XP_004142270.1 (cell number regulator 2 [Cucumis sativus] >KGN49620.1 hypothetical protein Csa_018338 [Cucumis sativus]) HSP 1 Score: 281.2 bits (718), Expect = 5.3e-72 Identity = 124/150 (82.67%), Postives = 132/150 (88.00%), Query Frame = 0
BLAST of PI0020665 vs. TAIR 10
Match: AT1G14870.1 (PLANT CADMIUM RESISTANCE 2 ) HSP 1 Score: 153.3 bits (386), Expect = 1.6e-37 Identity = 66/137 (48.18%), Postives = 92/137 (67.15%), Query Frame = 0
BLAST of PI0020665 vs. TAIR 10
Match: AT5G35525.1 (PLAC8 family protein ) HSP 1 Score: 148.3 bits (373), Expect = 5.0e-36 Identity = 69/147 (46.94%), Postives = 95/147 (64.63%), Query Frame = 0
BLAST of PI0020665 vs. TAIR 10
Match: AT1G68610.1 (PLANT CADMIUM RESISTANCE 11 ) HSP 1 Score: 145.2 bits (365), Expect = 4.2e-35 Identity = 64/123 (52.03%), Postives = 87/123 (70.73%), Query Frame = 0
BLAST of PI0020665 vs. TAIR 10
Match: AT1G14880.1 (PLANT CADMIUM RESISTANCE 1 ) HSP 1 Score: 139.8 bits (351), Expect = 1.8e-33 Identity = 63/137 (45.99%), Postives = 87/137 (63.50%), Query Frame = 0
BLAST of PI0020665 vs. TAIR 10
Match: AT3G18470.1 (PLAC8 family protein ) HSP 1 Score: 129.0 bits (323), Expect = 3.1e-30 Identity = 56/118 (47.46%), Postives = 80/118 (67.80%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
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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