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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.AGAACGCAACCTAAGGAGAATATTCCTACATAGAGAAGTTGGCCATTTTTGAATGGTGGGCGGTTTATGAGGAATCTCTCAATGTTGTAAGAATAAGTTGGCCCCTTAAAAAGAGCATTACCTAACCTTCCCCCTTCACAAAAAAATGATCTTTAATAAAATTGGTATATTCTATTTGTGAAATTTTATAGTAATATCTTTTCCTTTAAATCCAGTGGCAAATCTTCATTATTCTGCATTGCAGTCTTAGAGAAAGTTTTTACTGTAGTCTGAACCTGTTAGCATCGGTACCAATACCATGGGAGAAGCTTTTATTGCAGAAGAGATTGTTAAGGAGATTAGCCTTAAGGATATCTCTAAGAAACTCGAAGAATTCGCTCAGGCAAGAGATTGGGAGAAGTATCATAGTCCCAGGAATTTACTACTTGCTATGGTAAGTTTTTCCCTCATAAACCCAAGTTTGTATCAGTTCTTTCTCTGGTTGTTGTTTGAACCTGTTTCTGTTATACTGATTGTTATTACAGAACAAAAACATCGCGCCATAGCGAATATCATGTAGTTTCCTTTTGGTGGTTGATCACTGTAAATCATTTGATGCCAAGAGTTCTCTGTTGTGCCATATTTGCATTTTATGGAGGATAGAAAATTTGCATGAATTTCTCATAGCAGATGATTTGTGATCACTGTTTTAGCCAAGATTTTAAGGGTTGCCTACTGAAATACTGATATGCAGACTAGTTTTGTTAGTGGTTTCAGACTGTTCAGTGACACTCTTCTGTTCTGAATGCATAACCTTAAATTATGTAAATTCAATGCATTTCATAGTTAGCTAGTAAACCATCATGTAAATTCAATGCATTTCATAGTAAGCTAGTAAATCACAGAGTCATAGAGAGACGACATCTGCATTCGTTGTCAATTTTTTCATAATAAGAGAGTGTTCAATTTACCTGATTTTTTACTTATTTTTTCCGAAGTTATCTTATCTGAACTCTTATTAGAACTTATAAATTGTGCTTGCCCAACCCTTATATTTCCTGAATTTATCTTATCTGAACTTATTATTCCTGAAATAAGTGGAAATATGGTAAACATAACAGAGCTTAAGTCCCTCAAGTTGCAAGCTTGAACATCTAAAAGCCGATACTGTTGGTTGCAGAATTGCAGCTAACCTGGCTAAGTTTCTTGCATCCTTGTTGCCTCGCCTATTGTTTTTCCCATGCTTCGAGCAACAGTCCAGCAGCCCGTTAAGATGTACTACACTACATGACTACATCCCTTTTCAGCCAAAGCAACATTCCATAGATTAGACTCTCGAGGTTAAACTAAACATGTAGGATATGCTAATTAGCTGAACAAAGCCTGGTATGCTGAGGAGGCAGGGGGCTTAATCCATTTTAGGTTGGTCGTTAATTCGTTAATTCGTTATGATCCATAATCTAACTAACAAAAGCAGAACATAATTGACCTGTGGAACCTTTCAACTGGTCCACAAATGTTGGTGATAATGAATTAGGAAGATTTTCATCACAAAACATAGGTACGGATGGAGTACATAGCAGGTCACTGTTATGTTGCGGCACCTTAAAGCAAGCAAATATGTGGTTAATCATGGTGCCTCGTCATACAAATTACTTTTGATAAAGCCAAGTTTCAGGCAACTTAACAAAGATGGTGATGTTTTACTTTATTCTTTCCAGTTCAGAATATTTCACATTTTTCTGAGGGTGACATTTCCAGAATTTAGCAGATGAGAATCTGCATATCAGGAATTTGTTTGTTGATGATGATGCTTATAATTTGCGTTCTCATCTTTACGTTCTGTATGGTTTAGGTGGGAGAAGTAGGGGAGCTATCAGAGATATTCCAATGGAAAGGGGAGGTGGCAAAAGGGTTACCAAATTGGGGAGATTCAGATAAGGAGCATCTTGGTGAAGAGTTATCTGATGTTCTGCTATACCTTATCAGGCTTTCTGATATTTGTGGCATTGATCTTGCTGATGCTGCCTTGAAGAAAATGGTCAAAAACGCGGTTAAATACCCTGCTAATAGGTTGTAAGGTTGTTGCATTTTCCACTTATGTTCAAGATTAGCAGATCAACACATAAAAGTTTGCAAATGGTTAAGAAAATGCAACTGTTTTTTTTAGCATTTTTTTTGAAGCTTCTGTTTGTTAATTGAGCTAGAGTTATTCTGGCTTAATTTGGATTCGAAAAGGTACAAGTTTTAGAAGTTAAAAATGATCAGAGTGAAGACTGTATGAGTCAAGGAAAATGGTATGCAAAATGGACAAGACATTATTGTAAAAAAATGAAATTGAATCAACATTCATAATTTCACATACTTGACAGAATTGCACTGAATTTTTCGCCTGTTACAAAAAAAAAAAAAAAGTTCAATCCACCGCATATACTTCCAGTTCGTATTGATAATATTGAGGAAGTACGTTAGCCTAACGCAATGTATTTACTTAATTAATTTTCTTATCACGTGAAAAATCATACACGAGTAAATCAAGTAAAAACGTAACAAATATGAACTTCCGAACATTGGCTTACACAAAGTTTAAGTTACAACGATCAATCACTAACCTTTAATCGATGATCAATCAATTAATACTTTTACTCGATGATCAATCAATAATTTTGGACTACTCGATGATCATTGATCAATCAATAATCTTTGGACTACTCGATGATCAATCATTAACCTTGACTTTGGGTTCACATTCTGATTATTATTATAATCCTAACTCCTAAGTTGAGATTGTTCAGGTTAGGACATTTGTTTTCTTATTCAAAACAAATACAGGAAAAAAAAAAAAAAAAAAAACAGCTCAGATCCTTCCTTTCTTCCTTTCTCCCCCCATTTCTCCTTCAAAAAACAAAAAGCAATTGCACAAGAATCTAGAGAGATAAACAGGTAAAATACCCTTTTCCCACCATTTCCCACTTGATTCTTTTCCTCTAATTTTGATGGATCAACGTTTAATTAATATCCCAACATTTTAATTTCTGTACAATTTGATTGATTAACCCTTCATTGATCATCAAATTATCATAGGTTTTGGAATCGGATTCTTTAATCCCCTTTCCCCCCTTCGAATCTTCCTAATTTTTATACCTGCGTCTTTTCATGTCTACTTCTTTTCCCCTAATTGTTTCCCTTTTTGTGTGTGTATAGATCAACACTGCTTCAATTCAACGCTCTCTGCTGAAAAGGGTACCTCTATATTCCTTCTCTCTCCTAAAAATTGTTCTTTTAAGCTTCTGTTATAATTTTGATTGCTGCAAAATTTGTTGAATCTGATCAGATTGTTGTTCTTAGTGGTATGAATATCTATTTGTGATGACATATTATTGGGTTTTGGATCTGCAAAATTAAGTGTTTAATTGTTGTATGGTGAAAACATAATGCTTATTGGGGGATGTCTGATGTGTTATTGCTGTTAGTGTTACCTAATTGGCTAATTCCCACTGCGATACGAATAAGGCGAATGAATACATGAATGTGGTACTTAGCCTAATTTAACATAACTAGGTAGCGGATTGGGTTCCTGTATTCAATCTTGTATTGTGAATGAGGTAACATTTGTGCTATAAGATTGAGCTTCCAGTGATTTTGATGTGTTTGTGTATGTTAATGAAGTACTCTTGTAGGTTGCCGCTTGTGAGTTCTGAGTCTTCTGACTAATAAGTGGTTTAGAGGTTCTGGTTAGAGTTTTGCTGAGTTTGATTTGCGGATTTTGGATGTTTAATGACACTTAGGTAAATAAGTTGTTGATTGATAATGTGCTTTGAATTCATTTTTGGGAAAAGTTGAAGTCTTTATGATTGGTTGGTTATCTATGCTAATAAAAATATAAAATTGCTGGTATTCTGCTGCTTTCTAAGTCGTTGAGTTTTTGATCGATGTACATTTGTTGCCGGACAAGGGTTTTCTTTGTTAAATTCAAGATTCGTGTTGCTTTATTGTATTGCTTCATCGGCCATAACCATAAGTGTGCTATTTGAACTCCTTGTGTCAACGCAAATTGCCAGGGCTAGCTATTATGCACGTTGGTATACAATTACATTTGAACGCTCAAATTAGAATAGAAACAGTTGATTCTTCCCAAAAGGGCAAAGTCCAACCCTATGATTTACACAATTACACCTCTAAACTCCCAGTCTTTGTCGCCTCATTGTGCTTTAAAGTTCATATCAAAATTGGGGATACCTTTACTTATATGTGAGGTAATTGTTTGGTGCAGTTGTGGACAAAATGGCAGGAACAACTGTTTTTACCCCAGCTTTGGAAGGAATTAAGCTGGTCAAGTCTGAGAATGGAGAAATGTTGTCCAGGCCTTTCTTGGACGCGTGCAAGCACATTCTTCCTGTTATAGGTCTGTCAATGTAGTGCCATATTTTCAATATTATGACTTGTTTCTGCTAGCCGCATGTTTTACTACTAATAGTCAACTCTTTCTTTAATCAGCGCTAGCTAAAATTCCATCTGTTATGAAATAAATGTCACACTGTCCCAACCCTTTATAATGAAGGATGCAACATGATTTCCTTATATGACCCTATAAGATAGTTATATCGTTCCCATACTTCTCCATTACTCATTTTTGTTAAGGTCATCTTGGGAAATTAAATGATAAAACCATCACTATAGGAAAGGTGGAAACTTTGTTTGGATATCCTGAAATAGTACATATGACTATTTAGGGACGAAGCCAGGAATTCGTCCCAACGAGGGCTTGATTTTTACTATGCTTTTAAGTTTCATTCATAAAGTTCACTAGTATATTTCCCTCAAAAAAAAAGTACAGCAATATTATTTTCTTATAAAAATATTCATATTATCTCTATAGAAATAATAAATGGCAATAAAGTTCCATCTGTTTTTCTTTAAGTTTACAGTTTGACCAGATACGTTTGGCAACACACAACTTTGACCACCGATATCTTTAGTTGTCTATTAGTAAAATTTATAAAAGAAATATATTATGAAAAACATACATGCGACTAATCTAACAACATATTATACAATACCATTTTCTTTGAATACTACCTCAATTTTTCTGAGTTATACTTTAGTGTAGCAACAGAAACCAAGGAGAACTCAAAATATTGGGACCACCAAGTGGATACTTTTACATGTAGGAGGAAAGAGATAGAGAGTAAGAGAATTATAAATATGATTTGGTCCACAAAGTGGGGTGAAAAATAATAAAATATGAGTAGAAGGTTGACATAAATGGAATAAAGTAAAAGTGAGTAGAAGTTAGAAAAACACTTCAAAACAGAGTATGAGTAGAATTTAGGAAACAGAGGGAGTATATTAGTAAAAACATCAAGTCAAAGTTACTGTATGAATAGTGCTAAAAGTCAAACTGTAACACTTTAAGAAAATGGAGATTGGAGGGAGTACTATTAAGCTAAAAGATAATAAAGAGAATAGAAGACAATTTTACGAAAACAACGTTAAATTGTAATCTCTGTCAAAGATGTACGCAGAACTAGTAGTCTAGTACTGCTGTACAGAGTAAAAAAAACAGAAAGAGGGGAAGGAAGAAGAAAAACAAAAAGGGGGGAAATTTGGGCTTATGGGAATTCGAACCTTTAACCATTCAATTTACACACACTAGCTTTCAACCACTGCAAGTTTGCAACAGAGATACAGTAATTGTCTAAAGCTGTTAGTAGTATTATTATGATGTACAACTTTTCGGATTTATGACAGGGGGGCCTAGGCTCCTTTAGGCCTAAATGGAGCATCGCCCCTGTAACTGCTACTTTTGAGCGGAGGGAGTATTATTTTGAGAGTATGTGAAGTGCACTTTACTGATCAAGAGTTTATGATTATTCAAGTGAAAATATAGCTTTTTGGACTTGGGAGGATATTGTTCCTTTTATCAATTACTTGTTCAGTGAACTAAAGCGAGTGAAGTTTTATTATTTTTATTGGGTCTTTCCCCTTGTGTTATGATTGGCTGGCATAGGTGTTCTTCTAGTAACATTTTTGTTTGGTCTGATGCAGATAAATTTGGTGCTGCTATGACACTCGTAAAATCTGATATTGGTGGAAATATTACGGTAAGCTACTTTCACACTCGGTATCCTTATACGTATTCTTTTTTGTGTTTTTGCATATTTTGCATTTTACGGGGTGTGGGGCCTGTAGGCTACCTTTTTCAACACTGCTCCTGTAGGCTTTGTTCGTGGATATCTTCTGTGAGCCATTAAGATTGACCAACCAAAAGATCTCTTATTAAAAAATTTGGTTGTCGTTTTCATTTTATTTTCCATTTCTTTGAGGATGCCCTTTCTCTTAAGAAAAATGCATAATCACAAATGACAAATCACAATGGAAACAACTTCTATTTAATTATTTTCTGATGTGATCTGTAATCAAAGTTGAAATCGACAAACTTATGGATATCTCTACATCTTTCTTGATTTGGCATTGATCAGAAATCTTGTTGCAGAGATTGGAAAACAAGTACAACTCGGATCCAGAAAAATTTAAGTACATGTATAGTATGGTACAAGTGGAGGTTGAAAGTAAGACAGCTAAAGGATCATCTAGTTGTACCAACGGCCTGCTTTGGCTAACAAGGTAGATCATACTACATGGGAATTTCATGATCATGAATGGGATGGAATTGTTTTTATCCACGTTTCTCGTCTATTTATGTAAGGGGCAGTGCATGACATTATTGTAATTACTTTGTAGAGCTATGGATTTCTTGGTGGAATTGTTCCGCAATTTACTCGAGCACCCAGATTGGGCAATGTCTCAAGCTTGTACTGACTCTTATAGCAAGACCTTGAAGAAATGGCACGGGTGGCTGGCCAGTTCAAGCTTTTCTGTAAGTTTAGAACTCTTCTTTGTTTACAGTTTTCCACTTCTGTTTAATTGTATTCTATGGCCTTTATGAACTTAAAATACTTATTCATCTCTTCAAGTGATCAATTGTCAATATAGACGGCTCTGTTCTGTTCACCTTATTTCCACTTATTTTAGGAAAAATAAGTTCAGATAAGTTCAGTTAAGTTCAGATAAGTTCAGATAAACCAAATATAATTTACAACTAAAATAAGTTTTGATAAGTTCAGATAAACCAAATATAATTTACAACTAAAATAAGTTTTGATAAGTTCTAATAAGTTCTGATAAGTTCAGTTAAGTTCAGATAAGTTCAGATAAGATAAGCTCAGTAAAAATAAGTGAAAATCAGGTGAATAGAACGCACCCCTAGTTTGTTTTCTCTCGATGTAGTGTTTTACTTTAGCTGATTTAAAAGATATATAATTCTTTTTTAATCATTTGCCTATTGTGTGTTATTCTCTATCTATTTTGATACATCATGCCAAAAATCCAAATTTATGTGGTAGGCTGTTAGCCCATTGTGGAAAGATTTTGCCGATTCATAGATAAACTCAAATTCGATTGTAATGTTGCCCATGCTGTAATGCCAAATGGGGTTTTGCTTCAGTTTTTGATGGAGTATGAACTATTCTTTCAGATTGCAATGAAGTTAGCTCCTGATAGGAGCAAGTTTATGGAGGTGCTGGGGGGTGATGCTGTCAAGTGCGACATTGAGCAATTTTTGACCACCTTTACTCCACTGCTTCAACAGAACCACAAGTTTTTGGTAAGATAACTTGGAACAACTGATAACTACTGTGTCTTTAAACTCTGAATGTCTCTATCAATGTTTCTCATTAATCTGTTATATATTTGTTTACCGATGTTATTCAACAATACTGTATTATATTATATAGAGGAGCTGAAGTAGACAAGTATAACTCCATTCCTATATTAAAATACAACAACTATCCTTGATTTGGTTGCTTTTACATCACCAATTAATCAATTATATCAGCGTAGTCTTTCTTTTAAATTCTTAGTTCAGGGTAATATTAAGGTAATGTGGGAAAGTTTCAAATTTGACTTTAAATTTAGAATGTGGCATTCTATTTTGGGGGTGGTGAGAAAATAAATATATGGCCTATAACCTAGGTACGGAGGGCCTATAAATTTAGAAGCTCGTTTTTTCCTTCACAATTTTCGAATCATTTCTCCTTTTTCTGATTGAATATGTAATGAGAATTGGGAAATGCGTTTTCCATTTTCTAAATGCGGTATCTGTAGGGCTTGATAGTAATACTTGGATATTAGCTGTACCTTGTTTGGATGATTTATGCATAAATTTACTATGCTTTGTTCTGATGTTCATCACTCCTCGTGTTTCAGGCTAGTGTGGGTTTGGATGACATGAAAGCTTCTTAATGCGCAAATGAAGTTTCGTCATTGCTGCTAAGTTAGAATTGCAGCCATTGACATCTTAACATCAGAGAATTTGCAGACCAGATCGATGTTGAAATTCCATCTTAATCTTAACCTTTTCGGCAGACATACTACGTGCTCTCTTATATCTGTAAAGAGATTATTGATTAACAGTGCCTTTGTGCCTGTTTTCAGACAATATAATGTGACCCGTCATCAATGTATGTTTATTAATCTTCGTTTATGGTATGCGTTTTGTCATCCGAAACTCTGATGAGTTGAACCTGCTATCAGACAATATAATGTGACCAATGAATGTTACTTTGTATTAATCTTCGTTTATGCTATTGCATATTTCCTCCGAACTGCAAAGAGTCTGAACCTGCTGTCGACATCAGTCTAGTCTAGTCTAGTCTTTAGTTCCTCCTTCTTGAAGAGAGCGGAGAGGCCTATCTCATAGATGTGTTTCCAAACACACATCCCAGGGCTAGTGGTAATTTTATCATTATTTCGAAAACATTTGAGTACCATATTTGAGAAATGAACACCATTTTTGAACTAGAACGCAACCTAAGGAGAATATTCCTACATAGAGAAGTTGGCCATTTTTGAATGGTGGGCGGTTTATGAGGAATCTCTCAATGTTGTAAGAATAAGTTGGCCCCTTAAAAAGAGCATTACCTAACCTTCCCCCTTCACAAAAAAATGATCTTTAATAAAATTGGTATATTCTATTTGTGAAATTTTATAGTAATATCTTTTCCTTTAAATCCAGTGGCAAATCTTCATTATTCTGCATTGCAGTCTTAGAGAAAGTTTTTACTGTAGTCTGAACCTGTTAGCATCGGTACCAATACCATGGGAGAAGCTTTTATTGCAGAAGAGATTGTTAAGGAGATTAGCCTTAAGGATATCTCTAAGAAACTCGAAGAATTCGCTCAGGCAAGAGATTGGGAGAAGTATCATAGTCCCAGGAATTTACTACTTGCTATGGTGGGAGAAGTAGGGGAGCTATCAGAGATATTCCAATGGAAAGGGGAGGTGGCAAAAGGGTTACCAAATTGGGGAGATTCAGATAAGGAGCATCTTGGTGAAGAGTTATCTGATGTTCTGCTATACCTTATCAGGCTTTCTGATATTTATCAACACTGCTTCAATTCAACGCTCTCTGCTGAAAAGGTTGTGGACAAAATGGCAGGAACAACTGTTTTTACCCCAGCTTTGGAAGGAATTAAGCTGGTCAAGTCTGAGAATGGAGAAATGTTGTCCAGGCCTTTCTTGGACGCGTGCAAGCACATTCTTCCTGTTATAGATAAATTTGGTGCTGCTATGACACTCGTAAAATCTGATATTGGTGGAAATATTACGAGATTGGAAAACAAGTACAACTCGGATCCAGAAAAATTTAAGTACATGTATAGTATGGTACAAGTGGAGGTTGAAAGTAAGACAGCTAAAGGATCATCTAGTTGTACCAACGGCCTGCTTTGGCTAACAAGAGCTATGGATTTCTTGGTGGAATTGTTCCGCAATTTACTCGAGCACCCAGATTGGGCAATGTCTCAAGCTTGTACTGACTCTTATAGCAAGACCTTGAAGAAATGGCACGGGTGGCTGGCCAGTTCAAGCTTTTCTATTGCAATGAAGTTAGCTCCTGATAGGAGCAAGTTTATGGAGGTGCTGGGGGGTGATGCTGTCAAGTGCGACATTGAGCAATTTTTGACCACCTTTACTCCACTGCTTCAACAGAACCACAAGTTTTTGGCTAGTGTGGGTTTGGATGACATGAAAGCTTCTTAATGCGCAAATGAAGTTTCGTCATTGCTGCTAAGTTAGAATTGCAGCCATTGACATCTTAACATCAGAGAATTTGCAGACCAGATCGATGTTGAAATTCCATCTTAATCTTAACCTTTTCGGCAGACATACTACGTGCTCTCTTATATCTGTAAAGAGATTATTGATTAACAGTGCCTTTGTGCCTGTTTTCAGACAATATAATGTGACCCGTCATCAATGTATGTTTATTAATCTTCGTTTATGGTATGCGTTTTGTCATCCGAAACTCTGATGAGTTGAACCTGCTATCAGACAATATAATGTGACCAATGAATGTTACTTTGTATTAATCTTCGTTTATGCTATTGCATATTTCCTCCGAACTGCAAAGAGTCTGAACCTGCTGTCGACATCAGTCTAGTCTAGTCTAGTCTTTAGTTCCTCCTTCTTGAAGAGAGCGGAGAGGCCTATCTCATAGATGTGTTTCCAAACACACATCCCAGGGCTAGTGGTAATTTTATCATTATTTCGAAAACATTTGAGTACCATATTTGAGAAATGAACACCATTTTTGAACT ATGGGAGAAGCTTTTATTGCAGAAGAGATTGTTAAGGAGATTAGCCTTAAGGATATCTCTAAGAAACTCGAAGAATTCGCTCAGGCAAGAGATTGGGAGAAGTATCATAGTCCCAGGAATTTACTACTTGCTATGGTGGGAGAAGTAGGGGAGCTATCAGAGATATTCCAATGGAAAGGGGAGGTGGCAAAAGGGTTACCAAATTGGGGAGATTCAGATAAGGAGCATCTTGGTGAAGAGTTATCTGATGTTCTGCTATACCTTATCAGGCTTTCTGATATTTATCAACACTGCTTCAATTCAACGCTCTCTGCTGAAAAGGTTGTGGACAAAATGGCAGGAACAACTGTTTTTACCCCAGCTTTGGAAGGAATTAAGCTGGTCAAGTCTGAGAATGGAGAAATGTTGTCCAGGCCTTTCTTGGACGCGTGCAAGCACATTCTTCCTGTTATAGATAAATTTGGTGCTGCTATGACACTCGTAAAATCTGATATTGGTGGAAATATTACGAGATTGGAAAACAAGTACAACTCGGATCCAGAAAAATTTAAGTACATGTATAGTATGGTACAAGTGGAGGTTGAAAGTAAGACAGCTAAAGGATCATCTAGTTGTACCAACGGCCTGCTTTGGCTAACAAGAGCTATGGATTTCTTGGTGGAATTGTTCCGCAATTTACTCGAGCACCCAGATTGGGCAATGTCTCAAGCTTGTACTGACTCTTATAGCAAGACCTTGAAGAAATGGCACGGGTGGCTGGCCAGTTCAAGCTTTTCTATTGCAATGAAGTTAGCTCCTGATAGGAGCAAGTTTATGGAGGTGCTGGGGGGTGATGCTGTCAAGTGCGACATTGAGCAATTTTTGACCACCTTTACTCCACTGCTTCAACAGAACCACAAGTTTTTGGCTAGTGTGGGTTTGGATGACATGAAAGCTTCTTAA MGEAFIAEEIVKEISLKDISKKLEEFAQARDWEKYHSPRNLLLAMVGEVGELSEIFQWKGEVAKGLPNWGDSDKEHLGEELSDVLLYLIRLSDIYQHCFNSTLSAEKVVDKMAGTTVFTPALEGIKLVKSENGEMLSRPFLDACKHILPVIDKFGAAMTLVKSDIGGNITRLENKYNSDPEKFKYMYSMVQVEVESKTAKGSSSCTNGLLWLTRAMDFLVELFRNLLEHPDWAMSQACTDSYSKTLKKWHGWLASSSFSIAMKLAPDRSKFMEVLGGDAVKCDIEQFLTTFTPLLQQNHKFLASVGLDDMKAS Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Homology
BLAST of Spo03725.1 vs. NCBI nr
Match: gi|902163410|gb|KNA06823.1| (hypothetical protein SOVF_177490 [Spinacia oleracea]) HSP 1 Score: 414.1 bits (1063), Expect = 2.200e-112 Identity = 202/202 (100.00%), Postives = 202/202 (100.00%), Query Frame = 1
BLAST of Spo03725.1 vs. NCBI nr
Match: gi|731320785|ref|XP_010670997.1| (PREDICTED: pleckstrin homology domain-containing family A member 8 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 384.4 bits (986), Expect = 1.900e-103 Identity = 184/199 (92.46%), Postives = 193/199 (96.98%), Query Frame = 1
BLAST of Spo03725.1 vs. NCBI nr
Match: gi|743830044|ref|XP_010934309.1| (PREDICTED: pleckstrin homology domain-containing family A member 8-like [Elaeis guineensis]) HSP 1 Score: 343.2 bits (879), Expect = 4.800e-91 Identity = 164/199 (82.41%), Postives = 182/199 (91.46%), Query Frame = 1
BLAST of Spo03725.1 vs. NCBI nr
Match: gi|661892609|emb|CDP03767.1| (unnamed protein product [Coffea canephora]) HSP 1 Score: 342.0 bits (876), Expect = 1.100e-90 Identity = 162/199 (81.41%), Postives = 183/199 (91.96%), Query Frame = 1
BLAST of Spo03725.1 vs. NCBI nr
Match: gi|645235561|ref|XP_008224329.1| (PREDICTED: pleckstrin homology domain-containing family A member 8 [Prunus mume]) HSP 1 Score: 338.2 bits (866), Expect = 1.500e-89 Identity = 159/199 (79.90%), Postives = 182/199 (91.46%), Query Frame = 1
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QJF3_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_177490 PE=4 SV=1) HSP 1 Score: 414.1 bits (1063), Expect = 1.500e-112 Identity = 202/202 (100.00%), Postives = 202/202 (100.00%), Query Frame = 1
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CS62_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g048780 PE=4 SV=1) HSP 1 Score: 384.4 bits (986), Expect = 1.300e-103 Identity = 184/199 (92.46%), Postives = 193/199 (96.98%), Query Frame = 1
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Match: A0A068U657_COFCA (Uncharacterized protein OS=Coffea canephora GN=GSCOC_T00016246001 PE=4 SV=1) HSP 1 Score: 342.0 bits (876), Expect = 7.400e-91 Identity = 162/199 (81.41%), Postives = 183/199 (91.96%), Query Frame = 1
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Match: M5Y9F2_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa011640mg PE=4 SV=1) HSP 1 Score: 337.8 bits (865), Expect = 1.400e-89 Identity = 158/199 (79.40%), Postives = 182/199 (91.46%), Query Frame = 1
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Match: G3MLZ5_9ACAR (Uncharacterized protein OS=Amblyomma maculatum PE=2 SV=1) HSP 1 Score: 335.5 bits (859), Expect = 7.000e-89 Identity = 157/197 (79.70%), Postives = 178/197 (90.36%), Query Frame = 1
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Match: GLTP1_ARATH (Glycolipid transfer protein 1 OS=Arabidopsis thaliana GN=GLTP1 PE=2 SV=1) HSP 1 Score: 318.2 bits (814), Expect = 1.000e-85 Identity = 150/199 (75.38%), Postives = 171/199 (85.93%), Query Frame = 1
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Match: GLTP3_ARATH (Glycolipid transfer protein 3 OS=Arabidopsis thaliana GN=GLTP3 PE=2 SV=1) HSP 1 Score: 134.8 bits (338), Expect = 1.600e-30 Identity = 70/212 (33.02%), Postives = 114/212 (53.77%), Query Frame = 1
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Match: GLTP2_ARATH (Glycolipid transfer protein 2 OS=Arabidopsis thaliana GN=GLTP2 PE=2 SV=1) HSP 1 Score: 127.9 bits (320), Expect = 2.000e-28 Identity = 66/189 (34.92%), Postives = 101/189 (53.44%), Query Frame = 1
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Match: PKHA8_DANRE (Pleckstrin homology domain-containing family A member 8 OS=Danio rerio GN=plekha8 PE=2 SV=1) HSP 1 Score: 101.7 bits (252), Expect = 1.500e-20 Identity = 57/159 (35.85%), Postives = 92/159 (57.86%), Query Frame = 1
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Match: DCTP1_MOUSE (dCTP pyrophosphatase 1 OS=Mus musculus GN=Dctpp1 PE=1 SV=1) HSP 1 Score: 95.9 bits (237), Expect = 8.300e-19 Identity = 44/80 (55.00%), Postives = 58/80 (72.50%), Query Frame = 1
BLAST of Spo03725.1 vs. TAIR (Arabidopsis)
Match: AT2G33470.1 (glycolipid transfer protein 1) HSP 1 Score: 318.2 bits (814), Expect = 5.800e-87 Identity = 150/199 (75.38%), Postives = 171/199 (85.93%), Query Frame = 1
BLAST of Spo03725.1 vs. TAIR (Arabidopsis)
Match: AT3G25400.1 (NTP Pyrophosphohydrolase MazG-related, RS21-C6 (InterPro:IPR011394), EAR (InterPro:IPR009039), NTP pyrophosphohydrolase MazG, putative catalytic core (InterPro:IPR004518)) HSP 1 Score: 141.0 bits (354), Expect = 1.300e-33 Identity = 63/80 (78.75%), Postives = 75/80 (93.75%), Query Frame = 1
BLAST of Spo03725.1 vs. TAIR (Arabidopsis)
Match: AT3G21260.3 (Glycolipid transfer protein (GLTP) family protein) HSP 1 Score: 134.8 bits (338), Expect = 9.100e-32 Identity = 70/212 (33.02%), Postives = 114/212 (53.77%), Query Frame = 1
BLAST of Spo03725.1 vs. TAIR (Arabidopsis)
Match: AT1G21360.1 (glycolipid transfer protein 2) HSP 1 Score: 127.9 bits (320), Expect = 1.100e-29 Identity = 66/189 (34.92%), Postives = 101/189 (53.44%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo03725.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo03725.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo03725.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo03725.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 4
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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