Tan0005918 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAGTTTAAAAGCCCTCCCATTATATGCTATTTCCCTTGTCAGAGAAATAATCTCTCCGCCACTCTCTCCGCCGCTGATGGAGGCCGCCGAAGAGCAAGAAGCCGTTCTCTTCCACTCATATCCATGTGCTTATTACGTCCAAAGCCCCTCCACCCTCTCCCACGCCAACAGCTCCGACAACCGAAACCCCGCCGAGTCGTCGGCCTGTCACTCGCCTCTCCGCTCCGACAACTTTCCCAATGGCCATCACCACCACCACCATCACCGCAACCCAACTCAGGAAGCCTCTCGCTTCACTCTCTCCCGCTACTCCTCCTCCCGTGGCTCGAACCATGGGGTCGGGACCGACAATGGCGAGGCTCGCCTGATCGTTGGTCACGGTCGTGATCAGGACGAGAAGCAGGACGAGGACGAAAACGAGGAAGAGTATTATGGGAGGAAGAGGAGAGGATGTTGGAAGACATATTGTACGTATAGAAATTCGGACTCTAATGCATGGATTTGCTTGCAATTGAGTTGGAGGGCAATTTTCAGTATGGGAATTGCTTTGCTTGTGTTTTACATTGTCACTAAGCCTCCCTCACCCATCATTTCTGTTCAGGTAATTTTGCATTTTTTTTCTCCCTTCCAAATTTCATTTTTTTAAATTTAATATTTACGTACAAATATCGAATTATATTTAGTGAAATTTCGAAGTATTTTGATTGTATAAGCATGAATGCTATTTTATTAGAGGACATTTTCTATATTTCATGCGTTTCATTTGTTTAGGTTTCATTCATATCAATGTTGTTTTTTTTTAATAAAATTTGAGTAAAATTTGGGTCCAACCCAAACTAGACCGATCTTGTGTTGCCTCGTTTTGAATCTCAATTTTTTTTAAAAAAAAAACTATTTTTTTTAATGTGGTTATGAAGTAGGCAACACAATATTTTTCATGAAAATTTTAATGAGGTTTTTATTGTCAAACATTTATCATTACTCATTTAAAAAAATTTAAGGCTAAATTGTTAAAAAAGTAAAAAGACTTAAATGACATAGGTTAGAATATTGATGAGAAGTATGTTTCTTTTTTTCCTAATGTTGTTTTTTTCAATAAAATAATGCCTTTTCGACATTATATGCTTTATAAATGTATTGAAACTATGCATTAATGTAAGACTAATTAATTGGTTCAATTTTACCATATGCTTGCATGAGGAAGATTAAAATAAGGTTTTTGTTAGGAGATACATTAGAAATTTTTGTTTAAAATGGAGAGAAGTATATTAAAGTTATGTATATATTCTTTCTTTTTTGAAAGTTAATAAATTCTTTCTTAAACTAAGTTTGAATATGAGAAAGAGAATATATTCACTACCTTCCATTTATATTTATATCGGTTGTCCATAAAACTTTTTGTTTATATTAAATATATTTATTATGAAATGAATTTGTTAAACTAATAAAATCGATGAAATTATTATTTTATATATATTTCTATATGTAAAAAGAATGAAAACTTAGTTTGTCTATAATTATAATTAAAAATTATATTTTTATTTTAAAATGTAGCACTCATTTTACAATTATGGGGCTTATCATACATATTCTGTGGCTCAAAAAAAATATATTTTTTAAAAAACAAACTCATTCTTTATTTTATAAAAAAATTTCCTCTTTTCTATGATTAAAAAGTAAAAAAGTAAAAAGAAAAATGATCATACTTTATTTTATAAAAAAATTTTCCTCTCTTCTATGATTAAATTATAAAAGTTAAAATTTTATTTTGATTCTTATGCTTTTGAATTTATTCCATTTCAGTACTTTTAAATGTCTAAATTAGTGGGTATATTTTTAATAATACTAGTCCAAAATGATAATGTTTCCTCCATACATTTTGAAAACTTACCTACATTGTATTTTCCTGAAAACAAATTATGATTATTAGTTTACCATGTTTGATAAAAAATTAACTTGTCTACTTTTAAGATTATTAAAAGTACACCAACTAAATTTGAAACATTTGAAACTACAAGGCTAAAATAGAATGAGTCTTAAATTATAAATTTAATCCATGAACTTTGGGCTCGTTTTAAAATTTTAGAATTTTCCATTACTTCCTCAAATATTGTATATCGTGCATATATTTAATTTTTATCATTAAATCTATTTTTTCTTTTTTGAGTTCAACCATATGTAAAAAGAATTCAAATCTCTAACTCCTTGATCGATGATACATATCTTATACCAGTTGAAATATGTTCTTCTGATGCATAAATCCATTAATACATTGATGATATGGCATATTCATTAATGTACTTAAATCAACCAAAAATTGATATTGAATGGTATATATATATAAACTGTCTTAGATGCATCATATTTTCAAATAGTCCTTTCTATATATTCAAAAGATTATATCAAATAACATTAAAATAGTCTATAATTATTTTTCGAAACTCACCTTTCAACTTTTAAAACTTTGTCACCAAATTGAACATAACTCAATTAAATTAAGACCTAAGAGGTCAGATGTTGAAGTCTAAAAAAAAATTCAAAACTTTCTCAATAAACCATTCAACTTTTTTATTACATAAAAATCACTCTTCATCATCCTCCTAAACAAAATGTATACTTCAACAACCAAATTTAAAAAAACTCATATATGATTCGAAGACAAAGTTAATTTCGTGTAGGGATGTATATAAGTCGGGTTAGGTTGGGTTGAGGGAGATTTCTAGACCAACCTGAAAATTCGGGTTGGTCATTCCTTCAACCCAACCAACCCTATTCATGAGAGTAACCCAACCCAACCCAACCCAATATTTTCGGATTGAGTTGGGTTGGGTCACCGGATTAACTTTTTTATTTTTTTAATTATTTAAAATATTTTTTTCTTGAATTAATAACTAAAATCACATAAAATTCAAAATATCAAACTTCAAAAACCATAACATCTTAACATTTTGTTAGAAGTCTAGAAAAAAACATAAAAAATTGACAAATAACTCATTTATAAGTATATATTTAATTAAAATAAAATTAAAAAATATAAACTTTGGGTTGGGTTGGGTTGGGTCAACCCGATCCTAAAAGACCCAACCCTTATGGTTTTCTAAACATTTAACCTAACTCAAACCGAAAAAAAATCTAACCCTACCCAACCCTTACGGTTTGGGTTGGGTAGTACGGGTTGGTCGGGTTACCGGGTTACTTGTACACCCCTAATTTCGTGTGTATAGATATTGAAACAATGATTATTTTTATATATCTTTTTTTTTTTATAGAAGTATATAATTTAGTGAGATTAAAAATGGATGATAATAATGTTTTGAAAAAAAATATGGAAATGGATATGTAGGTGGGAGAAGTGGAAGAATTTATGTTAGGGGAAGGAGTGGACAAAACAGGGGTTGGAACTAAGATCCTTACATGCAATTGCACAGTGAATGTAATTGTGGACAATCACTCTAAGCTCTTCGGCCTTCACATTCTTCCTCCATCTCTTCATTTGTCTTTTGGGCCTCTCCCCATTGCTACTTCACAAGTAAGCCTCTTTCTTTTCTTTTCTTTTTTTAAAATTATTATTATTATTATTATCTTCCAATTGTGTTTAATTATATTAATTAAAATTTTGGTCCCATCAAAGTTATATTCTGGTTAGAACTAAAAAAAATCATAAATTTATAAGAAAGAACCAAATATATTTTGTTTAGTTTGAAAACCTTTTAAATAGGTAGAATCTTATGGCAAAGTTTCATGTTGAGTTTGGGTTTAAGTGATCTAAAATGTAAAAATAATGAGATATTGAATTAATATCTCTACAAAATAGAGCATTACATAAGGTTTTTTTTTCCTGAGTTTTACAACATTTGAAGATGGAGGGTTTCAAACTTATTACCAATCATGTCAGTTGAACTATACTCTTATTGGCGTATTACATATAAGGTTATATATTTGGGAAAAAAGAGGTTATGGATAGAATTGCTTTCACAATCCTTTATTAGGGACGAGAATTGTTGAAGGTACGTGTTGGTTAAATAAGTGTGGTGGAAGACCACAAGTTTTAAATTAGGAAGGAAAAAAAATATCTTTTTATGGATAGAATTCAAGTGTGTTGAGTTTAAAATAGATAATAATATCATACAGAGGATCATGTTCGTCCCAATGCCTTAACAAGATTCATTTCTATTCGAGTGTTGATATAATTAAATTTATCGTAAACCTATCAGTTTTAAGCTTTTGAGTTGATTGGTGTTTGTGACGGATGTGTTTTCGAAAACTATTTTCGAATTCTATGATCCAAACGGTAGGAATTCTAAAAAACAACATTTTTTATATTTTGATTGTATCTATTTGGAAATTTAAAATAAAGAATTTTGGGCAAATATCTTTTTGGTCCCTCAGTTTTGTGTTTAGTTCCCTTTTAGTCCCTTAGTTTTCAAACTCAATAATTTAGCCCCTGAGTTTTGCATTTAGTTACACTGTTGGTCCTTCCATCCAATTTTTCGTTAGTCCCTAACGGAAAGCTGAGGTGGCACCTATTTTTTATATATAATAAATTATTTTATTAATATTTAATTATATTTTATACAAATTTACCCTCAAGTTTTGCATTTAGTTACACTATTAGTCCTTCTATTTAATTATTTAATTTTTTATTTAATTAAATTATCAAAAACTTATCAAGAAATGAGAACAAACTAAAAAATAAAATTTTAATTAAAGATTAAAAATAATTAAATATTAATAAAATAATATTTTTAATAAAAAAATAGGTGTCATATCACTATCAAAAACTTATCAAGAAAGAAGAACGAACTAAAAAATAAAAAATAAAATTTTAATTAAAGACTGAAAATAATTAAATATTAATAAAATAATATTTGTAATAAAAAATAGGTGTCACATCACTATTTTAGACTACCGAAAAATTGAATGGAATGACTAATAGCGTAACTAAATGCAAAACTTGAGGGTAAATTTGTTGAGTTTTTGAAAACTTAGGGACCAAAAAAGAGCCAAATACAAAATTGAGAGATTAAAAAAGTATTTTGTCAAATAAAAAATAAATTTTAAATAAAATATAATTAAATATTAATAAAACATATAAAAAAATAGGTGTCACGTCAGCTTTCCGTTAGAGACTAACGGAAAATTGGATGGAAGGACCAACAATGTAACTAAATGCAAAACTCAAGGCTAAATTGTTGAGTTTGAAAATTGAGGGACTAAAAGGGAACTAAACACAAAACTGAGAGACCAAAAAGGTATTTTTCCCAAGAATTTTATTAAAAAGGATAAAAACTTTAATATATATAATATTACATGTTATAAAATCAATTTATTTCTGCTAAATTAATATATATATATATATATATGTATATGATATTATAAAATAATAAACATATAAAATTTATAACAAAAAAGTTTGTTCATAAATTAATTAATGATGACCTATATTCAACCTAATATCAGTTTTGCAACTACAACTACTTTCATAGTCTATATTTTGAACTATTATTTAAATTTGAATCCAATTTCTAAATTTTTTAACAAACATATATGTAAAAACATGAAATATAACTCTATTTTTATTATTTCATTTTCAGATTACCTATCAAATAGACTTTTATATTTTTGGATTAATTGGTGATTTAACAATTTCAATAACAAATTATCACGTCTAAATTCTCGCACAAACATGGTTGATAGACAAGGGGACAAATGGAGGTGGGAGAATTTAAAACCAGAATGAAAAATTTAAATGAACTAAACTTTATCAAGCTATCATCCCTAAGCTCATATAAAGAAAACTTTTGGGAGTTACAATAAATCAACAATGAATTTTAATACTATGATTAATGTGGGATATTTTGAAATAGGGTCCAAGATTATATGCTGAGAGTGGAACGACGACGTTTCAATTAAGCGTCGGCATCAACAATAAGCCAATGTATGGTGCAGGGAGGGATATGGAAGACATGCTTGAATCAGGAACAGGATTGGAGCTCAGAATTCGACTCAATTTCATTTCCAACTATAGGGTAGTTTGGAAAATCATAAGGCCTCACTTTCATCGTCGTGTCGAATGCGTATTGGTCCTCGGAAAAGCCTACGATAGGAAGCGTCACACCCGATCCCTCAATAGTACTTGCCTACCTTCTTGATCATCTTCAACCAACAAATTAATTAAATTTTGCTTCTAAATTAATGATAAAAGAAAAACAACGAGAAGTTTAAAAGCCCTCCCATTATATGCTATTTCCCTTGTCAGAGAAATAATCTCTCCGCCACTCTCTCCGCCGCTGATGGAGGCCGCCGAAGAGCAAGAAGCCGTTCTCTTCCACTCATATCCATGTGCTTATTACGTCCAAAGCCCCTCCACCCTCTCCCACGCCAACAGCTCCGACAACCGAAACCCCGCCGAGTCGTCGGCCTGTCACTCGCCTCTCCGCTCCGACAACTTTCCCAATGGCCATCACCACCACCACCATCACCGCAACCCAACTCAGGAAGCCTCTCGCTTCACTCTCTCCCGCTACTCCTCCTCCCGTGGCTCGAACCATGGGGTCGGGACCGACAATGGCGAGGCTCGCCTGATCGTTGGTCACGGTCGTGATCAGGACGAGAAGCAGGACGAGGACGAAAACGAGGAAGAGTATTATGGGAGGAAGAGGAGAGGATGTTGGAAGACATATTGTACGTATAGAAATTCGGACTCTAATGCATGGATTTGCTTGCAATTGAGTTGGAGGGCAATTTTCAGTATGGGAATTGCTTTGCTTGTGTTTTACATTGTCACTAAGCCTCCCTCACCCATCATTTCTGTTCAGGTGGGAGAAGTGGAAGAATTTATGTTAGGGGAAGGAGTGGACAAAACAGGGGTTGGAACTAAGATCCTTACATGCAATTGCACAGTGAATGTAATTGTGGACAATCACTCTAAGCTCTTCGGCCTTCACATTCTTCCTCCATCTCTTCATTTGTCTTTTGGGCCTCTCCCCATTGCTACTTCACAAGGTCCAAGATTATATGCTGAGAGTGGAACGACGACGTTTCAATTAAGCGTCGGCATCAACAATAAGCCAATGTATGGTGCAGGGAGGGATATGGAAGACATGCTTGAATCAGGAACAGGATTGGAGCTCAGAATTCGACTCAATTTCATTTCCAACTATAGGGTAGTTTGGAAAATCATAAGGCCTCACTTTCATCGTCGTGTCGAATGCGTATTGGTCCTCGGAAAAGCCTACGATAGGAAGCGTCACACCCGATCCCTCAATAGTACTTGCCTACCTTCTTGATCATCTTCAACCAACAAATTAATTAAATTTTGCTTCTAAATTAATGATAAAAGAAAAACAACGAG ATGGAGGCCGCCGAAGAGCAAGAAGCCGTTCTCTTCCACTCATATCCATGTGCTTATTACGTCCAAAGCCCCTCCACCCTCTCCCACGCCAACAGCTCCGACAACCGAAACCCCGCCGAGTCGTCGGCCTGTCACTCGCCTCTCCGCTCCGACAACTTTCCCAATGGCCATCACCACCACCACCATCACCGCAACCCAACTCAGGAAGCCTCTCGCTTCACTCTCTCCCGCTACTCCTCCTCCCGTGGCTCGAACCATGGGGTCGGGACCGACAATGGCGAGGCTCGCCTGATCGTTGGTCACGGTCGTGATCAGGACGAGAAGCAGGACGAGGACGAAAACGAGGAAGAGTATTATGGGAGGAAGAGGAGAGGATGTTGGAAGACATATTGTACGTATAGAAATTCGGACTCTAATGCATGGATTTGCTTGCAATTGAGTTGGAGGGCAATTTTCAGTATGGGAATTGCTTTGCTTGTGTTTTACATTGTCACTAAGCCTCCCTCACCCATCATTTCTGTTCAGGTGGGAGAAGTGGAAGAATTTATGTTAGGGGAAGGAGTGGACAAAACAGGGGTTGGAACTAAGATCCTTACATGCAATTGCACAGTGAATGTAATTGTGGACAATCACTCTAAGCTCTTCGGCCTTCACATTCTTCCTCCATCTCTTCATTTGTCTTTTGGGCCTCTCCCCATTGCTACTTCACAAGGTCCAAGATTATATGCTGAGAGTGGAACGACGACGTTTCAATTAAGCGTCGGCATCAACAATAAGCCAATGTATGGTGCAGGGAGGGATATGGAAGACATGCTTGAATCAGGAACAGGATTGGAGCTCAGAATTCGACTCAATTTCATTTCCAACTATAGGGTAGTTTGGAAAATCATAAGGCCTCACTTTCATCGTCGTGTCGAATGCGTATTGGTCCTCGGAAAAGCCTACGATAGGAAGCGTCACACCCGATCCCTCAATAGTACTTGCCTACCTTCTTGA MEAAEEQEAVLFHSYPCAYYVQSPSTLSHANSSDNRNPAESSACHSPLRSDNFPNGHHHHHHHRNPTQEASRFTLSRYSSSRGSNHGVGTDNGEARLIVGHGRDQDEKQDEDENEEEYYGRKRRGCWKTYCTYRNSDSNAWICLQLSWRAIFSMGIALLVFYIVTKPPSPIISVQVGEVEEFMLGEGVDKTGVGTKILTCNCTVNVIVDNHSKLFGLHILPPSLHLSFGPLPIATSQGPRLYAESGTTTFQLSVGINNKPMYGAGRDMEDMLESGTGLELRIRLNFISNYRVVWKIIRPHFHRRVECVLVLGKAYDRKRHTRSLNSTCLPS Homology
BLAST of Tan0005918 vs. NCBI nr
Match: XP_038905771.1 (uncharacterized protein LOC120091726 [Benincasa hispida]) HSP 1 Score: 594.7 bits (1532), Expect = 4.8e-166 Identity = 296/335 (88.36%), Postives = 310/335 (92.54%), Query Frame = 0
BLAST of Tan0005918 vs. NCBI nr
Match: KAG7018082.1 (hypothetical protein SDJN02_19948, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 559.3 bits (1440), Expect = 2.2e-155 Identity = 276/332 (83.13%), Postives = 302/332 (90.96%), Query Frame = 0
BLAST of Tan0005918 vs. NCBI nr
Match: XP_008461795.2 (PREDICTED: uncharacterized protein LOC103500312 [Cucumis melo]) HSP 1 Score: 555.8 bits (1431), Expect = 2.5e-154 Identity = 276/334 (82.63%), Postives = 299/334 (89.52%), Query Frame = 0
BLAST of Tan0005918 vs. NCBI nr
Match: KAG6581577.1 (hypothetical protein SDJN03_21579, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 555.1 bits (1429), Expect = 4.2e-154 Identity = 274/332 (82.53%), Postives = 299/332 (90.06%), Query Frame = 0
BLAST of Tan0005918 vs. NCBI nr
Match: XP_022934269.1 (uncharacterized protein LOC111441481 [Cucurbita moschata]) HSP 1 Score: 555.1 bits (1429), Expect = 4.2e-154 Identity = 276/332 (83.13%), Postives = 300/332 (90.36%), Query Frame = 0
BLAST of Tan0005918 vs. ExPASy TrEMBL
Match: A0A1S3CFE9 (uncharacterized protein LOC103500312 OS=Cucumis melo OX=3656 GN=LOC103500312 PE=4 SV=1) HSP 1 Score: 555.8 bits (1431), Expect = 1.2e-154 Identity = 276/334 (82.63%), Postives = 299/334 (89.52%), Query Frame = 0
BLAST of Tan0005918 vs. ExPASy TrEMBL
Match: A0A6J1F239 (uncharacterized protein LOC111441481 OS=Cucurbita moschata OX=3662 GN=LOC111441481 PE=4 SV=1) HSP 1 Score: 555.1 bits (1429), Expect = 2.0e-154 Identity = 276/332 (83.13%), Postives = 300/332 (90.36%), Query Frame = 0
BLAST of Tan0005918 vs. ExPASy TrEMBL
Match: A0A0A0LD21 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G696870 PE=4 SV=1) HSP 1 Score: 550.4 bits (1417), Expect = 5.0e-153 Identity = 274/334 (82.04%), Postives = 293/334 (87.72%), Query Frame = 0
BLAST of Tan0005918 vs. ExPASy TrEMBL
Match: A0A6J1DGR2 (uncharacterized protein LOC111020336 OS=Momordica charantia OX=3673 GN=LOC111020336 PE=4 SV=1) HSP 1 Score: 541.2 bits (1393), Expect = 3.0e-150 Identity = 281/336 (83.63%), Postives = 298/336 (88.69%), Query Frame = 0
BLAST of Tan0005918 vs. ExPASy TrEMBL
Match: A0A6J1J6W9 (uncharacterized protein LOC111481909 OS=Cucurbita maxima OX=3661 GN=LOC111481909 PE=4 SV=1) HSP 1 Score: 540.4 bits (1391), Expect = 5.2e-150 Identity = 271/332 (81.63%), Postives = 296/332 (89.16%), Query Frame = 0
BLAST of Tan0005918 vs. TAIR 10
Match: AT3G08490.1 (BEST Arabidopsis thaliana protein match is: Late embryogenesis abundant protein, group 2 (TAIR:AT3G24600.1); Has 161 Blast hits to 158 proteins in 15 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 161; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 208.0 bits (528), Expect = 1.2e-53 Identity = 102/187 (54.55%), Postives = 133/187 (71.12%), Query Frame = 0
BLAST of Tan0005918 vs. TAIR 10
Match: AT3G24600.1 (Late embryogenesis abundant protein, group 2 ) HSP 1 Score: 76.3 bits (186), Expect = 5.3e-14 Identity = 44/160 (27.50%), Postives = 79/160 (49.38%), Query Frame = 0
BLAST of Tan0005918 vs. TAIR 10
Match: AT5G42860.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 19 plant structures; EXPRESSED DURING: 11 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G45688.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). ) HSP 1 Score: 60.8 bits (146), Expect = 2.3e-09 Identity = 78/316 (24.68%), Postives = 130/316 (41.14%), Query Frame = 0
BLAST of Tan0005918 vs. TAIR 10
Match: AT1G45688.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G42860.1); Has 258 Blast hits to 242 proteins in 39 species: Archae - 0; Bacteria - 11; Metazoa - 10; Fungi - 14; Plants - 198; Viruses - 17; Other Eukaryotes - 8 (source: NCBI BLink). ) HSP 1 Score: 54.7 bits (130), Expect = 1.7e-07 Identity = 78/317 (24.61%), Postives = 129/317 (40.69%), Query Frame = 0
BLAST of Tan0005918 vs. TAIR 10
Match: AT2G41990.1 (CONTAINS InterPro DOMAIN/s: Late embryogenesis abundant protein, group 2 (InterPro:IPR004864); BEST Arabidopsis thaliana protein match is: Late embryogenesis abundant (LEA) hydroxyproline-rich glycoprotein family (TAIR:AT4G35170.1); Has 172 Blast hits to 168 proteins in 15 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 172; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 54.3 bits (129), Expect = 2.2e-07 Identity = 76/316 (24.05%), Postives = 126/316 (39.87%), 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:
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