Tan0008758 (gene) Snake gourd v1
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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.AACAAGGGAAAAAAAATCCGTCTATATTTACAATCTCGATCTATGAGTATCTGATGTGCCCACCTGTACATTACAAACCAACTATAAATGGTTGGAAATAAATGTTTTATTATTATTTTGTGCCTTTAATAATAGAAAAAAAAAATACAAAAACAGAATCGAACTCACTGCACTGTCTTCTTGCAGAGAGAGAAATAGAGCTTCCAGAAACAACCCTAGAATTCTCTCTCGACGTTCTCCGGAGTCGGAGAAGCCATCCTCGGCCTCCAGTCTACCCTCAGACTACCGTCTCTCTGCGCCAGGCTTGTATCCACGACCTCCAAAATGGTTAGTGTTTCGCCCTCTTCGGTTATTGTTAATTCAATTAGTGTATTCATTACCACTTCATTTTTTCATTGTGCAAGGTTATTGTTGTTTAATTCTCTTCCATTTTTTGGTCCTGAGGGCAGGATTAATGTTAACCACATTGTTTTCTCTATCATATTTGTTAACCGAAACACTCTGCAGTTAATTTTCGTGTAAAAGTCACTTCATTAGGGAATTCTGATGTAGTATTGTTTCTTTGGTTGCATGAAATCTCAGATTGAGTTTTTATCTTCTGATTGCTGATTTTACTGGTTGGGACTGCGGACTGCTGCATATTTTATACTATTTTGAATGGACTGCTGCATGCTTAACTTTTTTGTTGACACGCTCAGTATTCCGCGTGGACTTTTATGCGTCCACCAAAACACCCAAGACATATAAACATCTTTCTACAATATGATTTTTCTTGTATTTGTTATCGGCAGCATAAATTAAGCAGAGGACACCGAGATAAACTCCAGCAGTTTATGGCTATAACTGGTACAAGGTATGTTGATGAACTCCTTTTAACTTTCCTTCAAGGTAATTACTTTGTGGCATCAAGATTCCGTTTGTATGCGGTTTCTTCTCTTTTTCCAAGGGAAGGCTAACCATAAGTGTGAAAAGAGAATAAACTAAGAAATCAAAGTAAGTTGTAGAAGTAGACGTGGATTGTTGTTGAAATGATTTGCTTTCTGTTAGGAACCCAAATACTAAGAACACGAGAATGGAAATATATTGAAATATAAAGGATAAAACGTAACAAGATAAACCAAGTATAAGGCACTTGGAACCTCCCTCTTGAGTATTCTAACCCAAGCCCTAAAACCCCTCAACAATTGCCTGCCCTTCCCTCAATCCCACTCCCTCTATTTATAACCAAAAACACTAACTAACTCCCTAACTAATTACTCTTATGCCCTTACTAATACCATACTACTATTCCTAAATCCCTATTAGTACCCTAATATTACCGGGCCCTTCAAAACACCTTGTCCTCAAGGTGTGCTTACAAAGCAAAATTAGGTAACGACAGTGTTTTAAAAAGCCCTCTGAGGCGCGCGCCTAGGCGCAAGGCGCAACTTCAGCGCCTCGCCTCGAAGAGGCGAGGCGCATGTAAGAAGGCGCGCGCCTTCCATAAAGCCCTCGAGGCGCGCAAGGCGCGCGCCTCTGGGGCTTCTTTAGTTTTTTTTTTCTCATTTTATGTATTTTTAAATATATATTTAAAAAAACACAAAACATAATAAACCCATTTCATTTAGGGTTTAACATCATTAAAATCAGTGGAGGAACTTTCTGTCTTCTTCTCCGATTGTCCTTCAAGCTGAGTGGTAAGTTCTCCTTTTCTTTTTCCTTTTCTTCTTCTTTTCTTCTTCTTTTCTCCGTCCCTTTCCTCCGACTGTCCGACACCTTCCCTTTCTTTTCTATTTCCTCCTCTTCTTCTTTTCGTTTTCATTTTCTTCTTTCTCCGTTTCTTCTTCTTTTCTTTTCATTTTCTTCTGTTTTTTTCTTTTTCTTCAGACTATCTCTCGACCTCTCTTTCCTTTTTTTTTTCTCCAATGATGAAGAGAATGGGGTTGAAGAAGATCTATTTAGTGAAGAAAAGATTGATATTTAAAGCTTTTGATCTTGTCGTGTTTATAATTTATTAGTGTTGTATTGTTTCATGTTTTTTAATAGAGTATCTACTGTCTCTTTGTTCAAACATTAATACTTGAAAGTTGAACTTTATTTCTTTTACTTATTTTCCTTGGTTAAAACTTAATTTCATCCCATGAAAAGTTTTTTCTTATTGTGTATGTATACATATATATTTTTTATTTTTTTATATATAGTGCGCCTTAGATAAAAAAGCCCGCGCCTTTTGGTGCGCCTTGCGCCTAGGCTCCAGAGGGCTATTGCGCCTTAGTGCGCCTTGAGCCTTTAAAAACACTGGGTAACGAGCAAAACAATACTTTTTTTTTTCCTCTTTTCAACAACCCACACCTAAAAAAAAAATGACAATGAAAATAAAGTTTCTTTAAACCAAAACCCTCGTAGGCACTTCATCCGTCTTGTGCAGCGGGCAGTGGTTGGAGTAGTTGGTCAGCGACGGTTGACGACTTTGGATCGATACAGAAATAAGGATGGTTTATGTATTTTAAAACAGAAAGCAAACCAACCCTTAAATCCATCCATTATTTCAATCTTTGCTTTAATAAGGAAATGACCTTTCCTAACTTCATGTAACAGCCCACAAGGCCCAACATCCAGCCCAATGTTAATGCTTAACAGTCTCCCTCTCCATGGTCCCACTACATGACACTCCACTACCTGACACTTCATGTGGCTTTCTCTTTTTGCCCTCCTCCTCTTCACGAAATGTGCACCATTCGGATAGGCACCTCCTCAACGGCAACGCTTCTACCTTCGAATTTTCATGGATTTGTCGTCGGTAATGGCCAATTTTTCTTTTTCCGTTGGTCCACTCGATTTCCTCAATCGTTTCTTCATAAAAGTTGTGTTGTCCTCGGCTCCACATCGTCGACTGAAGTTTTTGCCAGTGATACCCTTCACCGGCTATTTCCTTCCCTCCATTTTCTTTATGTTGATGCACCCATGGCTGCCATATTTTTCTTGTTGAAACCCCCCTTAATGCTCGAAGGAATGAATATATCTCAGTCCAATGGTGAATTTCTTCAAGTTTTCCATCTCTACTGGGGAACTTCTTATTTTGGTGATGTCTCCCCCAATTCTTTAGCTCCAATAGCGTTCGTCGACGCCTTTCCCAAGACTTCATCTCTGGCCACACACATACTCTTCGCCGGTAATGAGAATGACTTCTACCCGTGCTTTCTCCACGATCATCTTCTCGTCGATGCTTTCTTCAACACTCGGAATCAAAACCCATTTGAATTTTCTGCCTCCTACAACCTCGATGCTTCTTTTGAAGTTTCAGTTTCATCCGTCTTTGGCGATTTCTCTCTTGAAATTCTGATCCTATTGCCTTGAACATCATTTGTGCTTGCTTGCATCCGGTCTTTGGACTCCATTGTGTTACAGATCGGCCTGGCCTCAAATGTTCCTCTCCAACCTCACTTTTTTGTTTCTTACTTTTTTCCACCAGCTTCTTCTCTTCTCTGTCTCTTTTCCTCTCTTGAAGATCCAAGTCATTCCTGCTCACTCTTGATCCAATCGGAATCTCCTTGCTCTCTTTTTCTTTCACTACTTCAACTTTCTGCTTTAGTTTATGTCCTCTCTCTATCTTTTGGCGATCAACTTTCTCGTATTTCTCTTGTTATTCGATGTGTTTCCTTGACCTTTTGCTGTGCTTCTAATACCAATTCTAGTAGACGATTCAAACGATTGGGGTCCAATGATTCCATGGCCAGAATCAATGCTCTGATACCAATTGTTAGGAACCCAAATACTAAGAACACGAGAATGGAAATATATTGAAATATAAAGGATAAAACGTAACAAGATAAACCAAGTATAAGGCACTTGGAACCTCGCTCTTGAGTATTCTAACCCAAGCCCTAAAACCCCTCAACAATTGCCTGCCCTTCCCTCAATCCCACTCCTTCTATTTATAACCAAAAATACTAACTAACTCCCTAACTAATTACCCTTATGCCCTTACTAATACCATACTACTATTCCTAAATCCCTATTAGTACCCTAACATTTTCATCATCTACAGAAGAATTAAAATTCATTTTGAATGAGAATTGGATCTTTTAATTTCATGGGATTTGTTTTCTCTCATGTTTTTTGACCACCAATCATTGTAGCGCTTAGTAGATACTCCGAGGTTCAAACGTTGTTAACACTTAACATTCGTAATGGGAGGGGATTAGCTGTCAAAGTTAATAAAGTGAGATATGCAAGGTCTTGGAAACCATAACGAAAGTTTGTTTAATAAGTTAAGACACCTGTCTTCTGAAGTAGCTCTAGTGTGGGTGAAGCCTCCCTGAGTATTAGGGGGAGTATTAGTGGAGGTGGGTCACGAACATAATGTAAGGAGTAGGGTCTTTGATACCCAGTCATTAGAAAAAAAATCTAATATTTGAACCCATTAAGATATTATAAAGTATGCACGTCATAGATTCTTTAAACCTAAATGTATATATTGTCATTTTTCTTTTTGTTTTTTTAAATTGTCTCCTTGTATATCTCCTATAAAATAACTATTTTTTTGTTAATCCAAATAAGCCTCTGAAAGCTGATCTTAAATTGATTAGAAACAAAAAGTTGGTAATATTAAAAGTGAGAACCTGAACGTATTCGAGCATTTCAAGGAAAATTTCAGGAGACAAAGTGAAGAAGAGAAGGGTCGGAGAGAGTGAACAAAAAGATCTATCACATGTAAAGCTTCATGACTCACGAGCTCATATCCGACCACTTAACAAATTGATTAACTACCGTGGGAAATTTTAGTTTTTTCTTCATGTAATTTTTCTTACTACGACTAAAGAAAATGATGAAGATGGCTGACTTGTTACTTGTATGCTTTGGATTAGAGTTCATTAGTTCACTTTTCTATGAGTTTTCATGGCTAATCATTTTAATGGTGCCCCTTTACTTTTTATTCAAAAGGTTTAGAGAGCTTTTCCCCATTTTTTCCCCAATGGGAATGGGCTGCTGGTACTCTTTGTAAGTATATAGAAAACAGAACTATTTCCTATAGATAAAAATGGATTAGGAATTCTTTTTTCTTTTGGCGTCAATGATAAAGAACAGTGAGTCGAACTGATAAAAATGCTTTTGCTGCTTGTGAACTAGTGTTGTAACTTGTAGTTCTCTTTCGTATTAAGGTACAGAAGCATGAATAATGAAATTTGGTTCGTCTCATATTTTCATTGATTTTGATATTTTATTGATCATGCAGTGAAAAGGTTGCTCATCAGGCCCTGAAGGCTAGTGAGTGGCATCTTGAAGGAGCTATTGATGTATTTTACAGTCAACCCCAAATCAAAGCATTCACCGACTCTAGACATTTGGAAGAGCTTTATAACAGATATAAAGGCAAGCTTATATTCGTTTATCATTGCTAGATTTCTTTTCTTTCTGTAAACTTGTAGAGAGTAGTGAAACCATGTTGACAAAGTCAATGATTTTCAATGAACATGAAAGTAACAAAGTTTCTTAACTAACATGGTTGGCAGATCCATATGTCGATATGATATTGGCTGATGGTATCTCACTGCTCTGCAATGACCTTCAGGTAGGTAATTTATGTATCCAACTATGTTTTATGTGCTTGAGGAGTTGATGGCTATAAACATTACTACTTGTGCAGTTCTAGTTATTTCTACCTATTGAATTGACGTGAGATACATTTTTTTGCAGGTGGATCCTCAAGATATAGTTATGGTATGCTTTTCATAATAATTGTTGCGCAACAGGCATTCAAGTGTAAATTAAATTAATACTCAATGCTATCTATCTCATTCTAGAGTGATCTAGATTATAGACATGAGTGCATTCCTTTTAGTGGGGGCTAAATTATGGACGGTTCTCCTGAGAAGTTTGCTCTTGTTAAGCTTCATCTCAGGGAAGATATCTGAGACGGCTAGCAATATTCTCATTCTCCCTCTTATATTTTAGTAGCTTGATAGAGGCATTGACGTAAATAACTTCAAGGTTCCTTTAAGTGCTTCCTACACCCTTGTTAAAAGAAGCTGATTGTTTCAATTTCACATTATCATTTAACCCTGTATATTTGGTGGAACAATTATAGAGTTGATATTTTCCACCTCTGAGTTTTAAGAACTCAATTTAATTACCGATTTTGAGCAAGTCTTCTGATTATTAGTTTCTTTTAAAAAAAAAAAATTAAAATAATATCTTGTTGTGATTACCTGCAGTTGGTTGTTTCTTGGCATATGAAGGCGAACACAATGTGTGAGTTTTCCAAACAGGAGTTTATAGGTGGATTACAAGCACTAGGGTAATTAATTGTTTGCAATTATATTCTTTTCGGACAACAATAATGTACATGGGATCAAGATGATTCTTGTCATAATATATGTTCAATTTATGATGGCAGGATAGATTCTCTGGAGAGGTTCCGAGAAAGGATACCATATATGCGGTCTGAGTTGAAAGACGAACGTATATATTCTTTTTGTAGCTTATATCATGTTGTAACTTATATTATCACTTGCTTATAATTGGAAACAAGAATTCTGTGTTATCTTTTCTCACTGTTTTGTTATGTTAATTTCATGTCTGTCCAGAAAAGTTCCGTGATATTTACAACTTCGCATTTGGTTGGGCAAAAGAAAAGGTACTCGTGCTTGGTTTGAATATTCCCTGGAAGATCTATTTACAGCTGTTTTTCTATCTTCAGTGGATGTGCGTTAGATACCAGCACAATGTCTGCCTAATGCATAGACTTCTAAAGTGGATATATGTGTTTTAGGGGCAAAAATCTTTAGCGTTGGACACTGCAATTGGAATGTGGCAGTTGCTATTTGCTGAAAAGCAGTGGCCCCTGGTTGACCACTGGTGTCAGTTCTTGCAGGTAAGGTTGCTAATCTGTCTATTTGAAAATGACGAACTTTAATGTGTGGGGCAAATCTTCCTGTTGTTGGTATGACCTCTGTAATGAGGATTTTTTTTAATAAGACTCTAGAATTTGACTCAAGGAACTTATTTATCTTATGGATGCAAAAGAGACAACACACTAGATATTTTCTTGTTTGCCAGTAGTTTTCTTGAACATTTTTATAGAATGTGCAACCGGGAGGGTTTTTCCTGCACAAAATTTAGCCAGTAGTATTCTTGTTTGCTTTCTGCTGAGGAATGTGGGAAAATTACATATTATTGCCGCAGAGATGGAAGGTCTAGCCGTTTCCACTCAACGAAGAAAAAGCCTTTAGAACTTGAATTGTCTGTTAGAAATTCCAAGTCAGAGTTGCTTGTTCTGTCTTCTAATGATACATTCTTAATAATTTATTTGATCTATTTATATTTGAATCTTTCTTGATTCAGGCTCGGCATAATAAAGCTATTTCTAGGGACACATGGTCTCAACTTCTGGAGTTTGCAAGGGTAAGAATGAAATTTTAAACAGAAGGTTTGAATGCCTCAGAATGATTGCTTTTTTAAAAATAATGTAGTTTATGACCTTTCAAAAATTTTATTTTATTCCGGTAAGTTTTAAGAACAGTCCTTTTGATTCACAAACTTGCACAAACTTTTAAAATCTCTATTTTAAGGTCTGAACTAAAAAAAAAAGATTGTTTTGGTCCTTACTATTATTCTAGCACCTAAAATCTGCCCACTCCATTTGTTCCAGTTACACCCAAGAAAGTTTGCAGGGTTCCTCTCTTTGGGTGTCAGTGGCGAAACTATGTTGTAATTATTTGCTTGGTCTCATTTTTTTTTTTTTGGGATTAAAGCCCCTTCCCTGAGGGGGAACTGGGAACTTTCTTTTGGGAAACTTGTTGTTGCTATGCATTTGTCATACTAATTTCTTCCTTACGTGTCTCGAAATGTAGACTGTGGAGCCTACACTATCTAATTACGATGCCGAAGGTGCTTGGCCATACCTCATTGATGAATTTGTTGAATACCTGAACGAAAATGGCATAATCCACAGTGGTCAGCCGAATGATTTGAGTCAAATAAGATGATATGCTACTGCAGTTGGTTTGGGATTATTCGTATTTATCTTGGTGTGATTTGAATACCCTCTGGTTGAATTAATTGGGGAAATAAGATATAAGAGGGGGGAGAAGGCGAGCGACTGACATCTGAGTGAAGACATTTTATTTGTTGTTGGATTTGGTATATCATCTATATTATTGAGTGGGAAAGTGGATTTTTATAGTAAGAATACTGTGAACACTCACTCTCTTCCCTCTTATGTTTTATTTCTACGTATTATTGCTGCATGGAAAATTTTCTGTATGTTTTTGACATGGAAGAACTTTTATTTCTGGTTCAAAACAAGGGAAAAAAAATCCGTCTATATTTACAATCTCGATCTATGAGTATCTGATGTGCCCACCTGTACATTACAAACCAACTATAAATGGTTGGAAATAAATGTTTTATTATTATTTTGTGCCTTTAATAATAGAAAAAAAAAATACAAAAACAGAATCGAACTCACTGCACTGTCTTCTTGCAGAGAGAGAAATAGAGCTTCCAGAAACAACCCTAGAATTCTCTCTCGACGTTCTCCGGAGTCGGAGAAGCCATCCTCGGCCTCCAGTCTACCCTCAGACTACCGTCTCTCTGCGCCAGGCTTGTATCCACGACCTCCAAAATGCATAAATTAAGCAGAGGACACCGAGATAAACTCCAGCAGTTTATGGCTATAACTGGTACAAGTGAAAAGGTTGCTCATCAGGCCCTGAAGGCTAGTGAGTGGCATCTTGAAGGAGCTATTGATGTATTTTACAGTCAACCCCAAATCAAAGCATTCACCGACTCTAGACATTTGGAAGAGCTTTATAACAGATATAAAGATCCATATGTCGATATGATATTGGCTGATGGTATCTCACTGCTCTGCAATGACCTTCAGGTGGATCCTCAAGATATAGTTATGTTGGTTGTTTCTTGGCATATGAAGGCGAACACAATGTGTGAGTTTTCCAAACAGGAGTTTATAGGTGGATTACAAGCACTAGGGATAGATTCTCTGGAGAGGTTCCGAGAAAGGATACCATATATGCGGTCTGAGTTGAAAGACGAACAAAAGTTCCGTGATATTTACAACTTCGCATTTGGTTGGGCAAAAGAAAAGGGGCAAAAATCTTTAGCGTTGGACACTGCAATTGGAATGTGGCAGTTGCTATTTGCTGAAAAGCAGTGGCCCCTGGTTGACCACTGGTGTCAGTTCTTGCAGGCTCGGCATAATAAAGCTATTTCTAGGGACACATGGTCTCAACTTCTGGAGTTTGCAAGGACTGTGGAGCCTACACTATCTAATTACGATGCCGAAGGTGCTTGGCCATACCTCATTGATGAATTTGTTGAATACCTGAACGAAAATGGCATAATCCACAGTGGTCAGCCGAATGATTTGAGTCAAATAAGATGATATGCTACTGCAGTTGGTTTGGGATTATTCGTATTTATCTTGGTGTGATTTGAATACCCTCTGGTTGAATTAATTGGGGAAATAAGATATAAGAGGGGGGAGAAGGCGAGCGACTGACATCTGAGTGAAGACATTTTATTTGTTGTTGGATTTGGTATATCATCTATATTATTGAGTGGGAAAGTGGATTTTTATAGTAAGAATACTGTGAACACTCACTCTCTTCCCTCTTATGTTTTATTTCTACGTATTATTGCTGCATGGAAAATTTTCTGTATGTTTTTGACATGGAAGAACTTTTATTTCTGGTTCAA ATGCATAAATTAAGCAGAGGACACCGAGATAAACTCCAGCAGTTTATGGCTATAACTGGTACAAGTGAAAAGGTTGCTCATCAGGCCCTGAAGGCTAGTGAGTGGCATCTTGAAGGAGCTATTGATGTATTTTACAGTCAACCCCAAATCAAAGCATTCACCGACTCTAGACATTTGGAAGAGCTTTATAACAGATATAAAGATCCATATGTCGATATGATATTGGCTGATGGTATCTCACTGCTCTGCAATGACCTTCAGGTGGATCCTCAAGATATAGTTATGTTGGTTGTTTCTTGGCATATGAAGGCGAACACAATGTGTGAGTTTTCCAAACAGGAGTTTATAGGTGGATTACAAGCACTAGGGATAGATTCTCTGGAGAGGTTCCGAGAAAGGATACCATATATGCGGTCTGAGTTGAAAGACGAACAAAAGTTCCGTGATATTTACAACTTCGCATTTGGTTGGGCAAAAGAAAAGGGGCAAAAATCTTTAGCGTTGGACACTGCAATTGGAATGTGGCAGTTGCTATTTGCTGAAAAGCAGTGGCCCCTGGTTGACCACTGGTGTCAGTTCTTGCAGGCTCGGCATAATAAAGCTATTTCTAGGGACACATGGTCTCAACTTCTGGAGTTTGCAAGGACTGTGGAGCCTACACTATCTAATTACGATGCCGAAGGTGCTTGGCCATACCTCATTGATGAATTTGTTGAATACCTGAACGAAAATGGCATAATCCACAGTGGTCAGCCGAATGATTTGAGTCAAATAAGATGA MHKLSRGHRDKLQQFMAITGTSEKVAHQALKASEWHLEGAIDVFYSQPQIKAFTDSRHLEELYNRYKDPYVDMILADGISLLCNDLQVDPQDIVMLVVSWHMKANTMCEFSKQEFIGGLQALGIDSLERFRERIPYMRSELKDEQKFRDIYNFAFGWAKEKGQKSLALDTAIGMWQLLFAEKQWPLVDHWCQFLQARHNKAISRDTWSQLLEFARTVEPTLSNYDAEGAWPYLIDEFVEYLNENGIIHSGQPNDLSQIR Homology
BLAST of Tan0008758 vs. ExPASy Swiss-Prot
Match: Q8BZJ7 (DCN1-like protein 2 OS=Mus musculus OX=10090 GN=Dcun1d2 PE=1 SV=3) HSP 1 Score: 232.3 bits (591), Expect = 6.4e-60 Identity = 113/247 (45.75%), Postives = 156/247 (63.16%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy Swiss-Prot
Match: Q96GG9 (DCN1-like protein 1 OS=Homo sapiens OX=9606 GN=DCUN1D1 PE=1 SV=1) HSP 1 Score: 226.5 bits (576), Expect = 3.5e-58 Identity = 109/247 (44.13%), Postives = 156/247 (63.16%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy Swiss-Prot
Match: Q5ZKU1 (DCN1-like protein 1 OS=Gallus gallus OX=9031 GN=DCUN1D1 PE=2 SV=1) HSP 1 Score: 224.9 bits (572), Expect = 1.0e-57 Identity = 108/247 (43.72%), Postives = 155/247 (62.75%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy Swiss-Prot
Match: Q6PH85 (DCN1-like protein 2 OS=Homo sapiens OX=9606 GN=DCUN1D2 PE=1 SV=1) HSP 1 Score: 224.9 bits (572), Expect = 1.0e-57 Identity = 108/247 (43.72%), Postives = 151/247 (61.13%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy Swiss-Prot
Match: Q9QZ73 (DCN1-like protein 1 OS=Mus musculus OX=10090 GN=Dcun1d1 PE=2 SV=1) HSP 1 Score: 224.2 bits (570), Expect = 1.7e-57 Identity = 108/247 (43.72%), Postives = 155/247 (62.75%), Query Frame = 0
BLAST of Tan0008758 vs. NCBI nr
Match: XP_022933301.1 (DCN1-like protein 2 isoform X1 [Cucurbita moschata] >XP_022989208.1 DCN1-like protein 2 isoform X1 [Cucurbita maxima] >XP_023529946.1 DCN1-like protein 2 isoform X2 [Cucurbita pepo subsp. pepo] >KAG6589317.1 DCN1-like protein 2, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 528.9 bits (1361), Expect = 2.5e-146 Identity = 252/259 (97.30%), Postives = 255/259 (98.46%), Query Frame = 0
BLAST of Tan0008758 vs. NCBI nr
Match: XP_023529945.1 (DCN1-like protein 2 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 526.9 bits (1356), Expect = 9.6e-146 Identity = 251/258 (97.29%), Postives = 254/258 (98.45%), Query Frame = 0
BLAST of Tan0008758 vs. NCBI nr
Match: XP_022969367.1 (DCN1-like protein 2 [Cucurbita maxima]) HSP 1 Score: 523.5 bits (1347), Expect = 1.1e-144 Identity = 249/259 (96.14%), Postives = 254/259 (98.07%), Query Frame = 0
BLAST of Tan0008758 vs. NCBI nr
Match: XP_022952945.1 (DCN1-like protein 2 [Cucurbita moschata]) HSP 1 Score: 522.3 bits (1344), Expect = 2.4e-144 Identity = 248/259 (95.75%), Postives = 254/259 (98.07%), Query Frame = 0
BLAST of Tan0008758 vs. NCBI nr
Match: XP_038888706.1 (DCN1-like protein 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 519.2 bits (1336), Expect = 2.0e-143 Identity = 249/259 (96.14%), Postives = 253/259 (97.68%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy TrEMBL
Match: A0A6J1JPL7 (Defective in cullin neddylation protein OS=Cucurbita maxima OX=3661 GN=LOC111486350 PE=4 SV=1) HSP 1 Score: 528.9 bits (1361), Expect = 1.2e-146 Identity = 252/259 (97.30%), Postives = 255/259 (98.46%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy TrEMBL
Match: A0A6J1EYN9 (Defective in cullin neddylation protein OS=Cucurbita moschata OX=3662 GN=LOC111440475 PE=4 SV=1) HSP 1 Score: 528.9 bits (1361), Expect = 1.2e-146 Identity = 252/259 (97.30%), Postives = 255/259 (98.46%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy TrEMBL
Match: A0A6J1HW59 (Defective in cullin neddylation protein OS=Cucurbita maxima OX=3661 GN=LOC111468394 PE=4 SV=1) HSP 1 Score: 523.5 bits (1347), Expect = 5.1e-145 Identity = 249/259 (96.14%), Postives = 254/259 (98.07%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy TrEMBL
Match: A0A6J1GN94 (Defective in cullin neddylation protein OS=Cucurbita moschata OX=3662 GN=LOC111455467 PE=4 SV=1) HSP 1 Score: 522.3 bits (1344), Expect = 1.1e-144 Identity = 248/259 (95.75%), Postives = 254/259 (98.07%), Query Frame = 0
BLAST of Tan0008758 vs. ExPASy TrEMBL
Match: A0A1S3BGK1 (Defective in cullin neddylation protein OS=Cucumis melo OX=3656 GN=LOC103489629 PE=4 SV=1) HSP 1 Score: 508.1 bits (1307), Expect = 2.2e-140 Identity = 246/260 (94.62%), Postives = 251/260 (96.54%), Query Frame = 0
BLAST of Tan0008758 vs. TAIR 10
Match: AT3G12760.1 (CONTAINS InterPro DOMAIN/s: Defective-in-cullin neddylation protein (InterPro:IPR014764), Protein of unknown function DUF298 (InterPro:IPR005176), UBA-like (InterPro:IPR009060); BEST Arabidopsis thaliana protein match is: Domain of unknown function (DUF298) (TAIR:AT1G15860.2); Has 857 Blast hits to 855 proteins in 202 species: Archae - 0; Bacteria - 0; Metazoa - 482; Fungi - 154; Plants - 139; Viruses - 0; Other Eukaryotes - 82 (source: NCBI BLink). ) HSP 1 Score: 407.9 bits (1047), Expect = 6.0e-114 Identity = 190/248 (76.61%), Postives = 219/248 (88.31%), Query Frame = 0
BLAST of Tan0008758 vs. TAIR 10
Match: AT1G15860.1 (Domain of unknown function (DUF298) ) HSP 1 Score: 115.9 bits (289), Expect = 4.7e-26 Identity = 59/205 (28.78%), Postives = 116/205 (56.59%), Query Frame = 0
BLAST of Tan0008758 vs. TAIR 10
Match: AT1G15860.2 (Domain of unknown function (DUF298) ) HSP 1 Score: 115.9 bits (289), Expect = 4.7e-26 Identity = 59/205 (28.78%), Postives = 116/205 (56.59%), Query Frame = 0
BLAST of Tan0008758 vs. TAIR 10
Match: AT1G15860.3 (Domain of unknown function (DUF298) ) HSP 1 Score: 110.5 bits (275), Expect = 2.0e-24 Identity = 59/214 (27.57%), Postives = 113/214 (52.80%), Query Frame = 0
BLAST of Tan0008758 vs. TAIR 10
Match: AT3G28970.1 (Domain of unknown function (DUF298) ) HSP 1 Score: 95.1 bits (235), Expect = 8.7e-20 Identity = 46/117 (39.32%), Postives = 68/117 (58.12%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) 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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