Lsi01G020440 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: CDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGTACTAACGAGGTAAAGACAAGATTTATAAAAGCCTTTCATTATTCTCGTGGGAAAGAAGCCCTTGTTATCCCCACTACTTACACTTACAATTGATTCCTCTTCACATTCAATCGAGCCACATAATGTTGGTTCAAAGCAGCAACAGTCTTTGGATCCCGGGTCTTTTAAGCAATCTGTTATCTCTATCCCTCGGTCAAATGTTCAGTTTATTAATGGGTATTCAACCCCCCTTCTCTATTGATTATGATGAGGAATCAATTGTAAGTGTAAGCAGTGACAAAAAGGAATTAGATCAACAACATGAGTTATTTTCATAGGATTTATTTACAAAAGGCTATTATTATCTATTTCCATGTGAAGATAAAGTCTATTGCAATAGCAACACGAGTGTCTTCTCCTTTAATTCCAAACAAATTCTCTTCTCTAGTTGAGGCTTATGGTCTTCAGATGCAGTTAATTCCTCCTAGATCTTTGGGAATTACAATTTAATGGTGTTTGCCTCGTTCAATTAGACTTGTTAGCATTTTTATGGATTTTTTGGGGCTGTTTTATTCTGCTACCAGAGATTCTCAAGTCCCAATTGAATTGGGGTCTTGTTTTCTGGTTATTTATTTTGCTTTATGGTGGTTTCCAGCTCATTTTCGGTTTTCATTCTTCTCCTAGTGCCAAGTTTAGAGTTTTTTGGCCTGTTGCAGTGACTTCTCTCTTGTTAGTTTTTTGGTTTGATATTGGGCTTCATTGGTTTGCTTGTTTTGGTTTGGCGCATTTTGACATAGCAGTTTGACCCCTTACATTCAGATACAATAAATTGTACTGCTAAATGTGTCACCATCAATAGGTGGAGCAACTACACAAGATCTTTAAACTCTGTGGCTCCCCGTCTGAAGAATACTGGAAAAAGTCAAAATTACCTCATGCCACCATCTTTAAACCTCAACATCCTTACAAGCGGTGTGTTGCTGAGACTCTCAAAGACTTCCCTTTCTCTGCATTGGCGCTTTTGGATGTCCTTGCCGTGGAACCTGATGGCCGCGGAACAGCTTCCTCTGCCCTTCAAAGTGAGGTAATCAAATTTTTTCATGAAATTTGTTTATTGGGGAAAAAAAGAAAAAAGAAATGAGCTAAATCTTTTGTTTCCTTCTGTTACAAATTTCCTATTTTCTCGGGGTTTTTGAAGATCAACAAGTTAAAAACTTGTCCAGTACTTGAAATGTTTAGGCTTTGACCGTGCAGTATGCTGACTGATGAATCATCCTGTGAACCACTAAAATTAAACCTGGTTGCAGATTTTAATTAGAGCTGAATGAATATTGTGGGCAGATTGCTCCATCTGATTTTGACTTTCGTTTTTGGTATGAATCAATCAGCTCCTTTTTCATTGTTTATTATTTATTTTTATTAATAAAGTGAAATTGCACAAGGGAATGGAAGTTTCAGGAAGATTATTATAAACTTTTCCAATTAGCAACTAGATCTTTGGACTATATTTTTGAAAAGTGAGATTATATGGGGAAAAAATGCCAAAAAGATTTTTTTTGTTTTTTTCCCTAGTGAAAAGTTACGAATTACATCCCTCTCTTAGGAGTGTGTAATAGAACACTAATACAATAAATAGGCCCGATGCCATTAAGGTTACATAAATGAACAACAGAGCAAGGTCTTCCCTTAGAGTATCCTAAATCGCCAGCAAACCTACTAAGCCAGTTCTTTCAAAATACCTAAGCTGAAGAGAAAATCTTAGACATAAATTCTATTGTGATATTATTCTACCGATAGATATCAAAAGTGGAAGGTAGGGAAGTTTTATTTCTCTTCATTGTTGAAAGTTCTATTTCTTTCAAGTCATGCTTTTCTTCTTAACAAGATACGAACAAAATTGTCTAAGGGAGGATACTAACTCCTAGGGGGAGTGAGAAAGAACCCAAATAAAAGAAAAAAAATCAGAAAGCAAGAAACCAAAGAGGAAACATGCGCCCCATTTAGTAACCATTTGGTTTTTGGTTTTTGAAATTTAAGTTTATAAACACTACTTCAACTTAAAAGTTTCTTTGTTTTGTTATCCACTTTTCTCCTAGGAAGAATGGACACTTCATTTTCGATGGAGTGTCCATGTCCGACACACATTTGACACCGACACGCTCGGACACGTGCCTGACATGTGCCAGACACGCAATTTTGCGTGTCTTGTTTAGTTTTTTTTTCTTTTTTTAATAATCGAACACGCCTGGACATGTCTGACACCCCAAAGACCACCTCTTTTCGTTTTCCAGACAGTTGCTGCTAATGCATCATCGGACGATGGAGAGGTCGGCCGACGTCGGTGTTGGTCAGAAGTGGCGGCGACAGCGTCAGTAGAGCAGTGGCGCAGGAAGGGAGATGGTGAAGGAAGAGCATTATTAGTGTTGTAGCTGTGGGTGGGGAGAAGAGGGAAAGGAAGAATGAGGGAGAAAGGTGGAGGAAGATGGTTGTGCGTGATGTGGCCATGGGTTTCTTTTTTTTAAATGGGTTACACGTTTTTTTTCCTTTTAAAGGCTCTTTTATTTTTCTTTATTTTTTGTATAGGTTATTTTTTTAATAATTAATAAAAAAAAACTAGTATTAATTATTTTTAATACTTAATAAAAAAAACTAGTATTTTTAATGGGCTCTTTTCAAATATAGAAAAATGAGCCAAACTCTTTACAAATATAGAAATTTTTTACAGTTTATCACTGATAGATCGCGATAGAATTCTATCGCTTTCTATCGCTCAGGCGATAGAATTTATTTGCTTGAGCGATAGAAAGCGATAGAATTCTATCGCGGTCTATCATTGATAAACAGTGAAATTTTTCTATATTTGTAAATAGTTTGATATTTTTTCTGTTTATAGTAATTTTTCATTTTTAATAATTAATAAAAAACATTATATTTAATATATACAATATATTTATATATTATTATAAAAAAAATCTGTCCCAACGTGTCGTGTCCTACATTTTTAGAAATTGGCATGTCGCGTGTCTCGTGTTCGTGTCTTGATTCCTAGCTTTTTTGCTAATGTTTGAAAAAACCAAGCCAAATTTTGAAAACTAAAAAAAAGTAATTTTCAAAAACTTGTTTTTATTAGTATAATTGAAGATCGCAAGCAGCTTAAAGATGAGGAAATTTGTGAAGTGCACCAGCTTCTTAGTATAATTGAAGATTGCAGAATCTCTTCTTCACAAGACTCGAGACTGTGGTCATTGGATATTTCAGGAAGGTACTCCGTGAAATCCTTGTCCAAATATTTGATTGCTTTTTCTCCAATTGATAAGATTTGTTTTAAAGCCCTTTGGAAATCAAAGAGCCCCAAAAGAGTTAATATTTTGACTTGGATTCTACTTTATGGATCTCTAAATTGCTCTTCTACATTGCAACATAAGCTTCAAAACACATGTTTATCACCTTCAATCTGCTCTCTATGTTCAGCTAATGGGAAAGACATACAACATTTACTTTTCGATTGTCCTTTTTCAAGTAATTGTTGGCATAAATTTTTTGAATGCTTCAATGTGAATTGAGTTCTCGGGAATTTAGTAAGAGAAAACTTATTGTAACTATTGGTTGGTCCTCATTTATCATCTAGAGCTCAACTTCTTTGGTCTAATGCTGTTAAAGCTTTGATTTTTGAGATTTTGGTTCGAGCGTAATCAACGTGTTTTTCATGATACATCCAAAGATTGGCCAGATAGATGGAGTTCAACCCGTCTTTTAGTATCTTCTTGGAGTTCGCAATCCAAGCTTTTTGAAGATTACTCTATTTAAGACATTTGTCAGAATTGGAAGGTTTTTATTTTCTCTATGTTACCAAGTTACTTATTATGTTTATACTCTTTGATTTCTAGATGTCGTGTATTTCTTGCATTTGGAATAGGATATGATGAGGGTGCTAAGGGGTGTAAACCTAGTTGAGATATCCGCATGCACTTATTGATCCTTAATACTCTTAATACTTTTTTGGATATTTAGTTTCATTGTAATCAAGTTTTTGCTCTTTTCATTATATCAATGAAAAGTTTCGTTTCCGTTTAAAAAAAAAAAACTTGTTTTTATTTTTAGCATTTGACTGAGAATTCCATTGTTTCTCCAAATAAATGTGAAAACTATACTATGAAAATTACGAGGAACTAAGCACAAATTTCAAAAATAGAAAACTTAAAACAAAATTGTTACCAGATGGGGCCTCAATAATTTATGACCTCAATAATCCAGTCTTGAACCGAACCAACCTTACACCTTCTCTGAAAACCCAAAGGAATTTCTAGGATCTTTGACTTGAAACTCAGCATCAATTAACATGGCTTGAATTTCTTGGGAACTTTAGCATACAGATCTGCAAACACCTACTTGAATACAAAATGAAGCTTCTAGCTTCCTTTTAGTTTGTACTTCCAAACAAAGAGGGAAGAGCCATTTCCTTGCAAAGTTTTTCTAGTTCCAAAAATATTTGAACAAATCTTGCCAGTGGACTGATTAATGAGAGTGCATTTTTACTTGAAACTACATATTTGGGAGTGCATTTTCTCTTCACTACCAAAATTTCTAATAATTTTTACTTCGAATTTTTTCGCTAGCTACCTATTTTGAAATGCGTTTATAGAGTTTGACAATGGGGTCTATGGTTTAGTTGGAATTTATTGTCGACATGTCACATCCTAGGTTAGATAAGGTAATCTGGGACAAAATGTGTCATTATGTGCTTCTAAAAAGGCTTTCGTTTCATTAGAAGTAGGCTTAAGCCGTCTATAGCAAGGATACAAAGGATGTAGGAGAGGGGATCCCATGTCTAATTCCTTTTGTAGCTAAGATTTTATCTCAAAAATTGATAATAACAAATGTTGGGTGATAGTGGTTATGGCCGGAAACCGCCGCCGACCACCAATACATCGGTTTTCAGCGGCCAGTTGCTGTTGGTTTCAAAATGAGTGGGGACGCCGGCCGGCCACCACATGGGGCGGCCGGTTGATATTGATCGGTTTTCATAACACCATCAAACTAAAAAAATAGAAAAAGAGGAAGAATCTACAAGAAGAGAAGAAGGGATGGAGAAGAGAGAACAATAAATGGAAAATGAATGGGGAAGAGAAGAAGGGAAAATGGAGAAAAGAGAAGAAAAGAAGAAGGTATAAAGGAGAGAGATTAATAAATCAAATGGAGAGAGATTTAAGGAAAATAAATGATAAAATGGAAGAAGATGAAATTCAAAGGAATGAGAGAGAGAATGAAAAAAGTGGGGCTGGGAAAACGATTGATAATTGATAGAGATAAAAGGGAAAAAGATATGTAAAATGATATTATGGAGAGAGAAGAAATGAAAAATGATTATTACAAATTAATTATGGAAAAGACAAATAATGATCGAAAAGACAAATGAGAGAAAAAAAGGATTATTTGGTTTTTTTAGTATAAATACTTAATGCACATGAATCAAGAAGAGAGTGGTAAAGAATATTTTACTATTTTGTGTTTATTCAACCCAATCAAGGCCTTCATCAGCTGATATTTTGTGTTTATGCATGCAAATCGAGCTACTTTTAATATCTGGTGAATATGTGTTTCAGAGCATCTGACCAACAAAATTTTGGTTTTCAACATTAAAGAACCGACCTCAACCGGAAGTGGATTAAAACCGACCAATTAATACCGGTTTGGTCAGTTTTGGCCGGTTTGATCAGTTTGGTTTGATCACCCTTAGGTGGAGATTGAATCTCCGATATGAAGTGAAGCTTTAACTGTTGAGTTAGTCTCATATCGGTTGATAAAAAAATCCATGTTTTTTTTGTGTCTTATTCCATTTTAATCTGTATACTTTTAAATGTCTAAATTTAGTTTATTTCAATAAATCTTAAATTAGTAATTGTGAGTTTGAAGTTGATTTTTTATCAAAATTGGTTAAATAATAACAATAATTTTCATGCAAGAAACGACAAAATTTGAATGATACTAAAAGTACATCGACCAAAATGGTAGTTTAATGTAGAATTTATATTTTGTTTGGTATAATATAATTCCCAGAACGTTTATGTTGTGTAAATAATTTTCATCCCTTAATTCTATGGTCACGTGCTTGATTCTTATCTTATATTTTTTTTCAGTTCTTTACCACCAAACCACTTCCCGCAGATCCCTCTGCTTTGCCAAAGTACCCAGCATGTAAGGAATTTGACGTGAAGCTTCGAGACAAGGAATCTCGAAGGTAAACTCTTTATTGATTTCCTCAGTCGTGAGAATTATATATCCAGTTGGTCTTGCTTCTCTTTCTGAAATCATCCATTCTTTTATTTTCAAAAACTAGGAGAAGAGCTGCTATCAGTGTTGCACGTGAACATGAAGCAGCTCGAAAGCTTCCAAGAGGATTGAAAGCTAATCCTGCACCTGATGCAAACGCTGAATTGCAGGCATCCATACAGGTAATTAGAAGGTTCCATATGTATTTAAATAGTAGTGTGTTTTAGAAGAATATAACCTTAGGTGGACTTATAATTTAGTTCATTTTTTAAATTCAGAAAAAACAAGGGCAGCAGAATCATACAAGTGTCAGTGAAAAGTATAATCATGAAGAGGACGCTGGCTCTGGCTTTTGCATCGAGCCCCCAAAAGACGCAATGCAAATGCAGCCGACTGCATTGGGCTCTTCGCGAAACATGAGCGGGGATGTGGGTGATAATCTAAGAGGTTCTTCAGTTGGGGCAAAGGGTGCAGAACTTAGAAAACAGAGATCTTATATGCAGCATGGTGCTGGACAGTTATCCCGGTATTCCAATTCCATTGCAGTTCGAGGTGGTTCACGATTTGCTAATTCACACTGGCCAGAAGAATGTTTTAATGTGTCGTATAACCATTTCTGTGGTGAATGTTCAGAAAAGCATGAATGGTCTCATCATTTACTAGACATGCCAAATTCTTCCTGTAAGATAAATGATCAGTCATCTGGAAAAGAGTGTACTATGGTAAAGTATCCAGCGGTATTAGCGTTTTACTCTGCTTTATAATCCATATTTAATAAAGCATTCAATGATCTTCTCATGCTTTTGGAGCTAACCAATTTCCTTTTCATCCTTCAGCAGAGTTATGCTCCGAAGAAGAGAATTCACTACTCAGGACCCTTGATGCCTCCTGGTGGAAACCTTGAGGAAATGTTAAAAGAGCATGAGAAACAAATCCAACATGCGGTGCGCAAGTCTCGTATTGACAAAGCTAAGACAAAACAGACGTACGATGACAAAAGTCAAATGGAATCGTTGCTTCACCATGTGAAAAACAGCAATTGAGCCTTACATTGTCAAAAGTTCAATCTGAGCGGGATGGAGAAGCTTTTCTTTATGTTGGTGAGACTTCCATGGGGAATTTTTCGTTCCTTCAAACTACTTGGATTTCATGAAGCTCCCACAAACAGCGAGGTATGGTCATGCTTAGTTTCGTCAATCGTACGTCAGAGTTCCAAGGTTGATGCAATTTTAGGAAGCAAGATAATTAAAAAAAATTGACTGAGATTTACCTTTCGCGGAGTGGGTTTCAATTCCAGAAATTGATTGAGGTCTCTTTGGCACTTGGCTCAGTTGCTGAAGGAATTTTTTTGTACAGCCTAACATGTGTTATCTAATCAGTTTTGTCTTGTAAAGGGTACAATAGATGTTCTTCCAAATTGAAGATTTTTTTTTCTCTCCACAGGCTTATTTTTTACATTTGTTCAACAGAGCTGCTAAAAGAAGTTAGGAAAAGCAACTTGTTCTTGTTTATTTATCTGCTCTTAATTATGTAACAGTTGGCTCAATAATTTGGTTGGATCACTGTAGTAAATATCAATCTCTGTTTGTTCATATCTTTGCAAATGAATCTGTTGATTTGG ATGAAATACTGGAAAAAGTCAAAATTACCTCATGCCACCATCTTTAAACCTCAACATCCTTACAAGCGGTGTGTTGCTGAGACTCTCAAAGACTTCCCTTTCTCTGCATTGGCGCTTTTGGATGTCCTTGCCGTGGAACCTGATGGCCGCGGAACAGCTTCCTCTGCCCTTCAAAGTGAGTTCTTTACCACCAAACCACTTCCCGCAGATCCCTCTGCTTTGCCAAAGTACCCAGCATGTAAGGAATTTGACGTGAAGCTTCGAGACAAGGAATCTCGAAGGAGAAGAGCTGCTATCAGTGTTGCACGTGAACATGAAGCAGCTCGAAAGCTTCCAAGAGGATTGAAAGCTAATCCTGCACCTGATGCAAACGCTGAATTGCAGGCATCCATACAGAAAAAACAAGGGCAGCAGAATCATACAAGTGTCAGTGAAAAGTATAATCATGAAGAGGACGCTGGCTCTGGCTTTTGCATCGAGCCCCCAAAAGACGCAATGCAAATGCAGCCGACTGCATTGGGCTCTTCGCGAAACATGAGCGGGGATGTGGGTGATAATCTAAGAGGTTCTTCAGTTGGGGCAAAGGGTGCAGAACTTAGAAAACAGAGATCTTATATGCAGCATGGTGCTGGACAGTTATCCCGGTATTCCAATTCCATTGCAGTTCGAGGTGGTTCACGATTTGCTAATTCACACTGGCCAGAAGAATGTTTTAATGTGTCGTATAACCATTTCTGTGGTGAATGTTCAGAAAAGCATGAATGGTCTCATCATTTACTAGACATGCCAAATTCTTCCTGTAAGATAAATGATCAGTCATCTGGAAAAGAGTGTACTATGGTAAAGTATCCAGCGAGTTATGCTCCGAAGAAGAGAATTCACTACTCAGGACCCTTGATGCCTCCTGGTGGAAACCTTGAGGAAATGTTAAAAGAGCATGAGAAACAAATCCAACATGCGGTGCGCAAGTCTCGTATTGACAAAGCTAAGACAAAACAGACGTACGATGACAAAAGTCAAATGGAATCGTTGCTTCACCATGTGAAAAACAGCAATTGAGCCTTACATTGTCAAAAGTTCAATCTGAGCGGGATGGAGAAGCTTTTCTTTATGTTGGTGAGACTTCCATGGGGAATTTTTCGTTCCTTCAAACTACTTGGATTTCATGAAGCTCCCACAAACAGCTAGTTTCGTCAATCGTACGTCAGAGTTCCAAGGTTGATGCAATTTTAGGAAGCAAGATAATTAAAAAAAATTGACTGAGATTTACCTTTCGCGGAGTGGGTTTCAATTCCAGAAATTGATTGAGGTCTCTTTGGCACTTGGCTCAGTTGCTGAAGGAATTTTTTTGTACAGCCTAACATGTGTTATCTAATCAGTTTTGTCTTGTAAAGGGTACAATAGATGTTCTTCCAAATTGAAGATTTTTTTTTCTCTCCACAGGCTTATTTTTTACATTTGTTCAACAGAGCTGCTAAAAGAAGTTAGGAAAAGCAACTTGTTCTTGTTTATTTATCTGCTCTTAATTATGTAACAGTTGGCTCAATAATTTGGTTGGATCACTGTAGTAAATATCAATCTCTGTTTGTTCATATCTTTGCAAATGAATCTGTTGATTTGG ATGAAATACTGGAAAAAGTCAAAATTACCTCATGCCACCATCTTTAAACCTCAACATCCTTACAAGCGGTGTGTTGCTGAGACTCTCAAAGACTTCCCTTTCTCTGCATTGGCGCTTTTGGATGTCCTTGCCGTGGAACCTGATGGCCGCGGAACAGCTTCCTCTGCCCTTCAAAGTGAGTTCTTTACCACCAAACCACTTCCCGCAGATCCCTCTGCTTTGCCAAAGTACCCAGCATGTAAGGAATTTGACGTGAAGCTTCGAGACAAGGAATCTCGAAGGAGAAGAGCTGCTATCAGTGTTGCACGTGAACATGAAGCAGCTCGAAAGCTTCCAAGAGGATTGAAAGCTAATCCTGCACCTGATGCAAACGCTGAATTGCAGGCATCCATACAGAAAAAACAAGGGCAGCAGAATCATACAAGTGTCAGTGAAAAGTATAATCATGAAGAGGACGCTGGCTCTGGCTTTTGCATCGAGCCCCCAAAAGACGCAATGCAAATGCAGCCGACTGCATTGGGCTCTTCGCGAAACATGAGCGGGGATGTGGGTGATAATCTAAGAGGTTCTTCAGTTGGGGCAAAGGGTGCAGAACTTAGAAAACAGAGATCTTATATGCAGCATGGTGCTGGACAGTTATCCCGGTATTCCAATTCCATTGCAGTTCGAGGTGGTTCACGATTTGCTAATTCACACTGGCCAGAAGAATGTTTTAATGTGTCGTATAACCATTTCTGTGGTGAATGTTCAGAAAAGCATGAATGGTCTCATCATTTACTAGACATGCCAAATTCTTCCTGTAAGATAAATGATCAGTCATCTGGAAAAGAGTGTACTATGGTAAAGTATCCAGCGAGTTATGCTCCGAAGAAGAGAATTCACTACTCAGGACCCTTGATGCCTCCTGGTGGAAACCTTGAGGAAATGTTAAAAGAGCATGAGAAACAAATCCAACATGCGGTGCGCAAGTCTCGTATTGACAAAGCTAAGACAAAACAGACGTACGATGACAAAAGTCAAATGGAATCGTTGCTTCACCATGTGAAAAACAGCAATTGA MKYWKKSKLPHATIFKPQHPYKRCVAETLKDFPFSALALLDVLAVEPDGRGTASSALQSEFFTTKPLPADPSALPKYPACKEFDVKLRDKESRRRRAAISVAREHEAARKLPRGLKANPAPDANAELQASIQKKQGQQNHTSVSEKYNHEEDAGSGFCIEPPKDAMQMQPTALGSSRNMSGDVGDNLRGSSVGAKGAELRKQRSYMQHGAGQLSRYSNSIAVRGGSRFANSHWPEECFNVSYNHFCGECSEKHEWSHHLLDMPNSSCKINDQSSGKECTMVKYPASYAPKKRIHYSGPLMPPGGNLEEMLKEHEKQIQHAVRKSRIDKAKTKQTYDDKSQMESLLHHVKNSN
BLAST of Lsi01G020440 vs. Swiss-Prot
Match: Y1960_ARATH (Probable serine/threonine-protein kinase At1g09600 OS=Arabidopsis thaliana GN=At1g09600 PE=3 SV=1) HSP 1 Score: 255.0 bits (650), Expect = 1.2e-66 Identity = 173/349 (49.57%), Postives = 218/349 (62.46%), Query Frame = 1
BLAST of Lsi01G020440 vs. Swiss-Prot
Match: Y1461_ARATH (Probable serine/threonine-protein kinase At1g54610 OS=Arabidopsis thaliana GN=At1g54610 PE=1 SV=1) HSP 1 Score: 135.2 bits (339), Expect = 1.4e-30 Identity = 86/194 (44.33%), Postives = 120/194 (61.86%), Query Frame = 1
BLAST of Lsi01G020440 vs. Swiss-Prot
Match: CDKC2_ORYSJ (Cyclin-dependent kinase C-2 OS=Oryza sativa subsp. japonica GN=CDKC-2 PE=2 SV=1) HSP 1 Score: 73.9 bits (180), Expect = 3.8e-12 Identity = 41/93 (44.09%), Postives = 56/93 (60.22%), Query Frame = 1
BLAST of Lsi01G020440 vs. Swiss-Prot
Match: CDKC1_ARATH (Cyclin-dependent kinase C-1 OS=Arabidopsis thaliana GN=CDKC-1 PE=1 SV=1) HSP 1 Score: 65.9 bits (159), Expect = 1.0e-09 Identity = 43/122 (35.25%), Postives = 63/122 (51.64%), Query Frame = 1
BLAST of Lsi01G020440 vs. Swiss-Prot
Match: CDKC1_ORYSJ (Cyclin-dependent kinase C-1 OS=Oryza sativa subsp. japonica GN=CDKC-1 PE=2 SV=1) HSP 1 Score: 63.5 bits (153), Expect = 5.2e-09 Identity = 41/109 (37.61%), Postives = 58/109 (53.21%), Query Frame = 1
BLAST of Lsi01G020440 vs. TrEMBL
Match: A0A0A0KM83_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G247650 PE=4 SV=1) HSP 1 Score: 461.8 bits (1187), Expect = 7.2e-127 Identity = 240/304 (78.95%), Postives = 263/304 (86.51%), Query Frame = 1
BLAST of Lsi01G020440 vs. TrEMBL
Match: D7TGR2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0035g01180 PE=3 SV=1) HSP 1 Score: 391.7 bits (1005), Expect = 9.2e-106 Identity = 226/375 (60.27%), Postives = 263/375 (70.13%), Query Frame = 1
BLAST of Lsi01G020440 vs. TrEMBL
Match: A0A061DX63_THECC (Serine/threonine-protein kinase cdk9 OS=Theobroma cacao GN=TCM_006129 PE=3 SV=1) HSP 1 Score: 389.4 bits (999), Expect = 4.6e-105 Identity = 222/372 (59.68%), Postives = 259/372 (69.62%), Query Frame = 1
BLAST of Lsi01G020440 vs. TrEMBL
Match: M5Y3L9_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa002233mg PE=3 SV=1) HSP 1 Score: 361.3 bits (926), Expect = 1.3e-96 Identity = 213/368 (57.88%), Postives = 247/368 (67.12%), Query Frame = 1
BLAST of Lsi01G020440 vs. TrEMBL
Match: U5GH78_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0004s23550g PE=3 SV=1) HSP 1 Score: 336.3 bits (861), Expect = 4.6e-89 Identity = 208/369 (56.37%), Postives = 245/369 (66.40%), Query Frame = 1
BLAST of Lsi01G020440 vs. TAIR10
Match: AT1G57700.1 (AT1G57700.1 Protein kinase superfamily protein) HSP 1 Score: 283.9 bits (725), Expect = 1.4e-76 Identity = 182/354 (51.41%), Postives = 227/354 (64.12%), Query Frame = 1
BLAST of Lsi01G020440 vs. TAIR10
Match: AT1G09600.1 (AT1G09600.1 Protein kinase superfamily protein) HSP 1 Score: 255.0 bits (650), Expect = 6.8e-68 Identity = 173/349 (49.57%), Postives = 218/349 (62.46%), Query Frame = 1
BLAST of Lsi01G020440 vs. TAIR10
Match: AT1G53050.1 (AT1G53050.1 Protein kinase superfamily protein) HSP 1 Score: 216.1 bits (549), Expect = 3.5e-56 Identity = 142/348 (40.80%), Postives = 212/348 (60.92%), Query Frame = 1
BLAST of Lsi01G020440 vs. TAIR10
Match: AT5G50860.1 (AT5G50860.1 Protein kinase superfamily protein) HSP 1 Score: 146.4 bits (368), Expect = 3.4e-35 Identity = 93/213 (43.66%), Postives = 132/213 (61.97%), Query Frame = 1
BLAST of Lsi01G020440 vs. TAIR10
Match: AT1G71530.1 (AT1G71530.1 Protein kinase superfamily protein) HSP 1 Score: 137.9 bits (346), Expect = 1.2e-32 Identity = 91/217 (41.94%), Postives = 125/217 (57.60%), Query Frame = 1
BLAST of Lsi01G020440 vs. NCBI nr
Match: gi|778701651|ref|XP_011655061.1| (PREDICTED: probable serine/threonine-protein kinase At1g09600 isoform X1 [Cucumis sativus]) HSP 1 Score: 580.5 bits (1495), Expect = 2.0e-162 Identity = 297/360 (82.50%), Postives = 320/360 (88.89%), Query Frame = 1
BLAST of Lsi01G020440 vs. NCBI nr
Match: gi|659114270|ref|XP_008456983.1| (PREDICTED: probable serine/threonine-protein kinase At1g09600 isoform X1 [Cucumis melo]) HSP 1 Score: 573.2 bits (1476), Expect = 3.2e-160 Identity = 299/360 (83.06%), Postives = 320/360 (88.89%), Query Frame = 1
BLAST of Lsi01G020440 vs. NCBI nr
Match: gi|778701658|ref|XP_011655063.1| (PREDICTED: probable serine/threonine-protein kinase At1g09600 isoform X2 [Cucumis sativus]) HSP 1 Score: 567.8 bits (1462), Expect = 1.3e-158 Identity = 294/360 (81.67%), Postives = 317/360 (88.06%), Query Frame = 1
BLAST of Lsi01G020440 vs. NCBI nr
Match: gi|659114274|ref|XP_008456985.1| (PREDICTED: probable serine/threonine-protein kinase At1g09600 isoform X2 [Cucumis melo]) HSP 1 Score: 564.7 bits (1454), Expect = 1.1e-157 Identity = 296/360 (82.22%), Postives = 316/360 (87.78%), Query Frame = 1
BLAST of Lsi01G020440 vs. NCBI nr
Match: gi|700195593|gb|KGN50770.1| (hypothetical protein Csa_5G247650 [Cucumis sativus]) HSP 1 Score: 461.8 bits (1187), Expect = 1.0e-126 Identity = 240/304 (78.95%), Postives = 263/304 (86.51%), 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 Lagenaria siceraria
Date Performed: 2017-09-18
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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