CmaCh09G010050 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: exonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTACCAACATCGTCTAATACCTTCGTAACAAGGTCAATAGATATTCCAAGGAGCAAAAGACGATTGAGGCGCACTAAGAGTGCTCCTCATTCGGGTTCTCCTCATACAGAGACCACCAGCACCGCTACTGGTCTAGTTCCACGTTCAGGATTAGTTTTTGGAAATCTACACCCGAGTTTTATAAGAGTAGCCTTAGTTTTAATAATGTACTTGGGTATAGGAACTTTATGTGTTTACCTTGTCAGGCACCAAATCAAAGGGGGAAAAACCAACGGAGTAGTTGATGCCATTTATTTCACTATTGTGACAATGACAACCGTTGGATATGGTGATCTTGTCCCAAACACTCCTTCCACAAAGCTACTAGCTTGTGCTTTTATGTTCACAGGAATGGCCGTAGTTGGCCTAATATTAACCAATGCAGCTGATTATTTGGTAGAGAAGCAGGAGATCTTTCTATTTAAGGCCTTCCATATGCACCAAAATGGTTCTTGCGGCAGAACAGAAAAAATTGATACTAATAAAGCTAGAAATAAGTGTATAGTGGTGTTTCTTTTTCTTCTTTTGTTCATAATTTCTGGGACTGTCTTTCTAGTTACCCTTGAGAAGTTGGATTTTATTGATGCCTTTTATTGTGTATGTTCTACCATCACTACATTAGGCTATGGAGATAAAAGCTTCTCGACCCGGTGGGGGCGTCTATTCGCCATTTTCTGGATCTTGATAAGTTCCATCACTCTGGCTCAGTTTTTCCTTTATATTGCTGTGCTAAACACTGAAAGAAGGAAAAAATCTCTGGTGAAGTGGGTTCTAAGTAAAAAGGTGACAGTCTTGGACCTCGAGGCTGCAGATCTCGATGATGATGGGGTCGTCGGGTAAGTCATAGTTTGTTCTTTTCATCACACTTCTCTATTAGGTGGTCTCATTGTGAGATCCCACATCAGTTGGGGAGGAGAACGAAATATTCTTTATAAGAGTGTGAAAACTTTCCCCTAACAGACGTGTTTTAAAAACCTTGAGGGAAAGTCTGAAAGGAAAAAAGCCAAAAAAGAACAAAGCTTGGGCGTTACACTCTTACTCACTCTGAACACACCCATTCGTTTCTGATGAGACCTCTAGCATGTTTACGAGATTCACATACGTTTTCGAGTTGGAGTTTATTAAATTTCCATTGATCATTTCCTTCTTAAACTTCCACAGGGCTGCAGAATTTGTCATATACAAGCTCAAGGAGATGGGGAAAATCACTGAAGATGACATTTCACCTGTTCTGGACGAATTTGAGAATCTTGATGTTGATCAATCAGGAACATTGTCCATATCTGATATAACACTTGCTCAATCATCTTAACCAAAGAGGATGACGGTTGCCTTCCTCGACTGTTTTTGCAATGTTTTTGTAACAGTCCAAACCCTCTGCTAGTAGATATTGTCCTCTTTGAGTTTTCTCTTATGGACTTTTCTTGAAGGTTTTAAAACGCGTCTACAAGCGGTGAGCTTCACCTATTACGAATGGTATCACAACGAGACACCGGACGGTATGCCAACGAGAATGCTAGCCTCTAAAGAGAGTAGTTCGTGAGATTTCATGTGAATTGTGCACAAAAATATTTTAATTGAGAATTTTTAAATGAAAAGTATATTAGAGGGTATAAATTATATTACTTGTTACCATGATCATCAAACTGATCAAACTAAGTTTAAGGTGCATTTTCTTTATAGAATTGAAATTTTAGGGTAAAAATCAACGTTTTTTTTTAATTTTTTATTAGAGACGTGTTTGAGAGTAATTTTAAAATTGTTTAAAATACTTTTCTCATATTTAAAATAATTTCAAAACAAATATTTAATAATTTAAAATTAAATTTTCATTATTAAATGTGATTTGTATGAATCAAAATTGATTTTGACTTCTGACTTAAAGTAACTTAATAGTTAATACTTTATTTAAAAAAATACTTAGAAATTAAAATTTTTTAAAATCTTTATATATATATATATATATATATATATTTTTTTTTTCCATTTAATTTTTTTTAAGAGTAATATATGTATATTTATTAATTCACGATTAATTTAATTAAAATACAACTAAATATAATTGGGAAGGCAGCCCTCAATCCGCTGCATTTCAATTTACAGACCTTTCATGGCGCCTGGGACTGTGACTGCTCGAGCCACAGGCGCCATTATTGCCGCCATCTCTGTTTCTATGGTCCTCTTCTCTTACCTTCTTCGCAAACACCATTCGAAGGATCATTCGAGTAAGAACACAAAATCCTTCTCTGTATCTAAGAAAAGTCCAAGAAATGGGCCCGTAGGTGCCATTGGCAATACCCCTTTGATACGGATTAATAGCCTCTCCGAGGCCACTGGTTGTGAGGAAAGTTTCATTTCTCTCTTCGACTCTTGAATTGTTTTGATTTGATTGAAGTTTTTCTTCTGTTTACTGATTTCTTGTTTGGTTTTGGTTTAGTTCGTGAAATTTATTGCTTATTTGAACTGCATGTGTCTCGTATAATGTTTGATGTTTTGTTTTACTCGGATTTCAGATTCTTGGGAAGTGCGAGTTCTTGAATCCGGGTGGAAGTGTGAAGGATAGAGTTGCAGTTAAGATCATTGAAGAGGTGAGTTTATTTACTTTTTTCCTGATGCAGCTTCTGGATTCTTGATGGATGAACAGGGAATTCTGAAGAATTTCCATTGTTATTAGGATAATTCGATTACAATGTTGGTCTCGTTGAAATATTGGCAGCTGGGAAGAAACTTAAATGTTTCTAATTGTATTGAATAAATTTTCAGTATAGGCTTCCCTCATCTGTACACAGTTATGTAATATTATCTGCATATTGCGAATTGTGAATGAACTTTGTCATATGTTCAACCTATGATCCTTCCATCAATCCCTCAATTCACTCAGTTTTCAGAAAAATCACTTGGCACATCCCCCTAAAAGGAGGAAAAAGTGAGGTGAGAGGGGGTACCTTTGTCTTAAATTCTTGATGCTGTGATGCTGCTTCTAGGCTTTTGATTAAGATTGAATGTTTAGTATCTTGGATGCAACCATTGATCTGTTTTATATCACCTTTACCCAAAGCCCCTTTTCTTAAGCTTAACAAGCAAAGACTTCCAATCCATAGGCCATCTCCAAGTCAAATTTTGAGACCCAATTCTTTTTACTCGTCCTAAAATGTAATGACACAAGCCCACCGCTAGCAGATATTGTCCTCTTTGGGCTTCCCCTCAAGGTTTTTAAAATGCGTCATAGCCTAACATCAGGCGATGTGCTAGCAAGGAGACTGAGTTCCGAAGGGGGTGAACTCGAGGCGGTGTGCCAGCAAGGGGGGTGGATTGGGGGTTCCATATCGATTGGAGAAGGGAACAAGTAACTGCGAGGACGCTGGGCTTTGAAGGGGGAGTGGATTGTGAGAACCTACATCAGTTGGGGAGGAGAACAAAACATTCTTTAAAAGGGTGTAGACTCCTTAGCATACACATTTTAAAAACCTTGAGGGGAAACTCAAAAAGGAATGCAAAAGAGGACAAAATTTGCTAGTAGTGGGCTTGGGCCGTTACATAATATCTTCCATTGGTTCATTTGCACTTAATATGGGGCCAAGGATTTGTCTTCCTTCGGTGTCTTTCATCGTGTACTAGAGAAATTGTGGACGGGATTACCTCTTCTAATCTTTCTATTTATCCATGTTCTCTTATGATTTCTCATGAATTGGCGTTCGAGAGATGGTTTTTGCTATACCATTGGGGGAGGGGGGTTGATGTTTATAGATCCGCACGGTTTGGTTATTTTAGGATCAAAATATTCTAATTGTGTTAAATACATGTTCATAAATTTGTGCCTATATCAACATATAATGTGTCCATGTTAAAAAAAACATGTCACAACTCAGGAAGGTTGTACTGTCCTCATGGGCGAGTACCGAAATCTACCATGCTGTTTTAGCTATTCTAATTTGAGGTTTTTCTTGTAGGCCTTAGAATCTGGTAAGCTAGTTGAGGGTGGTGTAGTTACAGAGGGAAGTGCTGGAAGCACTGCCATAAGTCTTGCCACAGTTGCTCCTGCTTATGGTTGCAAGTGCCATGTGGTTATTCCAGATGATTCTGCTATTGAAAAAGTATGTACATTTTGCATTTATGGACTTTAGTTCCTCGGAAAACAAAATTTTTGATTTCATTGCAACCCCCCGTTACGTTAGTACCCCATAGCTGTTCCATAAATTCACAATAATTCTTCCTTCTTGTATACAAGTCTCAAATACTTGAAGCGCTTGGAGCTCATGTTGAAAGGGTAAGACCAGTGTCAATTACGCACAGAGATCACTTTGTTAACATTGCTAGGAGGAGAGCTGCGGAAGCCAATGAGCTAGCTTTGAAGAACAAAAAAGAAGAGCAACTATTTGTGGGAGGCAAGAAACAAAGTAATGGTCACATTTATGAGGGAGGAACCCAAGAGTCCTCTTTCTCAAGTAATTGCAAAGGTGGCTTCTTCGCTGATCAATTCGAAAACTTGGCGAATTATCGAGCTCATTATGAGGGTACGGGACCAGAGATTTGGGAACAAACTGGTGGGTGTATAGATGCCTTCGTTGCAGCTGCGGGAACCGGTGGCACCGTGGCTGGTGTTTCCAATTTTCTCCAGGTAAACACTCTGCATTCCTTGTCCTCTCAAACCTTGGCGAGGCAATTGTATAAGTTGTCTTATACTTGTTCAACAGGAGAATAATCCAAATGTGAGGTGTTTCCTCATAGATCCTCCTGGCTCAGGCCTGTTCAACAAGGTGACTAGAGGAGTTATGTACACTAAAGAGGAGGCTGAAGGACGAAGATTAAAGAACCCTTTTGACACAATAACTGAAGGAATTGGAATCAATAGATTAACGCAGAATTTCTTGATGGCAAAACTTGACGGGGCATTTCGTGGAACAGACAGGGAAGCCGTTGAAATGTCAAGGTTAGTGGCCATTGTAGAGCTCATTTCTTGATTTTTTGCGTTAATGGGGTTGTAATTTATAGTTCTAAGAGTGCATCAATATGTTTTCTTCCCAAAAAGTGGCGATTCAAAAGCCAGTTTCTTAAATTTTATGCTTCAATTTGAGCCACACTGATCATTCTTCTTGTTGCTACATTATTGACTCAGATATCTGTTGAAGAATGATGGGCTCTTTCTAGGGAGCTCTTCGGCCATGAATTGTGTTGGAGCTGTGAAAGTGGCACAGTCACTTGGCCCTGGCAACACTGTTGTCACCATTCTTTGCGACAGTGGAATGAGGCATCTGAGCAAGTTTTTCAGTGCAGAGTATCTGAGTCAATACGACTTGACGCCCAAGGCTACCGGCTTAGAATTTCTGGAATCCAGGTGATGGTAGACCTACGAGCCACAAAATCTCGTGTTAAAGAGCCTGGAGGTTCTCGTGTTAAAGAGCCTGGAGGTTCTCGTGTTAAAAGAGCCTGGAGGTTCTCGTGTTAAAAGAGCCTGGAGGTTCTCGTGTTAA ATGTTACCAACATCGTCTAATACCTTCGTAACAAGGTCAATAGATATTCCAAGGAGCAAAAGACGATTGAGGCGCACTAAGAGTGCTCCTCATTCGGGTTCTCCTCATACAGAGACCACCAGCACCGCTACTGGTCTAGTTCCACGTTCAGGATTAGTTTTTGGAAATCTACACCCGAGTTTTATAAGAGTAGCCTTAGTTTTAATAATGTACTTGGGTATAGGAACTTTATGTGTTTACCTTGTCAGGCACCAAATCAAAGGGGGAAAAACCAACGGAGTAGTTGATGCCATTTATTTCACTATTGTGACAATGACAACCGTTGGATATGGTGATCTTGTCCCAAACACTCCTTCCACAAAGCTACTAGCTTGTGCTTTTATGTTCACAGGAATGGCCGTAGTTGGCCTAATATTAACCAATGCAGCTGATTATTTGGTAGAGAAGCAGGAGATCTTTCTATTTAAGGCCTTCCATATGCACCAAAATGGTTCTTGCGGCAGAACAGAAAAAATTGATACTAATAAAGCTAGAAATAAGTGTATAGTGGTGTTTCTTTTTCTTCTTTTGTTCATAATTTCTGGGACTGTCTTTCTAGTTACCCTTGAGAAGTTGGATTTTATTGATGCCTTTTATTGTGTATGTTCTACCATCACTACATTAGGCTATGGAGATAAAAGCTTCTCGACCCGGTGGGGGCGTCTATTCGCCATTTTCTGGATCTTGATAAGTTCCATCACTCTGGCTCAGTTTTTCCTTTATATTGCTGTGCTAAACACTGAAAGAAGGAAAAAATCTCTGGTGAAGGCTGCAGAATTTGTCATATACAAGCTCAAGGAGATGGGGAAAATCACTGAAGATGACATTTCACCTGTTCTGGACGAATTTGAGAATCTTGATGTTGATCAATCAGGAACATTACCTTTCATGGCGCCTGGGACTGTGACTGCTCGAGCCACAGGCGCCATTATTGCCGCCATCTCTGTTTCTATGGTCCTCTTCTCTTACCTTCTTCGCAAACACCATTCGAAGGATCATTCGATTTTTCTTCTGTTTACTGATTTCTTGTTTGGTTTTGGTTTAATTCTTGGGAAGTGCGAGTTCTTGAATCCGGGTGGAAGTGTGAAGGATAGAGTTGCAGTTAAGATCATTGAAGAGGCCTTAGAATCTGGTAAGCTAGTTGAGGGTGGTGTAGTTACAGAGGGAAGTGCTGGAAGCACTGCCATAAGTCTTGCCACAGTTGCTCCTGCTTATGGTTGCAAGTGCCATGTGGTTATTCCAGATGATTCTGCTATTGAAAAATCTCAAATACTTGAAGCGCTTGGAGCTCATGTTGAAAGGGTAAGACCAGTGTCAATTACGCACAGAGATCACTTTGTTAACATTGCTAGGAGGAGAGCTGCGGAAGCCAATGAGCTAGCTTTGAAGAACAAAAAAGAAGAGCAACTATTTGTGGGAGGCAAGAAACAAAGTAATGGTCACATTTATGAGGGAGGAACCCAAGAGTCCTCTTTCTCAAGTAATTGCAAAGGTGGCTTCTTCGCTGATCAATTCGAAAACTTGGCGAATTATCGAGCTCATTATGAGGGTACGGGACCAGAGATTTGGGAACAAACTGGTGGGTGTATAGATGCCTTCGTTGCAGCTGCGGGAACCGGTGGCACCGTGGCTGGTGTTTCCAATTTTCTCCAGGAGAATAATCCAAATGTGAGGTGTTTCCTCATAGATCCTCCTGGCTCAGGCCTGTTCAACAAGGTGACTAGAGGAGTTATGTACACTAAAGAGGAGGCTGAAGGACGAAGATTAAAGAACCCTTTTGACACAATAACTGAAGGAATTGGAATCAATAGATTAACGCAGAATTTCTTGATGGCAAAACTTGACGGGGCATTTCGTGGAACAGACAGGGAAGCCGTTGAAATGTCAAGATATCTGTTGAAGAATGATGGGCTCTTTCTAGGGAGCTCTTCGGCCATGAATTGTGTTGGAGCTGTGAAAGTGGCACAGTCACTTGGCCCTGGCAACACTGTTGTCACCATTCTTTGCGACAGTGGAATGAGGCATCTGAGCAAGTTTTTCAGTGCAGAGTATCTGAGTCAATACGACTTGACGCCCAAGGCTACCGGCTTAGAATTTCTGGAATCCAGGTGATGGTAGACCTACGAGCCACAAAATCTCGTGTTAAAGAGCCTGGAGGTTCTCGTGTTAAAGAGCCTGGAGGTTCTCGTGTTAAAAGAGCCTGGAGGTTCTCGTGTTAAAAGAGCCTGGAGGTTCTCGTGTTAA ATGTTACCAACATCGTCTAATACCTTCGTAACAAGGTCAATAGATATTCCAAGGAGCAAAAGACGATTGAGGCGCACTAAGAGTGCTCCTCATTCGGGTTCTCCTCATACAGAGACCACCAGCACCGCTACTGGTCTAGTTCCACGTTCAGGATTAGTTTTTGGAAATCTACACCCGAGTTTTATAAGAGTAGCCTTAGTTTTAATAATGTACTTGGGTATAGGAACTTTATGTGTTTACCTTGTCAGGCACCAAATCAAAGGGGGAAAAACCAACGGAGTAGTTGATGCCATTTATTTCACTATTGTGACAATGACAACCGTTGGATATGGTGATCTTGTCCCAAACACTCCTTCCACAAAGCTACTAGCTTGTGCTTTTATGTTCACAGGAATGGCCGTAGTTGGCCTAATATTAACCAATGCAGCTGATTATTTGGTAGAGAAGCAGGAGATCTTTCTATTTAAGGCCTTCCATATGCACCAAAATGGTTCTTGCGGCAGAACAGAAAAAATTGATACTAATAAAGCTAGAAATAAGTGTATAGTGGTGTTTCTTTTTCTTCTTTTGTTCATAATTTCTGGGACTGTCTTTCTAGTTACCCTTGAGAAGTTGGATTTTATTGATGCCTTTTATTGTGTATGTTCTACCATCACTACATTAGGCTATGGAGATAAAAGCTTCTCGACCCGGTGGGGGCGTCTATTCGCCATTTTCTGGATCTTGATAAGTTCCATCACTCTGGCTCAGTTTTTCCTTTATATTGCTGTGCTAAACACTGAAAGAAGGAAAAAATCTCTGGTGAAGGCTGCAGAATTTGTCATATACAAGCTCAAGGAGATGGGGAAAATCACTGAAGATGACATTTCACCTGTTCTGGACGAATTTGAGAATCTTGATGTTGATCAATCAGGAACATTACCTTTCATGGCGCCTGGGACTGTGACTGCTCGAGCCACAGGCGCCATTATTGCCGCCATCTCTGTTTCTATGGTCCTCTTCTCTTACCTTCTTCGCAAACACCATTCGAAGGATCATTCGATTTTTCTTCTGTTTACTGATTTCTTGTTTGGTTTTGGTTTAATTCTTGGGAAGTGCGAGTTCTTGAATCCGGGTGGAAGTGTGAAGGATAGAGTTGCAGTTAAGATCATTGAAGAGGCCTTAGAATCTGGTAAGCTAGTTGAGGGTGGTGTAGTTACAGAGGGAAGTGCTGGAAGCACTGCCATAAGTCTTGCCACAGTTGCTCCTGCTTATGGTTGCAAGTGCCATGTGGTTATTCCAGATGATTCTGCTATTGAAAAATCTCAAATACTTGAAGCGCTTGGAGCTCATGTTGAAAGGGTAAGACCAGTGTCAATTACGCACAGAGATCACTTTGTTAACATTGCTAGGAGGAGAGCTGCGGAAGCCAATGAGCTAGCTTTGAAGAACAAAAAAGAAGAGCAACTATTTGTGGGAGGCAAGAAACAAAGTAATGGTCACATTTATGAGGGAGGAACCCAAGAGTCCTCTTTCTCAAGTAATTGCAAAGGTGGCTTCTTCGCTGATCAATTCGAAAACTTGGCGAATTATCGAGCTCATTATGAGGGTACGGGACCAGAGATTTGGGAACAAACTGGTGGGTGTATAGATGCCTTCGTTGCAGCTGCGGGAACCGGTGGCACCGTGGCTGGTGTTTCCAATTTTCTCCAGGAGAATAATCCAAATGTGAGGTGTTTCCTCATAGATCCTCCTGGCTCAGGCCTGTTCAACAAGGTGACTAGAGGAGTTATGTACACTAAAGAGGAGGCTGAAGGACGAAGATTAAAGAACCCTTTTGACACAATAACTGAAGGAATTGGAATCAATAGATTAACGCAGAATTTCTTGATGGCAAAACTTGACGGGGCATTTCGTGGAACAGACAGGGAAGCCGTTGAAATGTCAAGATATCTGTTGAAGAATGATGGGCTCTTTCTAGGGAGCTCTTCGGCCATGAATTGTGTTGGAGCTGTGAAAGTGGCACAGTCACTTGGCCCTGGCAACACTGTTGTCACCATTCTTTGCGACAGTGGAATGAGGCATCTGAGCAAGTTTTTCAGTGCAGAGTATCTGAGTCAATACGACTTGACGCCCAAGGCTACCGGCTTAGAATTTCTGGAATCCAGGTGA MLPTSSNTFVTRSIDIPRSKRRLRRTKSAPHSGSPHTETTSTATGLVPRSGLVFGNLHPSFIRVALVLIMYLGIGTLCVYLVRHQIKGGKTNGVVDAIYFTIVTMTTVGYGDLVPNTPSTKLLACAFMFTGMAVVGLILTNAADYLVEKQEIFLFKAFHMHQNGSCGRTEKIDTNKARNKCIVVFLFLLLFIISGTVFLVTLEKLDFIDAFYCVCSTITTLGYGDKSFSTRWGRLFAIFWILISSITLAQFFLYIAVLNTERRKKSLVKAAEFVIYKLKEMGKITEDDISPVLDEFENLDVDQSGTLPFMAPGTVTARATGAIIAAISVSMVLFSYLLRKHHSKDHSIFLLFTDFLFGFGLILGKCEFLNPGGSVKDRVAVKIIEEALESGKLVEGGVVTEGSAGSTAISLATVAPAYGCKCHVVIPDDSAIEKSQILEALGAHVERVRPVSITHRDHFVNIARRRAAEANELALKNKKEEQLFVGGKKQSNGHIYEGGTQESSFSSNCKGGFFADQFENLANYRAHYEGTGPEIWEQTGGCIDAFVAAAGTGGTVAGVSNFLQENNPNVRCFLIDPPGSGLFNKVTRGVMYTKEEAEGRRLKNPFDTITEGIGINRLTQNFLMAKLDGAFRGTDREAVEMSRYLLKNDGLFLGSSSAMNCVGAVKVAQSLGPGNTVVTILCDSGMRHLSKFFSAEYLSQYDLTPKATGLEFLESR
BLAST of CmaCh09G010050 vs. Swiss-Prot
Match: CYSKL_SCHPO (Cysteine synthase 2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=cys12 PE=3 SV=1) HSP 1 Score: 320.5 bits (820), Expect = 4.8e-86 Identity = 170/359 (47.35%), Postives = 234/359 (65.18%), Query Frame = 1
BLAST of CmaCh09G010050 vs. Swiss-Prot
Match: KCO1_ARATH (Two-pore potassium channel 1 OS=Arabidopsis thaliana GN=TPK1 PE=1 SV=2) HSP 1 Score: 310.8 bits (795), Expect = 3.8e-83 Identity = 175/332 (52.71%), Postives = 224/332 (67.47%), Query Frame = 1
BLAST of CmaCh09G010050 vs. Swiss-Prot
Match: CYSKL_NEUCR (Cysteine synthase 2 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=cys-12 PE=3 SV=1) HSP 1 Score: 310.8 bits (795), Expect = 3.8e-83 Identity = 176/340 (51.76%), Postives = 222/340 (65.29%), Query Frame = 1
BLAST of CmaCh09G010050 vs. Swiss-Prot
Match: CYSKL_EMENI (Cysteine synthase 2 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=cysF PE=3 SV=1) HSP 1 Score: 289.7 bits (740), Expect = 9.0e-77 Identity = 164/339 (48.38%), Postives = 216/339 (63.72%), Query Frame = 1
BLAST of CmaCh09G010050 vs. Swiss-Prot
Match: KCO1_ORYSJ (Two pore potassium channel a OS=Oryza sativa subsp. japonica GN=TPKA PE=1 SV=1) HSP 1 Score: 278.9 bits (712), Expect = 1.6e-73 Identity = 161/313 (51.44%), Postives = 204/313 (65.18%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TrEMBL
Match: A0A0A0K304_CUCSA (Cysteine synthase OS=Cucumis sativus GN=Csa_7G099270 PE=4 SV=1) HSP 1 Score: 649.4 bits (1674), Expect = 5.0e-183 Identity = 331/371 (89.22%), Postives = 347/371 (93.53%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TrEMBL
Match: B9GFL5_POPTR (Pyridoxal-5'-phosphate-dependent enzyme family protein OS=Populus trichocarpa GN=POPTR_0001s37570g PE=4 SV=1) HSP 1 Score: 602.1 bits (1551), Expect = 9.1e-169 Identity = 316/420 (75.24%), Postives = 350/420 (83.33%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TrEMBL
Match: W9QFT7_9ROSA (Cysteine synthase 2 OS=Morus notabilis GN=L484_018228 PE=4 SV=1) HSP 1 Score: 598.6 bits (1542), Expect = 1.0e-167 Identity = 298/352 (84.66%), Postives = 322/352 (91.48%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TrEMBL
Match: V4UNH0_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10008354mg PE=4 SV=1) HSP 1 Score: 593.2 bits (1528), Expect = 4.2e-166 Identity = 314/430 (73.02%), Postives = 344/430 (80.00%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TrEMBL
Match: A0A061FC27_THECC (Pyridoxal-5'-phosphate-dependent enzyme family protein OS=Theobroma cacao GN=TCM_030653 PE=4 SV=1) HSP 1 Score: 592.0 bits (1525), Expect = 9.4e-166 Identity = 312/423 (73.76%), Postives = 342/423 (80.85%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TAIR10
Match: AT1G55880.1 (AT1G55880.1 Pyridoxal-5'-phosphate-dependent enzyme family protein) HSP 1 Score: 562.4 bits (1448), Expect = 4.1e-160 Identity = 282/352 (80.11%), Postives = 312/352 (88.64%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TAIR10
Match: AT5G55630.1 (AT5G55630.1 Outward rectifying potassium channel protein) HSP 1 Score: 310.8 bits (795), Expect = 2.1e-84 Identity = 175/332 (52.71%), Postives = 224/332 (67.47%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TAIR10
Match: AT1G02510.1 (AT1G02510.1 Outward rectifying potassium channel protein) HSP 1 Score: 158.3 bits (399), Expect = 1.8e-38 Identity = 94/246 (38.21%), Postives = 148/246 (60.16%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TAIR10
Match: AT4G01840.1 (AT4G01840.1 Ca2+ activated outward rectifying K+ channel 5) HSP 1 Score: 156.4 bits (394), Expect = 6.7e-38 Identity = 103/287 (35.89%), Postives = 154/287 (53.66%), Query Frame = 1
BLAST of CmaCh09G010050 vs. TAIR10
Match: AT4G18160.1 (AT4G18160.1 Ca2+ activated outward rectifying K+ channel 6) HSP 1 Score: 137.9 bits (346), Expect = 2.5e-32 Identity = 91/280 (32.50%), Postives = 148/280 (52.86%), Query Frame = 1
BLAST of CmaCh09G010050 vs. NCBI nr
Match: gi|659126067|ref|XP_008462997.1| (PREDICTED: cysteine synthase 2 [Cucumis melo]) HSP 1 Score: 655.6 bits (1690), Expect = 1.0e-184 Identity = 323/355 (90.99%), Postives = 342/355 (96.34%), Query Frame = 1
BLAST of CmaCh09G010050 vs. NCBI nr
Match: gi|700188777|gb|KGN44010.1| (Cysteine synthase [Cucumis sativus]) HSP 1 Score: 649.4 bits (1674), Expect = 7.2e-183 Identity = 331/371 (89.22%), Postives = 347/371 (93.53%), Query Frame = 1
BLAST of CmaCh09G010050 vs. NCBI nr
Match: gi|449466151|ref|XP_004150790.1| (PREDICTED: cysteine synthase 2 [Cucumis sativus]) HSP 1 Score: 646.4 bits (1666), Expect = 6.1e-182 Identity = 324/355 (91.27%), Postives = 339/355 (95.49%), Query Frame = 1
BLAST of CmaCh09G010050 vs. NCBI nr
Match: gi|743889587|ref|XP_011038789.1| (PREDICTED: cysteine synthase 2 isoform X2 [Populus euphratica]) HSP 1 Score: 603.6 bits (1555), Expect = 4.5e-169 Identity = 314/420 (74.76%), Postives = 351/420 (83.57%), Query Frame = 1
BLAST of CmaCh09G010050 vs. NCBI nr
Match: gi|1009172266|ref|XP_015867178.1| (PREDICTED: cysteine synthase 2-like isoform X1 [Ziziphus jujuba]) HSP 1 Score: 603.2 bits (1554), Expect = 5.9e-169 Identity = 324/430 (75.35%), Postives = 351/430 (81.63%), 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 Cucurbita maxima
Date Performed: 2017-05-20
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene:
The following block(s) are covering this gene:
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