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PI0021020 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGACGTCATTTCCGCCTCTCCTTTCAAGCAATAAGCTTCTTCTTCATTCTTCTCCAACCTTTCTTCTCTTCTCTAAATCAATCAGGTCTGTTTTTCCTCTCTTGCAATTTCTAACTTCACATTCACCTTTTTTCCGATCAAATCCTAATTCTTTACAATTTCAGCCGTTTCTATATTCTGATTTCAGGCCGACAATGTCATCGTCAACCACCTCCTCGGTTTCCATTTCATTTCCTGAAAATAGTGTGGTTGTGAGTCTCTCTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCAACTTGCAATGCTTGACTGCTTTGGCTCTGTTCTTAACATAAACCATTTCCTATGTATCCTTTTTGAATCATTGAAAGTGATTGAATTTAGGTGTGGTTTTGCAGCTTGGTGTTGGTACTGTTTCTGTTGATTTTTTGGCGGCAGTGGCTTCTTATCCAAATCCTGATGACAAAATTAGAACCACGAGCTTAAAGGTTTGCGCTCTTCTTGTTAGCGATATGGTCGAGATATCTGTTTCCTTTTTTGTGGTTGCCTAAGCAGTTATTGGACTTGTTTTGTGTATGATATGTGGATTTTGTTCATGATGAAAGATTCAGCGTTGACTGAATCGATTCGGTTGAGGATTTATTGAGGTTTTCGATGTTGCTGGAAAGTGGAATGTTTTCAGTTCAAGTCTTGTTAATTCCTCAAGTCCTGATAGATGTCAAGTCTCTGTCGGACTTTTAAGATCGCTTTTAGCTGAAATATTGTTTACAACTACTCGGCATACCTTTTGACTTTTGTTAATTCATAGACTAATGTAATGGTCAATATCTGGACTGGAAGTGAATATGTTTGGAGTAGAACTTAGAATATAACATTTGAGATTTGTTCATCATCTATATGGCTTAGTTAGAGACTCGCTTATTGATCTGAGTTCAGTTCAGATTAAAGGAAATGGAGATAGGGAGCAAAGGAGCATTGCATTGCTGCAGCACAACACAAAGTCATGGATTTGAGAAGGAAGCGACATGGTGCTACACTAGAGCAACATGGTGCAAGAACATGACAAATTACATTTCCTTCTTTATTTGTAAGGAAAGGGAGTGATGGATAGGCTATTGAGAGTGTTTTTGAGTTCAAAATTTAGAGAGAAAAATAGAGGAACACTTGTGAGATTGTAACCCTTGTAATCTTCATCAATTTTTGTAGAATCTGTAGTTGGAGAAGGCTGAAAATACCCCAAAGTTTCGAGTGAACTAGTATGAACTCGAGTGTTGCTTCCTTATTCCTATTTTGTCTCCTTTTATAGTTTACTTTATTTTTTTTTCTGCTTTATCCAATGGAAGGAAAATTTTAAGCAAGATTTAAAAATGCCCCTAAATTCCCTAAAATAATATTGAGAAATGTATTGGTTCAAGTTCAATTATCTCCTCCTTGTAATAAGTTTGATATATGTTTGAATTTTTAAATCCTCGTGTATTATGAATGAAATTTGTTCTTACAACAAAAGGATTATCGTTTCTATTTACTTAACCATTTGGAGAACCTGTACCTGATGACTACTTCTTAGGTACAAGGTGGAGGAAATGTAGGAAATGCTTTAACTTCTGCAGCTCGGTTGGGTTTAACACCAAGGATAATCTCGAAGGTTGCTCTTTATCCACGACATCTTTTCTTTAACCAGCCTAAGTACTAAACGGAACTGGTGTATACAAATGTATTAACATATTCATGCATGATAAAATTGTAGGTTGCGGATGATAGTCAAGGAAGGAGCATAATCGAGGAGCTAGAAGCTGATGGTGTAGATACATCTTTTCTTGTGGTAAGCTCTTCATAATATACAATTTTAAGTATTTGTGACTTACGTATCATAATTGACTTTGCATTATCTTGCCAGTGCTGCCCTTGTACTGTATTTCGTACTCAGTATATGCTTGGTGTACGTTTTTTAATTTTTTTTAAAAAATATAATTATAACAAGAAACAAGACTTTCATTTGAGAAATGAAAAGTGATTAATGCTAAAAAAAACAAGAACTTCGGAAGAGAAGGGAGTGAATAAAAACAAAAATAAAAGAAAAAAACTACACATGAAAAATAAAGGCATCCCAATGCAAATTAATATTTAACAAAGAAAAAATAGCGGTGAGAGAGCACTGGGAGGAGGCTTTCAATTTAGTAGAATCAAGTCGATCAAACTAAGGAAGGTGTTTGCTCTCAAAATTTTCAAATCCATTTCCATCCATAATTATGAAAGGAGAGGTTTATTCACATTGATCCATAGATTTGAGAGGAGAAGCTGAGGAACATTTTCTTTTAAATTAGAGGAGAACACCCATGATAAACTGAATAAGGACAACAGTTGAGAACAAGTACAACCAAAGAAAATATGATAGAGATAATCTCATTTCCATGGCAAAGGGGACAAACGAGGTCCAAATTGGGAAAAGCCTTGCTTATTATTATTATCTTTTGTTGGTGATGCAAGTGTAACGCTGATAGATGTTCATCTACAGACTATAAAGTTTAACGCTAGTGTATTATTTACTAGTTGAAGTGAGTTATCAAGAAATTGGGAAAACACATTTTGTGGTGTTGAATTCTAATTCCAATATATGGTTGTACAGAAAACACTGAAGCAAGAGTGTAAGGAGAGTTTGAGGTTCTGAGGGTGAAAGGAGACATCAAAAGACATAAACTTAAATTTATTGTGATGAAATCTGCATTAATTGCATTTACTAGTTGAAGTGAAATTTACTTACCATTCAATTGCATTACTGTCTGCCATGGAATATTGGATGTAGCTTTGATGTTCCACACTGATATGTAGAAGTTTGATATCTTTAATGACATTGAGAACTTTCCACTTTGCAAAGTTCTGTTTGGTTTGTATCTTAATTAACAGTTGTTGAAATTATAAAGCTGGTACACTTGTAAGAGATTTAATTATCATTTAATTCTTCTTTTCGATGAAATATATATTTTGCACCTATTTTTTTGTCAGAAGTTTAAAGTCACACACTCATATTTATTGAGCTAAAAATTTCTGTTCAATATCGATTTGTTGCTATAAATTTCATCTTTTTTCTACTATTTACTCTGAAAGAATATTTGTTTTTTTTTTCATAATGGATCTTTAGTGATTTCCTATGAGTTACCACATTTGTGATTTTCTGTGTTTTCTCAGGTTTCTGAAGGGGGCATTTCACCATTTACCTATATTATTGTGGATAAGAAAACGTAAGCATTTGGATTTCCATGCTCCTCTACTCTGTAATTGGGTGTGAGGGCTGTCTTGTTTTTGGCTTGTTTTGGTTTTGGTCTTGCTCCTGTTTATCCTTTCATCTATCTTGATGAAAGTTTGGTTTCTTACAAAAGAAAAAAGGAATGAGTGTCTTTTCGTGGAGGCGTGCTTCTCCTAAGGCAAGCAAGTATGAGCCTTTTAAAACAGTGTTGTGCGTCGAGTTTAAAATGATATTTTGTGGATTGTAAAGAACATGTAGGCTCTATTATACAGTCTTGTTATAGTCCTCAATTCTTAGTAATTGAGAAGTTCTTTGTATCTTATCTTTCATGGGGAAGACTTCTGACAATTATAATTTCTGAGAGAGAAGCATAAAATAAAAAGAAGGAATGTACATATACTGTAATCATCTCAAAATTTATTGACTGTGGCAAAGTTCTTTAGGCACACTCGTACATGCATCCACACCCCAGGATCTCCTCCCATGGTGCCAGATGACCTTTCACGATCAAGCTTGTTGTCTGCTTTAGATGGGGCTAGAATTGTATATTTTGACGTAAGATTGCATGAAACTGCTTTGCTTGTTGCACAAGAGGTAAAGATATCATTAGTTTCTTTGATGCTTCAAGTTTGCACTCCTGTGTTGTGCTCACTCCTTTAAGTAGATTTTTTAGGAACCAGTTCACCTTCCAGGTTGAAAATTTGAAAGAAACTCAATATTTTTCTTCTTTCAGCTTTTGGGTTGTTATTTCTTTGTCACTTTTCAAACATCAATGAGCTGGTTGTTGATCCATGTTGTAGGGGACATTAATTTTACTTTTTCCATATAGGCCGCTCGGCAGAATATACCTATGTTGGTTGATGCAGAAAGGAAAAGGGAAGGTCTGGATGATCTCCTGGCATTTGCCAGTTATGTTGTCTGCTCAACAAGATTTCCACAGGCAAGTGCTGTTTCTTTGTACTCTCAAAGTTCTTCTACTTGTCAAAATTTTCCTGTTTGAATATCTTTAAAATTTTAAAATTTGTTATATTGAATCTTAAGTTAGTATTTTGATTTCTTGGCCTTGATTAATTATCTTTCATACTGGTACAGCTTCTTATGCCTCATGTACCTTGTGTGTTCGTTTGAGAGAGTTTTTGATGCCACGTGCAAGCAAGATGACATTGGTTTTTTCATCTACTAGTTTATATAATTATTACACCGTGTAGTATGTATGTTTGAATTTCTATTAAAATTCTGTGCTTTTTTTCTTGGAACTCAAGAGACAGTTGTACCATTTATAGAATGGATTTGGTTATTTTTCATGGTTTTTTTTTTTCATCTTTTTATCTGAATCTTGTTTCTTGTGGTTCAGTTCATTTTTTCTATTATTAACTATAGAAACATTATTTAATGGGCAGGAATGGACTGAGGCACCATCGATTCCATCTGCACTTGTTTCCATGCTTCTGCGACTTCCAAAACTTAGATTTGTGATTGTTACATTGGGTGAAAATGGATGCATAATGCTCGAAAGAAGTACTGATGGTGAGTTTTATAATCAACTTTCTACCATACCGTTGGCTATGATGCTGTTCACCCTCTAAGGGCGGATATTGTTTAGGTACAAATTTTGTGAATTTAATTTATATATTTAAAATTTACAGGTATTTTCTCTATTTCTGGCAGAAACATATGATCAGATGGAAGAGTTTGAAGTAGACAGCTTACTTGAAGTGGTCAAGAGCAGAAGGAATGAGAACATAAATGTTCCAACTTCTGTTTCATCGGTAATTTTTTAAAATTATTATTATTATTAGGGAAATTATTTTAAATGTCAAAACTGTTCAGTGATAGAATCTGAAATTTTGTTATATTTTGTAAATATTTTCAGTAGTTTTGTCATTTACAATAATTTCTCAAATTATTATTACTGTTATTATTATTATTACTTTTTGGTGTTTGCTCAACCCTACAACAGTCCTTGGCAAAATGATTGGCTGTTTATACCTTCCGTACCATTAAAATGTTATGGTTTATCATGATCCTTGTGAATTAATGTCTGATGATCATCAAGAAATTGTGATGTAGAGAAAGGCAATGAGAAGTACTAGCCGAAGTTTGCATGGTGGATTTTTGTACCTAGACATTTAGGAGAAGGTATTTTTTTAAGGTCTGTCCACCCTGCAATGTTTTGGATGTAGTATGTCGTTGGATCAAAAGCTGTGAGGCTTCCTAATGATGTTGTTACGTTGGTATTGAAGATGGAAACTGTTTGTAACCATTTTGAAGAAAAATGAATAGTTGACAGTCGTAATCCTTTCTTTTTCTCTTGTATAGAAAAGATAAATAATTTTGGACAAATTATCTGAGGGATATATGGAACTTTTCATATGAATCTACACTATTTTAATATTGATCGAGCATTATGAAGTTTTGGTTGAGCATAGGAATCATCAGAGAGGACTATGATAAATTTGGAGTTTGCAAGCTGTGTAATAAGTTCTAACTTAATGACCAATGTCTGTGGTTGGGTCATAGCTGTTATGAGTCCAATAGATTATATCCTTTTTACACATGAGGATGTACTGTGATTTGGTTATATTTCGTCCTTGCTTTTTCAGCCAGTGGCCAAGTTGAGAGCTGAGGGGATAGGGACAGTTTGTGGCAGGCTGTTGCTTGGGACAGCTGAAAAAATACCAGAGTCCGAGATTGTTGATACAACTGGTGCTGGAGATGCATTCATTGGAGCAGTTCTTTATGGTTCGTAATATGAAAAATTTTGTATGATAACTTTTTGTATTTTCAACCGCTGTTTTGTTCTTAGAGTTCAGCTTGCAATTCTGTTTGTCCAAGCTTCTATGCAGAAAGCATGCTAAATATTTCAGAAGAATCGCATAGCATACAGTTGTTTATGTAAATTATTTTACCCTAGTGCTTCTTTCCTTTTTTGTTAAGGCTCTTGTTGCATATTAATTCTCCCAAATCTTTGTGTTTCATAAGAAAATAATAAGAAAACTCTCCATCATGGTTTTTCTCCCTGTACTAGGGTTTCCACGTACCTCGGTGTATTTTTTCTTTTCGTCTCTTCCTTCCTATTTGTGGGGCAATGTTGTTCTCATTGTAGCTCATTTTATTAATCAGATGACTTCTCGTTTTATTCGCCTCCGGACCCCCTTAGAATGTCTTAAGGAGTCTTATCCTCTACCTATCTCATTCCTGAGGTTCCCCTTCATGTGTTTGGGTGCACAGTCTACGTTCATAGCCATGGCCCTAATCAGACCAAATTCACTCCTCGAGCTCAGACCTGTGTTTTTGTTGGGTATCTTCTTCATCAACGGGGCTATAAATGTTTCCATCCCCCTTCCCGTAAGTACTTTGTTTTCATGGATGTCACTTTCCTTGAGGATCGTCCTTTCTTTCCTATTAGTCCGCTTCACGGGGAGAGTGTAAGTGAAGAGCCTAACTATGTGATGCCTTTAGAGTCTACTAGTCCTACTTCCTTAACCTTACCTAATCCGAATCCTCATAATACGGTTCTACCAACAAACCAAGTTCCCTGGATAACCTTTATAGGAGGAATCTCAGAAAGAAAGTTGGGTCCCCTACTACTCGGCCAGCTCCAGTCCATGAATCTGAACCATCACGAGATCAAGGTATGACTAACTCTAATGACTCATATGTTGACAATAAAATGGTTGAGAATGACAGGTCCGACATAGCCGCAGAAGATATGGGTGAAAAGGGCAGTGTTGATGAGATTCAGGTCATGGCAGAAACTGAAGGTGATGAGACCAAACAAGATCATTCAGGTAATCTTGATGAGTGTGATCCGTCTCTTAACATTCCTATTGCGCTGAGGAAAGGTACCAGGTCCTGCACGAAGTATTCCATCTGTAACTATGTGTCTTACAAGAACCTACCACCCCAGTTCAGAGCCTTTACAGCCAGTCTAGACTCTACGACTATACCTAAGAATATTCATCTTGCCTTAGAGTGTCCTGAGTGGAAAGCTGCAGTCATGAAAGAGATGAGAGCCCTTGAGAAGAACAAGACTTGGGAACTCTATACTCCTCCTAAGGGGCATAAAACTCTGGGATGTAAGTGGGTGTTTACCCTCAAGTACAAAGCAGATGGAACTCTAGACAGACACAAGGTCAGGTTAGTTGCAAAGGGATTCAATCAGACTTATAGAGTAGACTACTCTAAGACTTTTTCTCCTGTTGCAAAGTTAAATATCGTTAGGGTTCTTCTGTCTGTTGTAGTAAATAAAGATTGACCTTTATATCAGCTAGACGTTAAGAAAACATTCTTAAATTTAAATGGAAATTTGGAAGAAGAAGTCTATATGAGTCCCTCTCTAGGCTTTGAAGCCCAGTTTGACCATTAGGTGTGTAAGCTTCAGGGACACTCTGATCACACTCTATTTATGAAGGTTTCTAAGTTTGGGAAGATTGTTGTGTTGATCGGATTGTGTTATGTGGAGATGACACCGTTGAAATTGTCCAATTAAAAAAGAGGATGAGGGATGAATTTGAGATCAAAGATTTGGGGAATCTAAAGTACTTCCTTGGGATGGAGGTAGCCAGATCAAAAGAAGGTATCTCTGTATCCCAAAGAAAGTACACTCTTGACTTGTTGATGGAAACATGAATGACGGGATGTAGACTTGCTGATACTCCTATCGAGTTCAATGCTAAACTGGGAATTTTGCTGATAAAGTTCTAGTTGATAAAGAAAAATATCAACACCTAGTGGGAAAGTTGATTTACGTATCTCACACTAGACCAGATATCTCCTATGCAGTAAGTATTGTTAGTCAGTTTATGCAGCCTCCTTACAAAGAACATATGGAGGCAATTACCGAGTTTTGAGGTATTTGAAAATGACTCCTGATAAAGGGTTGATGTTCCAGAAAACCGACAAAAGGTGTATTGAGGCCTATACTGATTCTAACTAGGCAGGATTTCTTGTTGACAAAAAAATCCACTTCTGGGTACTGTACTTTTGTGTGGGGTAATCTCGTAACTTGGAGGAGTAAGAAGCAAGAGGTTGTGGCCAGAAGCAGTGCCGAAGCTTAATACTGGGCTATGAGTTTGGACATATGTGAGGAGATTTGGTTGCAGAAGGTTCTATCTGATCTTTATTAGGATTATGAGGCGCCTATGAAATTACTGTCATAATAAAGTCGCTATTAGCTTGCCAATAACCCAGTCCAACATGATAGAGCTAAATATGTGGAAATTGATAGACATTTTATTAAAGAAAAATTGGATAATGGTAGTATATGCATTCCTTACCTTCCCTCAAGTTAACAAATTGTTGATATTCTCACCAAGAGGCTTCTTAGACCGAGTTTTGATTCCTGTGTTAGCAAGTTGGGTTTTATTGACATTTACGTCCCAACTTGAGAGGGAGTGTTGAAAGTCCAAGGGTATTTATGTAAAAGTATTTTACCCTAGTGTTTCTTTCCTTTTTTGTTAAGGCTCTTGTTGTCTATTAATTTTTCCCCTTTGTATCTTTGTGTTTCATAAGAAAATAATAAGAAAACGAGAGTTTTTCTCCCGTAACTCGGTGTATTTTTTCTTTTCGTCTATTTCAATAATATTTTATATAAATTATGTATCTTGTGTTTATTTCTAGCTTTAACTAACATCCTCCTTAAAAGTTAAAGACTTTTTTTTTCCTGTTTAATACGGGAGCTATAGTAGGAATTTATGCTTTTCATTAATTTTGATTCCAGCCTTATGTGCCAACATGCCACCAGAGAAGTTATTGAAATTTTCTGCCCAAGTGGTAAGTTATTTTTCTAATGAATTTTTATATTTTTAATTATTTTTTATATGAAGATAGGGGATTTGTTTCTCTTCCTTGAGCAGTGGAGCTGTGCTCACCATTAAGTTTTAATTGCAGGCTGCTGGATGTTGTCGTGCTTTGGGTGCTCGAAGCGGTCTTCCATATCATACGGATCCACGGCTGGCATCTTTTTTACACTAG ATGACGTCATTTCCGCCTCTCCTTTCAAGCAATAAGCTTCTTCTTCATTCTTCTCCAACCTTTCTTCTCTTCTCTAAATCAATCAGGCCGACAATGTCATCGTCAACCACCTCCTCGGTTTCCATTTCATTTCCTGAAAATAGTGTGGTTCTTGGTGTTGGTACTGTTTCTGTTGATTTTTTGGCGGCAGTGGCTTCTTATCCAAATCCTGATGACAAAATTAGAACCACGAGCTTAAAGGTACAAGGTGGAGGAAATGTAGGAAATGCTTTAACTTCTGCAGCTCGGTTGGGTTTAACACCAAGGATAATCTCGAAGGTTGCGGATGATAGTCAAGGAAGGAGCATAATCGAGGAGCTAGAAGCTGATGGTGTAGATACATCTTTTCTTGTGGTTTCTGAAGGGGGCATTTCACCATTTACCTATATTATTGTGGATAAGAAAACGCACACTCGTACATGCATCCACACCCCAGGATCTCCTCCCATGGTGCCAGATGACCTTTCACGATCAAGCTTGTTGTCTGCTTTAGATGGGGCTAGAATTGTATATTTTGACGTAAGATTGCATGAAACTGCTTTGCTTGTTGCACAAGAGGCCGCTCGGCAGAATATACCTATGTTGGTTGATGCAGAAAGGAAAAGGGAAGGTCTGGATGATCTCCTGGCATTTGCCAGTTATGTTGTCTGCTCAACAAGATTTCCACAGGAATGGACTGAGGCACCATCGATTCCATCTGCACTTGTTTCCATGCTTCTGCGACTTCCAAAACTTAGATTTGTGATTGTTACATTGGGTGAAAATGGATGCATAATGCTCGAAAGAAGTACTGATGAAACATATGATCAGATGGAAGAGTTTGAAGTAGACAGCTTACTTGAAGTGGTCAAGAGCAGAAGGAATGAGAACATAAATGTTCCAACTTCTGTTTCATCGCCAGTGGCCAAGTTGAGAGCTGAGGGGATAGGGACAGTTTGTGGCAGGCTGTTGCTTGGGACAGCTGAAAAAATACCAGAGTCCGAGATTGTTGATACAACTGGTGCTGGAGATGCATTCATTGGAGCAGTTCTTTATGCCTTATGTGCCAACATGCCACCAGAGAAGTTATTGAAATTTTCTGCCCAAGTGGCTGCTGGATGTTGTCGTGCTTTGGGTGCTCGAAGCGGTCTTCCATATCATACGGATCCACGGCTGGCATCTTTTTTACACTAG ATGACGTCATTTCCGCCTCTCCTTTCAAGCAATAAGCTTCTTCTTCATTCTTCTCCAACCTTTCTTCTCTTCTCTAAATCAATCAGGCCGACAATGTCATCGTCAACCACCTCCTCGGTTTCCATTTCATTTCCTGAAAATAGTGTGGTTCTTGGTGTTGGTACTGTTTCTGTTGATTTTTTGGCGGCAGTGGCTTCTTATCCAAATCCTGATGACAAAATTAGAACCACGAGCTTAAAGGTACAAGGTGGAGGAAATGTAGGAAATGCTTTAACTTCTGCAGCTCGGTTGGGTTTAACACCAAGGATAATCTCGAAGGTTGCGGATGATAGTCAAGGAAGGAGCATAATCGAGGAGCTAGAAGCTGATGGTGTAGATACATCTTTTCTTGTGGTTTCTGAAGGGGGCATTTCACCATTTACCTATATTATTGTGGATAAGAAAACGCACACTCGTACATGCATCCACACCCCAGGATCTCCTCCCATGGTGCCAGATGACCTTTCACGATCAAGCTTGTTGTCTGCTTTAGATGGGGCTAGAATTGTATATTTTGACGTAAGATTGCATGAAACTGCTTTGCTTGTTGCACAAGAGGCCGCTCGGCAGAATATACCTATGTTGGTTGATGCAGAAAGGAAAAGGGAAGGTCTGGATGATCTCCTGGCATTTGCCAGTTATGTTGTCTGCTCAACAAGATTTCCACAGGAATGGACTGAGGCACCATCGATTCCATCTGCACTTGTTTCCATGCTTCTGCGACTTCCAAAACTTAGATTTGTGATTGTTACATTGGGTGAAAATGGATGCATAATGCTCGAAAGAAGTACTGATGAAACATATGATCAGATGGAAGAGTTTGAAGTAGACAGCTTACTTGAAGTGGTCAAGAGCAGAAGGAATGAGAACATAAATGTTCCAACTTCTGTTTCATCGCCAGTGGCCAAGTTGAGAGCTGAGGGGATAGGGACAGTTTGTGGCAGGCTGTTGCTTGGGACAGCTGAAAAAATACCAGAGTCCGAGATTGTTGATACAACTGGTGCTGGAGATGCATTCATTGGAGCAGTTCTTTATGCCTTATGTGCCAACATGCCACCAGAGAAGTTATTGAAATTTTCTGCCCAAGTGGCTGCTGGATGTTGTCGTGCTTTGGGTGCTCGAAGCGGTCTTCCATATCATACGGATCCACGGCTGGCATCTTTTTTACACTAG MTSFPPLLSSNKLLLHSSPTFLLFSKSIRPTMSSSTTSSVSISFPENSVVLGVGTVSVDFLAAVASYPNPDDKIRTTSLKVQGGGNVGNALTSAARLGLTPRIISKVADDSQGRSIIEELEADGVDTSFLVVSEGGISPFTYIIVDKKTHTRTCIHTPGSPPMVPDDLSRSSLLSALDGARIVYFDVRLHETALLVAQEAARQNIPMLVDAERKREGLDDLLAFASYVVCSTRFPQEWTEAPSIPSALVSMLLRLPKLRFVIVTLGENGCIMLERSTDETYDQMEEFEVDSLLEVVKSRRNENINVPTSVSSPVAKLRAEGIGTVCGRLLLGTAEKIPESEIVDTTGAGDAFIGAVLYALCANMPPEKLLKFSAQVAAGCCRALGARSGLPYHTDPRLASFLH Homology
BLAST of PI0021020 vs. ExPASy Swiss-Prot
Match: Q8R1Q9 (Ribokinase OS=Mus musculus OX=10090 GN=Rbks PE=1 SV=1) HSP 1 Score: 86.7 bits (213), Expect = 6.7e-16 Identity = 85/363 (23.42%), Postives = 144/363 (39.67%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy Swiss-Prot
Match: P32143 (Sulfofructose kinase OS=Escherichia coli (strain K12) OX=83333 GN=yihV PE=1 SV=2) HSP 1 Score: 82.4 bits (202), Expect = 1.3e-14 Identity = 89/341 (26.10%), Postives = 135/341 (39.59%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy Swiss-Prot
Match: Q9H477 (Ribokinase OS=Homo sapiens OX=9606 GN=RBKS PE=1 SV=1) HSP 1 Score: 79.7 bits (195), Expect = 8.2e-14 Identity = 85/363 (23.42%), Postives = 142/363 (39.12%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy Swiss-Prot
Match: P36945 (Ribokinase OS=Bacillus subtilis (strain 168) OX=224308 GN=rbsK PE=3 SV=2) HSP 1 Score: 64.3 bits (155), Expect = 3.6e-09 Identity = 79/345 (22.90%), Postives = 136/345 (39.42%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy Swiss-Prot
Match: P83534 (Bifunctional ribokinase/ribose-5-phosphate isomerase A OS=Lactobacillus sanfranciscensis (strain ATCC 27651 / DSM 20451 / JCM 5668 / KCTC 3205 / NCIMB 702811 / NRRL B-3934 / L-12) OX=1423800 GN=rbsK/rbiA PE=1 SV=2) HSP 1 Score: 54.3 bits (129), Expect = 3.7e-06 Identity = 53/231 (22.94%), Postives = 104/231 (45.02%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy TrEMBL
Match: A0A1S3BH87 (ribokinase isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489824 PE=3 SV=1) HSP 1 Score: 739.6 bits (1908), Expect = 7.1e-210 Identity = 385/403 (95.53%), Postives = 391/403 (97.02%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy TrEMBL
Match: A0A1S3BH76 (ribokinase isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489824 PE=3 SV=1) HSP 1 Score: 700.7 bits (1807), Expect = 3.6e-198 Identity = 359/372 (96.51%), Postives = 365/372 (98.12%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy TrEMBL
Match: A0A6J1HH81 (ribokinase-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111464044 PE=3 SV=1) HSP 1 Score: 669.5 bits (1726), Expect = 9.0e-189 Identity = 344/402 (85.57%), Postives = 370/402 (92.04%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy TrEMBL
Match: A0A6J1HTZ4 (ribokinase-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111466847 PE=3 SV=1) HSP 1 Score: 666.8 bits (1719), Expect = 5.8e-188 Identity = 343/402 (85.32%), Postives = 367/402 (91.29%), Query Frame = 0
BLAST of PI0021020 vs. ExPASy TrEMBL
Match: A0A6J1K463 (ribokinase-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111491525 PE=3 SV=1) HSP 1 Score: 665.6 bits (1716), Expect = 1.3e-187 Identity = 346/399 (86.72%), Postives = 369/399 (92.48%), Query Frame = 0
BLAST of PI0021020 vs. NCBI nr
Match: XP_004152009.1 (ribokinase isoform X1 [Cucumis sativus]) HSP 1 Score: 746.5 bits (1926), Expect = 1.2e-211 Identity = 385/403 (95.53%), Postives = 393/403 (97.52%), Query Frame = 0
BLAST of PI0021020 vs. NCBI nr
Match: XP_008447353.1 (PREDICTED: ribokinase isoform X1 [Cucumis melo]) HSP 1 Score: 739.6 bits (1908), Expect = 1.5e-209 Identity = 385/403 (95.53%), Postives = 391/403 (97.02%), Query Frame = 0
BLAST of PI0021020 vs. NCBI nr
Match: XP_038888957.1 (ribokinase isoform X1 [Benincasa hispida]) HSP 1 Score: 706.1 bits (1821), Expect = 1.8e-199 Identity = 365/394 (92.64%), Postives = 374/394 (94.92%), Query Frame = 0
BLAST of PI0021020 vs. NCBI nr
Match: XP_008447354.1 (PREDICTED: ribokinase isoform X2 [Cucumis melo]) HSP 1 Score: 700.7 bits (1807), Expect = 7.5e-198 Identity = 359/372 (96.51%), Postives = 365/372 (98.12%), Query Frame = 0
BLAST of PI0021020 vs. NCBI nr
Match: KAE8650838.1 (hypothetical protein Csa_017413 [Cucumis sativus]) HSP 1 Score: 698.4 bits (1801), Expect = 3.7e-197 Identity = 358/372 (96.24%), Postives = 365/372 (98.12%), Query Frame = 0
BLAST of PI0021020 vs. TAIR 10
Match: AT4G28706.3 (pfkB-like carbohydrate kinase family protein ) HSP 1 Score: 500.4 bits (1287), Expect = 1.4e-141 Identity = 257/397 (64.74%), Postives = 314/397 (79.09%), Query Frame = 0
BLAST of PI0021020 vs. TAIR 10
Match: AT4G28706.2 (pfkB-like carbohydrate kinase family protein ) HSP 1 Score: 499.2 bits (1284), Expect = 3.1e-141 Identity = 256/397 (64.48%), Postives = 312/397 (78.59%), Query Frame = 0
BLAST of PI0021020 vs. TAIR 10
Match: AT4G28706.4 (pfkB-like carbohydrate kinase family protein ) HSP 1 Score: 499.2 bits (1284), Expect = 3.1e-141 Identity = 256/397 (64.48%), Postives = 312/397 (78.59%), Query Frame = 0
BLAST of PI0021020 vs. TAIR 10
Match: AT4G28706.1 (pfkB-like carbohydrate kinase family protein ) HSP 1 Score: 498.4 bits (1282), Expect = 5.3e-141 Identity = 256/397 (64.48%), Postives = 313/397 (78.84%), Query Frame = 0
BLAST of PI0021020 vs. TAIR 10
Match: AT5G43910.2 (pfkB-like carbohydrate kinase family protein ) HSP 1 Score: 413.3 bits (1061), Expect = 2.2e-115 Identity = 207/360 (57.50%), Postives = 266/360 (73.89%), 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 Position : 0 Zoom : x 1
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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