CsGy2G006550 (gene) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AGAGAGAGAGAGAGAGAAAGAAAAAAAACTTGTTTGTTTGTCTCTGCAGAAATGGCTATATGTACAGCACACTCAACGGATCTTTCCCTTTTATTATCTTCCTTCTCCTCTTTCTCTTCACTTTCTTCATCCTTTCTCTCTGCTTTTCACAAAAATTCAAGGTGTGTTCATATTTAGAAATCATACTCTTTTGCCTTTCTTTTTTGGGTTAATTCTTTGTTTTTTTGTTTGGTCGAGATTTCTCCCCATTTCCATGCAGAATTTCCCAAATTCCTTCTGGGTTTCTCGGGATAAGAGAGAAAGGAAGTAAGATTTGGAAGGCAAAAAAATAGAAAGAGTCATTTTTGGTTTTTGGGGGTTTTTGTTTTGGGTTTTTTCATGGTTTAGGGTTTAGGGGTTTTGTTCATCTTATCAATTCCTTCAAAATTTTCCAAGTTTTTGATGGGATTGGCTTACTCTCAGTAACCAAACAGAGTTTACAGGTTTTCTTGTTCTTTCTTCTTGGTTGGATTTCAATGTCTTCTCCATGTATAAGTGGTGGTGGGAGGGCTTACAATTTCGATTTAGAGATTCTGAAATCTCCATCTTCTTCATGGACAAGAACTTCACAAACTTCATCGCCATCTTCAACTTTATCAGAATCAAGCAACAATACAACACAGTTAGCAATCTCAACTCGAAAATTAAGAACACCGCGAAAGCGCCCAAATCAAACCTACAACGAAGCTACAGTTTTGCTTTCAACGGCCTACCCAAATGTTTTTTCAACCAAACATCTTACCAATCCACGAAAATTCACCAAATCTCACGATGATTCTTCTTCTCTCTTCTGTGAATCTGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGCTGCTCGAAGAAAAGCCTAATTCCCAAATTCATTCCAAATTGACCAATCTTTGGGAAAATCGACCCTGTTCTAGTCCTGGAGAGATCGATTTCCAACCGAATTCCATGGAGATTGAAGAGATTGAAGATTTCGATGCGGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGACAGTATTATGGGTAATCTGAGTGTGGATAACCTAGAAAAAGGCAATTCAACGCAAGATTCTTGTGTGAATGCAAATAACCATCCACGGAATTGGAATTGGAATCCAATCGGTTTAGGCTTCAACCAGAAATTCGAATCTGGCTTCGGATTCCGTAAGGGAATCGAACGAACAGCAATTCGAGGAGTCGATAATGGAAACTGGTGGCGATTTCCGACTGTCGATGTAATCGAAATCTCTCCTAAACTAAATCCAAAACCACCAGCTCCAGCTCCAACTCCGACTCCGACTCCAACACCGGCAGCCGTCTCGACTAAGAAGAAGAAAAAGAAAGTGGAGAAGCTTACAGTGATTGAATCAAAGAAAGCCGCAATTCCATTACAAAAGGAGAAATCAGAGAAGCCGATCCCGAAATTGAAACCTACTGGATTACTTCTGAAATTGAACTACGAAGCCGTCGCTGACGCTTGGTCTAGCCGGGGATCTCCATTTTCCGATGAGATTCCAAGTTCCGATACGGCGGGAAGTGATGTAAATGTACGTCTCTCACTCCGCCACCGAAAATCAAAACCCAAGAAACTTTGATGCAATCAAAAAAAAAAAAAAAAAAAAATACAACAAAATAAAAATGCTTCCCTCCCGGAGTTTTAGGAATCCCAAATTCTTCCTCTGTTATTGTTTCATTCCCCCTCGAGAAAAAAAAAAATTAAAACAAAATTAGTAGTGGTTAAATTACATTATTAGTCTTTGTTAATCTTTATAAATCTGTAGTTTTTTTCTTAATCTAAACTTAAATTTTAGGTCAAATATTTGAAAATGTAGTTTCCGTTACTACTAGTTTGTCATATGGCAACCTAATTAAACTCTATATACATTGAAAAAAATTTACTAGTACAATTAATTTTGGTAAAATTAAAACTTTTAAAGCTACCCATTGAATTTTTTTTTTGTACGAGAAAGGTGAGGAATTAAAAATATTTTGACTTAAATTTTTTTATAAGAAAAAAATAATGTGATTATGATTATTTTCTAATTATTATATATAGAGCGTTGATAGATTTGGTTGTCAGTGGAGTCACTTTTGTCACGAAAAAGGAAAAGAGAACAATAATTTAAGTATTGAATGGGAGGGTAATATGGTAAATGTGATATTATATTTTAGTTGGTCCATAAAAAAGAAAACGTAAAATGACGAATATATGAATGATTGTGAAGGGAAAGAAGCTAAAAAGTGAGGATATATTTGGAAATTCGCAGGCCAGGGTGGCGAATATAGATTTATTTACGGAGGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAAGAGAAAAGGCGGACTCGGTTGTTCTCGAAGAAGATAAGATATCAAGTTAGGAAAGTCAATGCAGATGGACGGCCCAGAATGAAGGTATGTATGTGAATCTCCTGCATCCACATTCATCTGATTACACTCTTTTTCTTTTTCTTTTTCTTTTCAAATATCTTAATTTAATTTTTATTGTTAGTTTTAAATTCGTTTACAAAAATAAAATTGTCAAATTTAATCCTAAATTTATTAATTTGGATTATACATTTTTTAATTTCATTAATTAATGTTGTAGTTTTAGGCTTTTGTTCAGTTTTGGTTAATCACTTACTAAGTTTAACAACAAAACCTAAATTTCTTTCATAAACTCATTCATTTCAATACAAATAAAGTATTTCCAATCAAATAAATTTTCTTTCACTAACAAACCAATTATTCATTAATAACCTTCTTAGAATTCATGTCATATATATAATTGTTGTTTTTCAACCAAACATAAATTTCATTGGCTCATTATGTTTATCAGTATAGTTTTCATTTCATATTTAAATTTCAAAATCCTATACCTCTAAACTATGTTTGATAGTCAGCTTTATCTTTTTGTTATTTGTTTTTAAACTATTTTTTTTTAAAGAATAAACTTATTTTAAAATTTAAAAGGAAAATTGAAAATGAAAAAAAAATAAGCTTTTTAGAACAAATATTTTTTTACGAATCAAACCCATATAATTTTGTTTTTAATAAGCAAAAAAAAAAGCATAATATAAAAACATATAAAAATTTTAAAATAGTGGTCAATTTTTTAAAAAATTTAGTCTATTGTTACAAATTTACCTTTAAGTTTTTTCTATTTGAACTTTGATTTTAATTTATAATTTTTTTCTATTTGAACTTATCATCTCCATTCTTTTATTAAATACTTATCAATTAGTTTTAAATAATATGAAGTAAACTTTTAATTTAGTTTAAGTGATGAAAACTTAGTTAATTATAATTATTTAAAATTAATTAGTGACCTTAAGTACTATAGATAAAAATGTTTAGTGAAAAAACATCCATTCTTGTATTTGTAAAATTTTAAAAGAGAAATTTTAAAAAATAACAAATTTTAATAGAATTTAAAATTTGCTATAATTAGTAAATATTTTAATTTATTTTGCTATTTAAAAAAAAATGTACTTACCAAAAAAACCTTAAAAATCAAATCAACGTTTCGCAACATTTTAATTTTTTTTGTTTTTTGTTTTCTAAATTTTATTTTAAAATTTTTATTTATTAAAAATAATAATCATGTATGGTAATTCAAATTTGTTTTTCTGATTTATATTTTTCTAAAGCCTTTTTCTTCAATTTTTCATACCTTTGAAAACAAGTTTCTTGTTTTGTTTTTTTTTTTAAAAAAAGTGAATTAGTTGCACTTGTTTTTTAAAAATAATTTTAAAAAATAAATGGATTATCAAATAGGCATTTTTTTTAAATGCAAAAGAATTTATAAAAATAAGAAAATATAGATTTGGTTAATGTACAAATTTTTTAATACTTAATTACTAACTTGGAATAGTGACTTTTACACATCTGTAGTTGTATAGTTTTGAAAAATAAATACATTTTGCCATTAATTGGTTTAGAAAATGTAGAAAGAGTTAGAAAGAAATGAGATGAAATGAAAGCGAAGACTGAAAAGACGTTTTCCTTTTGGCAGGGGCGTTTTGTGAGGAGACCTAATTCAAGCGGCTATAGAAAGGAGACACACACTTCCCTTTAGGATTCCATTTTTGAGTTCACTTTTTCTAGACCTACTTTTTTTTTTCTTTTTCACATTAATTATTATCATCCTTTTTTCCTTTTTTTTTTCATTATATTTTCCAAATTTTCCGTAATTAGTTTTTTTTTTTTTTTTGCCTTTTTTTTTCCAATTCCAAAAAAGGTCAATGAGAGAATGCCCACTAAGTAGATGGTCAGAGATTCAATAATTCTAGGCTTTCTTTTTTCTTTATCAATATATGTATTTTTCCTTTTTGGAGTTTTGTTTTATTTGAGAAGAGGCTCATATGTTTTGAATTCCTACCTTTGGTGTATTTTGCTACCTATTAATCTTGGAAATTCATAGTTTATAGATAATCGAAGAACGTTATTTATATATTCAGAAAAACCTACCTTGCTTTTTAAATTTGAAATTGTGTATACATTTTATTATAAATACAATATTCTAAAAT AGAGAGAGAGAGAGAGAAAGAAAAAAAACTTGTTTGTTTGTCTCTGCAGAAATGGCTATATGTACAGCACACTCAACGGATCTTTCCCTTTTATTATCTTCCTTCTCCTCTTTCTCTTCACTTTCTTCATCCTTTCTCTCTGCTTTTCACAAAAATTCAAGGTGTGTTCATATTTAGAAATCATACTCTTTTGCCTTTCTTTTTTGGGTTAATTCTTTGTTTTTTTGTTTGGTCGAGATTTCTCCCCATTTCCATGCAGAATTTCCCAAATTCCTTCTGGGTTTCTCGGGATAAGAGAGAAAGGAAGTAAGATTTGGAAGGCAAAAAAATAGAAAGAGTCATTTTTGGTTTTTGGGGGTTTTTGTTTTGGGTTTTTTCATGGTTTAGGGTTTAGGGGTTTTGTTCATCTTATCAATTCCTTCAAAATTTTCCAAGTTTTTGATGGGATTGGCTTACTCTCAGTAACCAAACAGAGTTTACAGGTTTTCTTGTTCTTTCTTCTTGGTTGGATTTCAATGTCTTCTCCATGTATAAGTGGTGGTGGGAGGGCTTACAATTTCGATTTAGAGATTCTGAAATCTCCATCTTCTTCATGGACAAGAACTTCACAAACTTCATCGCCATCTTCAACTTTATCAGAATCAAGCAACAATACAACACAGTTAGCAATCTCAACTCGAAAATTAAGAACACCGCGAAAGCGCCCAAATCAAACCTACAACGAAGCTACAGTTTTGCTTTCAACGGCCTACCCAAATGTTTTTTCAACCAAACATCTTACCAATCCACGAAAATTCACCAAATCTCACGATGATTCTTCTTCTCTCTTCTGTGAATCTGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGCTGCTCGAAGAAAAGCCTAATTCCCAAATTCATTCCAAATTGACCAATCTTTGGGAAAATCGACCCTGTTCTAGTCCTGGAGAGATCGATTTCCAACCGAATTCCATGGAGATTGAAGAGATTGAAGATTTCGATGCGGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGACAGTATTATGGGTAATCTGAGTGTGGATAACCTAGAAAAAGGCAATTCAACGCAAGATTCTTGTGTGAATGCAAATAACCATCCACGGAATTGGAATTGGAATCCAATCGGTTTAGGCTTCAACCAGAAATTCGAATCTGGCTTCGGATTCCGTAAGGGAATCGAACGAACAGCAATTCGAGGAGTCGATAATGGAAACTGGTGGCGATTTCCGACTGTCGATGTAATCGAAATCTCTCCTAAACTAAATCCAAAACCACCAGCTCCAGCTCCAACTCCGACTCCGACTCCAACACCGGCAGCCGTCTCGACTAAGAAGAAGAAAAAGAAAGTGGAGAAGCTTACAGTGATTGAATCAAAGAAAGCCGCAATTCCATTACAAAAGGAGAAATCAGAGAAGCCGATCCCGAAATTGAAACCTACTGGATTACTTCTGAAATTGAACTACGAAGCCGTCGCTGACGCTTGGTCTAGCCGGGGATCTCCATTTTCCGATGAGATTCCAAGTTCCGATACGGCGGGAAGTGATGTAAATGCCAGGGTGGCGAATATAGATTTATTTACGGAGGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAAGAGAAAAGGCGGACTCGGTTGTTCTCGAAGAAGATAAGATATCAAGTTAGGAAAGTCAATGCAGATGGACGGCCCAGAATGAAGGGGCGTTTTGTGAGGAGACCTAATTCAAGCGGCTATAGAAAGGAGACACACACTTCCCTTTAGGATTCCATTTTTGAGTTCACTTTTTCTAGACCTACTTTTTTTTTTCTTTTTCACATTAATTATTATCATCCTTTTTTCCTTTTTTTTTTCATTATATTTTCCAAATTTTCCGTAATTAGTTTTTTTTTTTTTTTTGCCTTTTTTTTTCCAATTCCAAAAAAGGTCAATGAGAGAATGCCCACTAAGTAGATGGTCAGAGATTCAATAATTCTAGGCTTTCTTTTTTCTTTATCAATATATGTATTTTTCCTTTTTGGAGTTTTGTTTTATTTGAGAAGAGGCTCATATGTTTTGAATTCCTACCTTTGGTGTATTTTGCTACCTATTAATCTTGGAAATTCATAGTTTATAGATAATCGAAGAACGTTATTTATATATTCAGAAAAACCTACCTTGCTTTTTAAATTTGAAATTGTGTATACATTTTATTATAAATACAATATTCTAAAAT ATGTCTTCTCCATGTATAAGTGGTGGTGGGAGGGCTTACAATTTCGATTTAGAGATTCTGAAATCTCCATCTTCTTCATGGACAAGAACTTCACAAACTTCATCGCCATCTTCAACTTTATCAGAATCAAGCAACAATACAACACAGTTAGCAATCTCAACTCGAAAATTAAGAACACCGCGAAAGCGCCCAAATCAAACCTACAACGAAGCTACAGTTTTGCTTTCAACGGCCTACCCAAATGTTTTTTCAACCAAACATCTTACCAATCCACGAAAATTCACCAAATCTCACGATGATTCTTCTTCTCTCTTCTGTGAATCTGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGCTGCTCGAAGAAAAGCCTAATTCCCAAATTCATTCCAAATTGACCAATCTTTGGGAAAATCGACCCTGTTCTAGTCCTGGAGAGATCGATTTCCAACCGAATTCCATGGAGATTGAAGAGATTGAAGATTTCGATGCGGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGACAGTATTATGGGTAATCTGAGTGTGGATAACCTAGAAAAAGGCAATTCAACGCAAGATTCTTGTGTGAATGCAAATAACCATCCACGGAATTGGAATTGGAATCCAATCGGTTTAGGCTTCAACCAGAAATTCGAATCTGGCTTCGGATTCCGTAAGGGAATCGAACGAACAGCAATTCGAGGAGTCGATAATGGAAACTGGTGGCGATTTCCGACTGTCGATGTAATCGAAATCTCTCCTAAACTAAATCCAAAACCACCAGCTCCAGCTCCAACTCCGACTCCGACTCCAACACCGGCAGCCGTCTCGACTAAGAAGAAGAAAAAGAAAGTGGAGAAGCTTACAGTGATTGAATCAAAGAAAGCCGCAATTCCATTACAAAAGGAGAAATCAGAGAAGCCGATCCCGAAATTGAAACCTACTGGATTACTTCTGAAATTGAACTACGAAGCCGTCGCTGACGCTTGGTCTAGCCGGGGATCTCCATTTTCCGATGAGATTCCAAGTTCCGATACGGCGGGAAGTGATGTAAATGCCAGGGTGGCGAATATAGATTTATTTACGGAGGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAAGAGAAAAGGCGGACTCGGTTGTTCTCGAAGAAGATAAGATATCAAGTTAGGAAAGTCAATGCAGATGGACGGCCCAGAATGAAGGGGCGTTTTGTGAGGAGACCTAATTCAAGCGGCTATAGAAAGGAGACACACACTTCCCTTTAG MSSPCISGGGRAYNFDLEILKSPSSSWTRTSQTSSPSSTLSESSNNTTQLAISTRKLRTPRKRPNQTYNEATVLLSTAYPNVFSTKHLTNPRKFTKSHDDSSSLFCESAELLLPFRVIDSSGFLLHQPLLEEKPNSQIHSKLTNLWENRPCSSPGEIDFQPNSMEIEEIEDFDAESILDEEIEEGIDSIMGNLSVDNLEKGNSTQDSCVNANNHPRNWNWNPIGLGFNQKFESGFGFRKGIERTAIRGVDNGNWWRFPTVDVIEISPKLNPKPPAPAPTPTPTPTPAAVSTKKKKKKVEKLTVIESKKAAIPLQKEKSEKPIPKLKPTGLLLKLNYEAVADAWSSRGSPFSDEIPSSDTAGSDVNARVANIDLFTEGGGLLREASVLRYKEKRRTRLFSKKIRYQVRKVNADGRPRMKGRFVRRPNSSGYRKETHTSL
BLAST of CsGy2G006550 vs. NCBI nr
Match: XP_011648958.1 (PREDICTED: protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 [Cucumis sativus] >KGN61175.1 hypothetical protein Csa_2G061540 [Cucumis sativus]) HSP 1 Score: 793.1 bits (2047), Expect = 4.8e-226 Identity = 438/438 (100.00%), Postives = 438/438 (100.00%), Query Frame = 0
BLAST of CsGy2G006550 vs. NCBI nr
Match: XP_008451201.1 (PREDICTED: protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 [Cucumis melo]) HSP 1 Score: 770.8 bits (1989), Expect = 2.5e-219 Identity = 430/441 (97.51%), Postives = 433/441 (98.19%), Query Frame = 0
BLAST of CsGy2G006550 vs. NCBI nr
Match: XP_004149511.2 (PREDICTED: protein CHLOROPLAST IMPORT APPARATUS 2 isoform X2 [Cucumis sativus]) HSP 1 Score: 753.4 bits (1944), Expect = 4.2e-214 Identity = 418/418 (100.00%), Postives = 418/418 (100.00%), Query Frame = 0
BLAST of CsGy2G006550 vs. NCBI nr
Match: XP_008451210.1 (PREDICTED: protein CHLOROPLAST IMPORT APPARATUS 2 isoform X2 [Cucumis melo]) HSP 1 Score: 738.8 bits (1906), Expect = 1.1e-209 Identity = 413/421 (98.10%), Postives = 415/421 (98.57%), Query Frame = 0
BLAST of CsGy2G006550 vs. NCBI nr
Match: XP_022997021.1 (protein CHLOROPLAST IMPORT APPARATUS 2 [Cucurbita maxima]) HSP 1 Score: 585.9 bits (1509), Expect = 1.2e-163 Identity = 342/431 (79.35%), Postives = 363/431 (84.22%), Query Frame = 0
BLAST of CsGy2G006550 vs. TAIR10
Match: AT4G25990.2 (CCT motif family protein) HSP 1 Score: 227.6 bits (579), Expect = 1.4e-59 Identity = 200/437 (45.77%), Postives = 259/437 (59.27%), Query Frame = 0
BLAST of CsGy2G006550 vs. TAIR10
Match: AT5G57180.2 (chloroplast import apparatus 2) HSP 1 Score: 223.4 bits (568), Expect = 2.7e-58 Identity = 189/404 (46.78%), Postives = 231/404 (57.18%), Query Frame = 0
BLAST of CsGy2G006550 vs. TAIR10
Match: AT1G07050.1 (CCT motif family protein) HSP 1 Score: 92.8 bits (229), Expect = 5.6e-19 Identity = 53/99 (53.54%), Postives = 65/99 (65.66%), Query Frame = 0
BLAST of CsGy2G006550 vs. TAIR10
Match: AT5G14370.1 (CCT motif family protein) HSP 1 Score: 84.7 bits (208), Expect = 1.5e-16 Identity = 52/113 (46.02%), Postives = 69/113 (61.06%), Query Frame = 0
BLAST of CsGy2G006550 vs. TAIR10
Match: AT1G25440.1 (B-box type zinc finger protein with CCT domain) HSP 1 Score: 84.3 bits (207), Expect = 2.0e-16 Identity = 59/137 (43.07%), Postives = 76/137 (55.47%), Query Frame = 0
BLAST of CsGy2G006550 vs. Swiss-Prot
Match: sp|Q9LU68|CIA2_ARATH (Protein CHLOROPLAST IMPORT APPARATUS 2 OS=Arabidopsis thaliana OX=3702 GN=CIA2 PE=1 SV=1) HSP 1 Score: 223.4 bits (568), Expect = 4.9e-57 Identity = 189/404 (46.78%), Postives = 231/404 (57.18%), Query Frame = 0
BLAST of CsGy2G006550 vs. Swiss-Prot
Match: sp|Q8RWD0|COL16_ARATH (Zinc finger protein CONSTANS-LIKE 16 OS=Arabidopsis thaliana OX=3702 GN=COL16 PE=1 SV=2) HSP 1 Score: 84.3 bits (207), Expect = 3.6e-15 Identity = 59/137 (43.07%), Postives = 76/137 (55.47%), Query Frame = 0
BLAST of CsGy2G006550 vs. Swiss-Prot
Match: sp|Q8LG76|COL6_ARATH (Zinc finger protein CONSTANS-LIKE 6 OS=Arabidopsis thaliana OX=3702 GN=COL6 PE=2 SV=2) HSP 1 Score: 83.2 bits (204), Expect = 8.0e-15 Identity = 55/129 (42.64%), Postives = 76/129 (58.91%), Query Frame = 0
BLAST of CsGy2G006550 vs. Swiss-Prot
Match: sp|Q9C9A9|COL7_ARATH (Zinc finger protein CONSTANS-LIKE 7 OS=Arabidopsis thaliana OX=3702 GN=COL7 PE=2 SV=1) HSP 1 Score: 83.2 bits (204), Expect = 8.0e-15 Identity = 56/117 (47.86%), Postives = 68/117 (58.12%), Query Frame = 0
BLAST of CsGy2G006550 vs. Swiss-Prot
Match: sp|Q9M9B3|COL8_ARATH (Zinc finger protein CONSTANS-LIKE 8 OS=Arabidopsis thaliana OX=3702 GN=COL8 PE=1 SV=2) HSP 1 Score: 68.2 bits (165), Expect = 2.6e-10 Identity = 34/43 (79.07%), Postives = 38/43 (88.37%), Query Frame = 0
BLAST of CsGy2G006550 vs. TrEMBL
Match: tr|A0A0A0LGV4|A0A0A0LGV4_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G061540 PE=4 SV=1) HSP 1 Score: 793.1 bits (2047), Expect = 3.2e-226 Identity = 438/438 (100.00%), Postives = 438/438 (100.00%), Query Frame = 0
BLAST of CsGy2G006550 vs. TrEMBL
Match: tr|A0A1S3BQX8|A0A1S3BQX8_CUCME (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103492569 PE=4 SV=1) HSP 1 Score: 770.8 bits (1989), Expect = 1.7e-219 Identity = 430/441 (97.51%), Postives = 433/441 (98.19%), Query Frame = 0
BLAST of CsGy2G006550 vs. TrEMBL
Match: tr|A0A1S3BQD2|A0A1S3BQD2_CUCME (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103492569 PE=4 SV=1) HSP 1 Score: 738.8 bits (1906), Expect = 7.1e-210 Identity = 413/421 (98.10%), Postives = 415/421 (98.57%), Query Frame = 0
BLAST of CsGy2G006550 vs. TrEMBL
Match: tr|A0A2C9VM23|A0A2C9VM23_MANES (Uncharacterized protein OS=Manihot esculenta OX=3983 GN=MANES_06G019300 PE=4 SV=1) HSP 1 Score: 387.9 bits (995), Expect = 3.1e-104 Identity = 265/435 (60.92%), Postives = 307/435 (70.57%), Query Frame = 0
BLAST of CsGy2G006550 vs. TrEMBL
Match: tr|V4UV14|V4UV14_9ROSI (Uncharacterized protein OS=Citrus clementina OX=85681 GN=CICLE_v10008308mg PE=4 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 8.9e-104 Identity = 264/445 (59.33%), Postives = 305/445 (68.54%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber Gy14 genome (v2)
Date Performed: 2018-09-25
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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