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Homology
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: D7G8Q3_ECTSI (Mitochondrial ribosomal protein L46 isoform 2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G8Q3_ECTSI) HSP 1 Score: 403 bits (1035), Expect = 1.070e-133 Identity = 203/263 (77.19%), Postives = 226/263 (85.93%), Query Frame = 3
Query: 303 MMLGRCSMLASSAARRARLYPTTMFGGLCYREMSAPSNLSTKQQMKGFTIKDHRPPRPRVAKEKRKQYLEQRKASFEVEQEKATRLGLDWDIKSALILERLPVIVEEYPDWQRDFWNLQAQQAHYGPKFPAEMGFKYDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAGWRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEER-PNSTYGDKV 1088
M RC+ML+SSA RR +L P + RE+S+ SNL+ KQQ++GFTIKD RPPRPRVAK+KRKQYL +RK +FE EQEKAT LGLDW I+SALILERLPVIVEEY DWQRDFW+LQ +QAHYG KFPAEMGFKYDDEK LTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERL+LI+KP+ G WRLPESAWE GETIRQTAERTAQQ+LLK+AT KGQRDDVAQLHFVGNCPAGWFWRTA EE+ + +GDKV
Sbjct: 1 MFARRCTMLSSSAVRRVKLRPLAVLLAPNCRELSS-SNLTKKQQIEGFTIKDRRPPRPRVAKQKRKQYLAERKDAFEAEQEKATSLGLDWGIRSALILERLPVIVEEYTDWQRDFWDLQTKQAHYGAKFPAEMGFKYDDEKSLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLVLIVKPRSGDEWRLPESAWEPGETIRQTAERTAQQLLLKSATRKGQRDDVAQLHFVGNCPAGWFWRTADEEQGGQHEKFGDKV 262
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: W7TRZ1_9STRA (Mitochondrial ribosomal protein l46 n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TRZ1_9STRA) HSP 1 Score: 104 bits (259), Expect = 1.340e-20 Identity = 72/209 (34.45%), Postives = 102/209 (48.80%), Query Frame = 3
Query: 504 YLEQRKASFEVEQEKATRLGLDWDIKSALILERLPVIVEEYPDWQRDFWNLQAQQAHYGPKFPAEMGFKYDD-EKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAG-WRLPESAWEAGE--------TIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEERPNS----TYGDKV 1088
YL+ R A + A L W I +A I+ER P+I++E DW+ + +Q + A +G FP E+ E + ++VL + P LAPR T AD NDRTTL+RAL ERL L+I+ + G W LP + E G ++R+T E T ++ L D + + N P G WR E + TYGDKV
Sbjct: 102 YLQSRAAQLSRHEAAAKEANLPWRIVAASIVERHPIIMKEPEDWEAAYMEMQEEIAKHGKVFPPELNLMGQAAELDRSDDEVLPELPFKLAPRVTKADRLNDRTTLNRALAERLFLLIRGPVTRGRWDLPMAVLEGGGKGGDMKGLSMRKTHEATVRRFL----------GDKFEAYVPSNAPVGMHWRVPSEPSTGKTGGEQTYGDKV 300
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: A0A5J4Y1U0_9CHLO (Uncharacterized protein n=1 Tax=Trebouxia sp. A1-2 TaxID=2608996 RepID=A0A5J4Y1U0_9CHLO) HSP 1 Score: 88.2 bits (217), Expect = 6.080e-16 Identity = 58/156 (37.18%), Postives = 82/156 (52.56%), Query Frame = 3
Query: 585 ALILERLPVIVEEYPDWQRDFWNLQAQQAHYGPKFPAEMGFK----YDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAGWRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWR 1040
A +LERLPVI+ E P+W+ DF +A+ + G K E K Y+ E Q + APR T AD + D +L R LD+RL L++K K + W+ P++ AGET+RQTAER LK +G + +FVGN P G ++
Sbjct: 45 ACVLERLPVIMPEVPEWETDFLEWKAELQNRGNKELPEEFTKGKTTYESEDGEGATQQWQP-----APRETEADVAMDTKSLRRRLDQRLFLLVKTKGDSSWQFPQAESSAGETMRQTAERA-----LKETIQQGPK-----TYFVGNAPMGHVYQ 185
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: A0A2P6VD62_9CHLO (Serine threonine-kinase n=1 Tax=Micractinium conductrix TaxID=554055 RepID=A0A2P6VD62_9CHLO) HSP 1 Score: 92.4 bits (228), Expect = 1.390e-15 Identity = 57/148 (38.51%), Postives = 84/148 (56.76%), Query Frame = 3
Query: 585 ALILERLPVIVEEYPDWQRDFWNLQAQQAHYGPKFPAEMGFKYDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAGWRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAG 1028
A++ ERLPV+V E P+W+R+++ Q A K+ E+ ++ D K M++ S P APR T AD +NDR +L R LD+RL ++++ K GW LP+ GET+RQTAER A + + + +FVGN PAG
Sbjct: 52 AVVFERLPVVVPEDPEWEREYFEWQDGLAG---KYRKELPREFTDLKDSEMKEDAGASYEP-APRVTAADHANDRRSLKRRLDQRLFMLVRQK--GGWTLPQQENAEGETMRQTAER---------ALADAVELEAVRPYFVGNAPAG 184
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: A0A2P6TJ63_CHLSO (Glycosyl group 1 family n=1 Tax=Chlorella sorokiniana TaxID=3076 RepID=A0A2P6TJ63_CHLSO) HSP 1 Score: 90.5 bits (223), Expect = 3.910e-15 Identity = 59/149 (39.60%), Postives = 81/149 (54.36%), Query Frame = 3
Query: 585 ALILERLPVIVEEYPDWQRDFWNLQAQ-QAHYGPKFPAEMGFKYDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAGWRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAG 1028
A +LERLPV+V E P W+++F+ QA +A Y + P E + D K ++ + S A R T AD +NDR +L R LD+RL +++KPK G W L + GET+RQTAER A + Q +FVGN PAG
Sbjct: 56 ACVLERLPVVVPESPAWEQEFFEWQASVRAKYMKQLPPE----FTDVKESEVQG--DASSYEPASRETEADRTNDRRSLQRRLDQRLFMLVKPK-GGSWALMQRENVEGETMRQTAER---------ALADAVDTSAVQPYFVGNAPAG 188
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: E1ZJP2_CHLVA (MRP-L46 domain-containing protein n=1 Tax=Chlorella variabilis TaxID=554065 RepID=E1ZJP2_CHLVA) HSP 1 Score: 85.1 bits (209), Expect = 9.150e-15 Identity = 57/151 (37.75%), Postives = 83/151 (54.97%), Query Frame = 3
Query: 591 ILERLPVIVEEYPDWQRDF--WNLQAQQAHYGPKFPAEMGFKYDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAG---WRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAG 1028
+LERLPVI+ + P+W+++ W QA Y P + D E+ + P APR T AD++NDR +L R LD+RL ++++PK G+G W L + + GET+RQTAER A ++ + V Q +FVGN PAG
Sbjct: 61 VLERLPVIIPDPPEWEQEHREWQ-QAITEKYFKVLPKDFVELKDSERQAD-DAGARYEP---APRITAADKANDRRSLQRRLDQRLFMLVRPKGGSGGGAWSLMQRENQEGETMRQTAER---------ALAECVDESVVQPYFVGNAPAG 197
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: V4A4N9_LOTGI (MRP-L46 domain-containing protein (Fragment) n=1 Tax=Lottia gigantea TaxID=225164 RepID=V4A4N9_LOTGI) HSP 1 Score: 82.4 bits (202), Expect = 5.370e-14 Identity = 63/204 (30.88%), Postives = 95/204 (46.57%), Query Frame = 3
Query: 570 WDIKSALILERLPVIVEEYPDWQR---DFWN--------------------LQAQQAHYGP------KFPAEMGFKYDDEKPLTMEQVLEQSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAG--WRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEERPNSTYGDKV 1088
WD+ A+ LER P+I +E D+++ DF + L A++ + P EM + +D+ +E+ APRRT ADE +DR + +R LDE+L+LI+K +LG W LP S W GE++RQTA R Q D + F+GN P G+F + ++ N + G KV
Sbjct: 1 WDLFGAVCLERRPIITKEMTDYEKKMSDFLSKLELENSLLSDHELRFRDDKLHAKRIKLEELTVEELENPREMAVEAEDKWKTELEEFT------FAPRRTVADEKDDRKSTERKLDEKLILIVKQRLGKTDVWALPHSQWLDGESMRQTANRALD----------SQCGDQIKSCFIGNAPCGFF-KYKYPKKVVNESIGRKV 187
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: UPI001B7E6674 (39S ribosomal protein L46, mitochondrial isoform X1 n=2 Tax=Carcharodon carcharias TaxID=13397 RepID=UPI001B7E6674) HSP 1 Score: 82.8 bits (203), Expect = 1.030e-13 Identity = 45/102 (44.12%), Postives = 65/102 (63.73%), Query Frame = 3
Query: 789 ADESNDRTTLDRALDERLLLIIKPKLGAG--WRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEERPNSTYGDKV 1088
AD+ ND++TL+R LDE+L+L++K K+G W LP+S W+ GET+RQTAERT L T + + + Q F+GN PAG++ + R +ST G KV
Sbjct: 149 ADKKNDKSTLNRRLDEKLILLVKEKVGDEGIWLLPQSEWKPGETMRQTAERT-----LSTLSGRNE----LQAIFLGNAPAGFYKYKYPKTVRTSSTVGAKV 241
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: UPI001ABDC5A1 (39S ribosomal protein L46, mitochondrial isoform X1 n=4 Tax=Bufo TaxID=8383 RepID=UPI001ABDC5A1) HSP 1 Score: 82.0 bits (201), Expect = 1.480e-13 Identity = 49/133 (36.84%), Postives = 71/133 (53.38%), Query Frame = 3
Query: 714 DDEKPLTMEQVLEQS------PVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAG--WRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEERPNSTYGDKV 1088
++E+ + M Q LE + + LAPR T ADE NDRT+L+R L+ L+L++K K+G W P+ W AGET+RQTAER + D+ + HF+GN P G++ + R G KV
Sbjct: 107 EEEQDIVMAQDLEDTWEQKWKQMKLAPRVTEADEKNDRTSLNRKLENNLVLLVKEKIGNEDIWMFPQIEWVAGETMRQTAERALSDL----------SDNRVEAHFLGNAPCGFYKYKFPKTMRNEDIVGAKV 229
BLAST of mRNA_P-littoralis_Contig153.103.5 vs. uniprot
Match: A0A8C4QFN1_EPTBU (Mitochondrial ribosomal protein L46 n=3 Tax=Eptatretus burgeri TaxID=7764 RepID=A0A8C4QFN1_EPTBU) HSP 1 Score: 81.3 bits (199), Expect = 2.950e-13 Identity = 64/201 (31.84%), Postives = 95/201 (47.26%), Query Frame = 3
Query: 555 RLGLDWDIKSALILERLPVIVEEYPDWQRDFWN----LQAQQ----------AHYGPKFPAEMGFKYDDEKPLTMEQVLEQ-----SPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAG----WRLPESAWEAGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKEEERPNSTYGDKV 1088
R W + +A +ERLPV+ +E D + +W L+ QQ A K + + DD + L+ V EQ + APRRT ADE DR+T R L ++L+L+ + +L A W LP++ W GE++RQTAER L TA D + F+GN PAG++ R ++ G K+
Sbjct: 46 RPAAPWRLFAAACVERLPVVSQERSDIEDRYWRFVQQLELQQSVLSDHEVRLAMEAQKLRSGILEDDDDLETLSGLDVEEQYEKKFNSFVTAPRRTEADELGDRSTHQRCLPDKLVLLFREQLAADAPLTWCLPQAEWMPGESLRQTAERA-----LITAAG-----DNLEAKFLGNAPAGFYKYKFPSNVRTENSIGGKI 236
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.D7G8Q3 |
| Preferred name | MRPL46 |
| PFAMs | MRP-L46,NUDIX |
| Model size | 1912 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC02416 |
| KEGG ko | ko:K02519,ko:K05607,ko:K08860,ko:K17427 |
| KEGG Reaction | R02085 |
| KEGG Pathway | ko00280,ko01100,ko04137,ko04140,ko04141,ko04210,ko04214,ko04932,ko05010,ko05160,ko05162,ko05164,ko05168,ko05169,map00280,map01100,map04137,map04140,map04141,map04210,map04214,map04932,map05010,map05160,map05162,map05164,map05168,map05169 |
| KEGG Module | M00036 |
| Hectar predicted targeting category | mitochondrion |
| GOs | GO:0000313,GO:0000315,GO:0003674,GO:0003735,GO:0005198,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0005739,GO:0005740,GO:0005743,GO:0005759,GO:0005761,GO:0005762,GO:0005840,GO:0006412,GO:0006414,GO:0006415,GO:0006518,GO:0006807,GO:0008150,GO:0008152,GO:0009058,GO:0009059,GO:0009987,GO:0010467,GO:0015934,GO:0016020,GO:0016043,GO:0019538,GO:0019866,GO:0022411,GO:0030054,GO:0031090,GO:0031966,GO:0031967,GO:0031974,GO:0031975,GO:0031981,GO:0032543,GO:0032984,GO:0032991,GO:0034641,GO:0034645,GO:0043043,GO:0043170,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043603,GO:0043604,GO:0043624,GO:0043933,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044267,GO:0044271,GO:0044391,GO:0044422,GO:0044424,GO:0044428,GO:0044429,GO:0044444,GO:0044446,GO:0044464,GO:0070013,GO:0070125,GO:0070126,GO:0071704,GO:0071840,GO:0098798,GO:0140053,GO:1901564,GO:1901566,GO:1901576,GO:1990904 |
| Exons | 4 |
| Evalue | 1.13e-138 |
| EggNOG OGs | KOG4548@1|root,KOG4548@2759|Eukaryota |
| Ec32 ortholog description | 39S ribosomal protein L46, mitochondrial |
| Ec32 ortholog | Ec-22_002600.1 |
| EC | 2.7.11.1,4.2.1.18 |
| Description | mitochondrial translation |
| Cds size | 1032 |
| COG category | S |
| BRITE | br01610,ko00000,ko00001,ko00002,ko01000,ko01001,ko03011,ko03012,ko03029 |
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 |
|---|
| 1680789734.156347-UTR-P-littoralis_Contig153:367378..367956 | 1680789734.156347-UTR-P-littoralis_Contig153:367378..367956 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig153 367379..367956 - |
| 1680789734.2205153-UTR-P-littoralis_Contig153:383953..384255 | 1680789734.2205153-UTR-P-littoralis_Contig153:383953..384255 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig153 383954..384255 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789734.1713362-CDS-P-littoralis_Contig153:367956..368388 | 1680789734.1713362-CDS-P-littoralis_Contig153:367956..368388 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig153 367957..368388 - |
| 1680789734.181924-CDS-P-littoralis_Contig153:369600..369721 | 1680789734.181924-CDS-P-littoralis_Contig153:369600..369721 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig153 369601..369721 - |
| 1680789734.1940923-CDS-P-littoralis_Contig153:370133..370325 | 1680789734.1940923-CDS-P-littoralis_Contig153:370133..370325 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig153 370134..370325 - |
| 1680789734.2101092-CDS-P-littoralis_Contig153:383666..383953 | 1680789734.2101092-CDS-P-littoralis_Contig153:383666..383953 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig153 383667..383953 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig153.103.5 >prot_P-littoralis_Contig153.103.5 ID=prot_P-littoralis_Contig153.103.5|Name=mRNA_P-littoralis_Contig153.103.5|organism=Pylaiella littoralis U1_48|type=polypeptide|length=344bp
MMLGRCSMLASSAARRARLYPTTMFGGLCYREMSAPSNLSTKQQMKGFTI
KDHRPPRPRVAKEKRKQYLEQRKASFEVEQEKATRLGLDWDIKSALILER
LPVIVEEYPDWQRDFWNLQAQQAHYGPKFPAEMGFKYDDEKPLTMEQVLE
QSPVPLAPRRTPADESNDRTTLDRALDERLLLIIKPKLGAGWRLPESAWE
AGETIRQTAERTAQQVLLKTATSKGQRDDVAQLHFVGNCPAGWFWRTAKE
EERPNSTYGDKVNRAFELSSCKRTDDPETLLSLRYGEASATGSGSCSMFF
GRDLTHRMLVATAVRCCPCCTRFHEKSTRKPEIALGLPMQKCR* back to topmRNA from alignment at P-littoralis_Contig153:367379..384255- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig153.103.5 ID=mRNA_P-littoralis_Contig153.103.5|Name=mRNA_P-littoralis_Contig153.103.5|organism=Pylaiella littoralis U1_48|type=mRNA|length=16877bp|location=Sequence derived from alignment at P-littoralis_Contig153:367379..384255- (Pylaiella littoralis U1_48)
TGGCCTGTACCGATGGTCAGTAAGATCAGCTCTCTAGGGACGCAGTTGGT
AGGGAATCTCGTCCATATTTCGCCGAGTTACCAGTGAAAACGTGAACTTG
GCTGCTTGCAAACCTCACCCCCAAATCGACTCAGAGCTCGAGCGGGTCAA
CGTAGGTAGATTGAAAACTTTATACTCCGTATAAATCCCGGCTCTAACCC
GTACGACGTACAACACGGACCTCCAAGGAGACATGCACGGAGCTCCCGCC
TGGAAAAGTGTCTTTGTTCAGATCATGCAACGCCGCGCCACACCACCTCG
AAATGATGCTGGGCCGATGTAGTATGCTTGCCTCGTCGGCCGCACGTAGA
GCCAGACTTTATCCGACGACAATGTTCGGAGGCTTGTGTTATCGAGAAAT
GAGTGCGCCCTCGAATTTGTCGACGAAGCAACAGATGAAGGGGTTCACGA
TCAAGGACCACAGGCCACCACGTCCTCGTGTGGCCAAGGAGAAACGAAAG
CAATACCTGGAACAGCGGAAGGCTTCTTTTGAGGTGGAACAGGAGAAAGC
GACCAGGCTTGGTCTCGATTGGGATATCAAGAGTGCCCTGTGAGTATTGT
ATTCGTGTACTGCGTGCAAAGGTGGGGAACGAATCTAACCCTTAGCAGCC
ATAACCGCCAGGACGGAACGGTGGCGGCGGCAGCAGCAGTAGCAGCAGCC
CTGTCTTCTGGGCGCGGTACCGAGACGAAAGAAGCGTCGGTACTGCTGCT
GAACATGAACCTCGTCAAAATTGGAGGCCCTCATAAGCATCTTAATGCCA
GCCTGTTTTCAGTATAAGAAGAAACCGGGTTTGTAGAGAAATGGCAGGTG
AAGGCATTTTGCAACCGGGAACCAAATGACTTGAATATTGTTTAAGAGAT
TTGCACAAAAAGTAGCTTCATGTGAGTTCAAACACTACTTTAAAAACGTC
TTCTTAGACTACTTTCGGCGGTTTCTTCTAGGGCCGGATTTGTTATTCAT
TTTTTGATAGATTCCGATTTTTTTTGAAATCAGGCTTGTTATAGGCTCGG
GAAACACCTTTTTCCGAACAACATTTTCCGAACAAAATTTTCCGAACAGC
TTTTAATCGGATTTCAGCCGGAAAATCGGACGTTTTCCGAATGCTGAATC
AGTTCGGAAAATACGATCGGAAAATATATAAAAAAAAAAAAATGTGTGAA
GTTATCTCTCTCTTTGTGTGTGGACAAAACAAACGATATTGATCACAACA
ACAGAGCATCAGAGGAGGAGAGCTGCTGCTACTACTTTCTGTGTTGTTGC
AGCTTCTGCTCCTGCTGCTGCTGCTACTACTACTGCTTGCTGCTGTCCAT
ACATGTGTCCACCATCTTTCTGTGTACGCTTGCGGTGTCATCATCCATTC
CATCGTGTTCATCAGCAACCAAAGCCAACCGTATGTAGCAGCAGCATCAT
CAGCACAGCAGCAGCAGGAGGAGGAGTATCAAAGCTTCCTCTGAGTGAGA
CCACAGTTTGCATCTTCGCTCGTAACTCCCCAATGAATGAAGCCACAGCG
ATGACAAGCCCATCTCCCGTGAGCTGTGCGTATGGCTCCCCTCGTGTGGT
AATCGTTTGGGTGAGGATCACACTGGCATGTTGTTGTGTTGTAAAAAAGA
ACCCGAGCTGTCATCTCCTCTCTCTCTCTACTGCTGCTGTACAACTACCC
TACAGCAGTAAACAATAATGCTGTACAGCAGACGGCTGATACATCTTTCT
CAATTTGTTTCGCATGAGTTGGCCTTGAGCAAACCTACGTTGCGAATGTA
CGGATGTAACCCTAACCCAAGCGATCACGACACGAGGGGGATCATATACA
CAGCTCACGGAAGATGCCTTCGTCATTGCTGTGTCTTCATTCGTTCGAAA
GTTACGAGCGGCGATGCAAACGGGTTCCAGCGCAAAAAACACCACCATGC
GGTCCTTCGATGCAGATATATACTCTGGAGCCGACTCTTCAACCACCTAC
TTAAAAAAAGGATCACCGAAAATCCGAACACCTATTTACCTAAGAACAGC
GGATCGGCAACCGTTGGCCGGAAAAAGTTCGTTCGGATTCTATCAAAAAA
TGAAAAAAAAATCCGGCCCTACAAGAAACCGCCTTACAGCTGAAAAGAAT
TCCTTAGAATTCTCCTTTTTCAATAAGAAGAATTCCAACAGGATCTTCGA
AAAGCACCGCTTCTTATAACCGCAGATGATTTTATTTTTCCATGAGTGAC
TCATTTTTTGTTTGACAGACGGTATTGACATCGTTTCAACAGGCTACTAC
TGCTGCTGTAACGTGTTTGTTGATCAATTTCGAATGAATGAAGCCACATC
AATATCAAAGCCATACACCGTAAGCTGTGTGTATGGTCGTGCATCTCCGA
TTGTGGTTTGAGGCCGCGAGGCATCAACAGGCTCACAAAAAAAGAGTGCA
GGCGTCGATGACGTGTGAAAAACAATGGGAAAAGAGAAGGAAGTCCGCAG
CAGCAGCAGCAGGATACAGCAAGGTATTTTGCGCAGGTACACCAGTTTGG
TTTCTCTTCTATAACTATCGAACCAATTGAGCCACAGCAATACCGAAGCC
ATCGACCGTGAGCTGTGTGTCTTGCCCCCCTCCTCCGTTGGTAATCTTGG
GCCGCAAGGCATCAATAGGCTAACAATCTAGCCCTGCAGAAACCGATGAC
TCCTGAAAAAAGAGAAGAAATATCCGCCGTCTGTCTGCCTGTACTGCTGT
ACAAGAGTATATACAGCAGGATGTATTTTGCTGGACTCAACGGCCTTTCT
TCTCAATTTTTTCATAACTCGTCGGTTTCTGCAACGCTTCTATTGCTAGC
CAGTTGATACCTTGCGGCCTTAGATGACAACCGGAGGACAAGGACCAGAG
GCATAGCTCACAGGCGATGGCTTTTGCGTTGCTGTGGCTCAATTGGTTCG
AGAGTGATGGATGAAAAACCAAACTCATGTAGCGGCCCAAAATACAAAAT
ACCTGCTGCTGCTGCTTGCTGCGGCTCCCTCCTCCTGCCCGCTCTCCTCC
CTCACCCCACACTACTTTTGAGTTCCGTCCATTGCTCTCGAACGATTGAG
CCCACGGCAACAACAAAGCAATCGCCCTGAGCTGTGTGTCTGGTCCCTCT
CCTCCATAGGTCATCCGGGGCCGCGAGGTATCGATAGGCTTGCAAAAATA
ATACCGCTGTAGTTGTTCAAGTCACCCGACCCATTGTGAGAGGCTGTGTG
TGGGAGGGCCCAAACTTTTCCAATAAGCGTTTTTTGATCGATCGAATCGC
TTAGAAAACATGATTTTTTGAGCGATTGGGTCGATCGGAAAAGGTTAGTA
GGAAAGTTGAGATAAAAAAAGGGGGTTTTTCCATCTATGACAAGGGATCG
AACCGCCCAAGATAAAAAAAGGCTTTTTCTAAGGAGGATTTTTGCAGCTA
TAATAAGTAGTCTTCGTAGGTTTTTGGGCCGTACATTGAATAAATAAACT
CCGCCCAATTCCGAACCTCTGAAGGTTTTTGGCTTGTCAGATTGCCCGGT
AAGCCAGCTACATTCGCGTCCAATTTCCATGTAGATCGGGGCTGTACCTG
CGGAGAACAGTGGCATCGCGCAAACGCACCCGCAGATCTCCCTTTTTGGT
GCAATTTCGGACTGCTGCAGGCCTCCAGGAGTAGTTCACACGAGTACCTC
TAGAATAGTTTCTGGCTTCGCGCTGCTGCTGTAAACGCATGAGACGCCAC
TCACATACCACATCAGTATCTCTGGCAATTTGAAGCAGTGAGGTTGCTTG
TGACGAGCGGGCTATGTCCGTGACTGAAGCACAGTTTCTGCGGTGTTTTT
CGCCAAACCCGTTCGGCGAAATGGTGCTCAAAACGATGATGCCGAGCACC
TTGATCTCGAGCTACAAGGCATATACGGGGGTCGGGCACAGTTTTCATCC
ACACAGGAGTTCAAGCTGATGTGAGATCTCAAGAAACCTTTATAGGTTTG
TGCCTCCTACGGCTGAATGGGGTAGGGGTGGGGAGCGTACAGCAGTAAGT
GGGGGCACACAACTGCCGTTTTTTATCTGGAAGTTTGAGCCATTTGGGAA
AGGAAAAAGAAACTTCGGAATACCGTGTCCGAAAAACACAAACACGGGTC
GGAGTACAATGTAGCCTTGAACTTTCCACATATCGTATGTTGGTCGCTGG
AGGAAAATCACGTTTTTTATTTTTGGGGGAACGACACAACAGGGTATACC
CTGGTCGTTTTGCGACACAGCAGGGTATACACTTTATTTCAGCGTGGAAT
GAGTCAAGCTCATTGGCCGACGCTCATCTTCACCCTGCGATGCCGGAGAA
AGGGCGGGGTGTACCCTGCGGTGGCCACTTTTATCCAAAAGTGTACCCTG
ATTTCGGAAATATACCCTGTTGTGTCGGAAAATGAGACCCTTACACGGGC
CATTTCTACCGCAAGAAACACTTCCCGCTCACTTCACACAGCACCAAAAT
ACACATATTCCCGTCCTCGTGTCGCATGTGAAGTGCGCTGAGAGCAGGGC
ACACTTGAGAGGGCCTTCCTTGAGAGCCTTGAGAGCCTCGGATGGTCTTG
TTGTGTGTCGCCTTTGTGTCAAGGCTGTACCACGTGTGGTCTCTCTTCTA
CAACAAAGACAACAGTTTCTGCTGCAAGGAAGCAGAAGTTGGTTCTTCGT
TGGTTTATAGGTGGTTGGTGTTGGTTGGTTTGGGCCAGCGACTCTCTCTC
TCTGTTGGTAGAAATGGCCGGTGTAAGGGTTTCATTTCCCGACACAACAG
GGTATATTTCCGAAATCAGGGTATACTTTTGGAGAAAAGTGGCCACACCG
CAGGGTATACCCCGCCCTTTTTCCGGCATCGCAGGGTGAAAACGAGCGTC
GGTCAATGAGCTTGACTCATCCCACGCTGAAAGAAAGTGTATACCCTGCT
GTGTCGCAAAATGACCAGGGTATACCCTGTTGTGTCGTTTCCCCTATTTG
TTATATACGGAGTATATGCGAGGGGTGGCCTTTTTTAACTACTTCTCGTG
TGCATGATACTTCTACAGCAGCAGTAAACGCTGTTGTTGTTGTTGTTGTT
GTTGGCTTGATCTCAGGGCCCCCAACGGTTTACCGCTTGCTGTGTGCGAG
GATGCTTCCGCAGAGAGAGCAGAGAGAGGCATCCCGGCCTGGAATCATAT
TGTTGATTCTCACACTAGCTCACTACCGCCGCAGTCAGTCTAGCCCGTGG
TCACAAACCAGGCACATATCGTGCTAGGAGAAAAAAAATGATATGCATGT
ATGTATCTATGCATCACCGCGGGACCGCAGTCAAACTTAACAACCATTAT
TTGATAAATATGATATCCTGGGCCTCCAGACCGAGCTGTAAAGAGGCAGA
CAGGTTATTGTTTGTTTGTTGTTGTCGTTGATTATCACATTATTAGCTCA
CTACCGCCGCCGGTCACAAACCAGGCACATATCGTGCTATAGATAGGAGG
AAAAAAATAAAATACAATAAATGGACTATGATCACCCACAGTCAAATCAG
ATACATTCGTGACATGGTTGGGGTACCATCTGTGGTGCCCAAAGTACCAA
ACAAAATACAGAAAAAAATAGGTGCTGGCCTGTGAGCGGTATTTAAGAGG
TCCCGCCCCCTTATAATTTTTACCACTGCTACTTCGTGCTCTGTGTTCCA
TGATAAACTCTGCTGCTGTTGGTTTTTGATGAGGACCCCCAACGGTTTAC
TGTGAGAACGTTCCCGCATGGAGAACAGAGAGAGGCATGAAAAACCAATG
CTCTGTGGGATACTGGCATTATTATATTCGAAGTATGTACCGTAAATAAG
CAGTAATACAGGATTAAGATCTATCTGACGACAGGGAGGGCTGGACGTGA
AATGTGTACGAATTGAGTGTAATATGTAGACTTGTACTGCTGTGTACGTA
CGAACCGAGTATTATTTTGTGTATCATACACCATACGCTATTGTTATTGT
TGTTGAGATGTTCACGCAAGATGCTGCGTGTGCAGAAGAATAAAATCTGA
TCTATGATAATCGGGTGTTTGCGGAGACCTGACTCGACTCAGGTTTCACT
CAGGTTTCGAAGTGGTCTGTTCGCCCTTTATTTTTATTTTTTTCCTTCGA
GATGCTGCTGACACTCTCCGCACACGTACTTTTGTACTCCCTCTCTAACC
CATGAATGCGTGCCTGTCCAGCTAGTTCTTCTGCATTTCTCTGAGCTGAT
CACTTTAATACATTTTGGCGGTAGACTGGCACGAGAGGTTTTGCGTGTTA
GTACGTACCACATGAGGTCTTCGTTGCGAGAGCAGTCTGTTACGTGGCCG
TGCATGGTGTTGTATTTCTGCAGCAGCAGTACTGCTGCTGTGGTCCCGCA
TAAACCCAACCATGGGCCCTGACGTCAGGGGGCATCTGGAGCATCCTGCC
AATCAAACAACTGTTCCATAAAAAGACCTGAGCAAAAACTAACTGAGGCG
CTTCTTGCTCATGTCTTTTGACACAAAAGGCCGGAGGAAAGACCAAAGTG
GGTCTTTAAAAGACCAAATTGGGTCTTTTCCTAAAGATCCCTTTTTGCCT
ACTACAAAAATGTGCACAAAGACCAAACCGAAACCTTAATATAGTCCGTT
CTGCGCAAACACCCGAATAATAGGCGATCGAACTTGTTTTATTAGATCTA
TGTCTGAGTAGCAATCAATATGTATGTATCATACAGAGGAGGGGTGGATG
ATTTCGAATTCCTGTTTCCCGCCTTGGTCTATATATTATGAGACTATTGA
ATGGATGTATGTATCCAATTGATCCAATCCTACAGAGGAAGGGATGGATA
CATGCCGTAAAATGATCCCAATTAGAGTCTCTCGGGACAGACTGCCTGAG
ATCGGATGTGAACACCACACACACCACACAGACTTGTGGACGATGGTGAT
GATGAGATGTGATGCAGAAGGCCTGCGTGCCTACCACGCGGACAGGACAT
TTCACAGAGTGTGGGTCGAACGTCGAAGTCAAAGAAAGCGTAAGTATTCA
ATATGATGTGATGTTGACTATGTAAATAAATGCAGCAGTTCTGTATTCAT
TTTCCAAAAGCGAGAGATTTTTACTGTAGAGCGTCCCCAAGTCTAGTCTG
TCGGCCTGGTCCTCCTGCTGTTGTTAGCGGATAATCTCCTGATGATGATG
ATGTCAGCATACTGATCCAACATGATGTGATCCAAAATGAGAGTGTGGGT
CGAAGTCAACGCCAACAAACAACAGCAGATCTGCGCAGATGGAAAGATGA
GATGATGATGATAATAATATCGTACTCGTACAGCAAAAAAAGTGGAGAGA
GATCAGGTGTCTGATGATGTGATATACGGAGTATATGTGATGTGACAGGA
GGGGTAGATAAATGATCCAAAACGATCTCCGTCCTATGATGCAGGAATGA
ATGATAAACGACCCAATATGTGATCGAAATTACCCAATATCATACGATAC
TGCTGTACACCTAAGGAAAGACAAATGACCCAAGATGATCGAATTTATTG
GTTCCGCCGCCTCTAATTTCAAGTGATATGGTTTTAATGGAAAGACAACA
ACAACAACAAAACAATGCAGGAGAAATGGAATCAACACCTGCACGAGGAG
TGGAATCAACACCCAAAATAATCCATGGATGCCGTATGATCGAAATCAGA
GGTCCGCCGTAGTCTAATTGCAAGTGATTTCATTCCTTGCCTGTGGGAGC
TCTAAAGCAAAATATGCCGGTTATGATCCTAATTAGAGGTCCGCCGTATT
CTAATTTCGAGTGATTTCGTTCCTTGCCTGTGAAAGCTCTAGAGCAAAAA
ATGCCGGTCCGTCAGCGGCCTAGAGGTCTCGCAATGCCAGTCTAATTGTA
AGTGAATCACAATGAACAAAAAAAAGAAAAATGAAAATGCTGATCAATGA
GCGGAATGATATGATGTACTCCGGAGTACCTGGTATTACTTTACAAGGGT
TTCGGCGGCTGACGCCGCCACGGTCCTGACCGAATCCAAGATATAGAGGC
ACGCGGAAGGCGTGATGGTGGGACATGGCCTGGTGAACATGTCGACGATA
CACGGGGTCGAAAATGGCACATACTACATAGATACATATTCGAAGTATAC
ATTTATTTCGTTGTCAAGATGAAAGAAAACGGAAAAAGGAAAGAAGAGTC
CCGGGCGGCTATAACGAAAAAACAAACAATCCCACGAAAGAAAAACAAAA
AAACAAACGCTGGGAGTAATCGCACGTACATAATCCACAGCAGCAGTAAA
GGCCACAACCGACACACACACGTACAACAGTAGTACCTACCTGCTGCATG
CAGTGTACTACTGCAGGGAAAAGGCAAGTCATGTGTGGTAATTCCCGAGG
GCTAAACACTCTAAAACCCCTTTCGTATTACAGCAGGAAAGGAAAAAATA
ATATACTCCGAGTATTATAAACACCGGCGAAGAAGGGAAAGGGGGAGGAG
TACGGATCACTGACGATTACAGCTGTCTGTGCGGGTTAAAATGTCGGGAA
TTCGCAAGCGGGTGGGTGGGGAGGTTGGAGGCAATTTTATTTAGTAAGCA
AGACTATATATAATACTTGAAGTATATGTTAAACAGCAAACATTGCCAGG
AGGTGGTACGTAGCCCGCCAGATTGTGCCACACTCAACGAAGACACCTTG
CTGCGTCTTCGAAGCCGGAGCCTACAATTCTTGTTCTGTTTTTTGTCTTT
TTGAACGGCATTCCGTAGCCCTACAGAACTGATGGACCGCCGGAGCCCAG
AGGGACACACACCACCAACAATACCCAGCCGAACCCGAACCCGAATCCTA
AACCACGGAGGACTGCTAGGACACATAATATTATGTATTACAGCAGTATT
ATTATTAGTAGTAGTGGTCTTGTGTGAGGAATGGGGGAGGGTTCCCCTCA
AGAGACCTCTGCTACGACCGTACTCCGTATTTATTTATTTGTTATATAAT
GGGAGGGGTGGCCTCTTTACTACTTCTCGTGTGTATGATACTTACTATAC
TACAGCAGTAAACGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGGTCTGA
TCTCAGGGCCCCCAACGGTTTACTGATTGCTGTGTGCGAGGATGCTTCCG
CAGAGAGAGCAGAGAGAGGCATCCCGGCCTGGATATCATATTGTTGATTC
TCACACTAGCTCACTACCGCCGCAGTCAGTCTAGCCCGTGGTCACAAACC
AGGCATATATCGTGCTAATTCTAGGAGGAAAAAAATGATATGCATGTATG
TGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCACCCTGCGGTTC
AAACTACAGGCTAGGTCCATCGACGGGGTCACACAGGAGGAAGGTCAACA
CAGGAGGAGTTACCCCCACCTGCCTTCTGCGGTACATGCGTGAGATTTTT
TCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATC
TGCTTTTACTAACGGCATAGCCGCTTCCAAAGTAGCAAAGGAACACATTC
ACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGCCAACGAGGGGAC
CACTAGTCCACCGGGGCGACCGGTGGTGTATGTATCCGTAAATAAAGCAG
TACTACCAAGGAATTAAGTCTGTTGTTGTTAGTTGTGATTCAACCATATC
AACCGCAAAGTGGTGGTTAGCTGCGCTGATGATGATCTGGATCTGACGAC
AGGGAGGGCTGGATATAAAATGTGTACGAATGAGTGAAATATGTAGACTT
GTACTGCTGTGCACGTACGAACCGAGTATTATTATGTGTATCATACGCCA
TACGCCGTTGTTATTGTTGTTGAGATGTTCACGCAAGATGCTGCGTGTAC
AGAAGAATAAAATCTGATCTATCATAATAATACGTAGGCGATCGAACTTG
TTTTATTAGATCTATTTCTGAGTAGCAATCAATATGTATGTATCATAGAG
AGGAGGGGTGGATGATTTCGAATTCCCGTTTCCCGCCGTGGTCTGTATGT
TACTCCGTATTAGACTATGATGTGTATGTATGTATGTATCCAATTGATCC
AATCCAAGAGAGAGAGGAAGGGATGGATACATGCCGTAAAATGATCCCAA
TTAGAGCCTCTCGGGACAGACTGCCTGAGATCGGATGTGAACACCACACA
CACACCACACAGACTTGTGGACGATGGTGATGATGAGATGTGATGCAGAA
GGCCTGCGTGTCTACCACGCGGACAGGACATTTCACAGAGTGTGGGTCAA
ACGTCGAAGTCAAAGAAAGGGTAAGTATTCAATATGATGTGATGTTGATT
TATGTAAATAAATGCAGTAGTTCTGTATTCATTTTCCAAAAGCGAGAGAT
TTTTTGTGCGTCCCCCAGTCTGGTCTGTCTGTTCCTCCTGCTGTTGTTAG
CGGATAATCTCCTGATGATGATGATGATGTCAGCATACTGATCCAATATG
ATGTGATCCAATGAGAGTGTGGGTCGAAGTCAACGCCAACAAAAAACAGC
AGATCTGCGCAGATGAAAAGATGAGAACATGTGATGATGACAATATCGTA
CTCGTACAGCAAAAAAAGTGGAGAGAGAGCAGGTGTCTGATGATGTGATA
TATGGATTATATGTCATACTCCGGAGTATATGACAGGAGGGGTAGATAAA
TGATCCAAAACGATCTCCGTTATGCAGGAAAGATTATAAACGACCAAATG
TGATCGAAATTATACCCAATATCAGATGATGATACTGTATGTAAAGGAAA
AGAGCAAGGACAAATGACCCAAGATGATCGAAATGCAACGTTCCGCCGTG
TTCTTATTTCAAGTGATATGCAGGAGGAACGGAATAAACACCCAAAATGA
TTCATGGATGCCAAACGATCCAAATCAGAGGTCCGCCGTAGTCTAATTTC
ATGTGCATATGTATGCGCAGATGAAAAGATGAGAAGATTGATGTGATGAT
GATGACAATATCGTACTCGTACAGCATAAAAAGCGGAGAGAGCAGTTGTC
TGCTGGGATATATACGGAGTATATGATATGACAGGGGAAGATAAATGATC
CAAAACGATCTCCGTCCTATGATGCAGGAATGATAAACGACCCAATATGT
GATCGAAATTACCCAATATCATATGATACTGCTGCACAGGAAAAGAAAGA
CAAATGACCCATGATGATCGAATTTATAGGTTCCGCCGTGGTCTAATTTC
AAGTGTGATGAAATGGTTTTTAATGTAAAGGCAACAACAACACAATGCAG
GAGAAATGGAATCAACACCTGTGCGAGGAGTGGAATCAACACCCAAAATG
ATCGATGGATGCCGTATGATCGAAATCAGAGGTCCGCCGTTGTTTAATTG
CAAGTGATTTCATTTCTTGCCTGTGAGAGCTCTAGAGCAAAAAATGCCGG
TTATGATCCTAATCAGAGGTCCGCCGTAGTCTAATTTCAAGTGATTTCAT
TCCTTGCCTGTGAGAGCTCTAGAGCACAAAATGCCGGTCTGTCAGCGGCC
TAGGGCCAGTCTAATTGTAAGTGATTCACAATGAATAAAAAAAAAGAAAC
AATTAATAAAAAAAAGAAAAATGTTAATAAAAAAAAGAAAAATGAAAATG
CTGATCAATCAGCGAAATCGTAACTTGTATAACTTCTATACCTCCTTCTT
CACGCTCAGATCTACTGCTGGGGCCGAGACATCGGAGGTCGAAACTAATG
TTCAGGAAGTCCACAAATCGTCCGTATCTCCGCCAGATCCCAAACATCAA
CTAGTCTTCACTGCTGTACTCGTCGCCACGGGCGTCATCTCTTGAACTGT
GGGTTAACGAAAGTAGCTTGGGGTAGAAGCTATTGCTATAAACCATTAGC
TGCTGTAGATCCCTGGCGGAGTCCGTGGCGACTAGTTCAGCGTGGCACGT
GTTTGATTTCTTGCTGAGATGCGGACGACTTTTGGACTTACTGAACAATA
ATTTCGACCTCCGACATGTCGGCCCCAGCACCTGGTCTGAGCGTTCCAGT
AAGCAAGTCACCGCTCCATGGTGTCCTCTGCTCTTTGCGGGGGTTCATCC
TCACATAAGTCAACAGGAACGCTTATTCTGAGCAATCTGCATTGTCGTCT
TGGATTTGAGCGTTGGGAACTCGATATTAGTACAGTAAAAATGACGAGTT
TCACCTTCTGAACCGAACCCTTGAAGGGTCTACTGACAACGGCGGTAAAA
ACGGCGGTAAAAAAAATCCGAACTGGTGGGAAAAACCTAAATTTTAAATT
TTGATCTGAAAGACAAATTTGAGTCTATGATCAAGTCAAAGGAGCCTATT
GGAGTTCGCCTCTCACCAGGTCTGTCGTGCACGCCAGATAACCTAGTTTC
GATCAGGAAAAAACGTCACGTTGTATGATAACTACTTGTGCGTCGGCGCA
GTCAGATGTGCTGCAGGAGAGCGGATATCGAAGGCCACAACAATAGTAGA
CCAAAAACTCCTCAGTGTCCCTGAAAAACTCCGGAATGCGGGTTGAGGAG
TTTTTGGCACCGACCTTCTGAACTGCGGTTCGTCCGAGGTAGTAGTTGTG
TAAGCTACTGCTGTTGACCCGCAGTTCAGGAGGTAAAGGGATGTGGCGGC
GAGCACAGCAGTGAGAGATAGCGCAGCAATGGAAGATATTTACGGAATCT
GTCCAGTTTACGGACTTTTTGAGGCACTACTGCGACCTTCGATATCTAAG
GCCCAGCAGCAGAATCTGAATGCGCCGTCACACTTTTTTTTCCTCTCCTA
ATTGGTACCATGCGATCTCGCGCGCGTGGACAAGCCCTTCTTTGATCCTG
ACCAAAAAAAGCGCCATTGATTTGATGTCCGAGTTGAAAAATAATCCTGT
TTTTAAGTTAGAGCGTTGAAGGTAGACATGCACATGTCAAGAGAAGCCCC
GACCGCCGCTGCGTGCGATAACGAAGTTTGTTTTTCTTGCCCAACGACTC
CTACAGGTGTAAGCTACCCAATGTGGGTTGTCGGGTGCTCGTTAGCTGTT
AACTAAATTTCGTCTATTCGAAAGTTGGCTGTCTGGCAATCCTAAACAGG
TGGAATCGGGCGTCTCAATTCTTGAAACGAACCCTAAAGATGTTAGGAAT
CACCTTTCTGTTCCGAAAAGCTAGTCACATTCACGAAATCAAAAAGATGA
TCTGAATAGATCCAAAATTCGGAGAAAAGTTTAACAGACCTAGACTAAAA
CAAGAGCAGAGAGATGTTTGCTGTGTGAGCACGTCGGTGCACATCGACAT
GCCTTTGCTTTGATCGTCACAGCATAACGTGTAGACTCCCTCTGAACATA
TGTGATACCTCTGCGGAAATCTGCTAACGCCCAGAGTAGAGAGCAATTCG
TCCCAGCGGATTCTGGTGATAATCCGAAGAGCAGCACTAAAGTTTGCAGA
AATGTACAGAAAGTTGTTGGCCGCTGACACTCGGGCTTTGTGGCCTCTAA
ATGGGTGGGTAGGGTGTTCAACACGCACAACACCTTCTTGCCGAGTTCTT
CCGTTGTCGGTCCCAAATAAAGTATTGCCAACGCGCCTGAGTCAGGCCGA
CGTGGGGCACTATCGTGCACTGCTCTAGAGCCACGGCAACTTCCGCAGTA
GTCTTGGAATCGCCATAGCATGCACCACTGCTGTCTGTCCTTTAACTTAT
TGGTCGTTCCACCTCATTTTTCTATTTGTTTTGTTCCTCCGCTTTTTACG
AATTAGATTTTTGATGAACGTAGCCGCGGCACATCGGACACAACCCGCTT
ACTTGAATCGAAATCTAATTTCGATTTTCGATTTGAGATGCGGACATTTT
CTGTCAAGACTAAACCCTCAACCCCACTGCTGTACTCGTATCTGTCTGTT
GTTCGTCTTCCTCATTCGTCCATCCCATAGGATTCTGGAGCGACTCCCCG
TTATCGTAGAGGAATATCCTGACTGGCAGCGAGACTTTTGGAACCTTCAG
GCGCAACAAGCTCACTACGGTCCAAAGTTCCCCGCTGAAATGGGCTTCAA
GTACGACGACGAGAAGCCGCTCACCATGGAGCAGGTTCTGGAACAAAGTC
CTGTTCCTCTCGCTCCTAGGCGGTAAGAGGACCAACAGGGCATGTGTCGA
AGGCCGCCTTGGATGCATGGGCAGGCCCGTGTACTCGTGTTTCATATGTA
AGGCTCTTCCTCTACATATTGCGCTCCCTGCAGTTTGCCCTCAAGCCAAC
CGTTGGAATGTTTAATGTTTGGTTTCTCAAGTTTCGTTTTCACTTGCCTC
GCAACATGCGGCGATATGGGAGCGCTACCCCGCGCACCGAACCGCTGCTC
GCGCCGAGTTCTTCCATTGATCTGAAAGCACCACGTGCCTTCGTATGACA
CGCCCCGTGCCTTGTTTACGTGAGGTATCCATGTTCGGAAGTTGCCAAAG
AACATGAGAAGCGGTAAGATATTTCGCGGCTGAAACCGAAGGTTCTCTGG
CGTGCGTTGCTGATGGTATGTTCGCCTCTTGCAGGACTCCGGCAGACGAA
TCAAACGACCGTACGACTTTAGACCGGGCGCTCGACGAGCGACTTTTGTT
GATCATCAAGCCTAAACTTGGGGCAGGATGGCGTCTTCCCGAGAGCGCGT
GGGAGGTGAGGTGCTGGGATGGACTGCAGAGCCGCGGGAAGAACAGTGGT
TCCACCTGTCCATCCAGTAGCGTTTATTTCTACCCTACAGAAGTATATAC
CACGCACATCTCCTCACCACGCCCTAAATTTTTCATTTTTATTCCAAGTG
GATGGGTAGATGGATGTTTTGCCGGTCAAACAAATCCATGATGTAAAATG
TCTGTATATTGACGTATCACAACGTAGGCGGGATCTGTAAATTCCAGGGA
CGATGGATTGTTGTGAGGCACGGATTCTGAAAAATAGAAAAATAACGAGG
GGAGCCTGACAACCCTACACACTGGGTACCTCATACCAGTAGGAAGGCGT
TGGGAAAGCAAAAACTGTCGGTTATCGCTCACAGCGGCGGCAGAGGCTTC
TCTATGCTGTACATGCACATTACACGTCTCCCCCAATTTTCTACATAATT
AGTACCAACATATTTTTTTACTACTCTAAAATTAAAGCTTATTTGGCTTA
ATCTCTCACTTGGTCAGTTGTGCAAGGATTCACAGTCACATAACATCTAT
CAGTAGAGGACACAATGGAGGAAATACGTGTGTGTCGGCACGTTCAGACA
TGTTGCTGGGGCTGAGATATGGAAGGCTGCAGCGCTGCAGCAGTGGCTCA
AAAAGTCCGCCAACTGTGGCCGAACTGGATCAGCACCAAAATCTTGCAAC
TGCTGTTCTCGCCGCCACAGACTCCAAACTCCTCAAGTGCGGGTCTACAG
CAGTAGCTGGTGCCACTCCCTACCTCGAATGGCCTGCAGTTCAGGTGGTT
GGGGTCCGTGGCGGCGAGCACGACAGTGACAACTCTATGGTTTCGGTCCA
GGTCAGGCCCAGTTTGCGGACTTTCTGAGCCACTGCTGCTGCCTTGGACA
TGCCAGCCCCAGCATGTCTAAATGTGCCGACACACACGCAGCTGCTCTAT
GGTGTCCTCTATCGACAGCGATGCTCGAATATTACTCCGTGCACAACAGA
CCAAGTGAGAGGTGAAGCATGTAGCCATGTACTTCAAAGTACTGTGTAAG
CTGTTTCATCTGAATACAAAGACCGAAACGTATCCTTTGGATCCAAAATG
AGATGTTTTTCGAAGAATTTATCTACCGGCCTTGTCCTCGGAGCCTACCC
AAGGCACGTCCCACTGAAAGCATGCGTGCTTCGCCCCAACCTTTGCTGTC
GTTTTCATTGGTGTCAGGCGGGAGAGACTATTCGCCAAACAGCGGAGCGA
ACCGCCCAACAGGTGCTCCTAAAAACAGCCACTTCTAAAGGTCAGCGGGA
CGATGTTGCTCAACTCCACTTTGTTGGGAATTGTCCTGCAGGCTGGTTTT
GGCGCACAGCAAAAGAGGAGGAGCGGCCAAACAGTACATATGGGGATAAG
GTAAATCGCGCGTTTGAATTATCCAGCTGTAAGCGAACGGATGACCCCGA
AACCCTTTTGAGCCTGCGATATGGCGAGGCATCCGCGACCGGCTCTGGAA
GTTGTTCAATGTTCTTCGGGCGAGATTTAACGCATCGAATGTTGGTCGCA
ACAGCGGTGCGTTGTTGCCCTTGTTGCACGAGATTTCATGAAAAGTCAAC
CAGAAAACCAGAAATAGCCCTGGGACTTCCGATGCAAAAATGTCGGTAGA
AACCGCCTTATCCAAACTACTGTAATAGCTCAGTCACGCGCGAAGCACGT
TTTTTCCCCCACCAAACAGCTCAAAACGCGTGAAACACGCGGTTGTCCCC
ACGAAAAATTCGCAGTCAGGTTACTCCTACTGTAGCACCTCCTCTCATTA
CACTTAAGTCGCGGTGAAAAGTTAAATCGTAGCGTTATATACCGCAAGAG
ACATTTTACCTACTTCGTCAATAAGAACTACTTTCGTACGACGAAGATAG
CTCTGGGCCTAAACGATGTACGCTACCGTCATAACGTCATCGTTCACTCA
TGAGTAGTACAATCCAGCATCAGTGCTCCGTTATGTTTCAGCCTTTTTTG
GGAGGCCGAACCGGTTGAACATTTTGAAATATTTCATGTTGTTATACCAC
CCTTTGTTTTCCGGCCAATCGTTTTTCATTGACTTTGGTTTTGTGCGGCT
GAGGCTGGTCCACTACGGTCCCGTTTTCACTCCAGCCCTCGTTGTTTTGT
ATTGGAAACGGAAAGGAAGGAACGAAACGACCCAAGGGTACCTGGTATGA
TATCTGGTCGTGAATTTTACAGTTGGC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig153:367379..384255- >mRNA_P-littoralis_Contig153.103.5 ID=mRNA_P-littoralis_Contig153.103.5|Name=mRNA_P-littoralis_Contig153.103.5|organism=Pylaiella littoralis U1_48|type=CDS|length=1032bp|location=Sequence derived from alignment at P-littoralis_Contig153:367379..384255- (Pylaiella littoralis U1_48)
ATGATGCTGGGCCGATGTAGTATGCTTGCCTCGTCGGCCGCACGTAGAGC
CAGACTTTATCCGACGACAATGTTCGGAGGCTTGTGTTATCGAGAAATGA
GTGCGCCCTCGAATTTGTCGACGAAGCAACAGATGAAGGGGTTCACGATC
AAGGACCACAGGCCACCACGTCCTCGTGTGGCCAAGGAGAAACGAAAGCA
ATACCTGGAACAGCGGAAGGCTTCTTTTGAGGTGGAACAGGAGAAAGCGA
CCAGGCTTGGTCTCGATTGGGATATCAAGAGTGCCCTGATTCTGGAGCGA
CTCCCCGTTATCGTAGAGGAATATCCTGACTGGCAGCGAGACTTTTGGAA
CCTTCAGGCGCAACAAGCTCACTACGGTCCAAAGTTCCCCGCTGAAATGG
GCTTCAAGTACGACGACGAGAAGCCGCTCACCATGGAGCAGGTTCTGGAA
CAAAGTCCTGTTCCTCTCGCTCCTAGGCGGACTCCGGCAGACGAATCAAA
CGACCGTACGACTTTAGACCGGGCGCTCGACGAGCGACTTTTGTTGATCA
TCAAGCCTAAACTTGGGGCAGGATGGCGTCTTCCCGAGAGCGCGTGGGAG
GCGGGAGAGACTATTCGCCAAACAGCGGAGCGAACCGCCCAACAGGTGCT
CCTAAAAACAGCCACTTCTAAAGGTCAGCGGGACGATGTTGCTCAACTCC
ACTTTGTTGGGAATTGTCCTGCAGGCTGGTTTTGGCGCACAGCAAAAGAG
GAGGAGCGGCCAAACAGTACATATGGGGATAAGGTAAATCGCGCGTTTGA
ATTATCCAGCTGTAAGCGAACGGATGACCCCGAAACCCTTTTGAGCCTGC
GATATGGCGAGGCATCCGCGACCGGCTCTGGAAGTTGTTCAATGTTCTTC
GGGCGAGATTTAACGCATCGAATGTTGGTCGCAACAGCGGTGCGTTGTTG
CCCTTGTTGCACGAGATTTCATGAAAAGTCAACCAGAAAACCAGAAATAG
CCCTGGGACTTCCGATGCAAAAATGTCGGTAG back to top
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