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Homology
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: D7FMA0_ECTSI (Uridine kinase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FMA0_ECTSI) HSP 1 Score: 351 bits (901), Expect = 3.970e-115 Identity = 172/202 (85.15%), Postives = 188/202 (93.07%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDGFNPVVLDMIVAKLRPHAE 751
P+VVGIAGGSGSGKTTLSRAVV+ALGGA +VTYICHDYYY+DLSHLP E RA+TNFDHPDALETSLLV L VLKAGG+ADVP YDFT+HSR +T RAEG+GVIIVEGILIFAH +LRDL DVK+FVDTEPDIRFIRRMQRDI++RNRTADEVVAQ+LATVRPMHELFVTPSKKFCDMIVPDG NPVVL+M+VAKLRP AE
Sbjct: 3 PVVVGIAGGSGSGKTTLSRAVVEALGGARRVTYICHDYYYRDLSHLPIEQRAKTNFDHPDALETSLLVKQLEVLKAGGAADVPMYDFTVHSRKEETTRAEGRGVIIVEGILIFAHAELRDLLDVKIFVDTEPDIRFIRRMQRDIAERNRTADEVVAQYLATVRPMHELFVTPSKKFCDMIVPDGLNPVVLEMLVAKLRPLAE 204
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A7C7UZ41_9CHLR (Uridine kinase n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A7C7UZ41_9CHLR) HSP 1 Score: 251 bits (640), Expect = 4.130e-76 Identity = 121/203 (59.61%), Postives = 160/203 (78.82%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKLRPHAE 751
PI++G+AGG+GSGKTT+S+A++D +G +++ YI HD YYKD SHLP E+RA+ NFDHPDALET LLV HL L+AG +VP YDFT H+R SQT R E + V++VEGILIFA LRD+ DVK++VDT+ DIRFIRR++RDI++R RT V+ Q+L+TVRPMH FV PSK++ D+I+P+G FNPV LDM+VA++ E
Sbjct: 8 PIIIGVAGGTGSGKTTVSQAILDRVG-RDRIAYIQHDSYYKDRSHLPLEERAKINFDHPDALETELLVQHLTELRAGRPVEVPVYDFTTHTRISQTQRVEPRRVVLVEGILIFADDALRDMMDVKIYVDTDADIRFIRRLERDITERGRTMRSVIDQYLSTVRPMHLEFVEPSKRYADVIIPEGGFNPVALDMVVARIEAMIE 209
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A524A862_9CHLR (Uridine kinase n=1 Tax=Anaerolineales bacterium TaxID=2073117 RepID=A0A524A862_9CHLR) HSP 1 Score: 248 bits (633), Expect = 4.060e-75 Identity = 122/203 (60.10%), Postives = 158/203 (77.83%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKLRPHAE 751
PI++G+AGG+GSGKTT+S+A++D +G +++ YI HD YYKD SHLP E+RA+ NFDHPDALET LV HL VLK G +VP YDFTIH+R SQT E VI+VEGILIFA LRD+ DVK++VDT+ DIRFIRR++RDI++R RT + V+ Q+L TVRPMH FV PSK++ D+I+P+G FNPV LDM+VA++ E
Sbjct: 8 PIIIGVAGGTGSGKTTVSQAILDRVG-RDRIAYIQHDSYYKDRSHLPFEERAKINFDHPDALETEFLVQHLKVLKDGHHVEVPVYDFTIHTRASQTQWVEPCRVILVEGILIFADDALRDMMDVKIYVDTDADIRFIRRLERDITERGRTMNSVIDQYLTTVRPMHLEFVEPSKRYADVIIPEGGFNPVALDMVVARIEAMIE 209
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A7C7V4Y7_9CHLR (Uridine kinase n=2 Tax=Anaerolineae TaxID=292625 RepID=A0A7C7V4Y7_9CHLR) HSP 1 Score: 246 bits (627), Expect = 2.490e-74 Identity = 117/199 (58.79%), Postives = 157/199 (78.89%), Query Frame = 2
Query: 143 TPIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKL 736
TPIV+GIAGG+GSGKTT+++ ++ +G +K+ Y+ HD YYKD SHL E+RA N+DHPD+LETSLLV H+ LK G + + P YDFT HSRT QT+R E + +I+VEGILIF P+LR+LFDVK+FVDT+ DIRFIRR++RDI +R RT + V+ Q+L TVRPMH FV PSK++ D+I+P+G FN V LDM++A++
Sbjct: 5 TPIVIGIAGGTGSGKTTVAQEILRRVG-PDKIAYLPHDAYYKDHSHLSPEERALVNYDHPDSLETSLLVTHIQALKRGQTIERPVYDFTSHSRTKQTVRVEPRPIILVEGILIFVEPELRELFDVKIFVDTDADIRFIRRLRRDIQERGRTVESVIEQYLHTVRPMHLEFVEPSKRYADVIIPEGGFNEVALDMVIARI 202
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A2U2SDW9_9CHLR (Uridine kinase n=3 Tax=Chloroflexi TaxID=200795 RepID=A0A2U2SDW9_9CHLR) HSP 1 Score: 245 bits (626), Expect = 4.130e-74 Identity = 120/203 (59.11%), Postives = 159/203 (78.33%), Query Frame = 2
Query: 131 MVLITPIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKL 736
++ +TP+V+GIAGGSGSGKTT++ ++ +G AEK+ Y+ HD YYKDLS+LP R NFDHP++LETSLL+ H+ LK G ++P YDF IH RTSQT R E K VIIVEGILIFA +LR+LFDVK+FVDT+PDIRFIRR+QRDI +R R+ + V+ Q+L+TVRPMH FV PSK++ D+I+P+G N V +DM+VA++
Sbjct: 2 VIRLTPLVIGIAGGSGSGKTTVANMIIQHVG-AEKIAYLPHDAYYKDLSNLPEAQRHLINFDHPNSLETSLLIQHVIQLKKGLPIELPIYDFRIHCRTSQTQRIEPKSVIIVEGILIFAEAELRELFDVKIFVDTDPDIRFIRRLQRDILERGRSTESVIQQYLSTVRPMHLEFVEPSKRYADIIIPEGGLNTVAIDMVVARI 203
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A0N8GQ81_9CHLR (Uridine kinase n=1 Tax=Thermanaerothrix daxensis TaxID=869279 RepID=A0A0N8GQ81_9CHLR) HSP 1 Score: 245 bits (625), Expect = 7.560e-74 Identity = 117/199 (58.79%), Postives = 158/199 (79.40%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKLR 739
P+V+GIAGGSGSGKTT++ +++ +G +++ Y+ HD YY+DL+ LP RA+ NFDHPD+LETSLL+ H+ LK D+P YDFT H+RTS+TIR E K VIIVEGILIFA P LR LFDVK+FVDT+PDIRFIRR+QRDI++R RT + V+ Q+L+TVRPMH FV PSK++ D+I+P+G N V LDM++++++
Sbjct: 8 PLVIGIAGGSGSGKTTVANVILERVG-RDRIAYLPHDAYYRDLTDLPPNQRAEINFDHPDSLETSLLIEHIQRLKQWQPIDLPVYDFTTHTRTSRTIRVEPKRVIIVEGILIFAEPALRALFDVKIFVDTDPDIRFIRRLQRDITERGRTTESVIKQYLSTVRPMHLDFVEPSKRYADVIIPEGGMNTVALDMVISRIQ 205
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A3M1BL86_9CHLR (Uridine kinase n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A3M1BL86_9CHLR) HSP 1 Score: 243 bits (621), Expect = 2.120e-73 Identity = 117/198 (59.09%), Postives = 155/198 (78.28%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKL 736
PIV+GIAGGSGSGKTT++R++++ +G + + Y+ HD YYKDLSHLP RAQ NFDHPD+L+T LL+ H+ L+ G +VP YDFT HSRT+Q+ R E + VI+VEGILIFA LR LFDVK+FVDT+ D+RFIRR+QRDI +R RT D V+ Q+L+TVRPMH FV PSK++ D+I+P+G FN V +DM+V ++
Sbjct: 7 PIVIGIAGGSGSGKTTVARSILERVG-EKHIAYLPHDAYYKDLSHLPENQRAQINFDHPDSLDTPLLIQHIKQLQRGQPVEVPVYDFTTHSRTAQSTRVEPQKVILVEGILIFAEAALRQLFDVKIFVDTDADLRFIRRLQRDIHERGRTLDNVIHQYLSTVRPMHLEFVEPSKRYADVIIPEGGFNTVAMDMVVTRI 203
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A3D0CYP2_9CHLR (Uridine kinase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3D0CYP2_9CHLR) HSP 1 Score: 243 bits (620), Expect = 2.980e-73 Identity = 115/199 (57.79%), Postives = 157/199 (78.89%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVP-DGFNPVVLDMIVAKLR 739
P++VG+AGG+ SGKTT+SRA++D +G A+++ YI HD YY+D SHLP E+R + NFDHPD+LET LL+GHL L+AG +VP YDFT ++RT +T R E + VI+VEGILIFA P LR+LFDVK++VDTE DIRFIRR++RD+ +R R+ D V+ Q+L TV+PMHE FV PSK+ D+I+P G N V LD++ A+++
Sbjct: 6 PVIVGVAGGTASGKTTVSRAILDRVG-ADRIAYIQHDSYYRDASHLPPEERVKINFDHPDSLETDLLIGHLHRLQAGQPIEVPVYDFTTYARTRKTKRVEPRPVILVEGILIFAEPGLRELFDVKIYVDTEADIRFIRRLERDLRERERSLDSVIQQYLTTVKPMHEEFVEPSKRHADIIIPRGGHNRVALDLVTARIQ 203
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A3C0ZYX0_9CHLR (Uridine kinase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3C0ZYX0_9CHLR) HSP 1 Score: 243 bits (619), Expect = 3.790e-73 Identity = 115/198 (58.08%), Postives = 155/198 (78.28%), Query Frame = 2
Query: 146 PIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKL 736
PI++G+AGG+GSGKTT+S A+++ +G E++TYI HD YYKDLSHLP E+R + NFDHPDAL+T+LLV HL L+ G +VP YDFT H+R +T R E +GV +VEGILIF LR+L D+K+FVDT+ DIRFIRR+QRDI++R RT + V+ Q+L TVRPMH FV PSK++ D+I+P+G FN +DM+VA++
Sbjct: 3 PIIIGVAGGTGSGKTTVSEAILERVG-RERITYIQHDSYYKDLSHLPLEERHRINFDHPDALDTNLLVEHLERLQTGSPVEVPIYDFTTHTRRRETRRVESRGVTLVEGILIFTDKALRELMDIKIFVDTDADIRFIRRLQRDITERGRTMESVIRQYLGTVRPMHLEFVEPSKRYADIIIPEGGFNVTAIDMVVARV 199
BLAST of mRNA_P-littoralis_Contig164.16.1 vs. uniprot
Match: A0A497A3L3_9CHLR (Uridine kinase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A497A3L3_9CHLR) HSP 1 Score: 241 bits (616), Expect = 9.520e-73 Identity = 116/200 (58.00%), Postives = 156/200 (78.00%), Query Frame = 2
Query: 140 ITPIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSHLPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQTIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDISQRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDG-FNPVVLDMIVAKL 736
+ PIV+G+ GG+GSGKTT+ + +++ +G AE++ YI HD YY+D SHLP E+RA+ N+DHPD+LET LLV H+ L G +VP YDFT H+RT +T R E + VI+VEGILIFA P LRDL DVK++VDT+ DIRFIRR+QRDI++R RT + V+ Q+L TVRPMH FV PSK++ D+I+P+G FN V LDM+VA++
Sbjct: 1 MNPIVIGVCGGTGSGKTTVVQVILERVG-AERIAYIQHDSYYRDQSHLPLEERARVNYDHPDSLETELLVKHVRQLLDGQMVEVPIYDFTTHTRTKRTHRVEPRRVILVEGILIFAEPALRDLMDVKIYVDTDADIRFIRRLQRDIAERGRTMESVIEQYLTTVRPMHLEFVEPSKRYADVIIPEGGFNVVALDMVVARI 199
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D7FMA0 |
| PFAMs | NPL4,PRK,UN_NPL4 |
| Model size | 1861 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00002,RC00017 |
| KEGG ko | ko:K00876 |
| KEGG Reaction | R00513,R00516,R00517,R00962,R00964,R00967,R00968,R00970,R01548,R01549,R01880,R02091,R02096,R02097,R02327,R02332,R02371,R02372,R08232 |
| KEGG Pathway | ko00240,ko00983,ko01100,map00240,map00983,map01100 |
| Hectar predicted targeting category | other localisation |
| Exons | 7 |
| Evalue | 1.88e-121 |
| EggNOG OGs | COG0572@1|root,KOG4203@2759|Eukaryota |
| Ec32 ortholog description | Uridine kinase like |
| Ec32 ortholog | Ec-17_003720.1 |
| EC | 2.7.1.48 |
| Description | UMP salvage |
| Cds size | 687 |
| COG category | F |
| BRITE | ko00000,ko00001,ko01000 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789791.4908214-UTR-P-littoralis_Contig164:76558..76642 | 1680789791.4908214-UTR-P-littoralis_Contig164:76558..76642 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig164 76559..76642 + |
| 1680789791.5057702-UTR-P-littoralis_Contig164:81708..81754 | 1680789791.5057702-UTR-P-littoralis_Contig164:81708..81754 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig164 81709..81754 + |
| 1680789791.5795054-UTR-P-littoralis_Contig164:87250..88294 | 1680789791.5795054-UTR-P-littoralis_Contig164:87250..88294 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig164 87251..88294 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789791.5188165-CDS-P-littoralis_Contig164:81754..81813 | 1680789791.5188165-CDS-P-littoralis_Contig164:81754..81813 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 81755..81813 + |
| 1680789791.528903-CDS-P-littoralis_Contig164:82889..83059 | 1680789791.528903-CDS-P-littoralis_Contig164:82889..83059 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 82890..83059 + |
| 1680789791.5418632-CDS-P-littoralis_Contig164:83450..83529 | 1680789791.5418632-CDS-P-littoralis_Contig164:83450..83529 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 83451..83529 + |
| 1680789791.5507314-CDS-P-littoralis_Contig164:85498..85595 | 1680789791.5507314-CDS-P-littoralis_Contig164:85498..85595 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 85499..85595 + |
| 1680789791.5595074-CDS-P-littoralis_Contig164:86683..86815 | 1680789791.5595074-CDS-P-littoralis_Contig164:86683..86815 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 86684..86815 + |
| 1680789791.5681787-CDS-P-littoralis_Contig164:87100..87250 | 1680789791.5681787-CDS-P-littoralis_Contig164:87100..87250 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 87101..87250 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig164.16.1 >prot_P-littoralis_Contig164.16.1 ID=prot_P-littoralis_Contig164.16.1|Name=mRNA_P-littoralis_Contig164.16.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=229bp
MVLITPIVVGIAGGSGSGKTTLSRAVVDALGGAEKVTYICHDYYYKDLSH
LPTEDRAQTNFDHPDALETSLLVGHLAVLKAGGSADVPTYDFTIHSRTSQ
TIRAEGKGVIIVEGILIFAHPDLRDLFDVKVFVDTEPDIRFIRRMQRDIS
QRNRTADEVVAQFLATVRPMHELFVTPSKKFCDMIVPDGFNPVVLDMIVA
KLRPHAELAGAVEAGEAEDAARVATPIA* back to topmRNA from alignment at P-littoralis_Contig164:76559..88294+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig164.16.1 ID=mRNA_P-littoralis_Contig164.16.1|Name=mRNA_P-littoralis_Contig164.16.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=11736bp|location=Sequence derived from alignment at P-littoralis_Contig164:76559..88294+ (Pylaiella littoralis U1_48)
GTGTTTCTTGCGCTGAAACCCGTTTGCATCGCCGCTCGTAACTTTCGAAC
GAATGAAGACACAGCAATGACGAAGGCATCTTCCGTGAGCTGTGCATATG
ACCCCCCTCGTCGTGTCGTGATCGCTTGGGTTAGGGTTACATCCGTACAT
TCGCAACGTAGGTTTGCTCATGGCCAACTCATGCGAAACAAATTGAGAAA
GATGTGTCAGCCGGTCTGCTGTACAGCAGCATTATTTTATACTGCTGTAT
GTTAGTAGTTGTACAGCAGTAGAGAAAGGAGATGACAGCTCGGGTTCTTT
TTTACAACACAACATGCCACAGCCACGAGCGATGACCATTTTGCGAACAT
GCCAGTGTGATCCTCACCCAAACGATTACCACACGAGGGGAGCCATACGC
ACGGCTCACGGAAGATGGGTTTGTCATCGCTGTGGCTTCATTCATTGGGG
AGTTACGAGCGAAGATGCAAACTGTGGTCTCACTCAGAGGAAGCTTTGAT
ACTCCTCCTCCTGCTGCTGCTGTGCTGATGATGCTGCTGCTACATACGGT
TGGTTTTGGTTGCTGATGAACACGATGGAATGGATGATGACACGGCAAGC
GTACACAGAAAGATGGTGGACACATGTATGGACAGCAGCAAGCAGTAGTA
GCAGCAGCAACAGCAGGAGCAGAAGCTGCAACAACACAGAAAGTAGTGGC
AGCAGCTCTCCTCCTCTCTCTGATGCTCTGTTGTGATTAATATCGTTTGT
TGTGTCCACACACAAAGAGAGAGCTAAGTTCACACATTTTTTTTTTAATA
TATTTTCCGAACGCATTTTCCGAACTGGTCTAGCGTTCGGAAAACGTCCG
ATTTTCCGGCTGAAATCCGATTAAAAGCTGTTCGAAAAATTTTGTTCGGA
AAATGTTGTTCGGAAAAAGGTGTTTTCCGAGCCTATAAGAAGCCTTGACT
CTAAAAAAATTCGGAATCTATCAAAAAATGAATAAAAAATCCGGCCCTAC
AAGAAACCGCCTAACGGTGGGTATTCTCGCGTCGACTCTTCAAAAATCTA
AAAATCTTGCAATGACAGAAAAAAAAATTCACGCGCATCAAAAAAATTGT
ACTTGTATGTACTTCGAAGGATGTGATTAAATATATAAGTGGGACAAGCA
GAGCAATTGAGTGCAAGCAAGCAGTGCTGCTGTGTAGATGTCTTCGGTCC
TTTTCTACCGAGGCAGATATGGTTTGCTAGTATCATCCAGCTGGTAATAT
CTTCACGCAGTTGTCACCACACCTTGTTAACGGAAGATGCTCTGAAACTA
ACAGCTTTTTTCAAATAGAACATGACCGTTGGGAGCGTAGGTGGTGATTT
TTTTATTATTATTACTCCCGTGGACGGGCATCAGCACGAGAGGCAGAGGA
ACCAACCCATCTCTCTCCATCTCTGTCCATTTACCCTGGCATACAGCGCA
ACAGCATGATGTAATAAAACGCTGGTCTGGCTCCAGCAGATGTGCTAGCG
GTACTGCGTGAGGTACTCGTACATACACAGCAGCGTGAGGTTATGGCGTA
TGCATTTCAATACTGTAATACAACCGCCGTTGTGTGGGTGTTGCATCATC
AGTTTCCCTTGATCCCCTCTCTGTGTGAGAAATGATTTATGATTTGCTGA
TTTCTCATTTTTGTTTATGTTGTTGCACCGTAACACAAACTTTTTCGGGA
ATCTACGAAGATGGCTGCTGTGTGAGAGAGCTCCTTTCCTGTGTTGCTGC
ATGTCGTATAGGTACAGGGGTAACGTAGCTCTGTGTACGTCCCATTATCT
CCTCTCTCTCCCCTCTCTCCGACGTTGTCTACTTTACCTGGCGCTATTGC
GGATATTCTGAGTGTCCTTCATCTCTCTCGCGGCAGGTGTGTGTGTGTGC
CGGTGTCTGTGTGTCTGTGTATACCGGTAGTCATTCCATCGCAATTTGGA
CGCTAGTCTGCTACGTACATATCATACGCCTTTCGATATCAACTCTGCTG
TGACTGCTGTTGTCGGGCGCACCACCCGCCGGGGTCACACATAGAAGCGT
ATGGATTCCAGCGGCCCTTTCCCTCTTCGACTTATGTTGTTTACTCGCGA
AACAATTGCTCCTGGCTTGGGCAAATACGAAAATTGGACTTCTGTACTTG
GAAGCACTGCGACTTGATGAAAGTGCTCATGTAATTATTACTTCGCATAC
ATTTCTTATTTTTATCGACACCTTGGCAACTGAATTCGGTGTCTGTTTGT
CTTTTTGTCACTCCTCTGTGACTTTTTATTTTATTTTTTACTTTTATCTC
TTTTTATTTCATTTTGTGGCGTGGCTCTGGACCAGGCTCCCTTTTCTTGT
TTTCTTGTATCTTGTTCTATTTTTTCTTTTTTCCGCGTTGTGTGATTTCT
CGGGATCAGTTTTTGTTTTTACCGGAGTCTCCTTGTCGTGCCTTTATTTG
GTGGACTGAGGGGATCTCCCGAGTACTATAATATATACCTCTTCTGCGGC
AAGCAGCCTGTGACCACGGAAATCGTACCTGATCGGTGGAGTACGGACAT
TAGAAGGTACTGAGGAGAGATCGGAATGGTTTTTAATGTGAAGACAACAA
CAACAACAACAACAACAACAACATACCGTAGGTGACAGTAGATAACACAC
CCCTGTGATAACATATTTCAGTTCAAAAAACCTATCACAGGGTGTGGTAT
GTACAGGGGGGTGTGCTATCTTCTGTCACCGTGTGATAAAGTGCCCAATA
TTTCAGCTCGCTCTCAGGGGGTGTGATAAAAGGGAGTGTGTTAAATGAGG
GGTGTGATAACTACTATTGCTACCAGATTGTAGCTGCTAAACAACTCCTG
CGAGGGATGTGATAAAACCAGGGGGTGTGATAAAAGGGGTGTGATATCTC
AAATGCAAACAAGGTGCTGCTGTGTAAGAACTCCTACAAGGGGTGTGATA
AAACCAGGGTGTGTGATACAAAGGGGTCTGATATCTCAATTCCCAACAGA
TGCTGCTGTGAAACAAATCCTTCAAGGGGTGTGATAGCTCTATGCCGCTG
AGCGAGAGGGCGTGCTCTCAATCAACGCTGCCACATCGTTGCCACCGCAG
TCCAGGGGCAGAGGGCGATAGAGAACGCCTGGAAAACAAATAGGGGAAGG
CACCTGATCTTGCAAGTCTAGGTAATCGTTGCCGGCACCTTGACGGGTGT
AATCTTACCCCGTGGTGGCGGCATCGACAACACGCATCATACCCACATGA
ACCTGAGCTCTTGAACCATCACACTAGATAGAAACTACCGTACTTTGACA
GACGGAACAACACAACGAAAGAGCGGCGAAAATGTATACCGTTGCGTGTG
AACACGGGGGCTCCGTGTTTCGGGGGTGTGGTATGTGGCACGCCGAAAAA
TTATCTCTTGGGGGTGTGGTATCTTCTGTCACCGTGTGATAATGGGCCGT
GTTTTTTCGTGCCCAAAAAAAGTATCACAGGGTGTGGTTTCTAGTTGGGG
GTGTCGTATCTTCTGTACGTGTGTTATCTACTGTCACCTACGGTACATTT
CTTGTATCTTGTTCTATTTTTGTACAGCGTTGTGTGATTTCTCGGGGTCC
GTTTTTGTTTTTGCCGGAGTCTCCTTGTCGTGCCTTTATCTGGATGACTG
AGGGGATCTCCCGAGTACTATATACCTCTTCTGCGGCAAGCAGCCTGTGA
CCACGGAAATCGTACCTGATCGGTGGAGTACGGACATTAGAAGGTACTGA
GGAGAGATCGGAATGGTTTTTGATGTGAAGACAACATCAACAACAACAAC
AACAACAACAACAACAACAACATACATCACCGGTCGCCCCGGTGGTTCAG
TTGGTAATCCATCTAACCTTCTGACATTCACGCGTGAGTTCGAATCCCAG
TGCAGTACCACGATCTGGGTTTTCTTCCCACAATGCGCGTGAAAGTGGAA
AGCGATCAATTCGTGAGTAAACAAAATTCGATCGTACCAACGACGAGGGA
AAAGGATTGCTGTCCCCTTTCTCGCGGTAAAAGCTCAACCAAACAAGGCA
AGCACCGCAGAGGGAAGTGGAGAAAAAAAAAAATCCTGTGTTGACTTCCC
CCTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGCGTGGCGT
CCCATTAAAGGGACAGCAACACACACACACACACACACACACACACACAC
ACAGCAGTCAAGCCAGCTGGTATCCAGTTACACCTGGTGTGCGGGGGAGC
CGATCATGCCGTGGTAGTTTTCAACGGATAAATCGCACGTCCGTATGTAG
ACCTCGAGGGAATCGCTAGAGCTATCATACGCGTGCATGATGCCGGAAAT
GTGTACCGTTCATGACATGTGGATAGATACTCCTCCTGTAAATGAGTTGG
TTGTTCGTAAGGCCAACTGGAGGGATGCAAATAATTTGCAGACTTTCACA
CACGCCTGATTCTTCTGGGTTTCCAAAGTCTATATTTCGTATCATACGAA
TTTACCACCGGAGGATGCTCCCGGAGACAGTCCCTGCGAGCAATAATTAG
TGTCTAGGATGTGTCCTCGCGACAGGCTTTAAGATTCGCTGATTACGATT
TTTGAAATGAGCCCTCCGTCATCGAGTTCTGTGAGCTACAAGGCGTAGTT
CGGATAATGTTGAAAGCAGCCATATCAATCATACGTATGACATTTCTGAA
CGTTTCCAGCACACAGCACCCGAAACAGCAAAGCAGACGTGGGCACCTGC
GATCCCCCTTGTGAAAAATCATTGAACAATTGTTTTCAACAAAATTGAAA
AGCTCTACATTATAAAAGCAAGTGAACGCGTCGCCAAAAAAATGGCAAAA
AAATGGCGACGCGTTCTCTTGCTTATAGAGTGCGTTTGAGAATTGAGCGG
TTAGCGAGGCAAAAGTTTAGCTATTGGGAGTCACGTGATCTTCCAAGTGA
CTAATAACCAAACGGCGACCCAAAATGGCGACATTTGGCTACCTAGGGGT
AAGAGGGTTAATTCAGCACAATGCTCTCCTGACATATCATTCCCATCGCC
GTGATCGAATCGAAGACCGTAGCACTCACCTATGCCCCGTATTTTGCTAC
TGCTGTACGGTACGGCCGCTGTGGTGCTACCCCCCCCTCTCATACAACAG
ATCAGGCGTCTGAGGTCGGCTCGGTCTCCTTCACGGGTTACACAGAATGG
TACTAATCACGCCGATCGTGGTCGGCATCGCGGGCGGCTCGGGCTCGGGA
AAGACGTGAGTCCGACTTAAATTGCACAGCAAGAGACAGAGGTCTATGAT
ACATACCTGGTGTACAATACCGGCTTTACGGCAGTGTGTGCGTACGTGCG
TGCGTGCGTGCGTGTGTGTGTTTTCATCCCATTTATTTTGGGCACCTGTG
AGACCCCGGCTGGTGCACCCACTTCGTACCGAACGGTGTTGACTGGTGTC
CAGAATCAATGGGAAGAAAAAACGAAAAAACACACACCAGTCTATACCTC
TCAGTTTAAAGTGGGTGCACCAGCCGGGGTCACACAGAAGGAGGGTCGCA
CAGGAGTTTTTAGTTGTTCATTTTTTTCTCTGCCCACCTTCTTCGGTCCA
TACATGTGGTGCTTTTTTACCAAATGCATAGTCTACTTCACGTTGCACCC
TGGCGTGCTTCATGCATATGGTTCGGCAACAAAGCACCTCACCCCGCCGG
CCTGTGAACAAGTGTTTTGGTTGTTATCCAATGCGACCGTTACGCTTGGA
TTATCAACTGCTCGACCCGTACAGAACGCCATCAAATGCTTTGGAGTTGA
ACGCCACCCACCACCGGCAAGCATTTTACGGTTTAGCGTGCGGCCTCTGC
CTATCAGCTGTACTGCTGGATCGTCTTGTTTGCCCGGTGTGGCGCATTGT
AGTACCTGTAAGTGTTTATTTTTGACCAACTCTCCCTTACTTTGAGGAGG
TCTTTAAACGTGCGCCTGTTATTACTTTCACAGCTGTGGGTAACCCAGGA
CGCTCACGACAGCTCGCCTCCGGCAATGCTCCCCGAATGACAAGACGCGC
GCTCGCGTACACAAAAAGTTTTATGGAGACAATCCACGCAGTCAGAAGTC
CGCGTCAATTACACCAAGTTGGTCGATATGAAAACCAGAGCTTTCCGCAG
GTCGACGTGGTTGGAAATAGAATGAAATGCCGCTTCTGCGTGAGTTGTAG
ACAACAGAGGGCGACTGCATCGATCATCAGAGGCCGGATAGCTTCACGGG
TTTCAACTCGGCTTGAAGTTCTGCGCGTGTCCTGTTTGAAGCCAATCATC
CTGTTGACGCTGAATGATACGCATCAATCAGGACGCTGTCTCGGGCGGTC
GTCGACGCGCTTGGCGGCGCTGAGAAAGTAACGTACATCTGCCACGACTA
CTATTACAAGGACCTCTCGCACCTTCCCACGGAAGACAGAGCCCAGACGA
ATTTTGACCACCCGGACGCGCTAGAAACCTCCCTGCTCGTGGGGCACCTA
GGTACGAACGTGCTTGTTTGCACACCCTCTGAACGTGCATGATCTGCAGA
CTTCGTTGGACTTTGAACGCCATGATAACTGCAGTCACAACTACGTCAGC
TTGCCAACATTTGTGGAAGACTGCTTCATGTCGGTAGCCTAATGTTCGTT
GAACCATCTTACGGGGCACGCCCCAAGTAGTGCGCACCGTCCGTTTCGGA
TGTCCTGCCGTTGAGATACGGACTTCCTGCTGGGCTCTGTACGAGTACAC
ACACATAGTTCGTCCAGCTGTACACACCGCGAGGCGCTATTGTTACGGAC
AGTAGGAGATCGATGCTGCAAGCGATCATGGCCACCCTCAAGTGTAATAC
GACCGCCGTGCGCATGCCTCGTGCCTACCGCGTGGGGTGCAGCCGTGCTC
AAGGCTGGGGGGTCGGCGGACGTGCCTACGTACGATTTCACCATCCACTC
CCGTACCAGTCAAACGATCAGGTTCGATTATTTCGCTGTTTGTTCCGGGG
GTGGGACAGGCGTGGCAGGAGGGAGGGGTATTAAACAGCAGTCAGCCATC
GAAAGAAGAGCGGCACATGCGTGGGAGCGGTGGCATTCAAAGCTGACTTG
CAAGAGCGCCTCTTGCTGCTGTTCGGAGATTTTTGGCAGTATGCTGCGGA
GTACGAGTATGATTTGTACGCTTGTTCTACGCATATGTACATATTTGTGT
CTGAAGCCAAAAAGTGTTACTGCTGCAAAGAGTTTGACACGGCGTTTGGG
CATCCGGGCCGTGGCGGGCGGTGTTTTGTTGTGGTCCAAGATGTCAAAAT
CACAAGTTCGCATGATGCGCCGTTTGCCCTCCAATGCCCCACGAACAGGT
CCGTGGGGAAGGGTAATGGGCATTAAGCGAAAGGGAAGGGCTCTCGATTG
TCACCTCGCTGCGATAAATTTTGTGCCCTGTACAGAATGCAAGACTTGTG
AATAGCTACGTACACAGAAGGGAATTTGGTGGCCAGTTCACTGCGCGCAG
AAATCGTACGAACAGCAGCTTGTCCTGGCAACATTCATAGCATAAATGTT
CCCGAGGTGTCAGAGGGTATGTAGTTATTCCTCACGACATTATTCAAACA
CACCACAGCCAAATCATGAAAAGTTGGTTCATTGGCTGCCTCACAGCTGT
ATTACAGAGTTGTGGTGACCAACTGACTGACGTCAGCATCGTCCACGGCC
ACTTTTTATTTTCCAAAAACTGATGTCGAGGTGACATCGCCGACCTAACA
AGGATTTTTCACCAGTCATAGTTTCCCAAAAATTGTCTTTGACCAATCGG
ACGACCGCGGGCAACTCTTGTCCCTCTGTCGACAGCAACGCTGCGCTGTC
TCCGGACATTAAGTGTCAATCGCCCTCATATGATACTTCGTACAGTAGAG
GTCCCTGTTTAAGGCCGCATACTGCCAAGGGCAAAAACCGGCCTTAAACA
GGGCACCCGGCCTTACCTGAAACCGCCCCTGTTTAAGGCCGGTATCGGCC
TTAAAAAGGATTTTGGATGCCTCAGTAAGGCCGGTTACCGGCCTTACTGA
GGAATTATGAGTTTTAGAGGGTGTAGCACGTAGACTCAAGCTATTATTTG
ACTACGGGGTACAGTACGTGCACAATCACACAAATCACAGCTGCCAAGCC
TCTCTGGGTGTGCACGACATGGCTCTCATGTAAAGTCAAACGCAGCCCGC
GGTGTCAAATGATGTTTGAAAGTTCCAATGTCGTTACCCGCAATCTGTAG
CTGACATTTCCACAATGAAAAAAACATTTCACGTTCATCCAGAGCGTGAC
TCCCTTCTCCTGATTAACCTCACTAGTCACAAGGCCAACCTAACCTTAAC
AACAGAATGAAACGCAATCAAAGAAGATCCCGAGTTTCGGCGAAAGTAAT
TTATCAAGTGAATTGAAGACATACATGAAAGTTGATTGGCAGATGCGGGC
GGTTTCGTGTTCCCCCTCTTGCTCGTGTTCCCCACACAATCCGTGCAGTC
GCCCGCCACACCCTCCCCGACATACGTGGCCGTGAGGGGCTACTGGTGTC
TGCCCTGGTATAATGCACAGCTCACCAGCCGCACAAGGCATGGGTGCCCC
TACTGGTTGCGTCGGTAGGGGTATGCTAGGAATTGCCGTGTTGCGTGTCT
AGAGTGCTGTGTTGCGGCTGCAGTACAGTACATGCATGCGTGCGTCACCT
CTCAAACCGGCCTTATTTAGGGCGGGCGGAGGTCCAAACAGGCCTTAAAT
AGGGATCATTCCTGTTTAAGGCCTGTGCGGCCTTAAGAAGGAAGACTTTT
GGGGAAGACGATTTCACCGGCCTTATACAGGGCAACCGGCCTTGAATATG
CGGCCTTAAACAGGGACATCTACTGTATGTTCTTCGAGATTCGAGACGTT
CCCATGTTTTTGTGTGTGCTCGTACACGCCATGTGCGCAGGGCCGAGGGC
AAAGGAGTCATCATCGTTGAGGGTATCTTGATATTCGCACACCCGGACCT
CCGAGATCTCTTCGACGTGAAGGTCTTCGTCGACACGGTGAGAACATGCT
CGTAAATGTACCGCAGGAGGCGTGTATACCATTCCCTACTCCCGCCCACA
TGCTGCCTTCCTACGTACAGTACAGCTATCGGTGGTGACACGGGCTTGGC
GAAGCTGAGGATCCTCTTGAAAATGAAGGTAGCCGTTGCCACAAGAACTT
TTTACAAGAAGTGCCGGTGTCGTCTAGCAGACATACGTGCATATGTGTAC
AAATACACCTGTAAAGATTCAGGCGAAAGAACTTAAATTTGTTCACACAT
TTGTTGGAGCACAAGCTTGAACGTCAGATGTAAAGTAGTGCCCCGGTGAA
AACCGTTTGCCCAACGACCTGATGCTGCTGCTGTCTGGGGGGACCGGCTG
AAAAAGTTACCGCGTAAGACTGATATTTGCTAAAGCGGTTCGACGTGGTG
ACGCACTCTATCTTCGTGGTATCGACAATACTCGAGTCTTTGGTAGATGA
TTTCATACTTCGAAGTACAAATAAAAACTGTTTCGATTTCCACGGTCTTT
GTTGTTCGTACGCGCGCTAAATTTTTCGAAAGTACGGATGGCATTCTCTC
CATATCATATATATCTCCCTGCATTACTTTCTCTCTCTCTCTCTCTCTCT
CTCGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCCTTCGCTCTGCGTATGAGATGTGCGACGTGCGATTGC
GTGTTTTACATTCGAGCCGCGCGTGCGCCAGGCGTTGCCTTCGCGCACTG
TTCTTTTCGAAAATATTTTTTGCATGTCAGGAGCCCGTTTTGCTTTTGCG
CCGTTCGCTTTGTCGTTGGAAAATTCCTATTTGCAAGCCCACATAGCTTA
GTCTCGTTGATAGTTTTGCTGTTTGTGCTACTCTCACTGCTGTTGCTGTT
GATGCTCTTGTGCTCTTTTGGCATGTGTAGAACTCTTCCTTTTTTTCAAA
CTTGTGCGTATGCATGCCTGGTTTACAGCCATTATTCTTTTCATCACATA
CTGCTGTGCTTTGTTCTTCGGACAGGAGCCGGACATCCGGTTTATTAGAC
GAATGCAGAGGGACATCTCCCAGAGAAACCGCACCGCGGACGAGGTCGTG
GCGCAGTTCCTGGCAACGGTCCGGCCGATGCACGAGCTGTTCGTAACCCC
GTCCAAGGTGCGCTGAACGAAATACTTTACGACGTGCTGATGATCTGGTA
ATAATGGTGGGGTTTTCGACCTTGCCAGACATCACCCCTATTTCCTCCTT
CCATTACAGTAGCCAAAAATGAAAATGGATGCATGTACGATATATATGTG
TGATGCAATGATGCGTCACACCGGCCTGTCACCTCCGTTTCCCCCCACCC
GCTTCACTAGGACTAGGTTTATTGAGCTTGAATAGTAGTGCCCCCCTCTG
TCCGACCCCGGGGCCCCCCTTGCCTTGCCTCCTCGAGTGCAGAAATTTTG
TGACATGATCGTCCCGGACGGGTTCAACCCCGTAGTGCTGGACATGATCG
TTGCCAAGCTTCGACCACATGCAGAGCTGGCGGGAGCGGTAGAGGCAGGA
GAAGCAGAGGACGCAGCACGCGTCGCAACTCCTATAGCGTAGTTTTTTTT
TCAAACGTTTTTCCTCCTTGCAATTGCTCTAGAAGACGAGCACCGAAGTT
CGTTTCATGGCGCGTGGTGTTTCGCTTCGGAAGCGAGTTGTTTCCCGTCA
CACTCCCGTGTTGCTTCCCGCTTGTTCCCTAGACCGGCGACGGGTTTGAC
GCACTTCGTACGCGAGGCTCGATAGTTGAGCCTCCGGAATCTCACGGGCA
TGGGGTAGATTTCATCTGTGACAGGTGTTGCGATGCTGCACCACAGCACT
GAACGGCTTGCCGTCCGTCCGTCCATCAGTTGGTAACCAGCAGCTGGCTG
TAAGCTGTAAGTTTCTAGAGCGCAGGACTGCTGATTCACTGGTGTGCAGT
GCCACCACAGAAAGATCAACAAACTTCACGTGTATGCGTTTTGTGCGCCC
CCCCCCGCCCCCCCCGAATCCACGGTGTCGTTGTTGTTTGCTCTCCTTCC
TTGGGCTTCTGCTCTCCCTCTCTAGGGTACAACATTGATCGTAGGGCATG
TATCTACTGGTACTGCTGTATACTGAAGTTCTTGCGTGCATTTATCTTCC
ACGGATACGATGCGAAGAAAAGATACGAAGTACATATATATCGGTTTTCC
CTTAGTGTTTTGTTTGGTGCTTGCACGAACGTTGGCGAACACGTCACAGC
AGCAGCGAAGGTGCAGCGCTGTTACCCTTCCACGTGTTGGAAAATGATAC
CTGTTTTTTCGAGCCTGTTTATTTCTGTATTTTTGTACTGGACTTGGCCA
CCACGGATGGTGCCGCACTTTAACTGATTTTGATTTGGTGACCATCGTCT
AGTTCGTTTTTATTTTATTTTCCTCCCAGCACGATATGTGCCTGGTTTGT
GACCACGGGCTATGATAGACTATGGTGGTGAGCAAACGCGAGGATCATCA
ACAACCGATGTGTGCCTGGTTTGTGGCCACGGGCTATGCTATTATACCCC
ATTTTATCCGTCGTTGGATGCGTGACACAACAAATGGTCGATGCCCCGCT
GTTTTTTTCCTCCTGCACTAATTCGGGCTTGCATGA back to topCoding sequence (CDS) from alignment at P-littoralis_Contig164:76559..88294+ >mRNA_P-littoralis_Contig164.16.1 ID=mRNA_P-littoralis_Contig164.16.1|Name=mRNA_P-littoralis_Contig164.16.1|organism=Pylaiella littoralis U1_48|type=CDS|length=687bp|location=Sequence derived from alignment at P-littoralis_Contig164:76559..88294+ (Pylaiella littoralis U1_48)
ATGGTACTAATCACGCCGATCGTGGTCGGCATCGCGGGCGGCTCGGGCTC
GGGAAAGACGACGCTGTCTCGGGCGGTCGTCGACGCGCTTGGCGGCGCTG
AGAAAGTAACGTACATCTGCCACGACTACTATTACAAGGACCTCTCGCAC
CTTCCCACGGAAGACAGAGCCCAGACGAATTTTGACCACCCGGACGCGCT
AGAAACCTCCCTGCTCGTGGGGCACCTAGCCGTGCTCAAGGCTGGGGGGT
CGGCGGACGTGCCTACGTACGATTTCACCATCCACTCCCGTACCAGTCAA
ACGATCAGGGCCGAGGGCAAAGGAGTCATCATCGTTGAGGGTATCTTGAT
ATTCGCACACCCGGACCTCCGAGATCTCTTCGACGTGAAGGTCTTCGTCG
ACACGGAGCCGGACATCCGGTTTATTAGACGAATGCAGAGGGACATCTCC
CAGAGAAACCGCACCGCGGACGAGGTCGTGGCGCAGTTCCTGGCAACGGT
CCGGCCGATGCACGAGCTGTTCGTAACCCCGTCCAAGAAATTTTGTGACA
TGATCGTCCCGGACGGGTTCAACCCCGTAGTGCTGGACATGATCGTTGCC
AAGCTTCGACCACATGCAGAGCTGGCGGGAGCGGTAGAGGCAGGAGAAGC
AGAGGACGCAGCACGCGTCGCAACTCCTATAGCGTAG back to top
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