CSPI04G17140 (gene) Wild cucumber (PI 183967)
The following sequences are available for this feature:
Legend: five_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.GTTATTAGAAGCATATGCATTTGCTTGTCGGGAAGTTGGCCCTCTTCAGTTAATGCAGTTTTTGTGTACAGATAGATAGAGCAGCCTAAAGCCTTGACTCCACCATACCGTCATCAATGCCTCCTCCTCCTCCTTCGTCTTCTCTTTTCCTCTTTACATTCTTCATCTCTGATAAAAACCTATATCTTACATCCATTTTTCACGGCTTCAATCGCCACTTTTTTTGGCTTTTTTCTCTTCTCCTTCAAGTGGCCTTTTCTCCCTTTCTTGTTCTCTTGAGTTTGCTGTCTTTGTCTGATGGGTTTGTGAGATCTTGTGCTGTCCTCCATTAATGCTGGGGCTGTGGGATCTTCGAATTTTTTAGGTGGGTTTCGTTGTTTTGAAGATATTGCTCTTGTGATTTCGAATTTAAACACCCCTTCCAGTACCCCCCCCTCCCCCACTTTGTAGTTTCCGTCGAGTTGATGACTAGACCCACGTAATTGACTTTTTTTTTTGTCCCTTTTCACACTTACTGGGCTTTGATTTGAATATATTGATATTTGTTTTCTGTTTTCGTTATTTTAATTGTGTTTTGTGGTTGGGTGTGGGTAGATGAACGAACTCTGTCGGAAAGAGCAATGAACTTGGGGATTTTTCATATGGTGGTTGGATGAAGGATTTAGAAACTGGTGGAATTTGAAAAACCCTTTTCTTTAACGGTGATTAGATGAAAGCAGAGCATTCTTGTCTGAGAAAAGAATTGGCCAGCAAGCTTGTCAACCAATCTAAAACTCTAGACACCACTGATTTGATTTAGACATTTGTTCCAACTACTTGATCTGTATGCTGTAGATTCTTTGAACAACCCACATAAATATAAGCCTCTTGAAGAATTGCATAATTTAGAGTCTTCATCATCTTCTCCTGGGGTTGTTTCTTTTCTTTTGTTTCTCTGGGGCTGGTTTTTCTTCATAGAGTGAGACAATGAGTCCCTCACATACAAATGGTTCAACTCATAACTGCAATGGATTGGAAGATAAGCTTGATGAACTTAGAAGGCTTATAGGTAAGTCTGATGGTGATCCATTGAGGATCGTTGGTGTGGGAGCTGGAGCATGGGGGAGTGTTTTTGCAGCTCTGCTTCAAGATAGTTATGGTCAATTTCGAGAGAAGGTTCAAATCCGGATATGGAGAAGAGCAGGAAGAGTTGTGGATAAAGTCACAGCAGAACACCTCTTTGAAGTGATCAATTCAAGGGAAGATGTGCTGAGGAGGCTGATTAGGCGATGTGCTTATTTAAAGTACGTCGAAGCAAGGCTAGGTGATCGGGTGCTGTATGCAGATGAGATTTTGAAAGATGGATTTTGCTTGAACATGATTGACACACCACTTTGCCCTTTGAAGGTGGTTACTAACTTGCAGGAGGCTGTTTGGGATGCTGACATTGTAGTCAATGGCTTACCCTCCACTGAAACCAGGGAGATTTTTGAAGAGATAAGTAAATATTGGAAAGAGAGAATTACAGTGCCTATTATTATCTCTTTGGCAAAGGGTATAGAAGCTGCTCTGCAACCTGTTCCCCACATAATAACTCCTACTCTGATGATCAATCGTGCAAGTAAGATATTCTGACCAAGTTTAGCATTTCATCTGCTCTATTTTCACTTATTCATTTGTACAACATGATCCTTAAATATGGGGATTATTTTCTTTGTTTGTATTTTCACTTACGTTGCTAGCTAGCTGTAAAGGAGTGAATCTCTGTCTGAGTTTGAGTTCTTAGCAGGGGAAAGAATATTATCTCACAAAGATTCTATAAAGACTGAGATACTCGATTATTGAGGAAGTTTGAATTATGAAGTATGCATCTCTTGTTAGTTCAGTGGGTTTTGTGTTTGTGAAATTACAAACATAAGAGTTGTACTATAATACTGGAGTTAGAAACATTTTGGGCTCTTTCTGGAATCTTTTTTAGTAATAATTTGTTATAATCTTGCGATTCTTGAAGTTAAATGTTACCAAGTTGTTAATGATAGTAAATATTGGATGAAACAAAAAGATTTCTACTTATTATCCCTTTCTCTTCTTCTTCCTTTACATCTATCTGTACAACCACATCTTAACTTTGACATGTATTTTTCCCAGCTGGAGTGCCTATAGAGAATATATTGTATCTTGGTGGACCGAATATCGCGTCGGAAATTTATAACAAGGAATATGCAAATGCTCGAATTTGCGGAGCTGAGAAGTGGAGGAAACCACTTGCAAACTTTTTGAGGCAACCTCAGTTTATTGTCTGGGACAATAGTGACCTTGTGACACATGAAGTCATGGGTGGTCTGAAAAATGTCTACGCTATTGGAGCAGGCAAGTGGTAGATACTTTCTAGTTAATTATCTCAATGGTGATGGAAATTACCTCTCTGTTTTTTCGTTTGGAACTGTGATTTTATAATTCGATAATAAAAAAGCACTTTTGATTGAGAAGGAGCTTGGTCATCTCTTTATACTCCAGGTGTATTTAGAATTTTGAAATAATATTCTATCTCAATCCTTAGGAAAATAATCAATGACAAATTGACAACCAGTTTGATTGCGACAATTTTTTATCAAATATTTCACATTTCATGTTATAGCAATTGCTTTAGTTCTTTTTCACGTCCATTGCAATTTATACAAGATTTCATTTAAATAATTGTTTTTGGTGGCACTCTGGTGTAGTTGTTTTGACTGGATTCTGTTTTGCAATCACCTAGCTTGAATAGTCGAATCTTTTTCAATATTATGGCAAATTCTTTTACAAATGTCTATCTGCCTATCTACAACTTTGCGTTCCGGTCTAGCATTTCAATCATTATTATCGTACATTCACGATATTGAAGTGTCTCAATCTTTGTAGAACGTCCTAGGCCTGGACTAATCTTTCTCTCTCACTCAAAACGGTAGTTTTCTTAATGATCCAATTTTGTAAGTTTTATACCATAGTCATTGCTTTCCATTTTGATCTTTCAGGAATGGTGGCAGCCCTTACCAATGAGAGTGCTACCAGCAAATCAGTATATTTTGCTCATTGTACCTCAGAGATGATATTCATTACTTACTTGCTAGCTGAAGAACCTGAGAAGCTAGCTGGGCCTTTGCTCGCTGACACGTATGTGACCTTGTTGAAAGGTCGTAATGCCTGGTATGGGCAAATGCTGGCCAAGGGTGCACTTAACCTAGATATGGGTGATAGCATTAGTGGCAAAGGGATGATTCAGGTAAAATAGCAGCATTTGTTTCTTGCGCCATTATGACTTCTTGTGAGGATCATTTGCATTTTTCTTTGTTAAAGCTTCACCAACTGCGTTTGGAACTTTGAACCACTAATTTCTGAAAGAAATGCCCCTATATTCAGTAATGATCTCCTCAAGAAGAGTGGTTTTTGTAGATGCACCGCGCACATGTGTGCACACACACTTCTATGATCTTCACAACTCACCTTGTGGGGGGAGATGGGTGACTTTTTATGGCTAACCAAGGGTATGTGCAATTATGGGTTTTGTGGGGTGAAAGGAAGTAAGGTTTTTCGAGGGATGAGAAAGAGATTCTTTTGGGGGCACTTGGGGGCAAGAAGTGAAGTTGTGAACTCAGAGGAGTTATGAAATCTAGGGAGTTGTGAACTCTGGAGTGCACAATTTTAGGAGTTAATAAGGTATGAAATTGACATTTTTTAGTAGTGGGACCCACAAACTCCTTTGGCCAAACACCCTTTTAAGATTTGGTCCCTTGTTTGTTCCCATGTTTCTCTTTATGCTTCAATTTTGAAGGACCTTTTGTAATTACTCTATGGTGTTATTTTGCATATTTGGAGTCCCTCCTTGTAAACAGAGCTCCCTTCTTTTGTGGATTTGTATTTTTCTTATGGTTTTGGATTCTTTCCTTTTTCTCTCAGTGAAAGTTGTTTTCATTGGAAACACACTCATTTCCACACTCATTTATGCAAGCACACTGTAGAGAGTCTACAAGTATAACACTAAAATACCCACACAAATGGCAAAACAGAGGCAGCACTCTGATATACTTTATTTATATATAAACCAAAAAGAATGATTACAGCAGTGACAATATGCAAATAACAAAAAAAGATATCAGAAAACATACACAGCCTCCTTAAAGCATGCTGAATATTCTCTTCAGCTACAGCTGCCTCCCAATCAAAAGATGATCAATATAAAACCTAGCTACCCAGTCCCCAAAAAGACATTTATATCATTTCCTCTCATTCCTCCCCGTGGGCCCCACCTACACGATCTTTCTCTATTATTCCCTCATCATTAGGTGCTTGCACATTTACCTTTCTGCCCCTTCTTTTGTATGTATGGACAATTGGGGGCCTTACAATACCCCTCGGTTCCAAGTTCACCTTGTCCTCAAGGTGGAAACTAGGGAACGGTTGGTTTATTTGGTATACTGATTCCCACGTGGCTTCACTATCCGGCAGACATTTCCATTTAATTAACCACTCATTTCCTCCTAATTCTTGATTCCAGCAGATCCCCAGCACAGTTTCGGACCACAGTTGCAGCTCAAAATCTTCTGTTAGGATCGATTGCAGATGTTGTATTTCATGCTTGCTTTCCCAGCTTCAACTTTAATTGAGAAATGTGAAATACATTATGAATGATAGCTTTTGGAGGTAACATCAATCTATAGGCAACTTCTCCAATCTCTTCAATAATTTTATAAGGTCCATAGTATTTAGGTGCCAGCTTCTCACACTTCTTCCTAGCTAATGAGCATTGCCAGTAAGGTCTTAACTTTAAATAAACTTCGTCTCCTACTTTGAATTTCATCTCTCTTCGTTTCTGGTCAGCCATTTTCTTCATCCTATTCTGGGCTGCACATAGATTTTCTTTCAAGGCATTGAAGGCTAAGTCCCTTTCCTTTAACATGGTTTCCACCTCATTATTCGGGGACTTCTTAAGGTCATAAGATAACAGGGGAGGAGGTGGTCTGCCATAAACCGTCTGAAAGGGAGTAACTTTGGTGGATGCATGGAAGGTGGTATTGTACCACAATTCTGCCCAGGGGATTGGTTTATCTCATTCCCGTGACTGTTCATTACGAAAGCACCTTAAATAGGTTTCGAGGCATCTATTTACCCTCTCCATTTGCCCATCCGTCTGTGGGTAAAAAGCAGTACTTCTTTTTAAAATAGTTCCCATGGTTGTAAATAACTCTTTCCAAAAGTTGCTCAGGAAGATTTTGCCCCTATCTGTAATAATGGATTTGGGAATGCGGTGTTTGCTTACCACTCTATCAAGGAAGATAGAAGCTACTTGCTTAGTAGAGTAAGGGTGTTTCAGGGGTATGAAGTAATAATACTTACTCAATCTATCAACCACAACCATGATGACATTAACTCCTCCGGCCAAGGGTAATCCTTCAATAAAATTCATTGTCTAATCTTCTAAGATTCTATCCGGAAGGTATGGGTTAAAGCACCCAGGCAGGTTTGGTAGCTTCATATTTGCTTCATTGGCAAATGTCGCATTGTTCAACATATCTCTTTACATCAGCCTTCATTCCTGTCCAATATAATTCACCACTGATTCGTTTTGTAGGTTCTCAAAAACCCTGAGTGGCCCCCTAGGATAGAATCGTGGAAAGTATGCAGTAACCTTGGTATAAGAGAAGAGGTCTTCGATAACACCACTCTTCCTTTGTATAGCAGTCTCTCATTAATCCACTGATGCTTGCCTCCTTCAGGATTTCTCTTCAGGTCATTTATAATCTTCTGAAGTTGTTCATCATTTTCAACTTCTTTCCAAATCAACTCCACATCAACAATCCCAGTGGTTGTCATGGTGTTCAATTCCAGCGGCTATTCCATGCTTGAAAGAGCATCTGCAGCTTTATTTTGGAGTCCAGGCTGATACAATATCTCAAAATCATAGCCGAGGAGCTTTGTCAACCATTTTTGGAATTGGAGTTGAACCTCTCTTTGTTCCAACAAGAATTTGAGAGATTTTTGGTTTGAAATTATGGTGTATTTCCTCCCAAGAAGGTAGTGTCTCCACTTTTGCACCGAAAGTACCACAACCATAAGTTTCCGTTCATAAATAGATTTGGTTTGGGCTCTTGGAGACAGTTTCTGGCTGAAAAAAGCAATAGGGTGGCCTTTTGGAGATATCACAGTCCCTAAACCCACACCAGAAGCATCAGTCTCAATAGTAAAAGGTAGGGACCAATCAGTAAAGCTAGTACCGGTACTGTAGTCATTGCTAACTTCAGGTTTTCAAAGGCAGTTGTTTCTTCATCACTCCATTTAAATGCATTATTCTGTAGCAACTTAGTTAATGGTGCAGCTATCTCTCCATAACTTTTAACAAATCTTCTATAATAGCCTGTTAAATCCAAAAACCCTCAATTCCTTTGGTTGCGGCCAATTGATCATACTCTTAATCTTTTCCTCATCGGCCTGTACTCCCCTCTTGGATATTAGATTCCCCAAATATTGGATTTGAGAAAGTGCTATTACACACTTCTTCTTGTTGGCAAACAACTGGTTATCCCCCAAGACTGCAAAAACCATTCCCAAGTGTTTAACATGCTCATCAATATCAGCACTATATACTAGAATATCATCAAAAAGCACAAGAACACGTCTAAAGAAAGGTTTGAATACCTGATTCATTAAGGACTGAAAAGTAGTCGGGTCATTGGTGAGTCCAAATGGCATGACTAAGAACTCGTAATGGCCCTCGTGAGTGCAAAATGCTGTCTTCTCCACATCGTCCTCCTTCATCCTTGTTTGATGATACCCTAATTTCAAGTCTAATTTGGAGAATATTGTTGCTCCATGTAATTCATCTAGTAACTCTTCGATAACTGGGATGGGAATCTTGTCAGAGATTGTCACTTGGTTTAATTTTCGATAATCAACACACAATCTCCATCCTCCATCCTTCTTTTTCACCAACAACACCGGGCTGGAGTAAGAAATTGAAAAGTTAGTAATTGAAATGCTTGTCAACCTATGCAGACAGTAAAAAATCGCAATTCGGACAAGTATGCTCCAAGTTATGGCATATTTTTCTCTCTGTTGACTTAATTCTTGCCTGCACTTTCTCCTCCCTTTTGTTCCACTCTTCCCCACTCTGCCTTGGCTAGTTTCAGTGCTAAGTTCCTGTCGTTCACCAGTTGCGCCTCCTTCATACACTCCTCTAAGGTTTGAGGGTGTCTACTGATCACTTCTGCTTGGAGGGCAGGTTCCAGACCCGTAAAAAATGCGTCGCTGAGCACACTTTCGGCCATATGTGGCCATGGAGCTGAATAGTTGATGAATTTCTTGACATAATCATTATAGGACCCGTCTTCCTCATCTCCAGAATCGTTTCTTTCAAGCCCATGATTTCCTTTTCGGTTCCATCTACTCTCTCTTCTATTTGTCTTTGAGTCATTAGTCGTGTTACCACCTCCAGTGTGAGGGCTCTGATACCAATTGTAGAGAGTCTACAAGTATAGCACTAAAATACCTACACAAATAGCAAAATAGAGGCAGCACTCTGATATACTTTATTTACATATAAGCCAAAAAGAGTGTTACAGCAGTCACAATATGCAAATAACAAAGAAAAGGTATCAGAAAACATACCCGGCTTCCTTAAAGCAAGCTGAATATTCTCTCAGGCTACAGTAGCCCCCCTATGAAAAGATGATCAAAATAAAACTTAGCTACTTAGTCCCAAAAAGACATTTATATCACTGCCTCTCATTCCTCCCCGTTGGCCCGACCTGCACGATCTTTCTCTATTATTCCCTCATTATTAGGTGCTTGCACATTTACCTTTCTACCCCTTCGTTTTATGTATGGACAATTGGGGGCCTTACACACAAATGCTAACACATCTACACATGCACACATGCAAATTCACTAAAATACATCTGTATCCATGTACACACAATCTCACTAAAATTCATACGAATCTAGGTAGATATATACACTATATAGTGGTGAAAAGATCCTTTGTTCTGTTTTGCAGGGAGTTTCTGCTGTTAGTGCTTTCTATGAAATTCTGAGTCAGTCGAGCCTTAATGTGTTGCATCCTGAAGACAACAAACCTGTTGCTCCTGTGCAACTCTGTCCAATCTTAAAGACATTATATAAAATACTGATTAAAAGGTAATTTCCTTAAAACTTCAAAATGTTTATACATCACATAGTTGCTGTATTATAATTTGCACATCATTGTATTCTTTCATTTTTTGTTTAAATAAAAAAAAAATTTGCACATCATATTCTGAAAATAACTAGCCTGCAGATATTTCTATGAACTTTACTTCATGCTCAATTGAACCTAATCCAAACTCGAACTCTAAGTTTTTTCAATGATCATTTCCCTTTTCTCCGTGTTTTGGGTCATTAGGGATGGAACACCTCAAGCTATACTTGAAGCATTGCGGGATGAGACTTTGAATGATCCTCGAGACCGCATCGAGCTAGCACAAAGCCATGCTTTCTATAGGCCTTCACTTCTTGGTCAACCTTGA ATGAGTCCCTCACATACAAATGGTTCAACTCATAACTGCAATGGATTGGAAGATAAGCTTGATGAACTTAGAAGGCTTATAGGTAAGTCTGATGGTGATCCATTGAGGATCGTTGGTGTGGGAGCTGGAGCATGGGGGAGTGTTTTTGCAGCTCTGCTTCAAGATAGTTATGGTCAATTTCGAGAGAAGGTTCAAATCCGGATATGGAGAAGAGCAGGAAGAGTTGTGGATAAAGTCACAGCAGAACACCTCTTTGAAGTGATCAATTCAAGGGAAGATGTGCTGAGGAGGCTGATTAGGCGATGTGCTTATTTAAAGTACGTCGAAGCAAGGCTAGGTGATCGGGTGCTGTATGCAGATGAGATTTTGAAAGATGGATTTTGCTTGAACATGATTGACACACCACTTTGCCCTTTGAAGGTGGTTACTAACTTGCAGGAGGCTGTTTGGGATGCTGACATTGTAGTCAATGGCTTACCCTCCACTGAAACCAGGGAGATTTTTGAAGAGATAAGTAAATATTGGAAAGAGAGAATTACAGTGCCTATTATTATCTCTTTGGCAAAGGGTATAGAAGCTGCTCTGCAACCTGTTCCCCACATAATAACTCCTACTCTGATGATCAATCGTGCAACTGGAGTGCCTATAGAGAATATATTGTATCTTGGTGGACCGAATATCGCGTCGGAAATTTATAACAAGGAATATGCAAATGCTCGAATTTGCGGAGCTGAGAAGTGGAGGAAACCACTTGCAAACTTTTTGAGGCAACCTCAGTTTATTGTCTGGGACAATAGTGACCTTGTGACACATGAAGTCATGGGTGGTCTGAAAAATGTCTACGCTATTGGAGCAGGAATGGTGGCAGCCCTTACCAATGAGAGTGCTACCAGCAAATCAGTATATTTTGCTCATTGTACCTCAGAGATGATATTCATTACTTACTTGCTAGCTGAAGAACCTGAGAAGCTAGCTGGGCCTTTGCTCGCTGACACGTATGTGACCTTGTTGAAAGGTCGTAATGCCTGGTATGGGCAAATGCTGGCCAAGGGTGCACTTAACCTAGATATGGGTGATAGCATTAGTGGCAAAGGGATGATTCAGGGAGTTTCTGCTGTTAGTGCTTTCTATGAAATTCTGAGTCAGTCGAGCCTTAATGTGTTGCATCCTGAAGACAACAAACCTGTTGCTCCTGTGCAACTCTGTCCAATCTTAAAGACATTATATAAAATACTGATTAAAAGGGATGGAACACCTCAAGCTATACTTGAAGCATTGCGGGATGAGACTTTGAATGATCCTCGAGACCGCATCGAGCTAGCACAAAGCCATGCTTTCTATAGGCCTTCACTTCTTGGTCAACCTTGA ATGAGTCCCTCACATACAAATGGTTCAACTCATAACTGCAATGGATTGGAAGATAAGCTTGATGAACTTAGAAGGCTTATAGGTAAGTCTGATGGTGATCCATTGAGGATCGTTGGTGTGGGAGCTGGAGCATGGGGGAGTGTTTTTGCAGCTCTGCTTCAAGATAGTTATGGTCAATTTCGAGAGAAGGTTCAAATCCGGATATGGAGAAGAGCAGGAAGAGTTGTGGATAAAGTCACAGCAGAACACCTCTTTGAAGTGATCAATTCAAGGGAAGATGTGCTGAGGAGGCTGATTAGGCGATGTGCTTATTTAAAGTACGTCGAAGCAAGGCTAGGTGATCGGGTGCTGTATGCAGATGAGATTTTGAAAGATGGATTTTGCTTGAACATGATTGACACACCACTTTGCCCTTTGAAGGTGGTTACTAACTTGCAGGAGGCTGTTTGGGATGCTGACATTGTAGTCAATGGCTTACCCTCCACTGAAACCAGGGAGATTTTTGAAGAGATAAGTAAATATTGGAAAGAGAGAATTACAGTGCCTATTATTATCTCTTTGGCAAAGGGTATAGAAGCTGCTCTGCAACCTGTTCCCCACATAATAACTCCTACTCTGATGATCAATCGTGCAACTGGAGTGCCTATAGAGAATATATTGTATCTTGGTGGACCGAATATCGCGTCGGAAATTTATAACAAGGAATATGCAAATGCTCGAATTTGCGGAGCTGAGAAGTGGAGGAAACCACTTGCAAACTTTTTGAGGCAACCTCAGTTTATTGTCTGGGACAATAGTGACCTTGTGACACATGAAGTCATGGGTGGTCTGAAAAATGTCTACGCTATTGGAGCAGGAATGGTGGCAGCCCTTACCAATGAGAGTGCTACCAGCAAATCAGTATATTTTGCTCATTGTACCTCAGAGATGATATTCATTACTTACTTGCTAGCTGAAGAACCTGAGAAGCTAGCTGGGCCTTTGCTCGCTGACACGTATGTGACCTTGTTGAAAGGTCGTAATGCCTGGTATGGGCAAATGCTGGCCAAGGGTGCACTTAACCTAGATATGGGTGATAGCATTAGTGGCAAAGGGATGATTCAGGGAGTTTCTGCTGTTAGTGCTTTCTATGAAATTCTGAGTCAGTCGAGCCTTAATGTGTTGCATCCTGAAGACAACAAACCTGTTGCTCCTGTGCAACTCTGTCCAATCTTAAAGACATTATATAAAATACTGATTAAAAGGGATGGAACACCTCAAGCTATACTTGAAGCATTGCGGGATGAGACTTTGAATGATCCTCGAGACCGCATCGAGCTAGCACAAAGCCATGCTTTCTATAGGCCTTCACTTCTTGGTCAACCTTGA
BLAST of CSPI04G17140 vs. Swiss-Prot
Match: GPDHC_ARATH (Glycerol-3-phosphate dehydrogenase [NAD(+)] GPDHC1, cytosolic OS=Arabidopsis thaliana GN=GPDHC1 PE=2 SV=1) HSP 1 Score: 800.0 bits (2065), Expect = 1.3e-230 Identity = 393/451 (87.14%), Postives = 423/451 (93.79%), Query Frame = 1
BLAST of CSPI04G17140 vs. Swiss-Prot
Match: GPDH1_ORYSJ (Probable glycerol-3-phosphate dehydrogenase [NAD(+)] 1, cytosolic OS=Oryza sativa subsp. japonica GN=Os01g0939600 PE=2 SV=1) HSP 1 Score: 793.9 bits (2049), Expect = 9.4e-229 Identity = 386/451 (85.59%), Postives = 421/451 (93.35%), Query Frame = 1
BLAST of CSPI04G17140 vs. Swiss-Prot
Match: GPDH2_ORYSJ (Probable glycerol-3-phosphate dehydrogenase [NAD(+)] 2, cytosolic OS=Oryza sativa subsp. japonica GN=Os01g0801600 PE=2 SV=1) HSP 1 Score: 766.1 bits (1977), Expect = 2.1e-220 Identity = 370/451 (82.04%), Postives = 411/451 (91.13%), Query Frame = 1
BLAST of CSPI04G17140 vs. Swiss-Prot
Match: GPDH2_ARATH (Glycerol-3-phosphate dehydrogenase [NAD(+)] At3g07690, cytosolic OS=Arabidopsis thaliana GN=At3g07690 PE=3 SV=2) HSP 1 Score: 740.0 bits (1909), Expect = 1.6e-212 Identity = 351/439 (79.95%), Postives = 401/439 (91.34%), Query Frame = 1
BLAST of CSPI04G17140 vs. Swiss-Prot
Match: GPDH3_ORYSJ (Probable glycerol-3-phosphate dehydrogenase [NAD(+)] 3, cytosolic OS=Oryza sativa subsp. japonica GN=Os05g0495700 PE=2 SV=1) HSP 1 Score: 739.6 bits (1908), Expect = 2.1e-212 Identity = 358/439 (81.55%), Postives = 396/439 (90.21%), Query Frame = 1
BLAST of CSPI04G17140 vs. TrEMBL
Match: A0A0A0KY21_CUCSA (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Cucumis sativus GN=Csa_4G340510 PE=3 SV=1) HSP 1 Score: 914.4 bits (2362), Expect = 5.3e-263 Identity = 455/455 (100.00%), Postives = 455/455 (100.00%), Query Frame = 1
BLAST of CSPI04G17140 vs. TrEMBL
Match: A0A061EVX5_THECC (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Theobroma cacao GN=TCM_024615 PE=3 SV=1) HSP 1 Score: 840.1 bits (2169), Expect = 1.3e-240 Identity = 412/450 (91.56%), Postives = 433/450 (96.22%), Query Frame = 1
BLAST of CSPI04G17140 vs. TrEMBL
Match: A0A0V0IHX5_SOLCH (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Solanum chacoense PE=3 SV=1) HSP 1 Score: 825.9 bits (2132), Expect = 2.5e-236 Identity = 403/451 (89.36%), Postives = 427/451 (94.68%), Query Frame = 1
BLAST of CSPI04G17140 vs. TrEMBL
Match: V4S6D7_9ROSI (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Citrus clementina GN=CICLE_v10004929mg PE=3 SV=1) HSP 1 Score: 824.7 bits (2129), Expect = 5.5e-236 Identity = 402/451 (89.14%), Postives = 430/451 (95.34%), Query Frame = 1
BLAST of CSPI04G17140 vs. TrEMBL
Match: A0A0D2RVU6_GOSRA (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Gossypium raimondii GN=B456_006G135700 PE=3 SV=1) HSP 1 Score: 824.7 bits (2129), Expect = 5.5e-236 Identity = 403/451 (89.36%), Postives = 431/451 (95.57%), Query Frame = 1
BLAST of CSPI04G17140 vs. TAIR10
Match: AT2G41540.1 (AT2G41540.1 6-phosphogluconate dehydrogenase family protein) HSP 1 Score: 800.0 bits (2065), Expect = 7.4e-232 Identity = 393/451 (87.14%), Postives = 423/451 (93.79%), Query Frame = 1
BLAST of CSPI04G17140 vs. TAIR10
Match: AT3G07690.1 (AT3G07690.1 6-phosphogluconate dehydrogenase family protein) HSP 1 Score: 731.9 bits (1888), Expect = 2.5e-211 Identity = 351/449 (78.17%), Postives = 401/449 (89.31%), Query Frame = 1
BLAST of CSPI04G17140 vs. NCBI nr
Match: gi|778694171|ref|XP_011653759.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 914.4 bits (2362), Expect = 7.6e-263 Identity = 455/455 (100.00%), Postives = 455/455 (100.00%), Query Frame = 1
BLAST of CSPI04G17140 vs. NCBI nr
Match: gi|659129272|ref|XP_008464605.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 911.8 bits (2355), Expect = 4.9e-262 Identity = 454/455 (99.78%), Postives = 454/455 (99.78%), Query Frame = 1
BLAST of CSPI04G17140 vs. NCBI nr
Match: gi|590635787|ref|XP_007028708.1| (6-phosphogluconate dehydrogenase family protein [Theobroma cacao]) HSP 1 Score: 840.1 bits (2169), Expect = 1.8e-240 Identity = 412/450 (91.56%), Postives = 433/450 (96.22%), Query Frame = 1
BLAST of CSPI04G17140 vs. NCBI nr
Match: gi|823173641|ref|XP_012485521.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 824.7 bits (2129), Expect = 7.9e-236 Identity = 403/451 (89.36%), Postives = 431/451 (95.57%), Query Frame = 1
BLAST of CSPI04G17140 vs. NCBI nr
Match: gi|567856944|ref|XP_006421155.1| (hypothetical protein CICLE_v10004929mg [Citrus clementina]) HSP 1 Score: 824.7 bits (2129), Expect = 7.9e-236 Identity = 402/451 (89.14%), Postives = 430/451 (95.34%), 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 (PI183967)
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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