PI0004883 (gene) Melon (PI 482460) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTTCGAGGTATGTTATTTTAATTTAGTTTAGATTAACCATAATTTTTTATACGTAATAGATTTTTAATCTGAAATATTGGTTGAACAATACAGATGGCGAGATCAATTTTGTGTCACCAGGTCGGCTACACATGTAGTCTCTCAACATAGGTACATGTTTGATCTTCTTCAATCTGATCAGGTACGTTGTGCTGAATTTGAATTTTAAGTTACATATTATCTGTTTAATATTAGTTGTTTCATATAATATATTGTGTTTCAGATTATCTGGGAGCCGTACAAAGCTGTCATGGATAGTTTGCCGAATTTCTGTACGAACGGTCATGACATATGGCAGACGGTTAGTCCTCTCATATGTTTTCACATCGGTGAGTGGCATCATCCTGACAGAACACTCAGGCAGTTTGGTATTAAACAAGATGTTCCAATTGACTGTAATACTGAACCACTGTTGCACAACATTGACCTGAGAACGGCTGATTGGTCTGGTAGAGTTGCTCATTTGGTGATGCGATGGCTAAATCGCAGAAGATTTATTGCTACGGGACCTTCGTTTGGGCAATTTGATGTTGATGTAACTTCAGAATACATCAATTGGTACAGAAATATTACCAGGCTCTATATCACTCGACCGGGAGCTGTTGTAGGTCATCTGGTACGTATTTAAATATTGTCTAATTGTTTTTAGTACAAATTAATTTTGAATAGTTTCTAATTAATTTTAATATTTCACAGAGGTCGAACAATAGTAGACTTCGGGATGTTGCAGATGATCCACAGCAGGTCCTAGATATATGCAACAATAACGAGCGATACATGGAGAACATACACTATATGTACGATGTACCTATTGTACCTGCACCAGTTCAAAGGAGACGTGCTCGAGTGCAAGAGCCTGATGAATTTGAAGAAGTTGAACAACATGTGCAAGAAGTGCCTCCTGTGAGACAAACACAAAGCGGGACTGGTGACGTTAGTCCAATGATGATGATGCCGACATTTGGAACAGGATATTATGATTCAGGAGTCGGTCAATCGTCAGACTTCGGGACAGGATATTATAATTCAGAGGCAGGTCCATCATCGTCAAACTTTGGACAAGGATACTACGATTTAGGGACCGATCCATCATCTTCATACATGCATGGACATGGGCGTGGACTTGGAGAACATAACGAATATTTGTACTACGAACCGCCTGCAGCAGTACCCGAGCAGCCAGATGAGCAACAACAAGAGAATCAGGAGGGACTAAGCAACAAAGAGTGCAGGATCGACGACGACAACCAGTAAGAAATCAGCGACGTCCAGGTTGTGGAACACATTGATTTTTTTTTTTTAATTTGTAATTGAATGAAAATTATTAAATTATTGTATTAGACATTCTACTTATATTTAATTATTTTTCAATCGCAAACAATTACTTAATTTTGTAAAATAAACTTTTTTTTTCTTTTTTTTAATAGTAATTTGTCAAATATGAAATTAAATAAAAAAAAGGAAGAAATGTGAAATTTAAAAAAGAAAGAAATATGAAATTAAATAAACAAAAAAAGGTAAATGTAAAATTTAAAAAAAAAATGTGGAATTAAGTAAAATGAATAAGGAGTGAGTATGAAATTATTATTAAAGAAATTAAATAAAATAAATATAAGTATTAAAAAAAAAAAAAAAAGAGGTGCATGTGAGATAAAAAAAAACGCATTATTCTTATAATTAGTTTCAAATCTACATTATTCTACCAGATAGTATAAAAATTAACATTATTAATATAAAAAAACCCTTGAACTATCATGTAACATAACAATATTGTGGAAATGGCCAATGGGAACTCTTTCCATTTCTTTTATACTAATATTTGCATCTTTATCTTTTACATAATACAAAAGATTTTATGTGATAGTTTAAAATAGTTTTAAACTAACGAATTTTATCCTCTTGTTTAATCATCAACAACCAATGTTACAAAATTATCTTTAATTTTTTTTTCCTCCTCTTTCTCTTTCTTTTTCCAATTTTTCTTCTTTCATTTGTCTTCAACAACCATTGGAAGGTTAGATGCACTGACATGTGATAACGAGAGAGAGAGAGAGGAGACCTAGAGTGAGCGAGAGTGAAGAGACTGAGAGAGAGAGGGCAAGATATAGGCAATATAGAGAAAGAGGAGATCGAGAGAGTGAGAGCAAGATGTCAACTATTGTGCACAAGGTTATGTTTTGGTAATTACAACTTGAATATGACGTCGCTAAAGGGCAAAAAAAAACCTCAATTTCAAAAAGTATGACAAATTTTATTTTTTCTCCTAAATTTTGGGTCATCCACATGACAGACCTTAAACGTAGATAAATTGTAATTTTCTATTAGGATATGAAAGTTTAAATATCTTAATAGAGTTCAAAAGTATAGATCCATCATAATAATGTTCAGTACATCTATTAAAAGGATCTTTATTGTGTATTGAAATCAATTGACCGGACTTTCTTATTTTGCTACAACCTTTTAAAGAACTAGACTATCGTGTCTACTATCGAGCGTCATGTTCTCTATACACATATCAATTTGAAAATAAAAAGAGTTACGAGTTAAAATTGAGTTGTCTAGTCTGAAAATTTTGTACAACTCATAAAATTTGGTCCCACGAGATTATATATATGAATAAGTTTGAACCTTTCATCACACTTCCAACTTTTTAAAAAAATGGTACATAAAGCCTACATCATGTCTAGTACACAACGTCCTATTTCCTATATATGCATTTCGCTACGTAGAAATTAATAAAGAGAGTCTCTATTATCCTAACTAGAAACAAACACTTCAAAATAGACAGCATCCCTTTACCTATCAAATTTAATAGGTAAAAAAAAGAAAAAAAATGGAAACTTTGAAAATAATTTGGTACATATATAAGAGTTATATGATTGAGTTTGTGTGTAATGTGGTGTACACCATTAAAAAAGTTGTATATGTTAGGGGCTACAAATAGTTGGAACTTGAGGGTAGAAAAGAAAATTTCAAAAGAAAATGTCAAAGTATTGAGAGTGACAATACAAGTGAAAGTAGTTTTCAATTGGCCCCATACATATATACATTTGATTCAACAATTAGATCTTTGATATAGCCCTCTCATGTATCCCCTTTGAGATTCACAAACCCCTCTTTGGAATTTCTACACTCTCAACTTTGTTTTGCTTTTACAAATTTCAAATTAACTTTTGCATTTCTATGCCTCTTTTTACTTCATACTTTGCCTTTTATTCTAATAATTGTACACAAACAAACAAAAAATAAAAAGTGTGATCTATAATGAAAAGTTGGAGACAAAATTTTTATTTTAAAAAAAAATTGGTTAAAACATATTTTAATAATTTCGTGAAACTAATAATTTAGTGTATACACTTTACATAATTTGTAATTTTTTTTTGAAAAAAATCAACGGTTGATTTTTATTACTTAATCACTTAATTATTTTTTATTACAATTCTTTTATACATGATTTAGTTTATTAATATACACATGTAATAAATTTTATTAAATTATGCTAATAATTTTACGACAACAACCTTAAATCATTACAAATAGTAAAATATAAAGATTAAATCGATCCCTACTAAATTTGAGAGACTCAATAGTAAAATATGATTAAAGTTTAGAGAAGTTAACATGAGAAAATATACATTGACTTAACAAATATTTTCATTATTAATCTTTTAGTTTGACTTGAAGTCAAAACATATTTTATAATTGACAACTTCTCATTATTGAAGGTGAGGAGATGTATAATGAGAATATCCAATTGGGATCTTTTTTTTATTAAGAATAAGAAAAAAAAAAAAGAAAAAAAAACCAACAAAAAAGTACAAATTAGTGGTCCTATAGACACACACACATACTTATATATATATATATACATGCTTATCTATGGACCTTCAAGTTTCCAATTGACTTTAAATTTTATGAAAGAAAGTGGAGATGCCCATACTTCAATTCAATCATGAAATACTTTCTTGAAGAATTCATTTTTCTACTTTGCAACAAAAAAAAAAAAAAAAAAAGGAAAATCCCTTTTCAACTTAGAAATGCTAAAAAGGAAAATCCCTTTTCAACTTAGAAATGGCATTACAATTCAATCATTATCTAATCAACATTTGTCATTTTTAGCTTTGTTTTATAGCATTTTTATACTACAAAACCACGTAATTAATCATTGTTACCTTAAGTTATTTATCTCACGATAGTTGTTTTTTTTTCTCTAAATAATACAAAATACCTTTGAATATTAAACCATACATTGAAGTAGAATTGAGAAAAACAGAAAATGGAAGTGATTGGATATAGTATTAATGCAATTTTTAAAAGTTGATAAGTAATTTTGAATTAAGTAACCATACATTTACGTGTTCATCAACTAAAGGTAAGAGCTTATTTATTTATCTATTTGTTGTTATTATTATTATTTTGAAGTTTAAAAACATTAATTCATTGAAATACTAATCATCTTTGTCCAAAACTAACTACATAATTTTTTTAACATGTTGTTTAAAATTTAAATTTAAGGTATTATTCAAACTTTTAAATGGGTATTTTTCAGAGAAAAAACAAAGTTGAAGACTAATTTTTTTTAAAATAATTATCTCTCTTTCTAACTAATATATCTTAACATCTTTTCATTTTTGACATATCTTTCTATTCTAACTTATCTATCTCTAACATCTTTCTATCTCAAACTTATCATCACCCTATTCAATAATTGTATATTCAATTAAATTGTGATAAATAAGCTAAGGTGTACTATACCATATGGACCCAATATATATATAATACAAATGCATATCACTCTTGTAACATAAACCATGTTTAAATTAAGATCAATTATCACATTTTTTCCTTTCTTTTTTTTTTTTTTCTTTTTCTTTTTTGAGAAATAAGATCAACCACATCCTTATAATCAAGTCTATTGTGCACATGTGTGATAAACCTAGCATGACAAACTATATATAAATAGGTCTAAAAAAATTTTAATTTGTGTCTAATAGATCTCGTTTAATAGGTCATTCAAAAATTGATTTTTTTTTAAGATTAGTTTATCTATTAGATATAAATTTGAATTTTGTAAAATGGAATTTTTTTTTTTTGAAAATGGTTGAAAAGTCTAAATTCTATTAGATACAAAATTGAAAATTCAAAGATTTATTGTCTAAAGAAGGAAAAGCTTAAAGATGTATTAGATATTTTTAAAGTTAAAAAATTTATAATAATCTTCTCTTAATAGCTTGAAATTCAAGAAACCTTAATTCATCTTTATAAATATAATAGACAAATTCCATAAATTTAGCATAGTGTTTTATGGATATTTGTATCTATTTATTTTATATTGATTGTGAAACACTGAATTTGGATTATATTTTAAAGCACTATTATTATGATTTGGATAGTTGAAATTAGAGGAGTAGTACATACCTTGTCATGAGATTAATTACAAGCTTTTAGTTGGATATGATGTGAAAATTTTAAATCTCATACACTTTCTCAATCATATTAGTGTACATGTCAATCATATTAGGTAATTTCTTCTTTCTAATCAAATTCACATACAAATCAATTTCGAAGAAAACTAATACATCTCACGTACCAACAATTTCTCTAATTCCTTTCCAACGAGCTCAAAATTTCTCTAATGAAAATACGATCGATAGGACTCTCTACAATAGTAACCGAAAAAAAAGGTAGATTAAGAGTGCAACAAAGTTATTAGGGTAATTTGATAATGTTGGTTAATAATGACATAAGCAAAACTAATAAAAAAAAAATTGAATTTGAATAAAAAACAAAAAAATCCATTTTCTTTTCTATGCAAAAAAAAGTAAAAAAGTAAAAAAAAAAAAAAAAAAAAGAAGAAGAAGAAGAAGAAAGTGTGACGCGGCTGATGGAGAGCCATGAGTATTTCCCAATAGAGAGGAGCGTGTGGCACTTTGGCCCCACACTCACGTGTACCAAATGCCTTCATCACCAAAACTTAAAAAAAAATAAAAAAATTATTAATTAATTAAATTAATTAATAAAAGCTTTTTGATGTTTGAATTGATGTCTCACCAATCCCATCATGCCTTCCATTTCTTTAACCAAAACCATAACTTATTACTTATCCAAACACACTATCAACTCTCTAACTCCCTTTTTAACTATTTGGGTTGCTTCAACCTCCTTAACTCAAAACCGATCTTACTGGGTCTTTGTGTTTACATGGGAATAAAGTTTATCCACTTACTGCTGCTTCTTTGTTTTACTACTCTTTTAAATTACAAAGATGTTAGAATAGTGTTGTGTTATTTTCGGATTTGTATGTTTATTGAGTTAAGTTCGAGTGGGCTTATTCTCTATCTTGAAATTGAGTTGTTGATATACTTTACCTAAAATATTGGATTGAGATGAAATTTAACTTTCTAAATTTTAAGATTTTTGTCATTTTGTTATGTCATGTTTAGATTGTGTCTCTCTCACTCTTGGTCTACTATCTATCAATCTCTACAACAACATTTCTAACACTCTTCCATCTCGATCTCCTCTCGCTCTCTCACCTCTACAACCTTCACCTTATCTCGATCTCCTTCCGTTTTCTCCATTTTTTTCTTTTACTTTCTAGCAACCTCACACATCGAAACATTTGAACCCACTCCGACAACTTGACTACCCATTTTGATGGCTCTAATCCTTTATGTTAAGGGACATCTTTGTAATTGGAAAAAGCTAAAACCCTAAAAGAATGGGGATTTTAATTAATAATGACGTAAGCAATAGAACAAAATTCTTAAGTTTAAAAAAAATGTGAGCCAAAATCCACTATGCACTTTCTTTTGGTGGATTCTATGCTATTATCTCTAGTTTTTTTGTAATATATATCGAGATATATATATATGTATATATATATATATATATATATTTGTGGTGATTTATTTGAAGTTTGAACTTGGGAATTAAGAGAAGGTCTTGCAAAGGAAAGAAAGAAAAGAAAGAAAAGAAAGAAAAAGCTTAGTTGTAAGAAAGGCTTCAACAAACAACTATTTGATACTTATCCTTTTGCTTTTATGTTTCTTACTTTGTTTACTTTATCAAATCTAAATTTTTTACATCCCTTTCCTCTGTCTCCCCTTCCTTTCTTCTATCTGCTCCTCCAACTTGCAAACGTATGAATTTCCCCACTTCAACTCATTGCCTTTTCAACCTTTCTTCCCCAGCTTCTTCCTTGCTGGGTTTCTCCATTTTTTTGGTTTGTTCCATTCCATTTCTTATCAATATCAATACACTACATTACATTACTTTACTTTACTCTTTTTTCTAGCTTCTTCCACTTTTCACACACCCTCATCAAAATTCCTTCATTTCCATCCAAATTTCTTCCCAACCCATGTTGCAATTCTCTATCTTTATTTGTTTTCTTCTTTTGATTCCTCTATTTTCTGTGAATTTTCTCAACAGGTTCATCTCCATAAACTTGTTTCCATGGAGGAAGTAGCTGGTTTTGTCTGAATGGTTCGAGTCTCTCAACATAGGTACATGTTTGATCTTCTTCAATCTGATCAGATTATCTGGGAGCCGTACAAAGCTGTCATGGATAGTTTGCCGAATTTCTGTACGAACGGTCATGACATATGGCAGACGGTTAGTCCTCTCATATGTTTTCACATCGGTGAGTGGCATCATCCTGACAGAACACTCAGGCAGTTTGGTATTAAACAAGATGTTCCAATTGACTGTAATACTGAACCACTGTTGCACAACATTGACCTGAGAACGGCTGATTGGTCTGGTAGAGTTGCTCATTTGGTGATGCGATGGCTAAATCGCAGAAGATTTATTGCTACGGGACCTTCGTTTGGGCAATTTGATGTTGATGTAACTTCAGAATACATCAATTGGTACAGAAATATTACCAGGCTCTATATCACTCGACCGGGAGCTGTTGTAGGTCATCTGAGGTCGAACAATAGTAGACTTCGGGATGTTGCAGATGATCCACAGCAGGTCCTAGATATATGCAACAATAACGAGCGATACATGGAGAACATACACTATATGTACGATGTACCTATTGTACCTGCACCAGTTCAAAGGAGACGTGCTCGAGTGCAAGAGCCTGATGAATTTGAAGAAGTTGAACAACATGTGCAAGAAGTGCCTCCTGTGAGACAAACACAAAGCGGGACTGGTGACGTTAGTCCAATGATGATGATGCCGACATTTGGAACAGGATATTATGATTCAGGAGTCGGTCAATCGTCAGACTTCGGGACAGGATATTATAATTCAGAGGCAGGTCCATCATCGTCAAACTTTGGACAAGGATACTACGATTTAGGGACCGATCCATCATCTTCATACATGCATGGACATGGGCGTGGACTTGGAGAACATAACGAATATTTGTACTACGAACCGCCTGCAGCAGTACCCGAGCAGCCAGATGAGCAACAACAAGAGAATCAGGAGGGACTAAGCAACAAAGAGTGCAGGATCGACGACGACAACCAAAAAGAAAGAAAAAGCTTAGTTGTTCATCTCCATAAACTTGTTTCCATGGAGGAAGTAGCTGGTTTTGTCTGA ATGGTTCGAGTCTCTCAACATAGGTACATGTTTGATCTTCTTCAATCTGATCAGATTATCTGGGAGCCGTACAAAGCTGTCATGGATAGTTTGCCGAATTTCTGTACGAACGGTCATGACATATGGCAGACGGTTAGTCCTCTCATATGTTTTCACATCGGTGAGTGGCATCATCCTGACAGAACACTCAGGCAGTTTGGTATTAAACAAGATGTTCCAATTGACTGTAATACTGAACCACTGTTGCACAACATTGACCTGAGAACGGCTGATTGGTCTGGTAGAGTTGCTCATTTGGTGATGCGATGGCTAAATCGCAGAAGATTTATTGCTACGGGACCTTCGTTTGGGCAATTTGATGTTGATGTAACTTCAGAATACATCAATTGGTACAGAAATATTACCAGGCTCTATATCACTCGACCGGGAGCTGTTGTAGGTCATCTGAGGTCGAACAATAGTAGACTTCGGGATGTTGCAGATGATCCACAGCAGGTCCTAGATATATGCAACAATAACGAGCGATACATGGAGAACATACACTATATGTACGATGTACCTATTGTACCTGCACCAGTTCAAAGGAGACGTGCTCGAGTGCAAGAGCCTGATGAATTTGAAGAAGTTGAACAACATGTGCAAGAAGTGCCTCCTGTGAGACAAACACAAAGCGGGACTGGTGACGTTAGTCCAATGATGATGATGCCGACATTTGGAACAGGATATTATGATTCAGGAGTCGGTCAATCGTCAGACTTCGGGACAGGATATTATAATTCAGAGGCAGGTCCATCATCGTCAAACTTTGGACAAGGATACTACGATTTAGGGACCGATCCATCATCTTCATACATGCATGGACATGGGCGTGGACTTGGAGAACATAACGAATATTTGTACTACGAACCGCCTGCAGCAGTACCCGAGCAGCCAGATGAGCAACAACAAGAGAATCAGGAGGGACTAAGCAACAAAGAGTGCAGGATCGACGACGACAACCAAAAAGAAAGAAAAAGCTTAGTTGTTCATCTCCATAAACTTGTTTCCATGGAGGAAGTAGCTGGTTTTGTCTGA MVRVSQHRYMFDLLQSDQIIWEPYKAVMDSLPNFCTNGHDIWQTVSPLICFHIGEWHHPDRTLRQFGIKQDVPIDCNTEPLLHNIDLRTADWSGRVAHLVMRWLNRRRFIATGPSFGQFDVDVTSEYINWYRNITRLYITRPGAVVGHLRSNNSRLRDVADDPQQVLDICNNNERYMENIHYMYDVPIVPAPVQRRRARVQEPDEFEEVEQHVQEVPPVRQTQSGTGDVSPMMMMPTFGTGYYDSGVGQSSDFGTGYYNSEAGPSSSNFGQGYYDLGTDPSSSYMHGHGRGLGEHNEYLYYEPPAAVPEQPDEQQQENQEGLSNKECRIDDDNQKERKSLVVHLHKLVSMEEVAGFV Homology
BLAST of PI0004883 vs. ExPASy Swiss-Prot
Match: Q9LNG5 (Serine/threonine-protein phosphatase 7 long form homolog OS=Arabidopsis thaliana OX=3702 GN=MAIL3 PE=2 SV=1) HSP 1 Score: 122.9 bits (307), Expect = 7.5e-27 Identity = 59/146 (40.41%), Postives = 82/146 (56.16%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy Swiss-Prot
Match: Q9SK32 (Protein MAIN-LIKE 1 OS=Arabidopsis thaliana OX=3702 GN=MAIL1 PE=1 SV=1) HSP 1 Score: 63.5 bits (153), Expect = 5.4e-09 Identity = 39/137 (28.47%), Postives = 60/137 (43.80%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy Swiss-Prot
Match: Q9LMT7 (Protein MAINTENANCE OF MERISTEMS OS=Arabidopsis thaliana OX=3702 GN=MAIN PE=1 SV=1) HSP 1 Score: 58.2 bits (139), Expect = 2.3e-07 Identity = 39/138 (28.26%), Postives = 63/138 (45.65%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy TrEMBL
Match: A0A5A7VIP6 (Mediator of RNA polymerase II transcription subunit 12-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold38G001330 PE=4 SV=1) HSP 1 Score: 538.5 bits (1386), Expect = 2.1e-149 Identity = 258/334 (77.25%), Postives = 290/334 (86.83%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy TrEMBL
Match: A0A5D3BAB0 (Serine/threonine-protein phosphatase 7 long form-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold110G001240 PE=4 SV=1) HSP 1 Score: 534.6 bits (1376), Expect = 3.1e-148 Identity = 255/334 (76.35%), Postives = 289/334 (86.53%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy TrEMBL
Match: A0A5A7T598 (Serine/threonine-protein phosphatase 7 long form-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold20G00500 PE=4 SV=1) HSP 1 Score: 534.6 bits (1376), Expect = 3.1e-148 Identity = 255/334 (76.35%), Postives = 289/334 (86.53%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy TrEMBL
Match: A0A5A7SU33 (Serine/threonine-protein phosphatase 7 long form-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold400G00810 PE=4 SV=1) HSP 1 Score: 493.4 bits (1269), Expect = 7.8e-136 Identity = 240/330 (72.73%), Postives = 270/330 (81.82%), Query Frame = 0
BLAST of PI0004883 vs. ExPASy TrEMBL
Match: A0A5A7UKC7 (Serine/threonine-protein phosphatase 7 long form-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold222G001140 PE=4 SV=1) HSP 1 Score: 479.6 bits (1233), Expect = 1.2e-131 Identity = 238/334 (71.26%), Postives = 267/334 (79.94%), Query Frame = 0
BLAST of PI0004883 vs. NCBI nr
Match: KAA0067080.1 (mediator of RNA polymerase II transcription subunit 12-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 538.5 bits (1386), Expect = 4.4e-149 Identity = 258/334 (77.25%), Postives = 290/334 (86.83%), Query Frame = 0
BLAST of PI0004883 vs. NCBI nr
Match: KAA0036767.1 (serine/threonine-protein phosphatase 7 long form-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 534.6 bits (1376), Expect = 6.3e-148 Identity = 255/334 (76.35%), Postives = 289/334 (86.53%), Query Frame = 0
BLAST of PI0004883 vs. NCBI nr
Match: TYJ95836.1 (serine/threonine-protein phosphatase 7 long form-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 534.6 bits (1376), Expect = 6.3e-148 Identity = 255/334 (76.35%), Postives = 289/334 (86.53%), Query Frame = 0
BLAST of PI0004883 vs. NCBI nr
Match: KAA0034013.1 (serine/threonine-protein phosphatase 7 long form-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 493.4 bits (1269), Expect = 1.6e-135 Identity = 240/330 (72.73%), Postives = 270/330 (81.82%), Query Frame = 0
BLAST of PI0004883 vs. NCBI nr
Match: KAA0055624.1 (serine/threonine-protein phosphatase 7 long form-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 479.6 bits (1233), Expect = 2.4e-131 Identity = 238/334 (71.26%), Postives = 267/334 (79.94%), Query Frame = 0
BLAST of PI0004883 vs. TAIR 10
Match: AT1G48120.1 (hydrolases;protein serine/threonine phosphatases ) HSP 1 Score: 122.9 bits (307), Expect = 5.3e-28 Identity = 59/146 (40.41%), Postives = 82/146 (56.16%), Query Frame = 0
BLAST of PI0004883 vs. TAIR 10
Match: AT2G25010.1 (Aminotransferase-like, plant mobile domain family protein ) HSP 1 Score: 63.5 bits (153), Expect = 3.8e-10 Identity = 39/137 (28.47%), Postives = 60/137 (43.80%), Query Frame = 0
BLAST of PI0004883 vs. TAIR 10
Match: AT1G17930.1 (Aminotransferase-like, plant mobile domain family protein ) HSP 1 Score: 58.2 bits (139), Expect = 1.6e-08 Identity = 39/138 (28.26%), Postives = 63/138 (45.65%), 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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