MC07g_new0151 (gene) Bitter gourd (Dali-11) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTCAAGGCTGGACCTTTGAAGATTCGACTTCTTCTAGGACCTAGGCCTCCACATGGCGCATGCAAGGAATCTTTTGCGGAGTTGGGAAGTGCCGAACTCGCAAAGTGGAGGCTAATGTTCTGGGGGACTCGAGATGCAATTGCCACGTATTGTGCCATCAAAACAACACGTCGAAGGGTGCTCTAAGGAGCCATCGACATATGGAGGTCGGGAAGCTGAACTCAATTGCAGTCAGGGCATCGATCTTCGTCCCAGTCTATTATGCCATCCACTTTGCAGTCGATGACTCTGTGAAGGAAGATATTAAACACTCACGCAATCTCCGCAGAATCTCGTGATCCTAGGAATAATTAACGAAGGATTGATGACTTTCCCATCTCGCAGACCTATAAAGATGGAGGTAAATCTATCCAGGGTATGTGTAAATCTTAACTACAAATTTATTCTCCAAATTTTGACTTGTATTGACTTGAGCATCACAGTGCTCACCCTTTGTATTGCAGTTTTTCGATGTTTACGAGGAGATTCATTGGATCGTTTGAGCGAATATTCTGTGCTCAAACACACCTCATGCGTTGACTCAATTGGCTGCTCATTCTTCAAAATAAAAAGTCAACTTGTAACACAATAGGGTTTGTGGTATTTAGCCCGTTAGTACTTTTACCATTAAGGTCTTAAAATAACATGGAAGAAAAAAGTTAAATGGATAGGTAGATCTTACTAGCAATAATCATGATGCTGTTGAGAATGACTTTCGAAATCTTTATTCAAGTAGGTGACCCTTGATGGATTTTATATAACTTTTTCTTGTATGTTTATATAGTCATAATGTTTAGTAATACAAGGTTCTATTTTATTTATTTATTTATGTGTGTTTTTATCATATGGCTTACACCTCATGACTCTTACACATGAAACAGCTTCTTACCTTATATAATATTATGTCGGGGGGGTATTAACAAATTTTCAAAATGATTAAATGGATGCGTGCTTGGAGCTTCTTAAGGATAATTAGAATATCATCAATATAATTTGTGTGAAATTTTATCACCTTGGGGTGAGTAATTCTTCCACCAAACTTTCATTTGTCTTCTTCCTGAAAGATCTAATTCCATCAAAATTGGGGATTTCTGACCTGTTGGTTTAGTGTCATGCCTTTACCAAGGCATTGCCTAGTCCCTATGAGCTGATGCCATATGCCTCTTCTATATGCTTTATAGGAATTGATGTTGCCGCACATGATATACGTTTTGTAGAGGACAATTGGGAGAGTCCGGTAATCTGGCATATATTGTTCTATCTTTTCTTTTCTTTTTGCTTAGGGGATGTGTGTGTTAATACTACCATTTCTTATTGGAAAATGTACATCATTATTGGTTTTTTTAATAAAATATTTCATTACTGATTAAATTAAATCACTATGTAGGCAATATATAAATATGAAAACTGATATCTACAGCTGAAATGAAGAGAAGGAAAAAAAATAGTAGAACTGAATGATTACTACACGAATTTAGTAACCCCAGAATGTCCGGCGATTGTCTATCCTATGGATAGAAATTTGGAAATTTACTGCCCACTGATTTTTTTAACTATTGCCAAAAAATGTGGTTGCTAGCGCAGGTATAACCTATTTCAACAATACCCTGCAAGCTAGTTTGAGTGCATCAAACATTTCTTAGTTTCTTATCAATTTTTATTCTGATAGCCCCGTATAAAGATGTAAATCTTCACTCAAGACAAAGGAGTATATATTGTGCAAATCAACCGTCTTCATTGTTGCCTATTGTCATGTCACATCCTTAACGTTTGTTCTATCTTGTTGATATCAATTGTGAGGAATACTTATTGGGCTTTGTGTTTCAATTGAGCTTATAAGTTTGAACCTAAAATTTGAGTTTTCATTAAAAGTGTGGGCATATAGTTTATAAATATCTTGTCATTGATTTGAACTCTTCCGTGCATTGGGCTTTGCTGCTACTAGTTTTTTGCTTCTCTATTAGATCAAATTTTCTCTGATAAGTTTGCAACATCAGTTCAAAATCTCTTACTAATTCAACCTTAATTAGGAATAATACTATATCTATATGATAATACATAGAGAATGAAAGTCCTTGATTTCTCTATTAAGCATCCAAAGACTTTCATTGTAGAGAGATTAATGGTTACTTTATTCTCCTATATATTGAGGTTTCTTCCCTAGTCTACTAGAGGATAAATTGGTGTTGAATAGACTCTTTGGGTTTGTTCTCCACTTGATCCCTTACACTACATCATTCGAGTATAGCTGACATTTGTATTAGGTCTTTTTCGAGGGCAAATTTGGAAAAGGAACTCCTAAAAGGGCTAGTTTTTTTGAACACACTAACTTTCTCACTTATCAAAATAGAAAAGTTTGTTTCTTGTTAGAAAACAAGACAGACTTGATTCTTTCTTTGGACTCTTCCTCTAGAGGGCATTAATATAGCAAATATGTTCTATGGAAGGAATCCTCACTTCAGATGATGCCCCCGGGTATAGGGGAGCAAAGCTCTGACTCCCAGTTATCAAAAACAAAAAAAAAGGCAAATAAGTTCTATAGAAGGAATCCTCACTTCCATAATTCAACTAACTATTGTTCTCTGTTTTAGATGCTTAGAATTTGAATATCACTTTTCATTGCATTTCTCTTAAGCTCAAAGTACCAAACACACTCTACTTTTTAACCCAGCTTATAATTGGCTAACCCATGAGCCAACACACCTCATAGAAGGTAAAATTACAATAAAAGACAAAATACTAATAACTTCCTGTATCTTAGACATTTGCATCAATTTGAAATATAGTATTCATGTTGCAACAATATTGATAAAATATCGATGTCGATGGATATTCCTAGAAAAATGTGGACATTAAGAAATTAATAAATATTTATTTTGCACCTTTTGAATTCATTTTCTTGATTTGGACTGCTATTTTAGGTACTTGGCGCCTGGGGATTGGGATGGGAAATCTGGATGGATGGGATGGAGATTACACAGTTCACATACTTTCAGCAGGTTTTACTAAGTGGTCCTTTATATTATTTGTATTATCAGTGTTATATAAGTGAAGAACTCCATACAGATGCAACGTTGTGAACATGGTATACATTGTAAATGTTGAAGAAACTAGTTTAGCAACTCAATGAAACATGCATTGAAAACTATGTTTTATCTTTTTATTTTGTGAGCAGCATGTCATATTGTTGATCTTTGCATCTCCCTGTTTGAGGCAAGGTTACTGTTATTAAAATTTTAAAATTCATTGCAATGATTTAGTTATATCTCTTGCCTGCTTTCTTGATCTCTCTTTCTCTAACTTTCAGGCTGGAAGTCAACAATTGTTGCCCATATCTGTTGAAATCACTTACGGTCTTGAACGTATCCTCATGTTACTGCAGGTTGTGGTGTCTTTATTGGCTTTTTTCTTTTAATATAAAAAACATGATTATCATCTGAAGAGAAGAGTATAATTACTATAAGTCTAGTGAGAAAACTTGGGGATTTGAAGTCCGATTGGAACGAAGTTGTATGCCATAAAAGAACAACTTTAGTTAGCTTAATTTTCATCATTTAAGTGGAAAATAAAATTTGGAGTATGAAAAGTAAAAAACTTTTCTTTTCCTATCTTCTGCAATCAGCATATTTTCATTATTCTTTTCTAAATTTCTAATACCCTTGTTCCTTCCACAGTGTGTGTCTTAATTCTTTGTTCTTTGACCTTGATAAGGCCAAGTACTTCTGTTTTCTTTCTTATTGAAAAGACTTTTTTTTACTTTTTCAGCGTTGTTGCTTGATTGTGTTTTACTGTTATTCTGAATATTTGGACAATTAGTTTCTTAATTATTGGCTTGCTAATTGGGTCTGGACCTTTGGTTCAAGTTTCTTTATGGACATGACCCTTTTTTGGGTATTTTCTAATCATTTTTGAAAAGCACGTGTAGGCGTCTTGCTTAAAAAAGTGAGGTGCCCTCTCTAAGGTGCACGCCTCACATGCCACAGTGATTTTTTATTTTTTATTTTTTTAATTTTTAATTTTAATTTCTTATTTTTTTAATTTTTTTAATTTTAATTAATTTATTATTTTTTTTTGTAAAGAAATTAAAAATATCCTTCAAAAGTCTTCTTCTCTAAAGAGTCTCTAAGGAAACTTCTAATTTATTTTTTTTAAATTAATTCTTGTATATATAAAAAATTATTTCCATTGCACTTTAGTCTACCTCATGCTTTAAAAAATGCTGGTTCTGAACACATTGTGGCTGTCTTTCTTCCTTCCTTTCTTTTATTTTTCTGGCAAGAAATAAAAGTAGATTTGTTAGAAAAAGTGATTGTGCAAATGAAGAGATATTTTTCTTGCCCATTTAAATGAGGAGATATTTTTGGAGTTATTTGAAGAAGAGTGAAGGATTTTTGAAAATTTGTAATTTTAGCACCTTGGCCATTTGGGTTGAAAGGAACAAACATATGTTTTAAGCATGTTAGATAATCAAGAAGTGGCTTTGGACAAGATTGTACTCTTTATTTCTTATTTTTGTCAAAGAATCCTATTTTCCTGTGATTCTCTAGTGTTTACTATTTGCCCCCCACTTCATTGAGTTTTCTTGATGTTATCTGTGCAGGGTGTCAATCATTTTAAGAAAATTCAGTATGCTGATGGAATCACATACGGGGAGCTGTTCTTGGAGAACGAGTAAATGAATGACACTTGTTTGAATTTCTTTGTTTTTTATAATCAATGACAAATTATCCATATAACTAAATACGAAGAACAGAAGGCTAGCAGAAACTATGGGTTTCTGATTTTAATAAATAAAATTTGAGCATACATGGGTATTTTTATTTTGATATGTTCTCTGTTAAAATGATTGTCTTGCTCTGATTATTATATAATTCTAGGGATTGAAAAATATGACAGTACAATTTGGTGACTAAATATAATTTTGTTCCATGGGCATTCACTTTGATTTAAGTTTCTTTTTCAGTAGATTGGATTTGATATACCTTTAAAAGGCCTACTATATTGTATGAACTCGACTTATCTTCTCTATTAGTTTAGCTTGCTGCTTGCTTTTGTTATCTTATAGCCTTTCAAAATGCTCTTAAAGTTCCTTACTTTTTTTGTTCCATAAATATATACTTGAACAAGGAGGCTTGAGATATATAATTCTTTCAATTTGTTAACTCTCTCTCTCTCTATTTCAGGAAGGAAATGAGTGCGTATTATTTAGAACATGCCAATGTTCATCAGGTCCAAAAACATTTCAACATTTTTGAGGAGGAAGCTCATTCCTTGCTTGCTTTAGGGTTAGCGATCCCTGCGTATGTTTCTTCCATTAATTGTATTCTGAGGCTCGATATATGTTAGTTTATTTATTTTTAATTTGACTAGCATGTGGCATACGACATAATAGGTATGATCAGGTTTTGAAGGCATCTCATGCTTTCAACATCTTGGACTCGAGAGGCTTTATTGGGGTAACAGAGCGTGCTCGTTATTTTGGTCGAATGCGAAGGTTAGAGAAATATCTTTATTTATGCATGCTAACTGCCTTTCTTTTTTGTTTTTGTTTTTTTCTTTTTCTTTCTTCCCTCTCGCGGTGTTTGGGGTATGGGTTAGGCTTACAATGTCTTTGACATCCTAAGCCTAACTCATTTTTAGGTGAGGGTTCGTCAAGTGGTCTCCACATCACCCTAAACCCACGGGCTTGAATAGCGACGGTTTCTATAAATTTTTTCCTTATTTATAGCCAATAAAGCACCAAGTTAAATAAAGCACCAAGTTAAATATGTGAAAGAGTCTCAAAGAAAGCTAAAAATAATATGGTCTAATAAAATTTCCTAAATCTTAAGCCTAAAATATTTTAAGATAAAAGAAAGATAATTTCCTAATTTGTTACTTACGAGTGCTAGATTATTTATTAGTATATTTTATATTATTGTATTAGATTCCTATTCCTATTATGTTTAGGAATTATAGTGTTATAAATAGGTGTGTATTAAGCAACTTCCCCCCGGAAAATGCTCTCTCCTCTCTCATCCTCCTCCCTCCATTGCATAGCTTCCCCCTCTCCGGTGCCCCTTTACGGTGAGTTTTTCCAGCCATAGCCTTCTGCTTTCCTTGTTTTCCTCCTTCCCGTTGCCTTCTAGAAGTAGTTAACAGCAAGCGGTTCTGGAGCTCTCTCCTCTCTCCTCTGTCCTCCCTTCTCCCTCCCTTTTCCGATCCCCTTCCTCCTCCTTCTCCCATCCTTCCCTCCTCCATCCTCCTCCTTCTCTTACCCCTTCCCCCTTCCCTCATCCTCTTCGGCGCAAGAGTCTGGGGCCTTCAGAAATAAAGTTCAATGGAAGTGAGTAGTTGTCGTATTGAAGGAAAGTACTTTTGTACGTGGGCAGAAAAAGACTATATTTGGATCGAGGATGTCATCAGAAAGGAAGCATTATCGCTTCATCCGTCACAGTTTCTTTGGTTCGAAAGTTATATGGCAGTGCTTACTCAGAAATCAATCTCAGCCTTTTTTTCTTTAAGGAACGTTATATACATGGAACCTGTCAAATTCACAAGCTGAGAATTAAGAATTGGTGGTATGCTTCCTGGAATCTGTCAAATTCACAAGCTGAGAATTAAAAATTGGTGGTATGTTTCCTGGACCCTATGGCCGTTTATTGGAGGTTGTCAACTTATTTTGATTCCGGCTTGTTCTGATAAGTTGGGGTGGAAGGATTTTTGGTCTATGCTAAGGAATTTTTTGGTAAGAAATGCGGAAAAACAGATGATGGAAGCGGTGAATATTAGAAAATCAAAAGTTGAAGAGGTTATTGCTCCAGTTAAAAAAGATATTTGGTTGAAGGAAGCGCGCAATCCTCCTTTACCTGAAGAGGTAGTTAAACGAAAAGAAGATTTTTCATCTGATTATGTGAGTGCTGAGTCTATCCCCAAAGGGAGTCAATTCTCTGAGCCAATTTCTTCTGGTCTGCATCGCAAAAACCAAAAGATGGCATCTGAGCACCAGATTCAAAAGGAAAAAGAGGTAATTCACTTGGAGTGGAACAAATTAATGGTTGTTTCGAAGTGTTGTGTTCACGATGAATGGTCTAAAATAGCTATGGCTCTGAAAGGGAAGTATTCCCAGCCCTGCGTGCTTAACCCGTTTATGGCAGACAAAGCTCTACTTAAGTTTATCAATTTTAGATTGTTAAATCCAACATAGTTATCTAGTAATTGGGTTTCTGTGGGTGAATTCAGAATCAAGATTGAACTATGGAATCAAGAGAGACACTGTAGATTGGAGTTTATAAGAAGTTATGGCGGTTGGATTAAGATCCATGATTTTCCTCTGTTTCTCTGGGATTGGGAATGCTTTGAAGCAATTGGAAAATATTGTGGAGGGTTAATCGGAATCTCAACAAAGACACTGAATATTTTGGATGCCTCAGAAGCTTTTATCCAAGTTGCACTGAATAGATGTGGTTTTCTACCTGCATTTGTGAACATAAGTCATAAGGTTCTTGGTCCTTTTACAGTTTGTATTTAGGATTGTAATCCACCTAATTATTCGATTTCAATGGGGTCATTGTTTGATCTTAAGAATTCATCTAACCCGTTGGATTTAGCTAGATTTCAAATGGTTATGGGTATTCAAAGATACCTTCCGGATGGTTTCGATATTATTCCAACATGAAACAGTATTTTCAAGATCAGGACATACTTGAAACGGTTGATTTACCTAAAGTGGTTTGCCAGCCATCACCCCCTCTCGGACAGTTGGATATTTATATTGAAGGTTCAAAAGGGGGAGAGCAAAAGTCGGACTCACCTATTAGGGTGGGAATTACTGGCAGGGCTTCATGCGACTCAAGTTTTAAGAAGACTTCAGTTGATCTCCCAAGGCAAATTAAGGGCTCTTCATTTCCAGTTGTAGAAAGGAAGGTAAACGGTTGGGTGGCCAATTTTCTGCTTTTTTATTCAAGAAATAAAGAGAAATTGGCGGCTAATAAAGACATTGAGAAATTAGTCTCGGTTGAGGGAATGAAAACAAATTTATTGGAGGCATTCAATGAGGAAAAAGGAAATAATTCCCTAGACACTGTACCGGTTGAAAATTATGCCATAACTGAAGGAATAAAGACAGACTCAATAAAGGCATTAAATGAAGAAAGAGGAAGCGCTCTTCCAAAAAAGCATCGGATCCTTCTGTCCGTTTTAATGACTTTTTACCTCCTTCCTTATCACAGGGTGTTATCAACACTCTAAAATTCCAGCCTCTTCACCTTCTTCTCCTAAGGCTTCTCTTGGAGAAGATTTTGATTCAGAATTTAGTATTAGCAGTCCGGAATCTTCATCGATTACAAATTCCTTCGAAAGTCCAAACGAAGTGTTATGTGAACAATCGGTGGAGGAAGATTTACAAAGCTATTTTGTGAGGCAAACGGAGTTGAAGAGATAG ATGGTCAAGGCTGGACCTTTGAAGATTCGACTTCTTCTAGGACCTAGGCCTCCACATGGCGCATGCAAGGAATCTTTTGCGGAGTTGGGAAGTGCCGAACTCGCAAAGTGGAGGCTAATGTTCTGGGGGACTCGAGATGCAATTGCCACGTATTGTGCCATCAAAACAACACGTCGAAGGTGTCATGCCTTTACCAAGGCATTGCCTAGTCCCTATGAGCTGATGCCATATGCCTCTTCTATATGCTTTATAGGAATTGATGTTGCCGCACATGATATACGTTTTGTAGAGGACAATTGGGAGAGTCCGGTACTTGGCGCCTGGGGATTGGGATGGGAAATCTGGATGGATGGGATGGAGATTACACAGTTCACATACTTTCAGCAGGCTGGAAGTCAACAATTGTTGCCCATATCTGTTGAAATCACTTACGGTCTTGAACGTATCCTCATGTTACTGCAGGGTGTCAATCATTTTAAGAAAATTCAGTATGCTGATGGAATCACATACGGGGAGCTGTTCTTGGAGAACGAGAAGGAAATGAGTGCGTATTATTTAGAACATGCCAATGTTCATCAGGTCCAAAAACATTTCAACATTTTTGAGGAGGAAGCTCATTCCTTGCTTGCTTTAGGGTTAGCGATCCCTGCGTATGATCAGGTTTTGAAGGCATCTCATGCTTTCAACATCTTGGACTCGAGAGGCTTTATTGGGGTAACAGAGCGTGCTCGTTATTTTGGTCGAATGCGAAGGGCTTCATGCGACTCAAGTTTTAAGAAGACTTCAGTTGATCTCCCAAGGCAAATTAAGGGCTCTTCATTTCCAGTTGTAGAAAGGAAGGTAAACGGGTGTTATCAACACTCTAAAATTCCAGCCTCTTCACCTTCTTCTCCTAAGGCTTCTCTTGGAGAAGATTTTGATTCAGAATTTAGTATTAGCAGTCCGGAATCTTCATCGATTACAAATTCCTTCGAAAGTCCAAACGAAGTGTTATGTGAACAATCGGTGGAGGAAGATTTACAAAGCTATTTTGTGAGGCAAACGGAGTTGAAGAGATAG ATGGTCAAGGCTGGACCTTTGAAGATTCGACTTCTTCTAGGACCTAGGCCTCCACATGGCGCATGCAAGGAATCTTTTGCGGAGTTGGGAAGTGCCGAACTCGCAAAGTGGAGGCTAATGTTCTGGGGGACTCGAGATGCAATTGCCACGTATTGTGCCATCAAAACAACACGTCGAAGGTGTCATGCCTTTACCAAGGCATTGCCTAGTCCCTATGAGCTGATGCCATATGCCTCTTCTATATGCTTTATAGGAATTGATGTTGCCGCACATGATATACGTTTTGTAGAGGACAATTGGGAGAGTCCGGTACTTGGCGCCTGGGGATTGGGATGGGAAATCTGGATGGATGGGATGGAGATTACACAGTTCACATACTTTCAGCAGGCTGGAAGTCAACAATTGTTGCCCATATCTGTTGAAATCACTTACGGTCTTGAACGTATCCTCATGTTACTGCAGGGTGTCAATCATTTTAAGAAAATTCAGTATGCTGATGGAATCACATACGGGGAGCTGTTCTTGGAGAACGAGAAGGAAATGAGTGCGTATTATTTAGAACATGCCAATGTTCATCAGGTCCAAAAACATTTCAACATTTTTGAGGAGGAAGCTCATTCCTTGCTTGCTTTAGGGTTAGCGATCCCTGCGTATGATCAGGTTTTGAAGGCATCTCATGCTTTCAACATCTTGGACTCGAGAGGCTTTATTGGGGTAACAGAGCGTGCTCGTTATTTTGGTCGAATGCGAAGGGCTTCATGCGACTCAAGTTTTAAGAAGACTTCAGTTGATCTCCCAAGGCAAATTAAGGGCTCTTCATTTCCAGTTGTAGAAAGGAAGGTAAACGGGTGTTATCAACACTCTAAAATTCCAGCCTCTTCACCTTCTTCTCCTAAGGCTTCTCTTGGAGAAGATTTTGATTCAGAATTTAGTATTAGCAGTCCGGAATCTTCATCGATTACAAATTCCTTCGAAAGTCCAAACGAAGTGTTATGTGAACAATCGGTGGAGGAAGATTTACAAAGCTATTTTGTGAGGCAAACGGAGTTGAAGAGATAG MVKAGPLKIRLLLGPRPPHGACKESFAELGSAELAKWRLMFWGTRDAIATYCAIKTTRRRCHAFTKALPSPYELMPYASSICFIGIDVAAHDIRFVEDNWESPVLGAWGLGWEIWMDGMEITQFTYFQQAGSQQLLPISVEITYGLERILMLLQGVNHFKKIQYADGITYGELFLENEKEMSAYYLEHANVHQVQKHFNIFEEEAHSLLALGLAIPAYDQVLKASHAFNILDSRGFIGVTERARYFGRMRRASCDSSFKKTSVDLPRQIKGSSFPVVERKVNGCYQHSKIPASSPSSPKASLGEDFDSEFSISSPESSSITNSFESPNEVLCEQSVEEDLQSYFVRQTELKR Homology
BLAST of MC07g_new0151 vs. ExPASy Swiss-Prot
Match: Q8L785 (Glycine--tRNA ligase, chloroplastic/mitochondrial 2 OS=Arabidopsis thaliana OX=3702 GN=EDD1 PE=1 SV=1) HSP 1 Score: 304.7 bits (779), Expect = 1.4e-81 Identity = 151/202 (74.75%), Postives = 170/202 (84.16%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy Swiss-Prot
Match: B5YES5 (Glycine--tRNA ligase alpha subunit OS=Dictyoglomus thermophilum (strain ATCC 35947 / DSM 3960 / H-6-12) OX=309799 GN=glyQ PE=3 SV=1) HSP 1 Score: 226.5 bits (576), Expect = 4.8e-58 Identity = 106/190 (55.79%), Postives = 138/190 (72.63%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy Swiss-Prot
Match: B8E0E9 (Glycine--tRNA ligase alpha subunit OS=Dictyoglomus turgidum (strain DSM 6724 / Z-1310) OX=515635 GN=glyQ PE=3 SV=1) HSP 1 Score: 224.6 bits (571), Expect = 1.8e-57 Identity = 104/184 (56.52%), Postives = 136/184 (73.91%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy Swiss-Prot
Match: A2SL95 (Glycine--tRNA ligase alpha subunit OS=Methylibium petroleiphilum (strain ATCC BAA-1232 / LMG 22953 / PM1) OX=420662 GN=glyQ PE=3 SV=1) HSP 1 Score: 219.2 bits (557), Expect = 7.6e-56 Identity = 101/183 (55.19%), Postives = 137/183 (74.86%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy Swiss-Prot
Match: P77892 (Glycine--tRNA ligase alpha subunit OS=Moraxella catarrhalis OX=480 GN=glyQ PE=3 SV=1) HSP 1 Score: 218.4 bits (555), Expect = 1.3e-55 Identity = 103/187 (55.08%), Postives = 138/187 (73.80%), Query Frame = 0
BLAST of MC07g_new0151 vs. NCBI nr
Match: KAG7013827.1 (Glycine--tRNA ligase, chloroplastic/mitochondrial 2, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 339 bits (869), Expect = 1.82e-111 Identity = 161/175 (92.00%), Postives = 170/175 (97.14%), Query Frame = 0
BLAST of MC07g_new0151 vs. NCBI nr
Match: XP_004140508.3 (glycine--tRNA ligase, chloroplastic/mitochondrial 2 isoform X1 [Cucumis sativus] >KAE8646780.1 hypothetical protein Csa_005464 [Cucumis sativus]) HSP 1 Score: 347 bits (890), Expect = 6.43e-107 Identity = 173/202 (85.64%), Postives = 181/202 (89.60%), Query Frame = 0
BLAST of MC07g_new0151 vs. NCBI nr
Match: XP_016902503.1 (PREDICTED: glycine--tRNA ligase, chloroplastic/mitochondrial 2 isoform X2 [Cucumis melo]) HSP 1 Score: 344 bits (882), Expect = 1.48e-106 Identity = 172/202 (85.15%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. NCBI nr
Match: XP_022156971.1 (glycine--tRNA ligase, chloroplastic/mitochondrial 2 isoform X1 [Momordica charantia]) HSP 1 Score: 346 bits (887), Expect = 1.81e-106 Identity = 174/202 (86.14%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. NCBI nr
Match: XP_038874261.1 (glycine--tRNA ligase, chloroplastic/mitochondrial 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 344 bits (882), Expect = 9.35e-106 Identity = 172/202 (85.15%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy TrEMBL
Match: A0A1S4E2Q4 (Glycine--tRNA ligase OS=Cucumis melo OX=3656 GN=LOC103498820 PE=3 SV=1) HSP 1 Score: 344 bits (882), Expect = 7.18e-107 Identity = 172/202 (85.15%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy TrEMBL
Match: A0A6J1DWK5 (Glycine--tRNA ligase OS=Momordica charantia OX=3673 GN=LOC111023800 PE=3 SV=1) HSP 1 Score: 346 bits (887), Expect = 8.79e-107 Identity = 174/202 (86.14%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy TrEMBL
Match: A0A0A0KFM2 (Glycine--tRNA ligase OS=Cucumis sativus OX=3659 GN=Csa_6G106190 PE=3 SV=1) HSP 1 Score: 344 bits (883), Expect = 3.24e-106 Identity = 166/174 (95.40%), Postives = 170/174 (97.70%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy TrEMBL
Match: A0A1S3CB07 (Glycine--tRNA ligase OS=Cucumis melo OX=3656 GN=LOC103498820 PE=3 SV=1) HSP 1 Score: 344 bits (882), Expect = 4.53e-106 Identity = 172/202 (85.15%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of MC07g_new0151 vs. ExPASy TrEMBL
Match: A0A6J1F3I3 (Glycine--tRNA ligase OS=Cucurbita moschata OX=3662 GN=LOC111439724 PE=3 SV=1) HSP 1 Score: 340 bits (871), Expect = 3.66e-105 Identity = 162/174 (93.10%), Postives = 169/174 (97.13%), Query Frame = 0
BLAST of MC07g_new0151 vs. TAIR 10
Match: AT3G48110.1 (glycine-tRNA ligases ) HSP 1 Score: 304.7 bits (779), Expect = 9.8e-83 Identity = 151/202 (74.75%), Postives = 170/202 (84.16%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) 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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