CSPI07G10060 (gene) Cucumber (PI 183967) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGTTGAGATCCGGCGGTAGAAAGCTGTCTTTCGATGTGCTTCGTGGAAGCGGTTCCTCTGAAGAAGACAGATCCTTAATTTTAGGATCAAACTCCGATCCAGTTTCAAATGGGATCGAAGATTCCGGGGCGCAACATTCGATTGAGAAGCCCAATCGAAGAAAGAGGCGGCATCGGGGTTCGAAGAAGAACAAGGCGGCGGCGACCACAACGGCACCTTCAAATTGCTCTATTCCTGAGGACCCGATCGCTGAAAAATGCATGATCTCTAATTCCGTCGTCGACAAGCCCGAAGACTTGGGGCGACACTCCGTGAATAGAGATGGTACTTGTACGAATCGATTGGAATTTGAACTGAATTACCGTAGCTGTTCTACTGGGACTGTGTTTTATCAGGAGTTGACTGTTCCCGATGAGAGTAGAGGGAGCATATCGATTTTGACGCAAGGATCAGAGGTGGATTGTCAAAATCTTCGCAATGATCGGTTTAGCTTCGGTGAGTTGAGGCAAAGGACTGTGAATGGAGATGATGCATCATCAAGGTTTGGCGATGATAAGAATGTGGAAACTTGCGTGGAAGCAAACTCTGTAGTGAAACAAAAAAGTGAGCCGAATGGAAATGTGGTGCCAAGATTGGAGACCGCAGGGTCGTTGGACTGGAAACGGCTCATGGCTGAGGACCCTAATTGTAAGTGAACTTTCCTTATTAATTATGGTTTTTTGTTGAATTCTCTTACCACTTTCCCTTGAGATAGTCAGGACGTGGTCTATTGTTGGAGTAGTTTGATTTACTTTCGATATGGGAACATATTTGACTGCAAATTTTGGTCTTTTCGTTATGGAACAAATTTTCCATCAACAGAGAGGATGACAGTGGAGAGTCTCACGTTCGCATTTAAACTAAATCAACCAAAAGTTACTCTGCTTGTGTTTCATGCTTTTCAAAAACAGAAAATTGTTTTAGAAAATAATTCTGACCGTTCCCTTCCATTATGGTGTACATCTGAATCTTTTCTAACTCTGTAGGCCAGAGCTTACCAAATAGTATCATGTACAAATTATTGCAAATTGGAGATTCAGTGCCAATTCATTTTGGTATGATATAATTTCCTGGAAGAGGGAGAGCGTATCCCTTCCAATTCATATGTATGTTGTTTAAATGAGCATGCCAGTCATTCATTTTTACATTAGTAGAACCAAGATAGCCAGTCTCTTTTTCCTTTTTCCTTTTTCCATATTTCTTAACAATATCAGACTATACTAAATAAGGAAGTGAGTATTAAGTATTGTATGGTATGGTGCAGAAGGTGTTCACTGTTCACGGTAGATTTGATGCAAAAGAAATTTCCTTGTGTATAAGAGAGTAGTTGAGAAGGAAGGTTAAGATTATCTGTTGTTTGTATTCTCCTGTAATAGTTGTTTAGTTGGATGATATGTTGTTGGATTTAGTACCAGCCTCCATAGAACTTAAAAGCCTGTAGATAAGGAGAAGTGGAGAATGGAAACTGTTGGGCACAAAGAACTTTCACTCAAAGGAGGGTGTTTTGTGAGGGTATTTGTCCTAGGAAACAATGTGGAGAGGAGAGTTACGAGTTCTTGTGAAAGTGGAGTTGGGATGATTAGGAGCTTCCATAGCAATTCATCTGGCATTTCTATGCAAACTCATCAATTAGTTGGTCTGATCAATGCTCATCCTTTGTTGATGTGGATAAGATGACATAGGGGTGTTCTTTTGTACGAAGATAATATTAAAAAAATGGGTGGGAAGACTCCATTGTGATGATTTGGTTGTGCTTCTATAATGATTGGTCAATTTGGATAAGCTTTCAAGAAGGATGTCCTTGTTAATGGGTTCATTTTGTTGTATTTTTTGTTGGAAGGCAAAGAAAGACCTGGATCACATTCTCTAAAGCTGTCAGTTTGCGAAGTCTGTTTAGGATTGTTTATTTGAGGCATTTGATCTTGTGTATTTGATGGTTGGGGAATTGCTCCTCCATCCGCCTTTCAGAGACAGTCCATTTCTTGTGGTTTTTTGCGTGGCGTGTGTGTTTTGTTGTGGGTTCTTTAGGGGAGAGGAACAACAAAGTGTTTAGAGGTGTGGAGAGGGAACCTAGTGAAGTTTGGTTCTCGGTGACATTTCATGTTTCTCTTTGTACTTCAGTTTGGAAGACCCTTTGTAATTACTCTTTAAGCAATATTGTACTTATTATTATATATATTTTTAATATTTGTGAGTGTCTAGCCAGCTTATGTAAGGAACATTATACTTAATTGGACCCTATTTTTCTCATGGGTTTTTGTAGGCTTGTTTTTTGTATGCCTTTATGTTCTTTCATTTTTTTCTCAATAAAAGTAGTTCACTTCATTTAGAAAAAAATGCTTCTATAATGATTGGTACGGAATTTGGTGACAATCAAGAAGACCATACTTTCATCTTTTTTCTTTTCTCAATGAAAGTGTGGTTTTCATCCAAAAAGATGCTTCCGTTTGGATAAATTGCTATTAAAAATGCAGTGCATATGAGGAATGAATGATTTGCTTGAACAGGTGGTAGTCAAGTATCAATTCTCTAGGGGTGTGTTCAGCCAAGAGTTTAGAATTAGGAGTTGTGAAATTCACCCCTCTTTAGCCGAAGGAGTTTGTGGGTCCCACTAATAAAAAACATGAATTTTAACTGTCAACTCCTTATCTTGTGTGTTCTAGAAGTTCACAACTTCCTAGACTTTATAACTCCTTAAAGCTCACTATTCCGCTTCTTGCCCCAACACTGCCCTAAAGTTTATTAAATGCCCATGGAAGTAACTGTTGAAATTTCTCTTTTATTATCTCTAGGGTTGTGGTCTTATTTGGGTTGCACTTGTGGTGTTTAATATTTTATTTGATTAATATCTTTTTTTATTTATAGTTTAGTATTTTTTAGTGTAACATGGGGTGAGAATTTGAACCTTTGACTTCTTGATTGAAGAAATGATTCCATAACTAGATGAGGTATGCTCTCAACAATTTTGTGTTCAATTTAGTTGATTTGTAATTTTTGGCCAGACAAGCAATAAAAATATGAAATTTGGTTAAAAAACCTCTTGTCAGTTCTTTTATTACTGCGTGAAACAGGAAAATATTGATAGCTATTAGGACCATTAAGACCTATTTATGAAAAGACGGTTGAAATTTTAAAATTTTAAGACTTAGTGACCAAATGAACTTGAAAAAGTTAGGGGGCCATTTGTCCGTAGGATTAGATGGCCCACTCCATTTTTGGCCCAAGTATTATGATAATACTTGTTCTCACCCTCCTCTCTCCTCTTCCTCACACCCCTCTCTCACTAAACTCTCAATATTTACCAAGTAAAAGTAGAAGACCAAGCCAAAGGGGAAATTCCAATAGCAGCCACCACAAAAGGAAGCAACGTCGATAAAAGCTGAGATAATAGTCTGCAGCCCAAACGCAGACTATTATAATCCTCATACTATTATAAGTCACTCTTCGCCCAAACGCTCCCTAAGAGACCAAAAAATGAACTTTGGCAAAATTATAATAAATAAAATATAAGAAATTTTATTCTCATTTCACAATTTATTATTATTGTTATTATTGATTTTCATCTCGTTCTCTCTTATTCTTTTTCACATAAAGTAAATGGGGTTAAAGTAGATCCAAGCAGAGTCTAACTAGTTCCAATGTTGCCCAATTTATATCATCTATTGCTCTCTTCTTATTACTAATCCTTTGCTCCAGATATGTTTTCTGCAGATAAGTCACCATTCAAATGCTACATGGAGGAAATGTTTAGTGGAAATTCATTACGGATCACTACCACTTTTGGCAATGAGAAAGAACGAGAAAGAGTTTATGATACTATCTTCCGCTTACCTTGGAGATGTGAATTGGTAGCCTTGGTTCTCCTTTCATAATTACCAATTAGAGAGCTGCAAACTTTTTAGTATATGAGTGTGGTCTTAGTTCTATTGGGACTTGCTTCTTTTATGATTTTGATCAAACCAATTACTTGACAGTTATGTCCGCGACAAGTATTGTCAATATTGTGCTGTTTTGTAACTGTGAGTTGGTTTATACCCTGTTGATAAATAAATTTAAGCTTACTCATATCTTTAAAAGGAAAAAAATTATCCCTATCCATTTCTTTAAGGGTGTAGGGCCGGGGGTTTGAGGGCAAGAGTTTTCAGTTTGAACAGTTATGTTCCCAATGGTTATTCCTAAATTTGAACTTGTTGCAGCTCATAGATGTCGGCTTCTTTGTCTGCCTTGATTCATTTCTTTCATTGTTAACCGTTATGCCAACACGGATTATGATAACTCTTTGGAGGCTTGTTGTTACAAGGTTAGTTATCGGCCTCAACATCCTTTCTTGATGAAGTTGATATGAAACTGCAGATTCTGCATGTGCCTTTGAAAAGTCAAGTCATTCAGGAATCTTGCCTTAAGTGCAACTATGCACTGGTAGATAACAATGATTAAGTTTGTTATAAGATATTTGGATGACCAAAGACTGATTCTTGCTCAAAAGCAATTCTTCTTTCATAATAGATGGCAGGAGCAGGGTGGAGGAGGTCCTATCTTATTGTGTTCCTACTATAATCATGTTCATACCATTAGAAGTTTTGGCTCTGTGTACCTAGAAAGCTACTCTTGGTAGTGAGCGAGTAAACAATTCATGCTAATATTTAGAGAAAGATCACACCTTTCATTTCACTTTGTGTATTGATTTTAACTTCAAAAAGTTTACATGTTGATTGCTTTTTGGTGTGTGAAAAAGGTATTTGTTGTGCTCTATTACTTGTTTAATCTGTTCTGAAATAATGTTGAAGATGTTTGAAGCCTATAATTTGTGACCCTGCTGAGCTTTTGCTTGATATCTCTCACTTGTATATGCATCATGTTCTCGAACAAGATACTTTGATTAGCTCCCTGCATGTAGAATTTCTTTTATCTTAAGGTAATTAATGCTGTTTAAAAAGTTAACGTAGTCACTTTCATAACAGGAAGTTTGAAAGACCTTCTTCAGCAGAGTTATCTGATTTTGGTTGTTTTTTAATAATGGCATGCGGTGTTGCTCTCTTAGAATGGACAGGTAAGGCATATGTCTTCAGATTCTAGTTTTCTTTGACTAGTGGCACATCTGAGGAAGTGCAAAATAAACACAGTGCACAGTGTCATTTCGAAAAATCAGTGTTATGTAGATTGGGACACTAATATGGAACAATTTCAGACATAAAAATTAGAGGCACATTTGATTAAATATACTTTTAGATTGAATACATTTAATGCTCTTGAGTGCTTCCAAAGTTTATCAATTGTGTTGTGTTTATAAAGTGTTACTTGCAGTTACATCATGTATGCTAATCCCAATTTTTAGTTTATTGCAATTTTTATTTCAAAAGAAAATTATATTTGATCCGTTCATAACTTGGCTGAAATTTGTTGTTGCCAACACTCCAAACAGAAGCCTTGTGTTTCAGTGTGAAGCCTCTTTGAACTTCTTCCTTTTATCTTTGTTTTTGATGGGACCGAGAACCTCCTTTGCTCATTATCTCCCTTTTTCTGTATGTTTGCCATAGAAATTCATAGGGGTTTTTTCTCCTTCTAAGATGTTAGTACATCTGAGAATCTCTTCAGCATCCATTTTTGGCATGTGATAGTAGTGCACCACATTGTTTCTTTGCAAGAAATTGTGTCGAGCTAGATGAGTATAACTTTGTTCCGCAACTGTGAAGAATTTGCTAATATTTATTTTAATGAGAAAGAATCTAATATTTATTTTATATTGTAAACCTTTTTCAGATATCAGCTTAATTTATCACATGATTCGTGGTCAAGGAACAATTAAACTATATGTTGTTTACAATGTACTCGAGGTTAGTCAATCAGGTGTAGAATAATCCAACTCCTAATCTTGTGTTCAAATTGATAGATTTTAAATGCATTGATCTTTATTTTTATGGAACTTTTTTCTTTATGTTCTCAATATTAAGAGATAGATGTTTGATGAAAAACAACTATATTTCACAATATGCAAAGAACATTAGAGAGACGGGGTGGAGAGAATCTCTCCCAGTAAGAGCCTCCCAATCACACACAATTTATAAGGAGGTTATAGATGTTTTAGTAACCAAAAGGTCTGGTTCGGATTCCCTTACCACTTTTGTACAAAAGGGGTGAGGGAATTAGTATACTTGTTAAAAGAATGATAAGGAGGCTAGTTACAAGAGTTTTTTATAGATTGTACACCATCGAATTAGTATACTTGTAGTTTTAGTTTGATGATTGAGCAAAAAGGTTGAATTCTTTTGCAATTTGATCTATATTTGTCAAAATTCTATTACTTTGTATCTCTGGGATGATTTCCTGTAGTATGGTGCTTCTGTACACTATTGATTAATATAAAAGTTCGTTGTTTAAGAATAGTAATATTTTTAATCCTTGTTCCCTGTTTCAGATATTTGATAAACTTTTTCAAAGTTTTGGTGGAGATGTGTTGCAAACTTTATTTAATTCGGCAGAGGGACTTGCAAATTGTCCACCTGAGAATATGGGCTTCTGGATCGGAAGATTCATTTCTGATCAAGTTTTAGCTGTGGCTGCTTCAAATATCCTTCTCTTTGAATAATGGAATCCTTCTCATTGTTATAGATATTGTGGTTCTCCTTTGGCTCCTTGACTATTCGTACTTATTCATTCTTTTATATTATTAGCTCAGGCAATTACCTTGTCAACCTGTATTGTGGCCCATAACAACGCCTTGCTTGCTTTGCTGGTGTCTAACAACTTTGCAGAGATCAAAAGCAATGTGTTTAAGCGTTATAGCAAAGGAAATATCCACAATTTGGTTTATTTTGGTATGTCAGCTTCTTTGTTGCACAATGACAATCAGGAGTTTTAAAAGAAAATGAGCATTAGTCAACCAAAATAATCTAAACCTTCAACCAAATCCTACCAATTAAGATTTTTAAGTAATAAAACTTTGAAGGAGAATTGAAACATAACACTTGCATCCTAAATATAACCTGCACTATTGATGCTGTTGATTTTGATAGATTCAATCGAAAGATTCCACATTTTGGCATTTCTCTTGTTTGTTTTGGCTCAAAACATTTTGGAGGCGGAGGGTCCTTGGTTTGGGAATTTTCTCTATGTAAGTTCTCTCGACATCTTTACTTGAAACATTTTGTTACGAAAATTAATATGTAGAATTTCTTTTCTAATAATTTTTATTTGATGGCTGTAGAACGCTCTCATGGTTTTCATCTGTGAAATGCTCATCGATATCATTAAGCACTCATTCTTAGCGAAATTTAACGACATAAAGCCTATTGCATACTCAGAGTTTCTTGAAGATCTTTGCAAACAGGTTCATGACTTTCTCATTTTGCTTTTTTTCCTTTATTCGTTAATGAATCTGTCAATTTTATCTTCTATATGCACAATCTGATTCTAACCCTTTTTTCTAATAATTGTTGTTGCATCCATCCTTAGGCTCTAAATATGCAAGGTGAAGATGCAAAGAAAAGTTTGACATTTATTCCCGTTGCGCCAGCATGTGTGGTATGGATGCTTGTTTTATAATTTATAGATATCTTTCTCTAAATGGAAAAATAACTTCTTCATTGATGATTGAAAAGTATGTCTTTGAAGAAAAGAAACAAGAAATTCATTGATGAATGAAATGACCACCTATGGCGGATTACTAAAATGAACTCCAATTGTAAATTAAAGAAGAAAGGTTATATTATATTTGATAAGGTGAGTATATTTACATGAGAAGAGGGCATTAAATAAAACCTAATCCATAAAAGTGTCAAAAGATGAGTGCTTAGCATTGAAGATTCGTCCCTTCCTTTCGCACCAGAGAGGTCCAAAAAAAGAACGCTAGGTGGCGAGGAGTTAAAAAAAGACACCGTAATAAAGTAGAAGCCTCCAATTATGAACTTAATCTAATTCCCTTAGACAAACCTTGATCATTAGTGTAGGAAATATGCTTCTATGGACCTTAAATCTGTTCTGAGAAAGGAGTCTCTTGCCTCATGATATGCACCACATTAAGGGGGTGTGGGTTGAGTTATGAAGTTTGGAGTTAATATGTTGGAGTTATTAAAGTATTTTGGGTAAAGTTGTAAGATGGAGATCTTTCATAAATGTGCAAAATAAAGAGGGGAAAGGTTGAATAACTAGATAAATGTGCAAACTTCAACGGTGTTTACTAACACCATTGAAATTGAGTTGTTTAAAAATCAACTTAGAAGTCGGTGGGCCAACTCCCCGTATTTAGATTTAAAATTGGGGTGTAAGAATATGGGTTGAACCCGACATCCAGACTACCCAACCCATATTATATGGGTTAGGGTTAAAAAACTGGATTTTTTTTAATTGGATTGGGTCTCGGGTTGGAGGGTTGAAAAATTCAGCTCAACCAAACCCAATCTGAATTAATATAATATATATATATTATTTATTTAATAAAATAAAACTTTAAAAATGAGGTCTTCCTCTTCTCCTTCGCCTTCACACATGGAGTATCATTTGTGTCGCATTCCTTCACTCTCTTCTCACTATTTTGATCTTTACCGCCATTAGAAAGTAGAAACGGTAAAATAAATAAATAAATAAAATTCAACCCAACCCAACTCATATTTTACGGGTTTGGTTGGGTTGGAAACTAAATTCGGGTTATTCGGGTTGCCAACCCAAATGTTTGACACCACTATATACAATTTACAGATTCAAGAACATTTAAGCAACAGATCTCTTGAATTGTTCAAAAGGGATCTTTTCCTGCAGATTATGATATTTTTGTAGCTTCAGTTTAGTTTTTTGAATGCATCCTTGCTGCTATTTTGTGTGAACTAAATATTCGGCAACATTTATCCAATAAGACCTTCTGAATACCCAAAATATAACTTTACTTGCGGATTAGTGAACATTTTTGGTAGTTAAGTTAAAAATATTATATAAAAATTGATGTAAGAAGTATTGTTGTAAATTCAATGTAGGTCATTCGTGTGCTGACTCCGGTTTATGCTGCCCTTCTTCCTTTCAATCCCCTCCCATGGAGGTTTGTCTCGGTCCCACTCCTCTTGGGTGTGACCTATGTGATGCTCGTGAGCCTCAAGATTTTGGTTGGCTTAAGTCTGCAGAAGTATGCAACTTGGTATATCGACCGATGCCAAAAGAAGAAGCATCATCTACACACTGACTAAATGGAGTTGAGATCCGGCGGTAGAAAGCTGTCTTTCGATGTGCTTCGTGGAAGCGGTTCCTCTGAAGAAGACAGATCCTTAATTTTAGGATCAAACTCCGATCCAGTTTCAAATGGGATCGAAGATTCCGGGGCGCAACATTCGATTGAGAAGCCCAATCGAAGAAAGAGGCGGCATCGGGGTTCGAAGAAGAACAAGGCGGCGGCGACCACAACGGCACCTTCAAATTGCTCTATTCCTGAGGACCCGATCGCTGAAAAATGCATGATCTCTAATTCCGTCGTCGACAAGCCCGAAGACTTGGGGCGACACTCCGTGAATAGAGATGGTACTTGTACGAATCGATTGGAATTTGAACTGAATTACCGTAGCTGTTCTACTGGGACTGTGTTTTATCAGGAGTTGACTGTTCCCGATGAGAGTAGAGGGAGCATATCGATTTTGACGCAAGGATCAGAGGTGGATTGTCAAAATCTTCGCAATGATCGGTTTAGCTTCGGTGAGTTGAGGCAAAGGACTGTGAATGGAGATGATGCATCATCAAGGTTTGGCGATGATAAGAATGTGGAAACTTGCGTGGAAGCAAACTCTGTAGTGAAACAAAAAAGTGAGCCGAATGGAAATGTGGTGCCAAGATTGGAGACCGCAGGGTCGTTGGACTGGAAACGGCTCATGGCTGAGGACCCTAATTATATGTTTTCTGCAGATAAGTCACCATTCAAATGCTACATGGAGGAAATGTTTAGTGGAAATTCATTACGGATCACTACCACTTTTGGCAATGAGAAAGAACGAGAAAGAGTTTATGATACTATCTTCCGCTTACCTTGGAGATGTGAATTGCTCATAGATGTCGGCTTCTTTGTCTGCCTTGATTCATTTCTTTCATTGTTAACCGTTATGCCAACACGGATTATGATAACTCTTTGGAGGCTTGTTGTTACAAGGAAGTTTGAAAGACCTTCTTCAGCAGAGTTATCTGATTTTGGTTGTTTTTTAATAATGGCATGCGGTGTTGCTCTCTTAGAATGGACAGATATCAGCTTAATTTATCACATGATTCGTGGTCAAGGAACAATTAAACTATATGTTGTTTACAATGTACTCGAGATATTTGATAAACTTTTTCAAAGTTTTGGTGGAGATGTGTTGCAAACTTTATTTAATTCGGCAGAGGGACTTGCAAATTGTCCACCTGAGAATATGGGCTTCTGGATCGGAAGATTCATTTCTGATCAAGTTTTAGCTGCAATTACCTTGTCAACCTGTATTGTGGCCCATAACAACGCCTTGCTTGCTTTGCTGGTGTCTAACAACTTTGCAGAGATCAAAAGCAATGTGTTTAAGCGTTATAGCAAAGGAAATATCCACAATTTGGTTTATTTTGATTCAATCGAAAGATTCCACATTTTGGCATTTCTCTTGTTTGTTTTGGCTCAAAACATTTTGGAGGCGGAGGGTCCTTGGTTTGGGAATTTTCTCTATAACGCTCTCATGGTTTTCATCTGTGAAATGCTCATCGATATCATTAAGCACTCATTCTTAGCGAAATTTAACGACATAAAGCCTATTGCATACTCAGAGTTTCTTGAAGATCTTTGCAAACAGGCTCTAAATATGCAAGGTGAAGATGCAAAGAAAAGTTTGACATTTATTCCCGTTGCGCCAGCATGTGTGGTCATTCGTGTGCTGACTCCGGTTTATGCTGCCCTTCTTCCTTTCAATCCCCTCCCATGGAGGTTTGTCTCGGTCCCACTCCTCTTGGGTGTGACCTATGTGATGCTCGTGAGCCTCAAGATTTTGGTTGGCTTAAGTCTGCAGAAGTATGCAACTTGGTATATCGACCGATGCCAAAAGAAGAAGCATCATCTACACACTGACTAA ATGGAGTTGAGATCCGGCGGTAGAAAGCTGTCTTTCGATGTGCTTCGTGGAAGCGGTTCCTCTGAAGAAGACAGATCCTTAATTTTAGGATCAAACTCCGATCCAGTTTCAAATGGGATCGAAGATTCCGGGGCGCAACATTCGATTGAGAAGCCCAATCGAAGAAAGAGGCGGCATCGGGGTTCGAAGAAGAACAAGGCGGCGGCGACCACAACGGCACCTTCAAATTGCTCTATTCCTGAGGACCCGATCGCTGAAAAATGCATGATCTCTAATTCCGTCGTCGACAAGCCCGAAGACTTGGGGCGACACTCCGTGAATAGAGATGGTACTTGTACGAATCGATTGGAATTTGAACTGAATTACCGTAGCTGTTCTACTGGGACTGTGTTTTATCAGGAGTTGACTGTTCCCGATGAGAGTAGAGGGAGCATATCGATTTTGACGCAAGGATCAGAGGTGGATTGTCAAAATCTTCGCAATGATCGGTTTAGCTTCGGTGAGTTGAGGCAAAGGACTGTGAATGGAGATGATGCATCATCAAGGTTTGGCGATGATAAGAATGTGGAAACTTGCGTGGAAGCAAACTCTGTAGTGAAACAAAAAAGTGAGCCGAATGGAAATGTGGTGCCAAGATTGGAGACCGCAGGGTCGTTGGACTGGAAACGGCTCATGGCTGAGGACCCTAATTATATGTTTTCTGCAGATAAGTCACCATTCAAATGCTACATGGAGGAAATGTTTAGTGGAAATTCATTACGGATCACTACCACTTTTGGCAATGAGAAAGAACGAGAAAGAGTTTATGATACTATCTTCCGCTTACCTTGGAGATGTGAATTGCTCATAGATGTCGGCTTCTTTGTCTGCCTTGATTCATTTCTTTCATTGTTAACCGTTATGCCAACACGGATTATGATAACTCTTTGGAGGCTTGTTGTTACAAGGAAGTTTGAAAGACCTTCTTCAGCAGAGTTATCTGATTTTGGTTGTTTTTTAATAATGGCATGCGGTGTTGCTCTCTTAGAATGGACAGATATCAGCTTAATTTATCACATGATTCGTGGTCAAGGAACAATTAAACTATATGTTGTTTACAATGTACTCGAGATATTTGATAAACTTTTTCAAAGTTTTGGTGGAGATGTGTTGCAAACTTTATTTAATTCGGCAGAGGGACTTGCAAATTGTCCACCTGAGAATATGGGCTTCTGGATCGGAAGATTCATTTCTGATCAAGTTTTAGCTGCAATTACCTTGTCAACCTGTATTGTGGCCCATAACAACGCCTTGCTTGCTTTGCTGGTGTCTAACAACTTTGCAGAGATCAAAAGCAATGTGTTTAAGCGTTATAGCAAAGGAAATATCCACAATTTGGTTTATTTTGATTCAATCGAAAGATTCCACATTTTGGCATTTCTCTTGTTTGTTTTGGCTCAAAACATTTTGGAGGCGGAGGGTCCTTGGTTTGGGAATTTTCTCTATAACGCTCTCATGGTTTTCATCTGTGAAATGCTCATCGATATCATTAAGCACTCATTCTTAGCGAAATTTAACGACATAAAGCCTATTGCATACTCAGAGTTTCTTGAAGATCTTTGCAAACAGGCTCTAAATATGCAAGGTGAAGATGCAAAGAAAAGTTTGACATTTATTCCCGTTGCGCCAGCATGTGTGGTCATTCGTGTGCTGACTCCGGTTTATGCTGCCCTTCTTCCTTTCAATCCCCTCCCATGGAGGTTTGTCTCGGTCCCACTCCTCTTGGGTGTGACCTATGTGATGCTCGTGAGCCTCAAGATTTTGGTTGGCTTAAGTCTGCAGAAGTATGCAACTTGGTATATCGACCGATGCCAAAAGAAGAAGCATCATCTACACACTGACTAA MELRSGGRKLSFDVLRGSGSSEEDRSLILGSNSDPVSNGIEDSGAQHSIEKPNRRKRRHRGSKKNKAAATTTAPSNCSIPEDPIAEKCMISNSVVDKPEDLGRHSVNRDGTCTNRLEFELNYRSCSTGTVFYQELTVPDESRGSISILTQGSEVDCQNLRNDRFSFGELRQRTVNGDDASSRFGDDKNVETCVEANSVVKQKSEPNGNVVPRLETAGSLDWKRLMAEDPNYMFSADKSPFKCYMEEMFSGNSLRITTTFGNEKERERVYDTIFRLPWRCELLIDVGFFVCLDSFLSLLTVMPTRIMITLWRLVVTRKFERPSSAELSDFGCFLIMACGVALLEWTDISLIYHMIRGQGTIKLYVVYNVLEIFDKLFQSFGGDVLQTLFNSAEGLANCPPENMGFWIGRFISDQVLAAITLSTCIVAHNNALLALLVSNNFAEIKSNVFKRYSKGNIHNLVYFDSIERFHILAFLLFVLAQNILEAEGPWFGNFLYNALMVFICEMLIDIIKHSFLAKFNDIKPIAYSEFLEDLCKQALNMQGEDAKKSLTFIPVAPACVVIRVLTPVYAALLPFNPLPWRFVSVPLLLGVTYVMLVSLKILVGLSLQKYATWYIDRCQKKKHHLHTD* Homology
BLAST of CSPI07G10060 vs. ExPASy Swiss-Prot
Match: F4HVJ3 (Protein POLLEN DEFECTIVE IN GUIDANCE 1 OS=Arabidopsis thaliana OX=3702 GN=POD1 PE=1 SV=1) HSP 1 Score: 611.7 bits (1576), Expect = 9.4e-174 Identity = 355/662 (53.63%), Postives = 444/662 (67.07%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy Swiss-Prot
Match: Q550C1 (Protein TAPT1 homolog OS=Dictyostelium discoideum OX=44689 GN=DDB_G0277313 PE=3 SV=2) HSP 1 Score: 173.7 bits (439), Expect = 6.5e-42 Identity = 131/401 (32.67%), Postives = 203/401 (50.62%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy Swiss-Prot
Match: A2BIE7 (Transmembrane anterior posterior transformation protein 1 homolog OS=Danio rerio OX=7955 GN=tapt1 PE=2 SV=1) HSP 1 Score: 171.8 bits (434), Expect = 2.5e-41 Identity = 111/329 (33.74%), Postives = 176/329 (53.50%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy Swiss-Prot
Match: Q4VBD2 (Transmembrane anterior posterior transformation protein 1 OS=Mus musculus OX=10090 GN=Tapt1 PE=1 SV=2) HSP 1 Score: 171.8 bits (434), Expect = 2.5e-41 Identity = 124/395 (31.39%), Postives = 201/395 (50.89%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy Swiss-Prot
Match: Q6NXT6 (Transmembrane anterior posterior transformation protein 1 homolog OS=Homo sapiens OX=9606 GN=TAPT1 PE=1 SV=1) HSP 1 Score: 171.4 bits (433), Expect = 3.2e-41 Identity = 123/395 (31.14%), Postives = 201/395 (50.89%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy TrEMBL
Match: A0A0A0K3C5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G219260 PE=3 SV=1) HSP 1 Score: 1244.6 bits (3219), Expect = 0.0e+00 Identity = 626/627 (99.84%), Postives = 627/627 (100.00%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy TrEMBL
Match: A0A1S3BHQ5 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490200 PE=3 SV=1) HSP 1 Score: 1202.2 bits (3109), Expect = 0.0e+00 Identity = 607/641 (94.70%), Postives = 620/641 (96.72%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy TrEMBL
Match: A0A1S3BIB0 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103490200 PE=3 SV=1) HSP 1 Score: 1186.4 bits (3068), Expect = 0.0e+00 Identity = 602/641 (93.92%), Postives = 615/641 (95.94%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy TrEMBL
Match: A0A5D3DHX2 (Protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold142G003140 PE=3 SV=1) HSP 1 Score: 1161.7 bits (3004), Expect = 0.0e+00 Identity = 591/631 (93.66%), Postives = 603/631 (95.56%), Query Frame = 0
BLAST of CSPI07G10060 vs. ExPASy TrEMBL
Match: A0A1S3BIA2 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103490200 PE=3 SV=1) HSP 1 Score: 1147.9 bits (2968), Expect = 0.0e+00 Identity = 586/641 (91.42%), Postives = 598/641 (93.29%), Query Frame = 0
BLAST of CSPI07G10060 vs. NCBI nr
Match: XP_004139799.1 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X1 [Cucumis sativus]) HSP 1 Score: 1234.9 bits (3194), Expect = 0.0e+00 Identity = 626/641 (97.66%), Postives = 627/641 (97.82%), Query Frame = 0
BLAST of CSPI07G10060 vs. NCBI nr
Match: XP_011658997.1 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X2 [Cucumis sativus] >KAE8646067.1 hypothetical protein Csa_016604 [Cucumis sativus]) HSP 1 Score: 1219.1 bits (3153), Expect = 0.0e+00 Identity = 621/641 (96.88%), Postives = 622/641 (97.04%), Query Frame = 0
BLAST of CSPI07G10060 vs. NCBI nr
Match: XP_008447820.1 (PREDICTED: protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X1 [Cucumis melo]) HSP 1 Score: 1202.2 bits (3109), Expect = 0.0e+00 Identity = 607/641 (94.70%), Postives = 620/641 (96.72%), Query Frame = 0
BLAST of CSPI07G10060 vs. NCBI nr
Match: XP_008447821.1 (PREDICTED: protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X2 [Cucumis melo]) HSP 1 Score: 1186.4 bits (3068), Expect = 0.0e+00 Identity = 602/641 (93.92%), Postives = 615/641 (95.94%), Query Frame = 0
BLAST of CSPI07G10060 vs. NCBI nr
Match: TYK23261.1 (protein POLLEN DEFECTIVE IN GUIDANCE 1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 1161.7 bits (3004), Expect = 0.0e+00 Identity = 591/631 (93.66%), Postives = 603/631 (95.56%), Query Frame = 0
BLAST of CSPI07G10060 vs. TAIR 10
Match: AT1G67960.1 (CONTAINS InterPro DOMAIN/s: Membrane protein,Tapt1/CMV receptor (InterPro:IPR008010); Has 447 Blast hits to 428 proteins in 176 species: Archae - 0; Bacteria - 0; Metazoa - 190; Fungi - 133; Plants - 49; Viruses - 0; Other Eukaryotes - 75 (source: NCBI BLink). ) HSP 1 Score: 611.7 bits (1576), Expect = 6.7e-175 Identity = 355/662 (53.63%), Postives = 444/662 (67.07%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (PI 183967) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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