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Homology
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: D7G2Z2_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G2Z2_ECTSI) HSP 1 Score: 281 bits (720), Expect = 5.990e-86 Identity = 138/168 (82.14%), Postives = 150/168 (89.29%), Query Frame = 2
Query: 290 SGSVVTLVSMDGDGFVVESSAIMVSKLLDAMLDGPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTEPPIGS 793
S VTLVSMDGDGFVVE+SAI VSKLL AM+DGP+EN KEIPL NMRSNVVAKVVEFCQH++ DPMT IPKP+Q+GKTV DHVQEWYSTFV+ L DEMLFE+LLA NYLDL PLLELCAATVGLRAMNKTP+E++ EFNIKE FSPEVERTLR ENKWSTEPPIGS
Sbjct: 35 SSGAVTLVSMDGDGFVVEASAIEVSKLLKAMVDGPTENAAKEIPLTNMRSNVVAKVVEFCQHHQTDPMTDIPKPVQFGKTVGDHVQEWYSTFVKALKDEMLFEMLLAANYLDLSPLLELCAATVGLRAMNKTPEEIQREFNIKEPFSPEVERTLRQENKWSTEPPIGS 202
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A836CJ49_9STRA (Skp1 family, dimerization domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CJ49_9STRA) HSP 1 Score: 191 bits (485), Expect = 1.080e-52 Identity = 91/174 (52.30%), Postives = 125/174 (71.84%), Query Frame = 2
Query: 272 DQQQPYSGSVVTLVSMDGDGFVVESSAIMVSKLLDAMLDGPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTEPPIGS 793
D ++ VTLV+M GD F V+ + I +S+++ ML+ E EIPLP +R V+AKVV++C H + +PMT+IP+PI+YG+TV+DHVQ WY+ FV L E LFEL+L+ NYLD+ PLL+L +A GL MNKTPDE+R+ I++ F+PEVER LRDE +WSTEPP+ S
Sbjct: 5 DAKRADGAGTVTLVAMGGDTFTVDRNVISLSQVIRVMLEDDGECVATEIPLPTVRGPVLAKVVDYCVHYQTEPMTEIPRPIKYGRTVADHVQPWYAEFVDALDKETLFELILSCNYLDVKPLLDLTSAVAGLMLMNKTPDEIRATLGIEQPFAPEVERQLRDEIRWSTEPPVRS 178
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A7S3XK24_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XK24_HETAK) HSP 1 Score: 176 bits (445), Expect = 1.290e-46 Identity = 87/178 (48.88%), Postives = 119/178 (66.85%), Query Frame = 2
Query: 272 DQQQPYSGSVVTLVSMDGDGFVVESSAIMVSKLLDAMLDGPSE--NDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGD----EMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTEPPI 787
+ ++ +G V L++ DGD F V + +S+L+ M D + +D +EIPLPN++S V+ KV+EFC+H + M +IP+PI+YG V+D VQ+WY FV L EMLF+L+LA NYLD+ PLL+L ATVGL MNKTPD++R F I E FSPE+ L ENKWSTEPP+
Sbjct: 28 EPEEEETGPFVNLITQDGDSFTVAREKVQISELIRTMFDDSLDESDDPQEIPLPNLKSPVLVKVIEFCKHYHKEKMARIPEPIKYGLQVADVVQDWYGQFVDDLVSKKEFEMLFDLILAANYLDIKPLLDLTCATVGLLMMNKTPDQIREAFGIDEEFSPELYDQLLKENKWSTEPPV 205
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A7S3UW02_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3UW02_HETAK) HSP 1 Score: 172 bits (436), Expect = 2.360e-45 Identity = 83/177 (46.89%), Postives = 119/177 (67.23%), Query Frame = 2
Query: 275 QQQPYSGSVVTLVSMDGDGFVVESSAIMVSKLLDAMLDGP--SENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGD----EMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTEPPI 787
Q++ +G V L++ DGD F V +M+S+L+ M+D ++D +EIPLPN++SNV+ KV+EFC++ D M IP+PI+YG V+D VQ+WY +V L + EMLF+L+LA NYLD+ LL+L +AT+GL MNKTPD++R + E FSPE+ L E KWSTEP +
Sbjct: 31 QEEEETGPFVNLITQDGDSFTVSRDIVMISELIKTMIDESLGEDDDPQEIPLPNLKSNVLVKVIEFCKYYHKDKMATIPRPIKYGLQVADVVQDWYGEYVDALVNNKEFEMLFDLVLAANYLDIKSLLDLASATIGLLIMNKTPDQIRETLGLDEEFSPEMHEQLMQEMKWSTEPAV 207
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A7S2SQM9_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SQM9_9STRA) HSP 1 Score: 160 bits (405), Expect = 1.260e-41 Identity = 83/160 (51.88%), Postives = 112/160 (70.00%), Query Frame = 2
Query: 302 VTLVSMDGDGFVVESSAIMVSKLLDAMLDGPSEND-VKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTE 778
V LVS +GD F VE+ +S+L+ ML E D V+EIPLPN++S+V+ KV+EFC+H K DPMT+I KP++ T+S+ VQEWY+TFV + E+LFEL+LA NY+D+ PLL+L ATV KTP+E+R FNI F+PE E +R+ENKW E
Sbjct: 24 VQLVSQEGDNFQVEAKVAKMSELVKTMLPDEDEGDEVQEIPLPNVKSSVLGKVIEFCRHYKEDPMTEIEKPLK-SSTMSEVVQEWYATFVD-VEQEVLFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRKTFNIVNDFTPEEEAQVREENKWCEE 181
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A4D9D5I6_9STRA (Uncharacterized protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9D5I6_9STRA) HSP 1 Score: 155 bits (392), Expect = 5.940e-40 Identity = 79/161 (49.07%), Postives = 111/161 (68.94%), Query Frame = 2
Query: 290 SGSVVTLVSMDGDGFVVESSAIMVSKLLDAML-DGPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKW 769
SG VV LVS +GD + VE S +S+L+ ML D ++ +EIPLPN+++NV+AKV+EFC+H+K DPM I KP++ + + VQ+WY+ FV + E+LFEL+LA NY+D+ PLL+L ATV KTP+E+R FNI F+PE E +R+ENKW
Sbjct: 10 SGKVVHLVSQEGDQYEVEVSVCKMSELVKTMLPDDDDSSETQEIPLPNVKNNVLAKVIEFCKHHKEDPMNDIEKPLK-SANMHEVVQDWYANFVN-VDQELLFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRRTFNITNDFTPEEEAQVREENKW 168
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: W7TPG8_9STRA (Glycoprotein fp21 n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TPG8_9STRA) HSP 1 Score: 155 bits (392), Expect = 3.340e-38 Identity = 79/161 (49.07%), Postives = 111/161 (68.94%), Query Frame = 2
Query: 290 SGSVVTLVSMDGDGFVVESSAIMVSKLLDAML-DGPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKW 769
SG VV LVS +GD + VE S +S+L+ ML D ++ +EIPLPN+++NV+AKV+EFC+H+K DPM I KP++ + + VQ+WY+ FV + E+LFEL+LA NY+D+ PLL+L ATV KTP+E+R FNI F+PE E +R+ENKW
Sbjct: 58 SGKVVHLVSQEGDQYEVEVSVCKMSELVKTMLPDDDDSSETQEIPLPNVKNNVLAKVIEFCKHHKEDPMNDIEKPLK-SANMHEVVQDWYANFVN-VDQELLFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRRTFNITNDFTPEEEAQVREENKW 216
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A6V1AYU4_9STRA (Hypothetical protein n=1 Tax=Thalassionema nitzschioides TaxID=33649 RepID=A0A6V1AYU4_9STRA) HSP 1 Score: 149 bits (377), Expect = 5.340e-38 Identity = 75/161 (46.58%), Postives = 111/161 (68.94%), Query Frame = 2
Query: 302 VTLVSMDGDGFVVESSAIMVSKLLDAML--DGPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTE 778
+ LVS +GD F V +S+L+ +M+ D +E++V EIPLPN+++ V+ KV+EFCQH+K +PMT+I KP++ + ++D VQ WY+ +V + +LFEL+LA NY+D+ PLL+L ATV KTP+E+R+ FNI FSPE E +R+ENKW E
Sbjct: 10 INLVSKEGDSFKVPVDVAQMSELVKSMMEDDNDTEDEVTEIPLPNVKATVLQKVIEFCQHHKEEPMTEIEKPLK-SQNMADVVQVWYANYVD-VEQVVLFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRTTFNISNDFSPEEEAQVREENKWCEE 168
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A7S1CWR1_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1CWR1_CYCTE) HSP 1 Score: 149 bits (377), Expect = 1.620e-37 Identity = 74/160 (46.25%), Postives = 111/160 (69.38%), Query Frame = 2
Query: 302 VTLVSMDGDGFVVESSAIMVSKLLDAMLD-GPSENDVKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTE 778
V L+S +GD F V + +S+L+ +M++ S+ DV EIPLPN+++ ++ KV+EFC+H+K +PMT+I KP++ + ++D VQ+WY+ FV + +LFEL+LA NY+D+ PLL+L ATV KTP+E+R FNI FSPE E +R+ENKW E
Sbjct: 48 VNLISKEGDSFEVPTQVAKMSELVKSMMEEDASDEDVAEIPLPNVKAAILKKVIEFCEHHKQEPMTEIEKPLK-SQNMADVVQKWYADFVD-VEQVILFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRQTFNITNDFSPEEEAQVREENKWCEE 205
BLAST of mRNA_P-littoralis_Contig205.11.1 vs. uniprot
Match: A0A7S0C259_9STRA (Hypothetical protein n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A7S0C259_9STRA) HSP 1 Score: 148 bits (373), Expect = 1.800e-37 Identity = 77/164 (46.95%), Postives = 109/164 (66.46%), Query Frame = 2
Query: 290 SGSVVTLVSMDGDGFVVESSAIMVSKLLDAMLDGPSEND-VKEIPLPNMRSNVVAKVVEFCQHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNYLDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKWSTE 778
S V LVS +GD + V +S+L+ M+D E+D V+EIPLPN+++ V++KV+EFC H+ DPMT+I KP++ +S+ VQ+WY+ FV + +LFEL+LA NY+D+ PLL+L ATV KTP+E+R FNI FSPE E +R+ENKW E
Sbjct: 6 SKQAVNLVSKEGDTYEVPLKVAKMSELVKTMMDEDGEDDEVQEIPLPNVKATVLSKVIEFCTHHGQDPMTEIEKPLK-SAIMSEVVQKWYADFVN-VEQVLLFELILAANYMDIKPLLDLTCATVASMIKGKTPEEIRQTFNISNDFSPEEEAQVREENKWCEE 167
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.D7G2Z2 |
| PFAMs | Skp1,Skp1_POZ |
| Model size | 2592 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K03094 |
| KEGG Pathway | ko04110,ko04111,ko04114,ko04120,ko04141,ko04310,ko04341,ko04350,ko04710,ko05168,ko05200,map04110,map04111,map04114,map04120,map04141,map04310,map04341,map04350,map04710,map05168,map05200 |
| KEGG Module | M00379,M00380,M00381,M00382,M00387,M00407,M00411 |
| Hectar predicted targeting category | other localisation |
| Exons | 4 |
| Evalue | 1.84e-94 |
| EggNOG OGs | COG5201@1|root,KOG1724@2759|Eukaryota |
| Ec32 ortholog description | SKP1 component, POZ domain |
| Ec32 ortholog | Ec-09_004320.1 |
| Description | modification-dependent protein catabolic process |
| Cds size | 627 |
| COG category | O |
| BRITE | ko00000,ko00001,ko00002,ko03036,ko04121 |
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 |
|---|
| 1680790000.913142-UTR-P-littoralis_Contig205:74187..75983 | 1680790000.913142-UTR-P-littoralis_Contig205:74187..75983 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig205 74188..75983 - |
| 1680790000.9902585-UTR-P-littoralis_Contig205:90219..90388 | 1680790000.9902585-UTR-P-littoralis_Contig205:90219..90388 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig205 90220..90388 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680790000.9303439-CDS-P-littoralis_Contig205:75983..76102 | 1680790000.9303439-CDS-P-littoralis_Contig205:75983..76102 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig205 75984..76102 - |
| 1680790000.9530432-CDS-P-littoralis_Contig205:76577..76746 | 1680790000.9530432-CDS-P-littoralis_Contig205:76577..76746 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig205 76578..76746 - |
| 1680790000.962471-CDS-P-littoralis_Contig205:78213..78332 | 1680790000.962471-CDS-P-littoralis_Contig205:78213..78332 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig205 78214..78332 - |
| 1680790000.9768562-CDS-P-littoralis_Contig205:89999..90219 | 1680790000.9768562-CDS-P-littoralis_Contig205:89999..90219 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig205 90000..90219 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig205.11.1 >prot_P-littoralis_Contig205.11.1 ID=prot_P-littoralis_Contig205.11.1|Name=mRNA_P-littoralis_Contig205.11.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=209bp
MAKDAAPSLEGQKTPSSASSATGGNTGSSSSGGTDQQQPYSGSVVTLVSM
DGDGFVVESSAIMVSKLLDAMLDGPSENDVKEIPLPNMRSNVVAKVVEFC
QHNKMDPMTKIPKPIQYGKTVSDHVQEWYSTFVQGLGDEMLFELLLAGNY
LDLPPLLELCAATVGLRAMNKTPDEVRSEFNIKEAFSPEVERTLRDENKW
STEPPIGS* back to topmRNA from alignment at P-littoralis_Contig205:74188..90388- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig205.11.1 ID=mRNA_P-littoralis_Contig205.11.1|Name=mRNA_P-littoralis_Contig205.11.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=16201bp|location=Sequence derived from alignment at P-littoralis_Contig205:74188..90388- (Pylaiella littoralis U1_48)
CTGGACGTCTCGCACAACGACGGACGCGTCTACTCTGGTCAAGTTGCTTG
CGCGAGAGAGGGAGAGGAAGGAAGAGATATAAAGAGAGAGAGATAACGGG
AAAGAAACCTGGACGGCACCACTGCATTGCACAGCAGGAGCCACGGAGAG
GGTTTGGAGCAGTAAGAAGATGGCAAAGGATGCTGCACCTTCCTTAGAAG
GTCAGAAAACCCCATCATCGGCATCTTCGGCAACCGGAGGCAATACCGGC
AGTAGCAGCAGCGGCGGTACGGACCAGCAGCAGCCGTATAGCGGCAGTGT
GGTGACGCTGGTATCGATGGACGGGGATGGCTTCGTGGTGGAGTCCTCGG
CAATCATGGTCTCGAAGCTTCTCGACGCTATGCTAGATGGTGAGCGATCG
ATATGTCATACCGTGCGATATGTCATACCGTATGATTACAGTAGTGCTGA
TGCAAATGATGTATGTTCGTACCTGGTATGTGCTTTGTACTTGAACAAAG
ATGCAGAAGTTAATATCGTACCAAGGGTGTAGACTGGAGTGTATGTGTGT
GTTGTTGTCGTCCCTTTATTTGGACGCCACTCTACACCTTTCGGGTAGGT
TGACGCTCCAACTGGGGTTACACAAGGGGAAGTCAACACAGGAGTTTGTT
TGTTTTTAGCAGGGGATGAACACACACATCGCGAGAAAAAATCTCACGCA
TGTACCGCAGAAGAAAGATGGGGGTAACTCCTCCTGTGTTGACCTTCCTC
CTGTGTGACCCCGTCGATGGGGCTAGCCTGTAGTTTGAACCGCAGGGTGC
AGACTAGTGTGCCAGAGAATATGGGATGACAACACACATAGTCTCGCTGT
TGCACCGCACGCAAGGTCCGCCTTGGGCTGGATCTTATGGTTCACGGATG
TTGGCCCAAGGATCTTTAAACTTATGACGGCAACATCCGTGGGCCGCAAA
AGCACACAGCCTATATTATGGGAAACACGGATTATTTTGGGCACGGATTT
TGGCAAGGCCTGTTTTTTTTTGTATAGTTCCCAGAAGAAGCGTGCAACTG
CAACAGGGACAAGGGGCTTTGCGCATATTAGTACAGCGGAGGAGGAGGGC
CCCGCACAGCAGCACAAGACACACTCACTCGTTCTTCTCACGACCACCGT
AGGACGGAACGCCACACACACATACTGTGCTTCCACGCACAACAGAAGTA
CTGCTGCTGCTGTTCAGCAGTAGTAGCAGGCGTCCATGCCGGAATGGTTG
AATTAGAGGTCACCACGTACGTACGTCCGCGGAATGGGTACCACACAGCA
GCAGTATTAATAGTATAGTCCACAGCAGCAGTCCTCAACAATAGGATGAA
AAATATCAATCGAAAGTCTCCACATTGCTGATAACAGAAGAGCGACGAGC
TCCGCATGGCGTTCGCTGCCTTCTACGTTCGAAGCAGGCTCCGTCGTGCG
GCGGGTGTGGGTTTGTGTAGGTGCTGTTGTTAGTGCGCCCGAGCTTGTCT
GCGCTCACACACAATAGAACAGCTCGGGGATGCGGCGCGACCCCATTTTG
TGGGTTTAAACAGACATAAGTAAACATCCTTGGCTCAAAATTCTTGGATG
CCGAGCCACGGATGTTTGGCCCAACATCCTTGGAAAATGGTCCACGATGT
TGGTCCAAGAATTTTAAAGATTCTAAATCGCCAACATCCGTGTCCATAAG
GTGACTTTTCCACGGATCTTTAAAATCCTTGGCCCAACATCGTGGACCAT
AAGATCCAGCCTTAAAACCGGCTCTTGTCAAAGCGTTTTGGGCCCATTCA
AAAATAAAAAAATAAAAAATAAAACTCAGAATATCCCACTGACAGGTCAA
CAACTCATCCGCCCGCACCACGTTTTGGATTTCAGTTTTATTCTTCCGAA
ACGGGAAGGAAAGTAAAAAACACTTTCCTTCCCCCCAATAGATCAAAAAC
GCAGCTCAAAAACGAATAGACCTAGAATACGACAGAGAGGTGTTTGCTGT
GCATTCCGGGAGCACATGGTACACACTACATATGTTTGCTTAGCTGACCA
CAGCACAACGTGTAGACCCCCGCTGGACACATGTGCTAGCTCCGGAGAAA
GTTGGTACAACGCAGAAAACATATCACTTTGTTTGAGCGAATTCCGACCA
GAATCCGGAGAGCAGCACTCAAGTGTGTAGGTGTGCAGGAAGTTTGTTGC
CCAAGCTGTTTGCGTAGCTGACACAGCCGCCACCTCCAAAAAAGGGCAGA
TGTGCAACACGTACCTACTCATCTCTTGCCGAGTTTTTCGGTTATCGATC
CCAAACAAAGAACTACCAACGCGCCTGAGTCAGGGCGACGTGGGGCGCCA
TCGTGCTCTTCTTTTGAGGCCCGACAGCTCCCGCACTTGTCTTGGAACCG
AGACACGGCATGCTCATATCACACACCATCTGTCTGTGGCCCCTGTTTTT
TTTTTTTATCCGATTTTGATTTTGGACAAACGCAAGCTGCAGCAGATCGG
ACCCAATACGGAATCAAAATCCAAATTCAATTTTGTTTTTGATTTTGAAA
TTTAACAAGAGCCACCCTCAGGGTGGCTCTTGTCCCCGAAAAAAAACCCA
TCGAAATCGAAAATCGAAATCGAAAATATTACTGGTTGGCCAAACTTCCC
GCCGCACATGCGGCGCATCTAGCAGATTTTCGATTTCGCCCTTATTATTC
CGAAAGCGAAAGGAAAGGGTAGAATCGAAATAATCCGAGTTTAGAATCGA
AAATGCGGCTCAAAAATCGAATTGACCTAGAACACCATCAGAGAGGTGTT
TGCTGTGCTTTCTGGGAGCACATCGGTGCACATCGATGTGTCTTTGCTTA
GTTGGTCCCAGCCCAAGTTGTTTCCCCCTTGTTCTACGTATGTGTGACCT
CGGCAGAAGGCTCGTGTCCTGTAGAAAACAGATCACTTTGTTCGAGCGGA
TTCCGATAATAATCCGGAGAGCACCACTCAAGTGTGCAGAAGTGTGCAGA
CAGCAACTGTTGTTGCTCACTACTCTCATACCGGTGGTTGGTGCTGCTGT
GCATTTCGATAACAACACCGGTATGTTTTTACTCATAACACAACTTGTAG
CTGCCTGCCGTACACAAATGGTACCTCCACACGAAGATGGTATCGCCAAC
TGCAAAGAAGGGAACTCTGTCTGAGCAGAGTCTGCTGAGACGCTGACGAG
TTCATCCGAGCAACATGGTGTCGCTCTGCAGAATATGTACAACGGCTGAA
ATCATGGGCTTCGTTGATTCTGAAAAGGGTCAAGGGGTATGTAGGGCATG
CTGGTGTGCAACACGAAATCAAACACACATTTCTTCCTAGTTTTTTCGGT
TATCGATCTCAAACTAAGGACAACCAACGCGCCTGAGTCAGGCCGATAGA
GGGCACTATCGTGCACTGCGATAGAGGCATGGTAGCTCCCGCACTAGCCT
TACGATCGTCACTGCATGCATTTTACGACCGTCTATCCTCTGACTTGCTG
GTCGTACCTCTTCCTTTTTTTATTTTTGTTGTACCTCCGCTTTTTAGATT
TTAGATGAACGCAGCTGCAGCTGCGTGGACCCAACCCCATTTCTAAAATC
GATTTCATTTTAGATTTCAGATTTTAGATTTGGGCATTCCGCGGGGACAA
GAACCACCCTCAGGCTGAGTCTTATCACAAAATCAAATCCCAGCTTCTAA
TCCAAATCTGACAAAAAAGAATGGAACATCCAGCCCAGATATGGTTTCGT
TTGTCCAAGTGTCTTATCCGGAAACTGCAGAAATCGAAATCAAATCCCAA
CAACCAGCACTCAGCGGTCAGCTCAACCTCATCGAACAGCCTTCGTGTTG
TGGTGGTTGCAATTGCTGCTGGTCCTGCTGCTGTTGTTGCAGCAACGGCG
GACGCGGAGAGCAAAGGGTATGGAAAAGGGATAGGTAAGGTATTCACGCA
TTTCAACTAATTACCGCAAATTCCATGTCCCTGTAATTCAGGAGCAGGCT
TTTTTAGGTGGGGGTCCGGTATCGTATGTGTAGTGCAGACACACTGTTGG
AGAGCCACCGCTGTATCAGCTCCACCGACTCCAGGCAAGCAAGTGCGGAA
TAGTGTGCTCCTGAAGTAGCTGCTAGTCCTCGCCGGGTTTGAAGCGCTGA
AAGATGCGGTAGCAGGAGTGCATAATAATTATGTGGCCAAATTTTGAGGG
AAAATCCACCCGTTTCGGGCAGACATCGGCGCGCACGCCCTAACTCGGGA
ACGACGGGGCGCTCTGGTAGTCCTCCGCCGGAGCGTGTTGACAGGTGGTC
CATTCAACTACTTCGAAGTATCAATTTACAGCTGGCAAAACGCAAGCAAC
ACAGGAGGAATACTCGACAGATGAGCTCCTCATTTTGGCTCAAAAAGCGT
TCTAAGCTTGAATAATCCACACAGAAGATCGCACTGCTGTACAAAAAATC
CGCACACTGCTGTACTGCTGTACTGCTCACTACTACTGTGGAGTACAGCA
GTGTGCGGATTTTTCAAGTTTAGTCCGCTTTTTGAGCCAAAATGAGGAGC
TCATCTGTCGAGTATTCCTCCTGTGTTGCTTCGTTTTGCCAGCTGTAAAT
TGATACTTCGAAGTAGTTGAATGGACCACCTGTCAACACGCTCCGGCGGA
GGACTACCAGAGCGCCCCGTCGTTCCCGAGTTAGGGCGTGCGCGCCGATG
TAAACCTGCCCGAAACGGGTGGATTTTCCCTCAAAATTTGGCCACATAAT
TATTATGCACTCCTGCTACCGCATCTTTCAGCGATTCAAAGCCGGCGAGG
ACTAGCAGCTACTTCAGGAGCACACTATTCCGCACTTGCTTGCCTAGTGT
CGGTGGAGCTGATACAGCGGTGGCTCTCCAACAGTGTGTCTGCACTACAC
ATACGATACCGGACCCCCACCTAAAAAAGCCTGCTCCTGAATTACAGGGA
CATGGAATCAGCGAAATTCCTTGTTTACTTGAAATTATCGTTGAGTACAT
TACCTATCCCTTTTCCATACTCTTTGGCGAGGGGTGTGCGTAATGCTATT
GCGGAGGGTGTACTTGTTGCTACTGTGCTGTTTGTTTTTGAGCGCCGGCA
TCGTCTTGCTCCGATATTGCAGAGCGTAGTATCTCCTTGTGTGTGGTGGT
GTGTGGCAGTCCTGCTGTGTGTTTCGTGTTTTCTGTTCTTTCACAGTCCC
GCGCATGACGTACTTGAGCCAGTTTCGCGTGTTCGTCTGCTTCTTGAGCG
CTCGAGTAGACCAGGTACGCACAAAACGTGTTCCGTTTCGCCAACTTGGG
GTTTGATTAAATGCAAAAAAAATGAGGAGATCCGAGGTCTGCTGCGAGGC
GGGAGGTTATTTAAGCCTATCACAGCACGTGTTTTTCTCATCTTTCGTTA
TTCTTGCCAGATTTTGATTCGAAGCTGGGATTTGATTTTGTGATGAGACT
CAGCCTCACAGGGTCGGTCTTGGCAGAAATTCCCCCAAATCGAAAATCGA
AATCCGAAAATAGCTCTTATTGGGCGAAGTGCCAGTTTTATGGTAGCCCT
GATGATTTTAGGTTTTAGAAATTAGTTTTCTGTGCCGAAAAGCTAATTCT
ATTACGAAAGCAAATAGATCGGCTGATACTCCTGTTTGATATCATAGATC
AATAATGCGGGAAAATTAAACAGACCTAAAATATGATACGATACTGATCT
GTGCTGGTAGAACAAGAGCAGAGAGGTATTTGGTGTGCTTTCCGGGGACA
CAGGTGCACATCGGCATGCCTTCGTACTTTAATCGTTACAGCAAAACGTT
GAGACTCCCTCTGAACATATGTGATGCCTCTCCAGAAAGCTGTTCACAAG
TTTTGGAGATCGAGATCGAATTTGAGAAAAAGATCGCGAGATCGATCTCG
ATCCGGCCGCATCAGTATCGGGAATTTGGAAGGCTCGATACGGCAATTTT
TTTACCTAGCGGGACAGCTCTTGGGGGGGGGCTAAAATACAGGGGCGAAG
CCTCCGAAAAGCAGTCCAAGATTCCACGATCACATCACGCATCTCACGTG
TCACAATCCAAGATTCACAAGTCAGGTCTAGTGTGAAAATACCAAAGGCA
CAGTAAAAAGCAGGGATGGAATATGCACCACGCGATACCAAAAAGTAGGC
GGTATCGGGGAAATATGCACCACCACACTACCAACCACCGTAGGAGGAGT
CAAAAGCAACACATATTTTGATTGTGCCCAGAAGGCGCCTTTTTTCAACA
ACAGCAGCAGCAGCAAGTAGCTCTGCTGCAGTAAAACAACAACAGCACAG
CAGCATCATCGTACTGTAGTTCGAGCAGAAGCACACGCTATTGCTGCTGC
TGTAAGACGACTATTTATCGAGAGGGGGCAGGTGACCGCCGATAACACAG
GGGGAGGAGTGATCGCGGCGTCCATATCGATTGATCGTTGGTGGTGGTGT
GTCGAGGTGGGTCACGTGATGATCCATGTTGATATATCCAACATCCAACA
CCTTCCTTCCTTGTGTGTGTGTGTGTGCTGGGGCAGCAAGCCCTCCATGC
ATCTGCACAGGAGGTGGGGGTGGTGGACAACTTGCAGGCCCGCCGAGTCC
ATCGCAAGGACTCCCCCCTTCAGCTTGATATACTTCTCCTGCATCTGATA
CTACAACTGCTGGCGATGGTGCTGCTGTTTGTTGATGCTGCACCTTGTCT
GCTACTTCGAAGTACGGTATATACATGTCATGATGTGTACCACGCGCGGC
GCATCTATCTCTCTCTGTTGTTCTCGTATCACACACAAAAGCATGCTGTT
GTATACTGATGCCGTACACCACGACGACGTTTGTACCAGGTATCTCTATA
TACGTGTTCTTCAATGTGAACACTGTTATGATTCCAGGACGTATGTTTGT
GTTGATGCCCCTTGTTGTGTCTTAATCTTGTTTCGATATGAAGCAGTCAG
CGCTGATGTGTTTTTTTCGCATTGAGTAGACCGGACTTTCAAAAAAGTAA
ATATCATATGCTCAATTCTGATGCTCAACCCCCCTCGGGTTTTCTCACAG
ATCCAACTCACAAATCTGCGAGATCTTACTTTTTTTTTCGTACTGCAAAC
AAGCCGGAAAATTGGAGTATCTCACGAATTGGTGGGCTCAGATTGGTGAG
ATGCAGCAATTGGCTAAGCCACCCGGAGACCGCGTGAGCAGCAACGATTG
GCCAAGTCAGACGTGACTATTTTGTCTGCTGTACCCCTCGTGGCTCCGAG
GCGGAGCACGCACGTACGTTGGGTAGAGAGGGTCGGAGGCTCCTATCTCA
CAGGCCACTACTGCTGTGGCGGCTTGACAACAACTGGCATGCTGTCATAC
AGTAGCTAGCTGTAGAAGAGACTACAGCAGAAGTAGCAGGACAGCCAGCA
GTTAAGGGACGCGAAAATGGTAGGCTGTGACTGTTTTCGCCGCGCTTCTT
TGGCCTGCTACGCCGAGACGCGTGACCCTGCCCCTCACGCTAGTGGATAT
TTTTGTGGTGTGAAGGGCGACGAGAACGAGAAGGAATGAGACTGAGCCTA
CTTGCTTGCTGCTGCTAACAGCGGGCTACATGCATGTTGCTGCTGCTGTT
ATGATCCTTGTTTAGTTCGTGACCGAAAAACATACGAAGTACTCCGGTGT
AATACCCTCTCCATCCCATGATCTTATTGTGTGTTCTGTTGAAACTCACG
TTTGTGAGTTTCGCATGAGGGGGAGGCAACTTTGTGAGGCTATTCGAAGG
TCTGATCAAACTCACAAATCTCACCCACAAATCTGCATATTTCGCAAACG
CCTAACAACAAATCGTGCGAAAACGTCCGGTTGTTAAGTCCTGATTGGGC
AAGACCTCGGGAAAGATTTTGGTTATGTTTTGATTTAGTTGTCAATGCTG
CTGTTGGGTGGCTGCTCTCGTGTCCTAGCAGTCCTCCGTGTCCTTAGGGT
TAGGGTTCGGTTGGGTTGGTGTGTGTCGGGGTTCGTCGGATTCATAGGGC
AAGCCGAGAAAGAAAAAGCTTATGCTGTCGGCATCGAAGCCACGTCCTTT
CTGCAGTAGGTGCACAAACAGCAGGGTAGGGCACGGGCTAATACTGTACC
AGTGCAGCACATCGGCCGAATATCGCCTCCGCCTCCCCACCCGCCCACCA
GAGAATGTCCACCCTGTAACCCGAAGCGCAACATTTAGTTCTAAAGATCC
TTTATTGATAGGTAATCCGTGCTCCTTCGCCTCCCCCTCTCCCTCGTAGA
GTTCTTGTGCGGACCGTTGTCTGTAGAAGCCACTCGTAAATCTTGTTTAT
TCTACTGCCCCCCGACATTCATCTCACCTCACAAATCAAGATACTCGAAG
TATTTATTTGACCGTGCATATGGTGCACAGAACTCCGGATCACAGTAGTG
TTGTGAAACATAGAGGTTTAGCCCATCTCATTGCACCCTGGTGACGCCAT
TTGGGACCGACTACGCAAGAAATATCCAACGTGGCGCGCCCATGAAGGGC
TCCGAGTAACCCGTGGTGTATTGTCTCACCAACCAGGCCGCCGGCCGGTG
GCGATCGCTCTTCAGGCGTTCGGAAATCAATGCTCAACCGCTAGCAGATG
CCAACGGAGTGTTTTGACGCGGACAGAGAAAAACAGACAGCTTTTCATCA
GACACCCGGGGACACCACATTCAACTACTCGCTCGCTTCTGAATGCGTCA
AGCGATAACCTGGGAGAATGTGATCTCCATTCACAGCTTGCCGTCGGCGG
GATAGTACGTCTGCGGTGGAGAGGAAACGAAAATTCGCTTGTATTCAGAG
AACCACGATATATATTTTTTGACCGAGGACGTCCCGGCCACCATCACGAC
TTGGCTCTGAAAGGGTTTCTCCGTTGGTAAGGGAAGTTGTCACTCTTTTT
CTCGTTTTTTGCCCATATCTGCATGAATGACCGGAAGTTTGTGGACTTCA
AGGAGTTCCCGGGTGCCGAAGGCCAGAGACTAGGCGACTGACGGTGAAAG
CATTTGATGAAAAAGAGGCTTTGTCTTTTGTAAATTTTTAATTTTTGCTT
TAATCGAGCCGAGTTGGCAAAAACGGTGCTTTCAGTGATACGGGCACCTG
CGATAACTATATTAGACCTTCAATTATGGGTCTTTTCTGCTTCATTGAGC
CTTCGATATCAAGAAACTTTTTTTCTGCCGGGACGATGTATGGTTTCTGC
GCTGCGAAATCACGAAAAAAACGTCGGCGTAGGGGAACTCCTGCAAAAGA
GCATCCAAACATAAAAGTCGCTAGAATCTCTGTCGTATATGTTGTGGTGC
ATGGATTGCCTCATGTTTTTGCTACAAGCACGTCTGACTCATAGCCAAAC
CCATCCGGCGCTACTTCACCGCACAATACGTAGATCCCAATGCTCCAGCT
TTCCATCGGGGTGTCCGAAGGCCTATCACGCCGCATTTTTTGGTTTTGTG
GTTTCTTGTTCAAAAACCACACGCACGCACGCACTCGCAGGAACTTTCCG
GCGGTGACGCGAATCCTGCAGTATACGGCGATATCGATGAAGGAAGCTGT
GAACTTCGAATTTGAGTTGTTTTGCGAGAAGGCGGACTCAGGTGCCAAAG
ACCTTCCATTTTGTCCATCCCTTCAGAGCAGAGGTGGGGCGGTACCTTGT
AAACGGAGTTCACAGCTCCTTGCCTTGAAATTTGGAGCGTACAACGCAAA
AAACAACACTTTAATCGCACCTGACGCCGGTGAGGACATCCCCACCAAAA
TTGACTTTATTTGCCCCGATCTACCAGAATGCTCGTGCCTGGATAAAAAA
CACGAACGTAATTGTTTTAACGACGCACTTGAGAAAACGTAAGCGCGAGA
TGGCCTCGCGATGAGACCACTTCAAGCGACGTCTGCTGAGTTTGTCAACC
ATGCCAGCAAACTAAGTTGTTGCATTCCCGACGATTTGCGCGGCTATTGA
AGGAAAGGTTGGGTGTGAAACATTGAGCTCTATGTACACTCTGTTTGAAG
ATCTTCAAGAACTAAATGTATGTTGAACTTCAGCTCTACACACTAACCAT
GACAAACACACGTGCCACACCCAACCCAATCCTAACCCTATCTCTAACCC
TGACGACCGGCCAACATAGAGCCGTGGTGGCCACGACCACGGCTGCACCG
CGGTCGTGGCATGCTGGTGGTCATGAGGACAGAATGCCGAATGTTTCAGG
CACACATGAGTTTGGCCAGTCAGAGGCCGTTAAACGCCATAGATAGGATG
TTCCTCGAAGAAAGTGTAATATACCGTGGGAAAAGTTTGAATCGGGAGAG
ATGCTTACTCAATACGTAAACAACCTCGACCCTTTTTCGGCCTTTTATGT
TTTTTTCTGTGTTTTTTCAGCCATCGTTGTTCCTGCCGCTATACACTCAT
GGTCAGAGGGTGCACGCCGTCTTTCCGCCAGCATACGCGAACCAAGTTCC
AAGCCGTGTTTTGATCAAGTCAGGCGGCCATAAAGCAGACGGTGAAGCAC
GACGGCTGAACAGCAATAGACCGGCGTGTCCCGAAGTCCGTAAAGCCAAC
AATATAAAATGATTCATCAAAAACAGCCCGCACATGCATCGCTGTTAATT
CCGTTCTTGAGCGCTCGATCTGCGAGCTCCCGCACCCAACAGGGCTAGGG
CCAATAGCTGAGGTCCTCGTTTGTGCACCTGCGGTTGTGAAGTTGGCGTG
CTAGCTTCTCAATGTATTCCGGCAGGAGCATTCAAATGGCTGAAGAGTTG
AAAAGTGTTTGGTACTGCTGTGTGATGCAACGGCTTGATTTTTTTCGGCT
CAAAAAATCTCTCTACAGCAATAGCAGCCAGTAGCACCCAAGCTACGCTG
GTGATGTCTTACGCACCCGTGCAATCGACAGTCGCCATATATGCTCGTCG
TGCCATACTAGCGATGCGTTCGTCGCATATTTGGATGCGGTACGAGGAGG
CTTCGAGCGCCAGCTGCGTTGTGTGCGAGTACACTCGTTGTGACAGCGTT
TTTTTTGGCATCTGAGTACTCGTTCGCACTATTTTGGAGGCTCAATAATT
TTCCATGTTGGGAAGTCCTAGCATTCGAAAAAAGAGTCACCGAAAGTTGC
GATTGACACCCCTGACCGTAGTCTTACTTCTCGACTGCAGATTGCACCGC
TACAGCAGTAGTCTCGCTGTTGCTGAAGATATCGCCACGGAACCTAGCTT
CACTAACTGTAACACAGTTCACGAACTGTAGGGACCCCTGGACCGAGCTT
CCATGCTCTGTGTCTCCACAGCACAGACAGCATCGGCGCCAAAAATATTG
CGTTCGAAAGTTCCAGTCAACACCATCCCACGAAGTGATATCGTTTGGTA
TGTTCGCGCCCTCTTCGCTGCGGAGATTTGGGGCTTTTGAGAATCGGTTC
GACGCACTCCGGTGTGTTCCTGTACTTCTGGAGAATTTGGCAGGCACGCG
CTAGGATCTATGATAACACGGATGCAACCGACTACTTCTGTAGTTGCCCT
ACCGCCGAGAGCTGAGCGGGATAATGGATATCGCATTCCTTGTTTGCTGC
ATAACCTGATACATGTCGAATCGGGGTCTCCTCGGAATCCCCTTCGAACA
TGGGAAACGCCATGTCTTACACGGTCTGTCGAAAACGTTAAACGCGCCAG
TACAATATGCATACTCAAGTATATTTTGTTTTGCGATGAAACTCAACATC
ATACATACCCGCTCACGACAAGACGGCGCGACTCAAGGGAGTGTTTGAAG
GTTCTCACGATGAGGGTTCACGATAACAGCATGAACTTGTGTTGAAGCCC
ACATTAACAGCGGCTGCTTTCATTATCCAGCAGAGAGCAAAAGCGGTGTC
ACGTACTTCCATATGCATGCAATACTTCCCGCTGTAGTGCTGTCCAAAAT
ATCTACTGACGAAATCGGAGGTCATTCGTACGTACGTGTATAGTTTATGC
TCGATACACTGCTGCAGCCAAACGCCAGATGTTTCCAGCCAAGGAAGATA
GGTCCAATGAGATCGTGCCCGTGGCTCGTCGTGGTTTTGCTCTCACTACT
CTGCAGGGCCGAGCGAGAACGATGTCAAGGAAATCCCCCTGCCGAATATG
CGTAGCAACGTCGTGGCCAAGGTGGTCGAGTTCTGCCAACACAACAAGAT
GGACCCAATGACGAAAATTCCAAAGGTGAAGGGTTTTCGACGGAGCGAAG
CTTTTTGAAGAGACAGAAAGAGCGGTGTCGTTTTGCATTTTTGTTTTGAC
AAAATTGCAAAAGTGAAGGGTTTGACACATGCGAAGCTTTTTGAAGAGAC
ACATAGGGCGGTGTCATTTTGCTTTTTTGTTTTGACCTGCTGACCTTTGC
TTCATACTCCCTTTACTCCTGTGATCGACTTCGCGGGGCTTCGGTCGCAA
AAAGTCATTGCATCGTCAAAGCATGCACTCGTTGATGGTTGGTTTTGCGT
CTAGTCTGTACCGATTATTTCTGCTTCTTGTAGCGGGCCGGATGCGAGGC
GGTTGGAAGATTTGCGTGAAAACGTCCTTGACAGAGTTATCCTGCACGAT
CTGCAATGATGGCGTCTTCTCCTATGCGGCTCCCCCCAACCTTTGTGATG
CCCGAGACTGAACACTCAGATAGAGCTGGGATTACTCACACAAAAGGCCT
CCGAACCTCGCCAAGTCCCTCGCTTCCGTCATGCTGCGGTACAGTACTGC
TTCTATCCAGGGTTTCATCTATTTAAGCCTACATCTCGGAACGAGGTTAG
GTCAAAAACGTCTCTCCAAACTCAGAACATTCCCTCTTCCCCGCAGTTGC
ACCAGGTTAACTCTTGTTTTTTCAACTTATCCTTCGAATTGGATTAACAT
TGTCGTCTCTTCCCTAAAATGGCCTTATCTATCTCTCCCCCCTCTCATAC
CAGCCGGGTTCCCTATTGTTGTAACACATGGCATATTGAATGGAAGTCAT
CGTGAGTGACTCCACCATTCGACCACTCCCGCCGTCGATCTCCGTTCCCC
TCACCTTCGAAAGATAAAACTATAGGTGGGCGGAAAAAACAATACAACAC
CCGCTGGCCTTACTGGCTGGCTTATCGCAAAACTGATCCCCGATCAAGCC
TCCAGCTACAGAGATCCCGTTCCGGGCGACCTTACGTGGGTTGCTAACCC
CGTGCACTCTCATTTGACTGCATACACCGAGAACAATGATGAACTCACAA
ACATACCATCCGTCATCCTGTGTTCCCTTGTTTACGATGTAACGATAATG
CCTCCTGATTATATCCAAACAAAACAACGGTCGATCTAGACTCCGTGTTA
AAAGACCCGCACTTCGCAGCAGCCGTAACAGGAGCGGCGGCGGCGGCGGC
GGCCCCGCCTCCACCCCCTCCCCCGCCATACTTGTAATTGGAAACCATTG
ACGTTGATGTTGTCACGGGGTTTTAAAACAGTCCATCCCGCTGTACGCTT
TCATGTAAGCTTGCCTCTCTGTGTGTTGTCTGCGGTGGGATCTCGATTCA
TTCAAAACAGCCTTCATCCCACACGAATTTAAGCCTATTTAAGCCTTTCT
ACGCACACGAATTTAAGCATTATGTCTATCTCCCGTTCGTGTTGCCTGCC
TGCCGACCGCGCCGGGGACTTCCTCAACCCCGATCAAAACAGCCTATCCA
GTACGGCAAGACCGTGAGCGATCACGTCCAAGAGTGGTACTCTACCTTCG
TCCAAGGCTTGGGAGACGAGATGCTGTTCGAACTCCTGTTGGCGGGCAAT
TACCTAGACCTTCCGCCCCTGCTGGAGCTTTGCGCTGCGACTGTGGGACT
CCGGGCCATGAGTGAGTTCGTCTGTTGCAGCATCCCTTGGTCCTTCCTGC
CAGAAAACTCATTATTATAGGTCAGCCAGGGCTTTGACTGTACGTCTTGT
CTCACTTTCGATGAGGCGTCATACAACTTCGGCAGGAAAAACAAATACTC
GTAAAAGGAAGAGGTTATATACAGAACTTCCCTTGCCATTATCAACAAAC
TGCACGGCTGTGGCAAAACCTCTTGGTTTACCATCACCGTGGTGACGGAA
CATGCCGACCGGCTCCTTGCAGGACAGCCAATCTTGTGAGCCTTGTCGGT
GTAAGCATGTTGCATAGGAGGTGGGAAGTTCCGCCAAAGTCACCCCAACA
GCAATGTGTGCTTTCTTCTCAATTGGATATAGCTCCCCCCTCCCCTGTCT
CACACATGCGCACTCGCACACGCCACCGCGGTGTGTGCTATGGTCGTGTG
GTTCTCTTTTTTTCAACAAATGCACACTCACAACAGACAAGACTCCGGAC
GAAGTCCGAAGCGAGTTTAACATCAAGGAAGCGTTTTCGCCAGAGGTGGA
GAGGACTTTACGAGATGAAAACAAGTGGAGCACGGAGCCGCCAATCGGTA
GCTGAATACAAATGCACATAAATCAAAGCAGCAGTAGTCGGCAGCTGAAC
ATCGTCGCGCAGAAATCACACTAGCGCCAGCACGTCACCAGCAAGGGAGC
GAGCATACTACGCGATTGAAAGGTTGATGGCTTGTCTCGGAAAATTGCAC
AACACAAATAGGATCCTTTGAACGAGCAAAGCGAGCCATTGAAAGGGTGA
TGGGTTGTTTCGAAAAATTGTACAACACAAAAATATCATAGGTGGACACA
CCGTATTCTCGCTCGAGTTGTTAGCCCTCGAGAGACAGCGTGGATATTTT
CCGGCCGATTTGCTACACCGGTTCGGGAGCCTTCGTGATGATTTAAGCCT
TTGAGAGTGCGATTCTCAAGGTCAAAGTCGCGTACGTACGTCGGCATTTG
TATGTATTGATCAAAGGCCTGGCTGGGATGTTGTCGCACACTCATCACCA
TGTATAGACTCGGCGTTGGTATGTAGATAACTCTCAATCTCGTGTGGACG
TGGAACAAGTGTGACACTTGCCCTCACGCCCAGTAGCAACTCGAACGAGA
TTCTAGTGTACAAGGTGAAGGTATAGTCACATTGTAAACAAAGGCAGTTG
CGACCGTGTTTGGTTTTTAGCCGTTGCAAAGGTGCTAGTGATTTTGTCTA
TAAACGAAGATGGCACTGCTGTAAGTGGATTGGTAAATGGAGATGTATCC
AAAGTTAAGCGCCTTTTTTTCCCCGCTGTTTTGTTGTTTTGTCGAGGAGA
AACGAGTACTAGCCTCTTGTCTAGTTGAGAGAGGTCGGTACCGTAGCCGG
AAGAGCGACATAGCATCTCGGGCGAAGGCTGAGAAAATGTGGTCGGCTCA
ACTCTTTTGACTCGTGACCGGCTTGCGCGGACGCTGGACCCCGATAGAGG
CGAATGTGTGCCCCGGACGTACGTGCCGCAGATTTTCAAAGGAAGTCGAA
CAGAATGAAGGCGCAAGTATTGTCCACATTCCCCCCGCCCTTGACGAAAT
TGAAATCCTTCGGATCATCAAATCAGAGTAGGCTCGCTTTGTCTCTAACG
GTAGCACGGGGAGTGGGTTACAGCTGAACGTGTTCCAGGGCAGGGTGGTG
CAGATGACTTCATCGGCGCTTACCGAATCGGTAATCGAGGGAAGACGCTA
TTTTCGCTGAATTATCTCTGTTAAAATTTCACTCACGCCTTCTGTAGTAG
GAGCGGATTTCGTTGTTTTTGGGGGTTGCAGCCTCTTTTGCGGTAGGCTG
CGAGGCTCGACGTTTGAGTTTTGCGCTATTCCTCTGGGTGTGCTCTGTGT
TACATGCGAAAAACTTGACCTTTGGGTCCTACGGAGTTGCTCTTTCGTTT
ACTTCTCTACCGTTGGTCGACGGGTGAGTTTGGTACTCTTTACCGGTGAA
ATTCCTCTCGGGGCATCGAAACCCACGGCGCAGGGCTAGGGCAGGGAGGC
CATCTGGCGCATCCGCTCTCCGCAGCGCGTCGCGGGGATGTTGGGGCATG
GACCTTGTTCCTGACTTTGAGACCTAGAAGGGCACGAGCGAAGTACGTTC
GATTCAATCGAAGGCACGTTATTGCTTGGAGCCCGTTCGCTTGGCCACTT
GGGTGAGGACGTTACGATTATGCTTCTCCTCTTTCTTGTTGCAGACCCAA
CAGCGAGTCATGACACGTACCAAGGATGTTCCTGCGCCTTTCGCGCCTTG
CGTGCACCGAGCCATAACTCAGAGGTCAACTCCCGCTCTGGGGGTTCACG
CGTTCTCCCGCTCTCCCGCCTTGCACTCACAGGATCTACCCATGCCGTCA
T back to topCoding sequence (CDS) from alignment at P-littoralis_Contig205:74188..90388- >mRNA_P-littoralis_Contig205.11.1 ID=mRNA_P-littoralis_Contig205.11.1|Name=mRNA_P-littoralis_Contig205.11.1|organism=Pylaiella littoralis U1_48|type=CDS|length=627bp|location=Sequence derived from alignment at P-littoralis_Contig205:74188..90388- (Pylaiella littoralis U1_48)
ATGGCAAAGGATGCTGCACCTTCCTTAGAAGGTCAGAAAACCCCATCATC
GGCATCTTCGGCAACCGGAGGCAATACCGGCAGTAGCAGCAGCGGCGGTA
CGGACCAGCAGCAGCCGTATAGCGGCAGTGTGGTGACGCTGGTATCGATG
GACGGGGATGGCTTCGTGGTGGAGTCCTCGGCAATCATGGTCTCGAAGCT
TCTCGACGCTATGCTAGATGGGCCGAGCGAGAACGATGTCAAGGAAATCC
CCCTGCCGAATATGCGTAGCAACGTCGTGGCCAAGGTGGTCGAGTTCTGC
CAACACAACAAGATGGACCCAATGACGAAAATTCCAAAGCCTATCCAGTA
CGGCAAGACCGTGAGCGATCACGTCCAAGAGTGGTACTCTACCTTCGTCC
AAGGCTTGGGAGACGAGATGCTGTTCGAACTCCTGTTGGCGGGCAATTAC
CTAGACCTTCCGCCCCTGCTGGAGCTTTGCGCTGCGACTGTGGGACTCCG
GGCCATGAACAAGACTCCGGACGAAGTCCGAAGCGAGTTTAACATCAAGG
AAGCGTTTTCGCCAGAGGTGGAGAGGACTTTACGAGATGAAAACAAGTGG
AGCACGGAGCCGCCAATCGGTAGCTGA back to top
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