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CSPI01G12020 (gene) Cucumber (PI 183967) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTAGTAATTGACATGTTTCCCGCCGTACTAAAAAAAATGTCACCTTAAAAGCTTCTTAATCAGAGTTTAGCTGAAAGGTGACTAAGTGAGCATCGGTAATTTTACTATAATCGTCTGATCTGACTTTAATCATTGATTAGCGAAATGGTTCACCACAGTTGCCCTTCACTGGTCAGACGATAAGCTGAATTCCTAAGCCTGGGCTGAAGCCGGCGACGGTGAAATACTTCAAATTCCTATCAACTACATGATCGTTCACTCCAATCGCATTACTGATTAGACGGAAAGAATTACGATGAATTTGCTGCAGTGGAAGCTACTTCCTCTATTAACATTGCTCGCTTCCATTTTCTTATTTTTCTACTTAAAGGATCCATCCGATGTAAGCTTCAGTGATTTTCAATCCGTGTAGCTATGTGTTTTTCTTTTTTGTCTTATTTGCTATCTACCACTGTCTGCACCGTCTGCCATCCAGTGATCTTTATGAAGAACTCGGTTTCGTAAGAGATGAAAATTGGTTCCAGTGTGATTAGGTTTCTTTTGTTTCTTCGCGATATTAGACTTAGAAGTTAGAACGAACATCGTTACATATCGCATATGACTTGTTGATGTTTTTATTCCTGCGCTGGTGTTGGGAATCAAATTTCGATAATCGAGTTCTAGAAATTTTGGGAATTAAATGGGTTCTAACTAGGAACTTAAGTCCTTAAGTAAATTAGGAGTTTCACGGGGAATTGGAATAAGAATTCATAATTGAAACATGGCAGTGTTGTTCTTTTTGACTCGTTTTGTATACGTTTTCGGCAGAATATATTTATTGAATGGAAGTTGTTGACTTCATGTTGCAATCATAGATGGGGTCCTATGTATTTTGGGCTTATACTGTTTTAGGTATGACTAATTTTGTATGTCATGTGAAAGAGTTTTACATCTTGGTTCCAACCCTCTCAGAATGAATGCAGCCTCCTTCCTCACAAGCACTTTTGGATAACAAGCAAGCGCATTGTTACGCCACAAGGAGTCATTTCTGGTGCTGGTTAGTACACTGGTTAATGCTGTAGGCTCATGAAAAGAAGTATTACCTTAGGGAGTCTACTCTACATGCTTTATTCATTTATTTCAATATACCTTATGTTTGACTCTCATAGAGTTGGCTTCGGTCTACTCTGTTGAGAAAACATCTTGTTTTCCCTCTATGTTATATTCAAGATTATCATTTTTCTCTGATAAATCAGTTCATTACTAACAAATCAGGAGGTGTTTCTTTGTCAATCATGGCTTTGTATCTTTCTTTTCTTGATGTCTTATGGATTTTCTTTATCAAATGCTAAACTGGGCAGTTGAGATAAATGGAGGGAAGATTGTATCCATTGTTAAGGAAGAAGAAAAGCATGGGAAGATTATGGGTAATCACGTGGTTGATTACAAAGATGCTGTTGTAATGCCTGGCTTGGTTGACGTGTAAGACCTAAAATTTATTTTTCAATTGTTGAATATAAATGTGATTTATAGTCTCTGGTAGAAAGTAAAATTACGTAAAACAGGATATCAAAAAGAAAATAGTTATTATTACAGCAACCATTCTATTATATGTTTCTCAGGATCAAAATTCATTAGATAGATTTTATCTGGGAGGTAAGATTCCATGTGTAGTTGGAAATTTCAAGTTCTATGATTTAGAAATCTGAACTGTACGATCATACTGTTTTTTTTTTATTTAAAAAAATTGACTGCAATTTGAAATTTAAATGAGCATTTGACTGGAACTGGTTCCTAGAATAACGTTAGGTCTATATTTCTCCTTAAATTAATTTGATCCATTTGAGGGGGTTTTCTCCAGTGGACACGGGCTGTTTCTTGATGAGAAAATTAGTAATCGTGCTATCGATTTCTTGGCAGCCATGTTCATCTCGATGATCCTGGACGGTCTGAATGGGAAGGGTTTCCATCTGGAACAAAGGCTGCAGCTGCTGGTATGATTTTTTTCTGTCATTTCTTCATTTGTTTACCTTTTTCTTTTCTTTTAATAAGAATTCCTCATTTAGAAGCTTTCGCCAACAAGAAATAGAATTACTATACCAGAAGACTTTGTCATCCACCAACAGAACGTAGTCTTTTTAAGTTCCAACTCAACGTTTATGGCTTCTAGTTAACCATCTAGAATCATTTTTATTGAATTCAGAATATTTTTGTGCAATAAGTTTTTTGTTTCTTCGATAATGTGTTCATATGAACTTTACTTTAGGCCATATGGACAACCTGTGAAACTGGTATTGATATGTTTGTATAGGTGGGGTAACTACTCTGGTTGATATGCCATTAAATAATTTTCCCTCAACTACGTCCGAAGAAACTCTAAAACTCAAGGTTTGTTTTTTATTGTTTTTTTCCTGGAAATATTTTAGACTGTTTTAAGTTCATTGATCAAATGATCTTTGCTCTCACAAACATATATAAATTTGTCCATGTTTTTTTTTTTGCTTAGTCAGTGCTCTTCCAGATTCTACTAATGTGTATTACTCTATTAATAGATTAAGGCTGCTGAAGGAAGAATCTATGTTGACGTTGGTATACTCAAAACTTTACTTTTTTAACTCAGTTGCTTTAATCTAAGGACTAATTTCATTCTATTAAATATTAGGCTTTTGGGGAGGTCTTGTTCCTGAGAATGCTTTCAATGCAAGTGCTCTGGAAAATCTCCTGAAAGCAGGGGCTCTCGGCCTAAAGGTATTTCTTGATAGTTTCTTTGTAGTTTGCTGCTTACATAGTTGATAGTGACGTCTCAGCCTTATACAATGCACACGAGCGGCAAGGCAACTCGCTATGCTAATTCAAAGTGTAGAACTCCAATTTTAGATCCTTTCTAAACCCTCGTTTTCATTATCTAAGATTTACTACAGTGTGGTTGTAAATATTGGTTTTCCATTGTATTTAGCAAATTGGCAATGCCAAACTGTCTTGCTCCCATCAAACCTTCTCATCAGGGGACTCCTAGTGAGGGGTTTCCCTCTGTTGAAGGTCCTTTCTTGAGGACAAATTTTATGATATATAACTATTCTATGGAACCTTGATGTTCGCAGAAAATTATTATTACCTTATCAATTTTCTACCACGTAACAGGTTTCTCTATCATTGTTTTGTAGTCATTTATGTGTCCTTCCGGGATCAATGACTTTCCTATGACAAATATTTCTCATATCAAGGTATATGGACATTTTAAGTTGCAATATTCATATCATCAGTTTGATCGGGAAGAATGAATTGAACACTTCTATTTGCCTTCCAAATTAACATTGCCATATGCATGAAAATATATGCTTATTAGGAAGGACTGTCAGTTTTAGCAAAATACAAAAGACCTTTGCTTGTGCATTCAGAGATTGAACAAAGTTCTCCAAGCCCTGTGCAACTTGAAGGTAGTCAAGATGACCCTCGTACTTACTCAACATATCTTGCAACCAGACCACCTTCTTGGTAAGATATTAAAATTTCCTACTTTCTTTCGTGTTTGCATTTTGATATAATCCAAGAATTTAATCATGTAGTTTCCTTCTGTTTCTTTCTATTTGAGTACTATGCTACCTTTAGTATTATTTATGTGTACAGAATTCACTAAATCATGCAGACATATTTGTCTTTTTCATTGTTGGTTCTGATTTCCTAGATATTTTCTTCATAACACAATAATTAATAAAATGAAGATTACTGTTGATGATATATAATTAAATTTGCGTTCAACCACTAGCTTAGGTTTTTGGGTGAATTGGTGGTTTAATATGGTATCAGAGCAGGTGGTCCAGAGAGGTCCTGTGTTCAAGCCTCTGCATTGTCGTTTTCTTCCCAATTAAAATTGATTTCCACTTGTTGGACCTTCAAATATTTCAAGCCCACAAGTGAGGGGAGTGTTGGTGATATATAATTAAATTTGCCTTCAACCACCAACTTAAACATTTGGGTGAATTTGTGGTTTAATAATTTTTGCACGAGTTCAGGTTGAGATCATCTAGTTGTGGGCAGTGAAGATATAGTGCATCTAGACCAGAACATCCCCATAAACTCAGCCTTTTCAGGTTGTTGTGTTTAATGATCAACTTTTGGTAAATACTGTGAAACTTAGAGTTTGGTGGTGGTTTTGATAACTTGTGATCACCAGTATCAGATTTAGAATCCGTAGCATTAGGGTCGCAAATAGTCATCCCACAATCCATGAGTTCAATTGGCAATTCAACCATAGCAAATTGTTTGCCACTTGAAGTGATATTAGGACAGAGGGCAAGGAGAAGTCTAGACAATGAATCTGGGAAAACATTGCAGCTCATTCCTATGCCACTGTCACTGATGCTAGACCCGCTAAGATCAAGCAACTCCAAGTTTGGATAGCTTGAAGCAATAGAAGCATCTGATGCATTAGTGATGTCAGCTCCAAGAACAAGTGAAAGCATCCGTAATCCCCTCAATTGTGCAGCTGTGAGTGCTAGAACTACAGCATGAGAAAGACGGAAAGACGATATATGTATGTTTTGTAATCTTGGGCAACCCCTTCCCATACCATCAACCATTGCAACAAGATCAGAGCTATCATTTTCTTGACAAGAAAACTCCGATGAAATCTCCTTTAAATTGGGGCAATTGAAAGCCATCTTAGAGAGCAAGCAAAGATCAAAAAGCCAAAGTGTTTCAAGACTTGATGAACAGAGGGAAAAACTCCCCAAACTAGAACAACCTTCCATCTTAAAACTCTTAAGATAGCGTTTATCGACAACAAATCGACCAAGTTCACCACCTGTGATGCGATTTATCGATGATTTAGACTTGGTGATCTTCAGAACTTCAAGACTAGGGCACGAGAATGCAATGCAAGCCAACAGCATCGAATCCAAGTCACTTTCCTATCTAAACGAGTGTCACAAGTCCAGAATACATCTGCAGCAACGAACCAATAAATCCAATTGGCAATGAGAGGAGTAGCACATCTATCTTATATAGAGTGTGAGTCTCTTGGTTTTTCCAATGTGAGACTCTCAACATCTTGTTGGTGGTTGAAGGTTATTAAACCACCAATTCACCAAAAAGCTTAAGCTGGTGGTTGAATATGGTATCAGAGTCGGTGGTCCAGGGACTTATGTTCAAGCCCATGCATTGTTGTTTCTTTCCCAATTAAAATCGATTTCCACTTGTTAGACCTTTCAAATATTTCAAGCCCATAAGTGAGGTAAAATTGATTCCACATGTTGAGCCTTTCAAATATTTCAAGCCCACAAGTGAGGGGAATGTTGTTGCTGATATATAATTAAATTTGCCTTCACATCTTAACATGCCCCCTCAAGATGGTGCCTTTTTGGGTTCACCTATCTTGGACCGAATACCCGTTTGGGTTTAATGGACTCTGATACCATATTTGATAGTATAGAGTTCCATCTCAAAACAAATTGACAATTAGAGGACTAGTCCATCTATCTTATATAGAGTGTGAGTCTCACGGTTTTTCCAATGTGGGACTCTCAACATCTCATCAGTTACAAATGGTGTTGTGCTTATCAAACTTACAAAGCTGAAGGGATGATGTAATAAGTTCCTCTTTATTGCATTGATTATAAAAAATTATAGCTGCTACAACATACTTTTGAAGAAGTGGTTGAAGGGAGACTTTGAATTGTAACATTTCATTATTCTTTTTTATTTTCAGAAGAAACTTCATAAATATTATTTATTGCCAATAGGAAACAATCTTGTTGATGGAATGAAATATTGAAAGAAAAATAAAAGGAAAAATAAAGCTTATCTTAATTATGCTACAAAAAGAAAAAGTCTCCAGTTGGATGTAAAAATGTTTAATCTATACTTGGTGAGAGGAGGAACAAGTTCACTGAGATATAAAGCCAACCAAAGAAAAAAGAAATTGATGTGTTCAACTATAACCTCGATGGCTCTCTCCCCGTCACAGAATATCTTTGCATTTGGCTTTTGCTCATTCCAAGCAATGCTTATGAAAGGTCTATTGATCTAAAGCTGTATAGTATTTTTCTGAAGCTTGGTAGGATGATCGGATAGAATTTGAGGCAACCAATATTGCACCTCAAAAGGATGGTCAATGTCCAGCAAATGGCTGTGAGGAAATGGGACCATATCTTTGAAGTGAAAGGGCAGTAAATGAATATATGTTTCTGGGACACTATTTGATTTACACGAACTGCAGCATTGAGGAGATAGAGCCATCCAGTGTTTTCTTTTTTGTAACTGATCTGGGTTGTTTAGGTGAGTGTGGCAGAGTTTCCAAGGGCAGAACTTGATCTTATTTGGATAAAATCCTTTCAAATGACTTTGAATTCGGGTACAGTTTGATGAGGATCCCACCAAAAGATTGCTGGTCACAGATTTGGTGGAGTAATAGCCTTCCTTGTCTAGATCTGAAAACCACAAGTCTTCCCTGTCTATATGGGTTGATAAGATAAAAGATATTTCCTCATACTTTAGATTTCCTCAAAAGTTCAAAACTCATGACGCTTTTTAGTGGTCCCAAATGTCTGCCACGGAGGCATCATTTGTTGCCATCAGTGCAAATAAGAGAGGAAATAGTGTAGTTTTACATTACAATGTTAACAAATTTGATATCATAAATCTTAGAAACTACACATCCAAGTTTTCTTCTATTAGAAAAAAACCTTCTGTTTAACTTGATTTGTATGAACTCAATTTCTTGGTAATATTCTTTTCTTGTATCATTAAACAGGGAAGAGGCAGCTGTAAGAGAGCTCTTAAAGGTGACAAGTAATACAAGGCCAGGTGGCCCGGCAGAAGGAGCTCATATTCACGTTGCTCATTTGTCTGATTCAGGTTCTACCTTAGAACTTATTAAGGTACTTTAGACTACTCTGACAAATGCATGTATGTTCCTGTTTCCCAATGAGCATATACAAATTGGCTATTCAACCCATAAGTTTTCACTCTTGAGGTAATTTTGGTCTGCACATTTTGCAATGGGCTTCCTTAATGTCGTCTGATAGTTTTTTCTGTGACTCTTGGTTTAATATACACATCAGCTTCGATATATTATGTACTATGCCACTGTATCCAAGAGCTATAATCTAATGTCTTAAGTGACTGAAAAATGAAGCATCCAAAGAATGTTATTTTCACAGGAAGCCAAAAGGAGTGGAGATAGTGTGTCAGTTGAGACGTGCACCCACTATCTAGCTTTCTCAGAAGAAGATATAAAAGATGGAGATACTCGTTTCAAGTGTGCTCCACCAATTCGTGATAAAGCCAACAAAGAAAAACTATGGGATGCTTTGATGGTCGGTGTTTTTGTAGATCTTTCTTGCTATATATTTCATAAGTCCTCTCTGAACTTGCATCTGTTTCAACTAACATTACAGGAAGGACATATTGACATGTTAAGTTCTGATCATTCGCCAACAGTGCCACATCTAAAGCTACCTGATTCTGGGGATTTTTTAAAGGCTTGGGGAGGCGTATCATCTTTGCAGGTCACAATTCAATATTTACTATAGATTCTCTCACGTCAGTACCATCTGCCGCTTTTTTATTTTCCATCTTGCACTCGTAGGCTTGGAGAAACAATGTATGCACACTGAAAATTATACTTCAAGTTGATGAATGAGGATGAATAGTCTTGTTGCTGATTTTGATAAAACAGTCTTTGAATCGTATTTGGATTTGGATCATTAGGTTTTCAGACATTTATAGCCATTCCCTTAATAACTGCTCGCCATTTATCGGCTGACCTCATTTGAGAGATTTGAAACGGGTTGGTCCCTTAGTTGTAAGTAACATATCACGGGCAGACGCATTTAAATTATATCCTGCGTGGTACAAAGACAAGTGATATACTTGGATTCCTTGTGCTAGCTGTTGATAGATGCTTATATAAGAAAATTGTCAACCAAGTTATGAATAGTGACATCATTTTCTTGAGAAACTGCAGTTTGATCTCTCTGCAACCTGGTCACATGCAAAGAAACGTGGAGTAACAATGGAGCAAATTGCTTTGTGGTGGAGTGAGCGGCCTGCCAAGCTTGCTGGTCTAGAATTAAAGGTTACAAAATTTTCATACTTTTGTTGTCAATTTTACATTACCACTCTTTGGAAGAGTAGATTGAGATACTTTTATTAATTTCTTCACGAGCTTGTTATGTTATGAATCTATCATGAGTTGTATCTCAATAAATAGTCTAAATAACATCTTGTGTTTTCATTAAGGGTAGCAAATTTGCTTATAAATGTTTAAACAATGACATTATAGCCAGTTTGATTGCACCTTCAAGGAAAATATATATCTATATCTCTATCTCTTTCTATCTATCTATATATGTATATATTACCATGTTTAGTGGAGATACTTGGCTACTGGCAATCATCCCTATATCATCGTTGACATAAGAAAGCCTGGTTTTCTCTTACAGGGTGCTATTGCTATTGGAAAGCATGCAGATATTGTTGCGTGGGCACCAGATGAAGAGTACGATGTCAATGACATTCCCGTATACTTGAAACATCCCGTATGTCCAGTTTTTTCTTTTCACCACTGTTTCCTCTTCATATATCCATTTTCAAGTTGCAATTTTCTCAAACTGAATCGTATTTCCAGCATTTTAATTCTACAGATTCAGAAACATCAAATATAAACTGTACATACTCCAAGCACTGAAACTCGTACTGCTGTATGAAACAAGAATTTGCTTTCGTTGAAATTAAACCCAAATCTCCTTACAATATAGGCCAGCATTTGTCACAAATTTTCTGTTGCAAAAATGATTGAGTTGGCTTGTTATGCAGCTATGCTGACTTGGTTTTTTCTTGTCATTCTTTTAACTCAGAGCATTTCAGCCTATATGGGAATGAAACTGTCTGGAAAAGTTTTGGCCACTTTTGTAAGAGGACAACTCGTATACGAAGAGAAGCATGCTCCTGCTGCTTGTGGAACTCCAATCCTTGCAAGAGTAACAGATTAGGACTCTGATATATATATCCATTAATCTTCATGTTATTATGACTTCCATTAGTACCTTCCATGCGCTTATAAGATAAAGAATAAAAGGTCATACTTTCTAAAAATTGTTTGGTTACATAAAGCATGAAGGATACTGATGTTTGTGCTCGACTTCATTTACATATTAAGATCAGCTCTAGGATGATGTTGCGACTGCACTCTTTTTTTGGGAGACAGACAGGTTCCTTAATCAAACTTAATTAACCCAATCAATGGCACCC GTTAGTAATTGACATGTTTCCCGCCGTACTAAAAAAAATGTCACCTTAAAAGCTTCTTAATCAGAGTTTAGCTGAAAGGTGACTAAGTGAGCATCGGTAATTTTACTATAATCGTCTGATCTGACTTTAATCATTGATTAGCGAAATGGTTCACCACAGTTGCCCTTCACTGGTCAGACGATAAGCTGAATTCCTAAGCCTGGGCTGAAGCCGGCGACGGTGAAATACTTCAAATTCCTATCAACTACATGATCGTTCACTCCAATCGCATTACTGATTAGACGGAAAGAATTACGATGAATTTGCTGCAGTGGAAGCTACTTCCTCTATTAACATTGCTCGCTTCCATTTTCTTATTTTTCTACTTAAAGGATCCATCCGATAATGAATGCAGCCTCCTTCCTCACAAGCACTTTTGGATAACAAGCAAGCGCATTGTTACGCCACAAGGAGTCATTTCTGGTGCTGTTGAGATAAATGGAGGGAAGATTGTATCCATTGTTAAGGAAGAAGAAAAGCATGGGAAGATTATGGGTAATCACGTGGTTGATTACAAAGATGCTGTTGTAATGCCTGGCTTGGTTGACGTCCATGTTCATCTCGATGATCCTGGACGGTCTGAATGGGAAGGGTTTCCATCTGGAACAAAGGCTGCAGCTGCTGGTGGGGTAACTACTCTGGTTGATATGCCATTAAATAATTTTCCCTCAACTACGTCCGAAGAAACTCTAAAACTCAAGATTAAGGCTGCTGAAGGAAGAATCTATGTTGACGTTGGCTTTTGGGGAGGTCTTGTTCCTGAGAATGCTTTCAATGCAAGTGCTCTGGAAAATCTCCTGAAAGCAGGGGCTCTCGGCCTAAAGTCATTTATGTGTCCTTCCGGGATCAATGACTTTCCTATGACAAATATTTCTCATATCAAGGAAGGACTGTCAGTTTTAGCAAAATACAAAAGACCTTTGCTTGTGCATTCAGAGATTGAACAAAGTTCTCCAAGCCCTGTGCAACTTGAAGGTAGTCAAGATGACCCTCGTACTTACTCAACATATCTTGCAACCAGACCACCTTCTTGGGAAGAGGCAGCTGTAAGAGAGCTCTTAAAGGTGACAAGTAATACAAGGCCAGGTGGCCCGGCAGAAGGAGCTCATATTCACGTTGCTCATTTGTCTGATTCAGGTTCTACCTTAGAACTTATTAAGGAAGCCAAAAGGAGTGGAGATAGTGTGTCAGTTGAGACGTGCACCCACTATCTAGCTTTCTCAGAAGAAGATATAAAAGATGGAGATACTCGTTTCAAGTGTGCTCCACCAATTCGTGATAAAGCCAACAAAGAAAAACTATGGGATGCTTTGATGGAAGGACATATTGACATGTTAAGTTCTGATCATTCGCCAACAGTGCCACATCTAAAGCTACCTGATTCTGGGGATTTTTTAAAGGCTTGGGGAGGCGTATCATCTTTGCAGTTTGATCTCTCTGCAACCTGGTCACATGCAAAGAAACGTGGAGTAACAATGGAGCAAATTGCTTTGTGGTGGAGTGAGCGGCCTGCCAAGCTTGCTGGTCTAGAATTAAAGGGTGCTATTGCTATTGGAAAGCATGCAGATATTGTTGCGTGGGCACCAGATGAAGAGTACGATGTCAATGACATTCCCGTATACTTGAAACATCCCAGCATTTCAGCCTATATGGGAATGAAACTGTCTGGAAAAGTTTTGGCCACTTTTGTAAGAGGACAACTCGTATACGAAGAGAAGCATGCTCCTGCTGCTTGTGGAACTCCAATCCTTGCAAGAGTAACAGATTAGGACTCTGATATATATATCCATTAATCTTCATGTTATTATGACTTCCATTAGTACCTTCCATGCGCTTATAAGATAAAGAATAAAAGGTCATACTTTCTAAAAATTGTTTGGTTACATAAAGCATGAAGGATACTGATGTTTGTGCTCGACTTCATTTACATATTAAGATCAGCTCTAGGATGATGTTGCGACTGCACTCTTTTTTTGGGAGACAGACAGGTTCCTTAATCAAACTTAATTAACCCAATCAATGGCACCC ATGAATTTGCTGCAGTGGAAGCTACTTCCTCTATTAACATTGCTCGCTTCCATTTTCTTATTTTTCTACTTAAAGGATCCATCCGATAATGAATGCAGCCTCCTTCCTCACAAGCACTTTTGGATAACAAGCAAGCGCATTGTTACGCCACAAGGAGTCATTTCTGGTGCTGTTGAGATAAATGGAGGGAAGATTGTATCCATTGTTAAGGAAGAAGAAAAGCATGGGAAGATTATGGGTAATCACGTGGTTGATTACAAAGATGCTGTTGTAATGCCTGGCTTGGTTGACGTCCATGTTCATCTCGATGATCCTGGACGGTCTGAATGGGAAGGGTTTCCATCTGGAACAAAGGCTGCAGCTGCTGGTGGGGTAACTACTCTGGTTGATATGCCATTAAATAATTTTCCCTCAACTACGTCCGAAGAAACTCTAAAACTCAAGATTAAGGCTGCTGAAGGAAGAATCTATGTTGACGTTGGCTTTTGGGGAGGTCTTGTTCCTGAGAATGCTTTCAATGCAAGTGCTCTGGAAAATCTCCTGAAAGCAGGGGCTCTCGGCCTAAAGTCATTTATGTGTCCTTCCGGGATCAATGACTTTCCTATGACAAATATTTCTCATATCAAGGAAGGACTGTCAGTTTTAGCAAAATACAAAAGACCTTTGCTTGTGCATTCAGAGATTGAACAAAGTTCTCCAAGCCCTGTGCAACTTGAAGGTAGTCAAGATGACCCTCGTACTTACTCAACATATCTTGCAACCAGACCACCTTCTTGGGAAGAGGCAGCTGTAAGAGAGCTCTTAAAGGTGACAAGTAATACAAGGCCAGGTGGCCCGGCAGAAGGAGCTCATATTCACGTTGCTCATTTGTCTGATTCAGGTTCTACCTTAGAACTTATTAAGGAAGCCAAAAGGAGTGGAGATAGTGTGTCAGTTGAGACGTGCACCCACTATCTAGCTTTCTCAGAAGAAGATATAAAAGATGGAGATACTCGTTTCAAGTGTGCTCCACCAATTCGTGATAAAGCCAACAAAGAAAAACTATGGGATGCTTTGATGGAAGGACATATTGACATGTTAAGTTCTGATCATTCGCCAACAGTGCCACATCTAAAGCTACCTGATTCTGGGGATTTTTTAAAGGCTTGGGGAGGCGTATCATCTTTGCAGTTTGATCTCTCTGCAACCTGGTCACATGCAAAGAAACGTGGAGTAACAATGGAGCAAATTGCTTTGTGGTGGAGTGAGCGGCCTGCCAAGCTTGCTGGTCTAGAATTAAAGGGTGCTATTGCTATTGGAAAGCATGCAGATATTGTTGCGTGGGCACCAGATGAAGAGTACGATGTCAATGACATTCCCGTATACTTGAAACATCCCAGCATTTCAGCCTATATGGGAATGAAACTGTCTGGAAAAGTTTTGGCCACTTTTGTAAGAGGACAACTCGTATACGAAGAGAAGCATGCTCCTGCTGCTTGTGGAACTCCAATCCTTGCAAGAGTAACAGATTAG MNLLQWKLLPLLTLLASIFLFFYLKDPSDNECSLLPHKHFWITSKRIVTPQGVISGAVEINGGKIVSIVKEEEKHGKIMGNHVVDYKDAVVMPGLVDVHVHLDDPGRSEWEGFPSGTKAAAAGGVTTLVDMPLNNFPSTTSEETLKLKIKAAEGRIYVDVGFWGGLVPENAFNASALENLLKAGALGLKSFMCPSGINDFPMTNISHIKEGLSVLAKYKRPLLVHSEIEQSSPSPVQLEGSQDDPRTYSTYLATRPPSWEEAAVRELLKVTSNTRPGGPAEGAHIHVAHLSDSGSTLELIKEAKRSGDSVSVETCTHYLAFSEEDIKDGDTRFKCAPPIRDKANKEKLWDALMEGHIDMLSSDHSPTVPHLKLPDSGDFLKAWGGVSSLQFDLSATWSHAKKRGVTMEQIALWWSERPAKLAGLELKGAIAIGKHADIVAWAPDEEYDVNDIPVYLKHPSISAYMGMKLSGKVLATFVRGQLVYEEKHAPAACGTPILARVTD* Homology
BLAST of CSPI01G12020 vs. ExPASy Swiss-Prot
Match: Q94AP0 (Allantoinase OS=Arabidopsis thaliana OX=3702 GN=ALN PE=1 SV=1) HSP 1 Score: 721.5 bits (1861), Expect = 6.7e-207 Identity = 352/504 (69.84%), Postives = 420/504 (83.33%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy Swiss-Prot
Match: B9FDB8 (Probable allantoinase OS=Oryza sativa subsp. japonica OX=39947 GN=ALN PE=2 SV=1) HSP 1 Score: 624.4 bits (1609), Expect = 1.1e-177 Identity = 299/501 (59.68%), Postives = 387/501 (77.25%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy Swiss-Prot
Match: Q82LL4 (Allantoinase OS=Streptomyces avermitilis (strain ATCC 31267 / DSM 46492 / JCM 5070 / NBRC 14893 / NCIMB 12804 / NRRL 8165 / MA-4680) OX=227882 GN=allB PE=3 SV=1) HSP 1 Score: 343.2 bits (879), Expect = 5.0e-93 Identity = 184/443 (41.53%), Postives = 265/443 (59.82%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy Swiss-Prot
Match: Q9RKU5 (Allantoinase OS=Streptomyces coelicolor (strain ATCC BAA-471 / A3(2) / M145) OX=100226 GN=allB PE=3 SV=1) HSP 1 Score: 342.4 bits (877), Expect = 8.5e-93 Identity = 186/444 (41.89%), Postives = 269/444 (60.59%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy Swiss-Prot
Match: Q55C91 (Probable allantoinase 2 OS=Dictyostelium discoideum OX=44689 GN=allB2 PE=3 SV=1) HSP 1 Score: 324.3 bits (830), Expect = 2.4e-87 Identity = 193/503 (38.37%), Postives = 291/503 (57.85%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy TrEMBL
Match: A0A0A0LUK0 (Allantoinase OS=Cucumis sativus OX=3659 GN=Csa_1G073760 PE=3 SV=1) HSP 1 Score: 1020.4 bits (2637), Expect = 2.6e-294 Identity = 501/503 (99.60%), Postives = 502/503 (99.80%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy TrEMBL
Match: A0A1S3B681 (Allantoinase OS=Cucumis melo OX=3656 GN=LOC103486263 PE=3 SV=1) HSP 1 Score: 1000.0 bits (2584), Expect = 3.6e-288 Identity = 488/503 (97.02%), Postives = 497/503 (98.81%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy TrEMBL
Match: A0A6J1GUY1 (Allantoinase OS=Cucurbita moschata OX=3662 GN=LOC111457155 PE=3 SV=1) HSP 1 Score: 926.8 bits (2394), Expect = 3.9e-266 Identity = 449/500 (89.80%), Postives = 477/500 (95.40%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy TrEMBL
Match: A0A6J1K128 (Allantoinase OS=Cucurbita maxima OX=3661 GN=LOC111490122 PE=3 SV=1) HSP 1 Score: 922.2 bits (2382), Expect = 9.6e-265 Identity = 447/500 (89.40%), Postives = 477/500 (95.40%), Query Frame = 0
BLAST of CSPI01G12020 vs. ExPASy TrEMBL
Match: A0A6J1CH40 (Allantoinase OS=Momordica charantia OX=3673 GN=LOC111010798 PE=3 SV=1) HSP 1 Score: 917.5 bits (2370), Expect = 2.4e-263 Identity = 446/500 (89.20%), Postives = 482/500 (96.40%), Query Frame = 0
BLAST of CSPI01G12020 vs. NCBI nr
Match: XP_004146596.1 (allantoinase [Cucumis sativus] >KGN64669.1 hypothetical protein Csa_014334 [Cucumis sativus]) HSP 1 Score: 1020.4 bits (2637), Expect = 5.4e-294 Identity = 501/503 (99.60%), Postives = 502/503 (99.80%), Query Frame = 0
BLAST of CSPI01G12020 vs. NCBI nr
Match: XP_008442380.1 (PREDICTED: allantoinase [Cucumis melo]) HSP 1 Score: 1000.0 bits (2584), Expect = 7.5e-288 Identity = 488/503 (97.02%), Postives = 497/503 (98.81%), Query Frame = 0
BLAST of CSPI01G12020 vs. NCBI nr
Match: XP_038895576.1 (allantoinase isoform X1 [Benincasa hispida]) HSP 1 Score: 973.8 bits (2516), Expect = 5.8e-280 Identity = 474/504 (94.05%), Postives = 493/504 (97.82%), Query Frame = 0
BLAST of CSPI01G12020 vs. NCBI nr
Match: XP_022955084.1 (allantoinase [Cucurbita moschata]) HSP 1 Score: 926.8 bits (2394), Expect = 8.1e-266 Identity = 449/500 (89.80%), Postives = 477/500 (95.40%), Query Frame = 0
BLAST of CSPI01G12020 vs. NCBI nr
Match: KAG6573259.1 (Allantoinase, partial [Cucurbita argyrosperma subsp. sororia] >KAG7012428.1 Allantoinase [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 926.4 bits (2393), Expect = 1.1e-265 Identity = 448/500 (89.60%), Postives = 477/500 (95.40%), Query Frame = 0
BLAST of CSPI01G12020 vs. TAIR 10
Match: AT4G04955.1 (allantoinase ) HSP 1 Score: 721.5 bits (1861), Expect = 4.8e-208 Identity = 352/504 (69.84%), Postives = 420/504 (83.33%), Query Frame = 0
BLAST of CSPI01G12020 vs. TAIR 10
Match: AT5G12200.1 (pyrimidine 2 ) HSP 1 Score: 88.2 bits (217), Expect = 2.1e-17 Identity = 113/471 (23.99%), Postives = 191/471 (40.55%), 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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