Bhi12G000346 (gene) Wax gourd (B227) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CCACATCCTCTATAATTTAAAATATGAAACTCAACTATAAAAACGTCCACCAGACACGTGTTCCTTAGTGAACTCTCCACGTTTTGTCATCAAAACCACAACCTTCGCTCCTCAATTTCCCTCCAATTTCCTTCTCTTTCCTCGCCTCCGATGATCTCACGCAGGTTCGAAATTTCTGCATTCTGGCCCAACTCTCTCTCCGTCGCGCCGCCGCTCCATTTTTCCGGTCAAACTACCGGCAACTTAGTCTCCTCTTCCAGTTCCCTGCCCTGTCCGTAATTCGTACAGAAATGGTCTCAACCCTCTCGAATCCTGTTCAGTCGGGTCGGATTCGGGTTCTGAAAGATGGAACGGGTTCTGTGGGCCCGGTGGTTTATTGGATGTTTAGGGATCAAAGGGTGAAAGATAATTGGGCGTTGATACATGCTGTTGATGAAGCCAACAGAGCCAATGTCCCTGTTGCTGTTGCCTTCAATTTGTTCGATCGATTTTTGGGGGCGAAATCTCGGCAATTAGGGTTTATGCTTAGGGGTCTGCAACAACTTCAACATGATCTTCAAGAAAAGCTTCATATGCGTTTCTTCTTGTTCCAGGCAAGTTAATTTACTGTAAATGTTTAGGTATTAGTGTTGTCTGTTACCGTTATCCTTTTTTAGTGAATCTGGAGAAGACGTAATTCTTGATTTACTTTAAATTCATAATATACACTTTGTGCAACTGTCGATGCATTAACTACATTTTGGTGAATGAATAGAGTGGAGTGTTCCCTTCCTGCTAGTTTTTGGTTCTAGGATCTGGCATCACGTAGAAATGTCTTGAATCTGTTATGAGTTTTCTGACATTCTGAATGACTAAGGCCTCAACTGGTAACTATATGGCTTTTTGTTTTTGTTTTTGAAAATTAAGCCTATAGATACTATCTCCCTTTTCCAAATTTCTTCCTTCGTTATCTACTTTTTAACAATGATTTAAAAAATCAAACCAAAATTTGAAAAATAAAAAAAATTAGTTTTAAAAATTTGTTCTTGTTTTTAGAATTTGGCTAAGAATTTAATCATTGTTCTTAAGAAATTTGCAAATCATTGTAAGAAATAGAGAGGAAATAAGCTTAATTTTAAAAAACCAAATGGTTATCAAACGGAGTCTAAGTTATATAGAGATTATTATTTCAATTCTCATTTTGGGCGTATTATGTTTAGAGTCTAGGGGTGGTATATACATACCCTCTAATCTTTACCTGCAGTTATCTTTGTATTTTGTACGACGTTCCTTCTTGAGATAATGAAACAGTTTCTCTCTCTACTTGTGGATGTAGTTAACACACCGTTGATGAACTGCGTAAATCTGTGTGTCGATGTCTTCTTATTTGATTCTTTCCTTGTCGAATGTTTATGTCGTCACACTTTATACCTATGCTTTATAAATCACCACGACTTTTAAATTTGTGTCATTAATTTCCTTGAGATTTTGAAAGTTTGATATCAAAGCATTGAAAGATTGCTACAGTTTTGTATCACCATGACTAATAGTTTTCAGGGTTTGCATTCCTTAAGGGGGAAGCTGAACAGACTATACCAAATTTCATTAAAGAATGTGGCGCTTCACTTCTAGTCACAGACTTCTCACCCTTAAGAGAAGTTCGGAAGTGTAAAGAGGAAATTTGTAAGAGGGTAGAGGAATCAGTTAAAGTACATGAAGTTGATGCCCACAATGTGGTACCCATTTGGGTTGCATCCGAGAAATTGGAATACAGTGCAAAAACTTTAAGGGGCAAGATAAATAAAAAGCTCCCGGATTATCTTATTGATTTCCCTCCTCTGGTCATACCAACTAGAAAATGGCCTTCCTCCGATAAGTTTATTGATTGGGATAAACTTATCGATGATAACTTGAGGTTAGAGCATTGTTTTCTTTTGCATTCTATTATGACTTTCCAATGTGTTGAAGTTGACATTTCCCTATTACTAGGAAAGGAGCAGATGTTCCTGAAATTGAATGGTGTAAACCAGGGGAAAAGGCTGCACTGGAAGTATTGATGGGTAGTAAAGATGGGTTTTTGACTAAGAGGTTGAAGAGCTATGCGATAGATAGGAACAATCCATTGAAACCTAAGGGGCTCTCTGGCCTCTCCCCATATTTGCATTTTGGGCAAATATCCGCACAACGTTGTGCCCTGGAAGCACAGAATGTTCGAAAACTCAATCCACAGGTAATCCAAAGAAAAGATTTGTTAGTGTGTCTTTTTATTGTTTAATGGAATACTGTGGCGGCAAATGTTAGCTTGGAAGTATATGTTCATTTAAATCATTAGTTTAGTTTGTCTAATCCTTCTGTTATCTTCTCTTTTGCATAATTTTTAAGGCAGTTGATGTGTTTCTTGAAGAGTTGATTGTTAGAAGGGAACTTGCTGATAATTACTGCTACTACCAACCTCACTATGATTCACTGCTTGGGGCTTGGGAATGGGCACGTAAAACCTTGATGGACCATGCTTCGGATAAGCGAGAACATGTTTACACGTAGGTGGGCTTTTGCTGTAATGGCATACCATTATCTAATTGTAATTGGTATTGAAATTATGAAGCTGCTGTTGAATTTTCAGGAGGGAGCAACTGGAGAAGGCGCAAACTGCTGACCCAGTTAATACAAGAACTTATAGAACTATTATCTTTTCTCTGCTTGTTGCTTTGATGCTTTCAATTTTTTGCTGTTATTTCTATTGAATAACTCACATTTGCTATGATTAATATTTTTCAGCTCTGGAATGCTTCTCAGTTGGAGATGGTCTACCATGGAAAGATGCATGGTTTTATGAGGTAAGTACTGATGAATTTTCCTATTACGAAATCGGCAATTAAATAATACAAAAAACGTAAAAATTCTTTTAACAGCTTGTCAATGCTCCTTCCTAGGTTGACCCATGAATTTGCTGACAACACTAACAATATAGATAAGATCAGGCTAGTATAAACCATAGCATATATCAAACTTTCCACTGCACTAGCATAAGGAACTCAAGACATGTACTCCTTCTCAGCTTCAGACTGTGGTGAAAGCACAGGTGAAAAACGAACATTTACAGCACTGGGAGTATCTATAGGCGTAGCTGATGACATACCAAACCTGGACAATATTTTTTGAATATAGCCTTTTTGTGACAAAAAAAGCATATTTTCATCTTTGCCCCTATAAATCTCCATACCCAAGATTTTTTAACAACACCCAAATCCTTCATAACAAACTCAGCACTGAGAAGGTTCTTCAATTTCAGAATGTCAGACTTGGGCTTTGCAGCTATGAGCATATCATCTACATATAAAAGTAGATAAATCATCAAACCATCATCAGCTTCATTGTGTTATACACAACAATCATATAGACTCCTATAGCCAAGTCCAACCATATAGCTGTCAAATCGTTTGTGCCACTGCCTTGGAGACTGCTTTAGCCCATGCAAAAATTTGTTCAACTTACAAACATAATCTTCTTTACGTGGACACTGGAACCCATCTAGCTTGGTCATATAAATCTCTTCCTCCAACTCTCCATGTAAGAAAGTTGTCTTCACATCTAGTTGCTCAAGTTCCAAATTCTGATGTGCTACTATAGTTAGTAACACGCTGATAGAAGTATGTCTGACTACTGGTGAGAAGATCTCATTATAATCAATTCCTTTCCTCTATGTGAACCCTCTAACAAGAACTCGAGCTTTAGAACTTTAGAACTTAGATCATAGATATGGTTACTTTTCCCTCTTATGTTCGAGTTTTATATTTAATGTCCTCTGAAGGTGATATTCCTTCTTTTTTCTTGAAGACTCATTTACAAGTGACAATTTTTCTCTCCTTAGGTTGTTTAACTAATTCCCAAGTCTGATTTTTGTCGAGAGATTCCATTTCATCCCCCATAGCAACGAGCTATTGAGCAGACTCACTACATGACATAACTTTTCTATAGGTGGATGGCTCATGAGGATCCACCTCTTCTGCAACTTGTAGTGCAAAAGTAACCATATCTTCAAAACCATGCCTCATTGGAGGTCCAACACCAACTCTTCTAGCTCTGTCACGAGCTATATTCGGTTGATCAATTTGTGAGCTAGAATTTTTAGGCAAAACAAATTCTGATGTTTCAGGCACATTAGTTTCTAGTTGCACATCAGTTTCTATAGTAACGTGTTGATCTTCTCCACCTTGATGTTGTCATTCATTCACAACTGAAGTGAATTTTATCTCCACTTGTTTATCAATACTACTACTTTCTCTCATATCAGTAGACATCACAAAACGCTTAACAGTTGAGTTAAGCATGAATTTTTTTTATCAAATATCACATTCCTACTATGTATAACTCTATTATCAGAAGGTGACCAGACTCTATATCCCTTAACTTTGTCCCTAAAACCCACAAAAATATACCATTTTTAGCTCTCGGTTCTGATTTACCCTCATTAACATGATAGTAGACAATACAACCAAAAATTCTTAATAAATATAATCTACAGGCTTACCAGACCACACCTCGTAAGGTGTTTTACAATCTATAGCTGTGTGAAGTCCACGGTTGATCAAATAACATGCTGTATTTACTACTTCTACCCAAAACCTTCTAGTCAATCCTACATTAGAGAGCATGCATCTTGTTCTCTCCAACAACGTCTGATTCATACGTTCTGTAACCCCATTTTATTGTGGAGTATTCCTGACAGTGTGATGGCGAACAATCCCCCAGCTTTACAGAACTCATTAAATTTAGATCTACAGAATTCCAAACTATTATCTGTTCGTAGTCTTTTGATCTTCACTTTTATGTTTTCATCATAAAAACCTAAGTCATTCTTGAGTAATCATCAATTATAGACAGAAAATACCTGTTGCCTCCAATAGATTCAACTCTAGAAGGTCCCCAACAGTTTGATTGAATATAATTAAATGTCCTTTTTGTACGATGAACACCTCTTGGAAATTTGATGTGATGATGCTTCCCAGATATACAATGTTCACAGAATTGAAAATCCTGCACCTTGTGCCCACATAGAAGATTCCTTTTTGACAAAATTTGCATCCCTTTTTCACTCATATGACCAAGTCTCATATGCCATAACTTAGTCATATCATCCTTGTGAACGACAGATGATGTAACAACAACATTACTTGTTATTGTGGAACTGGATAGGAAATACAGTGTTGCACGTTTTATGCCTTCCAAAACTACCTTAGAACCCTTGTAGACATACATTGCTCCACCTTTACCATTAAAATTGTAACCCTTGATATTGAGTACACTAAAGGATATCAAACTCTTCGTCATTAATAGAACATGCCTAACCTCGTTCAAAGTGTATAAGACATCATTATGTGTTCGTATCTTGACTTGAGCCGATTCCAACTATCTTGCACACAACACCATTAGCCATGCTAACATTTCCTCTGTCTATTTCCTGATACGTTGAGAACCACTCTCTATTTGGGCACATATGATAAGATGTCCTAGAATCAAGACTCCTACACATCATCAGAATGTTAATGTTCATTCACAACGAAAGCTAGATCTCCTTCAAAATCGATCTCGACTTCTTCAAGATCAATTTCAACTTGTGCAACAGAGGTGGATGCTTCCTTTTTTGTCACTCATTTTTCTTCTTTTCTTGATACATTTTTATCTAAGGACATTCCGTTGTCCAATGCCCATTTTTCTTTACAATAGTGACGAACATTATCTGATCTAGAACTCTTTCACTTCAAAGACTTATTATTCTAGTTCGACTTCTGCTTACCAGAATTCCTATGTCCCTTGCTTCCTTTAGCAGCTAACCTAGATGCTTGACTTTCTGTACTTGAACTGGTCCTCTCTCATAAGCAACATGAACTTTGTATCTTCTAAGGTCAAAGTTTCTTTCCCCCCAATATACGAGTCAACGAAAGTTTGATACGATGGGGGCATAGCATCCTCATCATCAACCTTAACCTCTACGTTACGTAGATCTAATAAGATTTTATTTAATACATCAAGATGGTCTTGTTGAGACGTACCTTCTTGCATATGTAGATGAGACAGACGTTGCTTTAGAAACAACTTCTTGGTTTAAGATTTCGTCATGTAAAGATTTTCCAACTCTAATCAAAGACTAACAACAGTTTCTCCATCAGCGACCTCAATGATGACGTCATCAGCCAAACATAGCATGATCGTCAAATGAGCCTTCTCCTCAAGAGGCTGCCATTTTACGTCATTCACGACAACCTTCTTTGACTTACCAATCAGCGACGCCCACAACCCTTGCTGCTTTAGCAGGGATCACATCTTGATCTGCCATAAACTTAAATTGTTCCTCCTGGTAAATTTGTCGATTTTTACGTTCTCGTCAGACATCTTCAATTATCGAACAAATGCGAAATTTCGAAAAATCCTAACAAGGCTCTGATACCAGTTTGTTCTGAAATTGACAATTAAATAATACAAAAAACGTAAAAGTATTAATACACAGATATATGTGGTTCACTAACAGTATGTTAACTATGTCCATGGGCAGAGGGAGAACAATATTATTAGAGAGAATGTTTTCAGAATACACCAACGGCGCCTTTAGGGTTAGAGAGTTTATATAGCGCACTACTCTAAACCCTAGAGTCATAATCGTAAATAACTACAAATAAATAAATATGTTAAATATAAATTCTACTTAGTTGTTTGAAATGCCAACAAACAAATTTAAAACATTCAACATTTTCAGTCATAGTATTGATTCATGATAATTGTCAAATGGTGATTAGTTGTGTCAACTTATGTTATTTAAAATCCTGCATCATCCGCTTGAAACATTTTTGTTCTCGTTTTCTCTTTCTTTGTCCTTATGTTAATTTTCTGCTCCCAAAGCCCTGGAATGTCATAGTAGAATTCAATTCATTGTACAGAATGTACTGGGCCAAAAAGATCTTGGAGTGGACAAGAGGACCTGAGGAAGCCCTTGAAATCTGCATATACTTGAATGATAAGGTTTATTATTACTAATCTACACTTTTATGCGCTTTTATTGAAGTAGTGAAAATTGCTAATCGATATGGTAAATGCAGTATGAAATCGATGGGAGGGATCCGAATGGATACGTCGGCTGCATGTGGTCAATCTGCGGCGTTCACGACCAGGTTTATACTCACTTTTCATTTGTTACTTGTCCTCATTGATGAACCTTAAGTTGCTGGGATTATTTTTCTTGCATATTCTCTCTGTTCTCCAACATGAGAAGTTTGATTATTTCTCAAGTGACTACCTTGTCATCTTTTCAGTTTGATCACGAGAAACTGATATTATACAGTTTCATGTTCGCAATTTTCGTTGTTTAGGGTTGGAAAGAGCGACCAGTATTTGGGAAGATACGATACATGAACTTCGCTGGGTGCAAGAGGAAATTTGATGTGGATGGCTACATTGCCCATGTCAAGAGACTAGTGGGTGAAATTAAGAAAAGAAAACCAGAGGAAGCACTGCAGGAGAGAAAGCCAAAGGGAATTCGTTGCTAGTTAATGTTTAGTTGCCTCTGAATTCGGTATCGAATTTCAGAGCGCTGAGAAGCCTAACAGTAGTGATAGTTTAAAGCAACAGAATTCACATATACTATGAGCTCTAGAGCTCCTCAACTGACATTATAATCTGTAACTTTCAAGCCACAGTTGTTTGAATCCTCCCAACTAAATTCATGAATTGGTATCTACATGACTAAAAGTTTAATCTTTGATAAACTACTTTGTTGTGGGATTATTTAGCCTTCCCTTTTGCTGA CCACATCCTCTATAATTTAAAATATGAAACTCAACTATAAAAACGTCCACCAGACACGTGTTCCTTAGTGAACTCTCCACGTTTTGTCATCAAAACCACAACCTTCGCTCCTCAATTTCCCTCCAATTTCCTTCTCTTTCCTCGCCTCCGATGATCTCACGCAGGTTCGAAATTTCTGCATTCTGGCCCAACTCTCTCTCCGTCGCGCCGCCGCTCCATTTTTCCGGTCAAACTACCGGCAACTTAGTCTCCTCTTCCAGTTCCCTGCCCTGTCCGTAATTCGTACAGAAATGGTCTCAACCCTCTCGAATCCTGTTCAGTCGGGTCGGATTCGGGTTCTGAAAGATGGAACGGGTTCTGTGGGCCCGGTGGTTTATTGGATGTTTAGGGATCAAAGGGTGAAAGATAATTGGGCGTTGATACATGCTGTTGATGAAGCCAACAGAGCCAATGTCCCTGTTGCTGTTGCCTTCAATTTGTTCGATCGATTTTTGGGGGCGAAATCTCGGCAATTAGGGTTTATGCTTAGGGGTCTGCAACAACTTCAACATGATCTTCAAGAAAAGCTTCATATGCGTTTCTTCTTGTTCCAGGGGGAAGCTGAACAGACTATACCAAATTTCATTAAAGAATGTGGCGCTTCACTTCTAGTCACAGACTTCTCACCCTTAAGAGAAGTTCGGAAGTGTAAAGAGGAAATTTGTAAGAGGGTAGAGGAATCAGTTAAAGTACATGAAGTTGATGCCCACAATGTGGTACCCATTTGGGTTGCATCCGAGAAATTGGAATACAGTGCAAAAACTTTAAGGGGCAAGATAAATAAAAAGCTCCCGGATTATCTTATTGATTTCCCTCCTCTGGTCATACCAACTAGAAAATGGCCTTCCTCCGATAAGTTTATTGATTGGGATAAACTTATCGATGATAACTTGAGGAAAGGAGCAGATGTTCCTGAAATTGAATGGTGTAAACCAGGGGAAAAGGCTGCACTGGAAGTATTGATGGGTAGTAAAGATGGGTTTTTGACTAAGAGGTTGAAGAGCTATGCGATAGATAGGAACAATCCATTGAAACCTAAGGGGCTCTCTGGCCTCTCCCCATATTTGCATTTTGGGCAAATATCCGCACAACGTTGTGCCCTGGAAGCACAGAATGTTCGAAAACTCAATCCACAGGCAGTTGATGTGTTTCTTGAAGAGTTGATTGTTAGAAGGGAACTTGCTGATAATTACTGCTACTACCAACCTCACTATGATTCACTGCTTGGGGCTTGGGAATGGGCACGTAAAACCTTGATGGACCATGCTTCGGATAAGCGAGAACATGTTTACACGAGGGAGCAACTGGAGAAGGCGCAAACTGCTGACCCACTCTGGAATGCTTCTCAGTTGGAGATGGTCTACCATGGAAAGATGCATGGTTTTATGAGAATGTACTGGGCCAAAAAGATCTTGGAGTGGACAAGAGGACCTGAGGAAGCCCTTGAAATCTGCATATACTTGAATGATAAGTATGAAATCGATGGGAGGGATCCGAATGGATACGTCGGCTGCATGTGGTCAATCTGCGGCGTTCACGACCAGGGTTGGAAAGAGCGACCAGTATTTGGGAAGATACGATACATGAACTTCGCTGGGTGCAAGAGGAAATTTGATGTGGATGGCTACATTGCCCATGTCAAGAGACTAGTGGGTGAAATTAAGAAAAGAAAACCAGAGGAAGCACTGCAGGAGAGAAAGCCAAAGGGAATTCGTTGCTAGTTAATGTTTAGTTGCCTCTGAATTCGGTATCGAATTTCAGAGCGCTGAGAAGCCTAACAGTAGTGATAGTTTAAAGCAACAGAATTCACATATACTATGAGCTCTAGAGCTCCTCAACTGACATTATAATCTGTAACTTTCAAGCCACAGTTGTTTGAATCCTCCCAACTAAATTCATGAATTGGTATCTACATGACTAAAAGTTTAATCTTTGATAAACTACTTTGTTGTGGGATTATTTAGCCTTCCCTTTTGCTGA ATGGTCTCAACCCTCTCGAATCCTGTTCAGTCGGGTCGGATTCGGGTTCTGAAAGATGGAACGGGTTCTGTGGGCCCGGTGGTTTATTGGATGTTTAGGGATCAAAGGGTGAAAGATAATTGGGCGTTGATACATGCTGTTGATGAAGCCAACAGAGCCAATGTCCCTGTTGCTGTTGCCTTCAATTTGTTCGATCGATTTTTGGGGGCGAAATCTCGGCAATTAGGGTTTATGCTTAGGGGTCTGCAACAACTTCAACATGATCTTCAAGAAAAGCTTCATATGCGTTTCTTCTTGTTCCAGGGGGAAGCTGAACAGACTATACCAAATTTCATTAAAGAATGTGGCGCTTCACTTCTAGTCACAGACTTCTCACCCTTAAGAGAAGTTCGGAAGTGTAAAGAGGAAATTTGTAAGAGGGTAGAGGAATCAGTTAAAGTACATGAAGTTGATGCCCACAATGTGGTACCCATTTGGGTTGCATCCGAGAAATTGGAATACAGTGCAAAAACTTTAAGGGGCAAGATAAATAAAAAGCTCCCGGATTATCTTATTGATTTCCCTCCTCTGGTCATACCAACTAGAAAATGGCCTTCCTCCGATAAGTTTATTGATTGGGATAAACTTATCGATGATAACTTGAGGAAAGGAGCAGATGTTCCTGAAATTGAATGGTGTAAACCAGGGGAAAAGGCTGCACTGGAAGTATTGATGGGTAGTAAAGATGGGTTTTTGACTAAGAGGTTGAAGAGCTATGCGATAGATAGGAACAATCCATTGAAACCTAAGGGGCTCTCTGGCCTCTCCCCATATTTGCATTTTGGGCAAATATCCGCACAACGTTGTGCCCTGGAAGCACAGAATGTTCGAAAACTCAATCCACAGGCAGTTGATGTGTTTCTTGAAGAGTTGATTGTTAGAAGGGAACTTGCTGATAATTACTGCTACTACCAACCTCACTATGATTCACTGCTTGGGGCTTGGGAATGGGCACGTAAAACCTTGATGGACCATGCTTCGGATAAGCGAGAACATGTTTACACGAGGGAGCAACTGGAGAAGGCGCAAACTGCTGACCCACTCTGGAATGCTTCTCAGTTGGAGATGGTCTACCATGGAAAGATGCATGGTTTTATGAGAATGTACTGGGCCAAAAAGATCTTGGAGTGGACAAGAGGACCTGAGGAAGCCCTTGAAATCTGCATATACTTGAATGATAAGTATGAAATCGATGGGAGGGATCCGAATGGATACGTCGGCTGCATGTGGTCAATCTGCGGCGTTCACGACCAGGGTTGGAAAGAGCGACCAGTATTTGGGAAGATACGATACATGAACTTCGCTGGGTGCAAGAGGAAATTTGATGTGGATGGCTACATTGCCCATGTCAAGAGACTAGTGGGTGAAATTAAGAAAAGAAAACCAGAGGAAGCACTGCAGGAGAGAAAGCCAAAGGGAATTCGTTGCTAG MVSTLSNPVQSGRIRVLKDGTGSVGPVVYWMFRDQRVKDNWALIHAVDEANRANVPVAVAFNLFDRFLGAKSRQLGFMLRGLQQLQHDLQEKLHMRFFLFQGEAEQTIPNFIKECGASLLVTDFSPLREVRKCKEEICKRVEESVKVHEVDAHNVVPIWVASEKLEYSAKTLRGKINKKLPDYLIDFPPLVIPTRKWPSSDKFIDWDKLIDDNLRKGADVPEIEWCKPGEKAALEVLMGSKDGFLTKRLKSYAIDRNNPLKPKGLSGLSPYLHFGQISAQRCALEAQNVRKLNPQAVDVFLEELIVRRELADNYCYYQPHYDSLLGAWEWARKTLMDHASDKREHVYTREQLEKAQTADPLWNASQLEMVYHGKMHGFMRMYWAKKILEWTRGPEEALEICIYLNDKYEIDGRDPNGYVGCMWSICGVHDQGWKERPVFGKIRYMNFAGCKRKFDVDGYIAHVKRLVGEIKKRKPEEALQERKPKGIRC Homology
BLAST of Bhi12G000346 vs. TAIR 10
Match: AT1G12370.2 (photolyase 1 ) HSP 1 Score: 771.5 bits (1991), Expect = 3.9e-223 Identity = 365/487 (74.95%), Postives = 417/487 (85.63%), Query Frame = 0
BLAST of Bhi12G000346 vs. TAIR 10
Match: AT1G12370.1 (photolyase 1 ) HSP 1 Score: 751.9 bits (1940), Expect = 3.2e-217 Identity = 359/487 (73.72%), Postives = 411/487 (84.39%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy Swiss-Prot
Match: Q9SB00 (Deoxyribodipyrimidine photo-lyase OS=Arabidopsis thaliana OX=3702 GN=PHR1 PE=2 SV=1) HSP 1 Score: 771.5 bits (1991), Expect = 5.5e-222 Identity = 365/487 (74.95%), Postives = 417/487 (85.63%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy Swiss-Prot
Match: Q6F6A2 (Deoxyribodipyrimidine photo-lyase OS=Oryza sativa subsp. japonica OX=39947 GN=PHR PE=1 SV=1) HSP 1 Score: 659.1 bits (1699), Expect = 4.0e-188 Identity = 318/481 (66.11%), Postives = 377/481 (78.38%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy Swiss-Prot
Match: P34205 (Deoxyribodipyrimidine photo-lyase OS=Carassius auratus OX=7957 GN=phr PE=2 SV=1) HSP 1 Score: 459.1 bits (1180), Expect = 6.1e-128 Identity = 225/452 (49.78%), Postives = 308/452 (68.14%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy Swiss-Prot
Match: Q28811 (Deoxyribodipyrimidine photo-lyase OS=Potorous tridactylus OX=9310 GN=PHR PE=2 SV=1) HSP 1 Score: 456.8 bits (1174), Expect = 3.0e-127 Identity = 222/429 (51.75%), Postives = 289/429 (67.37%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy Swiss-Prot
Match: P12769 (Deoxyribodipyrimidine photo-lyase OS=Methanothermobacter thermautotrophicus (strain ATCC 29096 / DSM 1053 / JCM 10044 / NBRC 100330 / Delta H) OX=187420 GN=phr PE=3 SV=2) HSP 1 Score: 306.6 bits (784), Expect = 5.0e-82 Identity = 179/445 (40.22%), Postives = 259/445 (58.20%), Query Frame = 0
BLAST of Bhi12G000346 vs. NCBI nr
Match: XP_038875837.1 (deoxyribodipyrimidine photo-lyase [Benincasa hispida]) HSP 1 Score: 1023.5 bits (2645), Expect = 6.1e-295 Identity = 489/489 (100.00%), Postives = 489/489 (100.00%), Query Frame = 0
BLAST of Bhi12G000346 vs. NCBI nr
Match: NP_001267582.1 (deoxyribodipyrimidine photo-lyase-like [Cucumis sativus] >KGN50193.1 hypothetical protein Csa_000682 [Cucumis sativus] >BAB39480.1 CPD photolyase [Cucumis sativus] >BAB91322.1 CPD photolyase [Cucumis sativus]) HSP 1 Score: 968.4 bits (2502), Expect = 2.3e-278 Identity = 455/489 (93.05%), Postives = 476/489 (97.34%), Query Frame = 0
BLAST of Bhi12G000346 vs. NCBI nr
Match: XP_008437155.1 (PREDICTED: deoxyribodipyrimidine photo-lyase [Cucumis melo]) HSP 1 Score: 962.6 bits (2487), Expect = 1.3e-276 Identity = 458/489 (93.66%), Postives = 473/489 (96.73%), Query Frame = 0
BLAST of Bhi12G000346 vs. NCBI nr
Match: KAA0042845.1 (deoxyribodipyrimidine photo-lyase [Cucumis melo var. makuwa]) HSP 1 Score: 954.5 bits (2466), Expect = 3.5e-274 Identity = 457/494 (92.51%), Postives = 473/494 (95.75%), Query Frame = 0
BLAST of Bhi12G000346 vs. NCBI nr
Match: XP_022922402.1 (deoxyribodipyrimidine photo-lyase isoform X2 [Cucurbita moschata]) HSP 1 Score: 943.3 bits (2437), Expect = 8.1e-271 Identity = 448/493 (90.87%), Postives = 472/493 (95.74%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy TrEMBL
Match: Q9AVI6 (DNA photolyase OS=Cucumis sativus OX=3659 GN=CsPHR PE=2 SV=1) HSP 1 Score: 968.4 bits (2502), Expect = 1.1e-278 Identity = 455/489 (93.05%), Postives = 476/489 (97.34%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy TrEMBL
Match: A0A1S3ASZ6 (DNA photolyase OS=Cucumis melo OX=3656 GN=LOC103482663 PE=3 SV=1) HSP 1 Score: 962.6 bits (2487), Expect = 6.2e-277 Identity = 458/489 (93.66%), Postives = 473/489 (96.73%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy TrEMBL
Match: A0A5A7TN66 (DNA photolyase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold44G003560 PE=3 SV=1) HSP 1 Score: 954.5 bits (2466), Expect = 1.7e-274 Identity = 457/494 (92.51%), Postives = 473/494 (95.75%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy TrEMBL
Match: A0A6J1E356 (DNA photolyase OS=Cucurbita moschata OX=3662 GN=LOC111430408 PE=3 SV=1) HSP 1 Score: 943.3 bits (2437), Expect = 3.9e-271 Identity = 448/493 (90.87%), Postives = 472/493 (95.74%), Query Frame = 0
BLAST of Bhi12G000346 vs. ExPASy TrEMBL
Match: A0A6J1HYF9 (DNA photolyase OS=Cucurbita maxima OX=3661 GN=LOC111469160 PE=3 SV=1) HSP 1 Score: 941.0 bits (2431), Expect = 1.9e-270 Identity = 447/493 (90.67%), Postives = 471/493 (95.54%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
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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