
CsaV3_7G000370 (gene) Cucumber (Chinese Long) v3
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.ATGGATTGGGCTTAGAGTGAAAGTGAACCTTTGGGCTCCAAATCTCAATTGTCACTGCGTTGGAGAGGAATGGATTTGGGTGGAAGCCGAATGAATGGTCGTTAGCTGTCTCTCCCGCCACAATCTTTCTCGCTCTTTCCTTCACTTCCCATGGCCTCCTTCTTCCTCTCTCTTCCTCCATTCATTCGCATTCCTTCTGCTTCATCTTCTCACCCCATGGTACTTCTTCTATCTCTCTTCTGCGTGCAGTTTATCAACGGTTCTGCTGCCTTTTTTTATCGCTTGATTCCTTTGCTAATTTGGTTGTCGAGACTGTAGTGTTGTTCTTTTAGTTTTCACAATGGTGAACGCATTTTACGTTAACTGGTTTCACACCTGTTGAATGTGCTGAGTACGCATTGATGAACTGAATTGTGTGTTTGTTTTATATATCCCTTCCGTATATTTTATTGAGATTTATGCTCTTGTTTTGATTCTTTTGTATTTTTGTATTTTTTTCATTTATTTTCCTGTTATTTTGCTTGCTGATATTATCGAGGCGGTCTTCTCTTCAAGTCTGTTAAGCAATCGTGAGTAAACTGGCATGTTAAACGTTGACGTGTTGAGTATAGTTAGATGAACTGAATCGAGCGTTTGTTTTATATCCTGGAAGAATATTGTGCATAAGTTTCTGCCCGAGTTTTTATTTTTATTTCGTTCTTGTTTGGTTGCCGAGATAATCGAGTGTTCTAGTTTTCATATCGTTTATACATTTTCGAGTTAACTGGTATGGAGACCGTTGGATGTGCTGTGTATGCGTAGGTGACCTGAATTGTGTATGTTTTAATATCATATGGTAATTTCTTTTTTCATCAAGGATTTTGCACCACCCCCTAATTGAGATTACAGTTGTACGCAAAATTATGGTTCTCTTTTAGATGGTTAACTTTTTATAATCTTTATATTCCCTCCGTGCATATGTGTTGACAGATAATTCAATTAGTAATTATGGGCGTGGTTTATTTATTTGACACGAAGTGTTATGTTTTTCCTCTCTTCCTCTCTCCTTTCACTTAGATGTCAGAGATTCAGAAATGGAACGTTGGAGTTTTCAAGACATGGAATCTCAAAGCATTTCCCTTAAGTCCAGTTAACTCCAGGAGGAGGTAACAAGCCTGCAGCCACAGCTGCAACTGAGATTGAATCATGTTTGCTAGTATTCTTTAATTTGTAGAATTGATTGATCGTTCTTTCAACAAGTTTTTCTAATTTGTCACCAAAAGCGACTTCACTTTCTTTATCCTCCTCCCTTGATCCTTCGCATTTATTTGCACTTTTTATCTTCATTTGTCTTATTAATCCTATTAACCTTCTGTCTTTCTCCATGATGGAAATGGTATTCTCAGATTAGAAGTTGTGAGATAGATAAAAAGGCCATAGGTTTATCCATATTATATAGCTAAACTACTACAATGGAAGCAATCACATCGATGTTCCCTGATATTATTTTCTTTCTTTCATTTCTTTCCAGCTACGATTGCCAAAAAAATTAGACAAACAAATGAGTGCTTTCCTTTTTTTTGGACTAAACAATGAAGGAGCAAACAAACTTGATCAAGTGGAAGAGTGATTCTCTCCTTATTGATCGAGCAACTGTATAGAGATGGAGGTTTTAAATGAATAAAAAGCTTTATGGAGAAGTGCTATCACTGGCAAGTACAAGGTGGAACCAAGAATTGGAATAAAGAACTGATATATGTAAAAGTGTCAGAGGCTCTTGGATACTTAAACTTTTTATTTAAGTTTGGTAAGAAACTTGGCATGTCTATAAGGCAACAGAGATTAAATTATAATTTAAGGAAGATGCTTATGAATAAAGTATAAGAAATCTCCTCCCTAGGTTGTGTGTAAAAACAAAGAGCTTAATGGAGAATTTTGAATCATGGATCTCATTTGTTTAAGTGCGAGTAGCTTTGATGTCTGTTGAGGTTTGTGGTTTAGACATGAGTAACTTGAGATTAGTAATAAAGCATTGTTGGTTAAATGGTTATGGTGTTCTTCCAGGAACTGTGTGTTTTGTGCTATAGGATCATAGTTAGTTCAGCCCTTTGAGTGGGTTTCAAGTGGTAGGTTGAAGGGTTGAAGTAAAAACCTATAGATTACTATATTGATGGGTGGGAGATGAGCCCTTTTGGGGATTGTTTCCACAAGTTTATCAATTTGAAGTTTTGAACTAGAAGAGATGTTGCATTTGTGGTCTGTTTTTGCTTTCATCTGATATGTGTACTCTCTCTCCTTGGGCTTTTGTTGCCCCTCACGAACTTAGAGTCTCTAGTGGTGCTTGGCCTTCTTTTTGTCATCTCTGATTGGATGGTCCATTCACAGTAAAGAGATTTTTGTGTTTTTGTTACTGATGAAGGATTCTTTTGTTGGTCAGTCCTCGATATTTTTTACTCCCCTTCTCTCTATCAGGTGGTCTCAATTTTCTTCTCTCTCTAAAGGGTAAAAATTCCTAAGAAAGTGTAGTTTTTTGTCTGGTAAGTTTTGCATGGGAGAGTGAGCACCCAAGACCATATCCAACAAAATTAACATTCTTCTTTGTTGTTGCGGCCTCTACTAATGAAATGTTGGTTTGTTATCAGGAGAAAATAAATTATAAACTTCGTCCTTTGTAGTAACTTGACCAATATTAATATCGAGGCAGTAAGTATGAAGTTTTTTTTCCTTGAAGGTTCTTTAGAATGCCAAAAAAGTAGGGAGCTCTTAGTTGTACACTGTGGAAAAATTGGTTAGCATTGGATGAGTGAATGTAAACATTCAAAGAAGTTCTGGATATTTATTTTCCCAATGTGATTTCTCAATATTTTGAGGACACCTCATGTTTTGTTTCGCTGCTTTAACGTTTGAGTTGTAAGGTTGATAGACTTTCCTGTTATTAATAATATCACGTAAAAGAAAATGTATGAAACGAACTGTTTATGTTAAAGTTAAAGTTTATCGATTTTCATTCTTGCCTCTAAGTAATGGAACCATTGGAAGTAAATTTGCACGTTTGGCTCTAATACAGGAGAACTTTAATATATGCAGTCAATCAAGATGCTGAGGACGCATTCAAGAAGACTGTAGAAGTAGATAGACTGATAGATACCCTGAGGAATGCAAGTTCAATAGAGGTTCGTGTAATTCTTTTCCACAAATTGCACCATGTTTATATTGCACTATCTATTATAATTTGTTGACCCTTTTGTATGGATTTCCATGTGCAAGTTGCAATCGGAATATTGTATTGGTAATATTTTGGAAGATTATGCTTTTCTTTGGTCATTAGCCTGCTCTGATAATATGGTTGAAATCTTGGCATCTCTTTTGGTGTCATCTGTTTTATGGTAGAATTGAAACTGTTTGGTTAGCCATATTATGTGTTTTTTCTTCTAGACACTGTGTGGCGAACTAAGCTCCCTTTTTTTTGTAGTTTTATGGATTTGGTTCTATCTACGGGGTTGTATTGGTGCAAAACTAAGCTCCCTTTTTTAATCTTTTTTATATAGTTTTCAATTGGAAATCCTTTTTGTAATCACCTATTAGTGTTTGGGGTCCCTTCTTTCAAACTTATTCCATTTTGGCTATCTAGTTTATTTCCTCAAGATTTAACAGTAGTTATTTTAATCCTTACTATCATTCTACTATTTAATCCTCGTTCACCTAGTACTTGCCTCAACCAACTAATGTGGTTCCCACACGTGCTCATCTTAGAATTTTAATAGACATAGGCAAAGATTTGTTATCCATTTGAACAATTGACGTGAAGTAACAACTTGAACCAAAATAGTTATTTTTAACTCTGGAATAAAATAAACTTTTAAAAGTGTATGAACCAAATGAAACAAACATAAAGTAAATAGTAAATACCAAACAGAAAATTTGAAAGTGTAGGGACCAAAAATGGAATAACCTAAAAGCTTAGAGACCAAAATAGGATTTAAGCCAATTCTTAAATGAAATTGTTTGTTGATATGAGGCATTCTAATTAATGGTGTCTTTCACTTTAAAGGTCAAAATTGTTTTCAACTTTCTCCCTTATTTCATTTATCGATGAAATGCTTTTTATATATATAAAAAAGTAGATTTTAAAGTTTCACCGTTTCTTTTCCACTGTACAAGGATTTAATACTAGCTATATACTCTGTTCATGTATGTGTAAACAGCTTCAGAAACTTGTCCTTCAAAATGTCCTAGCTTTCAATGAGAATTTCTGGATTCGACTAGCAGCAAGAACAGATACCTGCAAATCAGAGGACGATAAAGCATGGTTTCAGTTTTAACTTGATTTTTTTTCATCTTAGCATTAGACATTGTTTTCTTGTCTGAACTCTTGTTCATGCTTTTATAAGCACTCTTAGGTTCATACTATATTTTCTTTTTCAGAAAGATTACGAAGAATTGGCTGCCTCAGTAATGAGTATAGTGGATCACCTTGTCCATAAAACTAAGGTATATAGAATATATATTTTTGGGTTAAAATACTACTGTGGTAGTCCATGTACTTTCAATAGCGATAAATTTAGTGTCCAATGCTAGTTTATCATTCATTTTTTAGTAAGCATTTTGTTATCTATTAGCATTTTTACGATAAATTTTAAAAACATATTCATATATTGTATTTTCTTTTCATGAAAATTATTGTTGTTATTTAACCAAATCCAGTAAAAGATAAATTTGAAGGACTTCTTAAGATTTATGGAAAGTATGGAGACTAAAATTGGATATTTGAATTTTAAAGACTAAAATGTGACACTTTCAAGTATAGGGACTAAAATTGATATTGATAATCATGTAAAACAAAAGATACTTTTGCCATTTTCACCAAGCTCAAACTTCCTTCAAGCACACATTGGAATGAGATGTAAAAACTGATCGGTAGCATACTCTATCTAACGGGTGATTTTCACACCTACTATAAATCCCATACCACCACCATAAACTGAAAATCCACAGTTCCTACTGAAGTACTGTCCCTCTCTCTCTCTCTCTCTCTCATACACACCCACACACACTGACAGACACATTGATGAATAGTATTAGGTTGCTCGAGTCATGTTGTTTATTATTTTCTTGTAATGTAAATTGTACAGGAAAAAATAGAATCATCTACTGATATTCTTAAGGAGATTCTAAAACCTGTAGTTGACAATGTGGAAGAGATAGCTTGGCCACCCAGGGATCCTGGGGCACTGAAGCTAATGGAAAAGGTATATCTTATATTTTGCATGCCGTGTCCTTGTATTGTGACCTCGATTAAACTTGTATATACTTGTTAAGTAAGGAAGGTCCAATTTTGGAGTCCCTAACCTGCTTTTCTCTGTAAATAACCTAGGACGTTGGCATGTATCTTGGGAATTGGGATTGTTTGCTACCATTCTGTCTGATTTGAGTCAGAATAAACAATGCTTCTAATATTTACTTTTAGGATTCTTTTCAGTTTCTTCCTCTTGAGATTTAGCTGTCGTTAAGTTAGCTGTTAAATCATGTCCTTATGGAATATTATTTAGTCTTGATTGTTGAATGGAATTAGAAAATAAGAGGGGGAAAGAGGCCCCGGATCAAAGGAGTTACAAAAGACATCTCCAGTTGGCCAAGAGAGAATAAAAACTATAAGAATTGAAATGGTTAGACAATTTACACCAAGAAATAGCAATATTGAACACATGGTCTAAGATAACGTCAAAATGTTGGCCTTTGTTGTTGAAGAGACGGTTGATTTATTCAAACCAAATTGGCCACAAAAAAGCTCTAACAAGCTGCTTCTAGAGAAGACCCTTTCTATGAAATTCTCTTATCTAAAAAAATTAGTCTTGATTGTTATGAGATTTAGTTTCATCAAGCTTTCTTAGAAGGTATTTGATGATTAGGAAATAATCCATCGGGAGCAAGAAGGGCAATTAGATGAAGGCTTTCTCGCAGAGGTTAGTGCTCAACTACGGCAGGTAAGTTTTGTACGATCTTCTTATTTTCATCCTCATGAAAATTATAGATCAAGACTAAACCTGCATAGCTTAATTGATTAAGGCATATAATATTAATCAAGAGGTCAAAGGTCTAAATCCCCACCCCCATATCATTGAACTCAAGAAAGTATACTCTGGTACTAATTTATTTATTCCATTTGAGATTTGCAACCATCATACATGCACAAGAACATTGGTTTAATTGCTTCTATCTAAAAAGTTTAATAAGATGTATAGATGAGATTGCATCCTATGTCTGTTTGCTTCTATTGCTGCTCATTAGTCCATGCGAAAGACTAGTGATAGCCGCATGCAACTAGTGATGGAGTTCAATGGTGCCTAGAACAGCTAATCTTGTTTAATTGGTACAGGCCAAAGAAGATGGAGACAAGCCAGGGTTAGAGGCTATGTTACAAAAGGTTTTGCAACTCTATGCATCCAGAGTTCTTTCTAAGAGAAGTTATGCAAAGAAAGGTAACAATTTTGCAACTGTTAACCTATTGTTCAGTATGAACGAGAATGTTTAGCTTAGTCGCCTATAATGTGGGAAGAAATACTTCAGAAAAGAAAACAGTAGAATTTATTGAAGGGTAATTCACTGTACCAAATTTCAGCCGTCTGGGTGTGTAAAAGAAACCCATGGATTCAACCAACCGGTTGGTGGCTACAACCTTCTAGGTTAAAAACCTCTCACTAAAATACTTGTAAATGTCCCAGAGGTTTAATGTCCTAAGATCATGTACTAATAATTTAATTTAAAACTCAGTGAATATTGATCCTTGTGAGTGCTAAGTACCACTGCTAGTAAATAGTCTACCTGCATTATTTATATATTTTGCTTTGGTATTGAAATAATCCTATATCTATTCGCAGGAGAGGAAGTCTTGAAAGCTGAACTGTTTTTAGAAACCATAATCAAAGGTAAGTGGCTTATTTCACCTCGTCTGTATAGTTTTTCTCCCATTCACCTTTCAGAAATATATTCCAACCCTCAGATTCATGCATAACGAATATTGAACGTTATTCATAAAGAAAAAAAGCTAATATGAACTCTATGTTCCAACATGTCATCTTGCTGTTTGGTATATATTTGATTCTATCAATTATTCTTAGACTCAACTTGCTGGTAGGAAATTTAAACCTCCAACCTTCCATCATCTCTAGTAAACCCGCCTAATAGAAATGTGTAGGACTCCTAGTTAGAGATATGTTAGGATAATTAGTTGTTATTAGAAGAGGCATATTAGTTTCCTTGAAACTCAAGGGCATAGTTGTACAACCTATAGAACATATCCTGTTCAAGTTAATATCGTATAAGGAGCATATTAATAAATAGGTAGTAAGTTTGTTGGAGATTTTAGTTATAAATAGAGGGAGTGGGGCCGAGAGGAGAGGGTGAAGAATTTTGTGGGATTTTTGAATTTGGGAGAGAGTAGCCCTCTCGAAAAGCTAGGTTATCTTGTTACTTTTATCGTGTTAGTAAAACATATTTCCATATATTTCTGTATATGAGTGTTCTTGAGTTTTTCTCGTTAGGAGGTATCCTAACAAAATGATTGCTTGCAGCTCCTGAAGAAGAGTGGAACAAGCTCTTGATTAATGGATTAACCATCGGAAAAGGCGAGGTCTTACCAAATGAACTAGATAGTGTCATTAAGAAACGAATTGAGCGGACTCTAATACGAACAGTAAGACAGATACCAGTCTTCTGTTATGTGTTGTTTCTTCGTCACATTTCCTCTATTTCAACAATCTTATTCATGTTTTCACACCATTCATATTTTTTTCTGTCCATCTTTCAGGAGGGAGGATCTTACCAACAGCGCGTGCTCACCGAGTATCTAAAAGGAATCCAATCAAGATCAGAGGAGATAACCCAGGTACTCCAAGGCAAGACGCAGTAGCTCGGGTTGGGTGCTGTTGTAATGAATTGACGAAAAGTTTACTGGCAACGTGGAAGCAAATATGAGGAGTTTCCAACTATAACACTCTGTGATTGAACAGGAAAAATTATTCATGCCATGTTAGCAGTACTCCAAAGGTACGAGCAGTAATATAGTGCATCATATGTTTTACTCATTCTCATTTAGTCTATCAATTTTTTATTCTTGTTGTAATTAAATGTTCTATGGATGATATTCAAAACTAACTCTACGACAGTTTTTCCGTACTATTAATTTAGAGATCAACCTTGCCCTCTCCTACTGCCAATATGCATATTAGGTTTCTCTTACATACTTTTGTAGAATAAATATAATTATTTAACATTCATGACTTTTGGCTATTTATTATTTTATATCCATAATTATGTATTTTAAATGCTATTAATTATTTTATATCTATAATTATGTATCTTAAATTTGATGATGAATTGTTCATCCGAGCATAACTCAATTGACTAAGACAATCCTCGACTTAAAGGTCATCCATCATTTAGGTTCAAGCTTCAAAGCCATTCAGAAAGCTCATTTGCCTATTTTTGGAATGCGTTTGAATCCATTTGAGAATTTTTTTTGTCAATTAAATCGATCTTTTCTTACTAGATTACATTATTCTCACACCAAAATTGTCAATTATTGTCCTTTTCCCCCCATAACTATGACAATTCCCAACCCTGGCTTAACTAGATTTATTCTCTAATAATTGGGATGAACTGACTTTATTTCATATATTGGGCCTTAGAATCCTAAAATTCTTCAAACTAGAGAACACCACCTACTTCCAACTGCCCTACTTTTCCTACGTTTAAAAAATTATTATCCACTAGTTTGGAAACTTATGATCCTTTTAATGTTCAAGAATTTTTCAGGAATTGAGTTAATTGCTGAGATGAAATAGTAATGTCGTAGTTAATGGTAGTTTATAGAAGTTGAAAAGTTTAGAATTATTATAATTGAAATCTAATTACGAGACGTCAAGTTTAAAGTTGGATGTCACGTCTCGATTGGTTAAGCATAAAATTGAAAATTCAAGCATCTATCTATAAATTTTTGTAAATTTAGAAATCTATTGAATACTTTCTTTTTTACATGAAACAAGCAACTATTAAGCATCATTTTCCTAAAACTCCATGTCCGACTCAAGAAAGCCAAGAGGAAGATGGTAGAGACAAGCAATTAAGTTACGAGCAATCCCCTATTACAACTTCTAGATACATACGATCTTTGTTCTAGCTAATAAGAAAAGTGCTTTGACATAGATAACTCCACGAATAGAATGGAAGTAAAAGTCACTGAATAAAATTTCCTCACAACCACTTTGTCTTTAATCCCACCTCGTCACTGTCGTACAATTTTAAATGACTAAACATATAAGAAAAAACTTGGGTGCTCTAATTCAGTCCAATGACATTTTTTTTTCCAACTACTATTTTTGTGTTGTAGAAAAGTGGAGAGCACAAGAGACAGATGCAACATACTATACTCAATGGGTGATGCTCCTTTAGTCAC ATGGCCTCCTTCTTCCTCTCTCTTCCTCCATTCATTCGCATTCCTTCTGCTTCATCTTCTCACCCCATGATGTCAGAGATTCAGAAATGGAACGTTGGAGTTTTCAAGACATGGAATCTCAAAGCATTTCCCTTAAGTCCAGTTAACTCCAGGAGGAGGAGAACTTTAATATATGCAGTCAATCAAGATGCTGAGGACGCATTCAAGAAGACTGTAGAAGTAGATAGACTGATAGATACCCTGAGGAATGCAAGTTCAATAGAGCTTCAGAAACTTGTCCTTCAAAATGTCCTAGCTTTCAATGAGAATTTCTGGATTCGACTAGCAGCAAGAACAGATACCTGCAAATCAGAGGACGATAAAAAAGATTACGAAGAATTGGCTGCCTCAGTAATGAGTATAGTGGATCACCTTGTCCATAAAACTAAGGAAAAAATAGAATCATCTACTGATATTCTTAAGGAGATTCTAAAACCTGTAGTTGACAATGTGGAAGAGATAGCTTGGCCACCCAGGGATCCTGGGGCACTGAAGCTAATGGAAAAGGAAATAATCCATCGGGAGCAAGAAGGGCAATTAGATGAAGGCTTTCTCGCAGAGGTTAGTGCTCAACTACGGCAGGCCAAAGAAGATGGAGACAAGCCAGGGTTAGAGGCTATGTTACAAAAGGTTTTGCAACTCTATGCATCCAGAGTTCTTTCTAAGAGAAGTTATGCAAAGAAAGGAGAGGAAGTCTTGAAAGCTGAACTGTTTTTAGAAACCATAATCAAAGCTCCTGAAGAAGAGTGGAACAAGCTCTTGATTAATGGATTAACCATCGGAAAAGGCGAGGTCTTACCAAATGAACTAGATAGTGTCATTAAGAAACGAATTGAGCGGACTCTAATACGAACAGAGGGAGGATCTTACCAACAGCGCGTGCTCACCGAGTATCTAAAAGGAATCCAATCAAGATCAGAGGAGATAACCCAGGTACTCCAAGGCAAGACGCAGTAG ATGGCCTCCTTCTTCCTCTCTCTTCCTCCATTCATTCGCATTCCTTCTGCTTCATCTTCTCACCCCATGATGTCAGAGATTCAGAAATGGAACGTTGGAGTTTTCAAGACATGGAATCTCAAAGCATTTCCCTTAAGTCCAGTTAACTCCAGGAGGAGGAGAACTTTAATATATGCAGTCAATCAAGATGCTGAGGACGCATTCAAGAAGACTGTAGAAGTAGATAGACTGATAGATACCCTGAGGAATGCAAGTTCAATAGAGCTTCAGAAACTTGTCCTTCAAAATGTCCTAGCTTTCAATGAGAATTTCTGGATTCGACTAGCAGCAAGAACAGATACCTGCAAATCAGAGGACGATAAAAAAGATTACGAAGAATTGGCTGCCTCAGTAATGAGTATAGTGGATCACCTTGTCCATAAAACTAAGGAAAAAATAGAATCATCTACTGATATTCTTAAGGAGATTCTAAAACCTGTAGTTGACAATGTGGAAGAGATAGCTTGGCCACCCAGGGATCCTGGGGCACTGAAGCTAATGGAAAAGGAAATAATCCATCGGGAGCAAGAAGGGCAATTAGATGAAGGCTTTCTCGCAGAGGTTAGTGCTCAACTACGGCAGGCCAAAGAAGATGGAGACAAGCCAGGGTTAGAGGCTATGTTACAAAAGGTTTTGCAACTCTATGCATCCAGAGTTCTTTCTAAGAGAAGTTATGCAAAGAAAGGAGAGGAAGTCTTGAAAGCTGAACTGTTTTTAGAAACCATAATCAAAGCTCCTGAAGAAGAGTGGAACAAGCTCTTGATTAATGGATTAACCATCGGAAAAGGCGAGGTCTTACCAAATGAACTAGATAGTGTCATTAAGAAACGAATTGAGCGGACTCTAATACGAACAGAGGGAGGATCTTACCAACAGCGCGTGCTCACCGAGTATCTAAAAGGAATCCAATCAAGATCAGAGGAGATAACCCAGGTACTCCAAGGCAAGACGCAGTAG MASFFLSLPPFIRIPSASSSHPMMSEIQKWNVGVFKTWNLKAFPLSPVNSRRRRTLIYAVNQDAEDAFKKTVEVDRLIDTLRNASSIELQKLVLQNVLAFNENFWIRLAARTDTCKSEDDKKDYEELAASVMSIVDHLVHKTKEKIESSTDILKEILKPVVDNVEEIAWPPRDPGALKLMEKEIIHREQEGQLDEGFLAEVSAQLRQAKEDGDKPGLEAMLQKVLQLYASRVLSKRSYAKKGEEVLKAELFLETIIKAPEEEWNKLLINGLTIGKGEVLPNELDSVIKKRIERTLIRTEGGSYQQRVLTEYLKGIQSRSEEITQVLQGKTQ* Homology
BLAST of CsaV3_7G000370 vs. NCBI nr
Match: XP_011658554.1 (uncharacterized protein LOC101218799 isoform X1 [Cucumis sativus] >KGN43175.1 hypothetical protein Csa_020227 [Cucumis sativus]) HSP 1 Score: 639.0 bits (1647), Expect = 2.2e-179 Identity = 331/331 (100.00%), Postives = 331/331 (100.00%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. NCBI nr
Match: XP_011658555.1 (uncharacterized protein LOC101218799 isoform X2 [Cucumis sativus]) HSP 1 Score: 620.5 bits (1599), Expect = 8.1e-174 Identity = 324/331 (97.89%), Postives = 324/331 (97.89%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. NCBI nr
Match: XP_008444898.1 (PREDICTED: uncharacterized protein LOC103488108 isoform X1 [Cucumis melo]) HSP 1 Score: 607.8 bits (1566), Expect = 5.5e-170 Identity = 313/331 (94.56%), Postives = 323/331 (97.58%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. NCBI nr
Match: XP_008448053.1 (PREDICTED: uncharacterized protein LOC103490346 isoform X2 [Cucumis melo]) HSP 1 Score: 599.0 bits (1543), Expect = 2.5e-167 Identity = 313/331 (94.56%), Postives = 319/331 (96.37%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. NCBI nr
Match: XP_038886850.1 (uncharacterized protein LOC120077071 [Benincasa hispida]) HSP 1 Score: 597.0 bits (1538), Expect = 9.6e-167 Identity = 309/331 (93.35%), Postives = 320/331 (96.68%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. ExPASy TrEMBL
Match: A0A0A0K0F4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G006250 PE=4 SV=1) HSP 1 Score: 639.0 bits (1647), Expect = 1.1e-179 Identity = 331/331 (100.00%), Postives = 331/331 (100.00%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. ExPASy TrEMBL
Match: A0A1S3BBF8 (uncharacterized protein LOC103488108 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103488108 PE=4 SV=1) HSP 1 Score: 607.8 bits (1566), Expect = 2.6e-170 Identity = 313/331 (94.56%), Postives = 323/331 (97.58%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. ExPASy TrEMBL
Match: A0A1S3BI91 (uncharacterized protein LOC103490346 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103490346 PE=4 SV=1) HSP 1 Score: 599.0 bits (1543), Expect = 1.2e-167 Identity = 313/331 (94.56%), Postives = 319/331 (96.37%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. ExPASy TrEMBL
Match: A0A6J1C3D0 (uncharacterized protein LOC111007991 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111007991 PE=4 SV=1) HSP 1 Score: 570.5 bits (1469), Expect = 4.7e-159 Identity = 293/331 (88.52%), Postives = 310/331 (93.66%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. ExPASy TrEMBL
Match: A0A5A7UKL2 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold318G001190 PE=4 SV=1) HSP 1 Score: 567.4 bits (1461), Expect = 4.0e-158 Identity = 295/321 (91.90%), Postives = 305/321 (95.02%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. TAIR 10
Match: AT2G21385.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast, chloroplast envelope; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 49 Blast hits to 49 proteins in 20 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 44; Viruses - 0; Other Eukaryotes - 5 (source: NCBI BLink). ) HSP 1 Score: 419.9 bits (1078), Expect = 2.0e-117 Identity = 211/291 (72.51%), Postives = 257/291 (88.32%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. TAIR 10
Match: AT2G21385.3 (unknown protein. ) HSP 1 Score: 414.1 bits (1063), Expect = 1.1e-115 Identity = 211/295 (71.53%), Postives = 257/295 (87.12%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. TAIR 10
Match: AT2G21385.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; Has 49 Blast hits to 49 proteins in 20 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 44; Viruses - 0; Other Eukaryotes - 5 (source: NCBI BLink). ) HSP 1 Score: 379.0 bits (972), Expect = 3.8e-105 Identity = 187/252 (74.21%), Postives = 230/252 (91.27%), Query Frame = 0
BLAST of CsaV3_7G000370 vs. TAIR 10
Match: AT2G21385.4 (unknown protein. ) HSP 1 Score: 345.1 bits (884), Expect = 6.2e-95 Identity = 191/334 (57.19%), Postives = 242/334 (72.46%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Chinese Long) v3
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
|