Tan0021930 (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.CACAAAACTGGTTGAATTGGATTCAGCAATCCAATTTGCGGCAAAACTGTCCAAACAGAAAAGTAATGGCTGCTGCATTTTCCCTCGCTTCTAGTTTCTCCCATTTCTCCCCACTTTCTCGGCCTCCAAACACAAGACCCACTTCCTTTTTTCTCTCTAAATCCATTTCTTTTCACAGTTTCTCGAACCCCAGTTGCCATTTTAGATATCCCATCTTCGCTCTTCTCGGCCACAACAAGAAGCACAGTCAAATTTCTGCTTCAACTGACCCGAAACTCACCAATCCCTCGAACCCCGTTGCTTCAATTTGCGAGTCGCTGCTTATTTTCTCCACTTCGGTGCTCTTGTCCTTTTCTCTCTTTGTTACAGATGTTGATCCGGCGGCTGCTTTTGTTGTCACCACGCCGAGAAAATTGCAGACGGATGAGCTCGCAACAGTTCGTCTTTTCCAGGAGAATACTCCTTCTGTGGTGTATATCACAAATCTTGCTGCAAGGTAATTGTACCTTTTGGAGCTGAATTCTGATTGCAACTTGGGTTGTTCTTTTGGGGTCTAATTTTGGTACGATTGTCTCTTTGAAATGTGATTTTGATGTGGGGTTTAGGCAGGATGCTTTTACTTTAGACGTGTTGGAGGTCCCACAGGGTTCGGGTTCTGGATTTGTGTGGGATAAAGATGGTCATATTGTCACTAATTACCATGTAATTCGCGGTGCTTCTGATCTCAGGTTAGTTATGAACACTCTCTCAAGTGTCGAACTAGATTCCATTGCAGTTCATTTTTAATATGCCAGAGTGATTGGTGACTTTATGCATAACTTCCATGGTTTGTAATTGCTGATTTTTGGTTATGTTTAAACTTAAAGTATATTTATTAGTAGTTTGAGATTTGGACCTTCTTCAGTTTGTATTTATTTGTGTGTCATTACCTTTTTTTTGGTATAAGAAACAATTTCATTGATGAATGAAATGGAGAAAAACTCCAAAAGGTGTTTTACAAGAAAATACCAAAAGGAAATAAAAAAGAACAACCAAAAAGGCTAAATGGATGAACAATCTTGCACCATGAATAAACAAATAGAAGAAACTTTGTCCATAAAACCCCAACAGGAACAGAAAAAACCCTGAAAAGACAACTATTTCTCTCAAACCAAAGTAAAGCTACCAATCCTGAGTGACTTCTTTAACAGCAGAAATATGTGCATCAAGGAAAGCCCGACCAAGCTCCAGATAGAGTTTATCAGTTGGTGACTAACAGAAGATACTTAGTTTCTGAACAATTCCGAATTTTGTTTGAGAATGAATTCCTTAAACAAGAATTGTTTCTTCCAAGAAACTAAACCCCGAACATTCAAGTGATAAATTTCATTTTACAACTGAAGATCCTCTCCATTAGAGCCAATGTGGCGATTTGTCATAGTGAGCAGTGATTTGTAAATTTCAGAAACTCCTCTTTAATTTGTCTTTCTTCCCATTTCTATTATAAGTCTTTTTAGGCTTGGTAGGTGGGGGTAGGGTTGGAATGTGCATGATACATAACCCATGCTTAGTGAGAAGGTGAGCAATGTCACGCAACTCACACGGAAAAGTGTTGGTATGATGTTTCGCAGAGAGAAGGTTGGAGAAAATGTTTCAATGGAAGGTTCCAAGGAGGGAGAAAAAGGTAAAGGTGGTTTGTTTAAAAACCGAGGTTGATTCACAGTGACACTTGAATTCAAGTCCTGTGGAATTGGAGGTAAAGTGTCTAAGGGAATGGCAGAATCAATGGATGGATTATCCCCGAAAATAGCGAAATCCAAGGGTTCTGGTTGGAAAACAACATCATGGCCTGATCGAATAGAATTGGGACTAGAGAGATACGCCTCTGTATCCGAAGCATTGAAGGGTAGATTTGGCTTTCCATCTGATGTAGAGTGTTTCGATCCAATATGGAGTGTTGAAGGGATCCGGTCAACTGTGGGCCCCCCAATAAATAAAATGGAGGAGAGAGTTGGTTGTATCAGAGCAGGGGAGCTCGTGTTCGATGATTCCCCAATTAAAACCGAAGAATAAGATGCTTTAGAGATACCCAAATGATTCATACCTTGTAAAGGTGGGTCCATCAGAATCGGGGAATTTGGTAAATCAATCAAAACCGAAATTTTAGGAGAAGAATTAACAACCAAATCACTCAAAACTGAAATTTTAGGAGGAGAATCAGCAACCAAATCATTCAAAACCGAAATTTTAGGAGAGAATCGTGAACCAAATTACTCAAAACAGAAATTTTAGGAGGAGAATCAACAACCAAATCACTCAAGCACGAATTACGATTTCCTTCAACAACAGGATCTTCGGAAATTAAAGGTTGGTTGCCTTTTTTATCTGCGTGATCATAGGAAACCGACGAGTCAACATTAACTGCAATTAAAGATTCCATAATAGTAGGATTTTCCTTTAATTGTTCGCTAGCCGTTATCGATCGGATGTGAACGGAGATCGAGACTCCGGCAATGGATTCCGGTACAACAATCACCGTTGGAATGAAACCAGTTGAATTTCTTCTGACTTTCAACCGCGCCGCCATGAGGGATAACCACCTTTCTGTGTGATTTGAAACTTGAACAAAGCCGCCACATTGATCTCGAATGAACCTAAAAATTTCCTCTGTCCATAGGTTGAGAGGGAGATCCAACACCTCAATCCAATCACCATAAGAGGCAATCATCCTGTCTTGCAAAAAGGAAGAAGTAGAGAAAGCATGAAATTTGAGCTTGAAATCCCCAACCAAATGCCAAGAGGAACTAGTGCTGAAATCAGCACGGGAAGATAAGCATCATAAATATGAATCACCGCCTTGTTATCCCGAAATGGATTGATAGTACATCGAGGAGAAAAGCCTTCTAGTAGGCAATTCAATATTTGGCCAAGAATCTTTTTGAGAAAAATGACAAATGAGAACTCCACTCCAAATCTTTGTTGAATTTGTCGTTTGTTGATGGGAGTTGGTTGGTAGGTCACCACAATCAACATAGTTTTCCTTAAGAAATGGCTTACGTGACACCGCACTAAAAGACATAGAAGCGAATCCTTTTTGTGAGCCTCACTGTGGTAATCGAAATAAGAGAAAAGAAAGAAAACCATCCTTGCTTCTTGTCCTCAGATGGAATAAGAAGTTTCTTCCTTTCTCCATTAGTGTGACTAAGTTGGGTGAACTCCACATAAAAACCATACTTGTTACTAAGTTTCTCCACCAAAAAGTATCATTGGTAGTCCGATGTTTCTTAAAAATTTGTAAGAGAAAGGGTCTTTGTAAAGAGCCTCAAAAGAGCTAGAAAGCCATTTGAGAGAGCTCCAAGAGAGGAATAAAGAGTAAGGTGAGAATCTTCCAAGTTCAGTGATTCTTGCTCTACTTCCCCTAGAAGACTCATCGAAAGCTATCGTGAAGGTTTTTCGACCAATGAGGACCGATCGAGTGGAGTAATTCCAAATAGAAGAGGATTGTTGGGGAGCAGCAGACATGGTGGTCGGAGATGCTCAGGTGAAGGAGAAAGCATTTCCGCTCATTCCTTAGGGAAGAAGATGTAAAAATTATTACTCTTGAGCTTAATTCTGGGTGTATTTTAATCTAGAGATTGATCTGTCACTGTCTGATGCAAATCCACACAAATTTGGAATCATTGAATATAGCTCTTGATTGTGTGTCATTACCTTGAGGGCTTTATCCATTTAAGGTTGTGGTACTTCTGGGATTAAGCACTCAAGCAGCCTGTTCATATTCATTGAAGTATCATCAAAGTATTTAATTGTAAATGGTCCTCAGAAAATGCTTTTAGGCTTTATATTTTCAGAAATGTGAAGCCACATTCGGTAGGCTGTGTCATATTGTTTGGCTATGTGATTTTGGTTTAGTGATTATTTATTGTGAGTGGTGTCTTTGAAATGAAAATTGTAAGAAGTGTCTCTAAATGCTAACCTATGACTATCTGAAAGTGAATAAAAGATATTGGATAGTCTCAAAGTGACGCTGTTGTAGGATTTAGTGGCTTGAAGATGGAGATGATAACCCCCATAGTTCTTATATAAGCGTTTATCAGTAAAATTTTTACAAAGAAATGTAAAAAATGCTACTTTTTCCACCTCTCCTTTAGGTAAAGGGAAAATCTTGGAACACTTTCAAGAACTCTACTCTGAACTTCTTGATCAAAGATTTTTCCCTGAAGGCTTGAACTGACACTTTGTTATTTAGTCCAGAAAATGGTCCCGTAGGTGCCCTGTGAAGAAAAGTAGACTTTCGATGCTTTTCTTGCGGGAAATTTGGAGTTTTTTTAGTAAACTAGATTTTCTCAAGTTTGAGATATTCAAGATCTTAATCAAGTCAAGTAGAGAGCTTTTCTAGAACTCTTTTTGCCTCAGGAAAATGAGGATTACCATCAAGTTCTTTTATACATGTAATGAGCTAACATTTGGATTTGAATTTAGACTTAAGACTTAGTGGTGGCTCCTTATTATTCACATTTAAACTGGTTTTAGTTATGTACAGAGTCACTCTAGCTGACCAAACTACTTTCGATGCAAAAGTTGTTGGATTTGACCAAGACAAGGATGTTGCTGTCTTGAGTATTGATGCACCTAAAGACAAACTAAGACCTATACCTGTTGGTATCTCAGCAGATTTGCTTGTTGGTCAGAAAGTTTTTGCTATTGGAAACCCTGTAAGTTTTTCTATTCACTGCCTTGGCCCTCTGGTGTATGTGTATGTTCACATTGTCATGTCCATTCGTCTAGTATATTGAAGTTCAGGTTACTGATTTCTTAAAAGAAAAATGAATAATCTAGGATGAAGCATTTTCTGGAAAGAGGATTCACCATTAAGATGATTCTAAAAAGTATTACTGTTTTGATTGCACAACACTCCGCTGCTACTTATATGCAATAGTGTCATCTAGGATATTAGTCAGAAAGAGCACTGCGAGCAAAAATTTTATTTTTGCATCCCAGGTCTTAGTCTTCACATGTAAAAAAAAAAAAAAAAAAAAAAAAAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAGAAAGAAAGAAAGAAAAGAGAAAAAGAACTCTGGCTTAGTTTCCACATGAACATCATTTTCTTCATTGGCCCTGAAGCCAGTCTCATCATGGTAGCTTCTTTGTTATCTTGTTCATTCCCCATTTGATGTCCTAAAATTGAATAACTATTGTCTGTGCAGTTTGGACTTGATCATACTCTTACAACTGGGGTAATCAGGTATGAAACCCCCACAGATTTGACTATACACTAAATTCTTTTGAAAATTATCTTTTAATTTGGTTATATATATCTTATGCTATAATTGAGCCCCAAAAAATTGTTAGAGCTTGCAATTACGTTATAATAATCACAAAGATGATATTTATTCTAGAGTTGGAAAGAATTATAAATATAATGGGTTCAGCCTACATGAGATATGCTAATCATATATTTTACTGTTTGATTGCTGTTAGAACCTGTATTTCCAAGCTTTAAAATTGTTATACTAAGCATTCATCTTGCTCTTGACAGTGGTCTTCGCAGAGAAATTAGTTCTGCTGCTACTGGTAGGCCCATTCAAGATGTCATACAGACAGATGCTGCCATTAATCCAGGAAACAGTGGAGGGCCGCTTCTCGATAGTTCCGGGAACCTTATCGGAATAAATACAGCAATATATTCTCCATCTGGGGCATCCTCAGGTGTTGGATTTTCAATCCCAGTTGACACTGTTAGTAAACATATGACATATATTTTACAAGCTGCTGAAGTTCCCTGGTTTGAACTTTGAAGTCAATGATTCATCAACATTCTGTCAATTTAGGTGAGCGGCATTGTTGATCAGTTGGTGCGATTTGGGAAGGTGACAAGACCAATCTTAGGAATCAAGTTTGCTCCCGATCAGTCTGTCGAGCAGTTGGGCGTAAGTGGAGTGCTCGTCTTAGATGCTCCTGCAAATGGTCCTGCTGGGAAAGCTGTATTCATTTCCTCTCTTTTTCTCTTTGCATTTCTGTTCTTATACCTTTAGGTTTCAATATTCCATTATGGTTCCAAGAACTTGAGAACACCACCAACCTCAATACTTCAGTTCAAGAAGATCTGATCTCTTCACATTATGCAGGGTCTGCAACCGACTAAGAGGGATGCTTATGGTAGACTTATATTGGGAGACATAATAACGTCAGTGAACGGGAAGAAGGTCACAAATGGAAGCGATTTGTATAGAATTCTTGACCAGTGTAAAGTTGGTGAAAAGGTACTCTGAACTTTCCTGTTTGATCTTTTTACTTTAGCTTGTTTAAACTCTCAACTTTTGATGAAAGGCTTTATAATTTTTTTTTTCTTTATTGAGAAATCGAACTAAAAATGAAAGAATGTACTAGCGCATAAAATCGAAAAAGCCCACCAAAGGAGTCCCCAAACAACCTATAAGAACGGACTTCCATTCAAAAGAATGTGACCAAGCTGATAATTACAAAAAGCTCAATTGACAAATGTCCATAAAGAAGGTACTAAACATTACAACCTCTCACACTTCTCCAAGTTTTTCTCAATCCTTCTAAAAATTCTACTATTCCTCTCAAGCCACACTCTCCACAAAATAGCAAAAGAACAAGTTTGCCCCAAAACTCTTCTCTCATCCTGAATAAAGTTAACTTTATACTGCTTTTATTTTAAGATGATGACTGTTGGGAAATAATTCAAAACTTTAGTTCATACCTGAGTGGATCCATAATAAAGTTAACTAAGAGGCTGGTTTCATAGAATCAGTTGAATCCATGCACTGTTTTCCATAGAAAATTTTGGTTGGCACACACACATGGAGCAACTTTCAATAACTAAAGGTATCTTGTTTTTCTGTTCAAAAACTAGGGAGAGGTTTAGAATGACTTAGAAAACTACTTTTTCAGCACTTTTTTTTAATAGAAATGTCTAAGAAGTGTTTCTTCCTAGAGTATTGAAAATTTCTTTATATATATATATATATAGTCCGTTAAAAGTTCAAATACCTTTTTATGTAGCATGATCATGTGTCTTATCAAATTTTATTTGACTAAATATTATAATACAAGTTTATGTATCATAATGTGAAATATTAAATGGTTCAATCAACTTGAACTAATGAAATCTCTTCAAAACTCTGAGTTCTGAAAAGGACAGCAAGACCCCATGTGATGAAGCCAATTACCTTTGGATAGGATATATTGCCTCATGATTCTGAACAGTTGCATACCATGTGGCTTTTAGGGACACTACAAAGCCACAAACCTTTGGATTAGGCTTTTTACATAGGACAAAAAAGAATGAAATTTTAAATCATATTTTCGTTCATGAACCTTTCGTCTATTTCATTTTGGTCCCCAAATTTTCAAAAATTTTGTTTTAACTTTTAAGCATTTAGTTTTAGTACCTAAACTTTGTATGAAGAGTTATGAAATCCGTACCATTAAATTAAATTCAATGAAATACACCGAAATAAAATAAGTTAGAAAGTTTGAGAATTGAAATAGGATTCAATATAACCAATTAAGATTGACCATGAATGAACTTGAAGTTTTAACAATTTTGATCAAATTTTGTGGTAATGTTGAGAAAAGAATATGTTTGATGGTCAGGTGACAGTGGAGGTGCTACGTGGTGATCATATGGAGAAAATTCCAGTAATTCTGGAGCCAAAGCCTGACGAATCTTGAGCCAAAAACAGTTGGGAATTGTTTGTATTTTTGTACATTACATTAATTAATATTATTAGACTCTTGTAAATAGTCCATTCTGACTTCTCACCTTTTTCTTTTTTAAAAAAATTAATCACACTTATACTTCCAGCTCCACTCCTGGCTTTTCATTTTTCAACTGGAGAATCTAATATCAAATCTAGTATGATTGAGATAAAA CACAAAACTGGTTGAATTGGATTCAGCAATCCAATTTGCGGCAAAACTGTCCAAACAGAAAAGTAATGGCTGCTGCATTTTCCCTCGCTTCTAGTTTCTCCCATTTCTCCCCACTTTCTCGGCCTCCAAACACAAGACCCACTTCCTTTTTTCTCTCTAAATCCATTTCTTTTCACAGTTTCTCGAACCCCAGTTGCCATTTTAGATATCCCATCTTCGCTCTTCTCGGCCACAACAAGAAGCACAGTCAAATTTCTGCTTCAACTGACCCGAAACTCACCAATCCCTCGAACCCCGTTGCTTCAATTTGCGAGTCGCTGCTTATTTTCTCCACTTCGGTGCTCTTGTCCTTTTCTCTCTTTGTTACAGATGTTGATCCGGCGGCTGCTTTTGTTGTCACCACGCCGAGAAAATTGCAGACGGATGAGCTCGCAACAGTTCGTCTTTTCCAGGAGAATACTCCTTCTGTGGTGTATATCACAAATCTTGCTGCAAGGCAGGATGCTTTTACTTTAGACGTGTTGGAGGTCCCACAGGGTTCGGGTTCTGGATTTGTGTGGGATAAAGATGGTCATATTGTCACTAATTACCATGTAATTCGCGGTGCTTCTGATCTCAGAGTCACTCTAGCTGACCAAACTACTTTCGATGCAAAAGTTGTTGGATTTGACCAAGACAAGGATGTTGCTGTCTTGAGTATTGATGCACCTAAAGACAAACTAAGACCTATACCTGTTGGTATCTCAGCAGATTTGCTTGTTGGTCAGAAAGTTTTTGCTATTGGAAACCCTTTTGGACTTGATCATACTCTTACAACTGGGGTAATCAGTGGTCTTCGCAGAGAAATTAGTTCTGCTGCTACTGGTAGGCCCATTCAAGATGTCATACAGACAGATGCTGCCATTAATCCAGGAAACAGTGGAGGGCCGCTTCTCGATAGTTCCGGGAACCTTATCGGAATAAATACAGCAATATATTCTCCATCTGGGGCATCCTCAGGTGTTGGATTTTCAATCCCAGTTGACACTGTGAGCGGCATTGTTGATCAGTTGGTGCGATTTGGGAAGGTGACAAGACCAATCTTAGGAATCAAGTTTGCTCCCGATCAGTCTGTCGAGCAGTTGGGCGTAAGTGGAGTGCTCGTCTTAGATGCTCCTGCAAATGGTCCTGCTGGGAAAGCTGTATTCATTTCCTCTCTTTTTCTCTTTGCATTTCTGTTCTTATACCTTTAGGTTTCAATATTCCATTATGGTTCCAAGAACTTGAGAACACCACCAACCTCAATACTTCAGTTCAAGAAGATCTGATCTCTTCACATTATGCAGGGTCTGCAACCGACTAAGAGGGATGCTTATGGTAGACTTATATTGGGAGACATAATAACGTCAGTGAACGGGAAGAAGGTCACAAATGGAAGCGATTTGTATAGAATTCTTGACCAGTGTAAAGTTGGTGAAAAGGTGACAGTGGAGGTGCTACGTGGTGATCATATGGAGAAAATTCCAGTAATTCTGGAGCCAAAGCCTGACGAATCTTGAGCCAAAAACAGTTGGGAATTGTTTGTATTTTTGTACATTACATTAATTAATATTATTAGACTCTTGTAAATAGTCCATTCTGACTTCTCACCTTTTTCTTTTTTAAAAAAATTAATCACACTTATACTTCCAGCTCCACTCCTGGCTTTTCATTTTTCAACTGGAGAATCTAATATCAAATCTAGTATGATTGAGATAAAA ATGGCTGCTGCATTTTCCCTCGCTTCTAGTTTCTCCCATTTCTCCCCACTTTCTCGGCCTCCAAACACAAGACCCACTTCCTTTTTTCTCTCTAAATCCATTTCTTTTCACAGTTTCTCGAACCCCAGTTGCCATTTTAGATATCCCATCTTCGCTCTTCTCGGCCACAACAAGAAGCACAGTCAAATTTCTGCTTCAACTGACCCGAAACTCACCAATCCCTCGAACCCCGTTGCTTCAATTTGCGAGTCGCTGCTTATTTTCTCCACTTCGGTGCTCTTGTCCTTTTCTCTCTTTGTTACAGATGTTGATCCGGCGGCTGCTTTTGTTGTCACCACGCCGAGAAAATTGCAGACGGATGAGCTCGCAACAGTTCGTCTTTTCCAGGAGAATACTCCTTCTGTGGTGTATATCACAAATCTTGCTGCAAGGCAGGATGCTTTTACTTTAGACGTGTTGGAGGTCCCACAGGGTTCGGGTTCTGGATTTGTGTGGGATAAAGATGGTCATATTGTCACTAATTACCATGTAATTCGCGGTGCTTCTGATCTCAGAGTCACTCTAGCTGACCAAACTACTTTCGATGCAAAAGTTGTTGGATTTGACCAAGACAAGGATGTTGCTGTCTTGAGTATTGATGCACCTAAAGACAAACTAAGACCTATACCTGTTGGTATCTCAGCAGATTTGCTTGTTGGTCAGAAAGTTTTTGCTATTGGAAACCCTTTTGGACTTGATCATACTCTTACAACTGGGGTAATCAGTGGTCTTCGCAGAGAAATTAGTTCTGCTGCTACTGGTAGGCCCATTCAAGATGTCATACAGACAGATGCTGCCATTAATCCAGGAAACAGTGGAGGGCCGCTTCTCGATAGTTCCGGGAACCTTATCGGAATAAATACAGCAATATATTCTCCATCTGGGGCATCCTCAGGTGTTGGATTTTCAATCCCAGTTGACACTGTGAGCGGCATTGTTGATCAGTTGGTGCGATTTGGGAAGGTGACAAGACCAATCTTAGGAATCAAGTTTGCTCCCGATCAGTCTGTCGAGCAGTTGGGCGTAAGTGGAGTGCTCGTCTTAGATGCTCCTGCAAATGGTCCTGCTGGGAAAGCTGTATTCATTTCCTCTCTTTTTCTCTTTGCATTTCTGTTCTTATACCTTTAG MAAAFSLASSFSHFSPLSRPPNTRPTSFFLSKSISFHSFSNPSCHFRYPIFALLGHNKKHSQISASTDPKLTNPSNPVASICESLLIFSTSVLLSFSLFVTDVDPAAAFVVTTPRKLQTDELATVRLFQENTPSVVYITNLAARQDAFTLDVLEVPQGSGSGFVWDKDGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLSIDAPKDKLRPIPVGISADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGNLIGINTAIYSPSGASSGVGFSIPVDTVSGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPANGPAGKAVFISSLFLFAFLFLYL Homology
BLAST of Tan0021930 vs. ExPASy Swiss-Prot
Match: O22609 (Protease Do-like 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DEGP1 PE=1 SV=2) HSP 1 Score: 508.1 bits (1307), Expect = 9.0e-143 Identity = 286/374 (76.47%), Postives = 305/374 (81.55%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy Swiss-Prot
Match: Q9LU10 (Protease Do-like 8, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DEGP8 PE=1 SV=1) HSP 1 Score: 246.9 bits (629), Expect = 3.8e-64 Identity = 141/262 (53.82%), Postives = 171/262 (65.27%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy Swiss-Prot
Match: Q9SEL7 (Protease Do-like 5, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DEGP5 PE=1 SV=3) HSP 1 Score: 194.9 bits (494), Expect = 1.7e-48 Identity = 126/277 (45.49%), Postives = 168/277 (60.65%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy Swiss-Prot
Match: Q2YMX6 (Probable periplasmic serine endoprotease DegP-like OS=Brucella abortus (strain 2308) OX=359391 GN=htrA PE=3 SV=1) HSP 1 Score: 181.4 bits (459), Expect = 1.9e-44 Identity = 101/224 (45.09%), Postives = 133/224 (59.38%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy Swiss-Prot
Match: P0C114 (Probable periplasmic serine endoprotease DegP-like OS=Brucella abortus biovar 1 (strain 9-941) OX=262698 GN=htrA PE=3 SV=1) HSP 1 Score: 181.4 bits (459), Expect = 1.9e-44 Identity = 101/224 (45.09%), Postives = 133/224 (59.38%), Query Frame = 0
BLAST of Tan0021930 vs. NCBI nr
Match: XP_023515810.1 (protease Do-like 1, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 690.6 bits (1781), Expect = 7.5e-195 Identity = 355/372 (95.43%), Postives = 364/372 (97.85%), Query Frame = 0
BLAST of Tan0021930 vs. NCBI nr
Match: XP_022990583.1 (protease Do-like 1, chloroplastic [Cucurbita maxima]) HSP 1 Score: 689.1 bits (1777), Expect = 2.2e-194 Identity = 355/372 (95.43%), Postives = 363/372 (97.58%), Query Frame = 0
BLAST of Tan0021930 vs. NCBI nr
Match: XP_022922573.1 (protease Do-like 1, chloroplastic [Cucurbita moschata] >KAG6602439.1 Protease Do-like 1, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 688.0 bits (1774), Expect = 4.9e-194 Identity = 355/372 (95.43%), Postives = 364/372 (97.85%), Query Frame = 0
BLAST of Tan0021930 vs. NCBI nr
Match: KAG7033121.1 (Protease Do-like 1, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 686.0 bits (1769), Expect = 1.8e-193 Identity = 354/372 (95.16%), Postives = 363/372 (97.58%), Query Frame = 0
BLAST of Tan0021930 vs. NCBI nr
Match: XP_023550169.1 (protease Do-like 1, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 667.9 bits (1722), Expect = 5.2e-188 Identity = 347/372 (93.28%), Postives = 355/372 (95.43%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy TrEMBL
Match: A0A6J1JTP9 (protease Do-like 1, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111487418 PE=3 SV=1) HSP 1 Score: 689.1 bits (1777), Expect = 1.1e-194 Identity = 355/372 (95.43%), Postives = 363/372 (97.58%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy TrEMBL
Match: A0A6J1E723 (protease Do-like 1, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111430538 PE=3 SV=1) HSP 1 Score: 688.0 bits (1774), Expect = 2.4e-194 Identity = 355/372 (95.43%), Postives = 364/372 (97.85%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy TrEMBL
Match: A0A6J1FEU2 (protease Do-like 1, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111445066 PE=3 SV=1) HSP 1 Score: 661.0 bits (1704), Expect = 3.1e-186 Identity = 344/372 (92.47%), Postives = 352/372 (94.62%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy TrEMBL
Match: A0A6J1K2S4 (protease Do-like 1, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111489550 PE=3 SV=1) HSP 1 Score: 660.2 bits (1702), Expect = 5.2e-186 Identity = 343/372 (92.20%), Postives = 353/372 (94.89%), Query Frame = 0
BLAST of Tan0021930 vs. ExPASy TrEMBL
Match: A0A6J1BXV6 (protease Do-like 1, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111006463 PE=3 SV=1) HSP 1 Score: 656.8 bits (1693), Expect = 5.8e-185 Identity = 343/372 (92.20%), Postives = 356/372 (95.70%), Query Frame = 0
BLAST of Tan0021930 vs. TAIR 10
Match: AT3G27925.1 (DegP protease 1 ) HSP 1 Score: 508.1 bits (1307), Expect = 6.4e-144 Identity = 286/374 (76.47%), Postives = 305/374 (81.55%), Query Frame = 0
BLAST of Tan0021930 vs. TAIR 10
Match: AT5G39830.1 (Trypsin family protein with PDZ domain ) HSP 1 Score: 246.9 bits (629), Expect = 2.7e-65 Identity = 141/262 (53.82%), Postives = 171/262 (65.27%), Query Frame = 0
BLAST of Tan0021930 vs. TAIR 10
Match: AT5G39830.2 (Trypsin family protein with PDZ domain ) HSP 1 Score: 221.9 bits (564), Expect = 9.2e-58 Identity = 133/262 (50.76%), Postives = 160/262 (61.07%), Query Frame = 0
BLAST of Tan0021930 vs. TAIR 10
Match: AT4G18370.1 (DEGP protease 5 ) HSP 1 Score: 194.9 bits (494), Expect = 1.2e-49 Identity = 126/277 (45.49%), Postives = 168/277 (60.65%), Query Frame = 0
BLAST of Tan0021930 vs. TAIR 10
Match: AT5G27660.1 (Trypsin family protein with PDZ domain ) HSP 1 Score: 129.4 bits (324), Expect = 6.2e-30 Identity = 83/223 (37.22%), Postives = 123/223 (55.16%), 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 Position : 0 Zoom : x 1
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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