Cucsa.107870 (gene) 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.TCAAAATGAGTCCGACTGCCGTCGAAGCTCCATTACTTCTTCTTTTTCTTCTTGCCGCAGCGCTCCTGTGCCCGCTCGGAGGAGCCAGGCTTCTGGTGGAGATGACGGTGGTCCGAAACGCCTTTTCCATCGGAGCTCGTAAGTGGAAAAGATTTGGCTCCTTTTTTTAAAATTATTTTTTGGAATTTGATTGGATTTTGTTATTGTATTTGGATGAGGATTAGTTTGTTTGGACGGAAGCTTGCCAGCTTATCATCTGGACAGAGGATTCGGCGCCGGAGCGGGAAACTGGCTTCTACAGTTCGAGGTGAAAAACGAAAATTATTTTCTCTTCTTTTTACTCTTCTTTTTATTTTATTTTATTTCTATTCTTTCCGGAATTATAATTCATTTGTGCCCTCTTCCAATGACTGCTTGACACGTTTGATTCCCATCTGGCATAATTATTAACCCCCACACTGGCTCTCTCTCCATGGAAAAATTCACACACAACCCACAGGGTAAATGTACAACCCTTCATACAAATAGATTCGCTACACCTGAAGAGAATTTTTCTAATAGGACACTGTGTAGTATTATAATTTTTTTCTAAGTTTGGAGATAGATGAAATTTGGTTTGTAGGATTTATAATTGGAGTTTAGTTTTTAGAACTGGTTATCAAATCAACTAAATTCTAACCTTGAAAATCATAGAAGGCTAAACTATAATGTGAACAAAGAAATTAGCATATACTAATGTACTATATAATGTCTTCATCCAATCAATGACTTAATAAATTAGCATATACTGATTTACTATATGTGAGTTTTTTAGAACAACAAAGTTGATGCTATACACATAACACATTACAGGAGTGAACAGACTTCCGTAAAAACTCTATCAAAACTATTAAATAATCAAGATGCCAACTTCCAATTTAAAAAAGGAAAAAGTAAAAATAACATATATTTGAATAAAGTTATATTATAGTATGATTATTTTGTTAATAAGTCCAATTCTTAAAATATAAATAATATTGAGGGGAAAAGTTGTAGGACGACGTTTCTTAGATTTGTTTGCACATTGTTGTGTGTTTGGCTTGCGGTGGGTTGCACTGTTGTTGGTATTATATTTATGTTCCCACGTTGGATAATATATTTATTTTCCATGCTTGGTTGGACAAGGATTCCACGCTGTCTCTTGTGTAATAATTTTGTTTCCAAAATTAGTATATGTTTTACGATTTTTACCCTTTTATCCCTAATTTTTTCTTTTTAATTTTTATTTCCTTTCCTTTTTAATCATTTTATGGCTGAATTTTGAATATATATATTACAATTTCATCTTGAAATATTGTTAACCACCGTTTTTTCTATTTGATGTTCTTTTATTTAATTATTTAGAATAATTTTTAATTTATAGTAATAAAAAATTAGTGGAAAAAAAATTAAGAATCTAAATGTTGAAATCTAAATATCAAATAAAAACAAAATTTAAAACTTAATGAGGAAACTAAATATTTTAAAGTTTAACAATTTAGAAGAAACTAAACTCAAAAGAAGATAAAAAGTTTAGGAGGCTTAAAAAAGTAATTTTTCATCATATTATATAATTTACATATGTACTCCATGCCCGAAATGGACGATAAAATCAATTGCAAAAGTGAATCACTAGTCGTTATCAAATACACATATATATAACTCAATAATTAGAATGCTGACTAAAAGTCTCATGCAAATACCCAATTATTAGAATAATTTAGGGCCGCCAACCATTATAGGTGTATTATTATTTCATTTTGGGCTTTTTAAAATATTTTTTTTTAATTATAATTCAACAATGTAGGTGAGTGTTATAATTTGATGATATCTAACTTTTTGGTTGTCCAAAATTATTTGATAATGTTGGTTTTCAACTCAATAAAAAAAAAAAAAAACTCATAAGAGTGGATTTCTTGCATTTTTCAACATGGAATTTTCAAATATGGCTTTGAATACCATAGTATAAAATTTTGTCTCAAAGTCAATTGATAATAAGAGAGGAGGAGTAACCTATTTAATTGCCATCAAATATGTAACATCAACCTTGATGAATCCATGCCATTAATTTTTCTTTTCAATGATATAATTTAAAACTAATCCTAATATGAATATCATTTCACGACATAATATTTATATTATAAATATTTAAGTATTTGAGGTTTTGGATACCAAAATGAAGAATAGTGTAAAAAAAAGTGAACTAGAATGGATGGTTTTATTTTCGTGGCATGGTCCCAAATGGATGGTGTTACTAAGAGAGAATGAGTAATTTACACGGAACTTTGAATTGAAGAAAGTGACAGAAAGTGAGAACATTCAAGGGAAGAATGGCTCCTCGTTCTGGTTAATTATTTGGAACTTGGTGGGTCCGATAACATATATATATATATATGAAAAGATATGTATTCTTAAGTTATGTAACTAAGTTTTAAAATAAATTAGTAAAATACTAAAACAAAGAATAAAAACATCATAGAGGTAAATCAATTCCAAGGTGATTATTACAGTTTTAAATACTCTTTGCTTCAAATACCTATTAGTTTTAAATACTCTTGCTTCAAATACCTATTAGTTTTAAATACTCTTGCTTCAAATACCTACTTGATTTATTTTAAAACTACTAATGAGTAGTCTATCTATCTATTAAGGTTGTGAAGTTTTTCGATCTTTTTGTAATGTGAGATCATCGACATATTCTAATAAAATAGTTTTCTTTTTTGTTGACCCATTTTTGAAATAGATCTCGATTTTTTTTTTTTACCAAATTCTCGTTTTTACCTTGCATGAGTTATTATATGATATTAGCTGGATAAGATAAAGTAGCCCAATCATTTGGGTTTCTTTAATAAAATCCAAACGTAAATATGAAACTTGATGATTGTAATAAAATAGGGTGGTGGGTGGTGCAATGATGTAACATCTTGTTTTGAGAGAGCGAATAGTCGAAGAGGATCAACACATCTGATGACCAAATGGGAGGATTTTTCTGGTATTCTTAGCAACAATGCTTCCCTTAACCCAGGTATTTATTTCTAAATATCATCAATTTTCTTCCACACCCATACCCTTTCAAAGTTTACTAGATCTATGTAATCTTATAATTAAGATCCTAATCATCATTAGATCTATGAGTACTAATGGAACTTTTAAAATACAGGAGCATTAATATTGAAACTTACATTAGATTTAGAAATATTTTATATAATGTAACCATTATTATTATAATTGTTATTATCATGAAGATTCCTTTGTTTTTCAACGTAAATATATAAAAATAATCAATGATGGGTGGATTGAATATTCAATACATTAGTTGATGGAACACAATTAGCTAGAAAATGAATATTATTGTTTGTGGCACCACAGACTTCAAAAGGTGGGTGATCACATGATTGACAAATTTGTTATATCAGCTTCTTGAATTATGAATGACAATCCAAATGTATTACTACTTTTTAATATACATAATGATTATCTAATAATTAAAATGAGGAAGATTATGTAATTACCATAGAGAGAGAGAGAGAGTAGGGGTAGATATGGAAAATAGGGGGGGTAAAGCTAAAAGTGAAAGGGAGGATGATGGGTCAGGTTCTAGTAAATTGGGGAGCTGGGTCAATGTACTGACTATTGTCTGAAGGGTTCACGTGAATGTCCAAAACCTGACACCCTATTCCACTTTAATTACCAAACTCCACCTTATGTTGCTTATCCCTTTGCCTCAACTTCATGCCAACTCTCTCACTTTTACTAAAATATACCCAAATTTCAGTTTTGTCACTTTCCAATAATGTTTCAAATATGTATTCCATTACCTTAAGTTATGTCGAGGTCTCAATATATTCCATTACTTTAAGTTATATTTATCAGTTTGCTATGTATTTTTAGAAAATAAAATTTTAAAAGTGAAATATTGTTTTGGTTTTTATATGTTAAAATTTGTTTTATTTTACTGTTTTTATATTTTCAAGTTTTTTCCATTTTACTTCAACATACTTCTAATAAATTTTAAATTGAGTTTTCGTCTCAATATTTTTAATGAATCTTAAATTTAATATTTAATACTATCTTTTTTTATTTTAAAAACATTTTTTCGTTATTTATCAGCATTTTTTTCTATAAAATTTTGAAAATATATCAATGCATTATTTAACTAATTGGAGAGACTTAAATTAGGATGTATTAAAAGTAGATAGATTAAAATTAATTAGACCAGAATACAGTGGCTGAAAATGGAACATACTTTAGTATTAAAACCAAAAAGTTAGGCTGCCTAAAAAAATATATGAACCAATAATAAATTAATGTTTTACATTTTAAAAACAAGTTAACCATTTTCATTACCGGTTACATCAATTTTCATTACGGCTGAGTAGATGTGACCTAAATTTTGTAATATTTTACGATTTAGTTCTTTCTACTTGAAAGAAAAACTAGGTTTAATTTATTTATCTATCAAGTAAAATTAACAAATCGTTTTTGTGGAGCAGACTTTTATAATTGGAACCGTGTGAAACTCAGGTACTGTGATGGAGCCTCATTTGCTGGAGATGCCTTGTTTGATAACGGGGTAATATTTTCTCACATTATCCTTTCCCTAATTAAATAACAAATTTTAGTTTAGAATTTGATCCTAATCATAGTTTTAACTTTATAATCATATGCCTAATCTAACTGTCTCCAAACTTCACCATAGACATCAGTGCTTCATTTCAAAGGTCAAAAGATATGGGAATCCATCATTCTTGACCTTCTACCAAAAGGGTTGGGGACAGCAAGGAAGGTATTAATATAATTATATAAATATGTCCTCAAATATTAATAATTCTGCTATTTCATATTTCTTGATTTGGCCTCTAAATTATCATTTTGTTTCCTGCCTCACTTACCTAATTCCAATTCTGCCAAATTAAAAGTGTTTGTTTTGTTGGGGGGGGGGGTGGGGTTTTTGTAGGCTCTGCTTTCTGGTTGCTCTGCTGGAGGTTTAGCAACTTTTCTGCATTGTGAAAATTTCACTAATTATTTGCCAAGAAATGCAAGTGTCAAATGCTTGAGTGATGCTGGATTTTTTCTTGACTTGTGAGTTCTTTTAAATCTCCTTAGCAAATAAAAGGGATAGGTTATTGTTTATATATAATTCTTATGTAAGTTTTAACTCTGTCTTATCTCCATTTTCACAGAAGAGACATAGGTTTAAATCACACCATGAGGAACTTTTATAAGGATCTTGTGGCTCTTCAGGTACATTATTTTCTTTTCACATCAATATGAACTCAGTTGATTGTTCTAGTTCATGTTGAGTTAGTATTAGTTTAGGTTGTATTGGGCAACTCTTTTGATTTTGATTTTTGAAATATTTATCTTATATACAATGCTATTGTTACCTCCGCCCAATTGATTTCTTTATTTGGTTGTCTATTTTTTTAAGAGTTTTTTTCAAAATTTAAGCTAAATTTTGAAAAATGAAAACAGTAATTTTTTATGCTCCATCTGGTTTTTGGTTTTAAAAATTAAGTTTACAAGCGATTCTACCTCTAAAATTTTTTTTGCTATCCACTTTATACCAATATTTTTAAAAATCAAGTAAAAGTTTGAAAATTAAAAAAAAAATTAAAAATTTAACTAAGAATTCAATGGAAATAAACTTAATTTTAATAAATTAAACGTGTTTTTTTTGGAATTTGGCCCAAATGATCTAATACAACCGACCTGAATTTTTCTTCTCACCGTAATAATTCTTCTAAGGATGAACTTCTTCAACTAATCAACTTCTCATAGATTTTTTCTTGGAGGAAAGGCTAGGTTTAAACAGCAAACTTATGTTTGGTTTGATTTCTAAAAGCAAAGGTAGTAAAGAAGAGCACTAAAAAGAGTGTTTATCAGCTTTTTTTGAATTCATGCTTTTGAATTCATCTTTCGATAAAGTACTTAAGATAGAAAAGTAATAAAAGTAATATTGTATGTGTTCTGAACATAGATTAATATGGTGCAAGGTGTGGATAACAGGGAATGGAGCGAAATCTGAATGAAAACTGCACAGCCTCCTCTTACTTTCCAGAATTGGTACTTAATTTTATTAATCCCAAAATCTTCTCATCACTCTATTATTTTTCAATTTTCAATCACTATATAAATTAAATATATATGGTTCTAAAATTCTCCATCTCTTTTGATTATGTGCAGTGCATATTCCCTCAATATTCTTTGAAGTACATAACAACTCCATTTTTCATTCTCAATTCAGCATATGATGTTTTCCAAGTAAGGAAAACATCTTCTCCTTTAGTCTAACTTTTTTAACTTATATTTGATAATCTGTTTTTGAAAATTATTATTAATTTTCGTTTTCCATTTAATTGGTTTGAATCAAACAGTTTCATCATGGGTTGGTGCCACCATCTGCTGATTTACATGGACATTGGAACCATTGCAAATTAAATCCAGCAGACTGTAGTGAACTACAGATCCAGGTACTGCAAGGTACTCTCTCCATTCCCTTTCTCTTCTATTTTAGTTACTACAACAAAATTAGGACTTGTTTGGTAATTATTTGAGTTTGGGTGGATAGTTATTTAGTTTTTAATTTTTAAAAATTATATATACATCTATTTCACCTTTAATTTTCTTGCTTTATTATCTACTTATCTACTTTCTATTAATGTTTTAAAACAGCCAAGTCTGTTTTTAGAAACTTCATTAAAATTTTACTTTTTACTCGAGACAAATGGAAACCACGATAAAAAAAATCAAACGGTTGTCTACCTTAATTTTTTGTTATTCCATGTCAAAATTCCTTATTTTGTTATTTACATTTTACTAGTGTTTTCAAAGAACAAACAAAACTTGAAACCATTAGTTTTTAAAAAATTATTTTTGGTTTTAGAATTTAGTAAGAATTCAAATTTTATACCAAGAACCAAAATCATGGTAAGAAATATAGACCTAACTCTTTTTTGAGGAAAAAAACTAAATCGTATGCCATAAATAATTATAATTAATTTGTTTGAACTGTAATTTGGAAGTGATTATTATTATTATATTTTTAAAATTGAAAATTTTAGGTCTAAGACTCAGTATGCTCTCTGCATTAAGATTATTCCATGAATATTCAAGCAGAGGAGGAATGTTCATAAATTCATGTTTTGCTCATTGCCAAAGTGAGTCCCAAGACACATGGTTTGCACCTGACTCCCCAACAATAGACAACAAGGTATCATTTATTTCCTTAATCGTGTTCTCAACTTTCAATTTTATATCTATATATGTTATGTTCGATTTGTTTAAATCTATTAATTTTTAATATTTTTTAAAACTAATGAAACTATTAGATATATCTAATTAAATTGTATGTCTAATAACACATTAAACTTTTAACTTGTTTAATAAACATCAAGTTCGTTAAACAGTTTATTAAGCACATAATTAAAATTTTAAGAGTTTTTCTTACCACTAAGTTGAAATATAATGATTTATCATACTTTTCTACAGCTGAAGTTTCTAGTTAGACACCAAATTGAAACCATATGAACTTATTAATACTTTCAAAATTAGGCTAAGAGACGTATTTAAAGTTTAAGTCTGTTGGATGGGGATTTGGTTTTTAATTTTTATTTTTTATAAAATATTTTTTCATACTTTTCTACCTTCTGTTATCCACTCTACTAAATATTTTTATAAAGTTAAGGGGAGCTTTCAAAAACTAAAAATAAATTAGTTTTTCTTTAAAAAATAGGAAAACTAAGAATTCAATTGTTTCTTTGAGAAAGATGATTTTTTATAGTTGAAAAATCAAAAGAAAACATACTTTTAAAAAGCAAAAAAGAACAAAATCGTAATCAAATAGACCCTAAATTGCAATGGTGATTTCGCTCATTTTTAATAGTAAAACTGAAGTGAGTTATATTTTACAGACGATAGCAGAAGCAGTTGGTGATTGGTACTTTGGGAGGAGAAACATAAAGGAAATAGACTGTGCTTATCCATGTGATTCTACTTGCCATAATATTATACCATAAATAGCTTCGGTAACTATTAATTTTCTCATCACTTTTTTTTAAAAAAAATATATCTAATTAATTTTGACACTTATAGGCTCTAAACATTTTTTACAGGTTGAGGCAGAGAATTTATATAATACATTCTTTTGAAAAGACAAGAAAGCAAGACAGTGCCCATTGCTAATTTATCCTCAAAGAGGACACACACATTCAATACACAATACACACATCAATTTAATAACAACACCACACAATATTTTCTACAAACA TCAAAATGAGTCCGACTGCCGTCGAAGCTCCATTACTTCTTCTTTTTCTTCTTGCCGCAGCGCTCCTGTGCCCGCTCGGAGGAGCCAGGCTTCTGGTGGAGATGACGGTGGTCCGAAACGCCTTTTCCATCGGAGCTCTTTGTTTGGACGGAAGCTTGCCAGCTTATCATCTGGACAGAGGATTCGGCGCCGGAGCGGGAAACTGGCTTCTACAGTTCGAGGGTGGTGGGTGGTGCAATGATGTAACATCTTGTTTTGAGAGAGCGAATAGTCGAAGAGGATCAACACATCTGATGACCAAATGGGAGGATTTTTCTGGTATTCTTAGCAACAATGCTTCCCTTAACCCAGACTTTTATAATTGGAACCGTGTGAAACTCAGGTACTGTGATGGAGCCTCATTTGCTGGAGATGCCTTGTTTGATAACGGGACATCAGTGCTTCATTTCAAAGGTCAAAAGATATGGGAATCCATCATTCTTGACCTTCTACCAAAAGGGTTGGGGACAGCAAGGAAGGCTCTGCTTTCTGGTTGCTCTGCTGGAGGTTTAGCAACTTTTCTGCATTGTGAAAATTTCACTAATTATTTGCCAAGAAATGCAAGTGTCAAATGCTTGAGTGATGCTGGATTTTTTCTTGACTTAAGAGACATAGGTTTAAATCACACCATGAGGAACTTTTATAAGGATCTTGTGGCTCTTCAGGGAATGGAGCGAAATCTGAATGAAAACTGCACAGCCTCCTCTTACTTTCCAGAATTGTGCATATTCCCTCAATATTCTTTGAAGTACATAACAACTCCATTTTTCATTCTCAATTCAGCATATGATGTTTTCCAATTTCATCATGGGTTGGTGCCACCATCTGCTGATTTACATGGACATTGGAACCATTGCAAATTAAATCCAGCAGACTGTAGTGAACTACAGATCCAGGTCTAAGACTCAGTATGCTCTCTGCATTAAGATTATTCCATGAATATTCAAGCAGAGGAGGAATGTTCATAAATTCATGTTTTGCTCATTGCCAAAGTGAGTCCCAAGACACATGGTTTGCACCTGACTCCCCAACAATAGACAACAAGACGATAGCAGAAGCAGTTGGTGATTGGTACTTTGGGAGGAGAAACATAAAGGAAATAGACTGTGCTTATCCATGTGATTCTACTTGCCATAATATTATACCATAAATAGCTTCGGTTGAGGCAGAGAATTTATATAATACATTCTTTTGAAAAGACAAGAAAGCAAGACAGTGCCCATTGCTAATTTATCCTCAAAGAGGACACACACATTCAATACACAATACACACATCAATTTAATAACAACACCACACAATATTTTCTACAAACA ATGAGTCCGACTGCCGTCGAAGCTCCATTACTTCTTCTTTTTCTTCTTGCCGCAGCGCTCCTGTGCCCGCTCGGAGGAGCCAGGCTTCTGGTGGAGATGACGGTGGTCCGAAACGCCTTTTCCATCGGAGCTCTTTGTTTGGACGGAAGCTTGCCAGCTTATCATCTGGACAGAGGATTCGGCGCCGGAGCGGGAAACTGGCTTCTACAGTTCGAGGGTGGTGGGTGGTGCAATGATGTAACATCTTGTTTTGAGAGAGCGAATAGTCGAAGAGGATCAACACATCTGATGACCAAATGGGAGGATTTTTCTGGTATTCTTAGCAACAATGCTTCCCTTAACCCAGACTTTTATAATTGGAACCGTGTGAAACTCAGGTACTGTGATGGAGCCTCATTTGCTGGAGATGCCTTGTTTGATAACGGGACATCAGTGCTTCATTTCAAAGGTCAAAAGATATGGGAATCCATCATTCTTGACCTTCTACCAAAAGGGTTGGGGACAGCAAGGAAGGCTCTGCTTTCTGGTTGCTCTGCTGGAGGTTTAGCAACTTTTCTGCATTGTGAAAATTTCACTAATTATTTGCCAAGAAATGCAAGTGTCAAATGCTTGAGTGATGCTGGATTTTTTCTTGACTTAAGAGACATAGGTTTAAATCACACCATGAGGAACTTTTATAAGGATCTTGTGGCTCTTCAGGGAATGGAGCGAAATCTGAATGAAAACTGCACAGCCTCCTCTTACTTTCCAGAATTGTGCATATTCCCTCAATATTCTTTGAAGTACATAACAACTCCATTTTTCATTCTCAATTCAGCATATGATGTTTTCCAATTTCATCATGGGTTGGTGCCACCATCTGCTGATTTACATGGACATTGGAACCATTGCAAATTAAATCCAGCAGACTGTAGTGAACTACAGATCCAGGTCTAA MSPTAVEAPLLLLFLLAAALLCPLGGARLLVEMTVVRNAFSIGALCLDGSLPAYHLDRGFGAGAGNWLLQFEGGGWCNDVTSCFERANSRRGSTHLMTKWEDFSGILSNNASLNPDFYNWNRVKLRYCDGASFAGDALFDNGTSVLHFKGQKIWESIILDLLPKGLGTARKALLSGCSAGGLATFLHCENFTNYLPRNASVKCLSDAGFFLDLRDIGLNHTMRNFYKDLVALQGMERNLNENCTASSYFPELCIFPQYSLKYITTPFFILNSAYDVFQFHHGLVPPSADLHGHWNHCKLNPADCSELQIQV*
BLAST of Cucsa.107870 vs. Swiss-Prot
Match: PAE9_ARATH (Pectin acetylesterase 9 OS=Arabidopsis thaliana GN=PAE9 PE=2 SV=1) HSP 1 Score: 556.2 bits (1432), Expect = 2.9e-157 Identity = 257/370 (69.46%), Postives = 302/370 (81.62%), Query Frame = 1
BLAST of Cucsa.107870 vs. Swiss-Prot
Match: PAE10_ARATH (Pectin acetylesterase 10 OS=Arabidopsis thaliana GN=PAE10 PE=2 SV=1) HSP 1 Score: 421.4 bits (1082), Expect = 1.1e-116 Identity = 199/368 (54.08%), Postives = 254/368 (69.02%), Query Frame = 1
BLAST of Cucsa.107870 vs. Swiss-Prot
Match: PAE3_ARATH (Pectin acetylesterase 3 OS=Arabidopsis thaliana GN=PAE3 PE=2 SV=1) HSP 1 Score: 418.3 bits (1074), Expect = 9.3e-116 Identity = 198/382 (51.83%), Postives = 260/382 (68.06%), Query Frame = 1
BLAST of Cucsa.107870 vs. Swiss-Prot
Match: PAE2_ARATH (Pectin acetylesterase 2 OS=Arabidopsis thaliana GN=PAE2 PE=2 SV=1) HSP 1 Score: 412.9 bits (1060), Expect = 3.9e-114 Identity = 196/367 (53.41%), Postives = 255/367 (69.48%), Query Frame = 1
BLAST of Cucsa.107870 vs. Swiss-Prot
Match: PAE6_ARATH (Pectin acetylesterase 6 OS=Arabidopsis thaliana GN=PAE6 PE=2 SV=1) HSP 1 Score: 412.5 bits (1059), Expect = 5.1e-114 Identity = 193/368 (52.45%), Postives = 258/368 (70.11%), Query Frame = 1
BLAST of Cucsa.107870 vs. TrEMBL
Match: A0A0A0L8Q6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G182200 PE=4 SV=1) HSP 1 Score: 832.4 bits (2149), Expect = 2.3e-238 Identity = 396/397 (99.75%), Postives = 396/397 (99.75%), Query Frame = 1
BLAST of Cucsa.107870 vs. TrEMBL
Match: A0A059DJV3_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_A02777 PE=4 SV=1) HSP 1 Score: 633.6 bits (1633), Expect = 1.6e-178 Identity = 290/390 (74.36%), Postives = 338/390 (86.67%), Query Frame = 1
BLAST of Cucsa.107870 vs. TrEMBL
Match: A0A059DJX3_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_A02777 PE=4 SV=1) HSP 1 Score: 633.6 bits (1633), Expect = 1.6e-178 Identity = 290/390 (74.36%), Postives = 338/390 (86.67%), Query Frame = 1
BLAST of Cucsa.107870 vs. TrEMBL
Match: M5XJA6_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa006446mg PE=4 SV=1) HSP 1 Score: 633.6 bits (1633), Expect = 1.6e-178 Identity = 301/403 (74.69%), Postives = 337/403 (83.62%), Query Frame = 1
BLAST of Cucsa.107870 vs. TrEMBL
Match: A0A061G081_THECC (Pectinacetylesterase family protein isoform 1 OS=Theobroma cacao GN=TCM_015185 PE=4 SV=1) HSP 1 Score: 629.8 bits (1623), Expect = 2.3e-177 Identity = 300/392 (76.53%), Postives = 331/392 (84.44%), Query Frame = 1
BLAST of Cucsa.107870 vs. TAIR10
Match: AT5G23870.3 (AT5G23870.3 Pectinacetylesterase family protein) HSP 1 Score: 556.2 bits (1432), Expect = 1.6e-158 Identity = 257/370 (69.46%), Postives = 302/370 (81.62%), Query Frame = 1
BLAST of Cucsa.107870 vs. TAIR10
Match: AT5G26670.1 (AT5G26670.1 Pectinacetylesterase family protein) HSP 1 Score: 421.4 bits (1082), Expect = 6.2e-118 Identity = 199/368 (54.08%), Postives = 254/368 (69.02%), Query Frame = 1
BLAST of Cucsa.107870 vs. TAIR10
Match: AT2G46930.1 (AT2G46930.1 Pectinacetylesterase family protein) HSP 1 Score: 418.3 bits (1074), Expect = 5.3e-117 Identity = 198/382 (51.83%), Postives = 260/382 (68.06%), Query Frame = 1
BLAST of Cucsa.107870 vs. TAIR10
Match: AT1G57590.1 (AT1G57590.1 Pectinacetylesterase family protein) HSP 1 Score: 412.9 bits (1060), Expect = 2.2e-115 Identity = 196/367 (53.41%), Postives = 255/367 (69.48%), Query Frame = 1
BLAST of Cucsa.107870 vs. TAIR10
Match: AT3G62060.1 (AT3G62060.1 Pectinacetylesterase family protein) HSP 1 Score: 412.5 bits (1059), Expect = 2.9e-115 Identity = 193/368 (52.45%), Postives = 258/368 (70.11%), Query Frame = 1
BLAST of Cucsa.107870 vs. NCBI nr
Match: gi|778679593|ref|XP_011651157.1| (PREDICTED: pectin acetylesterase 9 isoform X1 [Cucumis sativus]) HSP 1 Score: 832.4 bits (2149), Expect = 3.3e-238 Identity = 396/397 (99.75%), Postives = 396/397 (99.75%), Query Frame = 1
BLAST of Cucsa.107870 vs. NCBI nr
Match: gi|659077499|ref|XP_008439237.1| (PREDICTED: uncharacterized protein LOC103484085 isoform X1 [Cucumis melo]) HSP 1 Score: 818.5 bits (2113), Expect = 4.9e-234 Identity = 385/397 (96.98%), Postives = 394/397 (99.24%), Query Frame = 1
BLAST of Cucsa.107870 vs. NCBI nr
Match: gi|778679601|ref|XP_011651159.1| (PREDICTED: pectin acetylesterase 9 isoform X3 [Cucumis sativus]) HSP 1 Score: 649.0 bits (1673), Expect = 5.2e-183 Identity = 310/311 (99.68%), Postives = 310/311 (99.68%), Query Frame = 1
BLAST of Cucsa.107870 vs. NCBI nr
Match: gi|778679596|ref|XP_011651158.1| (PREDICTED: pectin acetylesterase 9 isoform X2 [Cucumis sativus]) HSP 1 Score: 647.5 bits (1669), Expect = 1.5e-182 Identity = 309/310 (99.68%), Postives = 309/310 (99.68%), Query Frame = 1
BLAST of Cucsa.107870 vs. NCBI nr
Match: gi|659077503|ref|XP_008439239.1| (PREDICTED: protein notum homolog isoform X2 [Cucumis melo]) HSP 1 Score: 636.7 bits (1641), Expect = 2.7e-179 Identity = 302/310 (97.42%), Postives = 307/310 (99.03%), Query Frame = 1
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)
Date Performed: 2017-01-17
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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