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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.TTTGATCACAATCCGTGTGTATACGCAATCTGAAGTTCTTGACCCTCTGAATTAGCGCAAAAGCCCTAGTGCAAACCCGAAACCCCCAGTAAAGTTTGCCAAAATCACCACCTAAAGGCTAAAGCAATGTCGCTCTCTATACTCCGATCTCGTCTTTGCCGGCGACTCTGCAAATCCACCGCCATTAAAAACTTCGACAACAAAAACACCATTCTCTCCCGAAGATTCTTCTGCACAAATCCTCCTAAAGAACCGCCATTGTCGTCTGCTTCTTCTCAACCTAACGAAGCTCCTCCATCTTCTCCGCCTCGAAAGTCAAACGCTTTTTTCAGCGCCATCAAATTCGGCCTAGCCACCGCCGTTACTGGTGTCGCTGCTTCCGCCGGATATGCCACTTACGGTTCGCTCTCTTTCCTTCACTCGTTTTGGAGAATTCTAGTTTGTGTGTTTTTTCCCTTCAAATTATTATAAAAATCAATTCTTGTGTTAACATTGTTGATATTTTTTATTTTTGGGTTTTCGTTCACTTTTTAATGGTTGAATTTTATGATAAAAGTTGTTACTTAATGGGGGGAAGTGGCGCAGCTCAGTTCGAGCTTACTCCGGGAACCTTTCGGGCGCGTTGTCGATTCCTCACTTCCTCCTCTCCCTTACATATGTTGTGAGATTGCTAATGTCATATTATGTTAATTACCATACCGACGTCGAATGATGGTGATGTTAAATGTAAAGTGGATAAGATTTGATAGCTTAGTTTCAGGGTTAAGCATTGTTTGATTGTGATGGATCACAATGTGTGGTGTCTGCTGAATTGGTGGAGTCTTGATTTTGTATGATAGACTATCCACTGTCTATGTATGAACAATCTTTTGCTGCAAGGAATTGAAGTTCAGCAGAGCCGATTGAATGTCAATGTATAAGCAACCTTTTGTTGCAAAGAAATGAAGTTCAGCAGGGATATAATGCAGAATAAGTTGATTCAAATATGAGCTCTTATGGCCTATAATATTTGATCTATTTCCATGACATTTGAAAATGCCACCTAGATTGCAGTTTAGAGTAATGGGATCGTGAAACATTTAAGTTGTAACTAGATAACTACATTAACATTTCTTTGAGAACTCTAATTTGTTTTTTGTTAATATTATATGGCTCTATGTAGTGATGAGTTTATCCTGACAAGGCTCCCAAACCTATAGTGATTGATTTTTATACTTGAGCTCGTGTTGGATATAATTGCTGTTAAAGTTATTCTTTTAGAAGTATGTTTTTATTGGTTGAATCTTTATGTATATATTTCTTTTTTTTGTGTAGTAGTCAAGCGTCCTGTAGAATATACAGAATTAAAGCCTTACAGGTAGTCTTTGTTTGCAGCATACACAGTAGAAGAAGTAGATGAGAAAACAAAAGCATTCCGAGATTCTGCAAATCAGCCCATTGAAGATGATGAATCAATTATCAATGTGAGTACCAACATTCTGTTACTTTTCAGTTCTTTATAATTCCATGGTAATATTTCACTTCCTTCCAACATGTAAATGTCTATTTTTATGCACGGGAAGATAAGATGTTAAGAGGCAATGGTAGGGGAATTGGGGTTCAGGACATTGGTTTTTGTGTTTTGACCTTTATAATCTCATAGTTAACTATGCTTGTTACATGATCATTTATGATGTGAAACTTTGGCTATTTCTAATGGAAATACAATGTGTTGTTGTGTAGAAACTTCAATCTTCGGTGCACTATGCTGCTGTAGTTGGTTGGTTTCTTTCTCCCTTTTCTTCATTTTCTAATTGCACTGTCATTTATTTAAGGAAAAATATTTAATTTATTTTTGGATGTTACCTATTGTCAATTTGGTATGATATTTAATCTTTGATAAATCTTTTTCAAAATGAATTATCCTCTAAAGCTACTAAATTATAGGTTACTTGAATCCTTCACCTACCTTGCCATGCTTGTGCTGCAACCATGTCATAGCCATATCACACATGGCATGAAGGAGGAACATGAATCCTTGTTCTGCATTATACCTGTGCTAACTAATGCCACTTTTATCACTTTTATGTGGTCAATAACAATCAAATATTTCCTCTCTTGGTCTCATGGTGAGATTGGTGAAGTCAAGATGTGAAAATGGCAACTCGGTGAAAATAGTGTTTGTATCAATTGATCTACTTGTTGAAATGTTCAACAACAATGCCACCAGTGAATAGAGTGGATATGATTCTGACTAGATAAGATTTGTCTTTGATATACGTACCTCATAGAAATGATCAAGAGCATAAGAATTAGGCAGGAATGTTACATGGTATTTTTGGGGAAAAACCCAAACAATAATAATTATCGTATGAAGTGCTTGCACAAAAACAAAACTAAATCTCCCTCCATGCTAAACGCTTAAATCTCCCTTCTGTTTTTTAATACTTGTAAATTGCCTCTTCCGGCTGTTTCTGAATACTTGCAACACTTCTTCTTTTGACATGGGACCACTCTATGTTACTCGGGTACGAGTGTCGGACACGGGTACGGATCCGAGTGTCAGACTCAAAAAAATTGAAATGTGAAGACACGGGTACGGGGACCTAGGACACGGGTACGGGGATATGGAAAATAAAAATACAGACAATAGAAGCGAAGAAACAATTAAAAAAATTAGCCATTAATAAATGCTTAAATTAAGGTAAAAATGTAATTAAGTAATTAAGGGGGAATTTTTCCTATTTTTTAATGGAAGCCAACTGTCAAAAAAAAAGAAAAGAGAATAGTGGCTCAGCTATACTGAAAGAGGAAAAAAAAAAAAATGAATAAAAGCAAGTTGTCACGTGTTTTAAAAGTTAACACTGCCTGTATCAGAGACCGCCGGACCGGGTGCCCTCAGTGCCGCCGATGAGTACCACCGGTGGGTTGGTCGACAACGAAATTTACACCATCTTGTTCGGAATTATGATTCTTACAAAAGCCCCAATATTTTAACAAGAAAATATGTAATATTCAACCCCAAATAACAGTTTTGTGGTTTAAAATTCGAAAAAAGGTAAATTAAATTGCTTCTCCCGCTTCGCGATCTCTCTTCCTTTTAGTCCCCCGTGTCCGACTGATCGTGCAAGGATCCGGTGTGGATTCCATACCGGAAACCTTGTCGCGTCGGGTCGACCCGGGTACGAGGGCTAGTTAGCCGTATCAAAGTAACATAGGGACCACTCTTTCTTTATTATTTCTCAATCTTTTTTACCCCACTTGCACCAATTCCTTATTATTTCCCTCTTACGTAAACAATAAAAATATTACCACTTACCTAGGCGTTAATTTATTAATTTTCATGTACTATCCCCAAACATTCCTAAAACTACGCTCAAATACAAGTGTTGCTGGCATTCTAAAATGGAGAGTAAATTATATTGGGACAGGGGAGCCACCTATTAGATTTCCCGGTGCATTATACTGATTTGAAATCGGTGTATGGTAGGGTTGGTTGCAGACTTGCGTTCATCTTTCTTGTGCCATTATGTGGTTATGCTCTTTAGACTATAAAGTAATGCAGATTCAGGTTATAAATGATTGGTGGGGGACCATGTCATTTTCTAGATGAAATAATATTATCTTATTTATTGATATCCTTCCTCCCCTATCAACACTTCAACCTACAAAAAGAAGGATGAAACTGGAAAGATGAAGATCATTCCCACCACAACCTTGGCTTGAACAAAAGAACAAAATATAACTATCATACCATTTTTATGCTTTAAATATCATCAATGTTTTTTTTACTGTGAAGGCCATTAGAGTTTCAGATTCGAAAATTTTAATGGACAAACTTAACAATTTAAGAATAAAATTTGAGTGTTGATGGTCATTAGAAGAAACGTTAATTACTTTTGTTGGAGCCTTAGGGAGGGAAGAGGTAGGAGGAGAAAAGAAGAAAAAGAAGTTGACAAAGTAAAAAATCGATCATTGTACAAATAATAAAAATTGTTTTAATTTAATTTGATGAACCAAACGCCTGATTTAAGGTATGGGTATGCAGGTATCACTCATTATAAACCCACGGGTTTAATATCTAACCCCATACCTGGTTCTAGAGTTGAACCAAACGTCCCTAAAGGGGATAATTATTAAGCTTTAGTTTTGCAAATTCTTCGATCAATTTTTTAACATAATAAGCTTCAATCTTGTCTGGTATTCCAGGGCCTGCTAAAGCAATTGAACTCTACCTAGAATGGAGGAGATCTATTGAGGACCAACTTCAAGTAAGCGACTTGTAGTAATCCAAATTTAATCCTCTCATTCATAATTTAGATCATGTTTCCGCTTATTTGTTGGATTTCCTCCCATTGCAGGCTTTCACTGAACCACTGTCAGATAAGTTGCTTCCTGATTTGCCACCTGGAATGCAAAATGTACTTACACTTGTCGTGGATCTGAATGAGACCTTAGTGTATTCTGATTGGAAGGTAAGACCTAGAATTGATGCACATGGATGAAATTCAGTTGAGTTCTATTGGCTAGTTTTCCATCCTCTCCACCCTAGTAAAAACAACATGTTTGAACCTGCTATTTCTCCTTCTTCAGTCCATTGGGCCTAGAAAAGTAAAATCTAAAGATATTGCACCCAAAATGAAAAATATGAAGCGGTGGAAAAGAATACATGTATATAGTTCAGGCATATTAACTCATTGGTAAAGTGACCTAGAGAATGCTATGGGTATCATCACTCATTACTTCGTTCACTATAATCGATCAATGTTATCTTCTATGATATCACTATTCTCTTGACTGAATGGCTATTACTTCTCTCCAAAAGAAAATTATGGCTGAAGTGTATTGAGAGGATTAAAGAATAAACTGATTTCTGAAATGTGGAAGTTCTCTCTTCAGCTATTTAGTGGTCTACATGGAGGAAAATCAATCAATAGCTTTATGAGGGTTTAAATAGCTTTATGAGGGTTTAACCATTTCACATTAAAAATTCCAGGGATTTGATTTTTTATAGCTGGTGCAACGTGCATTTTTATCATCACTTGTCTTTGTAAATAAGATTTACAATTCTTTATCTTGTGGCCATTTCAATTTTAATCTTCTTCCCTTGGTTGTTGGATATTTTTTAGTGCTTAAAGAACTGCTTCTTGTATCTATTCACTGACCCTTTTCTTATAGCAAAAGAGATTATAACAGTTATGCCAGATTGTTATTTCCTATCGATTTATAGTGTGAACCGAATATGTTATTTTCCACTAAATTTATAGTCTTCAGAATTGAGATTACTAAGCTGGGTTTATGTTTTCTACTGAATAATATTATAAACAAACTTTTTATTTTTATTTTTTATATTAGATAGAAATATCTCATTGTTCCGTCCTCACTCCTCACTCCTCAGCTTGAGGCCAAATGAAAGTTAATGGGAATTGTAAAATCGCTTTATTTTAATGTCATTTTTTTCTCTATACTCACTTTGCAGCGTGAAAGAGGCTGGAGAACTTTTAAGAGGCCTGGTGTTGATGCCTTTCTAGAGCATCTAGCACAATTTTATGAAATTGTTGTGTATTCTGACAATTTGTCAATGGTGAGATAGCGTTCTTATTTTAACTCTGTTGTTTTGCTGCTTATTTCCCTGTGTTATTTTGAATATTGTTCATAAAATTGGCTTTATATTTTGTCATGTGCAGTATGTCGATCCTGTTCTTGACAGATTAGACGAAAAGCACTGCATAGCTCATCGGTTGTCTAGGGCAGCAACAAGATATGATGATGGGAAACATTACAGGGTAGGGTTCTATTTATAAATTAACTTTTTCGTTTTTAAATCACCGTTCCTTTGAATAACCAGTTGCTGATATCCTGATGGTAAAAATATTAAGGGACAAGTTGTTATTGTCTTGTTTCTGGTTTAAATCAAAGGTAGAAGTGGACCTTCAAGTCATTTGAGGAAAAAAACTACCAATTTCTGCTCTCTTTTATACTAGATTTAAGGATTTTTCAATTTTAACCCGTTAGTATTCTTTAAAAAAAAAAAATGGTTGAAAATGAATGTATGTTGTGGTAAATACTTGTATACCTTGTACTTGCATGACCTCGATGTCATCTTAATTGGGGGGGTGGGGGAGGTTCTTCTTTTAATGTAAAGCATGCTTGTACGCCTCTCCTTTTGTTTCAGTTTACTACCTTGTTCTGAAATCTTTATGTGTTCCTTCTCACTTGTTTAATGATCCAAAAGTGTAATTTTACCTTCTTCATTCTCTTAATGTCAGTTTCTTACCTTCATCCCTTTTTTTTCATGTGAAAACAAGAGCATTTCTTTCCTTCTCCCTTTTCTTTATGTTACTGTTGAGAAGGTTTTAGTCCCGTAGTGGATCATTTCATCACATGCTTCGGCTTTTCGTTTTTTTGTCCTTTATCACAAATCTATATATTGTAGCAATAATTGCTAGGGGTCTGTTGTTAACTGGAGTTGCTACTTTGGAACTCTTCACAATCTATACCTCAGATTGTTCAAGCATCCACTTCTTTTTTGAGTAATATTTTTATAAGTAATTCCATGTTCCTCCCCTTTGCTAGGCATTAAGACTGCCAAAGGAAAAAAAAGGAAATAAAATTAAAAACAAAGGTTAATTCAAGTAAGATTAGGGCTTTAAAGCATCAACTTATCACAATGGGATAATATTTGGAATATGGGTGGCATTTTTTATTTCTTGCATTTCAAGTTTTGTCTCCTCTATCCAAAAAATACCCAAGATGTGACTTGCCCTCATGTTCAAGGGGAATGTTTTACTACCACATTTCAAAAGTTGTCTTCCCTCTGGGCCTGATTTACTTTCTCGCTGTCTGTACTTCCTGCTGCGTGTGTAAGTGGTGCTACACTCTTTTTCTACCTCTCCTTTTCTGCTGCTGTCGAAGACTCAAAGAAGCAAACAATTAAGAAGTTGATGAAGACTTATCTTTTCAGTCTTTTCTTGTTTTTTCCCCCTTGAATTTTGTGTCTTGAGGTTTCATCGATTGCTCTTCTCTCTCGCCATCTTTTAGTTGATCTTTTCCAACTTCTGTTTCATTCTTACCACCCCTTTGATTGATTCCTTGACTTGAATCTTTAAGATTCTATTGTAAGAGATTTGAACCAACTAAATTTATCAAATCCCAGATTTCTGGTGCGTCATGGGTCATTCTTGCAATGTTTTATGTGCTTTATAGACGCCAAATAGTTTTTCTCTTTCCAAACGGAAGTATGAAACTTTTTAAGATTTTGAACTTGGTGACTGGTTATTTAGGAAAGCACGTTGGAACTCCTTTTGGCTACATTTTATTGAAGGGTCTTTCAATTAACTAGCTGTTGTGTTCTTTAAAAATCTAATTTCAGTGAGGTTCTATCTTAACCATGCAATTTTTGTCTGTACTGACAACTCTTCATAATTCAGGACAAGCTCATTTGTGGTGGAGCTTTTAGAATTATAGCTCTGTGCTTCTTTACAAGTGGAGAATTGTCATATGTTTACTAAAACGTTGAATGTCATCTTAAATGGCATTCCTCGGGGAGGCCTTGTTGAAAAAATATTTTTTCCCTTTCACAAGGCCACTGTATATGAATCAGCTCTGAAATTCATCTTGTCCAATTTAAATTGGCTATCACGATTATAAGATTTCATGGAACTTAATTGTGGTTATAAAGGGTGTTGGCAGATTATAATTTTCTGTTTCTTGTGCAGGACCTTACCAAACTGAACCGTGATCCTGCAAAGGTTATTTATTTGAGTGGCCATGCCCTAGAGAGCTGTCTTCAGGCAGACAATTGTGTCCAAATCAAGCCTTGGACAAGTGATGATTTGGATGATACTACTCTGTTGGATCTTCTTCCATTTCTTGAATGTGAGTATGCTCAATGCAAAGTCAAACATTGTTCAAGTGTACTTTGCTTAATAGCCAATCCCTCAGCTTGTTAATCATTGGTTTTGTTTGGTTGCAGTTGTAGCCCAGAGTAGACCAAATGATATTCGCCCGGTGCTAGCATCCTATAAAGGGCGAGATATTCCAAAGGAATTTATCGAACGCTCTAAAGAGCACAAAAGGTCAGATATGATGAACCTTGTAATTGTTTGCAACTCTAGCTGTGCTGATATACATTTCTTCTTTAGACTTTCACATTTAGAAACTCCATTGCTTTGATTAATCTGTGATAACATGACATGACCTGGTACATATAGGATTATAGGGGTGATCGTTTAAGGCTCAGAAATTGAACTTATTTCCTTGAGTCCTAGTATCCCTAATCCCTATGTACCCATACTGATCTCACTGATCTGTCATTCTATCTCTTAGCCAAATGACCCCATGTTTTGAGATCTAGGGTTTACATTTAGAAATTCTAGATTTGAAAGTTGAATCATCCATCAGTTGACAAGATGAAGAAAGTTATAATTATTATACTTGAGACTTGAGAGATATGATGACATTTTAGCCAATCAACAATTAAAAAATAAAATTTAATAAAGTAATTGTTATTTACTTCCTATAATAATACTTGTGCCTAATGGAAAAGTAATACGGAGTATACTGAGATGGTGACTAATTGAACCAAAATCTTGCTTATAGTATCCTCAGAGTCAAATTAGATATATGTGGATTCCCGAGCTTCTCCACTAGTACTCCACTATGGTAAACCTATAAACAGCAGGCTTGGATGGGCTTAACCTTGTTCCCCTCGAAAAATGTATGGCCCTATGGGCTGCGCTTAGGTTTTTTCATTCAGAGTTGGAGTTGCCTTAGATCTTTTTTTCGACATTAATAGACACCCACTTATATTAATTACGCATCTTCAGAGTTTGTCCTAATCCCTGCTTGCTTCCCTTTACCATTGAGATACATGGATGGCCAGGCTTAGGGTTTCACCCAAAGTTATTAGTTGCCCTCAACGCTTGCTTTTTGACATTTATAGACAATTAGGCTCCGTTTTTTCCAACTTATTTTGTCTGAACTTATATTATCTAAACTTTTCTGAACTTACTTGTACTTATTATCTTATATGAGTATGAACTTATTTAATTTGAAAAAATACTATAAACTTATTTGTGTGTGAAAATGTTTGAAAAAACACTAAACTTATCCGAACTTTTTTTTATCATATCTGAACTAATTTTGTCTGAAATAAGTCAAAATAAGTCAAACAGAGCAACAAACCTTACACACCAACTTTTATTAATTGTGGATCTTTGGAGTTTTGCCACATTTTGCTTTTTAAAGCCTTTTTTGTCCAATTTATTCCCTGTTGAGAGTATCCTGCTCCCTACCTTCTGTTCTGGCACCTCTTCTTTCTTGATTTTTCCTTCGCCTTGTTGTATAGAAGTATCTTGTTTTCTCCTAGAACTTGATAGTACCTTGGTGAGAGGCTTATTTACTTGGATCTTTCATGTTGCAGGCGAATGCAAGAACAGAAACAACAAGGACGTTTCTGGCGACGTTGATTTGATCACAATCCGTGTGTATACGCAATCTGAAGTTCTTGACCCTCTGAATTAGCGCAAAAGCCCTAGTGCAAACCCGAAACCCCCAGTAAAGTTTGCCAAAATCACCACCTAAAGGCTAAAGCAATGTCGCTCTCTATACTCCGATCTCGTCTTTGCCGGCGACTCTGCAAATCCACCGCCATTAAAAACTTCGACAACAAAAACACCATTCTCTCCCGAAGATTCTTCTGCACAAATCCTCCTAAAGAACCGCCATTGTCGTCTGCTTCTTCTCAACCTAACGAAGCTCCTCCATCTTCTCCGCCTCGAAAGTCAAACGCTTTTTTCAGCGCCATCAAATTCGGCCTAGCCACCGCCGTTACTGGTGTCGCTGCTTCCGCCGGATATGCCACTTACGCATACACAGTAGAAGAAGTAGATGAGAAAACAAAAGCATTCCGAGATTCTGCAAATCAGCCCATTGAAGATGATGAATCAATTATCAATAAACTTCAATCTTCGGTGCACTATGCTGCTGTAGTTGGGCCTGCTAAAGCAATTGAACTCTACCTAGAATGGAGGAGATCTATTGAGGACCAACTTCAAGCTTTCACTGAACCACTGTCAGATAAGTTGCTTCCTGATTTGCCACCTGGAATGCAAAATGTACTTACACTTGTCGTGGATCTGAATGAGACCTTAGTGTATTCTGATTGGAAGCGTGAAAGAGGCTGGAGAACTTTTAAGAGGCCTGGTGTTGATGCCTTTCTAGAGCATCTAGCACAATTTTATGAAATTGTTGTGTATTCTGACAATTTGTCAATGTATGTCGATCCTGTTCTTGACAGATTAGACGAAAAGCACTGCATAGCTCATCGGTTGTCTAGGGCAGCAACAAGATATGATGATGGGAAACATTACAGGGACCTTACCAAACTGAACCGTGATCCTGCAAAGGTTATTTATTTGAGTGGCCATGCCCTAGAGAGCTGTCTTCAGGCAGACAATTGTGTCCAAATCAAGCCTTGGACAAGTGATGATTTGGATGATACTACTCTGTTGGATCTTCTTCCATTTCTTGAATTTGTAGCCCAGAGTAGACCAAATGATATTCGCCCGGTGCTAGCATCCTATAAAGGGCGAGATATTCCAAAGGAATTTATCGAACGCTCTAAAGAGCACAAAAGGCGAATGCAAGAACAGAAACAACAAGGACGTTTCTGGCGACGTTGA ATGTCGCTCTCTATACTCCGATCTCGTCTTTGCCGGCGACTCTGCAAATCCACCGCCATTAAAAACTTCGACAACAAAAACACCATTCTCTCCCGAAGATTCTTCTGCACAAATCCTCCTAAAGAACCGCCATTGTCGTCTGCTTCTTCTCAACCTAACGAAGCTCCTCCATCTTCTCCGCCTCGAAAGTCAAACGCTTTTTTCAGCGCCATCAAATTCGGCCTAGCCACCGCCGTTACTGGTGTCGCTGCTTCCGCCGGATATGCCACTTACGCATACACAGTAGAAGAAGTAGATGAGAAAACAAAAGCATTCCGAGATTCTGCAAATCAGCCCATTGAAGATGATGAATCAATTATCAATAAACTTCAATCTTCGGTGCACTATGCTGCTGTAGTTGGGCCTGCTAAAGCAATTGAACTCTACCTAGAATGGAGGAGATCTATTGAGGACCAACTTCAAGCTTTCACTGAACCACTGTCAGATAAGTTGCTTCCTGATTTGCCACCTGGAATGCAAAATGTACTTACACTTGTCGTGGATCTGAATGAGACCTTAGTGTATTCTGATTGGAAGCGTGAAAGAGGCTGGAGAACTTTTAAGAGGCCTGGTGTTGATGCCTTTCTAGAGCATCTAGCACAATTTTATGAAATTGTTGTGTATTCTGACAATTTGTCAATGTATGTCGATCCTGTTCTTGACAGATTAGACGAAAAGCACTGCATAGCTCATCGGTTGTCTAGGGCAGCAACAAGATATGATGATGGGAAACATTACAGGGACCTTACCAAACTGAACCGTGATCCTGCAAAGGTTATTTATTTGAGTGGCCATGCCCTAGAGAGCTGTCTTCAGGCAGACAATTGTGTCCAAATCAAGCCTTGGACAAGTGATGATTTGGATGATACTACTCTGTTGGATCTTCTTCCATTTCTTGAATTTGTAGCCCAGAGTAGACCAAATGATATTCGCCCGGTGCTAGCATCCTATAAAGGGCGAGATATTCCAAAGGAATTTATCGAACGCTCTAAAGAGCACAAAAGGCGAATGCAAGAACAGAAACAACAAGGACGTTTCTGGCGACGTTGA MSLSILRSRLCRRLCKSTAIKNFDNKNTILSRRFFCTNPPKEPPLSSASSQPNEAPPSSPPRKSNAFFSAIKFGLATAVTGVAASAGYATYAYTVEEVDEKTKAFRDSANQPIEDDESIINKLQSSVHYAAVVGPAKAIELYLEWRRSIEDQLQAFTEPLSDKLLPDLPPGMQNVLTLVVDLNETLVYSDWKRERGWRTFKRPGVDAFLEHLAQFYEIVVYSDNLSMYVDPVLDRLDEKHCIAHRLSRAATRYDDGKHYRDLTKLNRDPAKVIYLSGHALESCLQADNCVQIKPWTSDDLDDTTLLDLLPFLEFVAQSRPNDIRPVLASYKGRDIPKEFIERSKEHKRRMQEQKQQGRFWRR Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo16810.1 vs. NCBI nr
Match: gi|902190812|gb|KNA11700.1| (hypothetical protein SOVF_132710 [Spinacia oleracea]) HSP 1 Score: 718.0 bits (1852), Expect = 8.300e-204 Identity = 362/362 (100.00%), Postives = 362/362 (100.00%), Query Frame = 1
BLAST of Spo16810.1 vs. NCBI nr
Match: gi|731323582|ref|XP_010672507.1| (PREDICTED: mitochondrial import inner membrane translocase subunit TIM50 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 533.5 bits (1373), Expect = 2.900e-148 Identity = 273/367 (74.39%), Postives = 307/367 (83.65%), Query Frame = 1
BLAST of Spo16810.1 vs. NCBI nr
Match: gi|225461886|ref|XP_002264515.1| (PREDICTED: mitochondrial import inner membrane translocase subunit TIM50 [Vitis vinifera]) HSP 1 Score: 443.0 bits (1138), Expect = 5.100e-121 Identity = 233/368 (63.32%), Postives = 283/368 (76.90%), Query Frame = 1
BLAST of Spo16810.1 vs. NCBI nr
Match: gi|720057578|ref|XP_010274019.1| (PREDICTED: mitochondrial import inner membrane translocase subunit TIM50-like [Nelumbo nucifera]) HSP 1 Score: 436.4 bits (1121), Expect = 4.800e-119 Identity = 235/366 (64.21%), Postives = 280/366 (76.50%), Query Frame = 1
BLAST of Spo16810.1 vs. NCBI nr
Match: gi|720078640|ref|XP_010241410.1| (PREDICTED: mitochondrial import inner membrane translocase subunit TIM50-like [Nelumbo nucifera]) HSP 1 Score: 426.8 bits (1096), Expect = 3.800e-116 Identity = 232/361 (64.27%), Postives = 280/361 (77.56%), Query Frame = 1
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QWS1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_132710 PE=4 SV=1) HSP 1 Score: 718.0 bits (1852), Expect = 5.800e-204 Identity = 362/362 (100.00%), Postives = 362/362 (100.00%), Query Frame = 1
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CPT7_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g059220 PE=4 SV=1) HSP 1 Score: 533.5 bits (1373), Expect = 2.000e-148 Identity = 273/367 (74.39%), Postives = 307/367 (83.65%), Query Frame = 1
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Match: D7UAF4_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_19s0015g00260 PE=4 SV=1) HSP 1 Score: 443.0 bits (1138), Expect = 3.600e-121 Identity = 233/368 (63.32%), Postives = 283/368 (76.90%), Query Frame = 1
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Match: K4CXD4_SOLLC (Uncharacterized protein OS=Solanum lycopersicum PE=4 SV=1) HSP 1 Score: 425.2 bits (1092), Expect = 7.700e-116 Identity = 216/342 (63.16%), Postives = 273/342 (79.82%), Query Frame = 1
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Match: D7TD62_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0057g00900 PE=4 SV=1) HSP 1 Score: 424.1 bits (1089), Expect = 1.700e-115 Identity = 218/338 (64.50%), Postives = 268/338 (79.29%), Query Frame = 1
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Match: TIM50_ARATH (Mitochondrial import inner membrane translocase subunit TIM50 OS=Arabidopsis thaliana GN=TIM50 PE=1 SV=1) HSP 1 Score: 352.4 bits (903), Expect = 5.700e-96 Identity = 194/377 (51.46%), Postives = 265/377 (70.29%), Query Frame = 1
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Match: TIM50_ASPFU (Mitochondrial import inner membrane translocase subunit tim50 OS=Neosartorya fumigata (strain ATCC MYA-4609 / Af293 / CBS 101355 / FGSC A1100) GN=tim50 PE=3 SV=2) HSP 1 Score: 166.0 bits (419), Expect = 7.600e-40 Identity = 86/217 (39.63%), Postives = 129/217 (59.45%), Query Frame = 1
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Match: TIM50_EMENI (Mitochondrial import inner membrane translocase subunit tim50 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=tim50 PE=3 SV=1) HSP 1 Score: 165.2 bits (417), Expect = 1.300e-39 Identity = 92/223 (41.26%), Postives = 134/223 (60.09%), Query Frame = 1
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Match: TIM50_PHYIN (Mitochondrial import inner membrane translocase subunit TIM50 OS=Phytophthora infestans GN=TIM50 PE=2 SV=1) HSP 1 Score: 162.9 bits (411), Expect = 6.400e-39 Identity = 88/229 (38.43%), Postives = 136/229 (59.39%), Query Frame = 1
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Match: TIM50_GIBZE (Mitochondrial import inner membrane translocase subunit TIM50 OS=Gibberella zeae (strain PH-1 / ATCC MYA-4620 / FGSC 9075 / NRRL 31084) GN=TIM50 PE=3 SV=1) HSP 1 Score: 161.4 bits (407), Expect = 1.900e-38 Identity = 84/235 (35.74%), Postives = 140/235 (59.57%), Query Frame = 1
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Match: AT1G55900.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein) HSP 1 Score: 352.4 bits (903), Expect = 3.200e-97 Identity = 194/377 (51.46%), Postives = 265/377 (70.29%), Query Frame = 1
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Match: AT5G45700.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein) HSP 1 Score: 86.3 bits (212), Expect = 4.300e-17 Identity = 61/175 (34.86%), Postives = 90/175 (51.43%), Query Frame = 1
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Match: AT4G18140.1 (SCP1-like small phosphatase 4b) HSP 1 Score: 86.3 bits (212), Expect = 4.300e-17 Identity = 58/172 (33.72%), Postives = 91/172 (52.91%), Query Frame = 1
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Match: AT1G29780.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein) HSP 1 Score: 79.7 bits (195), Expect = 4.000e-15 Identity = 54/154 (35.06%), Postives = 82/154 (53.25%), Query Frame = 1
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Match: AT1G29770.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein) HSP 1 Score: 74.3 bits (181), Expect = 1.700e-13 Identity = 48/155 (30.97%), Postives = 79/155 (50.97%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo16810.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo16810.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo16810.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo16810.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 5
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
Co-expression
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