Tan0011567 (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.CTTACATTCACGGCTCTGGTACACCATTGATTGCCCAGTGCTGTCTTCGTCTGCCTGAACCAGTGAGCATTGTCTTCCCCAAGCTCAAGCCCAAGAATGACGGTTATTAGAACCACCACAAACATGATCCTCAGAGAAATCCTTCATTCGCAACCCTATTTTACTCTATCACCACCAACAATCTTCCCTGCAACTTTCCACAATCCTAATCCCGCTTTGCGATTCGGGCGGCGCGAGTTCAGTTTTAGTCGTGTGCTATGCGCCTCTTCGGAGTCGGCTGGTGCCGGAGGCAAGGTGTCTTCCCGCCTGTCGCAGGTTCAGCAGCTCTTGCAAGAGGCGGAGGAGCGAGCTCTATCGGCTGACGGTGAACCCGCCCCTAAAATCACTCTCGGTATGTCCCAACCTCGATTGTGGATTGAAATTCAAGGGAGCTAGCCTCGTTATTTTTAGTTCTGGATTTGATTTTGTTCTACCATGTTACTGGGGAAGGGATAATATAGAAACATGTAGAAGAGAGAGCTCGATTGTTTATTGTTTTCGTGTTCTTGAACTGATTGTTGCTTTACTGAGTAGTTGTTGTAGACTGGCTGTATATTTCCCTGGAGTTGTATAGTAGCTAATTCAAGTCAGAGATGACTCCTGTGGCTTAATTCCTACTGAAGTCGATATCAGAAATGAAGATGTTTTGGATGATGCTAATGCTTGTTGGAATTTGGGATTAAGATGAATCTTAATGAAAAGGGGTTTCAAGAACGACTCGTTTTAAACTCTTGATTGACCATTTCAGGCTGAATGATAGGGAGGATAGCAGGTTATGGAATATAGATTCCTCAGAACCCTCTCTACTGCATCCATGTATAAACATATTATTGGTGAAATGCTAGGTCCTAGTAAAAGCTTCTTTACTTTCGAGTGGAGACGGAAAATTCCCAAGGAAATGCAATACTTCTTTTGGAATCTTCCCATGGAAAACTAAGTACATTGGAGACAGTACAAAAAGAAAGAATCCTAACATGTTTATCTCCTTCTTGGTGTATGTTATCATTTATGCAGACATAGTGACGAAAAGTGGGCTACCTGGTGCTGCATTTCCCTTTTTCTGTGAAAAATTGAGCTGTCTTTTGTGAAGCTCTCAACTTTAAATGGTGTATGCCCCCACAAGGTAGATGAGATTTTCCGGCTCAAAGTTTTTCATAGAAATGACTCCATGGTAAATTAGGAAATTCTGGATTGAGATAATTATTGCAGTTTGGCTTGGGATCTTTGAAGATAGGGCCACCTGTCCCAAAGACATGTCGTTGGTCTGTTTTATTTTTATTTATTTTTTTTGTCTAAATGGTCCACTCATTATAGGAACTTTTGTAATTACACTTCTTTTGACATTCAAACCAATTGAAGCAGCTTTTATAACTCCTTTAGCTAGCTTGGTAGATTGACTCTTCCTCTCCATTTTTGTAATTCTCCTTTCTCAGTATTATACCGTTTCCTTCTGAAAAAAAGTGTGGTACTAGAGGAAAGTCTTACAAATGCCAAAAGGAAAGAGGATGGAGAGTAGGATCAAAACCATGGATTATTGATTGGAAGAAATAGTACATAAGTTCGAAGCAGTGCAGGGGGATATCCAAAAAGCTTTTGATGTTGGAAAAGAATGTTCTGATTACGTTACGCTTGAATTGTTGGAAAAGTGGGAAGATACTAAAAGAACGGATGCTGGTCCTAGAAAAAATGAGTTGGCGGCATGAAAATTTCAGCCAACCAGTTTTTGATAGGAGAAAATGGTCAGTCAAATGAAATTGAGACATAGGAAGCAGGATGAAAATTAGAGTAACTACATTTGTGGGTGAAAACCCAACTGGTTGGTTTTTCAAAGCGGAAAGATGTTTTCTGCAATCATCATAGTGAAAGAGAGAAATTGGAGGCTAAGATTAGAAAATTAGATAGAGAACCTTGTTTATTATTCCAACGGCCCAATGGTTGTAGGCCAGTGCAGAGCTGTCTGAGTTCAAGACACTTCTTTTCCTATTCTGTTGAGAGGTACACAGTACGAAAGGTTTCTTGCATCGAAAGGGATTTTATGCACTTTGATTTCCTCGCAGCCCCACTCTAAGGGATATTGGTGGAGGTTGTAGAAGGGAACTCGGCAAATGGGCTGGAAGTTGGACCTTGAAAGGTGAGTTGAGGTAAGAATGTTGAGGCCAATAAAAACATGGAAAGATCATGGATTTAGCAGATTGAGTTGTAGATCTCAAGGCAATACACATAACAAACCTTTATCATTGATTACTGAAAAAGCTGAATTGCCTTTTTGGTCACACCACTTCTGTGAGTTTGGCAACTTATTTTAAAAGATGGTTGTCATCAGAAAAGTTCAAGCTTTTCCTTCCATTGCAGCAGAATGTCAGTCTGTGTTCAAAACATCTGTTTCTTTCCTAATTCTTTATATGATTTAATTTCTGTTGACTCCTTGTGTAATTTTTCATTTCCCGTTTCTCCCTCACAGATCATGTCACTGTGAATTTTGCAAGAAGTGGTGGCCCTGGAGGTCAGAATGTCAACAAAGGTCAGTTGATTTTCTTGGCTGCTGATTGGCTTCATTTTTACTTTAGAGTATCTGTTTTCTTTATAAGGTACTATTTCCGTAAATGATAGTGCAGTGAACACGAAGGTTGACATGCGCTTCAATGTTAAAGATGCATATTGGCTAAGTGACAGAATCAGGGAAAGGATTATCCAAATGGTTTGTTACTCTGAATTTCTTTTGCATATCTTCCATCTCTTTCCCTCAAATATATTATTGAAGTGCTAAGTTTTACAAATATTTCCTTTCAGTCTCTAAACCATTTAAACTCTAAAATTTTCTTAGTAGTTCAAAATGGTTTCTGTTGTTAGTCTTCTGTTAGTTTTATTGCAAAGCTGACTTGACGTCTATTTTATTAATTTTACGTTACTTTTATGCTGATTGGTAAAATCAATTTATTTTATGACATGATTGGAAAGTATTTGCAAAATTTTATAGACTAAAAAGGTGTTTATCTTATATTTTAATAAAACTGACATGGTTTCTTTTTATAGAAAAAGCAATTGAATCAATGTAGTATGACTATGAAACAAGGATGAAAGTTTATTGCATGTGTTTTTTGTGTACAATTTATAACACCTTGTATGCCACTAGGTAGGCCATAAATAAAATTGGAAGTGGTTCAAGTGTTCACAAATTTTTCGTCATGATATTGCTTCTTCTCTCTGTCTCAATCTTGACATGAATATTGCTTCCTGCTTCTGGACAGGAGAAAAATCGGATCAACAAGGATGGGGAGCTTGTAATTTCATCCACTAAAACTAGAACGCAGAAGTTAACTTCAGTCCCGTTCATTTTTCTTATTTTCCCCCATGTTCGTTCTACCACAAACGGAAACCTGTTAACTTTTCTTCTCTTCTTCATTTCTTCAGGGGTAACATTGAAGATGCTTTGGAGAAACTGCAGGTACTTTGCCTTCCTATAATATCCTTCTCTTGTTGTCTATCTAATAGAGAATATATGAAAAATAAAATAGTATGTGGCCATTTCTTAGATGGTAGATATTGCATATAATATTAAGCATTCTGCCATAATTCTTATTATAAATTTCCAATCAACGGGTTTGTTTCTATCTGAAATCAGGCAATAATTGATGCTGCTTCTTATGTCCCGCCACCTCCCTCAGAAGAGCAAAAGAAGAAAATTGCTAAGATGTGAGATCTTTCAACTGCCTTGGTTACTTGGTTTCAAAAAGTTTATGTAGCTCCCATGACTTATTATTAATTGTGAGGTTCTACTTTTCGTATTTTTAAAGGGCTGCTATTGGGGAACAGAAACGCCTTAAAAGCAAGAAGGTTCTTTCAGATAAGAAGGCATTTCGAAGGAGTCGAGACAGTTGGGATTAACCATATTCCTACTGTAGGGTTCATCAACATTACAACATCGTACTTCCCAAACTTCTCTTCTCAAAAAGCAGTTACTAACTTTTTCCTATTTCCTTTTTCAATTGACCCTGCAGCTTATTCGTTTAACTCAGGAATATAATGGATGATTTTCAAAAAGTAATACCATGATTCTCCCGTGCAATGAAGAAACCATTCAGAGCAGAACCTGTTAGAAGCAGAGGACTAGGGGTGGGAGATTTGCTTCCTTCACAGGTGATTTCCAGAAATTTGCTAGAAATATATATAACAAATCTTCTTTTCATTTGATTGATGCATTATATATTTGAAGCACCAACTTAGAATCTAAGAGATTTTATAGAACTTGTCTTCTGTAGACACGTTTCGTCAATGTATGTTAAACTAAATATCAATTTAGTTTTAGCTTCTTTTTATTCACCCTGTTGATGTCATATGCATACCAAGTTGGTTTGTTGCCATAAATCAGAAACAGTTATCAAACGTAGTTTTTGTTTATTTGAAGAAGAGAAACGAGAAACGGAAACATTATCAAATTAGCTCTTAGTTGCTCAATTTTTATTCAACAAGATGGAGAAATGCAGGGAGTTTAATGCTTTTTTGAATGTTTATAGTACTTCCGAGCTCAAAGAGATGAATCTCTATGATTGTATTAGACATAGAGTTGATGAATACCCTCTTATGTCTCCAACTGATGGCCGTAATAGAATAGATAGACGAGGTGTGGGAAACTTCATTTTCTATTTTATGTAGGGCATGTTTAGATTGCCAGTGAGAAAAGGTATTTTTCAAAAATGCAGTTTTTTAAATATATGTTTGGTTACCTTTTCTAAAAAGTATTTTTATGCACAAGTTTTAAAGTATGGGGACTATGTTGTTACATACTGTCCTAAGACTAAATTGTTACCATTAAAAGTATAAGTACTAAATCATTACAAATCAACAAACATTGAAAGACTAAATTGTTACGTCCATGAGGACCAAAAGTTATTTTTAACCAACATTTTTTGTTCTTAAAATTGTAATAAATTGTTTAACAAAAACTTTAGATGGTCACACTTTTTGTTCATTTAATCAATTGATGTTTGCATGGATGAGTATTTAAAGTCATGAGTAGTAGATTAAATATTGATTCTCTATTGATAAAAAAATTTAAGGTCAAAATATCCTTTGAGTTCTTATACTTTGAGACTCATTTCATTTAATCTTTATACATTAAATGTCCGTGTTTGTGTTTTTTTTTAACCATGGTCCTTGGGTTTTTAAATGTCTAAATGTTAGCCAAAGAGAGTATAATTCAATTGATGTATTGAATGTGCTAACAATCATAAGGTCCGTGGTTCGAATTCTCTTAGTTCCTATGTATTAAAAAAATCTCTAAATTTAGTATTTGTATTTTAAAAATTCTTAAGCTCCATTTGATAATCATTTGGTTTTTTATTTTTTAAAATTATGTTTGTTCTCTCACCATTTCGC CTTACATTCACGGCTCTGGTACACCATTGATTGCCCAGTGCTGTCTTCGTCTGCCTGAACCAGTGAGCATTGTCTTCCCCAAGCTCAAGCCCAAGAATGACGGTTATTAGAACCACCACAAACATGATCCTCAGAGAAATCCTTCATTCGCAACCCTATTTTACTCTATCACCACCAACAATCTTCCCTGCAACTTTCCACAATCCTAATCCCGCTTTGCGATTCGGGCGGCGCGAGTTCAGTTTTAGTCGTGTGCTATGCGCCTCTTCGGAGTCGGCTGGTGCCGGAGGCAAGGTGTCTTCCCGCCTGTCGCAGGTTCAGCAGCTCTTGCAAGAGGCGGAGGAGCGAGCTCTATCGGCTGACGGTGAACCCGCCCCTAAAATCACTCTCGATCATGTCACTGTGAATTTTGCAAGAAGTGGTGGCCCTGGAGGTCAGAATGTCAACAAAGTGAACACGAAGGTTGACATGCGCTTCAATGTTAAAGATGCATATTGGCTAAGTGACAGAATCAGGGAAAGGATTATCCAAATGGAGAAAAATCGGATCAACAAGGATGGGGAGCTTGTAATTTCATCCACTAAAACTAGAACGCAGAAGGGTAACATTGAAGATGCTTTGGAGAAACTGCAGGCAATAATTGATGCTGCTTCTTATGTCCCGCCACCTCCCTCAGAAGAGCAAAAGAAGAAAATTGCTAAGATGGCTGCTATTGGGGAACAGAAACGCCTTAAAAGCAAGAAGGTTCTTTCAGATAAGAAGGCATTTCGAAGGAGTCGAGACAGTTGGGATTAACCATATTCCTACTGTAGGGTTCATCAACATTACAACATCGAATATAATGGATGATTTTCAAAAAGTAATACCATGATTCTCCCGTGCAATGAAGAAACCATTCAGAGCAGAACCTGTTAGAAGCAGAGGACTAGGGGTGGGAGATTTGCTTCCTTCACAGGTGATTTCCAGAAATTTGCTAGAAATATATATAACAAATCTTCTTTTCATTTGATTGATGCATTATATATTTGAAGCACCAACTTAGAATCTAAGAGATTTTATAGAACTTGTCTTCTGTAGACACGTTTCGTCAATGTATGTTAAACTAAATATCAATTTAGTTTTAGCTTCTTTTTATTCACCCTGTTGATGTCATATGCATACCAAGTTGGTTTGTTGCCATAAATCAGAAACAGTTATCAAACGTAGTTTTTGTTTATTTGAAGAAGAGAAACGAGAAACGGAAACATTATCAAATTAGCTCTTAGTTGCTCAATTTTTATTCAACAAGATGGAGAAATGCAGGGAGTTTAATGCTTTTTTGAATGTTTATAGTACTTCCGAGCTCAAAGAGATGAATCTCTATGATTGTATTAGACATAGAGTTGATGAATACCCTCTTATGTCTCCAACTGATGGCCGTAATAGAATAGATAGACGAGGTGTGGGAAACTTCATTTTCTATTTTATGTAGGGCATGTTTAGATTGCCAGTGAGAAAAGGTATTTTTCAAAAATGCAGTTTTTTAAATATATGTTTGGTTACCTTTTCTAAAAAGTATTTTTATGCACAAGTTTTAAAGTATGGGGACTATGTTGTTACATACTGTCCTAAGACTAAATTGTTACCATTAAAAGTATAAGTACTAAATCATTACAAATCAACAAACATTGAAAGACTAAATTGTTACGTCCATGAGGACCAAAAGTTATTTTTAACCAACATTTTTTGTTCTTAAAATTGTAATAAATTGTTTAACAAAAACTTTAGATGGTCACACTTTTTGTTCATTTAATCAATTGATGTTTGCATGGATGAGTATTTAAAGTCATGAGTAGTAGATTAAATATTGATTCTCTATTGATAAAAAAATTTAAGGTCAAAATATCCTTTGAGTTCTTATACTTTGAGACTCATTTCATTTAATCTTTATACATTAAATGTCCGTGTTTGTGTTTTTTTTTAACCATGGTCCTTGGGTTTTTAAATGTCTAAATGTTAGCCAAAGAGAGTATAATTCAATTGATGTATTGAATGTGCTAACAATCATAAGGTCCGTGGTTCGAATTCTCTTAGTTCCTATGTATTAAAAAAATCTCTAAATTTAGTATTTGTATTTTAAAAATTCTTAAGCTCCATTTGATAATCATTTGGTTTTTTATTTTTTAAAATTATGTTTGTTCTCTCACCATTTCGC ATGACGGTTATTAGAACCACCACAAACATGATCCTCAGAGAAATCCTTCATTCGCAACCCTATTTTACTCTATCACCACCAACAATCTTCCCTGCAACTTTCCACAATCCTAATCCCGCTTTGCGATTCGGGCGGCGCGAGTTCAGTTTTAGTCGTGTGCTATGCGCCTCTTCGGAGTCGGCTGGTGCCGGAGGCAAGGTGTCTTCCCGCCTGTCGCAGGTTCAGCAGCTCTTGCAAGAGGCGGAGGAGCGAGCTCTATCGGCTGACGGTGAACCCGCCCCTAAAATCACTCTCGATCATGTCACTGTGAATTTTGCAAGAAGTGGTGGCCCTGGAGGTCAGAATGTCAACAAAGTGAACACGAAGGTTGACATGCGCTTCAATGTTAAAGATGCATATTGGCTAAGTGACAGAATCAGGGAAAGGATTATCCAAATGGAGAAAAATCGGATCAACAAGGATGGGGAGCTTGTAATTTCATCCACTAAAACTAGAACGCAGAAGGGTAACATTGAAGATGCTTTGGAGAAACTGCAGGCAATAATTGATGCTGCTTCTTATGTCCCGCCACCTCCCTCAGAAGAGCAAAAGAAGAAAATTGCTAAGATGGCTGCTATTGGGGAACAGAAACGCCTTAAAAGCAAGAAGGTTCTTTCAGATAAGAAGGCATTTCGAAGGAGTCGAGACAGTTGGGATTAA MTVIRTTTNMILREILHSQPYFTLSPPTIFPATFHNPNPALRFGRREFSFSRVLCASSESAGAGGKVSSRLSQVQQLLQEAEERALSADGEPAPKITLDHVTVNFARSGGPGGQNVNKVNTKVDMRFNVKDAYWLSDRIRERIIQMEKNRINKDGELVISSTKTRTQKGNIEDALEKLQAIIDAASYVPPPPSEEQKKKIAKMAAIGEQKRLKSKKVLSDKKAFRRSRDSWD Homology
BLAST of Tan0011567 vs. ExPASy Swiss-Prot
Match: B5XAM2 (Peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Salmo salar OX=8030 GN=mrpl58 PE=2 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 6.8e-21 Identity = 57/131 (43.51%), Postives = 87/131 (66.41%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy Swiss-Prot
Match: Q8R035 (Peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Mus musculus OX=10090 GN=Mrpl58 PE=1 SV=1) HSP 1 Score: 101.7 bits (252), Expect = 1.2e-20 Identity = 57/135 (42.22%), Postives = 90/135 (66.67%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy Swiss-Prot
Match: Q14197 (Peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Homo sapiens OX=9606 GN=MRPL58 PE=1 SV=1) HSP 1 Score: 99.4 bits (246), Expect = 5.8e-20 Identity = 52/131 (39.69%), Postives = 85/131 (64.89%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy Swiss-Prot
Match: D2HD32 (Peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Ailuropoda melanoleuca OX=9646 GN=MRPL58 PE=3 SV=1) HSP 1 Score: 99.0 bits (245), Expect = 7.6e-20 Identity = 52/131 (39.69%), Postives = 85/131 (64.89%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy Swiss-Prot
Match: Q3T116 (Peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Bos taurus OX=9913 GN=MRPL58 PE=2 SV=1) HSP 1 Score: 94.7 bits (234), Expect = 1.4e-18 Identity = 53/135 (39.26%), Postives = 88/135 (65.19%), Query Frame = 0
BLAST of Tan0011567 vs. NCBI nr
Match: XP_038876872.1 (peptidyl-tRNA hydrolase ICT1, mitochondrial [Benincasa hispida] >XP_038876873.1 peptidyl-tRNA hydrolase ICT1, mitochondrial [Benincasa hispida]) HSP 1 Score: 408.3 bits (1048), Expect = 4.4e-110 Identity = 215/232 (92.67%), Postives = 220/232 (94.83%), Query Frame = 0
BLAST of Tan0011567 vs. NCBI nr
Match: XP_022965162.1 (peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita maxima] >XP_022965163.1 peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita maxima]) HSP 1 Score: 404.1 bits (1037), Expect = 8.4e-109 Identity = 212/232 (91.38%), Postives = 220/232 (94.83%), Query Frame = 0
BLAST of Tan0011567 vs. NCBI nr
Match: XP_022923175.1 (peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita moschata] >XP_022923177.1 peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita moschata] >KAG7015643.1 Peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 403.3 bits (1035), Expect = 1.4e-108 Identity = 212/232 (91.38%), Postives = 220/232 (94.83%), Query Frame = 0
BLAST of Tan0011567 vs. NCBI nr
Match: XP_023551980.1 (peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita pepo subsp. pepo] >XP_023551981.1 peptidyl-tRNA hydrolase ICT1, mitochondrial [Cucurbita pepo subsp. pepo]) HSP 1 Score: 398.3 bits (1022), Expect = 4.6e-107 Identity = 210/232 (90.52%), Postives = 218/232 (93.97%), Query Frame = 0
BLAST of Tan0011567 vs. NCBI nr
Match: XP_022152820.1 (peptidyl-tRNA hydrolase ICT1, mitochondrial [Momordica charantia]) HSP 1 Score: 386.7 bits (992), Expect = 1.4e-103 Identity = 208/233 (89.27%), Postives = 215/233 (92.27%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy TrEMBL
Match: A0A6J1HN26 (peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111465103 PE=4 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 4.1e-109 Identity = 212/232 (91.38%), Postives = 220/232 (94.83%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy TrEMBL
Match: A0A6J1E5G6 (peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111430949 PE=4 SV=1) HSP 1 Score: 403.3 bits (1035), Expect = 6.9e-109 Identity = 212/232 (91.38%), Postives = 220/232 (94.83%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy TrEMBL
Match: A0A6J1DF18 (peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111020443 PE=4 SV=1) HSP 1 Score: 386.7 bits (992), Expect = 6.7e-104 Identity = 208/233 (89.27%), Postives = 215/233 (92.27%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy TrEMBL
Match: A0A1S4DXZ3 (peptidyl-tRNA hydrolase ICT1, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103490933 PE=4 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 8.7e-104 Identity = 201/232 (86.64%), Postives = 214/232 (92.24%), Query Frame = 0
BLAST of Tan0011567 vs. ExPASy TrEMBL
Match: A0A5D3D7B4 (Peptidyl-tRNA hydrolase ICT1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold443G001310 PE=4 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 8.7e-104 Identity = 201/232 (86.64%), Postives = 214/232 (92.24%), Query Frame = 0
BLAST of Tan0011567 vs. TAIR 10
Match: AT1G62850.2 (Class I peptide chain release factor ) HSP 1 Score: 286.6 bits (732), Expect = 1.8e-77 Identity = 164/237 (69.20%), Postives = 184/237 (77.64%), Query Frame = 0
BLAST of Tan0011567 vs. TAIR 10
Match: AT1G62850.3 (Class I peptide chain release factor ) HSP 1 Score: 286.6 bits (732), Expect = 1.8e-77 Identity = 164/237 (69.20%), Postives = 184/237 (77.64%), 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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