Tan0004567 (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.AAAGCTCTTGCTTTTGGCAAAAACCCTTCTAAACTCTCGCCTCTCATCCCATCAAGGTTCATGCTGCCTCGTCGCATTTCTCGAGCCACCTCTCTCCCCGTCGCCACTCGCCGTCGTCACTCGTCGTTTCTCTCTTTTTCGCCGCCAGTTAGATCTGCTCCTGCTGCTCGCTAGTAGTCTCTCCTATCTCACAAAAGCCTTCTTCTCCAGCGGCGCCGCGGCCCCCCATCTTTCTTCCACCATGCTTTCTCGTTTACTTCCTAAACCCTCCCATTTCAGATTACTCGCCTTGATTTCCACAAAACCCCCAGCTCAAACTCCTACTTTTCATCTTCTTCCCCGATTCTTCTCCACCAATAACAATGGAAGTAATAACAATAAGAACAGTGGAAGCAGAGACCAACCGACGAGCAATGTTTGGAAACTTTCACAGGAAAACGACGGAAATTTCGATCAATTGTTCACTCAGGAAGCTGACAACCTTGATGGCATTGCGGAGCATGACTCTGCTCCGAGCAATGACGATTCATGGGTGACGTCGAAGGACGGGGATCAGGGTGCCGAGGGGGACATTTTTGCTAGCGTGGAGAAAGAAATTCGAGGAAATAAAGATGGCGATGGTGACAATGAATGGGTTACTGCGAAAAAATTCGAGCCATGGAGCTTGGTGGAGGAAGAAAAGAGTGACGTCTTTAACATTAAGGAGGATGCAGTCGAAATTGGTGAATCCAGAGATGAGATTAAAGAAGTGGAAAGTGAGAGCAGTGAGGACGCTAAGAAGCTCGAAAAGGAGGAGCAGGAACTCACTGCCATCCTTAAAGGCAAGTTTTTCTACTTCTAGAACGGGAAGAGTGTATTTCAAGTTCAACAAATTACTGTATTTAAATGGGTTTCTATATGCTGAATATGTATGTATTGTTTGAGGATTCAGTTTGCTAAAATTTTGGTGCGTTCTAGATCATTTGATTCTATGATGGTTATCCTGATCAGGGCAATTCATAAAATGTTTTTTCTCGTAGCTTTTTTGTTTATCTTGGGAACGGCGAAAGTATAGGGTTGAGACCATTGAACTTTTACATTTTCCCTCTGTGTTAGGTTTAAACGATGCCATTTGTTGGTTAGTAAAATAAGTTGAATTTTATTGGTTAATGTCGTTTCTCTTTTGTGACGTATTTTAGCTGATATGCTCCCCACCCCTAACCTTTAATCTAGTAAACACAAGGTTTTCAGATTTGTAGATGTGTATTGGAAACCTAACGAATGCCCATTTAATTAAATGATTTTGGAGGTTTTTAGAAAAAGAAAGTGGACGATTGGCTTTTGGAGATATATTTACAGGTTGGAGTTTTAAGGCCATCGCTAAGATTGTATGGAACTATGCTGCTAGCACTTTTGTTTGAGCCTTTGGAAGGAGAGAAACCTTAAAACTTTTGGAGACAAGGAGGTTCCTTTTGATTATAGGAAATTTTCTCTTGTAACTACTCTTCTATGATCCTTTGTGATTGAAGGGCCTTTATTTCATAGCTTTTGGGAAGAGGGGTTTTCTTAACCCCTTGTCTTAGGTTGTGCTCTCTGTTTTCTTCCTTTTTATATATCTTTGTTTCTTATCAAAATAGAAAAAAAATCTATTTAACTGTGGCATAAAGTGGTGGCAAATGGAGTTCGGTCCTAATTTCCCTAGGCATAAGGGTTGTAGAGAGAGTTCCTTCTTCATCCTTCCTATCGAGAGAAGGTTTGCCTCTTGTTGTGGGGCTGGGGGAGAGAGGAACAACAAAGTTTTTAGAGGGCTTGAGTGTTCTCTGAGCGATATTTGGTCTCTTATTAGATTTCACGTTTTTTTTGTGGGCTTTGGTGGCGAAGAGTTTTTTTAGTTACCTGTTAGGTCTTATGAAGTTATCATACTAGATTGGAGGCCCTTTTTGTAGTTGGTCTTCTCCTTTTATAGTTTTGTTTGGTTAAATTATCAAAATTGCCCCTGAACTAAGGGGTTAGTTTCAATTATGCCCCTCAACTTTGAAAAGTTTCATTTTAACCCTTGAACCTTGAACCTTTTTTCAAAACAACCCTTGAAGGCTTTTCCGTTAAATTTATTAGCTCGGTACCATTCTTTTAGACTGTAGTCCTTTCTTGTACTTGAGAGGACTCTTTTTGTGGGACTGTTTTTTTATACCCATTACCCGTGTACATTCTTTTATTTTTCTCGATGAAAACTCGATTTTTTTAAAAAAGAAAATAGTTTAGCTATCTTTATTTGAGGTAGGACTCTTTTTAATATGGAGAAAATTGGCTTAGAATTCCATCCAATTTCCTTTTTGTTTACTCAGGTGAATTTGTTGATGCTTGGGAATTTGGATCATTGGTGCGTTTCTATAATAGTTTCACATGTGTATCAATTATCTTATTTATGTAATATGTCAAACTGTAGGTCCTAATCGCGCATTTGGAGACCTTATTGCTGCATCAGGAATCACGGATGACATGCTAGACAGTTTGATTGCTTTGAAAGATTTGGAACAGATTGAGGGATTGCCCCCTCTAAGTGAAATAGAGGATATGCGTTATGAGAAAAATACAAGAAGATCCTCAAAAGCTGAAATTGAGCGACTGAAACAAGAAGAGGTTGCAAAAGCAAGAGTGAGACAGGTAGATGACAAAGGAAGAGCATATGGCACAGGAAGAAGGAAATGCAGCATTGCCCGTGTATGGATTCAGCCAGGGGATGGCAAGTTCGTTGTGAATGATAAGGAATTTGATGTCTATTTTCCAATGCTTGATAGTCGGGCTGCTCTTCTTCGACCTTTCTCTGAGACCAAAACTTTAGGCCTTTGGGATGTCAAATGCACTGTAAAAGGAGGTGGTACATCAGGTAAGCTTAAGTTTATACTAAATCACATTTAACACTTTGCTTGTGATCTTTATATTGAGTTATACCTGTGCTTAAATTTGTGTTTTGTATTGAAATTTATTATATCGTTGATAGGAATGCCATTAGAAAGGAATTACGATATTATAAGGATATATTAGTAAATAGTTAAGGAGTTAGTTATGGTATTTAGTTATCAATAGAGAGAGTGAGAAAGGGAGAAGGTAAGCATTGATTAATGAATTTGGTTTAGGGCTTGAGTGAGAGGCTAAAAAAGGGGAGGGTCCAAGTTCCTCAAATAACTTGGTTTATCTTGTTGTTTTGTTATCTTTCATATTTCAATATATTCTGGGTTCTATCAAAAGCAATGGCCCTACTTCCTGTCCTTCATAACCTTCAAGTGGACTCGAGTGGACAAGACTTTAGAGTCTTGAATCCTAATCCTTCAGGGAGTTTCTTGTGTTGTTCGTTCTTTCATATTCTGTGTAAGCCTTTCCCCCCTCCTAGATGCCTCTGTCTTCTCCTCTCTTTGGAACAGTAAAATCTCCAAGAAGGTCAAATTCTGATGTGGCAAGTTTTGCATGAAAGAACTAATACCTTGGACCATATTTAGAGACGGTCTTCTGGAAAGTTGGACCCACAATGGTGCATTCGTTGCAGGAGGCATGGGGGAGGATTGACCATTTGCTGTGGGGGTGCTCGTATACTCATTCCCTTTGGAACAAATGCTTGAGTTCGTTCGGCATATGTTTGGCTCATGGTAGGGACGTTTGTCCCATGATTGAGGAGGTGCTCTTGAATCCACCATTTTGAGATAAAGGAAGAGTTTTGTGTCTTGTTTTTTTTCCGTGTTGTGGGGACTTGAGTGGGGAGAAATAGCATAATTTTTAGGGAGGTAGGGTGATCATGGAAGGAGGTTTGGGAGGTTGCTAGGTTTAACACGTCTTTATGGACATTTGTTACCCAACCTTTTTATAATGATGAGTTTGGTTTAATCGTCTTAGATTGGAGTTTGTTTCTTTAGTTAGTGTTTGACTTCTTTTCTTATGGACTTATATTTTGTTTGCCCTTGTACATTCTTTCATTCTTCTTAATGTGAGCTCGATTTCTTACCAAAAGGAAAAAAAAATCTCTCATTGCCTTGGCTTTTTCCATGTACTTATCTCTCATTAATGAAAAACTCCCTTAAAATTTTCTTCGGTTGCTACTTTGTTGCATTGTATTACTTGGTCGCATGTAATAATGTTGTCATTCAAACTTGGGATATGCGTTTGAAAGTTGAAACAAATAGATAGATAGATAGATATGAGCTTTCATGGAGAAAAGATGAAAGAATACAAGGAGATACAAAAAAAACCAACCCCTCAAAAGGAGCCAAGTTAAAGAAAAGGACTCCAATCAAACAAGACCAAACCTAATGTATAATTACAAAAGTCCTTACACACTGACACTCAAAGGGACGAATGGAACCTAACAAGGAATGAAACTTCCTCCTTATACTACTCCACACCTTTAAATACTATTGTTCTTCTCTCCCCAAAACCCCAAAGCAAAGCACAAGTGCCAACTATCCACAAAAAGTGACCCTTTTTGCTGGAGGGCGGATGAAGCAACAAATGCCCAAGTTTATTATGTATACTATGAGCGTTAAAAAAATAAATGATTATTGGACTTCAATCTATGCTCAAGTATGTTGCCGTAGAATGACTTTAAATGCATAAACTTTTTTTATTTATGTTCTCCAATCGTAAAATTTCAAATGCATGTGAACTTCATGATAAAACTAGTAACTTTGAACTTGATACTGTCCCGGTCATATGACAGCCCGCCCTTCTTTCCCAGACCCGACAACCCCGGTTCAGGAAAGCAAACCCTCTTTTTTACTCGCTTGTCTAATTTCCCCGTTGTTCACAACTCTCTTGCATCACAGATGACTTAGTTACAAAACTAGGCCCTTCCTAACTATCTTTCTAACTAATTCATAATCTAAGCTCTGCCTCTTTTAACCTGTTTTCTTTGACATACATTTATCATTGGAGGCTGATCATCTTATCGATTTACTTTGGATGATGTGCCAATTAAAACTGGGTTTGTCTTTTGAATGTTGTAAGTTGATAACAGATGTGGTACTTTAATAAATTCCTTTATCGTCATGGAGCTTATAATATCGATTATTCTCAGCTCTCCAGTCTTATGGTTGGATGGAAACCTTTATGCTTTTGATTATATTAGGATGCATTAAAGTTTCAACATCACTGCTTGTATGTTTATCTTCTGGGGTATTATCCCACCTCTAAGTCATTAAAAGTCAATTCTCTTGCTTTCATCTGTTCTAAATACCAACTTCCTTCTCTCTACCTCTTCATACGTATTTTCAAGTGAGTAATGAAAGTTCTGAACTTTTTGGGTTACAGGCCAAGTTGGAGCTATTCAGTTGGGGATCAGCAGAGCCTTGCAGAATTGGGAACCAGATCTCCGTCCTCCATTGCGAGCATGTAAGACAAAATGATCTCACTTGATGAGAATGATATATATGAATCATAAGCATTTATTTGTTTTTTTCCTGATCAATTCTCTTTTTTCTTTTTTTTTGTTTGCTCCATAGCTGGTTTCTTGACACGAGATGCACGTGTTGTTGAAAGGAAGAAGCCAGGAAAGGCGAAAGCAAGAAAGAGCTTCCAATGGGTGAAGCGTTAGCTTATACATGTACTCGTATGGAACTTCAACTTTCTTCTTCTGCAATAACATGGCCAAAGGTTTACAAACAGGTTTGTTCCTGCATCGTTTTTGTAATGTAGCCACAATTTGTTTATTCCAAATACTACCCTGTTTGTTTCAGCACTGAGCTTGTAGCAAATAACTATTGAATTCAGCTCTCAGCCTTTGAATTTCCCTACTCCCTCCTCTCTCTCTCATGAACATTTTATTCTATTACTTGATAGTGTTACTTATTTCTAATTTTTTTCTCTCTCTCACACTGGAATGTAGTTGACATTTTACATCAGTACTCTCTTCCTCTAAAGGATATATATATATATTACTGTTTGTTAACTGGTTAAAAGCTCTTGCTTTTGGCAAAAACCCTTCTAAACTCTCGCCTCTCATCCCATCAAGGTTCATGCTGCCTCGTCGCATTTCTCGAGCCACCTCTCTCCCCGTCGCCACTCGCCGTCGTCACTCGTCGTTTCTCTCTTTTTCGCCGCCAGTTAGATCTGCTCCTGCTGCTCGCTAGTAGTCTCTCCTATCTCACAAAAGCCTTCTTCTCCAGCGGCGCCGCGGCCCCCCATCTTTCTTCCACCATGCTTTCTCGTTTACTTCCTAAACCCTCCCATTTCAGATTACTCGCCTTGATTTCCACAAAACCCCCAGCTCAAACTCCTACTTTTCATCTTCTTCCCCGATTCTTCTCCACCAATAACAATGGAAGTAATAACAATAAGAACAGTGGAAGCAGAGACCAACCGACGAGCAATGTTTGGAAACTTTCACAGGAAAACGACGGAAATTTCGATCAATTGTTCACTCAGGAAGCTGACAACCTTGATGGCATTGCGGAGCATGACTCTGCTCCGAGCAATGACGATTCATGGGTGACGTCGAAGGACGGGGATCAGGGTGCCGAGGGGGACATTTTTGCTAGCGTGGAGAAAGAAATTCGAGGAAATAAAGATGGCGATGGTGACAATGAATGGGTTACTGCGAAAAAATTCGAGCCATGGAGCTTGGTGGAGGAAGAAAAGAGTGACGTCTTTAACATTAAGGAGGATGCAGTCGAAATTGGTGAATCCAGAGATGAGATTAAAGAAGTGGAAAGTGAGAGCAGTGAGGACGCTAAGAAGCTCGAAAAGGAGGAGCAGGAACTCACTGCCATCCTTAAAGGTCCTAATCGCGCATTTGGAGACCTTATTGCTGCATCAGGAATCACGGATGACATGCTAGACAGTTTGATTGCTTTGAAAGATTTGGAACAGATTGAGGGATTGCCCCCTCTAAGTGAAATAGAGGATATGCGTTATGAGAAAAATACAAGAAGATCCTCAAAAGCTGAAATTGAGCGACTGAAACAAGAAGAGGTTGCAAAAGCAAGAGTGAGACAGGTAGATGACAAAGGAAGAGCATATGGCACAGGAAGAAGGAAATGCAGCATTGCCCGTGTATGGATTCAGCCAGGGGATGGCAAGTTCGTTGTGAATGATAAGGAATTTGATGTCTATTTTCCAATGCTTGATAGTCGGGCTGCTCTTCTTCGACCTTTCTCTGAGACCAAAACTTTAGGCCTTTGGGATGTCAAATGCACTGTAAAAGGAGGTGGTACATCAGGCCAAGTTGGAGCTATTCAGTTGGGGATCAGCAGAGCCTTGCAGAATTGGGAACCAGATCTCCGTCCTCCATTGCGAGCATCTGGTTTCTTGACACGAGATGCACGTGTTGTTGAAAGGAAGAAGCCAGGAAAGGCGAAAGCAAGAAAGAGCTTCCAATGGGTGAAGCGTTAGCTTATACATGTACTCGTATGGAACTTCAACTTTCTTCTTCTGCAATAACATGGCCAAAGGTTTACAAACAGGTTTGTTCCTGCATCGTTTTTGTAATGTAGCCACAATTTGTTTATTCCAAATACTACCCTGTTTGTTTCAGCACTGAGCTTGTAGCAAATAACTATTGAATTCAGCTCTCAGCCTTTGAATTTCCCTACTCCCTCCTCTCTCTCTCATGAACATTTTATTCTATTACTTGATAGTGTTACTTATTTCTAATTTTTTTCTCTCTCTCACACTGGAATGTAGTTGACATTTTACATCAGTACTCTCTTCCTCTAAAGGATATATATATATATTACTGTTTGTTAACTGGTTA ATGCTTTCTCGTTTACTTCCTAAACCCTCCCATTTCAGATTACTCGCCTTGATTTCCACAAAACCCCCAGCTCAAACTCCTACTTTTCATCTTCTTCCCCGATTCTTCTCCACCAATAACAATGGAAGTAATAACAATAAGAACAGTGGAAGCAGAGACCAACCGACGAGCAATGTTTGGAAACTTTCACAGGAAAACGACGGAAATTTCGATCAATTGTTCACTCAGGAAGCTGACAACCTTGATGGCATTGCGGAGCATGACTCTGCTCCGAGCAATGACGATTCATGGGTGACGTCGAAGGACGGGGATCAGGGTGCCGAGGGGGACATTTTTGCTAGCGTGGAGAAAGAAATTCGAGGAAATAAAGATGGCGATGGTGACAATGAATGGGTTACTGCGAAAAAATTCGAGCCATGGAGCTTGGTGGAGGAAGAAAAGAGTGACGTCTTTAACATTAAGGAGGATGCAGTCGAAATTGGTGAATCCAGAGATGAGATTAAAGAAGTGGAAAGTGAGAGCAGTGAGGACGCTAAGAAGCTCGAAAAGGAGGAGCAGGAACTCACTGCCATCCTTAAAGGTCCTAATCGCGCATTTGGAGACCTTATTGCTGCATCAGGAATCACGGATGACATGCTAGACAGTTTGATTGCTTTGAAAGATTTGGAACAGATTGAGGGATTGCCCCCTCTAAGTGAAATAGAGGATATGCGTTATGAGAAAAATACAAGAAGATCCTCAAAAGCTGAAATTGAGCGACTGAAACAAGAAGAGGTTGCAAAAGCAAGAGTGAGACAGGTAGATGACAAAGGAAGAGCATATGGCACAGGAAGAAGGAAATGCAGCATTGCCCGTGTATGGATTCAGCCAGGGGATGGCAAGTTCGTTGTGAATGATAAGGAATTTGATGTCTATTTTCCAATGCTTGATAGTCGGGCTGCTCTTCTTCGACCTTTCTCTGAGACCAAAACTTTAGGCCTTTGGGATGTCAAATGCACTGTAAAAGGAGGTGGTACATCAGGCCAAGTTGGAGCTATTCAGTTGGGGATCAGCAGAGCCTTGCAGAATTGGGAACCAGATCTCCGTCCTCCATTGCGAGCATCTGGTTTCTTGACACGAGATGCACGTGTTGTTGAAAGGAAGAAGCCAGGAAAGGCGAAAGCAAGAAAGAGCTTCCAATGGGTGAAGCGTTAG MLSRLLPKPSHFRLLALISTKPPAQTPTFHLLPRFFSTNNNGSNNNKNSGSRDQPTSNVWKLSQENDGNFDQLFTQEADNLDGIAEHDSAPSNDDSWVTSKDGDQGAEGDIFASVEKEIRGNKDGDGDNEWVTAKKFEPWSLVEEEKSDVFNIKEDAVEIGESRDEIKEVESESSEDAKKLEKEEQELTAILKGPNRAFGDLIAASGITDDMLDSLIALKDLEQIEGLPPLSEIEDMRYEKNTRRSSKAEIERLKQEEVAKARVRQVDDKGRAYGTGRRKCSIARVWIQPGDGKFVVNDKEFDVYFPMLDSRAALLRPFSETKTLGLWDVKCTVKGGGTSGQVGAIQLGISRALQNWEPDLRPPLRASGFLTRDARVVERKKPGKAKARKSFQWVKR Homology
BLAST of Tan0004567 vs. ExPASy Swiss-Prot
Match: Q8L6Z4 (30S ribosomal protein S9, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=RPS9M PE=1 SV=1) HSP 1 Score: 370.9 bits (951), Expect = 1.8e-101 Identity = 226/440 (51.36%), Postives = 280/440 (63.64%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy Swiss-Prot
Match: A9IVX6 (30S ribosomal protein S9 OS=Bartonella tribocorum (strain CIP 105476 / IBS 506) OX=382640 GN=rpsI PE=3 SV=1) HSP 1 Score: 156.8 bits (395), Expect = 5.2e-37 Identity = 79/141 (56.03%), Postives = 101/141 (71.63%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy Swiss-Prot
Match: A8I7Z9 (30S ribosomal protein S9 OS=Azorhizobium caulinodans (strain ATCC 43989 / DSM 5975 / JCM 20966 / NBRC 14845 / NCIMB 13405 / ORS 571) OX=438753 GN=rpsI PE=3 SV=1) HSP 1 Score: 156.4 bits (394), Expect = 6.8e-37 Identity = 78/149 (52.35%), Postives = 105/149 (70.47%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy Swiss-Prot
Match: A7INH2 (30S ribosomal protein S9 OS=Xanthobacter autotrophicus (strain ATCC BAA-1158 / Py2) OX=78245 GN=rpsI PE=3 SV=1) HSP 1 Score: 155.6 bits (392), Expect = 1.2e-36 Identity = 74/138 (53.62%), Postives = 100/138 (72.46%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy Swiss-Prot
Match: B2S535 (30S ribosomal protein S9 OS=Brucella abortus (strain S19) OX=430066 GN=rpsI PE=3 SV=1) HSP 1 Score: 153.3 bits (386), Expect = 5.8e-36 Identity = 77/143 (53.85%), Postives = 101/143 (70.63%), Query Frame = 0
BLAST of Tan0004567 vs. NCBI nr
Match: XP_038874636.1 (30S ribosomal protein S9, mitochondrial isoform X1 [Benincasa hispida]) HSP 1 Score: 715.3 bits (1845), Expect = 2.9e-202 Identity = 365/397 (91.94%), Postives = 384/397 (96.73%), Query Frame = 0
BLAST of Tan0004567 vs. NCBI nr
Match: XP_022972996.1 (28S ribosomal protein S9, mitochondrial [Cucurbita maxima]) HSP 1 Score: 707.6 bits (1825), Expect = 6.1e-200 Identity = 360/397 (90.68%), Postives = 381/397 (95.97%), Query Frame = 0
BLAST of Tan0004567 vs. NCBI nr
Match: KAG6579377.1 (30S ribosomal protein S9, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 706.4 bits (1822), Expect = 1.3e-199 Identity = 360/397 (90.68%), Postives = 379/397 (95.47%), Query Frame = 0
BLAST of Tan0004567 vs. NCBI nr
Match: XP_023550446.1 (28S ribosomal protein S9, mitochondrial [Cucurbita pepo subsp. pepo]) HSP 1 Score: 705.3 bits (1819), Expect = 3.0e-199 Identity = 359/397 (90.43%), Postives = 379/397 (95.47%), Query Frame = 0
BLAST of Tan0004567 vs. NCBI nr
Match: XP_022922373.1 (28S ribosomal protein S9, mitochondrial [Cucurbita moschata]) HSP 1 Score: 704.9 bits (1818), Expect = 3.9e-199 Identity = 360/397 (90.68%), Postives = 379/397 (95.47%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy TrEMBL
Match: A0A6J1I7H1 (28S ribosomal protein S9, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111471519 PE=3 SV=1) HSP 1 Score: 707.6 bits (1825), Expect = 2.9e-200 Identity = 360/397 (90.68%), Postives = 381/397 (95.97%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy TrEMBL
Match: A0A6J1E6E6 (28S ribosomal protein S9, mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111430383 PE=3 SV=1) HSP 1 Score: 704.9 bits (1818), Expect = 1.9e-199 Identity = 360/397 (90.68%), Postives = 379/397 (95.47%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy TrEMBL
Match: A0A6J1DZS9 (28S ribosomal protein S9, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111026113 PE=3 SV=1) HSP 1 Score: 699.1 bits (1803), Expect = 1.0e-197 Identity = 356/397 (89.67%), Postives = 379/397 (95.47%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy TrEMBL
Match: A0A1S3ATW2 (28S ribosomal protein S9, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103482908 PE=3 SV=1) HSP 1 Score: 672.5 bits (1734), Expect = 1.0e-189 Identity = 345/405 (85.19%), Postives = 373/405 (92.10%), Query Frame = 0
BLAST of Tan0004567 vs. ExPASy TrEMBL
Match: A0A0A0KNH1 (Ribosomal protein S9 OS=Cucumis sativus OX=3659 GN=Csa_5G141060 PE=3 SV=1) HSP 1 Score: 664.5 bits (1713), Expect = 2.8e-187 Identity = 342/405 (84.44%), Postives = 370/405 (91.36%), Query Frame = 0
BLAST of Tan0004567 vs. TAIR 10
Match: AT3G49080.1 (Ribosomal protein S5 domain 2-like superfamily protein ) HSP 1 Score: 370.9 bits (951), Expect = 1.3e-102 Identity = 226/440 (51.36%), Postives = 280/440 (63.64%), Query Frame = 0
BLAST of Tan0004567 vs. TAIR 10
Match: AT1G74970.1 (ribosomal protein S9 ) HSP 1 Score: 95.9 bits (237), Expect = 7.8e-20 Identity = 65/152 (42.76%), Postives = 86/152 (56.58%), 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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