CSPI07G01190 (gene) Wild cucumber (PI 183967)
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.AAACTACAATAATTATTACAAGAAGAAGTTGTGAGAGAAAAAGAAAAATGGTGAAGTTGTTTACTAGTGGAGTAAGGCATCTTTTTGTAACGGTCTTTCTCTCTACGGCGGCGGCGATTATGGTGTTGCCGGCGATAACCGACGTCACCATGGCGGCGCTCTGTCCCGGCCGTGATGAATGCTCTCTCGCCATCTATCTCACCGGTTCCCAGCAGGCGGTAATAATTCAACAATCAAACTTTCTAATTTTTCTTTTTTATATCTTTTACTTTCCTCTCTTCTTCTTCTCCTTACAATTTTTTTCTCAAGTTTTTGCTTAGTTCATTGCATTATTATCAACCAATTTTGAATTTTATTTTATTTTAACTGTTTTTAGTGGATTGTTAAACGAGTGATAAATTAATTAATTCAAATAAAATCAATTAAAGTTAGATTTGTAAAATCTTAGTATAGCTTTTCTGAATTGATTTCTTTTTTTACGGTGGGATTTAGGCTATTGATCTCGCGAATTTTTAATATTTTTTTAATTATATTCCACTTTTTATTTTTTCTTTTTCAAAAAAAATTAAGGGGCTATTAAATTAACGTAGGTGTAATACATATCTAAGTATTTTTTAGAATAAATTTGAGGTGAAGATTTGAATTTGTTACTTCTTTGTTTTAAATAATACTCAATTTGAATTAAGGTTCTTCTAGATTAATAATGTATTTATATTCTTTTATCTATTTCTTAATTACAAATGACCTATTATTATTACTATTATATATATATGACATGAATACTATTTTCTTTATAAAAAAATAATTGTTTTGCTTAATCTACTTTCTTGAATATTAAATAACTTGTTTATCCACATTAAAATTATTCCAAGAATATTTTTAAAATAGTTAAAATCACATTTATTATCAGTTAAATCATGCTTTAATGGAAAAAACTAAAAACTACAACATACTTTAAAACCAACTTGTCAATTAAAAAGGAGAAAAAAAAAAGATAAGCACATCAATTTTTTTTATAAGGTATAATATATGTTTATATATACACATTCAATTCATCTCCACTATTAGTAGAGCTCAAAGGATTTTATTGGCCACGTTTAGAAGTTGAACATGTATAATATATATATTATTTAGACTCTTAGAGGTCTTAGAAGAAGAAGAAGAATCTTGCGGTTGCCGTAACCCGTGATGACTGATGGGGGGAGTGGGTGGTGGCGGTGAAGTCGCTCTGCGGCAGTTAGCAAAGTTAGAAATTTTTACATTTTAGGCTAATTTTCTAAAGATAATTTAAATGTTAGGCAAAATGGGCTTTCCCTTTTAATATATTTTTTCTTTTTTTGTTTCTAAAATAAGTTCTAATAATTTTGAAGCTTTTGTAAGTATAGTACATTATTGGACACAAGTTGTTTTGTGTCAGACGACATATGTTTGAATGATAGATTTTGAAGACGACAAATAATTCACTTCTTAAGGTGCATAAATTTTTCTAATATTATATTTTCTCACATAACACTTCTATCCATAATTTGTGAGTGCTCGTCTTTTTTAAAATAGTCACACTGATCTATTAATATTAACATGAATCTATTAGTATTAGGGTAAAAAAACAGTATTGAATATTTCCATAGTAATATAATTTCTCTTCAAAACAAATTATGTAGGTTTTTCCTACCATGTTTGTATTTAACTTGAGTTTAAGAGAGTTGAAATAATGATTTTAGAAAAAATAAGATTTAATTACAATTCATTTTGTAAATCAATTTTATCATTTCGATGTTTGCGTCCAAATTTTTAAAAATAAGTTTAAATTATTACATTTTGTTTCAAAACATGTCTTAGAAGTATTAAAAAGAAATTGTTATAGATAAAAAAAATTATTTATAAAATATAGAAATTTTTTAAACCATCAATGGAATAGATTTTGCTATAATTTATAAATAGTTTTAATACTTTATTACTTTTTAAAATGTTCTATTATTAAATTACTAAAAACAATATTTTCTACTTGTAAAATTATTTAACTAAAAAAATAATAAAAATAATCTTATTAAATGATTAATAAACAAAATGAGGACAAACTATAGTTAAAAAATTAATTTTAAAGAATTTTATAATTATGTAAAATCAATTTTCATCCCATATAATTACTCTTCAAACATACAATATATTTAATAGTGGATTACAGTGATAGAGACTGATATGCTTCTATAACCTGTATTGATAAACGGTAAAATAAGTCTATTAATTTTTATACCATTAATAAAACCAAAAATTCTATTAGAGTTTAATTATTTTAATTTATACTGTTATTTTTAAAAATGACATAACATTTTTATATATATATATATTCTTAAAGTGAAAGTGAAATATTCTTTTAAAGTAGAGAGAAAACAAAATGGGAAAGAAATGTTAAAGATGAAAATAGGTCCCCACCAGCACTCTCTCTTGTTTTTTCTTTTCCGTCTCCATCTTTGGGCACTCATAAATTGCCTTATTACATTGAAGGGAAGTTTCATAAACTTCGTGGAGTGATTGGGGCGGAAGTTGCCCCCACTCTTCTAACTTCTTCCCAACAAAGTGCATACTCCACTTTCATAATTTCGTTGTAGTGCACATCTATTCTTTCATTTTTAAGTTTAAAAAATTCTATTCAACCCTTCAAAATTAAGTTTTAGTTTTTATACTTATTTGAATATTATATTAACCACATCTTCTTATAAATTATTCATTCCAAAAATGTTTCATATCTGTATACGAAGGTTCAAATAATCTAAATGTTCAAAAAAAAAAAAAAAACTAAATAAATAACCTATTCAAAATATCGAAGTTCAAAAATGAAATTGTGGTTGAAATAAAAGAAAAATATTTTTTGTCTTTGTTTTTCATATTTGAAGTGAAAACAAAAAGTTTAAGAAATAATCTATATTTTGTTTTCTTTTATTTTAGATTAAGTTTTGGTTCAATTTTTAAATCCAAACATTCATTATATTTTTTTATTTTTTAAAGTTCGCTTACTTTTTCATTTTCTGAAAAAAATAATTCGAGAACTTTAACCAATACGTGAGAGTGTAGTATTTATTGGTGTGTATTAATCTTTTCAAACTATCATACAATTAAGTTAGCTTTATTTCACGTATTTCTAAAGTTTTCTACTTTAGTAGGTCTAGTCACCAACAATACTTTTATTTACTGACTTTTTGTTTCACATTCAACCAAAAGTTTGAATAACGCGTTCTTTTAAGTTTTTTTCTTACATCAATTAGCTGAATTTAGATCTTCAGTAACTATTTGGCAACTAAAAACTTTTTTCAAGCTGTATTTGTTTCAACCCTACCGATTAACTATTTAAAAGCAAAATTAAAAATTAAACTGGTAATTTAGTAATAAAAATGAAAAACATGTATATATATATATATGAAAGTTAACATCATCAGTGATTTAGCGCTAATTAGAAGCACATTCATGTAGATACTTAAATACCATAACATCAAATAAATTATCTAGAGAAATTAGATATAAATTAGCTCAATTACTTCTATGTATGTATAGAAAAATTGTAAAAAATAGAACAATTTTCACAAAATATTTATATAAAAACTAATTGTAATGAATTTTGTCTATTTTAATCTTTTCTATTTTTTTTTTATAAAAAAGATCTAAGTTATATATATGAAAAATTGTGAAATTAATTATTGTGGGTGGAAATTAGCAGCTATCAGGATTTGGAGCGGTAGTGATAACGCCACTACTAGGGAATTTGTCGGACAAATACGGAAGGAAAGCCCTGCTTACATTACCTACCGCAATCTCCATTATCCCACTCGGTAATGGATTTATATTTCCATATACTTTACCTCTTTTGGATTTATATTTTATATGTGATTTTGACATAATTCAAAGTCTAGACTAGTCTTGTTTTATAAATTTAAAGATTTAAAAATTCATTAGATATTGTCAAAATTGAAATATAACTACAAATGAAAGACTGGATTTAATGATTAGTTTGTTTGGGAGTGGGAGTATTTTTGGTTACTGTTCTTTTATCAATTCATATTCTTTGTTAGTACTCAACTTCTCTATTTCCATCCACGTTTTGTCTACATAATTATTGCCTTTTATCATTATTGCTTTTGTTGTATTAGAATTTAAAACCACTTTCATGTTTTATATTTTTGTGATATTCAAGATGTCGAGTGCACTAGGATGGTAATCCAACTTCCTCAATTGAGTTTTTGGAGGTTTTAATTATTTCACTTTTAGAGAAAAATTATCCCTAATCATTGCATCTGTCTGGGCTTCACCGGCCCACCCACTCTACCTATTGTTGATGAGAATGTTTGGAATGTGAAATGTGATTACGATAGTATGCTATTATAACTTAAGTTATAACAACGACTGGTTTGATAAAATAATAATAAATATTATTGTAAAAATATAAAAATATAAAATAGTAAATAGTAAACATACTATCAATTTGAAATAGTGTTTATGGTTTTTAAATAGTATTTAATATAACAAGAGATGTTTATTATAATTTTAGATAATTCTCACCTCAAACAATCCCTACATGCTAGTGTTACTCGATGTGATGTGATGTATGCTATGTATTGAAGTGAACATTCAAATTGAACAAACAAATTGACAAATTAGAATTGAACTGAAATAAATCAAATTAAATAAATTTAAAAATAATTCTAAACCGGTTTGTACATAATATACATGTTATATTATATATTAAAAAATCATTTTAGTCCTAGTACTTGTTTATTTTTACTATATATTTTTTCCTATTTTTTTTGGAAAAATAAAGAAAAGAAGAGAAAGAGAGTTGAAACTATTTGTTTGTAATTTAACGTTCGAAAAAGGCCTGTAGAAGTTGTTAGCTTGTGAAAGGCGCGTTAACGGCGATTTGATAATTGGGTTGGCGCGCAGCGATATTGGCATACAGCAGGGAGAGAAGGTTCTTCTATGCATATTACGCTACGAGGACTCTCACTGCCATGGTCTCTGAAGGAACTGCTGCTTCCCTTGCTCTCGCTTATCTGGTAATTTCTTTACTCATCTTCTTCCAATTTATTCTCAATCTCATCCTCCGATTCCATTCTCAGGCAGACAACACTTCACTTGCAAATCGAGCTTCCGCATTTGGTTTGTTTACTGGAGTTTGCTCTGCTGCTTTTGTTTGCGGAACCTTAGCATCTCGCTTCCTCGCTACTGACTACATTTTTCCGGTACTTTTCTTCTCTCGCCCCGCCAAATCAATTACACAGATCTCTTGTTCTGCTGTTCTATGTTTCGAGATTCAATGCATAGTTTTGTGGCTTTTGGATTTTCTGTTTATTTCCATCAAATTATTGCTGATTTCTTTACGATGAGAACATTTCTCGATGATCAAACTGTCTACTGCTCTCTTTTTCTATAGTTATGTGTTGAGATTCAATGGTAGACCGGTAGTGATTTTGTTATGGATCTGTTGAACGTATTTCCATGAGATTTTTTAGGATGTTCATCTGTGATTCCGATTGTTTACAGTCTTTTCTGATCTCTTGTTTTGTAGTTTATGTTTGGAGATTCATGGTGGTGATAGTGTTATTGTTCTGCCGTATATTTCTAGTCGATTGCTGCCATTTCATCTACATTCCCCATTATATACATGAGATTGTTCCTCTACAATCGTAAATGTCCACTCATCCCTTGTTCTATAGTTTATGTTGAGATTCAATGATATATTGTTCTACTGTGCATTTCAATCAGATTGCTGCAGTATTCTCCATGGTCGCAACTGTATACATGAGAATTTTTCTCAAGGATCGTTTGCCTGGTAGAAGTGATTTAGTACAGCCAATGTTGAAGGAAGAAGTGCCGGAATTAACCGACCGTGAGGACGATGGTGGTGAATTGCCGAGACCGACGCAACCTTTCAGAAAGATGCCAACTCTGCATGATGTTATTACCTTATTCAAGAGCAGGTAAGTAAGATTTGTCAGCTATGTGCATGATCATTTTACTGTGAGAAGAGAACATTCTTCCTATGACTCTGCAGTAGGCCATACTATTTAATAACAATAGGATACAACTTCATTGATTACAGTACACTACTTTCAAAAGCCGCAGTTGTTGTATTCTTTACTGGCCTCGGTGAGGGAGGGATTCAAGCCTCTATATTGGTATATCAGTATTTTTCTACAGAATTACCTTCATAATTAATGAGATTTTAAGGCCAGAAGTAGTTGCATTGAAATATATGAAATAAATATTCAAGGGTCTCAAGTGGGCTAATGGAAATTCTATTCCAAGTTTGACATATGTAATTGTTGACAGATTAATGAAACAAAGACTTGAAGAGATGCATAATGTCAAGAAAAATTTGCATCTTCCAATGCCTCTACAAATCAGGACTTTGTTAAGCTGTTAGAGTGTTTCCTAGTTTAGAATAAAAATTGAATAAAAGCATGCTTAGATATCTATTTTATTTATTTATTTATTCGGGGTGAGAACAACGGGAAAACAGCTACTAAACATCTCTCATAGTTAAATTGTATCGCATTGCAGTACTATTTCAAAGCTCGATTTCACTTTGATAAGGACCAGTTCGCAGATTTGATGCTACTTAATGGGGTGGCAGGAACCGTCTCGCAGGTAGAATCTACCTGCTTTATTTGTGTTTGATAAAATAGGTTATCTAAACCTTTGAAACCAACTTGTTCAAGATAAAGCTGTAATTTATCAAACACTAGACACTCATATTACAACTGATTTTAGGAACAAAAAAAAAAACAAAAACAAAATTGTCGACAATTATTTTGAAAAGCTATTGCAATTCCAAACGGGTCTGGTTCTTTACATTCTGTCTTCTGCTCTTTCTCCTCTTTTAATACACTGGTTTATACATATATGCAGCTTGTTTTGATGCCCTTGTTGGTTCCTGTTCTATCTGAAGATAAGCTACTTTCATTAGGTCTTTTGGTGGGAAGCATCGGTGTAAGCACCTCGGACTCGCTATTTAGTATTCCATGATCAAAATTTTCCCTTATCTACTATATAAACAATGAAGCATTTACATTTAACCAGCATTGCTCATTTCAAGTTGATTTTTTGCAGACGGTCATTAACAGCATTGCCTGGGCAATTTGGGTAAATACTTTTCCAATTATCAAGAGTTCCTAACAATCCTATGCAGAGATTTTTTTTTTCTTGCATTGCCTTTTAGCATCCCACTCTAACACATACACAAGAATGTACCAAAATGGGTTTAACTTAGGATGCAGCTGAAATAATTTTCTTCTTTCTTCCCTAGGTTTGAGATGTAAATTAAATCTCGTTATGGTAAAAACCCAGTTAGGAAAAATATTAGGATTGTTAGTATGATTACGAGAAGGGGAATATCAATAATTATTATAGCTATTAAGTTTGTTAAGCTTTTTAGTTATAAATAGAGGGAGCGGATTGGAAGCAAGGAGTTCAGAAACTTTTGGGATTTTTTTTTAGGAAATTTGGGAAAGACTAGTCTTCCCCAAAGATTATGATATATTGTAGTTTTTTCGTTGATATTACAATTGCAATACATATTTCTATATTTTAGTGTTTTTGTGTTCTGTCTTGTCCTGGAGTATACTTGGTAGGAGTAATCCTAACCATTACATAAAAAACATCAATGTGTCATTATATATTTGTTAGGAGGAATCCCTTAAAATCATTTGTTTTTCAATTCTCATGTTTTTCCTTTTCTTGTACAGGTTCCTTATGCTGTAACTATATTTTTTATTTTCTCTGTTTTTGTGAGCCCATGTGTAAGTTTTAAATTTCTCCCCTCTGTATACGTTTCTTCTCGCTGATGCATGACCATTGCTCATTGGGTTCTCGGATTTCTACAGCTACGCAGCATTGTATCAAAACAAGTTAGTCAATATGAGCAGGTAAATAAAGATGTTCCCATTTTTTTTACTAACTAAGTTTTCATATTCATCAACCGTTAAATCATCCATCTCATTTCCCTGTCTACAATAGTTTAAAATTTGAAACCATATTTCACTCCACTTAAAATTTATCACCAATTTGTCACCGTTAGTCAACATTGATGAAACTAACTTAGTGATCATTTACCATTACTTCCTAAATCTAAAGAAATAAAATGTATCTATTTATCGACCTCAAATGGTGTGAACCAAAATCATGAACTCAATTCTTGAAAAACTCTCGGTATATTCCTAGAATTAATACCTCTTACAACCTAGAGACCCTTATATTTAAAGGTTACAACCCAGCTTTAGAGATTAATTAACCAAACTAAAAGAAAAAAATTAATCTAAACTAAAAGAAAAAATTAAAAGGTAAATTACAAGTGGTAGTTGCAATTTTATCCTCTTTATTGTAAAAATTTAGCAAACTTTTATAAATGTTGAAATTGAAACCTCAAAGTTACAATAATTGTAGGAACAAACCTCTGAACGTATATAATTGTTATAATTTTTAAATTATATAAATTTGAAGAGTTCGATTTTAACACTGGTTAAATTTGAGGGTTCAAATAAAAAACTAATCACAATCAAACTTTTTTTTACCCTAATTTTTCAATTGCAACATATTTACTCCGTTACACAAATAATAACTCATTAATTTAGGGGAAGATACAAGGATGCCTTTCAGGGTTAAGCTCTCTCGCCCAAATTGCAGCTCCCATAATTTTCAGTCCTCTTACAGGTATGAACTAATTAAATTCCTTTCTATCAAACACAGGAGATTCAATTTGACAATTTCCTTTAATTCATTGATGATATTCAGCTTTATTCTTGTCTGACCATCCACCCTTCTACTTCCCCGGCTTCAGCCTTTTGTGTATCGCCATCACTTCAGTAAGTACCTAAATTTCTACCAGTTTTAAATCCTCTCCATATGCCTTTACTTAAACAATTATACCAAAAAAACAAAAAAAAATGTTATGCAGGTGATTGCTTTGATTCTAAGCCTCATGATGATGGCCTCCCCTAGTAGTTTAAGTCAACAACCCAGTATCAGTGGCAGCATAGAAGCCTAGACGTTGTAGTCTTCGGTATGTCCATTATATAGGGGAAATACCTAGACCCCTCAACTTTTTGTGGCCATTTAAATCCCAATTTTATTAATTTACACTAAGTTTCTTCCTAAAATTTTCATAAATAACAATTTTAGATCTTAATTACGATTACCTTTGAAAATTATCCATGCACTAATTCTCAAACGTTTGTAGACTTCATCACATGTTGATTTTATAAATGGATTATTAGAGTAAATGCATGGGTAAATCTAAAAGGAAAATTTGACTAAAAGTGTAAATTGATTCATTTACGTAAGATTGATAATTTTAATTTCTTGAGAGTGTAAATTAGTATATTTAAAAAAATACGAAACTTTAGCTGAATTTAGTTAAATTTAAGGATATAAATTGATATTTTTTCTAATACATTCAAGATTGAAGCCTCTCCAATATGATTGTGCTCAGGATTGAGAAAGTAACGTTCATTTTGTACAATTTTTTTGAGCCGCATATTTTATGTAGGCAATGGATCTTTGAAAACATGGGGCTTCGAGGAGATTATTCCTATTCCAGTACGCAAGTCACAGAGGATGCAACCTCTTGGATTTTGCTGGTGTGTTATCGAACTCTTTAGAAATTTTCACTTTAGAAATGTAATTAAATTATAATTTTGGACTTTTGCATGGTTAGAGGTATATCAATTTCTAAAATGCATATTTGAATTGATACTTCTTTAAGGAATGCTTTATTTTATTTTTTTTATTTATTCTTTCTTCTTCTTTAAATTGGAAAACAGAAGTTAGAGGTTGAGAAAAGAGTTGTTAAATTATGATATGGAGGAGGTTGTTGCGGAGAATTGCTCCATAGATTGTTCTTAGAAATCAAGTGAATTGTTAATACC ATGGTGAAGTTGTTTACTAGTGGAGTAAGGCATCTTTTTGTAACGGTCTTTCTCTCTACGGCGGCGGCGATTATGGTGTTGCCGGCGATAACCGACGTCACCATGGCGGCGCTCTGTCCCGGCCGTGATGAATGCTCTCTCGCCATCTATCTCACCGGTTCCCAGCAGGCGCTATCAGGATTTGGAGCGGTAGTGATAACGCCACTACTAGGGAATTTGTCGGACAAATACGGAAGGAAAGCCCTGCTTACATTACCTACCGCAATCTCCATTATCCCACTCGCGATATTGGCATACAGCAGGGAGAGAAGGTTCTTCTATGCATATTACGCTACGAGGACTCTCACTGCCATGGTCTCTGAAGGAACTGCTGCTTCCCTTGCTCTCGCTTATCTGGCAGACAACACTTCACTTGCAAATCGAGCTTCCGCATTTGGTTTGTTTACTGGAGTTTGCTCTGCTGCTTTTGTTTGCGGAACCTTAGCATCTCGCTTCCTCGCTACTGACTACATTTTTCCGATTGCTGCAGTATTCTCCATGGTCGCAACTGTATACATGAGAATTTTTCTCAAGGATCGTTTGCCTGGTAGAAGTGATTTAGTACAGCCAATGTTGAAGGAAGAAGTGCCGGAATTAACCGACCGTGAGGACGATGGTGGTGAATTGCCGAGACCGACGCAACCTTTCAGAAAGATGCCAACTCTGCATGATGTTATTACCTTATTCAAGAGCAGTACACTACTTTCAAAAGCCGCAGTTGTTGTATTCTTTACTGGCCTCGGTGAGGGAGGGATTCAAGCCTCTATATTGTACTATTTCAAAGCTCGATTTCACTTTGATAAGGACCAGTTCGCAGATTTGATGCTACTTAATGGGGTGGCAGGAACCGTCTCGCAGCTTGTTTTGATGCCCTTGTTGGTTCCTGTTCTATCTGAAGATAAGCTACTTTCATTAGGTCTTTTGGTGGGAAGCATCGGTACGGTCATTAACAGCATTGCCTGGGCAATTTGGGTTCCTTATGCTGTAACTATATTTTTTATTTTCTCTGTTTTTGTGAGCCCATGTCTACGCAGCATTGTATCAAAACAAGTTAGTCAATATGAGCAGGGGAAGATACAAGGATGCCTTTCAGGGTTAAGCTCTCTCGCCCAAATTGCAGCTCCCATAATTTTCAGTCCTCTTACAGCTTTATTCTTGTCTGACCATCCACCCTTCTACTTCCCCGGCTTCAGCCTTTTGTGTATCGCCATCACTTCAGTGATTGCTTTGATTCTAAGCCTCATGATGATGGCCTCCCCTAGTAGTTTAAGTCAACAACCCAGTATCAGTGGCAGCATAGAAGCCTAG ATGGTGAAGTTGTTTACTAGTGGAGTAAGGCATCTTTTTGTAACGGTCTTTCTCTCTACGGCGGCGGCGATTATGGTGTTGCCGGCGATAACCGACGTCACCATGGCGGCGCTCTGTCCCGGCCGTGATGAATGCTCTCTCGCCATCTATCTCACCGGTTCCCAGCAGGCGCTATCAGGATTTGGAGCGGTAGTGATAACGCCACTACTAGGGAATTTGTCGGACAAATACGGAAGGAAAGCCCTGCTTACATTACCTACCGCAATCTCCATTATCCCACTCGCGATATTGGCATACAGCAGGGAGAGAAGGTTCTTCTATGCATATTACGCTACGAGGACTCTCACTGCCATGGTCTCTGAAGGAACTGCTGCTTCCCTTGCTCTCGCTTATCTGGCAGACAACACTTCACTTGCAAATCGAGCTTCCGCATTTGGTTTGTTTACTGGAGTTTGCTCTGCTGCTTTTGTTTGCGGAACCTTAGCATCTCGCTTCCTCGCTACTGACTACATTTTTCCGATTGCTGCAGTATTCTCCATGGTCGCAACTGTATACATGAGAATTTTTCTCAAGGATCGTTTGCCTGGTAGAAGTGATTTAGTACAGCCAATGTTGAAGGAAGAAGTGCCGGAATTAACCGACCGTGAGGACGATGGTGGTGAATTGCCGAGACCGACGCAACCTTTCAGAAAGATGCCAACTCTGCATGATGTTATTACCTTATTCAAGAGCAGTACACTACTTTCAAAAGCCGCAGTTGTTGTATTCTTTACTGGCCTCGGTGAGGGAGGGATTCAAGCCTCTATATTGTACTATTTCAAAGCTCGATTTCACTTTGATAAGGACCAGTTCGCAGATTTGATGCTACTTAATGGGGTGGCAGGAACCGTCTCGCAGCTTGTTTTGATGCCCTTGTTGGTTCCTGTTCTATCTGAAGATAAGCTACTTTCATTAGGTCTTTTGGTGGGAAGCATCGGTACGGTCATTAACAGCATTGCCTGGGCAATTTGGGTTCCTTATGCTGTAACTATATTTTTTATTTTCTCTGTTTTTGTGAGCCCATGTCTACGCAGCATTGTATCAAAACAAGTTAGTCAATATGAGCAGGGGAAGATACAAGGATGCCTTTCAGGGTTAAGCTCTCTCGCCCAAATTGCAGCTCCCATAATTTTCAGTCCTCTTACAGCTTTATTCTTGTCTGACCATCCACCCTTCTACTTCCCCGGCTTCAGCCTTTTGTGTATCGCCATCACTTCAGTGATTGCTTTGATTCTAAGCCTCATGATGATGGCCTCCCCTAGTAGTTTAAGTCAACAACCCAGTATCAGTGGCAGCATAGAAGCCTAG
BLAST of CSPI07G01190 vs. Swiss-Prot
Match: TCR4_SALOR (Tetracycline resistance protein, class D OS=Salmonella ordonez GN=tetA PE=3 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 7.0e-11 Identity = 85/340 (25.00%), Postives = 144/340 (42.35%), Query Frame = 1
BLAST of CSPI07G01190 vs. Swiss-Prot
Match: TCR1_ECOLX (Tetracycline resistance protein, class A OS=Escherichia coli GN=tetA PE=3 SV=2) HSP 1 Score: 69.7 bits (169), Expect = 9.2e-11 Identity = 81/330 (24.55%), Postives = 144/330 (43.64%), Query Frame = 1
BLAST of CSPI07G01190 vs. Swiss-Prot
Match: MF14A_HUMAN (Hippocampus abundant transcript 1 protein OS=Homo sapiens GN=MFSD14A PE=2 SV=2) HSP 1 Score: 65.5 bits (158), Expect = 1.7e-09 Identity = 78/355 (21.97%), Postives = 145/355 (40.85%), Query Frame = 1
BLAST of CSPI07G01190 vs. Swiss-Prot
Match: MF14A_MOUSE (Hippocampus abundant transcript 1 protein OS=Mus musculus GN=Mfsd14a PE=2 SV=3) HSP 1 Score: 65.5 bits (158), Expect = 1.7e-09 Identity = 78/355 (21.97%), Postives = 145/355 (40.85%), Query Frame = 1
BLAST of CSPI07G01190 vs. Swiss-Prot
Match: MF14B_BOVIN (Hippocampus abundant transcript-like protein 1 OS=Bos taurus GN=MFSD14B PE=2 SV=1) HSP 1 Score: 63.9 bits (154), Expect = 5.0e-09 Identity = 80/354 (22.60%), Postives = 146/354 (41.24%), Query Frame = 1
BLAST of CSPI07G01190 vs. TrEMBL
Match: A0A0A0K0N8_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_7G016600 PE=4 SV=1) HSP 1 Score: 831.2 bits (2146), Expect = 5.8e-238 Identity = 448/448 (100.00%), Postives = 448/448 (100.00%), Query Frame = 1
BLAST of CSPI07G01190 vs. TrEMBL
Match: M5VMX6_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa005784mg PE=4 SV=1) HSP 1 Score: 490.3 bits (1261), Expect = 2.4e-135 Identity = 261/436 (59.86%), Postives = 332/436 (76.15%), Query Frame = 1
BLAST of CSPI07G01190 vs. TrEMBL
Match: D7U503_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_03s0038g02930 PE=4 SV=1) HSP 1 Score: 490.3 bits (1261), Expect = 2.4e-135 Identity = 269/442 (60.86%), Postives = 338/442 (76.47%), Query Frame = 1
BLAST of CSPI07G01190 vs. TrEMBL
Match: A0A059ANM0_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_I01458 PE=4 SV=1) HSP 1 Score: 480.3 bits (1235), Expect = 2.5e-132 Identity = 256/425 (60.24%), Postives = 318/425 (74.82%), Query Frame = 1
BLAST of CSPI07G01190 vs. TrEMBL
Match: B9HR21_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0009s14090g PE=4 SV=1) HSP 1 Score: 472.2 bits (1214), Expect = 6.8e-130 Identity = 258/438 (58.90%), Postives = 324/438 (73.97%), Query Frame = 1
BLAST of CSPI07G01190 vs. TAIR10
Match: AT2G16990.1 (AT2G16990.1 Major facilitator superfamily protein) HSP 1 Score: 355.5 bits (911), Expect = 4.7e-98 Identity = 207/444 (46.62%), Postives = 285/444 (64.19%), Query Frame = 1
BLAST of CSPI07G01190 vs. TAIR10
Match: AT2G16980.2 (AT2G16980.2 Major facilitator superfamily protein) HSP 1 Score: 342.8 bits (878), Expect = 3.2e-94 Identity = 200/443 (45.15%), Postives = 282/443 (63.66%), Query Frame = 1
BLAST of CSPI07G01190 vs. TAIR10
Match: AT2G16970.1 (AT2G16970.1 Major facilitator superfamily protein) HSP 1 Score: 323.2 bits (827), Expect = 2.6e-88 Identity = 193/440 (43.86%), Postives = 269/440 (61.14%), Query Frame = 1
BLAST of CSPI07G01190 vs. TAIR10
Match: AT5G42210.1 (AT5G42210.1 Major facilitator superfamily protein) HSP 1 Score: 219.2 bits (557), Expect = 5.3e-57 Identity = 125/268 (46.64%), Postives = 175/268 (65.30%), Query Frame = 1
BLAST of CSPI07G01190 vs. NCBI nr
Match: gi|449454360|ref|XP_004144923.1| (PREDICTED: hippocampus abundant transcript-like protein 1 [Cucumis sativus]) HSP 1 Score: 831.2 bits (2146), Expect = 8.3e-238 Identity = 448/448 (100.00%), Postives = 448/448 (100.00%), Query Frame = 1
BLAST of CSPI07G01190 vs. NCBI nr
Match: gi|659094169|ref|XP_008447920.1| (PREDICTED: hippocampus abundant transcript 1 protein-like isoform X1 [Cucumis melo]) HSP 1 Score: 778.9 bits (2010), Expect = 4.9e-222 Identity = 423/449 (94.21%), Postives = 433/449 (96.44%), Query Frame = 1
BLAST of CSPI07G01190 vs. NCBI nr
Match: gi|659094175|ref|XP_008447923.1| (PREDICTED: hippocampus abundant transcript-like protein 1 isoform X3 [Cucumis melo]) HSP 1 Score: 646.7 bits (1667), Expect = 2.9e-182 Identity = 348/376 (92.55%), Postives = 359/376 (95.48%), Query Frame = 1
BLAST of CSPI07G01190 vs. NCBI nr
Match: gi|659094173|ref|XP_008447922.1| (PREDICTED: hippocampus abundant transcript-like protein 1 isoform X2 [Cucumis melo]) HSP 1 Score: 642.5 bits (1656), Expect = 5.5e-181 Identity = 346/370 (93.51%), Postives = 356/370 (96.22%), Query Frame = 1
BLAST of CSPI07G01190 vs. NCBI nr
Match: gi|225428113|ref|XP_002280708.1| (PREDICTED: hippocampus abundant transcript-like protein 1 [Vitis vinifera]) HSP 1 Score: 490.3 bits (1261), Expect = 3.5e-135 Identity = 269/442 (60.86%), Postives = 338/442 (76.47%), 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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