|
|
Homology
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: D8LQ56_ECTSI (Soluble NSF Attachment Protein (SNAP) Receptor (SNARE), Vesicle-associated membrane protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LQ56_ECTSI) HSP 1 Score: 383 bits (983), Expect = 6.460e-126 Identity = 206/225 (91.56%), Postives = 218/225 (96.89%), Query Frame = 1
Query: 205 MSRRITFVGVVRFTDRVLVAGYSPSEADDALIIKELMSNPDTFVEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHAKSNSD 879
MSRRITF+GV+RFTDRVLVAGYSPSEADD+LIIKELMSNPDTFVEPRKRYSVEGRMFSIHFVADDS+R+YSCVTDKEYPA IAF LL+E QTKFLTKVGDKSLTAKEG L+RTMKSSFSDLCIKYDD RNVDRMAAVQDKVDVVK+TMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMW+LLA+ XXXXXXXXXVPI +HAK+NSD
Sbjct: 1 MSRRITFLGVIRFTDRVLVAGYSPSEADDSLIIKELMSNPDTFVEPRKRYSVEGRMFSIHFVADDSNRIYSCVTDKEYPARIAFTLLEEAQTKFLTKVGDKSLTAKEGGLSRTMKSSFSDLCIKYDDIRNVDRMAAVQDKVDVVKVTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWLLLALXXXXXXXXXXVPIALHAKNNSD 225
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A835YU71_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YU71_9STRA) HSP 1 Score: 257 bits (657), Expect = 5.460e-76 Identity = 134/246 (54.47%), Postives = 180/246 (73.17%), Query Frame = 1
Query: 205 MSRRITFVGVVRFTDRVLVAGYSPS-EADDALIIKELMSNPDTFVEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVF-----------------------QNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHAKS 870
MS R++F+GV RF D++ VA YSP + +D++ +K ++S+P+ FVEP +RY+ EG + +HFVADDS+RVY+ VTDK+YPA +AFALLDE+Q+KFLTKVG+KSL+AKE +L+RTM+SSF+D+C+KYDD +NVD++A+VQ KVD VK M++NI QMLANEE L+ IS NAENLNEQA+ QNRS+ALRR MRCKA+KMW LLA V VP+ M++K+
Sbjct: 1 MSVRVSFIGVYRFLDQICVAQYSPKGDTNDSIAVKSVISSPNVFVEPGRRYTNEGDVCCVHFVADDSNRVYTVVTDKQYPARVAFALLDEVQSKFLTKVGEKSLSAKEDTLSRTMRSSFADICLKYDDVKNVDKLASVQGKVDAVKTKMEENISQMLANEETLESISANAENLNEQARXXXXXXXXXXXXXXXXXXXXXXXXXQNRSTALRRNMRCKALKMWFLLAFVITIVLIIIIVPLAMYSKN 246
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: W7U318_9STRA (R-snare vamp72-family n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7U318_9STRA) HSP 1 Score: 135 bits (339), Expect = 3.530e-32 Identity = 77/226 (34.07%), Postives = 124/226 (54.87%), Query Frame = 1
Query: 202 RMSRRITFVGVVRFTDRVLVAGYSPSEADDALIIKELMSNPDTFVEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHAKSNSD 879
+ S I F+GV RF DR +VA ++ + D +KE++ + V P +S S H ++D R++ ++++ YP A A L+E Q FL K G KSL KE L ++ LC KYD+ VD++AAV +KVD VK+ +Q+N+Q LAN LD I + AE+L QA +F+ ++ L++QM K ++M +++ + +PI + +K D
Sbjct: 5 KASGNIHFLGVARFQDRAIVASHAYNTVIDLTGVKEVLKSDQLSVRPGVHFSFASGGSSWHLMSDVEGRIFILISERTYPVRAAHACLEEFQRSFLAKTGTKSLEVKEKGLDKSSGEMLRKLCEKYDNLAEVDKLAAVMNKVDAVKLVLQENVQVALANCVALDNIEKAAEDLQAQAGMFKRNATTLKKQMCWKQLRMKMVMGLAILAILLVIIIPIAVASKRMHD 230
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A7S2XW80_9STRA (Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XW80_9STRA) HSP 1 Score: 127 bits (319), Expect = 5.180e-31 Identity = 60/112 (53.57%), Postives = 83/112 (74.11%), Query Frame = 1
Query: 349 RYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEE 684
RYS EG F++HFV D+ R+Y +T K+YP+ +AF LL+E+Q+KFL KVGD+SL+ KEG L T K F+++C +Y+D D++AAVQ KVDVVK M+DNI +ML N+E
Sbjct: 1 RYSTEGVEFTLHFVGDERHRLYCVITAKDYPSRVAFTLLEELQSKFLDKVGDRSLSVKEGGLNGTCKKMFTNICHRYEDVEGADKLAAVQGKVDVVKSIMEDNISKMLKNQE 112
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A7S2RZL7_9STRA (Hypothetical protein n=4 Tax=Sar TaxID=2698737 RepID=A0A7S2RZL7_9STRA) HSP 1 Score: 125 bits (313), Expect = 9.900e-29 Identity = 75/204 (36.76%), Postives = 117/204 (57.35%), Query Frame = 1
Query: 217 ITFVGVVRFTDRVLVAGYSPSEADDAL-----IIKELMSNPD--TFVEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILL 807
I FV V R D V+VA Y E D + E++S PD V P RY + G + +F +D+ RVY +T EYP +AF +L + +F + G KSLT KEG L + K F+ + +YDD D++AAVQ KV+ VK+TMQ NI ML N ++ ++I + + L +QAK+F +++ L+++ + K+ K+ +L+
Sbjct: 10 IFFVAVARAHDGVIVASYVAREGDYNKPQYFNTVNEVLSAPDFSAKVAPGSRYRLVGNANAFNFTSDNQGRVYIAITTSEYPERLAFPMLQVIIERFTEQYGPKSLTVKEGGLNKKSKQMFAAIVKEYDDPAQKDKVAAVQAKVEDVKLTMQSNIDGMLRNIDKTEKIESDTQQLQDQAKLFDTQATTLKKKEQWKSRKLTLLI 213
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: T0S118_SAPDV (Uncharacterized protein n=1 Tax=Saprolegnia diclina (strain VS20) TaxID=1156394 RepID=T0S118_SAPDV) HSP 1 Score: 114 bits (284), Expect = 1.810e-24 Identity = 71/211 (33.65%), Postives = 113/211 (53.55%), Query Frame = 1
Query: 208 SRRITFVGVVRFTDRVLVAGYSPSEADDALIIKEL-----MSNPDTF---VEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMV 816
S + F+ V R +D+ ++A Y+ ++ D K L + T+ V P R++++ HF D+ VY +T +YP +AF LL +Q + K K T KEG L + S + YDD VD++A V +VD VK TMQ+NIQ +L+N E+++ + + + +L+EQAKVF+N +L R M K +K+ I L +V
Sbjct: 5 SDNVKFLAVARGSDKAIIASYAHTKKDKEESPKYLDMLTKVLRAPTWKQQVAPNSRHTLDCEPNKFHFTMDNDEIVYVAITAADYPVRLAFKLLAAVQEEMTGKHAAKLPTVKEGGLDKECAKGLSVIATTYDDRTKVDKLAEVMAQVDAVKSTMQENIQVVLSNTEKMEMVEQKSNDLSEQAKVFRNTGKSLSRAMWWKNVKLTIALGLV 215
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A7R9Z383_9STRA (Hypothetical protein n=1 Tax=Pseudictyota dubia TaxID=2749911 RepID=A0A7R9Z383_9STRA) HSP 1 Score: 113 bits (283), Expect = 4.410e-24 Identity = 62/172 (36.05%), Postives = 103/172 (59.88%), Query Frame = 1
Query: 358 VEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHAKSN 873
V+ + + + AD + +T +YP+ +A +L E+ ++ + G ++ +A SLT+ K S +C KYDD NVD+ +++ KV+ VK+ MQDNI ML N E+ + ++E ++ LNEQA VF+ +S+ LR+QMRCK +KM ++L + VP+ M AK+N
Sbjct: 123 VQSEVHQVVYGADTDGLCLAVITGLQYPSRVAIQMLVELYGQYSEQFGLQAKSATTNSLTKKSKPMLSTMCNKYDDLSNVDKASSLIGKVEEVKVQMQDNIAAMLKNTEQAESLAERSDALNEQASVFKKKSTDLRKQMRCKNLKMTLILVFLIVGILAIILVPLIMKAKNN 294
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A485LEZ2_9STRA (Aste57867_20380 protein n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485LEZ2_9STRA) HSP 1 Score: 112 bits (281), Expect = 4.850e-24 Identity = 69/208 (33.17%), Postives = 115/208 (55.29%), Query Frame = 1
Query: 217 ITFVGVVRFTDRVLVAGYSPS--EADDAL----IIKELMSNPD--TFVEPRKRYSVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMV 816
+ F+ V R +D+++VA Y+ + + DDA ++ +++ P V P R++++ HF D+ VY +T +YP +AF L+ +Q + K+G K AKE L + + YDD VD+++ V +VD VK TMQ+NIQ +L+N E+++ + + + +LNEQAKVF+N +L R M K IKM I + +
Sbjct: 6 VKFLAVARASDKIVVASYAHTKKDKDDAPKYIDMLNKVLRAPTWKQQVTPNSRHTLDCEPNKFHFTMDNDEMVYCAITAADYPIRLAFKLITAVQEEIGGKMGAKLTQAKEFGLDKDCAKPLGVIATMYDDRTKVDKVSEVMAQVDAVKNTMQENIQVVLSNTEKMELVEQKSNDLNEQAKVFRNAGKSLARTMWWKNIKMMIAIGFI 213
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A7S2KAE4_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KAE4_9STRA) HSP 1 Score: 112 bits (279), Expect = 6.230e-24 Identity = 59/172 (34.30%), Postives = 99/172 (57.56%), Query Frame = 1
Query: 358 VEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHAKSN 873
VE + + + AD R + +T +YP+ +A ++ E+ F+ K G +++A SLT+ + C KYDD +VD+ ++V +KV+ VK+ MQDNI ML N E +++ + + LNEQA VF+ S+ L++ M+CK +KM ILL +V VP+ + A+ +
Sbjct: 83 VESTVHQVTYGADGDGRCIAVITGLQYPSRVAVQMITELHKTFIEKFGLMAMSATTNSLTKKATPMLKEACKKYDDLSSVDKTSSVLEKVEGVKIQMQDNIAAMLVNTETAEELQDKSSQLNEQASVFKKNSTTLKKHMKCKNLKMTILLVLVVVGVLAIILVPLILRAQDD 254
BLAST of mRNA_P-littoralis_Contig64.69.1 vs. uniprot
Match: A0A6V2A733_9STRA (Hypothetical protein n=3 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6V2A733_9STRA) HSP 1 Score: 112 bits (280), Expect = 7.350e-24 Identity = 61/169 (36.09%), Postives = 102/169 (60.36%), Query Frame = 1
Query: 358 VEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGDKSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQDNIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWILLAMVXXXXXXXXXVPITMHA 864
V+ + + + AD + +T ++YP+ +A +L E+ +F G ++ +A SLT+ K S +C KY D NVD+ +A+ DKVD VK++MQDNI ML N E+ + +++ +E LNEQA VF+ +S+ L++QM+CK +KM I+L ++ VP+ + A
Sbjct: 104 VQSTVHQVVYGADMDGLCLAVITGQKYPSRVAIQMLTELYGQFSQNFGLQAKSATTNSLTKKSKPMLSSICKKYSDLNNVDKASALIDKVDQVKISMQDNIAVMLKNTEQAETLADKSEQLNEQATVFKKKSTDLKKQMKCKNLKMTIILGLLIFGILAVILVPLILKA 272
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.D8LQ56 |
| PFAMs | Longin,SHNi-TPR,Synaptobrevin |
| Model size | 2200 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K08511,ko:K08515 |
| KEGG Pathway | ko04130,map04130 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000149,GO:0000323,GO:0003674,GO:0005484,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005764,GO:0005765,GO:0005768,GO:0005770,GO:0005773,GO:0005774,GO:0005783,GO:0005789,GO:0006810,GO:0006887,GO:0006906,GO:0006996,GO:0007034,GO:0007041,GO:0008150,GO:0008333,GO:0009987,GO:0010008,GO:0012505,GO:0012506,GO:0016020,GO:0016043,GO:0016050,GO:0016192,GO:0030139,GO:0030659,GO:0030666,GO:0031090,GO:0031201,GO:0031410,GO:0031902,GO:0031982,GO:0031984,GO:0032940,GO:0032991,GO:0042175,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044425,GO:0044432,GO:0044433,GO:0044437,GO:0044440,GO:0044444,GO:0044446,GO:0044464,GO:0045335,GO:0046903,GO:0046907,GO:0048284,GO:0051179,GO:0051234,GO:0051641,GO:0051649,GO:0061024,GO:0061025,GO:0071840,GO:0090174,GO:0097708,GO:0098588,GO:0098796,GO:0098805,GO:0098827,GO:0098852 |
| Exons | 7 |
| Evalue | 5.45e-134 |
| EggNOG OGs | COG5143@1|root,KOG0859@2759|Eukaryota |
| Ec32 ortholog description | Soluble NSF Attachment Protein (SNAP) Receptor (SNARE), Vesicle-associated membrane protein |
| Ec32 ortholog | Ec-26_006070.1 |
| Description | SNAP receptor activity |
| Cds size | 684 |
| COG category | U |
| BRITE | ko00000,ko00001,ko04131,ko04147 |
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 |
|---|
| 1680791333.561434-UTR-P-littoralis_Contig64:328478..328682 | 1680791333.561434-UTR-P-littoralis_Contig64:328478..328682 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig64 328479..328682 + |
| 1680791333.6690571-UTR-P-littoralis_Contig64:341672..342520 | 1680791333.6690571-UTR-P-littoralis_Contig64:341672..342520 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig64 341673..342520 + |
| 1680791333.6820033-UTR-P-littoralis_Contig64:342569..343033 | 1680791333.6820033-UTR-P-littoralis_Contig64:342569..343033 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig64 342570..343033 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791333.581378-CDS-P-littoralis_Contig64:328682..328787 | 1680791333.581378-CDS-P-littoralis_Contig64:328682..328787 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 328683..328787 + |
| 1680791333.6018946-CDS-P-littoralis_Contig64:336330..336516 | 1680791333.6018946-CDS-P-littoralis_Contig64:336330..336516 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 336331..336516 + |
| 1680791333.6158426-CDS-P-littoralis_Contig64:337989..338112 | 1680791333.6158426-CDS-P-littoralis_Contig64:337989..338112 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 337990..338112 + |
| 1680791333.632325-CDS-P-littoralis_Contig64:338585..338696 | 1680791333.632325-CDS-P-littoralis_Contig64:338585..338696 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 338586..338696 + |
| 1680791333.645756-CDS-P-littoralis_Contig64:339170..339233 | 1680791333.645756-CDS-P-littoralis_Contig64:339170..339233 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 339171..339233 + |
| 1680791333.6562166-CDS-P-littoralis_Contig64:341576..341672 | 1680791333.6562166-CDS-P-littoralis_Contig64:341576..341672 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig64 341577..341672 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig64.69.1 >prot_P-littoralis_Contig64.69.1 ID=prot_P-littoralis_Contig64.69.1|Name=mRNA_P-littoralis_Contig64.69.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=228bp
MSRRITFVGVVRFTDRVLVAGYSPSEADDALIIKELMSNPDTFVEPRKRY
SVEGRMFSIHFVADDSSRVYSCVTDKEYPAHIAFALLDEMQTKFLTKVGD
KSLTAKEGSLTRTMKSSFSDLCIKYDDTRNVDRMAAVQDKVDVVKMTMQD
NIQQMLANEERLDQISENAENLNEQAKVFQNRSSALRRQMRCKAIKMWIL
LAMVVIILLIIIIVPITMHAKSNSDDN* back to topmRNA from alignment at P-littoralis_Contig64:328479..343033+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig64.69.1 ID=mRNA_P-littoralis_Contig64.69.1|Name=mRNA_P-littoralis_Contig64.69.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14555bp|location=Sequence derived from alignment at P-littoralis_Contig64:328479..343033+ (Pylaiella littoralis U1_48)
CTCTCCATTGTGCCAGCACACACTGTCTTCAACCGTTGCAACAGGTGCAC
TTGACGCGTTTTGCATCTCTCAAGAGAGGAAGACATTGTGCCGTGTCCCT
ACTGGAGAGAGAGAGAGACAGAGAGAGAGCCAGCAGCAGCAGCAGCAGCA
GGAAGAGGAGCAGGAGACTGAAACGCAAAACAACAGGAGGAAGGCTCGGA
CAGAATGTCTAGGCGAATTACCTTTGTGGGGGTGGTGCGGTTCACGGACC
GGGTGCTCGTGGCGGGTTACTCTCCGTCGGAAGCGGATGACGCCCTCATC
ATCAAGGAGGTACTCGCAAAGGAATTATTTTATGTACAGGTAGTAGCACT
CCCTCATCTTTACTCTGTACGACAGCAGCACCCCCGTCTACTATCTTCAC
TGGAGTAAATTATGTGTGCTTGTCCGAGGCAGTCATTGTTCCGAACCAAG
CAAGGTTCTTTACGCACCTCTCTGATCTGTCCCACAACCTGGTACGTATT
TTCTGGTACAGCAGCACAGCGCGTAGAAGCGCCTATTTTCACAGACACGG
AACGTTTTGATTGCTTCTCGTGATATGGTCCAATGGCGGCTTACGGGCTG
CAAGGGTGGGTGGACGCAGCAGCACTCTGACAAAACAGTCAACGGTTGCG
GTCATGGCACATGTGATACACCGCTCCGAATGCCAGTAATTTTCCCCTCT
GGTATGATATCACGTCGGTATGATATACAGCAAGTAGAATACAAGTATGC
ACCTGTGACCTGTTTGTACAACGGCGGTGCAACAGCAGTACCGGTATGAT
GCTGTAGTTCGCAACTCGACCTATCATTATTTTCAACACATTTACAAGGG
TAGTTCATTCACGGGTGCACTTGAAAGAGACACGTCGACTGAATAGGAAG
ACAGACGCAGCTGAGGAACAGGCCCTGGCCAAGAGAGTGAGGATGGATGG
CGGGGATAAACGAGAGGAGGAATACGGGGATGGGCTGCCAACCACAGTTT
GCGACTGAGGGCGTGTCTTGGAAAAAAAACGAGGTGTGGAACGGGGAACG
TGGAACCTAGAATTCCTCGTTCCCTGTTCCACGCGTTGTGTCTTGGAGAA
AAAAACACCTGTCCCGAAAGGTGGAATGTGGAACCAGGTGCCAGTGAATG
GCTCGGGACTTTCACACAAAAGATATCACTGGCCTGCTGCTGTGCTGAGT
GTGTGTGAGTGTGGGCGAGCAATGTGTGCTTCGAGGTTGAGCCGCCCCAC
ACACGTCATCGCCCTTTTTCTTTAAAACTTCTTCACCCCAGCAGCCCGTT
CCACGCAGACTATTGGACAATTCTAAGGAACGGAGGCCTTCCAATTATTT
TGCAGGAGGGAACGAGAAATGTGGAACCCCGGTGGCCGAAAAATTTACAG
GAACGTTTTTTTCTGAGGTTGGCCAATCAGAGAACTATTCTACGTTCCAC
GTTCCCCGTTCCACACCTCGTTTTTTTTTTCAAGACACGCCCAGAGACTG
CGTGCCTTTTTCTTTGCTTTTCTTTTTTCCCATTTCCCTTTTTTTTTCCT
TCTTTCTTTTTCTCAGCTTTTTTACTCCTGCCTCCACACTTTTTTTAGCC
TCTCTCACTACGGCAGCGTTTGCCCCCCCTTTCGTCTTTCGTCTTGTCTT
TCTACTCATGATATTTGCTTGCCTTTTGTTGTTTTGCTCTGACGACTGCA
ATAATATTTGCTAGGCTCTGCGCTCTGGTTGGTTTGTCTTGGTACTGTGC
TCTGGTTGGTTTATGATTTGTCTCGATCTGCTTGTTTCCAATTTTTGTTT
TTCGGGACTAGTTTTAACATTTTCATATTTTCCAGGGATGTACATATTAC
TTGGTTTGTAAGACATTTCCTACTGAGTCGCGCCTTGTTGGCACCTCCTC
CTCCCTCGGCTGCTCCCCGGCCGGGGTCACCCAACCTAGTGGGTCCCTCG
TGGACACACCGGGCTCTACCAGAGTAGACAGGATAGTGTGGGAGTGGTGT
GGTCAGACCCTACTCGGCGCACGACGAGGCTGGGTAGGTGATGGAGGTGA
CGAATGGCACTACAGCAGTCCGGACCAACCATGATCTGGTCTCCGCGACA
GTCAAACTGTCTGCGGCAGCTGTGTCGACACATCACCGCGGAAATCGTGG
AACTCGTAGCCTGAGGAGCAGAGAGACTAGGGGGCACCACGTTAGTAAGC
ACCCTCGTCGACCTTCACGTCGACGCTGGCCGGGAGTGTCGTCCCCAGCC
CGCCTGAACGTAGACGAGTACCGAGCTTGGCAAAGATGGATGGAACGGAG
GAAAATTGCAGCTCGAAAGAAACGGAAGCGAAACCGACCTTTACGCAAGG
CTGACCGAAAGAGACGGGCAGAGATGAGATCAAAGGCACGTGCAGGCGAA
CTGGTAGTGGGCTCCTTCAACGTCCGCACCCTTGCTTACAAGGGGGCCAA
CGGTATCGGTCACAACTCCAACACCGTACTACAGCTCTGTGGTAGCTCCG
ATTGCGATGTGGTTGGCCTCCAGGAAACCCGGCGTGCTAATGATGGTGCC
TTCACACACGCGGGATATATTGTGATCTGGAGTGGAGCACGTGCCGGGAC
CACCGAGAAGAAAGGAGTGCACGGGGTCGGGTTGGCTATCAAGCAGTCCA
TCGTGGACGGGATGGACACAGGAGGTATGACGGTGGAGTGCATTAGCGCA
AGACTGATGAAGGTACGCCTGCAACTCACTGGCTCGAACGGCGTATCCTT
TGTGGTTGCCTATGCACCCACCGAGACGGATGGGACTAGTGAGAAAGATG
GATTCTGCCTATCAGTGAGAGAGACAGTCAATGCAGTACCTAGCAGGGAA
CACGTCGTGGTTATGATGGATGCGAACGCTCGAACTGGTAGAAAAGAGGA
TGAGAGTACCCCTGATACGGTGATGGGCATGTACGGGCGTGACAAGCGGA
ACGATAACGGGCGAAGACTGATGGAATTTGCAGCAAGCTGTAGGCTTTCC
ATCCTGGACACCTTTTTCTGCACACCCAAACGCGGGATATCACACTCGTT
CAAAAGCTCCAACCGCGGGAAGGGAGAATACCGACTCGATCACATCCTGA
CCCGCCAGGCAGACCTCCGGTTGGTGCGCAACGTCTCTGTACGGCGCATC
GATCGTAAGGAGTTCGACCACAACCTTATCCTTACCAACATCCGCTTGCT
TGGCCGAGTGGCACCGAATCGACGTGTGAGGGGTAGCAGCAGCAGTACCT
CCGCTAGCATCGATCTACAACGGTTGACGGCGGACCCCCAGCTTCGGAAA
GACTTTAGAGACATAATTTCCCCCGTCATGGAAGGTGCGAATGTGGATGA
GCTCGCGTCGGCCTTGACGACTGCTGTCATGTCCACCGCCGCTGACGTTG
CCCCCCGGGCCAAGGGCAAGAGATTGCCAAGTGGCTGGTGCGCCACTGAG
GAAGTGCAGCAGGAGATCCACGTGGCATGGCTCAAGAGGGAAGACGCCCG
GAAGCAGCTTCGCGGTGCGCCGAAAGACCCCACCCTCAGAAGCAACCTCA
AGGCGGCCGGGAAGTACCTTGATCGACTTAGAGCCAGTGCTGTGAATGAG
TTATTCGATGGATTTGTGAGTCAGCTCGAGAAGAAAAGCCGCGAAGGGGA
CCAGGCCGGTTTCTACAAGCACATGAAGGGATTGGATGTGGAGGGGAAGA
GGGCCTTCACCTCACAGAACATCAAGGACAAGGATGGAAATCTTCTTCGG
GACCCCGCACTTATCCTCGAGCGGTGGGCCAGGTGGTTCCATGCTCTGCT
CAACACCAAGTCACCGACCCTGGATCCGAGAGTGGTGGACAAGATCGAGC
CCTGGCCTCAGTGCGTACCGCTTGATGACGTCCCCTCGCTATTTGAGGTT
GAGGAAGCAATCCGGGGAATGGCCAACAGGAAAGCTGTGGGCCCGGACGA
GCTACCGGCGGAGCTTATCAAGCTCTTTCTTGACGGAGACCAAGTCCTCC
TACAGCAGTTCTACAGTATCATCATCAACATCTGGCAATCGGGAAGGGTG
CCACAGCAGTGGAAAAATGCTACGATCAGGGTGCTGCACAATAAGAAGGA
CAAGACGGAATGCGGCAATTACCGGGGCATCTCCCTTGTGGCCCACGCTG
GCAAGGTACTCTTGAAGCTGGTCGCCACCCGGCTAAGCGATTACTGCGAA
AGAGAGGGCATTCTGCCGGAGGAACAGAGCGGTTTCCGACCAAACCGCTC
AACGGTTGACATGTTGTTCGTGGTTCGACGCCTACACGAGCTTGCGCGGA
AGAAGTCAACCCCACTGTACGCCTGCTTTATCGATCTCACGAAAGCCTAC
GACTCCGTAGACCGGGAACTACTGTGGTCGGTGCTCAAGCGGCTCGGAAT
GCCCCCCAAGATGCTTGGGGTCATTCGCCAATTCCACGACGGAATGAGAG
CATGCGTACGGATGGACGACGGGAGGTGCTCCGACTGGTTTGATGTGGGG
CAGGGACTCCGACAGGGATGCAACCTGGCACCCCTGCTGTTCAACCTTTT
CTTTGCTGCGATGCTCATGGTGGCCTTTGCCGAGATCAGCAAGGACGCGG
AGGTGATGGCGGACATGGCCAAGGTCAAGAGGAAGGTGTCGAAGGGGAAG
GGGAGGAACGCCCGACTGGTGGAGGCAGTGAAGTCCATCTGGAGTATGCT
CTACGCCGACGACGCCTGTATTGTATCTCAATCACCTGGGAGCCTTGAGA
AGATGATGTCGATCATCGTACGTGTGGCCGGGCGGTTTGGGCTGTTGGTG
TCAGAACCCCAAGACGGAGACCATGTGTATGCTCGCGAAAGGGATGGAGG
CGTGCTCGTTCACGATCGACGCTGCCGGGATGGTCTTCAAGCAGAAGGAA
GACTTTGTGTATCTCGGGGGTAAGATTTGTGAGGACGGTAGCATTGAGGG
CGAGATTAACCACCGAGTGCAGCGAGCGCACGCCTGCTTCCGGCGCAACA
GCCAGGCAATGTACGACTGCCCGGGGGCCCCTCTTCGACTAAAAGTACGA
CTCCTCCAAGCTGAAGTCGTGGAGACCCTACTCTACGGGTGTGTCACATG
GAATCTGAAGCCAGCGGAGTACCGCAAGCTTCGGTCAGCCCACCACTTCT
TCCTCCTTCGCTGTATCGGATGAAAACAGAGGGAGAGAACAGACCGACCC
CTCTCCTACGCCAAAGCCCTGATCACCGCGGGTTGCGACGAGAGCATTGA
GGCCACCGTGCGCAAGCGGCGACTGTGCTTCGCAGGATTCGTTGCGCGCA
TGGGAGACGAGAGACTCCCGAAAATTGCTCTTTTGGGAGAATTGCAGGGG
GGAGCGAGGTATCAAGGGGGGGCAAGAGTTTGACTGGCTGAGGCGAATGC
AGGAGGACCTCGAAGCGTTCGACATCGTGGTCGACAAAAACGAGGGATGG
GAGGCAAGTACCAAGAGAGCTGACGAGTGGGACGACAGGATCGACGAGGG
TGCGCGGCGGTTCACGGACGAGTGGCTCAAGAAAGAGGGAGACTTATCAG
AGACACGTCGACGGAAAAGGGAGAGGGACGCGGCTGAGGGGCAGGCCTTG
GCCAAAAAAGGAGAACGGATGGCGGGGATAAAACGAGAGGAGGAGTACGG
GGGGGCACAAGGGCAGCGGGGTAGTGGGGTTGGAGTCGCACAGCACAAGA
AGAAGCAGCCCAAAGCCAAGCTACGGGGTGGCCGGAGTAAAAAACCTGTA
GGGCGGAATGGTGGTGTAGCTGCTGCCAAAGATGTGGGGTAGAAACAACT
GGGTACGGTGGTGCCAGTAGCAGGAGGCATGAGTGCGACTGAGGAGAGCA
AGCGTGAACAGGCAGACCTCGTGGCAAGACATGTTTGCGGTTGATTGCAT
GCCTTTTATTTTATTTTTTATCACCCCCCCCCCGACTTCCGGTACTTCCG
GTCTTCCCTCTGCACTCTCCATGTATGTATTTTATTCCCCTTTGTCTCTT
TTTTTCTTTTCCCTTTTCGTTCCCCTGCTTCCTCTTTGTCGTTTGTGTAC
GAGTGCACTCCCTCAATCTTTGTGCCCTCCTTGTATCTTCTTTTTAATTT
TTTGTCTTTCGTCTGTTGATCATGTAGTTACTGGACCATGCGCCCTAGTT
TGCCTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGAA
GCACTTCGAAGTATATGGTTATGTATGGTTGAGGTTTGTCTTGGTTTTTT
TTTGTCGTACTGTTTCCAATTTTTGTTTTTCTTTCGAACCTGTTATTTTT
TTTTCTGTATTTTGTTTGGTACTTTGGCCACCACAGATGGTACCCCAACG
GTACCCTATCTGATTTGACTGTGGGTGATCATAGTCCATTTATTTTATCT
TATTTTTTTCCTCCTAGCACGATATGTGCCTGGTTTGTGACCACGGGCTA
GACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAACAACTGGGAA
AAACATTACTCAATTGATATGACTGGCCAAATGGAACATGCCGAGACGCC
CGCGATATGGAACTCCCTTTTTGTTCTTTTGGCCACTATATAAGTATGTG
TTGTCATCCCATGTTCTCTGGCACACTAGTCTGCACCCTGCGGTTCAAAC
TACAGGCTAGGCTCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGG
AGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTTCT
CGCGAGCAGGGATCCGCCGTCCCTACCCTCGTCGGCGAAGCCGAATCTGC
TTTTACTAATAGCATAGCCGCTTTCAGAGTAGCAAAGGAACACATTCACC
GGGAATCGGACCCCCGTTCCTCTGCATCTAGTGGCTAACGAGGGGACCAC
TAGTCCACCGGGGCGACCGTACACTCTTTTGTCTCTGACTTTGTTTGGGT
GACCATCTATTATACATTACCCCAGGTATTTATTTATATTCCTCCCGTGA
TAACGACATTTTTCTGGTTTGTGACAACGGGCTATGCTTTGGTGATGAGC
TAATGTGAGAATCTACAACAACAACATATCCTACGTAGTGCGAACGCGCT
GTGGCCGAGAAAAACAACTCCATCGTGTCATACTTCGAACATAATTGAAT
ACAAATGATGAAAACGTTACGACGCGGGGGAATCTGTCGCGCATTTGTTA
CACTCTGAAATTGATGATGGTGGCCGCAATCATCAGTGATCAGGAGGGAT
TAGTTGCCGGCTACTCGCTTGGGAGGCTGTTTGGTTAGCGTAAGCTCTTC
GCATGGAAATAGTTCTGCTTGCTATATTGTTAGCTCGTCGTTGCTACTGT
AGCGATGTCTTGCGCCTGTTGATTTAGGGCCGGCGGGTGTACATGTGTTT
GCTGTGTTCTGCAGCTGATAAGTGGGCTCGTTTGCGACGCGAAATTTTCG
GAGGCGCGCTTCCGGTTCGCACAGAACGCCTCCATATGTATCGAAATCGC
CGCCACCTGCTGTGGTCCTTTTTCTTGAGCCTTTTTTGTTATCGACTCGG
TCGAATATTGGCCTCGTTCGTTCTCTGTGGCAGGTGTTGTTGTCTCTGTT
GTGTGTCCGATCTGTCGAAGTTGAAAGAAAATACGATTGTACACGTGCGC
CACTTCACACAGACGTATGTGTACATACATACATAGATACGAAGTACGCA
ACGACAACATCTGCCTTTTTAGTGTACGGCTTGACTGCCCGTGTCCCAGC
AAAGGTTAAGTCGCTCGCCTCGGCACCCCGCACCACACCTAGTCACGCCT
AAAACCAACTTTTTCCGTTGCGCTTCATGTTCTCAACCTCATTGATCCTC
AGCTCATGTCCAACCCGGACACTTTCGTGGAGCCTCGCAAGCGCTACTCT
GTGGAGGGCCGCATGTTCTCGATTCATTTTGTTGCGGATGACAGCAGCCG
CGTCTACAGCTGCGTGACGGACAAGGAGTATCCGGCGCATATCGCCTTCG
CCCTGCTGGATGAGATGCAGACCAAATTCCTAACCAAGGTATGTATCACA
CCGCACTACTGCTATCGGACTGGCAGCAGCAGCAGCAGCAGAGGCACAGG
AACGCCCCCCGTCTTCTCCGTCTCGCCTGGTTGACCATGTATTTTATCTT
CACGAAGCATGATTGAAACAGCAAACAACGCCCCCCACCCGGCTAACTTT
ATTGTTGTTTTTTCATCACAAGGCACCGTTGAAACAGCGCAAGAACCGAT
CCCTCTCATCGTACCAGCAACACCGGGATCCCAGCAGCGGCCGCATCATC
CGAACACTAGTTTAACTTTTTCCATCGGATTCCGAGCTGTGCGTGTGCAC
AGTCTAAGCTGGGCCAGCACCGCTTCGATGCGAGTCAACAGACTTTCATA
TATTTTTTCAGCCGCGGGAAACTCATAGTATCAGTATGAATGTGCCACAG
ATCACGATCGGCACGAGCAGTCGGTGCTTTTCCACTCATCCCCCCGAGCG
TCTACAACAGTTGACAGCTACCGTAGTCAGCACACCCGAAAGAAATCGCC
GGCCTCTTTGAAACCGTTTTGTATTGATATACTGCGTTGATTACCATCTC
CCGTGCGGCAAGTGTGTGATACTTCTTCTGGCCTCGCGACCCGTTCCTTC
CAAACCCATGCGAACGCGAACTGATGTGACCTTTGAATAGAATCAGGTGA
CAGTGCTGGTACTAGAAAACGTTCTAGAAAACGTTCCGTTGGCCGTGCAT
GCGTTGGCTAGGAGGTTGCCATTGCCACGGCTCCTCCGGTATGCAGCAAG
TGCAGGACGGACACATGTGCCGCCGCGGAGAGAGGCAGGCCAGCCACACT
AGGACGGGGCTAGCTGACTGGCCGATTTTGCGGGCGGTTCGAGCCTGAGG
CCTAGTCCTTTTTCTTATTCCTAGCTTTCTGTTGTCACCGCTTTGAAAGG
GGGCTGAAACCGTTTTTTTTTTTCCATGCATTCGTTTGTTCACCATCCGG
CGAAATTACTTCACCGTTTCAGAGGCACACCGCGGACATTAAGTTTGTAG
TGAAGCCCAAGCCCAAACACGCTTCGACAGCGCATTGCCCGGCCAAGTCA
GTCAGTTTCGCTCTCGTGGTAAATGCATGCCAAAGGTTCAAGGTACACAA
AGCATTGGCAAGAGGGTTTCGATTTTTTTCGAAGCTTTTGAAGCACACCG
GTTTTGTTATTGATCATCTTAAGGGTCAATCCACCCCCCCCAATACGTAC
GTACCTTGTGTATTTTCCACCTGGTCCGCACGTCGAATTTTACCCTTGGC
CGGCACTGCGTGTACCCCTACATGACAAGCGCAGTCTTGTTGACGCGTGA
TCGGCTCGATTGCTGCGCGATATGTATATTTGTTGATTGAAGGTATAGCC
TAACACGACTGAATGGTACCACCCTCGTGCTGCTCTGCTGCTGCTGTTGG
TCGTAATTGGGGCGATTGGTTGACGTGGACATCGCTCGTTGGCGCTCGAT
GGATGCACAAGGTTGGCGACAAGTCCCTCACTGCCAAGGAGGGAAGCTTG
ACGCGCACGATGAAGTCGAGCTTCTCGGACTTGTGCATCAAGTACGATGA
CACCCGCAACGTCGACCGGATGGCAGCCGTGCAGGTGAGTCGAGTCTCGG
TCTCGCTGTATCTATCCAGTCAGTATTACACGTCGGTATCGCGCCCATAC
GGTACTCACACATTCGTCTCCAGCGGACGGCCTCCTTTCGGGATAGAGAC
CTCTCTGTGTGATCCTGCATACAAGCCGCGCTTGGCAGAGAAAAGCGATA
GTGAAGGGATGTGGATGCTCTATGAAGGGCGAGCAAGGTACCACGTGAGA
AGTTTTGTCGCAAAATTATTTGCAGGCAGGATTGGTTTCTCTTTTCGTGA
ATGCCCCCTAAGTAAGCTGACCGACCCTAAGCAAAACATGTGGGAACGCT
GCAACTTTTAACGGGGGTGATTTTTTTCGGGGGAGTGCGCCCCCTATAGT
ATGTGCTCTCCATGTTTCGATTTTTTTTCAAAAACTTGCTGTGATGCCTG
ATGATCCATCTGTACGTTCGCTTGTATTGGTTTGTGCTGTCATACGGGGT
TGTGCAGGACAAAGTGGACGTTGTGAAGATGACGATGCAGGACAACATCC
AGCAGATGCTTGCCAACGAAGAGCGGCTAGATCAGATCAGCGAAAACGCA
GAGAACCTCAACGAGCAGGTCGGTGGCAAGGCTGAAATTTTTAGTTTCTC
CCTGCCGCGCTATACTTCTGTATCATATGTGTACATCGACAATTTTTGGC
GCAGAATGCACTAGAATGTCCCAGACTTTTGACACTAGAGCATGGTTCTT
TGTACCTTGAAACAGCAGCGACCTCTTTGCGGAGCAGGAGACGTTCGGCG
GTGATGTCCCGGCACAAAAATACGGTTGTGGTCCCAGTGCCGTGACGGTC
AATCACGCCTTCGGCCCTTCTGACCCGTGCATGAATTTGTTTTATTTTTT
ACGAGCAGACACCCTCGGCAAAAAAACAAAAAGTGCACTTTCAGATAGTT
TTGGAGTCACGCCTGACTGACCTGACGGTCGAACCCGCTTCTAGACGTTC
AGCTTCTCGGCACTCTAAATATCCATAATTTTTTGTCGCTATACCCAGCA
TCAGACAGTGTGCGCTTTTTCCGGTTGGTAACGTGATGGCAGGCGAAGGT
GTTCCAGAACCGTTCTTCCGCGCTTCGGAGGCAGATGCGGTGCAAGGCCA
TCAAGGTGATATACTTGTACGTGTTTTTGCCTCCTACAGCAGCAGTAGTT
GTGACGAAACCTCGTTTGCTGCCCTCTGCCTGAACGGCGTTGCCTGGATA
TGTGCACCTGCCGTCTGTTACCATGCCCATGTGAAGGCGGGCCATTGACG
TGTGCAAGTACGTGCCTTGCTTGTTTTTTGTGGCTTCCTCGGCGTCATTG
CCGTTGATTGAGGCAAAAATGTCGTTCATCGGTATTGTGCACGTCTGTTT
ACCTTTCACTACTGTACCCTTTATCTGCGTATGTAACTACCCACCTTTTC
GCCATGCGGAAGGCACAGAGGCGTTTTTTCCCTCAGTGTTAACTGAGGGA
TACTCACGAAACGGTAACACATTTCTATGTATGTATGTATGTATGTAGGC
CTCAGACGGTAGCTCTAAACCACGAAAAAAGTGGAGCCAATCGCGCGCGA
CGCAACCGGCGAGCCCATCGCCCGTGTAAGACGATCCTAGAGGCCTCCAG
AAAGTTTTAGCTCAGTTGGTGCTTCCTGGGCCGAGTTCGACTGGTCAGGT
TGGACGCAGGTCTGTTTTGGGACTCGTCAGGTTGGACGCAGGTTTTCGGG
GCACACCACACACACACGCGAACGATTACGACAGTCAGTATAGACCACCT
CGCCGGGACCGTCTTTCTCCGTGACGGTCTGGATGCGGTGCACTGCTACC
CACAGTGCTGCCGCTTTTTTGACGTGTGTTCGTGGGTTTTGCATGCAGAC
GCTTGTCGTTCGCCAAACGCACCCTCCCGCCTCGACAACAGAGAGAGAAC
GAGAGAAAACACTGCCTCGCACACAGATGATGTAATTGCGCCGCGTGGAG
CATGAGACAACAGACAGAGGGCGAGAGAAAATACTGCCTCGCACACACAT
GTAATTGCGCCGCATGGAGCATTTTGGCCTTTTCTCAGCCAGCACCGAAG
CATGTGACACGCAAGTGGGATCAAAACGAAGCTATGATAATGATCTCGGG
GTCCAAGAATCATGACGTGGCTATTCTTTGCCGTAGAATACGCTGTTTTG
GCATGAATTCATGAGACAGATGTGGTCTGACATGCGGCCCAACATGTTTC
GTTTCGACTACTACGTCGACAATAGTTATTCTAGTGTAGTTGTGAATCAA
CCTGAAAACGGGTGTGATTTGACTATTGATTATGTTGGAAATGAAACGCT
GATTTTTTATTTGATTACGCACAGCACGTCAGTCTGCTGCTTGCTGCTGT
ACCGTCGTTCTATCTAGTGTACAACAATTAAGTATGGCCTACAGCAGCAG
TCCAAAGCAGTATATATGTGAAGTAGTAGTACAGCATCATCAGGGAAAAA
GTCATAAAAGAAGGTTTTGCATGCTTAAAGTAGTATAGATATGATGTAAC
AACACATTGGATTTGGTATAGAGCTGATAATACTTCGCAGTATAAATAAC
GCTGCGCTATGTGTTGTGTGCTGTGTGCAGTGTGAAGCGTTGTAGCGCGC
GTGCGCCGCGTGACGCGTCGTCAGTCGTTTCGCATGTGATTGCGCCGCGC
CGCAGGCAAATTTTGAAGCCGTTACGGAAACAAACGCCTCTTATTTGCTC
CTAAAATATTCAACTTCGTAAATAATCATGATTGTTGATGAAATAATACA
AATTTTGAGGTGTTGAGATATGATTGTTGTGATTGTCATAATCAAATCAA
TAATCATATCAAATAATCAGCACTGCTTTTCAAGTTGATTGACAGCTATC
ATAAAGTCTAGTCGACAAACAAACCCAGAACGCTCCGCGGGTGCGATCTT
GCAGAATAACAGTGTCTGTCTGAACTACCCGCCGCAGGATATCTATATAG
TCTATGTTCACTCGCGGAGCAGTGCCTGCAACACATCCGCCGGCGCCGGC
GATGATTGCTTGGGCATGCCGTTTGCGTTACGCCCACCGCTCTCTGTTGT
TTTGTTTGTTTTAGTCGCTCTGTGTGCGATGGCATCAGACCACACTTCGT
GATGCTTCACGCCTTCGCACATCAAGTCTTTGTGCGTACAAAGACAAACT
GCATCGCACAGACCTCGCGTTACCCTCAAAACTAAGAAAAAACGCTTAGG
GAAAAGCACGCGGCACGACCCGCACGCCTTCCACAACATTTTATTTGTTT
GTCGATGAACACTTCCTGCGCGCGCGCACCATTCAGCTCATGCGTGTTAC
CATATCTCGTAGCAAAGCCTGTTCCGCTTTGGCAAACCCTGTTCCTCTTC
GGCAAACCCTGTTCCTCTTCGGCAAACCCTGTTCCTCTTTGCAACTGCCT
GCTTGGTATGTTCTTGTGCGGCACGATGTTGTGCTGTCATGACGTCAGAT
GTGGATCTTGCTGGCGATGGTTGTGATCATCTTGCTTATCATCATCATCG
TGCCGATCACGATGCACGCCAAGAGCAACAGCGACGACAATTAAGGACTT
GAGGACGGTACCACAGGCCCCTGTGGCGCTCGCGTATGATCGTGCGCGGA
TTCTCCAAGTGTTGAGCTTTTCGTGGCGATGCACCACGCCCCAAGCTCCC
GGCGAGTGTAGGGTTCACACGCACCAGCATCTACGGTGGACAGGCGTGGC
TACCACGACGGCACTACATGGCGTCGACGGACTAGCTGCGCCGATTTCAC
ATTCTCTTCGTGTACAGCAGCAAACCAGAATGTGCTGCAACAGGCTTGGT
CGAGTACGCTCCGTGTGATGGGGCCCGCCCTGATGCTCATTTTTTTGTGT
GCAGTAGAGCGAGCGCCTTTGATCCGGTGTTTTGTCGATGGGAGGTGGGG
GGGCGGGGGTCGGCCCGAATTTCGCCACTTGCCCTCGAACTGTCGCACAC
GGCACAGCAGTATTTCTGTGTAATGACCACATGCCGGGTGCTGATTGTAA
CTTGCGACTTGGCTGCTGCACAGCTCTGCCGAATTGAGCTACATTTCGAT
TGCTGCTGCTGTACTTTTATGCGACTTACATGTACCAATTTTGCGTAACT
ACTGTGACCCGAAGCACGTCGTCTGTATGTAGGTTTTTTTTTTTGCCTTC
GTGCCACGGGTGTAGCGTAAGCCACTATCGGAGCAACCGTTCGTGAGTTA
TTTCGGAACGTGGCACAGCGTGGAGACATCTAGGCGTGCTCTGCTCGGGG
GGGAGGAGAGTGTGCTGTGTGCCGTGTGCGGGAACTAGGAAAGACCGGGG
GTTCAACGTTTGTTTCGATTGTTCAGTTAAAATAGTTTTTAGGAAAATCG
AAACCGAATGAAAACTCAATGCAACAAATGATTGTCGATCACGTGGAGGT
CCCCATGCCTGTCACAATGTAGAGTGCGAGGTAACGTTGAGATCCCTACA
ACCAGTTCTAGGTAATTTTGTTCAAGTGCAGCCATTGGATCCCCCGCGAG
GGGACTGGTTGTTTCTGGCGTACAAGTGTCGCCAACACCAGCAGCCGAGA
ACAAATTATCTTGAAGGGGGGTCGCACGTTTGAGTACAAAGGAAAATAAC
GTAACGTCCGAACCACAAGCTGAAAGCGAAAGAGGTGTGCATACGCCGAA
AGTTGTACTCCCAAGTACGCATTTCTGAAGCCTACTGGTGAGACGGCACA
CGCCTCACCACCGAATCCCTTACCCGCACAAGCTGGGCAACGTGCATCAT
AAGTTTTTACAGCACCAGCACACCACACCGCAACTCTTGTTGGAGAGGTT
TTTTTTTGCGCACAAGCACCCGAGGACGGTAGCACTGAGGGCGAGATTAA
CCACCGAGTGCAGCGAGCGCACGCCTGCTTCCGGCGCAACAGCCAGGCAA
TGTAC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig64:328479..343033+ >mRNA_P-littoralis_Contig64.69.1 ID=mRNA_P-littoralis_Contig64.69.1|Name=mRNA_P-littoralis_Contig64.69.1|organism=Pylaiella littoralis U1_48|type=CDS|length=684bp|location=Sequence derived from alignment at P-littoralis_Contig64:328479..343033+ (Pylaiella littoralis U1_48)
ATGTCTAGGCGAATTACCTTTGTGGGGGTGGTGCGGTTCACGGACCGGGT
GCTCGTGGCGGGTTACTCTCCGTCGGAAGCGGATGACGCCCTCATCATCA
AGGAGCTCATGTCCAACCCGGACACTTTCGTGGAGCCTCGCAAGCGCTAC
TCTGTGGAGGGCCGCATGTTCTCGATTCATTTTGTTGCGGATGACAGCAG
CCGCGTCTACAGCTGCGTGACGGACAAGGAGTATCCGGCGCATATCGCCT
TCGCCCTGCTGGATGAGATGCAGACCAAATTCCTAACCAAGGTTGGCGAC
AAGTCCCTCACTGCCAAGGAGGGAAGCTTGACGCGCACGATGAAGTCGAG
CTTCTCGGACTTGTGCATCAAGTACGATGACACCCGCAACGTCGACCGGA
TGGCAGCCGTGCAGGACAAAGTGGACGTTGTGAAGATGACGATGCAGGAC
AACATCCAGCAGATGCTTGCCAACGAAGAGCGGCTAGATCAGATCAGCGA
AAACGCAGAGAACCTCAACGAGCAGGCGAAGGTGTTCCAGAACCGTTCTT
CCGCGCTTCGGAGGCAGATGCGGTGCAAGGCCATCAAGATGTGGATCTTG
CTGGCGATGGTTGTGATCATCTTGCTTATCATCATCATCGTGCCGATCAC
GATGCACGCCAAGAGCAACAGCGACGACAATTAA back to top
|