Cucsa.372040 (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.ATATGTTCCTTCGTCAGCTTTCTATACCATTCCGTGAATCTCCCTTTCAGGTCCTTGCTGTTCCATGACTTTGTTGCAAAGTGTCTGACAAAAGATCCTCGTTCACGCCCTGCTGCTTCTGAAATGTTGAAGGTAATGCATGCCAATTATGTGTGCCAATGTAGATGAGGACATGTCCCATTCATATATATTCAAATTCAATTATTGGGAATTTTTTTTTGTTGTGTGTGTGTGTGTATGGTAGGGGTATATTGTAGTTTTGGTAATGAACCTCGTAATAGTATAAGTGTTAAGAATTTGTTCACATCACAATTAGTCGTAAAAGTGGAGGTGCTTGCTGTGGGTGTCTCCTTTATAATATTAGCTATATTAATGTGAAGGCAATGGTCCAACAGAAAACTTTACCTTCTTCAGAGTCTATTGGTCAGAACTTGGCTAATGATTAGGTACCTCTTGGTGCCTCTAGTCTTACGGAGGTGGCTTGTCAAAATCAAGTTCGTAGATAATATACTATTAAGTGGTCATCGATTCCCTTGTCTTTGTTCATTAATAAAGAGGCGGTTTCCTTTAGTAAAAAGGGTCATCGATTCCCTTGTCTTTGTTCATTAATAAAGAGGCGGTTTCCTTTAGTAAAAAGGGTCATCGATTTCCTTGGAGCTTCACAGAGGTTGTTTTATTCATTAATCTCTCTTCATTGACCAGTCATGAAGAAATAAAATTTGGTTCCTTTCTAATTGTTTCTCCCTTGGCATTTGTTTATTTTACTTTTGTGTTTATTGTTTGTTGTTATCTCTACGATTTTTAGGTTTCTTTTTCTCATTGTATTTTGTATTTTGGATTCATTTTCTTAATGGAGAATGCAGTATTCTTTCCCAGAAAAAAAATGTTGTTTTCAAATATAGAAAAATTAACCAAAATATTTACAAATGTAGCAAAATATCACTGTCTATCAATGATAGAATTTAGTAGATATTGATAGACTACTATTATCTATTATTGTTAGACTGATATTGTGCTATATTTGAAACTATGTTCAACAATTTTATCATTTAAAACAATTACCCAAAATAAAAAGAAAAAATGTCACTTATGTCCAAATTGCAGGAGTGTAACCTACATTGTACATTCTTGCTTTTAAAAAATTGGATTAGAATTTTTATTTCCTACATTGCTTGAGTTATTTTTCTCACTTCCATGGGTTGTGTATTTTATAGTTGAAATATCTAGTTAAATTTTCATGTATTCTATTTCACTTTGAAAACTAGTTTATGTTTTGCATGCACAGCACAAATTCATTGAGAAATGCAGATGTGGGGCGTCGGCAATGTTGCCCAAGATTGAAAAAGCTAGGAAAATCAGGACTTTAATGGCTCAACAAGCACAAAGTATTGCTCCAGATGCATCAGGAGATGGTGTAAGGGCTTAAACTCTCTCCACTCTCCCTTCTGTTCTTGCTTGCTCAACGTGCATGCATACTGTGTGGTTAAGAATTTCCTCATTCAGTAATCTTTTTATTTGAAACAGACAATAGTAGCTGCAAATTTGAATCAAGATTATGGAGATACTGTTCCTTCAAAGCCTCAGAATATTGGACTTCAGGTAGCAAGTGAAATAGCAGGCTCTGAACTTGTAGCAGAAGGTATGTATTTCATTATGCTTAATAAAAGTGAATGGGACTGCTATTATTTTTCAAATAGTTGAAATTTGAAAATTTGAGTGGTTGAAACTGCAGTATTGTCATTTTATGAGTTCAAAGGCTAATTGGACTTGCATAGGTTTTCCATTAATTGTTTTTTGTAACATCCTTAGCCCCGCTCTGCAGCTTTTCTTTCCCCCGTTTGGAAAATTTCTCATTTCTGAATATAAGGTTTTTTAATTCACGTGTAAATAATTGCTGTAAGTTTTCGTAATCATCGGTAATCGGTGCATTTGAAACATAGGGTTTTACCTTTGAAAACCCTTTTATAACTCTTGTCTAAACAAGTATAAATCAACAAGAAGTTATTAAGATATCCAAACCAGTTCCAAAATATAACCACAGTAAATCAATAAAATGACTTATAGAACATATCAGAGTCTAAATCACACCCAAGTCCAAAGACCCACCACTGACACTCCATAAAAAATGAGGTGTTTGATGCTTCATAGCTCCTTGGAATACAAGTTCTTCTGGTTACCACTTAACCTGAAATTGGGTTTGTAGTCACTTGGTTATTTCGCTAATCAATCACAACTCAATTTATCCTTCAATAATCCTCAGGGGTAATCACTTCTACCTTAATTCCTCTTTAGCCCTAATTCCCCGACTTAAGGTTTTTGCAAATTAATCCCTTAATTATTCTAAAAATATCTAAAACCACCCTTCCAAATTACCAAATTTAAGCTAAAATGTCAAGAAAACCCTAACTCTTTTTTTGAAAAAAGGAAACAAGCCTCTTCATTAAAATGTGAATGGCACAGCGGTTTAGAAAAACCAAGGGTTTCTTTCTATCTTTTATACACAGTACCAGCACCTACTTTTTTCTCCTCTTGGCGTGACTGCAACCCCTTTCCAGCTCCACCTTTGAGGTGTTCTCGCCCCCTAAGCTTTATATGTAAAGTGTATTGATCAAGTTTAAGCCTTTTCCACCTCCTACTTCCTTCATGTGTGAGATGATCAAGCCAAATTAATCTCTTTCCACGTCATACTTGGAGTTAGTCAAGTTTCCTTCTTATTTTGCCACCCCCGCTTCTAACCTTTACTTGGCTCTAGTTATCAACTTAACATCCCCTTAAGCAACCCCAAAAGATTGCATACATCAAAGTTCAAGTTCAATTTTTTGCTATTAGCACCTAAATTAATTCTTCCCCTAAATCAAGTGATTCTGAGAATTAGTCTGTATTTTGTTTTTTGTTATTTGGAACTATGTTTTCTCACCATTTTTATATTTTGGTTTTCATATTTCCTAAGAAGTATTTAAATTTTGGGTTCCCAATTTTAAAGAATTCCTGCCAAGATGACAGATACTGCCGTAGCTACCTCTGCATGGGCTTTGGGTTCCCAAGTATGAACTGGTACCATAGACATTTTGATTGCGAAAAAGGCAAAAGAATAATTTTTAGTCAAATTCTGAAAACAAATTTCAAAATTTTTTATTGTTTTTAAAATGTGGCTTGAATTTTGACAACACTCCTAAAAAGTAGATAAGAAAAAGAAAGAAACCAGTGTTAGAATTAGTGTTTAGAATTTTAAAAGATGAAGCTTTATTAAGAAAGCTATCACCTCGATGGGGCCTAAAACATTTGATTTTAGTAATAAGTTAGCATTTCCCAACAGGTCTTTTAAAATTGACACATTCAAGGTATGCATATTATGTATATTTGTAGGTACTTTTGGCACTGTAATAGTCCATGATGGAGATGAGAATGATAAGGTGGCCTCTCAACTGGATATAGGCATTGCTGAACCACCAACTGGTTCCTTACGCAATGAGAGCCTATCCATTAACGTAACTAGAGTTGACTCTAGGTACTCTCTTTCTGATATTGCTGATGTGTTTTATTTCATTTCTTCGTTTGTAGATTAATTGTCTTCAGTCTCAATGATTTTGCTATCAGTTATAAGAAACAATGTATTGTCATTTTATCTCATAATTTTGCTACCTCTTGTATCATTTGAAATCTAATCTTTGTGAATCTTCTGTAGTGTGCGTACAGGAGGAATTGTAAATAATATTCTTGATGGAAAATCGGATCCCACCATGCCTGCATCTTTACCTTCATTTTTGGGTATTCATGAGCTTAGCACATTGAAGAGTGAAACTGTCAGCCGGAAATCATTTGCTCTGCAGGACAAGGTAACTTTAACTTTAAGTACAAATGTGTTTTCTCTATGTTGTTTCTCAAGTTTCATGTTGATTACTCTAGATAAAGCAATGAAGTGGGACATTTTTTATTCCAATGTTTCTCCTTCTAGTACAATATTTTTCTCCATCTTATGACTATTTTTCCTGACGGTAAAGAAGATCTCTTTGGTAGGTTGTACAACTGTGTCTATGAGTTGTGTGTGTATGTGATACATATATCTTGGCAATTGTAATTCTCGTTTGGTCAATGCAAGTTGGAAAAACCTTTTATAATACTTTGGCTTTGAATTATTTGAGTACTAATCATTTGTCTTCTTGGGGGTGGTATTGTACTGCACCACTACCACCCACTCATCTCGGCAAAATTAGTAAACAGCTAGCTAGTGGGTTAGGGTTTTAATTGTAAATGAAAGGAGTGGGTTGAGAAGGAGAAGTGAAGAATTTTGTGAGGGATTCCCTAATTGGGGAGTTCGGGAGAGGATTCTTAGTCCTCTTGAATGTGCTGAGGTATATTGTAATTTCTTCTTGAAATTGCAATATAAATCTATCTTTTAGTGTTACTCATGTGCTCTTTATGTTCTTGAGTATTTCCTTGTTAGGTGGGATCCTAACAAATTGGTGCTAGAGCTGTTCTTTCTTGGGTATTGTTCTGTGTATCAATGGAAGAACCACAGACATGAGAGTGAGTGCATAAATGGATTGCTGATCGCAAACGTGAGGTGGTAGAGAGAGGAGAAACTCCATGGACGTCAGAGCAAATGCAGAATTGGATGGGAGATTGCAAGTATGAAAGAATTGAAAGACAAATCCGAGAGAAGTCGCAAAAGACTGAAGGAGAAGATCATAATGAAACACTCTCGGAAATACAGAGAGATACAAGAGCATTGCAACAAAGGATCAAGGATACTATCCAAAGAGAGAAAGAGAACAGAGAAGAATAGTAGTTACGAAAACAGAGAGAAGAAATTGCAAAGAAAACGTCTTGAAAAAACAAGCAAAGCAGGTGGTGTTAGCCAGTTCTGAAAGTCCAATGAGCTTATGATCAAATTTTCATCCGTAGAAGAATGTGCTCAAATGTTGAAAGGCATCAATGTAGAAGAAATGATGTTTGTTACAGAAAGCTTCGTTGAATGAAGATAAGGTGAAATGAACGACAAAAAGATGCCATCGGTGGAAGAAAAGAAGGGAGTTGATGGGGGGATCCACAGCAGCAGGGGAGAAAAAGAGAATAAATGTTGACTTAAAAAGGAGAAATCAAAGAAGAAAAAACTTGATCGTTGGTGTCCATGGCCAGCGGTGAAGGGTGAGATGGAACTGGAAACATAGATCAAATAGATTGGTATCCCAAAGAGATGAAGTGATGAGTGTGGGAAAAATAATTGAAGGAAGAACAAAGAAATTGGAGAGAAAGGAATGTAAGAACAAAATCGGGGGCAGCTGTCGTCGATGGAGAACAAAATTGGAGGAGGCTTGAAAAGAGGAAATTTTCATGAAGAGAAAAAAATGTTCATGCCCACGTGAAGTCTCAGAAAGTGGGACCAGTTGGAAAACAAACCACCCTAATTTTCGTGAGGGTCCTTGGGCTGGGATTGCAGGCCCATCTATTTTCTTCCGTTCAACAGGAGTAATGTTCTTTAGGAGAGGGAGGGGTATGTAAGAAACTGGGAAGGAAGTATGGCATACGATTAGGGTTTTATGAGGTTGAGCTAAAGATTGCGCCAACCCAATAAGAAGGGGCTCAATATGTTAATTCTCCAATACATGGACAGTGGGTCTCGATTAAAATTAAGCTGAAAGCTTTTTGCTCTTCAGCTGCTTAATGAGGAAAGTGGGCCTAATATTTTATGTGATGAATTAATTGAAGCCCATGTGTGTCCACAGCAGCAGATTGGAAGAATTTTATCCAAGGTTGAAGAAAATGCAAGTAGCTGATCTGGTTCGGTAAAAAAAAATTGTATTTCTTTGTTTGGTACCCACGCCTTTGGGACAAGTTGTGTTTTCAAAGGGTGAGTAATATAAGGGACCTAATTAGAGATATATGGGAGAGAATATTAGTATGTTTATTAGAGGGGGAAAATTAGTAAATAATTAGCTAGTGGGTTAGGGTTTTAGTTATATATGGAATAAGTGGGTTGAGAAGAAGGGGTGAAGAATTTTGGGTGATTCATACCGATGGTCTTCATTTGGAGGCCCAAATGAAAAATGATCCAATTTTGAAAAGTGAATGAAAAGCGGCCTCTTGCTTGTAATTTGTCTCTGAAAATCACCTGCACACTTGCAACTGACCAACACTACTGAATGCACAAAACTTGATGCTCTATGCTTAGTACTTGATACTCAACATTTTATTTATGCTATATACCACTCGATGCTCGATACTTAAAGAAACACAAAAGTAAAGGGAAAAAAAACAGTAGAAAGGCAGAAAAACAGAAGAAGAAATCCAATAAAAGACAACAAAAAAAGTAAAATGGAAGAACTACCAAAAAAACACAAAGAAAAGAATTGTAAAAACAGAAGGAAAATGGAAGAAAGGAAGAAAAAACAGAAAAAAGCTGCATAGAAAAAAAGAGAAGACAACATTCTTCAAGGTTAAAGTGGTAATTTTACTGTCCTGTGCAAATTTCCCAAAAATTTTGTGAGAGATTTCCTTATTGGGGAATCTGGGAGAAGATTCTCAGCCCTCTTGAATGTGCTTGAGGTTTATTGTAGTTTCTTGATATTGCAATATAAGTCATCTTTAGTGTTCCTAGTGTGTTTGAGTATATCCTTGTTAGGAAGATCCTAATACAATCATAAGCCTTGATTTATCATATAATCGCTTAGTTATATTTTAGTTAATGTTTTGCTTGTCATTCACATGATGAGCCTTTTCCCTTGGCCCCTAAGCTCGTTTGCTTCTTTGGCGGCCCTACTACAATTTCGTTTTCTTATAAATAAATAAATAAGTGGACCTTTTGCCTTTGCAGCTCTGGTCCATTTATGCAGCGGGTAATACTGTGCCCATTCCGTTCTTGAGGGCTACTGACATATCCCCCATTGCTTTGTTATCTGACAACGTCCTTGGAGGTGTGCAGCATGACAATAGGGGTACTGTAGCTGTGGAAACGCTTCAGGAACTTTTCACCGGTGATGGACAATCAAAAAAGGGTCGTAGGGGACAAAATGAGGTTCTCTCTTCATGCACTTCCCTGAATCCATGTTCATTTATCTCCTGAACTTCTAAAACATTTGTTCTTTTCGCTTTTCGCATTGCAGATGCCTCTTCCACCCAGTGTTTATCAAAGACTTACTTCAAGTCCAACACTATTGAACCTTGCCCAGGCTTTAGCTTACCACAGAATGTATGTCATCTTATTTCTTATTATTGTTATTATTTCTGTTTTACAAGCATAAACTTGAAGAATAACCAAATATCTGGTGATCTGGTCTCCTAACAATATTGGAGCACTCAGAAGAAATATCCACCTGCTGTCTCTCTCCTTTGCTGTGTATCACTCCTTCAGTTCTTTCACCTCAGTCCTGACCTGTTGCTACATCAACGTGCATTCATTGATCCTTTGAATTCATTTGTTAACCATTTCATTTTAATTAATTATTATTTTTCCTAAAATTAAACTTATTCTCTCTTTATTTCTTACCTGATTTGCATGAATTCTAAGCCAAATTCCAAAAACAAGTTTTTAAAAACTAATTTTTTAGGTTCCTTTTAGTAACTATTTTGTTTTTTAAAATTAATCCTATAGGTAGTGCTTTCACAACCAAAATTCTTTTTTATCTACTTTTTATCGATAGTTTAAAATAAGACAAATTTTGAAAACTAAGAAGTAACTTTAAAATTTTTGTTTTTATTTTGGGATTTGACAAAGAATTCAACCATTAGAAAAATAATGCTTAATTTAACAAGAAAAAAACACAGAGAACAAGGCTCTTGTTTTCAAATTTTGGCCTAGTTTTTAAAAGTAGATAAGGAAACAATAAATTTAGTGGAAGAAGGGATATTTTATAGGCTTGATTTTCAAAAACTAAATACTAAAAACCAAATGGTTACTAAACGGGATCTTGATTGTTGTATTGACATTGAAGTTAAAAAAAAGTCTTATGTATGTTTCATAGTTGGTTTGGTATTATACAAGGCTGGGCTTGTATCTGTGATAATTTCTTAATAGTCTGCTTCTTTTTAAGAAATAAAGTAATCTCTCCATCTGTTTTTTCTTTGTAATTTTAGAAGGAAATTTGAATTTGAATTTGTTGCAGGTGTTACGAAGATATGCCACTTCAAGAGTTGCAGGCAACTCAAGAACAACAAACCATTCAAAATCTTTGTGATACTCTGAGAACTATCCTCCGATTGTAGATAATAATCTTTCTTCTGCCGTACTCGTTGTTTTTCTTCCCTTTTCTTTCTTTTCATTTTATCACACTTCCTTCCAAATGTAAGAAAATCACTATTTTCCCCCTCCCCATTATATTTTTTCCTGAAGTTAGTTGAGTGATTATTGTTGCTTGTCTTTGTGCCATTGTTCATTCTTTTAATTTTGATTTTTGGGT ATATGTTCCTTCGTCAGCTTTCTATACCATTCCGTGAATCTCCCTTTCAGGTCCTTGCTGTTCCATGACTTTGTTGCAAAGTGTCTGACAAAAGATCCTCGTTCACGCCCTGCTGCTTCTGAAATGTTGAAGCACAAATTCATTGAGAAATGCAGATGTGGGGCGTCGGCAATGTTGCCCAAGATTGAAAAAGCTAGGAAAATCAGGACTTTAATGGCTCAACAAGCACAAAGTATTGCTCCAGATGCATCAGGAGATGGTACAATAGTAGCTGCAAATTTGAATCAAGATTATGGAGATACTGTTCCTTCAAAGCCTCAGAATATTGGACTTCAGGTAGCAAGTGAAATAGCAGGCTCTGAACTTGTAGCAGAAGGTACTTTTGGCACTGTAATAGTCCATGATGGAGATGAGAATGATAAGGTGGCCTCTCAACTGGATATAGGCATTGCTGAACCACCAACTGGTTCCTTACGCAATGAGAGCCTATCCATTAACGTAACTAGAGTTGACTCTAGTGTGCGTACAGGAGGAATTGTAAATAATATTCTTGATGGAAAATCGGATCCCACCATGCCTGCATCTTTACCTTCATTTTTGGGTATTCATGAGCTTAGCACATTGAAGAGTGAAACTGTCAGCCGGAAATCATTTGCTCTGCAGGACAAGCTCTGGTCCATTTATGCAGCGGGTAATACTGTGCCCATTCCGTTCTTGAGGGCTACTGACATATCCCCCATTGCTTTGTTATCTGACAACGTCCTTGGAGGTGTGCAGCATGACAATAGGGGTACTGTAGCTGTGGAAACGCTTCAGGAACTTTTCACCGGTGATGGACAATCAAAAAAGGGTCGTAGGGGACAAAATGAGATGCCTCTTCCACCCAGTGTTTATCAAAGACTTACTTCAAGTCCAACACTATTGAACCTTGCCCAGGCTTTAGCTTACCACAGAATGTGTTACGAAGATATGCCACTTCAAGAGTTGCAGGCAACTCAAGAACAACAAACCATTCAAAATCTTTGTGATACTCTGAGAACTATCCTCCGATTGTAGATAATAATCTTTCTTCTGCCGTACTCGTTGTTTTTCTTCCCTTTTCTTTCTTTTCATTTTATCACACTTCCTTCCAAATGTAAGAAAATCACTATTTTCCCCCTCCCCATTATATTTTTTCCTGAAGTTAGTTGAGTGATTATTGTTGCTTGTCTTTGTGCCATTGTTCATTCTTTTAATTTTGATTTTTGGGT ATGTTGAAGCACAAATTCATTGAGAAATGCAGATGTGGGGCGTCGGCAATGTTGCCCAAGATTGAAAAAGCTAGGAAAATCAGGACTTTAATGGCTCAACAAGCACAAAGTATTGCTCCAGATGCATCAGGAGATGGTACAATAGTAGCTGCAAATTTGAATCAAGATTATGGAGATACTGTTCCTTCAAAGCCTCAGAATATTGGACTTCAGGTAGCAAGTGAAATAGCAGGCTCTGAACTTGTAGCAGAAGGTACTTTTGGCACTGTAATAGTCCATGATGGAGATGAGAATGATAAGGTGGCCTCTCAACTGGATATAGGCATTGCTGAACCACCAACTGGTTCCTTACGCAATGAGAGCCTATCCATTAACGTAACTAGAGTTGACTCTAGTGTGCGTACAGGAGGAATTGTAAATAATATTCTTGATGGAAAATCGGATCCCACCATGCCTGCATCTTTACCTTCATTTTTGGGTATTCATGAGCTTAGCACATTGAAGAGTGAAACTGTCAGCCGGAAATCATTTGCTCTGCAGGACAAGCTCTGGTCCATTTATGCAGCGGGTAATACTGTGCCCATTCCGTTCTTGAGGGCTACTGACATATCCCCCATTGCTTTGTTATCTGACAACGTCCTTGGAGGTGTGCAGCATGACAATAGGGGTACTGTAGCTGTGGAAACGCTTCAGGAACTTTTCACCGGTGATGGACAATCAAAAAAGGGTCGTAGGGGACAAAATGAGATGCCTCTTCCACCCAGTGTTTATCAAAGACTTACTTCAAGTCCAACACTATTGAACCTTGCCCAGGCTTTAGCTTACCACAGAATGTGTTACGAAGATATGCCACTTCAAGAGTTGCAGGCAACTCAAGAACAACAAACCATTCAAAATCTTTGTGATACTCTGAGAACTATCCTCCGATTGTAG MLKHKFIEKCRCGASAMLPKIEKARKIRTLMAQQAQSIAPDASGDGTIVAANLNQDYGDTVPSKPQNIGLQVASEIAGSELVAEGTFGTVIVHDGDENDKVASQLDIGIAEPPTGSLRNESLSINVTRVDSSVRTGGIVNNILDGKSDPTMPASLPSFLGIHELSTLKSETVSRKSFALQDKLWSIYAAGNTVPIPFLRATDISPIALLSDNVLGGVQHDNRGTVAVETLQELFTGDGQSKKGRRGQNEMPLPPSVYQRLTSSPTLLNLAQALAYHRMCYEDMPLQELQATQEQQTIQNLCDTLRTILRL*
BLAST of Cucsa.372040 vs. TrEMBL
Match: A0A0A0KLC6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G051040 PE=4 SV=1) HSP 1 Score: 609.0 bits (1569), Expect = 3.2e-171 Identity = 310/310 (100.00%), Postives = 310/310 (100.00%), Query Frame = 1
BLAST of Cucsa.372040 vs. TrEMBL
Match: W9QNM3_9ROSA (Serine/threonine-protein kinase dst1 OS=Morus notabilis GN=L484_026442 PE=4 SV=1) HSP 1 Score: 386.7 bits (992), Expect = 2.6e-104 Identity = 217/343 (63.27%), Postives = 247/343 (72.01%), Query Frame = 1
BLAST of Cucsa.372040 vs. TrEMBL
Match: M5XKN6_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa001486mg PE=4 SV=1) HSP 1 Score: 372.9 bits (956), Expect = 3.9e-100 Identity = 213/347 (61.38%), Postives = 249/347 (71.76%), Query Frame = 1
BLAST of Cucsa.372040 vs. TrEMBL
Match: A0A0B0PSZ6_GOSAR (Serine/threonine-protein kinase dst1 OS=Gossypium arboreum GN=F383_01999 PE=4 SV=1) HSP 1 Score: 368.2 bits (944), Expect = 9.6e-99 Identity = 210/349 (60.17%), Postives = 250/349 (71.63%), Query Frame = 1
BLAST of Cucsa.372040 vs. TrEMBL
Match: A0A067GPZ0_CITSI (Uncharacterized protein (Fragment) OS=Citrus sinensis GN=CISIN_1g0040881mg PE=4 SV=1) HSP 1 Score: 363.2 bits (931), Expect = 3.1e-97 Identity = 203/336 (60.42%), Postives = 239/336 (71.13%), Query Frame = 1
BLAST of Cucsa.372040 vs. TAIR10
Match: AT1G69220.1 (AT1G69220.1 Protein kinase superfamily protein) HSP 1 Score: 311.6 bits (797), Expect = 5.4e-85 Identity = 182/343 (53.06%), Postives = 222/343 (64.72%), Query Frame = 1
BLAST of Cucsa.372040 vs. NCBI nr
Match: gi|449449072|ref|XP_004142289.1| (PREDICTED: spindle assembly checkpoint kinase isoform X1 [Cucumis sativus]) HSP 1 Score: 609.0 bits (1569), Expect = 4.7e-171 Identity = 310/310 (100.00%), Postives = 310/310 (100.00%), Query Frame = 1
BLAST of Cucsa.372040 vs. NCBI nr
Match: gi|700194482|gb|KGN49659.1| (hypothetical protein Csa_5G051040 [Cucumis sativus]) HSP 1 Score: 609.0 bits (1569), Expect = 4.7e-171 Identity = 310/310 (100.00%), Postives = 310/310 (100.00%), Query Frame = 1
BLAST of Cucsa.372040 vs. NCBI nr
Match: gi|659098619|ref|XP_008450231.1| (PREDICTED: serine/threonine-protein kinase A-Raf isoform X2 [Cucumis melo]) HSP 1 Score: 593.2 bits (1528), Expect = 2.6e-166 Identity = 301/310 (97.10%), Postives = 306/310 (98.71%), Query Frame = 1
BLAST of Cucsa.372040 vs. NCBI nr
Match: gi|659098617|ref|XP_008450230.1| (PREDICTED: serine/threonine-protein kinase A-Raf isoform X1 [Cucumis melo]) HSP 1 Score: 584.7 bits (1506), Expect = 9.4e-164 Identity = 301/321 (93.77%), Postives = 306/321 (95.33%), Query Frame = 1
BLAST of Cucsa.372040 vs. NCBI nr
Match: gi|703081080|ref|XP_010091594.1| (Serine/threonine-protein kinase dst1 [Morus notabilis]) HSP 1 Score: 386.7 bits (992), Expect = 3.8e-104 Identity = 217/343 (63.27%), Postives = 247/343 (72.01%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
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: None |