PI0000205 (gene) Melon (PI 482460) v1
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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.ATGTCAGGCCAGATGGATAAGGAAAGCGAATTTTTAATGTTGGTTGTCAACAACAGCGGGTCTTTAATGTCAGTTTTTGACTGACATTATAGGAAAACCTCATTTCTAAATCTTCCCACATTTGTGAATCCCTACTTCTGTGTTTCTTCTCTTCTTTCTTTCATGTCTCACGAAGTCTTCCACTGTTCACGATCTTCTCTCTCGTTTTCGGCTCCCACCTCACGTCTTCTTCTTCTTCCCTCACTTTTTCGGCTCTCACCTCTTCCTCTTCTTCTTCGTCAGGAGTATCTTTTCAAGATTGTTCCGATTGGCTACTCTGTGGTGGGGAAATCCAGCCTCCTTTCACAGTATATAACCTATCTTTCATAACAAAGTAAAACTTTTGCACACGGTGTGCTTTATTATATCCTACCTATGGTCAATGGGAGCTTTCTCAAGAATTTTGTCGTCCTGCTGCAGTCAAAGGTTGTCTTTATGTAAGTTCCGTTGAAAGTCTACAAAACCTCTCTCCACCAATATATAAAATGTCTTTTTTTTTTTCACGGAATGCCCTCAATTTTGTCTGTTTAATAGCATAACACATTATCATTCTTCTCCTACTTAATGTAGCAGTTTCATTTTTACATCTCTTAGAGATTGTTCAGTTCTGGGCTTACTTTCATTTTCCTGCATTATTATGAGTTGTTATAAAGATTGATCTCTGCATTGCTATGATTATTATTACCCGTGTTTTTGGGTGGATGAAAGAAACTGTTGAGGATTCATGACATAAACACTTTTTCGAGTGGCTTGATGCCATGTAGTCTATGCGACGATTTACACTGGTTTTAGGTTGATCTTTGGGAGTTGTGTGGTTATAAGCAGTTATTGTCCAAGACCTCCTATGGATCGAGGACCATTTGCTAAAGATCTTTCTTATTGTCGTATTTGTCTGGTCTGATTGCAAAAACCGTGTTTATTATTTTACTTGGTCAATCAACTTTTTTTCTTTATATATTAGATATGATGTCTTAATTAAAATATAAATGTTGCTCTCATTTTTCCTTTTCACTTCTGCTAAGTATCAAAGGGGCTATCCGATTCACCTTTGTATTTTTTTTCCATGATAAGGTTGGAATTTTTCTCTTATAATTAACTCATCTTTTGGTTGTACAGGTACTTCGGATGCCTGTCGTTGCTCTATTAAAGGACAAGGTTTAGAATGCACTAAACAACTCTTCCTTTGAGGTGAAAATGGATTGATCATATAGTACATCTTGAAATATTTGCAGAGTAATGAGCAATATAAGGGTGTTCAGTTGGCTTCTGAACAGAACATCTTTAGTCAACAGTTGGTTCTGGATTCGTGCTTCATGGATATAATATACTGCTACATTGTTTTGATATGGTACGTTCTCTTCCAATCTATAGGTTGTTTTACTCTTATGTTTGTTTGCAGACAATTTATGGAACTGAAACTAATTTCTTGCTTCGGTTTATTAGAATCTGTTGTTAGTTTGGTTAATCGATTCTCTGATTTGTTGGGAATGATAGAAAGAAAATTCAGTGTTATTGGTTATTCTGCAAATTCTGGTAGGAGAGCTAAGTTACCACTGTTTATTGTGTTATATTATGTTCTGTAACAATGTTTTTTTGGGTGATATACAACTTCCATAATTATTTTATTTATTGAGAGACATTTAATCATTACTTGTATAAAAGAATTGAATTGGAACACTTTTTGTAGCTCCATTTAGAAGAATGGTGTGTTTATCTAGTTTTGTGTATGAGTATCAAATACATAATATTTCTTTAAATTATATCTCTTGTTTTAGATCTTCAAGATGGGGAACTTATTCATGAGGATAACTTCAATATTTTTCCTTACATGTTTGCTTTTTCACAGTTTAATATATAAGAAAACTGATATGTGATGTTTACTTAATTCTTGATATTGGGGTGATATAACTCATTGATTCCTCTTGAATAATATTTGATGAGACGCTATCATATGTACAAACTATTGCCAACATCTTTGGCTTCAAGGTTATAGAGTAGGCAAGTTTTAGCTTCTGATTAATTGGCCATGAATTCAACTAATGTCCACTGCTTTCCATGTTTCAGTCAATCATTTAAACAATAAATTTGTGATGTGTCTTGCAGCATGTTGAGGAGATTGGAAAATACTTTGACTACAACTTGTGGTGGGTGATCCTTGCAACAGAGGAAATAATGATTCACGTAATAGTTCAAAGGTCCGAAAATGCATTGAACTTCTTTAATATATTTTTGTGAAAGGGATTGATTAGTATATATTTACATTTCCTCTAAGTTAGACAATAAGTTAGTCTAATTTATAATCTGAATAATGGTAGAAGAGTTTTACAACAATAGAACCAAGCTTGATCGTAGTAAAAGATTTGTTGATCATAGTAAAGGCTTAGTTACACAATTTTCAAGTGCTCAATCTCTTCTAGTTCTCCTTGTTAGTATAGTTGTTTATAAGTTCTCTTCTAGTTCTCTTCTAGTTTAATTCTTCAGGTTGCATTTTGGTAGTTGTAGGTTGAGCACTTGAACTAGTTCTTCAGGTTGCATTTTGGTAGTTGTAGGTTGAGCACTTGAACTAGAAGAGAACTAGAAGAGAACTAGAAGAGAACTTATAAACAACTATACTAACAAGGAGAACTAGAAGAGATTGAGCACTTGAAAATTGTGTAACTAAGCCTTTACTATGATCAACAAATCTTTTACTACGATCAAGCTTGGTTCTATTGTTGTAAAACTCTTCTACCATTATTCATATTATAAATTAGACTAACTTCTTGTCTAACTTAGAGGAAATGTAAATATATACTAATCAATCCCTTTCACAAAAATATATTAAAGAAGTTCAATGCATTTTCGGACCTTTGAACTATTACGTGAATCATTATTTCCTCAGTTGCAAGGATCACCCACCACAAGTTGTAGTCAAAGTATTTTCCAATCTCCTCAACATGCTGCAAGACACATCACAAATTTATTGTTTAAATGGTTGACTGAAACATGGAAAGCAGTGGACATTAGTTGAATTCATGGTATATACATCAACAAACAAAAGGGAGGACGAGGAACTGATATCCATACCTATTGCTAAATAAAAGCCTCCAGCTAAAAGGTTAGTTGAAATAAGAACTTGGTCAAACCATCCTTGGACACTTTTATTCATATTCCATAGTCAATTAATCAAACGGAGGAGCCGATCGATAATTATTAGTAATACTAAAAAAAAAAAATTGGTATGATTGATAACAATTGATAATTATTAAACTGATTTACGTTGAGTGTCTAGGTGACACACCTCCATCTGGTCACATGAAGTGACATCTACGGCGGAGCGTGACAACATCTATTAGTAATAACAACTATCACTGATAGCTTTCAATTTGAGAAATGATTATTTTGCAACGTTCTCGATTTTTTCACGTTGAAAGTTCTCACTAATGGCTACAATTAGTGAATATCACTGATAACGTTGTTATTGGTTGTTATCACTGATAGCTATTATCGATGATAACTTACCATCATTACGAGTGCTTTTTCCTGATTTTTCAAATTGAAAGATGTCATTGATAGCTAGCTATGAGTGATAGCAATTGATATTTGTTATACGTTGCTATCAATGATAACTTTGAATTTAAGAAATATACTATCAGTTGATGTCATTGATAACAGTTATCAGCGACAACTTCTATCATTGATAGCCATTGAATGGTAGACTAACTTTCAATTTGAGAAATATGGTATCAGTTGCTATAGTTAGCTGCTATCACTAATAGTTGTTATTATCAGTGATAGCTTTCAATGTGAGAAATGTGTTATCGGTTACTATCACTGATATCTTCTATTAGTGATGTTGCTATTAATTGGTATTCCTGATATAAGCTACTATAAGTAATTTTTCTATATTGCTATCAATGTAGAAGGATATTGCTAACATTATCTATCAATGATTACATTAGAAGGATATCGCTGATAACAACTATAAGTAATATCATTAGAAGAATATTTTTAATAAGTGATATTTCCTTGTTAAAAATATCGATTGTGATTTGATGATGTTTAATTAGGCTATCAATGATATTTCTTTTATAGCTACTATCGATGATATTCTTCTATTGTTATCACTAACAATATCTATTAGTGATAGCAATAGAAGGATATCATTGATAGCATCTATAAGTAATATTCCTAATAGGCTACTATATATCAATGATACCAAGGTAATGTTACTATAAAATGATATTGTGGTTGTTTGTTTTTTAGCATAAATGGACAAATAAAATAGATTAGATTAGCATACTATCGATAATAGCCTTGAATCACTGATTACATACTATCCATATGATAGCTTTTGTCACTGATAGTATAAATGAAATTGATATAGAAATTGATATAGTTACAACTTTTGTTGAAATAAATTATATATTGATTTCAGGCTATTGCTATCAACATTTATATCATTTAGAAATTCAAAGTTCAAGCTATATGTGATAGATTCATGAAAAACATATTGACATATTGGGCATGATGTCATTGATTGAAGTCATCATTGATAGCATGTTATCAGTGATAGAAGCCATCACTGGTAGCATAAGAAGAAAAGAAGTCAAGGAGAAGGAAATCAAAGGGCAAAATTGGTGTTGGTTTATTCCATAAATTTTTTATGCCAACAAAAAAACATAATCAACACATTGATTAAATAAAATCAAAAACTAATTTTGTTCTTTTTTTTTCCAAAACCCAAATCTCTCGCATCCTCTTCCCGACTCCCCCACCCTTTACTCTTTTTATTTATTTATTTATTTTTTCAAATTGGAATCTTGAAACAAATTAGAAGAACATTAAGTAGAATAAAAAAAACTGACATATTGATATTAACATTCATGGCAAACTAAAAAAATACAACTTATGTATAAAATAAACTCTACGAAATTGCAGATAAATATTCCCAAAATGAATCACAATCTTCTCTAAAAAAAGAAGAAGAAGAAGAAGAAGAAGAAGAAAGGGTTGGAATGAAGAGTGTTCACACGAGATTTCGGGAGAAATTTAATTCGTGGAAATGAACTTTGTATATTGATTTGTGTAGTGGATACAATCTCTAATATTTACTCCTTTGATGCTTTCTCTCGAATGCAAATTAAAACTTTTAGGATTTCTTGGTCTTCGATCTTCAGACAATTGTGGCTGCAAGTTAATTTGAGCTTCAATCTTCTGGAATTCAAAGAAAGTTTGATCTTCCAAGTCTTCAATCTTTCAGAAGATGGTAACTCGGGTTGATGAGAACTTGTAGGTCTTGAGAACTTTTAGAAGTTTGAATCTTCAATTCTTTAGAGCTTCAATTCTTCCTTCCACCAAGATCCCCCTTTAATGAAAGGGAAGGTCTCTTATTTATAGAGAACTTTTATGGGCCTTAGATGGGCTTGGGTCCCTTTGCTTGTTGGGCTTGGGCTTGGGCTTGGACTTGGGCCCCTTTGCTTATTGGGTTTGGGCTTGGGTCCATTATTTTTTTTTTTGGGCCAAAATTTCTTGCTTAACAAATGCTCCCATTTCAAGATTCGTGCACATGTATACCGTGGATGAATCTTGAAAAAGATAGTTTAAGATCAAAGTATGATTTTGACTCATTTGCATTGAGACATCATTTTAACCAAAACATGAGAATATAGCTCAAAAACAATTTTGATTTGAAACTTTGTTTGTTTGGCACATATTGCATCAAGTAAACGAGAAATGAATTTTACTCATTGACTTTCTTACTTGGGAGGGGTAGCCATTTTTATTTGAATTTTGAGCAGCACCCTAAATTTTATTTTTATTTTTATTTTTTGTAATTTTTATTTATTATTATTATTATTATTAACAATTTATTTTAACAAGATTTGAGAAAAAGAATAAATAAATGGTTTCAAAAATTATTTTAACAATTTATTTTAACAAGATTTGAGAAAAAGAATAGATAAATGGTTTCAAAAATTATTTTAACAATTTATTTTAACAAGATTTGGTATGAGAAAATAAATAAATTAATAAATACAACTACCAAATCTCACCCGATTTGATTTGTCACAAATAAAGATTTCTTATACTCTACTATAAACAGAGGAGCTCAGCCATCTCTTTTTGTCAATCTCAGCCTGCGTAGAACAAGAACTCTTTTTCTGCAACCTCGAGGTAAACAATTTTTTTTTCTTAAGAGTTTTCTTCTTCTTTCTTTCTTCTTCTTTTTAAAAAAAGAATTTTTTTTGTGTAAAAAGTAAAGTAAAAAAAAAGAAAAGAAATTTCTTTCTTTATTTCTTTCTTTTTTTTTTTTTTTTCCTTTCTTTTCCTTATGCCGATTTCTTTCTCTTTCTTTTTCTTTTTTTTTCTTTTCTTTTCCTGCTGGTTTCTTTCTCTCTTTTTCCATTTTTTTTCTTCTCACCCCTAACCTACTACTTTTTTTTGTTTGTTTGTTTTTTTTTTCCAGGCTTAGCAACTAGTAATCTACACACTTATTACGAAGGAAAGAAATCTAGCAAGGTTTTTTTTTTTTTTTTTATATAGGGCGCATGCACGCACAAGCCTATACTTTTGGTTTGGTTCATGATAGACGATACAACTCTATCATGACCTTCCTTGACGTCCTGCTGCTTCCTAGTTTGTTTTGGTCCATGATAGACGATGCAACTCTATCATGGCATTCATCACTTGTATTTTGGTTTGGTTCATGATAGACGATGCAACTCTATCATGACCTTCCTTGACGTCCTGCTGCTTCCTCAATTTGGTTTGGTCCATGATAGACGATGCAGCTCTATCATGGCCTTCCTCACCTGCATTTTTCACCTGCATTTTTCACCTGCACTTTGGCTTGGTTCATGATAGACGATGCAACTCTATCATGACATTCCTCACCTGCACTTTGGTTTGGTTCATGATAGACGATGCAACTCTATCATGACATTTCTTGACGTCCTGCTGCTTCTTGGTTTGGTTTGGTCCATGATAGACGATGCAATTCTATCATGGCATTTCTCACCTGCATTTTGGTTTGGTTCATGATAGACGATGCAACTCTATCGCGACATTCCTTGGCGTCGTGCATCCTTTGACATTCCTTGTTCTACATTTTTTGTTTTTTTGCACACCATGTCGACGGTACTAATTCGTTTTTGGTAATCTTTCTTTTGCAAAAAGATGGTTTACTTCATTGAATGCTTCTTATCTGGAAATAGGCACCTTACAATCCTTACTGATAAGAATCAACCAAGAGAAGATGGTCTCAGTCTCCTTGTAAAGAAGTCGTTGACGGGTCATTTTGCAAATTTTTGGCCAAACCTAGACAACAACTCGATTCTTCCCAAATTATCTGTGGAGATACCTTTGTCTTAGGGAAAAAATGCATGGGTCCTTCAATCTTCTATCCATGATGAGGCTCCTAATGCCAATCGAGTCCTTACTCTCGGACATCGCATAATTGAAGGCCAAACCCGTTGCGGTGTCGTGACTAAAGTCCCAGGAGAATTCTGCTTTACTGACTGTTATTGGGAGTGGCTAGAGTTCGTAGTTGGTCGAAGTGGGCGAATTCTCTACGATGCTCGTTTATTTGGTGTCGTAACAACTTATTTGTACACATATGATCGTAACAACGATGTGGTTCGAGCATTTTGTGAAGCTTGGTGTCCTTCAACTAATAATCTTCATACCATGGCAGGCGAGGTATCCATTTCCTTATGGGACCTGTGGTCATTTGGGGGTCTTTCAATTAGGGGGAATTTCTACAGGAAGGCATCCCTTCCCTTAAAGAATTGGTCTCTTCACGCGATAAGGCAAAATGTCTCCCGACAACATGTCAATATCTGTTTCTGGCGTATCATTCAATAGATGTCAGGCCAGATGGATAAGGAAAGCGAATTTTTAATGTTGGTTGTCAACAACAGCGGTCTTCCACTGTTCACGATCTTCTCTCTCGTTTTCGGCTCCCACCTCACGTCTTCTTCTTCTTCCCTCACTTTTTCGGCTCTCACCTCTTCCTCTTCTTCTTCGTCAGGAGTATCTTTTCAAGATTGTTCCGATTGGCTACTCTGTGGTGGGGAAATCCAGCCTCCTTTCACAGTACTTCGGATGCCTGTCGTTGCTCTATTAAAGGACAAGAGTAATGAGCAATATAAGGGTGTTCAGTTGGCTTCTGAACAGAACATCTTTAGTCAACAGTTGGTTCTGGATTCGTGCTTCATGGATATAATATACTGCTACATTGTTTTGATATGCCTGCGTAGAACAAGAACTCTTTTTCTGCAACCTCGAGGCTTAGCAACTAGGCGCATGCACGCACAAGCCTATACTTTTGGTTTGGTTCATGATAGACGATACAACTCTATCATGACCTTCCTTGACGTCCTGCTGCTTCCTAGTTTGTTTTGGTCCATGATAGACGATGCAACTCTATCATGGCATTCATCACTTACGATGCAACTCTATCGCGACATTCCTTGGCGTCGTGCATCCTTTGACATTCCTTGTTCTACATTTTTTGTTTTTTTGCACACCATGTCGACGGGAAAAAATGCATGGGTCCTTCAATCTTCTATCCATGATGAGGCTCCTAATGCCAATCGAGTCCTTACTCTCGGACATCGCATAATTGAAGGCCAAACCCGTTGCGGTGTCGTGACTAAAGTCCCAGGAGAATTCTGCTTTACTGACTGTTATTGGGAGTGGCTAGAGTTCGTAGTTGGTCGAAGTGGGCGAATTCTCTACGATGCTCGTTTATTTGGTGTCGTAACAACTTATTTGTACACATATGATCGTAACAACGATGTGGTTCGAGCATTTTGTGAAGCTTGGTGTCCTTCAACTAATAATCTTCATACCATGGCAGGCGAGGTATCCATTTCCTTATGGGACCTGTGGTCATTTGGGGGTCTTTCAATTAGGGGGAATTTCTACAGGAAGGCATCCCTTCCCTTAAAGAATTGGTCTCTTCACGCGATAAGGCAAAATGTCTCCCGACAACATGTCAATATCTGTTTCTGGCGTATCATTCAATAG ATGTCAGGCCAGATGGATAAGGAAAGCGAATTTTTAATGTTGGTTGTCAACAACAGCGGTCTTCCACTGTTCACGATCTTCTCTCTCGTTTTCGGCTCCCACCTCACGTCTTCTTCTTCTTCCCTCACTTTTTCGGCTCTCACCTCTTCCTCTTCTTCTTCGTCAGGAGTATCTTTTCAAGATTGTTCCGATTGGCTACTCTGTGGTGGGGAAATCCAGCCTCCTTTCACAGTACTTCGGATGCCTGTCGTTGCTCTATTAAAGGACAAGAGTAATGAGCAATATAAGGGTGTTCAGTTGGCTTCTGAACAGAACATCTTTAGTCAACAGTTGGTTCTGGATTCGTGCTTCATGGATATAATATACTGCTACATTGTTTTGATATGCCTGCGTAGAACAAGAACTCTTTTTCTGCAACCTCGAGGCTTAGCAACTAGGCGCATGCACGCACAAGCCTATACTTTTGGTTTGGTTCATGATAGACGATACAACTCTATCATGACCTTCCTTGACGTCCTGCTGCTTCCTAGTTTGTTTTGGTCCATGATAGACGATGCAACTCTATCATGGCATTCATCACTTACGATGCAACTCTATCGCGACATTCCTTGGCGTCGTGCATCCTTTGACATTCCTTGTTCTACATTTTTTGTTTTTTTGCACACCATGTCGACGGGAAAAAATGCATGGGTCCTTCAATCTTCTATCCATGATGAGGCTCCTAATGCCAATCGAGTCCTTACTCTCGGACATCGCATAATTGAAGGCCAAACCCGTTGCGGTGTCGTGACTAAAGTCCCAGGAGAATTCTGCTTTACTGACTGTTATTGGGAGTGGCTAGAGTTCGTAGTTGGTCGAAGTGGGCGAATTCTCTACGATGCTCGTTTATTTGGTGTCGTAACAACTTATTTGTACACATATGATCGTAACAACGATGTGGTTCGAGCATTTTGTGAAGCTTGGTGTCCTTCAACTAATAATCTTCATACCATGGCAGGCGAGGTATCCATTTCCTTATGGGACCTGTGGTCATTTGGGGGTCTTTCAATTAGGGGGAATTTCTACAGGAAGGCATCCCTTCCCTTAAAGAATTGGTCTCTTCACGCGATAAGGCAAAATGTCTCCCGACAACATGTCAATATCTGTTTCTGGCGTATCATTCAATAG MSGQMDKESEFLMLVVNNSGLPLFTIFSLVFGSHLTSSSSSLTFSALTSSSSSSSGVSFQDCSDWLLCGGEIQPPFTVLRMPVVALLKDKSNEQYKGVQLASEQNIFSQQLVLDSCFMDIIYCYIVLICLRRTRTLFLQPRGLATRRMHAQAYTFGLVHDRRYNSIMTFLDVLLLPSLFWSMIDDATLSWHSSLTMQLYRDIPWRRASFDIPCSTFFVFLHTMSTGKNAWVLQSSIHDEAPNANRVLTLGHRIIEGQTRCGVVTKVPGEFCFTDCYWEWLEFVVGRSGRILYDARLFGVVTTYLYTYDRNNDVVRAFCEAWCPSTNNLHTMAGEVSISLWDLWSFGGLSIRGNFYRKASLPLKNWSLHAIRQNVSRQHVNICFWRIIQ Homology
BLAST of PI0000205 vs. ExPASy Swiss-Prot
Match: Q8LLD4 (Rab escort protein 1 OS=Arabidopsis thaliana OX=3702 GN=REP PE=1 SV=2) HSP 1 Score: 53.9 bits (128), Expect = 4.7e-06 Identity = 26/39 (66.67%), Postives = 30/39 (76.92%), Query Frame = 0
BLAST of PI0000205 vs. ExPASy TrEMBL
Match: A0A5A7V773 (PMD domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold468G001920 PE=4 SV=1) HSP 1 Score: 250.0 bits (637), Expect = 1.6e-62 Identity = 128/226 (56.64%), Postives = 152/226 (67.26%), Query Frame = 0
BLAST of PI0000205 vs. ExPASy TrEMBL
Match: A0A5A7TX42 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold498G00950 PE=4 SV=1) HSP 1 Score: 241.5 bits (615), Expect = 5.8e-60 Identity = 106/135 (78.52%), Postives = 119/135 (88.15%), Query Frame = 0
BLAST of PI0000205 vs. ExPASy TrEMBL
Match: A0A5A7T019 (PMD domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold213G00490 PE=4 SV=1) HSP 1 Score: 237.3 bits (604), Expect = 1.1e-58 Identity = 104/132 (78.79%), Postives = 118/132 (89.39%), Query Frame = 0
BLAST of PI0000205 vs. ExPASy TrEMBL
Match: A0A5A7VHW8 (PMD domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold17G00370 PE=4 SV=1) HSP 1 Score: 237.3 bits (604), Expect = 1.1e-58 Identity = 104/135 (77.04%), Postives = 117/135 (86.67%), Query Frame = 0
BLAST of PI0000205 vs. ExPASy TrEMBL
Match: A0A5D3D2X6 (PMD domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold306G004010 PE=4 SV=1) HSP 1 Score: 235.7 bits (600), Expect = 3.2e-58 Identity = 125/224 (55.80%), Postives = 141/224 (62.95%), Query Frame = 0
BLAST of PI0000205 vs. NCBI nr
Match: KAA0063074.1 (uncharacterized protein E6C27_scaffold468G001920 [Cucumis melo var. makuwa]) HSP 1 Score: 250.0 bits (637), Expect = 3.4e-62 Identity = 128/226 (56.64%), Postives = 152/226 (67.26%), Query Frame = 0
BLAST of PI0000205 vs. NCBI nr
Match: KAA0047478.1 (hypothetical protein E6C27_scaffold498G00950 [Cucumis melo var. makuwa]) HSP 1 Score: 241.5 bits (615), Expect = 1.2e-59 Identity = 106/135 (78.52%), Postives = 119/135 (88.15%), Query Frame = 0
BLAST of PI0000205 vs. NCBI nr
Match: KAA0065375.1 (hypothetical protein E6C27_scaffold17G00370 [Cucumis melo var. makuwa]) HSP 1 Score: 237.3 bits (604), Expect = 2.3e-58 Identity = 104/135 (77.04%), Postives = 117/135 (86.67%), Query Frame = 0
BLAST of PI0000205 vs. NCBI nr
Match: KAA0034815.1 (hypothetical protein E6C27_scaffold213G00490 [Cucumis melo var. makuwa]) HSP 1 Score: 237.3 bits (604), Expect = 2.3e-58 Identity = 104/132 (78.79%), Postives = 118/132 (89.39%), Query Frame = 0
BLAST of PI0000205 vs. NCBI nr
Match: TYK19639.1 (hypothetical protein E5676_scaffold242G00260 [Cucumis melo var. makuwa]) HSP 1 Score: 235.7 bits (600), Expect = 6.6e-58 Identity = 104/135 (77.04%), Postives = 117/135 (86.67%), Query Frame = 0
BLAST of PI0000205 vs. TAIR 10
Match: AT3G06540.1 (Rab escort protein ) HSP 1 Score: 53.9 bits (128), Expect = 3.3e-07 Identity = 26/39 (66.67%), Postives = 30/39 (76.92%), Query Frame = 0
BLAST of PI0000205 vs. TAIR 10
Match: AT1G32120.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: membrane; EXPRESSED IN: 14 plant structures; EXPRESSED DURING: 4 anthesis, C globular stage, F mature embryo stage, petal differentiation and expansion stage, E expanded cotyledon stage; CONTAINS InterPro DOMAIN/s: Aminotransferase-like, plant mobile domain (InterPro:IPR019557), Protein of unknown function DUF716 (InterPro:IPR006904); BEST Arabidopsis thaliana protein match is: Aminotransferase-like, plant mobile domain family protein (TAIR:AT1G51538.1); Has 16736 Blast hits to 9656 proteins in 576 species: Archae - 4; Bacteria - 1182; Metazoa - 7098; Fungi - 2631; Plants - 1178; Viruses - 174; Other Eukaryotes - 4469 (source: NCBI BLink). ) HSP 1 Score: 49.3 bits (116), Expect = 8.2e-06 Identity = 24/97 (24.74%), Postives = 45/97 (46.39%), 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:
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