Cucsa.177320.1 (mRNA) Cucumber (Gy14) v1
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGGCAATAAATAATAGAAAAAGGAGATAAAAGATAAGAACAGAAGTTTTGTCTGATGGAAGGGACACGTCATCTCTCTCCCTCTAAAATTGGCCCATTGGATAAGAACCCACCATCTCGGCTCTCCACACCCTCCCTATTCCCAGTCTTCTATATATTTCCCTTCTCCTTCCCCTTCCATTTCCCCCTTCTTCATTCCATTATCACTACACTTTCCTCTTCTTCTCAACACTCTCCCATTTCCGTAATTAATGGCCTCCGTCGCTACTGCTGGATTCATCGCCCCATCTTCCTCTTCCTCTTCCTCTTCATGTTTTCCCCATACTAATCGTCCAAACAAGAATCGAACTTCCACTAATCAATTTAGAGTTTCTTCTTCTTTTTCTTCTTCCGTCGCCGATCCTTATCGAACTCTTCGGATTCAACCCGGTTCCTCTGAATCTGAAGTCAAAAAAGCCTTCCGACGTCTCGCTCTTAAGGTTTCTTCTTTTCTTTCTTTCCATTTCTTTATATGACAGGATTTGTTACATCCTCTGATTCTTACGATTTCTTTGATTATTATTTTTTCAGTATCATCCTGATGTTTGTAAAGGGAGAAATTGTGGCGTTCAGTTTGAACAAATCAACGAAGCTTACGTTGTACGTGATCACACCCTCTTTTTCTTTTTAATTATTTACTCAAGTTTGAATCAATTATTGGAATGATCAATTGTTTTTTTTTCTTTCTTTCTTATAATAATAATAATTGTGCACCTATTATTGCAATAACTATTTTTCTTTTCTTTCCGCACATAATTACTAAACTAATTAAATATATAGACATTTTTTTAGAGGACATAGTTTGAATTCCACTATATGTAGCGTGTGAAGTTGAGTGTTTGTTCAGGTTCATGTCGGTTTCATAGTGTTTTCGGTCATTCTATCATTGATTTTCCTTTACCTATTTGTCGTATTTCATGTTAGGTTATATTATACACACACACACACTTGCACTATGTCTTTTGCTTTTATTGGGTCCCAGATCGACCCAAATTTGTTCAAGCCTTTTTATGTAAATAGCAAATTTTGATCGTTGCGCTGTGTTGGTTATCATAGATTGGGTAGATATGAAGTTGGGTCCCAAACGCCTCCACCGTCTTTTACATAATTTCTTCTCTTGGCCTATCTGTAAATTCTAATAATCGAACAAATTTGTATGTGAATTCAATTCTTGCAACAGATCTGAGCTATGAAGATAGTTTGAATTTTGCTAACGAGGTGATTTTTTATTTGGTGAAACAGATTGTGATGAATAACTTGAGAGGTATAGCAACATCAATAGAGACATATGAAACAAAATATTCTGAAGGGACTGATGAACCGAAGACAAAATATGGGGAACCAGATTGGGACTCATATGAAGAATGGATGGGATATGAAGGAGCGTGGATGGGTGATTATTCATCTCAATATTAATCCCGAAATTTAAAATCCAAAAACAAAAAATTAGAAATCAGTTATGATTTGTTCATAGAATTGGTCTTCAATCTATCAACATCATCAACATCATCAACAACCAACGGTTGTGATGATTTGGTTTGGCTTGTATATATGGTGGGAAAAGAGGGGAAGTTGAAAATTGGTATTAATTCATTAATGTGTGCACCCTTTTTTTTCGAGTGGTGGTGGTGTCGTTGTTGTACATATGGTCAAGAACAGAGGCTTTTGGGTCTTTTAATGATATGAAAAGGCTTTGAAGGAATGGCCTAGCAAAGTTGTGGTGGGACATTTGTGTTTTTATCATTTTAACTCTTTATTCTGGTTGTTTCCCCAATCGAACGTGGTTCGTTTCTGTCCAATATTATCCGTTTCTGAATAAAATTAAGAGGTGGGGATAAGAATGACTAATTACCCTTGTTGAGTTCCATTTGAATGAGAAGGAATTGCCTTAATATTCTGGTATTGAGATTTGTAAGATTAACTGGAAACGTATTTTGACTTATTTGAAATCAATTTTGGTGACTTGAAAATTTTCAATTTTTCAAAAATTTCAAGACAGAGTAAGTCGAAAAAGTCAAAGTTTTGTCTCTTAATTCAACTTCAACCTGCACTCGGAGAGGTGTGTTGATCCCATTAAATAAAGATGAGAGATTGACGAGATAAAATAGATGAGGAACGATTAAAATCATCCCTGCATTTGGTTTTCTCATTAAAATCTCTACATTTGGTTAGTTAAAGTCACAATCGGTGGTGTGATGTAACAATATTTTCTTAATTTGTAAAAGTTCAATTAAATTTGGTGGTGTGATGTCACAACATTTTTTTTAATTTGTAAAAATTGTGGAAAGTAAAGTAGTAACACTATTGGTTGCATGAAAAATTGAGGAAAGTAAAGTAGTAACTATTGGTTGCATGATTTTTGTTTCCTTTCAAGGTTCTTAATTTACATTTTGTAGAATTACAAAAAAAAATTCATAAATAATAATTGTAATCAAGAGTTTAATTCTATGCCGACAAGGACATTTTTCAATGTGCTTATTTAACATAAATAATAATATGTATTATTTTTCGTTTACTTTTACTATTAAGTCGGGTGGGAGTGATTTTGAAAAGCTAAAGGTTGGGATCTAGAAGTCTTAACTTAACCCAGATGTTGAATAAGATTGGAGGGATATGAATTTGCTTTGAATGTTTCTCAAAAACAAGAAGAAAAGAACTTTCCTTTTATATATAATTGAAGGGGCAAAAGGGTGGTTTTAGGAATGAGCTAAGACATAAACATGATAAATAAATAATTATACATATACAAAGCCATATATATATATAGCAAATAATGAACAACCAAGCTCAATGAGATATACACGTGTGACGTAGGTTTGAATACTCGAAGGTGAACGTGTCTCATCGAATGTTTTATTTTTTTTCAAAATAAAGTTGTCTTGACACTTTGTTACTCTCTTGCTCTCTTGAATTTTGAATTTGCTTCAACCAACTTATATTTTAGATTGAATCTTCAAGTTCAATTGAAGTCTCGAGGTTTTCAAATATGCACTCGTTTATCTTCTCAACCAATCTAGTAAATAGCACATTTTGTTTAAAACACATAAATATTTAACTAAAATATTTTACTATTTTGTTTTCAGTTTTTCTTTTCTATTTGGAGCTCTTGTATTTGTTATCTATATTTTTCTCTTTTCTAAAAAAAATATCAATTTATACTTTTTTTTAAAAATTTGAAAACGGTATCAATAATACTAACAATTATACATCAAATTTAAACCCTAAATGTTGTATAATTATATCCATATTGTATTTTCCTTAGGTGAAAAATTAGAGTCTTTTTTAAGAATCATTGATAGAACCAATTTATAATGATATTTGACGTGTAAAATGATATAATTGAAGTTATAAATTAAAAAAGTTGTAGGATTTAGATTTTAAAAGTATAAATGGATTTTTGTAAGCATATATTTTAATCACCTTGTTAAAACTGCTATATTACGAAAATAATAAAAATTAAGATTCACATAAGAAAAACAAAATAAAAAAGGGACAAAATTGTGTGGTAGAGGCAATTAAAGAAAAGATATTAAAATGTGGATATAGTATGAAAACATTAATAAACGTCGACGTTTGAATATATCCAATTTAAATGTCATTACCACCTAATAAATATCTTATTTTCCCATTCTCATTCCACTTCTTGACTTTGACACACATTCTTTTCTTGATTGTTACTTCCTCTTCTCTCAAATTAAAATCACAAATAATTAGCTTTTCTTTTTTAAAAAAAAGAAATTGTTTTATTTTATAAATATTTTTCATCTTAAAATATTATATTTTTTAGTCTGATTTTAAAAATCATTAAAAATTAATAATATTGTTTATTAACACAACTTTCAAAAATCATAAACAAAAAACAAAGCCACACATCATGAAGTGGATTAAGTCCACTCTTTTCTATTTCAAATATTTTCTACCATATATGTTGTTTTTATTTGTGATTATAAAGTTTGAAGAAACATATTTTTAATGCAACTTGGTCCGATATTTTAAATTAAAAAAATATATAAATATCTATAATAATTAATAGAATATTCGTTTGAAGTTGTTACTTTTAAAATAATTTTCGGTTTTTGGTTTTTTGTTTTTGAATCTCATCTAACTTTTAAATGGTCTTTAAAAATGACTCGGTTTATGTTTGAACAGGTTTGTTTTTAATTGTGGTGTGTGAATTTAAAGGGTAAAATATATTAAATTTAATCTAATTAATTAATGAAAATTGAATATTCAAATAACTTTTATTCACTACAGGAATTAAAACACAATCATTTATAAAAACAGAAAATTAAATTGATTTTTCAAACTGGTGGTTAGGAAAATACTATATACTTTTTTAGCTAATATTAAAGGGAAATATGTTCTTATTCCGTCTTTGTGCATTGTTGAATTTGTCATACGAGTATTGTCAAGAAATTGAAGGAATCTTTATGGCAACACAAATATACATGCCATATATATATATAACAAATAGAATAAAAGAAGCGAAAAGGAAAAATAAATATTTTATCTCCAACTTTGTAGTCTATTGAATTTATTTCCCACATTGATACCATTGTCAAAATTGAAGCACAGTTTAATAAAGTTGAAAGCCTGTAAAGTTGGTTTTCAAACAAAATTAAAAATAGAATTATTTTTATTTTATCCCCATGTATATGTTTTATGGAAAATATGAGTATGAAACAATAGTTGAATTGCATATGGTACACGTGTCACTTATGTTAATCTAGACTCTCGTTTTACGAGACTGGATCTCGTTTACTCCTTCAAAACGGTTCGTTTCATATGGAAAGAAGGAATCTAGGTCTGACTGTTTCAGGTTCACATCACAACAGCTTTCCCTTTTTTGAATTGCTTCGAAAACCGTTAAAAAAAAAAGTAAAGAAAAATACAACATCCTATTATTTTATATTAAAATTAAAATATTATTTTGTTCCACCGTTCTATTTTTTCAATCAATTTTTAAATTACTTCTCCAAGTTTTTCTTTTAAAAACTTAGTTGATGTTTAGACTAACGAATGAGCTATTATAGTAAATAATAAAAAACCGATTAATATCAAGAAGTAAAAACTGCAGCAAAAATAATATTTATTATAGCTAGTGGAAGACTTTTAAATAATTTTTACTGTAACAAAAAATAATATTCATAGTTATAGATAATTTTTTCCTAAATGGTCTATTGATTGCTATCCACCTTTTGTTTATAAATTGTTTGGATAGACATCATAATTATCCAAGATTAAGTTTGGTATCTATGATTTCAAATCCTAAATTTGAAGCATTACAAGTGAGGAGTACAACTATTTATAATCCATAATTGGTACTCTATTTTATACCTTATTCTCTATTTTTCTTTCATCATCCCTTTTCTGATTTGTTGTTTTTTTGTTGCATACTTAAATAAAAATAGTTATTCTAAATATAAACTATTATTATAACATACACTAAAATCCTATACCTCAAATACTAATATTAAATAAATGGAGTATTATAAATTACTATAAACTAAAATTTGTTCCACTTCATATAAGTCTATTGTAGTAAAAGAAACTAAAATTATTTACAAAATTTATAATTTTTTAATAATTAATTTAATATTGTTTCTATTATATTTGGTAAGTAGATTCAATTACGTGTCTTCCATGTAGATATCTGTAGTAAGATAAAGACTAAATTATTGTTTTTTCTTTTGTACATTATGTAATCCATTTTGAAAGTGTGAGAAGAAGAGATTTAAATGCGTGCTGACGTGTTAGGCTTCTCCTTTCAAGCGATTAAAAGATGTTTCCTACGCCACGTGTCTTCATGACCGCCACGTTTATCGTTTCTACCATAAAGTTTTTTATTTAATTGGTATAAAATCTGTAGCTGCCTAACAATTTCCACGTCTGAAAATAAAATTTCAACATTATAACTTTTCTTTCTATTTTAATTCAACAGCATTAGTTACCTTTTCACATTTGAAAAACACTTTGTAAATATGTCTTCCATCAATTTTAAAAAGTTGTCACATCATTTAGAACTATTTGGATAAATATTTCTAAATTTATTTATTAAAATTATATAAATAGAAATTAAACAGTAAAATTTTTAAATACACGAAACAGCTCAACCCAAAACTAAAAGCTTAAGATTTCATATTAAAGATAGAATTTTTAATTTAATTATAATAAATCAATTAAAATTTAATAACTTTTAGTATTTCGGTTAGATACTATGTTAAATATTTAAAAATTTATCACACACTTTTAAAAATCAAATGACTAAATAGATATGATACTCAAACAAGTTATGGTTAAATTCAAAATTTAGCCTCAAAGTAAATAATTTATGCTCCTAAAATGGAAAATAAATAGTAAAAAGGAGACTCTTACCTTGTTTTATGGAATATTTCATTATTTTGAATCATAAATTATTACACATACCTACCTATCTATGTATATATACCAATATATATATTCGTAGTTAGATAAATTTTAGTTTTTAAAAATGTGAGTATATTGATTAGTTTATATTATCTTTTGAGAAGGAGGTTTCTTCTTCAGCTCAGACATTAATACTGTTTTTAAAATTAATTTGACAAAGAATTTTATTTTTTTCTTGTTGAAACTATTTTCTCTATTATAGATGATGTTTACTCTAAACTAAATTTGATTTTATAAAATTATTTTAAACAAATATTAATCGAATAAAATGGTGTTGTTTAGTAATTTGTAATTTTTTTAATTTCTAATAATAAAAGAGAAGGTGAGAGATATTGTTTATCGTTAAGTTGTTAATGAAACTTCTACCTAAAAATAATATGGATCAAATAGTAATACTAATTAGAAGATAGGAGAAATGATAATAAAATGAAGTAGATTAATTTGATAATTCCACCAACCGACAATCTCTCGAATTTATCCAATTTCGTTCTTTTCAATAAAATTCAACTCATCCATATAAATCCTTAATATAAAATGGATAACTCTGCTTTTTTTTTTCTTTCCATTCTGTTTTTCAATTTAATTTTGATTAACTGATTGTGTTTTGATTGGATTATTTGCATTCAAAATGTGTAAACATTGTGTACTAAAATTACCTTTTGTTTCAATTTCGTCCATAAACGTTAGACATTAAATTCACTTTCACTACTCTTACCTAACCTCTTGATTTGATCTTATACCATCTTTTATAAACTTATGCACATTCTTAAAATGTCCTACTTGTATTTCTTAATAAAAGAAAATTCCTAAATTAAGTATTAAGATGATTAGGTTAGGATGTCTAACCCTCAAAAACAAAAAGTTTATTTTTCTATTTTGGTAGGTTCAAATCTTTGTTCTTTTCAATCAATTTGACAATTTCAACCCATCTTATATCATTAACCATGTATTTTTTATTAAAATATAAAATATAAATTGAGTCTACAACTTAATATTTTAAAATTTACGAAAATAACAAATTAACATGTTCCGCCTAATTAAAACGGTCAAAAGTCTAAAATATTTATTGTTATAATAATATCAATTGTTGATTGATTACAATCTAATATTAGTTGTCAACTATACAAATTGTTACATGATAACTATTGTAAAATTGTCTAGGAGATATAATTGATGTTTGACTATAATAATAAATGATATTGATTGTCATTTGATTGTTGTTTAACGTATCTAATACTTTAAATTAATATTTATTGATATTTGAAAATAGATGAAAACCAAATAAAAAAACTATCTCACTTTCGATAAATTAAAAAAAAGAAGGTAAAAGTTAAGGACGAAGTTATTTAAGTAATTCAATGACAAAGAAAGGTAATAAAAAAACAAATTAAATATATCTAAAAAATAAAAAATAAAAAACACATGTTTATTATGCAAGCTGTAATCCCCCCACTATTTAAATCTCTTTCCATAAAGAAAAAACTACGAAAAGGAAAGAGATGGGAAATTGAGGGGGGTTAAATTTGGAATTTTGAAAAATAGACTAAAGTGATTCAGATATTTATTTATTTTGTTGCCATATTTACATTTTGCACTATAAACACAAATGATTAGATTAGACATGTACATCATCATATAAGTAGACAGTAAATTGAAATTGTAAACCAAAAAATGAAAATATAAAATTTAACAAATATATCGACTCATTTTCTGTCAAGTCCGTATTTATACGTAAAAGTGCCAACGTGTATAATTTTCATAATTCTTAAAATCTTAATTACAATAATTGAAATTTTGACCAAAATTAAAAACAAAAGTAATTTTTTAAAACTTACTTTTTTTTTTTTTTTTAGTTTAAAAATTCTAGCTTGGTTATTTAAACTAAAAAGTTTTAAAATTATAGCTTAACTATTGAAAAAGGTAGATATTAAAGGAAGAAATCTAGAGAAAAATAGTGGTAATAGACTTAATTGGAAAAAAAAAATCAAATGGTTACCTATCCAAGTTTAAACTCATATTCAACTTGTCAATAAAAATTAAACACAAATTCAAATATTTATGTCGTTGTCACTTATTCAGGTTATATTAAGAATTTTCTATCTAATTATTATGTAAAATTAGATAGAAGTTGACTGAAAAATCTCTAATATGTCATATTTGTTTATTAGTGACTATAAAAGTTAATTTGAAAATTATATGCAGAATAAAAAAAAACTATTACATTTTTTATGAATAGAAAAATAGTAACACAGTATTAACTTCGAATTTATGGATATGATTCCTCTCTTATGTTTTAATTGTATAAAAATGAAAAATTATAGATGGCATCAAAATTTAAAAAGAAGAGAGACAAAATAAAATTAGAAATAAAGAAAAGAATGAGAGCGGTAAATGTGATAAATTAGGTAAGTGAATAGATGGCACCAACGGCGGTAAAAAGTAAAAAGGATAAGGTAGAAAGAGGAAAAGGTAAAAAAGGCAAGAAGGTAAGTGAGGAATAGCAATAAATAATAGAAAAGAAGATAAGAAGAGAATAAAAGTCTGATGGAAGGAACACGTCATCTCTCTCTCTCTCTCTAAAATTGACCCATTGGATAAGAACCGACGATCTCGCCCCTCCACACCCTCCCTATTCCCAATCTTCTATTTATTTCCCTTCCCCTTCCCTTTTCTTTTCCTCCATTCTTCATTCCAACGTTACTACACTTTCCTCTTCCTTTCAACACCCTCCCATTTCCAAAATTAATGGCCTCCGTCGCTACTGCTGGATTCATCGCACCATCTTCCTCTTCCTCTTCATGTTTTTCCCATACTAATCGTCCAAACAAGAATCCGACTTCCACTAATCAATTTAGAGTTTCTTGTTCTTATTCTTCTTCTTCCCTCGCCGATCCTTATCGAACTCTTCGGATTCAACCCGGTTCCTCTGAATCTGAAGTCAAAAAAGCCTTCCGACGTCTCGCTCTTAAGGTTTCTTCTTTTCTTTCTTTCCATTTCTTTATATTACAGGATTTGTTCCATCCTACTGATTCTTACGATTTCTTTGATTCTTTTTTTTTATCAGTATCATCCTGATGTTTGTAAAGGGAGAAATTGTGGCGTTCAGTTTGAACAAATCAATGAAGCTTACGTTGTACGTGATCATACCCTCTTTTTTCTTTTTAATTATTTACTCAAATTTGAATCAATTATTGAAATGATTGATTTTTTTTTCTTTCTTTCTTATAATAATAATAATTGTGCACCTATTATTGCAATAACTAATTTTTGTTTCTTTCCTCACATAATTACTAAACTAATTAAATATATAGACATTTTAGAGGAAATAGTTTGAATTTCACTATATGTAGCGCAATTGAGTGTTTGATTAGGTTCATGTCGGTTTCATAGTGTTTTCGGTCATTCTATCATTGATTTTCCTATACCTATTTGTCGTATATCATATCAGGTTAAATTATATACATACACACACTTGCACTTTGTCTTTTGCTTTTATTGGGTCCCAGATTGACCCAAATTTGTTTAAGCCTTTTTATGTAAATTGCAAATTTGATCGTTGCGCTGTGTTGGTTATCATAGATTGGGTAGAGATGAAGTTGGGTCCCAAACACTTCCACCGTGTTTGTCTTATACATAATATCTACTATTGGCCTATTTGTAAATTCTAATAATCGATCAAATTTGTATGTGAATTCAATTCTTGCAACAGATCTGAGTTATGAAGATAGTTTGAATTTTGCTAACGAGGTGATTTTTGATTTTGTGAAACAGATTGTGATGAATAACTTAAGAGGTATAGCAACACCAATAGAAGAGACATATGAAACAAAATATTATGAAGGGACTGATGAACCGACGAGAAAATATGGGGAACCAGATTGGGACTCATATGAAGAATGGATGGGATATGAAGGAGCGTGGATGGGTGATTATTCATCTCAATATTAATCCTGAAATTTAAAACCCAAAAACAAAAAATTAAAAGTCAGTTATGATTTGCACATAGAATTGGTCTTTAATCTATCAACATCATCAACAACCAACGGTTGTGATGATTTGGTTTGGCTATGTATATATGGTGGAAAAAGAGGGGAAGTTGAAAATTGGTATTAATTCACTAATTTGTGTACCCCTTTATTTTAGTGGTGGTGGTGTCGTTGTTGTACATATGGTCAAGAACAGAGCCTTTTGGTCTTTTAATAATATGAAAAGGCTTTGAAGGAATGGCCTATCAAAGTTGTGGTGGGGCATTTGTGTTTTTATCTTTTTTTAAACTCTTGTCTGGTTGTTTGCCCAATAGAGAAGGTGGTGCTTTTTTGTGTACTCGTTTCTGTTCAATATTATCCGTTTGTGAATTTAATTAAAAAGGTGGGGGATAGGAATATAACTATTACCTCTGTTGAGTTTCATTTGAATGGAAA TGGCAATAAATAATAGAAAAAGGAGATAAAAGATAAGAACAGAAGTTTTGTCTGATGGAAGGGACACGTCATCTCTCTCCCTCTAAAATTGGCCCATTGGATAAGAACCCACCATCTCGGCTCTCCACACCCTCCCTATTCCCAGTCTTCTATATATTTCCCTTCTCCTTCCCCTTCCATTTCCCCCTTCTTCATTCCATTATCACTACACTTTCCTCTTCTTCTCAACACTCTCCCATTTCCGTAATTAATGGCCTCCGTCGCTACTGCTGGATTCATCGCCCCATCTTCCTCTTCCTCTTCCTCTTCATGTTTTCCCCATACTAATCGTCCAAACAAGAATCGAACTTCCACTAATCAATTTAGAGTTTCTTCTTCTTTTTCTTCTTCCGTCGCCGATCCTTATCGAACTCTTCGGATTCAACCCGGTTCCTCTGAATCTGAAGTCAAAAAAGCCTTCCGACGTCTCGCTCTTAAGTATCATCCTGATGTTTGTAAAGGGAGAAATTGTGGCGTTCAGTTTGAACAAATCAACGAAGCTTACGTTATTGTGATGAATAACTTAAGAGGTATAGCAACACCAATAGAAGAGACATATGAAACAAAATATTATGAAGGGACTGATGAACCGACGAGAAAATATGGGGAACCAGATTGGGACTCATATGAAGAATGGATGGGATATGAAGGAGCGTGGATGGGTGATTATTCATCTCAATATTAATCCTGAAATTTAAAACCCAAAAACAAAAAATTAAAAGTCAGTTATGATTTGCACATAGAATTGGTCTTTAATCTATCAACATCATCAACAACCAACGGTTGTGATGATTTGGTTTGGCTATGTATATATGGTGGAAAAAGAGGGGAAGTTGAAAATTGGTATTAATTCACTAATTTGTGTACCCCTTTATTTTAGTGGTGGTGGTGTCGTTGTTGTACATATGGTCAAGAACAGAGCCTTTTGGTCTTTTAATAATATGAAAAGGCTTTGAAGGAATGGCCTATCAAAGTTGTGGTGGGGCATTTGTGTTTTTATCTTTTTTTAAACTCTTGTCTGGTTGTTTGCCCAATAGAGAAGGTGGTGCTTTTTTGTGTACTCGTTTCTGTTCAATATTATCCGTTTGTGAATTTAATTAAAAAGGTGGGGGATAGGAATATAACTATTACCTCTGTTGAGTTTCATTTGAATGGAAA ATGGCCTCCGTCGCTACTGCTGGATTCATCGCCCCATCTTCCTCTTCCTCTTCCTCTTCATGTTTTCCCCATACTAATCGTCCAAACAAGAATCGAACTTCCACTAATCAATTTAGAGTTTCTTCTTCTTTTTCTTCTTCCGTCGCCGATCCTTATCGAACTCTTCGGATTCAACCCGGTTCCTCTGAATCTGAAGTCAAAAAAGCCTTCCGACGTCTCGCTCTTAAGTATCATCCTGATGTTTGTAAAGGGAGAAATTGTGGCGTTCAGTTTGAACAAATCAACGAAGCTTACGTTATTGTGATGAATAACTTAAGAGGTATAGCAACACCAATAGAAGAGACATATGAAACAAAATATTATGAAGGGACTGATGAACCGACGAGAAAATATGGGGAACCAGATTGGGACTCATATGAAGAATGGATGGGATATGAAGGAGCGTGGATGGGTGATTATTCATCTCAATATTAA MASVATAGFIAPSSSSSSSSCFPHTNRPNKNRTSTNQFRVSSSFSSSVADPYRTLRIQPGSSESEVKKAFRRLALKYHPDVCKGRNCGVQFEQINEAYVIVMNNLRGIATPIEETYETKYYEGTDEPTRKYGEPDWDSYEEWMGYEGAWMGDYSSQY*
BLAST of Cucsa.177320.1 vs. Swiss-Prot
Match: DNAJ8_ARATH (Chaperone protein dnaJ 8, chloroplastic OS=Arabidopsis thaliana GN=ATJ8 PE=2 SV=1) HSP 1 Score: 146.7 bits (369), Expect = 2.1e-34 Identity = 80/143 (55.94%), Postives = 97/143 (67.83%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. Swiss-Prot
Match: DNAJ2_AQUAE (Chaperone protein DnaJ 2 OS=Aquifex aeolicus (strain VF5) GN=dnaJ2 PE=3 SV=1) HSP 1 Score: 62.4 bits (150), Expect = 5.2e-09 Identity = 27/57 (47.37%), Postives = 39/57 (68.42%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. Swiss-Prot
Match: CBPA_PSEPK (Curved DNA-binding protein OS=Pseudomonas putida (strain KT2440) GN=cbpA PE=3 SV=1) HSP 1 Score: 61.2 bits (147), Expect = 1.1e-08 Identity = 38/107 (35.51%), Postives = 57/107 (53.27%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. Swiss-Prot
Match: CBPA_PSEP1 (Curved DNA-binding protein OS=Pseudomonas putida (strain F1 / ATCC 700007) GN=cbpA PE=3 SV=1) HSP 1 Score: 61.2 bits (147), Expect = 1.1e-08 Identity = 38/107 (35.51%), Postives = 57/107 (53.27%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. Swiss-Prot
Match: CBPA_PSEPG (Curved DNA-binding protein OS=Pseudomonas putida (strain GB-1) GN=cbpA PE=3 SV=1) HSP 1 Score: 58.5 bits (140), Expect = 7.5e-08 Identity = 36/107 (33.64%), Postives = 57/107 (53.27%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TrEMBL
Match: A0A0A0LF08_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G710780 PE=4 SV=1) HSP 1 Score: 310.8 bits (795), Expect = 9.3e-82 Identity = 152/157 (96.82%), Postives = 152/157 (96.82%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TrEMBL
Match: A0A0A0LD63_CUCSA (Chaperone protein dnaJ 8 OS=Cucumis sativus GN=Csa_3G710790 PE=4 SV=1) HSP 1 Score: 305.8 bits (782), Expect = 3.0e-80 Identity = 150/158 (94.94%), Postives = 152/158 (96.20%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TrEMBL
Match: A0A0B2P4K3_GLYSO (Chaperone protein dnaJ 8, chloroplastic OS=Glycine soja GN=glysoja_032687 PE=4 SV=1) HSP 1 Score: 173.7 bits (439), Expect = 1.8e-40 Identity = 89/153 (58.17%), Postives = 110/153 (71.90%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TrEMBL
Match: A0A0R4J3M3_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_07G021800 PE=4 SV=1) HSP 1 Score: 171.8 bits (434), Expect = 6.7e-40 Identity = 88/153 (57.52%), Postives = 109/153 (71.24%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TrEMBL
Match: C6TAY7_SOYBN (Putative uncharacterized protein OS=Glycine max PE=2 SV=1) HSP 1 Score: 171.4 bits (433), Expect = 8.8e-40 Identity = 88/153 (57.52%), Postives = 109/153 (71.24%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TAIR10
Match: AT1G80920.1 (AT1G80920.1 Chaperone DnaJ-domain superfamily protein) HSP 1 Score: 146.7 bits (369), Expect = 1.2e-35 Identity = 80/143 (55.94%), Postives = 97/143 (67.83%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TAIR10
Match: AT1G72070.1 (AT1G72070.1 Chaperone DnaJ-domain superfamily protein) HSP 1 Score: 62.4 bits (150), Expect = 2.9e-10 Identity = 38/96 (39.58%), Postives = 54/96 (56.25%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TAIR10
Match: AT5G59610.1 (AT5G59610.1 Chaperone DnaJ-domain superfamily protein) HSP 1 Score: 57.4 bits (137), Expect = 9.4e-09 Identity = 27/75 (36.00%), Postives = 45/75 (60.00%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TAIR10
Match: AT5G18140.1 (AT5G18140.1 Chaperone DnaJ-domain superfamily protein) HSP 1 Score: 55.5 bits (132), Expect = 3.6e-08 Identity = 31/111 (27.93%), Postives = 55/111 (49.55%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. TAIR10
Match: AT1G80030.1 (AT1G80030.1 Molecular chaperone Hsp40/DnaJ family protein) HSP 1 Score: 53.9 bits (128), Expect = 1.0e-07 Identity = 33/89 (37.08%), Postives = 50/89 (56.18%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. NCBI nr
Match: gi|778682937|ref|XP_011651813.1| (PREDICTED: chaperone protein dnaJ 8, chloroplastic-like [Cucumis sativus]) HSP 1 Score: 310.8 bits (795), Expect = 1.3e-81 Identity = 152/157 (96.82%), Postives = 152/157 (96.82%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. NCBI nr
Match: gi|778682940|ref|XP_004137653.2| (PREDICTED: chaperone protein dnaJ 8, chloroplastic-like [Cucumis sativus]) HSP 1 Score: 305.8 bits (782), Expect = 4.3e-80 Identity = 150/158 (94.94%), Postives = 152/158 (96.20%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. NCBI nr
Match: gi|659130374|ref|XP_008465135.1| (PREDICTED: chaperone protein dnaJ 8, chloroplastic [Cucumis melo]) HSP 1 Score: 241.9 bits (616), Expect = 7.6e-61 Identity = 124/156 (79.49%), Postives = 134/156 (85.90%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. NCBI nr
Match: gi|734321530|gb|KHN04191.1| (Chaperone protein dnaJ 8, chloroplastic [Glycine soja]) HSP 1 Score: 173.7 bits (439), Expect = 2.5e-40 Identity = 89/153 (58.17%), Postives = 110/153 (71.90%), Query Frame = 1
BLAST of Cucsa.177320.1 vs. NCBI nr
Match: gi|356523203|ref|XP_003530231.1| (PREDICTED: chaperone protein dnaJ 8, chloroplastic [Glycine max]) HSP 1 Score: 171.8 bits (434), Expect = 9.6e-40 Identity = 88/153 (57.52%), Postives = 109/153 (71.24%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber (Gy14)
Date Performed: 2017-01-17
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