CsGy1G025310 (gene) Cucumber (Gy14) v2.1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ACGAAACAATTTTTTTTACTTAAAAAGATGTTTAAAAATAATAATAAAGAAGCAGTTGCCTGTAAAAAAAATGATTGAGAAATTTTCTTTGGTCCCTACGGATGGAAACAATTGAAAAAGAAAAAGAAAATTATTTTATAAATTTTAAAATTCAAAACTAACAAAAATGTAATTTTGTTTTCCCTTAAATAAAATAGGAATAAAAAAAAGCCTAAAACCCTCCTTCTACCCTGATCGAATCGTCGCTTCCATTTCTGCTCTTTCACAGTCGACATGAACTCAGTCGCAATGAGATTCCTCAACCGTTTCAGAACTCCTTCTTCAAATTTTCCCACATCTTCATTCGGTATCTCTCTTTCTCTCTGTCTCATTTTGTTATTTAAACACTATCTTCTTTCTATTATTACGAGTTGCTTTCGGTTCAGAGCTGAAGGAATTTCTCAAAGAAAATTTGTTTATGTTTTTTTTTTTTTTTTTATTTATTTGAGTGGCCCAACCAAGAATTTGGCTGTTTTGTGTATTGGGTTTGTTTATCTCAGTGCAATATGTGTGCTGGAGTGATGGCTTGGATAATTATTCAACGTTTGCTTGTAGTGGCAAGTGCGCAAACAAACTCGAAGTTTTGGTTATCGACCGGTGCTTCTGAAGGTGACAACGATGTTGAGAAGAACGATGGAGAAGAAGATGATTATGATACGTTTTCTAATGAATTACAGCCCCAGGGTGTTGATCCCACTCGAGGTTGGGGATATCGAGGCGTACATAAGGTATCTCATCCTTGTCTACAGATGTGTTTCATTTTTAAAAGTTGGGATTTGGAATCTTGTAGGCTGGGAATTTTACCCAATAAGTGATCTTTCTGTTCTTGTGATGACACTTTTTGTTTTTTTGGTGATAGTTTTATTTTTTTCAAATTCACAAACTATCCAAAATAAACGAAACAGCTTCCTTTTTTTCTCTTTTTGTTCTTAGAAAATGTGCCTAGTAACGATCTTACTTGGGTAAGATCTGTTCTATAGGCTGTACAGGGGTGTTTAGTTCTAAGAAAATGTGCCTGGTGACTTGCCTTCTTTTGTTGATAAGTTTTGAAGGAAATCTGGCCTCTTGCGTACTCTGCGTATTTTAGAAAGAATAAGAAGTGAGTAAGTTTTGTGAGCAAGGGCAAGAACAGAAAACTTAGGTGGCTAGAGCTTGAACTTTGAAGTCTGATGTAAGAGAGTAGGAATAACGAATATATGTGTTATATATTGTAAAATTCCAGGTGAGCAAGTAGGACGAGTAGTTTCTTAGCTAGGGAAAGTCTTGTAATTGAGTCTTAAAAGGAATTATAGGCAACAAGCAGAGTGAGTTTAGGAGAAACTCACCTCTGGAACTTCAATTGTTCTGGAATCTGTCCCCGATAGTGAAAGAGTTATTCTCACATGATAATTGGATTCATAATCTGCTTTTGTGGAATATAACCTTCTCTGTTTGTGATTCAAAAAAGATAAACAAAATAAACAAAAACACAATTGAATATGTCAGCCAAGAGTTTCCTCTCTTTGGCAATTGATCAAACATTTTCCGTAGAGGATATATCGAAGTCTTTGGTATATATCCCATCCCAACTAAGCAAAAGAAGTTATTTTGATTCAGGTGATAAGATTATTGGAAAACGAGGGAAAAACAAGGGAAATCATTTCTTTTCATATTTGTGCAGGGAAAGAAGGGGTCAGTAATCCCCAATATGATATCTTATTCTGCTTTACAATGTGATCAAATGTTCACAGGCAATAATTTGTGGAAGGGTTGGGCAAGCCCCTGTGCAGAAGATCTTGAGAAATGGGCGGACGATAACAATCTTTACCGTTGGAACAGGAGGGATGTATGACCAACGAATTTTTGATGGAAGAGATCTGCCGAAGCCTGCTCAGTGGCATCGTATTGCTGTGCATAATGAACTACTTGGTGCTTATGCAGTTCAAAAACTTTGTAGAAAGTATGATTTGAACCTCTCATAATAACTGATTTGACTGTATAATTTCACTGACTCTCTGTGGACTTTCAGCGCGTCGGTTTATGTTGAGGGTGACATTGAGACCAGAGTCTACAATGACAGCATCAATGGTGAAGTGAAAAATATTCCAGAAATATGTGTTCGACGTGATGGTATTGCAACACATACTATTATCTTTTTATGTCCTTTTCAATTTTATTTGGAACTAGTTGAACACTTAATTAATATGAAGTTGTCATTTGTTAACTGCTCTGCTTTCTACATCTACTTTATTATTTCTTAAAATGTCATTTTAAGCAGATATTAAAGAGTATTCTTTGATTTTCATAATCATAAGGTTAAATTATCATATTAATTCCTGTCATTTGTACTTAGTCTTTCCTTTTATTTAAAAACGAAGTCCATCTTTTTAATAAAGTTTAGTTTTATTCTTCAATAAAGAGAGAAAGAGAGATGAAATTTTGACCACCATTTCACAATGATGGGGTCACCAGTTGATGCTAGCTGAGGAAAACACTGATCTTCCTCTGCCTAATGAAGAGGCGATTGGAATTAAGAGTGCTACGTAGTTGGAACCAACAACCTCTCTATAAAATCCTTTTCCGTTGAGTAAGGAAATGGTTTCGGCACCTCTTGAGTATAACTTGTGCATTTGGGCGATGCCTAGGAAAGGGGAAGCCGCAGACAAAGGGTAGGGGCCTCCTCGAATAATAAAAAGCTCACTAGAGAAATTAAAGCTTTGCTTGGTAGTTGGGAAAGGGAAGCTCAAGCAACCAAAGATAGTACTTCCCAGGGCTTCGATGGTGGTCCATGTTAATCTTATCTTGGAATGTTAGGGGTCTTAATTCTCGCCTCAAAAGAGTGGTTGTGAAAGATTTGTTAGTGAAGTTTAATTTGGATGTTGTTATTATCCAGGAATCTAAGGTTAGTGTTGTTGACAATAATTTGGTAAAGTCTGTTTGGAGTAGCAGTCATATTAGGTGGGCTGCTTGAGAGGCTCTTCAGGTGGTATTCTTCTAATGTGGAAAGAGGATTCGATCATGGTGATTGACTCTATACAAGGTCAGTTCACTATCTCTATTCTTTGAAAAACTAATGTTGGCTTTTTTGGATGGATCACATGCGTGTACGGTCCCTCGTCTTATAGGCATGGAGACCAGTTTTGGCGGGAGCTTTCTGGTTTATATGGCCTCTCTAGTGAGTGTTGGTGCATTGGGGGAGACTCCAATGTGGTGAGATGGGTTAATGAGAAGAACTTGGACATTCGTTCTACTACAAGTATGAACACTTTTAACGGCTTGATTGAGGAGATGGATATAGTTGATATTCTCCTCTGAAATGGTCTGTTCTTGTGGTCCAGATTAGGGCTCAGACTGGCTGTGTCAAAACTCAACAAATTTTTTCTTTCCAAGCCTTGGGTTGATTTCTTTAGAGAAGTTAGGGTGGATAGACTTCCGCGTACCACCTGTTATCACTTCCCAATTCTCCTAAAGTTAGGGATGCAGTCCCGGGGTCCTACTCCCTTCAGATTTGAAAATGTTTGGTTGGATCGTCATCTTTCCCTCAAAAATATCATGGAGAAATTAAGAGGTTTGAAGGTTTTATTGAAGGACTGGAACAAGGAAACTTCTGGCAATATCTTCTTCAAAAAGCAAGCATTACTTGACAAGATAAACTCTTTAGATTTGCTTGAAGAGTCTGGTCCCTTCGATGAAACTAATGCGGTGGAAATAGAAGAGTATAGAGGTGCCTTGCTTGATCTTATTGTTATGGAGCAAAGGATGTGGGTTCATAAATGTAAAATTCAATGGCTTCATGAGGGGAGAACTCAAGCTTCTTCCATAGGTGGGTTTCAGCCCGTACAAGTAAGAGTTTAATCTTGTCTATTGGGAACAATTCGGGTTAGGTCCTAGTCACGAACAATGCGGGTTAATGATGCTAGTAGTTTCACTACGAAGTCTACCTTTCTTAAATTATCCAAATGACCCTCCATCCATCACTGCACCGCTTGTTCGTTACATTTGGAAGGCTAAAATTCTAAAAAAGGTGAAGTTCTTCTAATGGTCGCTCGCCTATAGAAGTCTTTATTGAAAGTAGAGACAAACACACAAATTTACGTGCAAGTCCTAGTACAGGGAGAAAAACCACGGTACTGAAGATCTTTTATTTTCTAATAATTCATAAAGGTACAAAGGGGGAAAATTTATAGGCAACACGAGTCTAATTAAAAAAAATAAAAAATTAGGGTAAAGTAAATCTTAACTACCCATGGGCTTTCATTGTGACCTAAGTCCATTATTTCTATGATTCTTAACACTCGAGAGAAACTTTACAAAAAATTACAGTACATTACGCCTGGTCCCTCGATGTGCTTCCTTTGCTTCAAAGATGAGGAAACCTTGGACTACTTATTTTTGCATTGTGTCTTTACTAGAAAAGCTTGGAATACTCTGTTCAAAATCTTTAATATGGAGATTTGTCTTCTTAGTAAGATTGATAGTTGAATGCTTGAAGGGTTCAATAGCATAGGCTTTAGTCCGAAGGGTAACATTTTATGGAGACGTGTTACTCGTTCCCTCTTGTGGTGTATTTGGAAAGAGAGGAATAGTAGAATATTTGAAGACAACTATAATTCTTTTGATTTTTTTTGGATGGTCAACACAGCGTCTTGGTGGAGTACGAATTACATCGAACACTTTTGTAATTACAGTTTTTCTATGATTTTCAAGAATTGGAAGACCTTATTCTTTAGTTTTTATTTGGGAGGGCCCTCTTGCCCCTTGCCCTTAGGCTGTTCTCTTTTGTTCTTTAAATATGTTTGTTTCTTGTAAAAAAAAAAAGAGAATACTTTCCTTTTATTTTGTTTGATTTTTCAAAATGTCTCTAGTATAACAAAAAGTTGACAGTTACTTTACATGACACATTTTCCTTGGACATTAGCACATTTTCTTTGAATGTGAATCATGTGACAGAGAAGTGATGAGTTGTTGTCTAAAGATGGTATCAAGTAAGAAAAAAACTACCAGCATGTGGTAAACTCATAAGCATTTTGAAATACTGACCCAACGAATTGTAAAAAGAAAAAAAAGAGCCACAGAGACAGAAATGATAATTTATCCTCTAACCGTAATACGATATGTACAGAAAATTATTTACAACCAAGCACAGAATACTATTGTTACACGTTGGTTCAAATGTCTTCCGTAAAACATATGATTTGGGACTCCTTTTAACTGCCATGCTTCATTTTTGCAGGGACGCTTCGCCTTTTAAAACCAGGAGAAAGTGCCAGCAATATTTCTCTAGACGATTTAAGTGAGATTTCCTGTTAACATTTTGTTTATTTGATCACGAACCATGGTAACAATGAAGTGCATGAAAACTTTTTCATTCTCTCCCAATCTGAGGTGTTTTTTTTTTCTTTTTCCTTATGTTTTTGTGACTGACAGAAGAAGGGTTGTTTTCGAACAAGACATAACTATCAAGCTTTCCAAAAACCTCAATCAGTTGAAGTTTGTGTAGGGGCCAGAAAGAGATGCTGTTAATCGGCATTCAAAGATTGAGCCATGGTTGAGTACTGAACCACCAATCCCTTATAATCTCTTTCATGTAATTGTTTATTAACATTGTAGCATTCTTTTCTTCAAGGCTTTAAGCCACCTTTGTGTTGGATTGGTAAGGGATTTTATAGTTCACTAGAGCTGTCACTGCTTCATCCCGATTAAAGGCACCATAACTTGAAATCCACAGATTAGACAGAGTTCAATAGTCTTTCACAAGTTTGTTCAGTAGTCATTTCATTTTTATTTTTTTAAGTTTTTAAAGTCTTGTTAATATATATATTTTTTTAGTTTTCAAATATGACAAACAAATTAAATTTTTTTAATAACAAACCATACAAAAAAATTGGTGATTACAATTTAATTTTAGAAAACTAAGACCCAATAGCAATCATTTCTAAACTATTTTTTATTGTCTGAATCCCACAGCCTTTTGAAGAAAATAAACATGTGAATGGCAGCAAAAAGCTACTGAAAATTTCCTTTGGGGAAAATTGCAAATGTCATCTTGGATTGTAGAGAACTCATGTTTAGTGTTTTATTTTGGAAATAGCTCATTTTAAAAACTCTCAAATTTACTTTAAAACAGTTTTTATCAAAAGTGTTTAGCTGCAAATGTCATTTTTTTTTGTAAAACATTTATTTGTTTAATCAGACCAAACATATTCTTGAAGTAATGTCTATGGAAATTGAAGCAAATGATGAGGGTAAAGTAGAAACAGAATATGAAAGAATGCTAAGATGACAATTGAAACGGTCAAAACAAATCTACAAATTTACTCTAAAGAATTGAAGTTGTTAGCAATGAAACAGTCAGAAATTTTGTCTGATATCCAAAGTTTGTGTATCTTGTCAGTCAGTCAGTCCAACAGCTGATGAGCAAGAAAACCAAATGAAAAACCAAACTTTTTAGAAGTCTCCAAAACATCTTTTCTTCTACCAACTCTTTCTTTTATCTCAACCTCATTTTCTTACACACATCTGTAATAATCACCACAAGGGAAGGACAAAAAAAAAAAAAGGAAAAAGAGAAAAAAAAAAACAACCATGCTCACACTGCCAGATGAAGTAAAAAAAAAATTATATCAAGTTATCAACATATACTATGTTACGGGATAGATTACTAAACGGTTATTGTAGGTTTTATTGGCCTTTTTCCTTCCATGGCGTCTTTCTTTTTTCGACAAGTTGCACAGAGGAATGGACCTTCCCATGGCTTCGATGACGGTGAAAAGAAAGGTCCTGAGTTCATTGACAAATTTTCGTTTGGGGGTTGATCAGCTTGACAGACTGCACATTTGAAGATCCCTGAGTTTGGATCTGAGGGAAAATCTTTGCCTAGCCTGCATTTCCATTGAGAAAGGGAGAACGTTCAAGAACAAGTGATAGTCAACATTGTTGAGTCACTTTCAGATGTAAGTTACAATATTACTGCAGAATAGGGGCAGCTTTTCCATTACAATAATAAGTTCGGCAGATTTAGAAAGAAAAATCAATAATGAAAAAGAAAATCAAATGTGTCTGGTTAATTATAGTATGACATATCAACAATGAAGAACATGTGAAAAGTTGTGAAGAATAAACAGTCTTGGTCAAATTCCACGTGGGATAATAAAATAAACTTCTTTTGTGAGTTGGTTAATTCAAGTATGATGTATAACAAACAACGAGAATGATCCTAGTAAAACATCTTTCAGACACCATCCGATGCTTGAAGAACAAAAAGTAAACATTAATTCAAAGACTAGCCAAAAGAAAAGGCATCAATCATACCTTTCAGCAAGCATAGCAGAACCTTCTTCAAACAATTCCTCTACAACACCAACAGCTGAAAGTTTGTTAGCAGATTTACCCAAAGAGTTTGGATATTTCTTCCCAAAGAATGAGGTAAGCACATTTTGCTTCTTCCTTGGAGTTGATGGTATTAAAAAAGGTTGCTCAGATGGGATAATATCAACAACTAAGCAAGTTGTATCATCCTTCAACCCCCTTGACCGTAAAGCTTACGAAACAATTTTTTTTACTTAAAAAGATGTTTAAAAATAATAATAAAGAAGCAGTTGCCTGTAAAAAAAATGATTGAGAAATTTTCTTTGGTCCCTACGGATGGAAACAATTGAAAAAGAAAAAGAAAATTATTTTATAAATTTTAAAATTCAAAACTAACAAAAATGTAATTTTGTTTTCCCTTAAATAAAATAGGAATAAAAAAAAGCCTAAAACCCTCCTTCTACCCTGATCGAATCGTCGCTTCCATTTCTGCTCTTTCACAGTCGACATGAACTCAGTCGCAATGAGATTCCTCAACCGTTTCAGAACTCCTTCTTCAAATTTTCCCACATCTTCATTCGTGGCAAGTGCGCAAACAAACTCGAAGTTTTGGTTATCGACCGGTGCTTCTGAAGGTGACAACGATGTTGAGAAGAACGATGGAGAAGAAGATGATTATGATACGTTTTCTAATGAATTACAGCCCCAGGGTGTTGATCCCACTCGAGGTTGGGGATATCGAGGCGTACATAAGGCAATAATTTGTGGAAGGGTTGGGCAAGCCCCTGTGCAGAAGATCTTGAGAAATGGGCGGACGATAACAATCTTTACCGTTGGAACAGGAGGGATGTATGACCAACGAATTTTTGATGGAAGAGATCTGCCGAAGCCTGCTCAGTGGCATCGTATTGCTGTGCATAATGAACTACTTGGTGCTTATGCAGTTCAAAAACTTTGTAGAAACGCGTCGGTTTATGTTGAGGGTGACATTGAGACCAGAGTCTACAATGACAGCATCAATGGTGAAGTGAAAAATATTCCAGAAATATGTGTTCGACGTGATGGGACGCTTCGCCTTTTAAAACCAGGAGAAAGTGCCAGCAATATTTCTCTAGACGATTTAAAAGAAGGGTTGTTTTCGAACAAGACATAACTATCAAGCTTTCCAAAAACCTCAATCAGTTGAAGTTTGTGTAGGGGCCAGAAAGAGATGCTGTTAATCGGCATTCAAAGATTGAGCCATGGTTGAGTACTGAACCACCAATCCCTTATAATCTCTTTCATGTAATTGTTTATTAACATTGTAGCATTCTTTTCTTCAAGGCTTTAAGCCACCTTTGTGTTGGATTGGTAAGGGATTTTATAGTTCACTAGAGCTGTCACTGCTTCATCCCGATTAAAGGCACCATAACTTGAAATCCACAGATTAGACAGAGTTCAATAGTCTTTCACAAGTTTGTTCAGTAGTCATTTCATTTTTATTTTTTTAAGTTTTTAAAGTCTTGTTAATATATATATTTTTTTAGTTTTCAAATATGACAAACAAATTAAATTTTTTTAATAACAAACCATACAAAAAAATTGGTGATTACAATTTAATTTTAGAAAACTAAGACCCAATAGCAATCATTTCTAAACTATTTTTTATTGTCTGAATCCCACAGCCTTTTGAAGAAAATAAACATGTGAATGGCAGCAAAAAGCTACTGAAAATTTCCTTTGGGGAAAATTGCAAATGTCATCTTGGATTGTAGAGAACTCATGTTTAGTGTTTTATTTTGGAAATAGCTCATTTTAAAAACTCTCAAATTTACTTTAAAACAGTTTTTATCAAAAGTGTTTAGCTGCAAATGTCATTTTTTTTTGTAAAACATTTATTTGTTTAATCAGACCAAACATATTCTTGAAGTAATGTCTATGGAAATTGAAGCAAATGATGAGGGTAAAGTAGAAACAGAATATGAAAGAATGCTAAGATGACAATTGAAACGGTCAAAACAAATCTACAAATTTACTCTAAAGAATTGAAGTTGTTAGCAATGAAACAGTCAGAAATTTTGTCTGATATCCAAAGTTTGTGTATCTTGTCAGTCAGTCAGTCCAACAGCTGATGAGCAAGAAAACCAAATGAAAAACCAAACTTTTTAGAAGTCTCCAAAACATCTTTTCTTCTACCAACTCTTTCTTTTATCTCAACCTCATTTTCTTACACACATCTGTAATAATCACCACAAGGGAAGGACAAAAAAAAAAAAAGGAAAAAGAGAAAAAAAAAAACAACCATGCTCACACTGCCAGATGAAGTAAAAAAAAAATTATATCAAGTTATCAACATATACTATGTTACGGGATAGATTACTAAACGGTTATTGTAGGTTTTATTGGCCTTTTTCCTTCCATGGCGTCTTTCTTTTTTCGACAAGTTGCACAGAGGAATGGACCTTCCCATGGCTTCGATGACGGTGAAAAGAAAGGTCCTGAGTTCATTGACAAATTTTCGTTTGGGGGTTGATCAGCTTGACAGACTGCACATTTGAAGATCCCTGAGTTTGGATCTGAGGGAAAATCTTTGCCTAGCCTGCATTTCCATTGAGAAAGGGAGAACGTTCAAGAACAAGTGATAGTCAACATTGTTGAGTCACTTTCAGATGTAAGTTACAATATTACTGCAGAATAGGGGCAGCTTTTCCATTACAATAATAAGTTCGGCAGATTTAGAAAGAAAAATCAATAATGAAAAAGAAAATCAAATGTGTCTGGTTAATTATAGTATGACATATCAACAATGAAGAACATGTGAAAAGTTGTGAAGAATAAACAGTCTTGGTCAAATTCCACGTGGGATAATAAAATAAACTTCTTTTGTGAGTTGGTTAATTCAAGTATGATGTATAACAAACAACGAGAATGATCCTAGTAAAACATCTTTCAGACACCATCCGATGCTTGAAGAACAAAAAGTAAACATTAATTCAAAGACTAGCCAAAAGAAAAGGCATCAATCATACCTTTCAGCAAGCATAGCAGAACCTTCTTCAAACAATTCCTCTACAACACCAACAGCTGAAAGTTTGTTAGCAGATTTACCCAAAGAGTTTGGATATTTCTTCCCAAAGAATGAGGTAAGCACATTTTGCTTCTTCCTTGGAGTTGATGGTATTAAAAAAGGTTGCTCAGATGGGATAATATCAACAACTAAGCAAGTTGTATCATCCTTCAACCCCCTTGACCGTAAAGCTT ATGAACTCAGTCGCAATGAGATTCCTCAACCGTTTCAGAACTCCTTCTTCAAATTTTCCCACATCTTCATTCGTGGCAAGTGCGCAAACAAACTCGAAGTTTTGGTTATCGACCGGTGCTTCTGAAGGTGACAACGATGTTGAGAAGAACGATGGAGAAGAAGATGATTATGATACGTTTTCTAATGAATTACAGCCCCAGGGTGTTGATCCCACTCGAGGTTGGGGATATCGAGGCGTACATAAGGCAATAATTTGTGGAAGGGTTGGGCAAGCCCCTGTGCAGAAGATCTTGAGAAATGGGCGGACGATAACAATCTTTACCGTTGGAACAGGAGGGATGTATGACCAACGAATTTTTGATGGAAGAGATCTGCCGAAGCCTGCTCAGTGGCATCGTATTGCTGTGCATAATGAACTACTTGGTGCTTATGCAGTTCAAAAACTTTGTAGAAACGCGTCGGTTTATGTTGAGGGTGACATTGAGACCAGAGTCTACAATGACAGCATCAATGGTGAAGTGAAAAATATTCCAGAAATATGTGTTCGACGTGATGGGACGCTTCGCCTTTTAAAACCAGGAGAAAGTGCCAGCAATATTTCTCTAGACGATTTAAAAGAAGGGTTGTTTTCGAACAAGACATAA MNSVAMRFLNRFRTPSSNFPTSSFVASAQTNSKFWLSTGASEGDNDVEKNDGEEDDYDTFSNELQPQGVDPTRGWGYRGVHKAIICGRVGQAPVQKILRNGRTITIFTVGTGGMYDQRIFDGRDLPKPAQWHRIAVHNELLGAYAVQKLCRNASVYVEGDIETRVYNDSINGEVKNIPEICVRRDGTLRLLKPGESASNISLDDLKEGLFSNKT* Homology
BLAST of CsGy1G025310 vs. ExPASy Swiss-Prot
Match: Q84J78 (Single-stranded DNA-binding protein, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At4g11060 PE=2 SV=1) HSP 1 Score: 266.2 bits (679), Expect = 3.3e-70 Identity = 134/212 (63.21%), Postives = 162/212 (76.42%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy Swiss-Prot
Match: P18022 (Plasmid-derived single-stranded DNA-binding protein OS=Escherichia coli OX=562 GN=ssb PE=3 SV=3) HSP 1 Score: 68.9 bits (167), Expect = 7.8e-11 Identity = 41/143 (28.67%), Postives = 71/143 (49.65%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy Swiss-Prot
Match: P28045 (Plasmid-derived single-stranded DNA-binding protein OS=Escherichia coli OX=562 GN=ssb PE=3 SV=2) HSP 1 Score: 68.9 bits (167), Expect = 7.8e-11 Identity = 41/143 (28.67%), Postives = 71/143 (49.65%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy Swiss-Prot
Match: Q9CYR0 (Single-stranded DNA-binding protein, mitochondrial OS=Mus musculus OX=10090 GN=Ssbp1 PE=1 SV=1) HSP 1 Score: 61.2 bits (147), Expect = 1.6e-08 Identity = 30/97 (30.93%), Postives = 51/97 (52.58%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy Swiss-Prot
Match: Q5RDQ0 (Single-stranded DNA-binding protein, mitochondrial OS=Pongo abelii OX=9601 GN=SSBP1 PE=2 SV=1) HSP 1 Score: 60.1 bits (144), Expect = 3.6e-08 Identity = 30/97 (30.93%), Postives = 51/97 (52.58%), Query Frame = 0
BLAST of CsGy1G025310 vs. NCBI nr
Match: XP_004135584.1 (single-stranded DNA-binding protein, mitochondrial [Cucumis sativus] >KGN66025.1 hypothetical protein Csa_007128 [Cucumis sativus]) HSP 1 Score: 432 bits (1112), Expect = 6.12e-153 Identity = 213/214 (99.53%), Postives = 214/214 (100.00%), Query Frame = 0
BLAST of CsGy1G025310 vs. NCBI nr
Match: XP_008450570.1 (PREDICTED: single-stranded DNA-binding protein, mitochondrial [Cucumis melo]) HSP 1 Score: 390 bits (1003), Expect = 2.54e-136 Identity = 192/214 (89.72%), Postives = 200/214 (93.46%), Query Frame = 0
BLAST of CsGy1G025310 vs. NCBI nr
Match: XP_038878660.1 (single-stranded DNA-binding protein, mitochondrial [Benincasa hispida]) HSP 1 Score: 366 bits (940), Expect = 1.50e-126 Identity = 184/217 (84.79%), Postives = 196/217 (90.32%), Query Frame = 0
BLAST of CsGy1G025310 vs. NCBI nr
Match: XP_022135640.1 (single-stranded DNA-binding protein, mitochondrial [Momordica charantia]) HSP 1 Score: 349 bits (895), Expect = 7.04e-120 Identity = 173/213 (81.22%), Postives = 188/213 (88.26%), Query Frame = 0
BLAST of CsGy1G025310 vs. NCBI nr
Match: XP_022968788.1 (single-stranded DNA-binding protein, mitochondrial [Cucurbita maxima] >XP_022968789.1 single-stranded DNA-binding protein, mitochondrial [Cucurbita maxima]) HSP 1 Score: 341 bits (875), Expect = 7.31e-117 Identity = 173/217 (79.72%), Postives = 189/217 (87.10%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy TrEMBL
Match: A0A0A0LVY2 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G568540 PE=4 SV=1) HSP 1 Score: 432 bits (1112), Expect = 2.96e-153 Identity = 213/214 (99.53%), Postives = 214/214 (100.00%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy TrEMBL
Match: A0A1S3BQI7 (single-stranded DNA-binding protein, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103492127 PE=4 SV=1) HSP 1 Score: 390 bits (1003), Expect = 1.23e-136 Identity = 192/214 (89.72%), Postives = 200/214 (93.46%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy TrEMBL
Match: A0A6J1C1K4 (single-stranded DNA-binding protein, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111007549 PE=4 SV=1) HSP 1 Score: 349 bits (895), Expect = 3.41e-120 Identity = 173/213 (81.22%), Postives = 188/213 (88.26%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy TrEMBL
Match: A0A6J1HZ42 (single-stranded DNA-binding protein, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111467920 PE=4 SV=1) HSP 1 Score: 341 bits (875), Expect = 3.54e-117 Identity = 173/217 (79.72%), Postives = 189/217 (87.10%), Query Frame = 0
BLAST of CsGy1G025310 vs. ExPASy TrEMBL
Match: A0A5D3CEJ3 (Single-stranded DNA-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold16G004340 PE=4 SV=1) HSP 1 Score: 346 bits (887), Expect = 3.37e-116 Identity = 168/190 (88.42%), Postives = 177/190 (93.16%), Query Frame = 0
BLAST of CsGy1G025310 vs. TAIR 10
Match: AT4G11060.1 (mitochondrially targeted single-stranded DNA binding protein ) HSP 1 Score: 266.2 bits (679), Expect = 2.4e-71 Identity = 134/212 (63.21%), Postives = 162/212 (76.42%), Query Frame = 0
BLAST of CsGy1G025310 vs. TAIR 10
Match: AT3G18580.1 (Nucleic acid-binding, OB-fold-like protein ) HSP 1 Score: 102.1 bits (253), Expect = 5.9e-22 Identity = 52/160 (32.50%), Postives = 90/160 (56.25%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Gy14) v2.1
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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