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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GGGATGACTAGAATCTTAGATGATTGAGATCTGATTCAATCTTTCTCTTTAATCAATTGTTAATAATTCCAGTAAAGCTTTGAATCTCCCTCCTTCCTCCTTCCTCCTTCCTCAATCCTCCTCTCAACTCTCAACTCTCAACTCTCAACTCTCAACTCTCCCATCACATTACCTTCTCCTTCTTCCTTGCCCTCTCACACACTCCACGCCCTTTTTTCCACGTCTTCTTCACGACCCCTTCATATTTTATTTATTATTTTAATTCTAATTAAAATTTGAACAGTAGTTCATTCTAATAATCTTCCTTCAACCAAACATCTGCCCTTTCGTCATGCTCAATCTCCAATTGATTCTCTCAATTTTCTTCTTTATATTCAATTCCCTAATCACGGCTCTTCAGTGGACTTTCTAGCTCCATTCATTCTCTTCTAATCAATGGCGGCAAAATTCGGATCATTGAGGCAGAGTTTCGTCGAGAGGAGTAAGGAGAGATTGCTATCTCGTAAAGGCTACTCCGAATTCGGGTTTTCGGGTTCCGACGGCGATGTTGATTTCAATGATGGTGTTCGATGTGGTTGTTTCCGATCAATTTGTAGTCGGGTCAAGGTTGGGTGTTATCGGTGGATTTGTGATGGAGTCTTGGGGTGTGTCAATGGGTTGAGAGATTTTGGGGTCAATTTGTACGAAATGGGGCGATCAGACCCTAGGAAAGTGTTCTTTTCGGCGAAAATGGGATTGTGTTTGGTTGTGGTTTCTTTGCTCATCTTTTTGACGGGCCCTCTTAAGGCTATTAGCCAGTATGCAATTTGGGCGATTTTAACTGTCGTTGTCTGTTTCGAATATAGCGTAGGTATGATCCCCAATATTTTTTTTGCCTTATACACTCTCTCTTTCTATTCCAATTTTAAATTTTGAATATGTCATTAAAAAAACATTTGCATGGGTTATTGTATGTTTATCTCACTAAATACTTTACTAACATGGTGCATTAACAAAGTTAAGAAGTTTGAACGGAGGTAAGTAAACCGGGGAAGTAAGTGGTATGTTGTTCTGTGTAATTTTACTGTCTCCTAATGGTCTAGTACTAACTACATAGTAGGCTAGTAGCTGTTGTGGCCCGTGCTATCCACGGGTTTAAATTTGGGGAGTATTTCTTAATTTGTAAATTTACTTTTGAAGAACAAAATTTACAAAATCAAATAAAAGAGATTCTAGTGACTTGGAAAGTCAGAGTTAATGAAACCTTAAAAAGTATAAATGCAACCCTTCAAAAAAAAAAAAAAAAAAACAAGTTAGAAGATGAGAAGATAACAGGTGCAAAAAATAATTGTATTGTTAAACGACGTCCGCGTTTCCCATAAATGACCACGTTTAAATAATACTACTCCAATATAGATATGTGAATGCAATAATGTGCGTTAGTTTAGAATATCAATGCAATACTTCATCCGTTCTCTATTGGTACCAACATTTCTATTTCGGGATGTTTATTTTCAGTTGTAATATTTTTATTTTTGGAAAATTTACCCACTTGACTCTACCAAACAACCTTCATCCATATTTATAACTCACCTATTCCCCCAATTATATCTTAAAATGGGGGCATAAATAAAATTATTATTGTCTAGTTATATTGCAAAAATTAGGTTGAACCGTAAATGTTGCAACTAAAACAAAACGAAGGAAGTATTATTTGCCGGTTCGGAATCGTGATATGATAATGACATCTTAGTTTAGAGTGCTCATTATCAATGCTCATTGCTCTAAGGTCTTGGAAGTTAGTACTCGGACTTTGGCTCAAAACCTGTCTACTACAAGTATAACTAGCTTTTGAGCCCGTTCTAGTGGTTATTAAACCATCTTTTAAAATGTTAATTTTATTGAAGGTTTGTGATTTTGATTAATGGGAATATATGATTTATATATGAGTTAAATTTAAATTAAAAAACATATAGATTAGATGGTGAATTAATATTGAGTGTTAAAGATGGAGCTGGAGTGGAAGAGGTTGAATGAATATATGAACTAAATGGTGAATTGATGTTGAATGGGGAAGATGAAGGGGATGAGGTGTTGAAGCTGTAAAATATTTCGTATAACAAAATGAAAAAAGAAAATTATGGAGGAAATATGGGGTGACACGTGTTATCTAATGATCTTTGAAAGATGGGTGACACGTGTCATCTAATGGTCTATGGTTTTCTTTTTTAAAGACTAGTTATAGATTGCCCATTAGTTCCCCATTATGAATTCAATAAATTCAAAATTAAAGAAAGGAAAATTGGTAAAGCACTATGGTTACTCGTGTAGGTTAGGGATGAAAAAAAGTTGAGTTGAGCTAAAATTTTGGAGTTCTGATGTTCCTCTAGATTTAACCGGGCTTGAACCAGGCCAAAGTTTTAGATTTGAGTATCCATGCTCGGTTAAAAGTGAAGTATCTGCTTGGATTATTAGTGAAATATCTTCTGTCAAAAGATAAAAAAAAAGTGAAGTGAGCTTGCTGACAAATTTAGCCAACTCTAAGACCAATTTATCAAGAAGGTATCTTTATAATGGATTGAAAAAGGGTTATTGTGGAAATTGCTTTAGAGGAATTATATTTTTGATGAATGAAATGTTAATTTTGGAGGAGAAAAAAATTCAGAAATCTGTTTAAAGGATTCAGTTAAAGCTTTACCCACCAATTCCTTTAAATTAGGTGGAGAAATTTACGAGGTTGGTGCTGAGGAGTATATATTTTTCAATTTTTGTACAACGTTAAATTAAGTAAGCCTCTTAGTAATATAAAGGACTAAAAGAGTTAACCTATGTTCTGTTCAACTTATTTCCGGAAAAATTAACTATAGACAAGTTCATTAAGTTAAGATAAGATAAGTTGAGGAAAAAAAAGGTTGCTCAAGTACAATTTATAACTAAAATAAGATTTGATAAGTTCAAATAAGTTCGGAAAAAAATAAGTGAAAATCAGATGAATGAAATGCGCACCCTTAATCACCCTGATGTTCGAACTCTACTTGTTTATGTCTTTATGAAATAAGCTTTGGAAATTTTGTTCATACTTCTCCATTTTGTGATGGAACAAACTTTGATAATTATGTTTAGAAAACAAACTTCAACCAATATTTGATCAAACATGTCGTGAACTTTTGCTGATGTGCTCCTCACTCGCTCCTCAAAATTGTAAAAATGTATATGTTGCCAATAACTTGCCTCAAGAACAAGGCTTGTGTAATGCATTGATTCCTACTATTTTAGTTGATGGTATGAGAGCTTGTATTGTTTTGTCAATCAGTTGTGTGATGATATTTTACTTTCAACTTTAGGTTTACCTAGAAAAAAAAAGACAGATCATTGAATATCTTCCGGCTTCAGTAACATGTGGTGGATTAATTATTTTTTGTTTGAAGCGTTGTGATAATATGAAATCATTTATATTTCTTCTATTCTCTGTTACTCAAACATATTATTTTACCTCAAGTTCTCGTGTCTGATCCTCAATGCTTTGACATTGGTATGCGCAATTCAACACTTGATTTGGACCAAAAATGCAGAAATATCCTTGTACAACACTTGGACATGTAGCTGTGTCTGATATGAATTCCTGAGTCTAACATGGATTCAAATATTGGAATACTGTTTTTATGTTTGGCAAGGGTTTTTCTGAATGTTAACCGTGTAAAGGCAATAGTGGCTGCTCTGTTTTCTATTTCAGCTGAGCTACTGGCTATTTCGAGGAAGAGATTAATTATGTATGCCTCTGTCGTATATGCATGAGCATCGATCACTCAGTGTCTTGTGAGGAGCATTGTTCTTCTGTTGCATCAGATTGGCTCTTGCATAAAAGAGTGGAGCGATGCTCTAGATCAGCTTAATTGGCTATCCTTGTTTAATAGTTCTTAGTTGTTTGTGACTCTGTAGCATATGCACTTGTTTATGGCTCTGTTGTATGGTTTTGTCTTGCAAAACACATAACGAGGAGATCCTTCTATAAGGTCTCCATTGGATTTCTCCCCATATAGTTCTCTTAATCTGGTCTCTGTTCCATCAAATGTTTAAGATGCTAAGATTTTCCGTTTAGATTGTACTCGGTAGTCGGTACTATGGATGCCTATTTCGGTCTAATGAACTCAGTTGCTTTGTTACATCTCTCTTCTAAAGGATAAATGGTATGTAATTGAGTAATGTCATAGTCTAAGATTGCACTTTAGTGCTTAAGTTTGTTAATATGAAGCAGGGTTCATTATATAGTTTTTATAATGTACTCACATCTTGTCACTCTATATGACAATTTGTTTCTTCTTCTTCTTCTTATTCTCTTTCCTTTTCTTCCATAGGAGCATCTCTCAGTAAAGGTTTTAATCGCGCTATTGGTACTCTTTCTGCTGGAGCATTGGCTTTAGGGATAGCAGAAGTAGCAGTTCATGCTGGAGAGTTCAAAGAAGCGTTTATTGTAGCTAGTCTTTTCATTGGAGGTCAGCATTTTAGCTTTAATTTTATATAAATGAAGTTTTATCAGAAGCTGAATGTTGTTTCCTTTTGTTATGATAATATTTATCCTAAGCTGGCTGTTGTACTCTTTTGATGTTCAGGATTCTTTGTGACTTATGTCAAATTATACTCCAAGATGAAACCGTACGAGTATGGGTTCAGGGTGTTCCTGTTGACTTATTGCTTAGTATTGGTGACTGGAAATAAAACATCAAATTTTGTTCAGACTGCATCTTATCGGTTAATACTTATTGCAATTGGGGCTGGCATTGCTTCTATTGTCAACATCTGTATTTACCCTATCTGGGCTGGTGAGGATCTTCACAAACTGGTTGTAAAGAATTTCAAAGGTGTTGCTACTTCACTGGAAGGTTGGACCAGACTTTACGCGCTGTGTTTTTATTATTTGGGTTGATCAGCTTCTTGATTAGTTCCAGTGATTTAACATGCTCCTAAAATACGATACTATTTATTTTGTAGGCTGTGTTGATGGGTACTTGCAGTGTGTGGCATATGAGAAAATCCCTTCAAAAATTCTTACATACCAAGCTTATGATGATCCCCTATATGGTGGTTACAGAGCAGCTCTCCAGTCTACAAGTCAAGAGGAAACTTTGGTATTTTGCTTTTGTAGAGCTTTCATCTTATACTTCTGTTCCAGTCATAATGTTTGTTATGAATCACAAAGTATTTTGTTTCAGTTGGACTTTGCCACTTGGGAGCCTCCACATGGACCTTACAAATCATTTAATTACCCATGGAAAAACTATGTTAAACTCAGTGGCGCTCTGAGACATTGCGCTTTCATGGTCATGGCAATGCATGGATGCATTCTTTCAGAAATACAGGTGTGTGTGTGTGTCACTGTTTCTCCTTTCCACTGTTATTTCTGTAATCAAGCTTTAAGATGATTATAAAAAAAGTATAAATTGGATTTAGATTCTTCTGTCTCCTGTTTTATGATAAAAGAAATTGTTTGACTGAATTACGATGTTAATGTGCGTAGGCATCAGCAGAGAAGAGACAGGTTTTGACCAATGAACTTCGCAGGGTTGGTAATGCTGGGGCGAAAATATTGCGTGATCTTGGGAGCAAAGTTGAGAAAATGGAGAAATTAATGGAAGAAGATATACTAGCAGAAGTACATGCAGCAGCAGAAGAGCTGCAGATTAGGATAGATGAAAAGTCATATCTGCTGGTAAATTTTGAGAGATGGGAAGAAGGAAAAAGACCCAAGGAATTTGAAGATCCGGAGCATGTTGCCCAAATGAAAGATTGTGGAGGCAGTCAGCTTGTGATAAACTCACTTAGTGTACTTAGCATGGATCCTGAACATATGCATTCATCTATTGATATGACAGGTTCAAGAATTTCAATGATTGGTGCTGGAACTTCAATGCAAGGGATGTTTTCTACTGACAGCATGGCTGGTAGGACTCAGTGGCCTTCACGTCTTTCAATTCTTCCTGACTTCACCATTAATGAAAAAGAAGCACAAACATATGAAAGCGCAAGCTCTTTGTCATTAGCAACTTTTGCTTCTCTTTTAGTGGAGTTTGTTGCAAGGCTTGGAAATTTGGTCGCTGCATTTGAAGAGCTTAGTGAGAATGCACATTTCAAGGAACCAACAGAACTCCCATTAGACAATGAAATCACTGGTTTCTGGACGAAGTTCATTATGTGCTTTCAGCTCAAAAATTGAACTCCCAATCGTGTAACTCATGCATGCAGCGTCCGCGTGGCTAGTTGAAATCCTTGTTATTTTTATTCAAGGATTCTGGTACTTGTCTACTCGAGTAATTGGAGTGATGGGCACTGTCAACTTATAAGTAATGTAATGGAACTAGCTGTGCCTGTGGAGCTTCTGCTTTAACCAAAACAACACAAAAACAAATTTTCATTACGACACAAGCCATTATTTCTTTGTAACTTTCTTCTTGTGAAATTTTTTGTTTACAGGCGCATAAATAAATGGGACGCGGTACAAAAATAAAGAGATGTCAGCATTATGTAGTAATATTATACAAGTATGTTGTACTTGGGAGTTATCTCAACTATTTTTGGCGAAGAAAGGATCAGCAACAAGAACAAACCATTCTACTGGGGTCTTCTATTCTGTTTTTTTCATTTTCATCAGTTGATTTTTTATACGGAGTAAGATATTTGTGACATGTATATTTGGGTCATGATTTTATACCTATGTATAGTAATGAAACAGTATATTGACTTTATACCTATGTATATTAATGAAATGGTACATTGGCTTTTTACCTACGTATAATAATAGAGAGTTTTTATTCGACGTGGGATGACTAGAATCTTAGATGATTGAGATCTGATTCAATCTTTCTCTTTAATCAATTGTTAATAATTCCAGTAAAGCTTTGAATCTCCCTCCTTCCTCCTTCCTCCTTCCTCAATCCTCCTCTCAACTCTCAACTCTCAACTCTCAACTCTCAACTCTCCCATCACATTACCTTCTCCTTCTTCCTTGCCCTCTCACACACTCCACGCCCTTTTTTCCACGTCTTCTTCACGACCCCTTCATATTTTATTTATTATTTTAATTCTAATTAAAATTTGAACAGTAGTTCATTCTAATAATCTTCCTTCAACCAAACATCTGCCCTTTCGTCATGCTCAATCTCCAATTGATTCTCTCAATTTTCTTCTTTATATTCAATTCCCTAATCACGGCTCTTCAGTGGACTTTCTAGCTCCATTCATTCTCTTCTAATCAATGGCGGCAAAATTCGGATCATTGAGGCAGAGTTTCGTCGAGAGGAGTAAGGAGAGATTGCTATCTCGTAAAGGCTACTCCGAATTCGGGTTTTCGGGTTCCGACGGCGATGTTGATTTCAATGATGGTGTTCGATGTGGTTGTTTCCGATCAATTTGTAGTCGGGTCAAGGTTGGGTGTTATCGGTGGATTTGTGATGGAGTCTTGGGGTGTGTCAATGGGTTGAGAGATTTTGGGGTCAATTTGTACGAAATGGGGCGATCAGACCCTAGGAAAGTGTTCTTTTCGGCGAAAATGGGATTGTGTTTGGTTGTGGTTTCTTTGCTCATCTTTTTGACGGGCCCTCTTAAGGCTATTAGCCAGTATGCAATTTGGGCGATTTTAACTGTCGTTGTCTGTTTCGAATATAGCGTAGGAGCATCTCTCAGTAAAGGTTTTAATCGCGCTATTGGTACTCTTTCTGCTGGAGCATTGGCTTTAGGGATAGCAGAAGTAGCAGTTCATGCTGGAGAGTTCAAAGAAGCGTTTATTGTAGCTAGTCTTTTCATTGGAGGATTCTTTGTGACTTATGTCAAATTATACTCCAAGATGAAACCGTACGAGTATGGGTTCAGGGTGTTCCTGTTGACTTATTGCTTAGTATTGGTGACTGGAAATAAAACATCAAATTTTGTTCAGACTGCATCTTATCGGTTAATACTTATTGCAATTGGGGCTGGCATTGCTTCTATTGTCAACATCTGTATTTACCCTATCTGGGCTGGTGAGGATCTTCACAAACTGGTTGTAAAGAATTTCAAAGGTGTTGCTACTTCACTGGAAGGCTGTGTTGATGGGTACTTGCAGTGTGTGGCATATGAGAAAATCCCTTCAAAAATTCTTACATACCAAGCTTATGATGATCCCCTATATGGTGGTTACAGAGCAGCTCTCCAGTCTACAAGTCAAGAGGAAACTTTGTTGGACTTTGCCACTTGGGAGCCTCCACATGGACCTTACAAATCATTTAATTACCCATGGAAAAACTATGTTAAACTCAGTGGCGCTCTGAGACATTGCGCTTTCATGGTCATGGCAATGCATGGATGCATTCTTTCAGAAATACAGGCATCAGCAGAGAAGAGACAGGTTTTGACCAATGAACTTCGCAGGGTTGGTAATGCTGGGGCGAAAATATTGCGTGATCTTGGGAGCAAAGTTGAGAAAATGGAGAAATTAATGGAAGAAGATATACTAGCAGAAGTACATGCAGCAGCAGAAGAGCTGCAGATTAGGATAGATGAAAAGTCATATCTGCTGGTAAATTTTGAGAGATGGGAAGAAGGAAAAAGACCCAAGGAATTTGAAGATCCGGAGCATGTTGCCCAAATGAAAGATTGTGGAGGCAGTCAGCTTGTGATAAACTCACTTAGTGTACTTAGCATGGATCCTGAACATATGCATTCATCTATTGATATGACAGGTTCAAGAATTTCAATGATTGGTGCTGGAACTTCAATGCAAGGGATGTTTTCTACTGACAGCATGGCTGGTAGGACTCAGTGGCCTTCACGTCTTTCAATTCTTCCTGACTTCACCATTAATGAAAAAGAAGCACAAACATATGAAAGCGCAAGCTCTTTGTCATTAGCAACTTTTGCTTCTCTTTTAGTGGAGTTTGTTGCAAGGCTTGGAAATTTGGTCGCTGCATTTGAAGAGCTTAGTGAGAATGCACATTTCAAGGAACCAACAGAACTCCCATTAGACAATGAAATCACTGGTTTCTGGACGAAGTTCATTATGTGCTTTCAGCTCAAAAATTGAACTCCCAATCGTGTAACTCATGCATGCAGCGTCCGCGTGGCTAGTTGAAATCCTTGTTATTTTTATTCAAGGATTCTGGTACTTGTCTACTCGAGTAATTGGAGTGATGGGCACTGTCAACTTATAAGTAATGTAATGGAACTAGCTGTGCCTGTGGAGCTTCTGCTTTAACCAAAACAACACAAAAACAAATTTTCATTACGACACAAGCCATTATTTCTTTGTAACTTTCTTCTTGTGAAATTTTTTGTTTACAGGCGCATAAATAAATGGGACGCGGTACAAAAATAAAGAGATGTCAGCATTATGTAGTAATATTATACAAGTATGTTGTACTTGGGAGTTATCTCAACTATTTTTGGCGAAGAAAGGATCAGCAACAAGAACAAACCATTCTACTGGGGTCTTCTATTCTGTTTTTTTCATTTTCATCAGTTGATTTTTTATACGGAGTAAGATATTTGTGACATGTATATTTGGGTCATGATTTTATACCTATGTATAGTAATGAAACAGTATATTGACTTTATACCTATGTATATTAATGAAATGGTACATTGGCTTTTTACCTACGTATAATAATAGAGAGTTTTTATTCGACGT ATGGCGGCAAAATTCGGATCATTGAGGCAGAGTTTCGTCGAGAGGAGTAAGGAGAGATTGCTATCTCGTAAAGGCTACTCCGAATTCGGGTTTTCGGGTTCCGACGGCGATGTTGATTTCAATGATGGTGTTCGATGTGGTTGTTTCCGATCAATTTGTAGTCGGGTCAAGGTTGGGTGTTATCGGTGGATTTGTGATGGAGTCTTGGGGTGTGTCAATGGGTTGAGAGATTTTGGGGTCAATTTGTACGAAATGGGGCGATCAGACCCTAGGAAAGTGTTCTTTTCGGCGAAAATGGGATTGTGTTTGGTTGTGGTTTCTTTGCTCATCTTTTTGACGGGCCCTCTTAAGGCTATTAGCCAGTATGCAATTTGGGCGATTTTAACTGTCGTTGTCTGTTTCGAATATAGCGTAGGAGCATCTCTCAGTAAAGGTTTTAATCGCGCTATTGGTACTCTTTCTGCTGGAGCATTGGCTTTAGGGATAGCAGAAGTAGCAGTTCATGCTGGAGAGTTCAAAGAAGCGTTTATTGTAGCTAGTCTTTTCATTGGAGGATTCTTTGTGACTTATGTCAAATTATACTCCAAGATGAAACCGTACGAGTATGGGTTCAGGGTGTTCCTGTTGACTTATTGCTTAGTATTGGTGACTGGAAATAAAACATCAAATTTTGTTCAGACTGCATCTTATCGGTTAATACTTATTGCAATTGGGGCTGGCATTGCTTCTATTGTCAACATCTGTATTTACCCTATCTGGGCTGGTGAGGATCTTCACAAACTGGTTGTAAAGAATTTCAAAGGTGTTGCTACTTCACTGGAAGGCTGTGTTGATGGGTACTTGCAGTGTGTGGCATATGAGAAAATCCCTTCAAAAATTCTTACATACCAAGCTTATGATGATCCCCTATATGGTGGTTACAGAGCAGCTCTCCAGTCTACAAGTCAAGAGGAAACTTTGTTGGACTTTGCCACTTGGGAGCCTCCACATGGACCTTACAAATCATTTAATTACCCATGGAAAAACTATGTTAAACTCAGTGGCGCTCTGAGACATTGCGCTTTCATGGTCATGGCAATGCATGGATGCATTCTTTCAGAAATACAGGCATCAGCAGAGAAGAGACAGGTTTTGACCAATGAACTTCGCAGGGTTGGTAATGCTGGGGCGAAAATATTGCGTGATCTTGGGAGCAAAGTTGAGAAAATGGAGAAATTAATGGAAGAAGATATACTAGCAGAAGTACATGCAGCAGCAGAAGAGCTGCAGATTAGGATAGATGAAAAGTCATATCTGCTGGTAAATTTTGAGAGATGGGAAGAAGGAAAAAGACCCAAGGAATTTGAAGATCCGGAGCATGTTGCCCAAATGAAAGATTGTGGAGGCAGTCAGCTTGTGATAAACTCACTTAGTGTACTTAGCATGGATCCTGAACATATGCATTCATCTATTGATATGACAGGTTCAAGAATTTCAATGATTGGTGCTGGAACTTCAATGCAAGGGATGTTTTCTACTGACAGCATGGCTGGTAGGACTCAGTGGCCTTCACGTCTTTCAATTCTTCCTGACTTCACCATTAATGAAAAAGAAGCACAAACATATGAAAGCGCAAGCTCTTTGTCATTAGCAACTTTTGCTTCTCTTTTAGTGGAGTTTGTTGCAAGGCTTGGAAATTTGGTCGCTGCATTTGAAGAGCTTAGTGAGAATGCACATTTCAAGGAACCAACAGAACTCCCATTAGACAATGAAATCACTGGTTTCTGGACGAAGTTCATTATGTGCTTTCAGCTCAAAAATTGA MAAKFGSLRQSFVERSKERLLSRKGYSEFGFSGSDGDVDFNDGVRCGCFRSICSRVKVGCYRWICDGVLGCVNGLRDFGVNLYEMGRSDPRKVFFSAKMGLCLVVVSLLIFLTGPLKAISQYAIWAILTVVVCFEYSVGASLSKGFNRAIGTLSAGALALGIAEVAVHAGEFKEAFIVASLFIGGFFVTYVKLYSKMKPYEYGFRVFLLTYCLVLVTGNKTSNFVQTASYRLILIAIGAGIASIVNICIYPIWAGEDLHKLVVKNFKGVATSLEGCVDGYLQCVAYEKIPSKILTYQAYDDPLYGGYRAALQSTSQEETLLDFATWEPPHGPYKSFNYPWKNYVKLSGALRHCAFMVMAMHGCILSEIQASAEKRQVLTNELRRVGNAGAKILRDLGSKVEKMEKLMEEDILAEVHAAAEELQIRIDEKSYLLVNFERWEEGKRPKEFEDPEHVAQMKDCGGSQLVINSLSVLSMDPEHMHSSIDMTGSRISMIGAGTSMQGMFSTDSMAGRTQWPSRLSILPDFTINEKEAQTYESASSLSLATFASLLVEFVARLGNLVAAFEELSENAHFKEPTELPLDNEITGFWTKFIMCFQLKN Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo25711.1 vs. NCBI nr
Match: gi|902239027|gb|KNA25413.1| (hypothetical protein SOVF_006630 [Spinacia oleracea]) HSP 1 Score: 1188.3 bits (3073), Expect = 0.000e+0 Identity = 600/600 (100.00%), Postives = 600/600 (100.00%), Query Frame = 1
BLAST of Spo25711.1 vs. NCBI nr
Match: gi|731340800|ref|XP_010681586.1| (PREDICTED: aluminum-activated malate transporter 4 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 1044.6 bits (2700), Expect = 6.400e-302 Identity = 519/596 (87.08%), Postives = 553/596 (92.79%), Query Frame = 1
BLAST of Spo25711.1 vs. NCBI nr
Match: gi|297737842|emb|CBI27043.3| (unnamed protein product [Vitis vinifera]) HSP 1 Score: 720.7 bits (1859), Expect = 2.100e-204 Identity = 377/601 (62.73%), Postives = 455/601 (75.71%), Query Frame = 1
BLAST of Spo25711.1 vs. NCBI nr
Match: gi|225423929|ref|XP_002278978.1| (PREDICTED: aluminum-activated malate transporter 4 [Vitis vinifera]) HSP 1 Score: 720.7 bits (1859), Expect = 2.100e-204 Identity = 377/601 (62.73%), Postives = 455/601 (75.71%), Query Frame = 1
BLAST of Spo25711.1 vs. NCBI nr
Match: gi|567890363|ref|XP_006437702.1| (hypothetical protein CICLE_v10031089mg [Citrus clementina]) HSP 1 Score: 701.8 bits (1810), Expect = 1.000e-198 Identity = 366/600 (61.00%), Postives = 445/600 (74.17%), Query Frame = 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Match: A0A0K9S117_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_006630 PE=4 SV=1) HSP 1 Score: 1188.3 bits (3073), Expect = 0.000e+0 Identity = 600/600 (100.00%), Postives = 600/600 (100.00%), Query Frame = 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Match: A0A0J8EYK2_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g142230 PE=4 SV=1) HSP 1 Score: 1044.6 bits (2700), Expect = 4.500e-302 Identity = 519/596 (87.08%), Postives = 553/596 (92.79%), Query Frame = 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Match: F6HFP4_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_01s0011g03290 PE=4 SV=1) HSP 1 Score: 720.7 bits (1859), Expect = 1.500e-204 Identity = 377/601 (62.73%), Postives = 455/601 (75.71%), Query Frame = 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Match: V4TCD2_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10031089mg PE=4 SV=1) HSP 1 Score: 701.8 bits (1810), Expect = 7.100e-199 Identity = 366/600 (61.00%), Postives = 445/600 (74.17%), Query Frame = 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Match: A0A059AM62_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_I00408 PE=4 SV=1) HSP 1 Score: 701.0 bits (1808), Expect = 1.200e-198 Identity = 370/600 (61.67%), Postives = 449/600 (74.83%), Query Frame = 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Match: ALMT4_ARATH (Aluminum-activated malate transporter 4 OS=Arabidopsis thaliana GN=ALMT4 PE=3 SV=1) HSP 1 Score: 604.7 bits (1558), Expect = 1.100e-171 Identity = 333/568 (58.63%), Postives = 401/568 (70.60%), Query Frame = 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Match: ALMT9_ARATH (Aluminum-activated malate transporter 9 OS=Arabidopsis thaliana GN=ALMT9 PE=2 SV=1) HSP 1 Score: 585.5 bits (1508), Expect = 6.700e-166 Identity = 321/616 (52.11%), Postives = 416/616 (67.53%), Query Frame = 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Match: ALMT5_ARATH (Aluminum-activated malate transporter 5 OS=Arabidopsis thaliana GN=ALMT5 PE=1 SV=1) HSP 1 Score: 565.8 bits (1457), Expect = 5.500e-160 Identity = 305/503 (60.64%), Postives = 372/503 (73.96%), Query Frame = 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Match: ALMT6_ARATH (Aluminum-activated malate transporter 6 OS=Arabidopsis thaliana GN=ALMT6 PE=3 SV=1) HSP 1 Score: 557.8 bits (1436), Expect = 1.500e-157 Identity = 296/519 (57.03%), Postives = 369/519 (71.10%), Query Frame = 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Match: ALMT3_ARATH (Putative aluminum-activated malate transporter 3 OS=Arabidopsis thaliana GN=ALMT3 PE=3 SV=1) HSP 1 Score: 543.9 bits (1400), Expect = 2.200e-153 Identity = 303/577 (52.51%), Postives = 389/577 (67.42%), Query Frame = 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Match: AT1G25480.1 (Aluminium activated malate transporter family protein) HSP 1 Score: 604.7 bits (1558), Expect = 6.000e-173 Identity = 333/568 (58.63%), Postives = 401/568 (70.60%), Query Frame = 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Match: AT3G18440.1 (aluminum-activated malate transporter 9) HSP 1 Score: 585.5 bits (1508), Expect = 3.700e-167 Identity = 321/616 (52.11%), Postives = 416/616 (67.53%), Query Frame = 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Match: AT1G68600.1 (Aluminium activated malate transporter family protein) HSP 1 Score: 565.8 bits (1457), Expect = 3.100e-161 Identity = 305/503 (60.64%), Postives = 372/503 (73.96%), Query Frame = 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Match: AT2G17470.1 (Aluminium activated malate transporter family protein) HSP 1 Score: 557.8 bits (1436), Expect = 8.400e-159 Identity = 296/519 (57.03%), Postives = 369/519 (71.10%), Query Frame = 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Match: AT1G18420.1 (Aluminium activated malate transporter family protein) HSP 1 Score: 543.9 bits (1400), Expect = 1.300e-154 Identity = 303/577 (52.51%), Postives = 389/577 (67.42%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo25711.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo25711.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo25711.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo25711.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 5 Position : 0 Zoom : x 1
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29 Position : 0 Zoom : x 1
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
Co-expression
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