mRNA_C-linearis_contig10.556.1 (mRNA) Chordaria linearis ClinC8C monoicous

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview


Name	mRNA_C-linearis_contig10.556.1
Unique Name	mRNA_C-linearis_contig10.556.1
Type	mRNA
Organism	Chordaria linearis ClinC8C monoicous (Chordaria linearis ClinC8C monoicous)

Homology

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: D7FQH1_ECTSI (Ankyrin repeat protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQH1_ECTSI)

HSP 1 Score: 318 bits (816), Expect = 6.830e-99
Identity = 184/288 (63.89%), Postives = 212/288 (73.61%), Query Frame = 1

Query:  886 YMSHVGSHGPTPSADDGGVLLEG-EIWLPLVS-----REQEAAAXXXXXXXXRRFSPEGAGGRRVRLTRRPRGGAAVVEALRAVLEEAHVRQVVRLAGLYLARTMNEAEWYHRTAVILPRSSSAGGSTDLLVDIAAAHPSDTYQRTVAKAAIQDFAEEERSNAEGGFWMDRGIKDALDLNARNRLSETPLILGAQNASVEVVAALLEEEEAGTDIAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTG 1731
            +   + +   + + D G   L G E WLPL+       + ++ +        +R   EG       L+   R GAAVV+ALRAVLEEAH+RQVVRLAG+YL   MNEAEWYHRT  ILP     G S +LLV I AAHPSDT++R  AKAAIQD+AEEERS AEGG+WMDRGIKDALDLNARNRL+ETPLILGAQNAS+EVVAALLEE +  TDI A+N +GCTALVLAAML+KT VVKVLVA YVARG GVDHRT NGFSALHWAVVRGN+D  VDLVDA A+INTG
Sbjct:   28 HAEELSTRSASANGDSGNDSLIGCEDWLPLLPSRASRHDGDSGSGDHGVGDAQRGRGEGGD-----LSSSRRRGAAVVQALRAVLEEAHIRQVVRLAGMYLEGNMNEAEWYHRTGAILP----TGVSMELLVKIGAAHPSDTFRRKQAKAAIQDYAEEERSTAEGGYWMDRGIKDALDLNARNRLTETPLILGAQNASIEVVAALLEEPD--TDIVAVNEDGCTALVLAAMLDKTEVVKVLVAAYVARGQGVDHRTVNGFSALHWAVVRGNSDIAVDLVDAGAAINTG 304

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A7U0TIW6_9TREM (Transient receptor potential cation channel 3 n=1 Tax=Cryptocotyle lingua TaxID=66766 RepID=A0A7U0TIW6_9TREM)

HSP 1 Score: 68.9 bits (167), Expect = 3.260e-8
Identity = 49/150 (32.67%), Postives = 77/150 (51.33%), Query Frame = 1

Query: 1603 VARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQIL--AAGGEHTAAVSVNVVSKTNGKTPLHYAVESLQLEAARFILGRGS 2046
            V  G  ++ + ANG++ALH+A +RGN   T  LV     I+    +    L R PIH  + +      + LL   ADPL   + G TP+H A   G LE++Q++  A      +  S   ++  +G++PLH+AV +   E ARF +  G+
Sbjct:  193 VVHGAELNGQDANGWTALHYAAIRGNEVATRQLVQ-EPGIDIELEDHD--LMR-PIHMASLHKEVEITRQLLMVNADPLAMTQSGCTPLHFACATGDLELVQLILDAIMIRFKSTSSPFNITNRDGESPLHWAVANGYAEVARFCIEHGA 338

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A4S2M3M5_OPIFE (Uncharacterized protein n=1 Tax=Opisthorchis felineus TaxID=147828 RepID=A0A4S2M3M5_OPIFE)

HSP 1 Score: 67.4 bits (163), Expect = 9.300e-8
Identity = 51/153 (33.33%), Postives = 78/153 (50.98%), Query Frame = 1

Query: 1603 VARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGGEHTAAVSVNVVSKTN-----GKTPLHYAVESLQLEAARFILGRGS 2046
            V  G  ++ + ANG++ALH+A +RGN   T  LV     IN    +    L R  IH  + +     ++ LL A ADPL   +   TP+H A   G L++++++    E T +   N VS  N     G++PLH+AV +   E ARF +  G+
Sbjct:  112 VTHGAELNGQDANGWTALHYAAIRGNQVATRQLV-REPGINIELEDHD--LMRA-IHLASLHNELEIVRELLMANADPLAMTQARCTPLHFACATGNLQLVKLIL---EATLSKVKNPVSPLNITNRDGESPLHWAVANGYAEVARFCIQHGA 257

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A167PJ38_9PEZI (Ankyrin repeat-containing domain protein n=1 Tax=Sporothrix insectorum RCEF 264 TaxID=1081102 RepID=A0A167PJ38_9PEZI)

HSP 1 Score: 66.2 bits (160), Expect = 2.430e-7
Identity = 45/145 (31.03%), Postives = 69/145 (47.59%), Query Frame = 1

Query: 1624 DHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGG-----EHTAAVSVNVV---SKTNGKTPLHYAVESLQLEAARFIL 2034
            D R    F+  HWA   G A     L+  + ++     + R    R  +   AE G+S  + VLL+AGADP  +D+LG+TP+H AA  G + ++++L   G     E T     NV        G+T L YA+ S  ++    +L
Sbjct:  536 DSRLCGSFNMFHWAAFTGLAPYVAHLIARQPAL----LDARDGDGRTALSYAAELGNSEIVAVLLRAGADPRSDDRLGLTPLHHAAS-GNVGVVKLLLDAGVSPLIEKTKDTPYNVCHFHEHNRGETALEYAMRSRNVDIVTAVL 675

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A0N4Z6E2_PARTI (ANK_REP_REGION domain-containing protein n=1 Tax=Parastrongyloides trichosuri TaxID=131310 RepID=A0A0N4Z6E2_PARTI)

HSP 1 Score: 64.7 bits (156), Expect = 4.870e-7
Identity = 58/204 (28.43%), Postives = 90/204 (44.12%), Query Frame = 1

Query: 1423 SETPLILGAQNASVEVVAALLEEEEAGTDIAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGGEHTAAVSVNVVSKTNGKTPLHYAVESLQLEAARFIL 2034
            + TPL   AQN   E+V  LLE   AG    A +A            N   +  +L+     +  G+D     G ++  WAV  GN D   +++        G+   +       +H  A  G+++  ++L++ G  P  ED +G TP+HIAAGKGF  ++QIL    E     +VN V  +  +T L YA    Q      ++
Sbjct:  256 ARTPLHYAAQNGREEIVELLLE---AGARHNATDAYSSXXXXXXXXSNFKILRSLLM-----KNNGIDVIDKEGRTSFMWAVSSGNEDVVSEMLRHFNIPRNGKDNHQSTA----LHLAALTGNASICKILIQQGWMPTAEDHVGATPLHIAAGKGFTNLVQILCTSDE-----AVNKVDISQ-RTALFYAAFGGQAHTLNVMI 441

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: UPI001E8CE5B4 (uncharacterized protein n=1 Tax=Morchella importuna TaxID=1174673 RepID=UPI001E8CE5B4)

HSP 1 Score: 64.7 bits (156), Expect = 5.600e-7
Identity = 66/216 (30.56%), Postives = 97/216 (44.91%), Query Frame = 1

Query: 1294 YQRTVAKAAIQDFAEEERSNAEGGFWMDRGIKDALDLNARNRLSETPLILGAQNASVEVVAALLEEEEAGTD----------IAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQI 1911
            Y+R V    I  +A    + A   + + +G K     N RNR  ETP  L A+   + +   LL  E    D          I A +A G TAL LAA   +  +VK+L+ T    G  V+ R   G SA+H A+   N D  + L+   A  NT        L  L  +   +    A   +++ AG +   +DKLG TP+HIAA KG +  +++
Sbjct:  206 YER-VRSGTILQYAVLTNNLAFAKYLLSKGAKT----NTRNRHRETPHHLAARLGFISIARPLLNAERGEKDTPITDKTRECIDANDAVGNTALHLAAGRGEEVIVKMLLHT----GADVEARDDEGRSAIHRAISGRNQDMALMLIGKDADGNT-------PLHLLLHNHLDDDAVMAARCIMINAGTNVNTKDKLGRTPLHIAADKGLVSAVEL 405

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A3N4KLU5_9PEZI (Ankyrin n=1 Tax=Morchella conica CCBAS932 TaxID=1392247 RepID=A0A3N4KLU5_9PEZI)

HSP 1 Score: 64.7 bits (156), Expect = 5.660e-7
Identity = 66/216 (30.56%), Postives = 97/216 (44.91%), Query Frame = 1

Query: 1294 YQRTVAKAAIQDFAEEERSNAEGGFWMDRGIKDALDLNARNRLSETPLILGAQNASVEVVAALLEEEEAGTD----------IAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQI 1911
            Y+R V    I  +A    + A   + + +G K     N RNR  ETP  L A+   + +   LL  E    D          I A +A G TAL LAA   +  +VK+L+ T    G  V+ R   G SA+H A+   N D  + L+   A  NT        L  L  +   +    A   +++ AG +   +DKLG TP+HIAA KG +  +++
Sbjct:  313 YER-VRSGTILQYAVLTNNLAFAKYLLSKGAKT----NTRNRHRETPHHLAARLGFISIARPLLNAERGEKDTPITDKTRECIDANDAVGNTALHLAAGRGEEVIVKMLLHT----GADVEARDDEGRSAIHRAISGRNQDMALMLIGKDADGNT-------PLHLLLHNHLDDDAVMAARCIMINAGTNVNTKDKLGRTPLHIAADKGLVSAVEL 512

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A378K2C9_9GAMM (Ankyrin repeat protein n=3 Tax=Legionella TaxID=445 RepID=A0A378K2C9_9GAMM)

HSP 1 Score: 64.3 bits (155), Expect = 6.390e-7
Identity = 55/177 (31.07%), Postives = 83/177 (46.89%), Query Frame = 1

Query: 1402 LNARNRLSETPLILGAQNASVEVVAALLEEEEAGTDIAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGGEH 1932
            LN R+    TPLI  A N   EVV  L+ E   G D  A+N +  +AL +A         + L+     + +  D   +  ++ L  A+V G  D    L +    +NT  TE    L     H CA   + + +Q LL+  A+P V +   MTP+ IAA +G+ E++ IL A  +H
Sbjct:   86 LNERDVYGNTPLIHAAWNGHTEVVQWLVRE---GADANAVNISADSALFVALRFKHPDTARYLLTL---KNIKTDKPNSLSYTPLVIALVYGYLDIVDILYNQNVVLNTQYTENNTLL-----HMCAMINNLSSMQWLLEHDANPWVSNSHHMTPVRIAASRGYTEMVGILIAKMKH 251

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A315VDT7_GAMAF (Protein kinase domain-containing protein n=8 Tax=Percomorphaceae TaxID=1489872 RepID=A0A315VDT7_GAMAF)

HSP 1 Score: 64.3 bits (155), Expect = 7.430e-7
Identity = 38/123 (30.89%), Postives = 59/123 (47.97%), Query Frame = 1

Query: 1597 TYVARGLGVDHRTANGFSALHWAVVRGNADTTVDLVDARASIN-------------TGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGG 1926
            T + +GL     T NGF+ALH A  + NA+   +L+   + +              T       A++  P+H  + YG     ++LLK GAD     ++G  P+H+AA KGFL I+ +L   G
Sbjct:   86 TLILKGLRPSRLTRNGFTALHLAAYKDNAELVTELLHGGSDVQQVGYGALTALHVATLAGHHEDAVFFTPLHIASYYGHEQVGKLLLKFGADVDASGEVGDRPLHLAAAKGFLGIINLLVGDG 208

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BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Match: A0A6A4JZ21_APOLU (Ion_trans domain-containing protein n=4 Tax=Mirini TaxID=236659 RepID=A0A6A4JZ21_APOLU)

HSP 1 Score: 64.3 bits (155), Expect = 7.680e-7
Identity = 42/136 (30.88%), Postives = 73/136 (53.68%), Query Frame = 1

Query: 1639 NGFSALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSACLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGGEHTAAVSVNVVSKTNGKTPLHYAVESLQLEAARFILGRGS 2046
            N ++ALH+AV+ GN+   V L+     I+ G   R   L        A   +  CL++LL  GA+P + D  G++P+HIAA +G +++L++L     +   + ++V ++  G T LH + ES   E    +L +G+
Sbjct:  175 NQYTALHYAVL-GNSPEAVKLL-----IHHGTKLRDSVL-----QTAARANAVECLRILLVEGANPNLLDSHGLSPLHIAADRGNMQMLKVLL----YHPTIDIHVSTQEKGNTALHLSAESGNTECVACLLNKGA 295

The following BLAST results are available for this feature:

BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot

BLAST of mRNA_C-linearis_contig10.556.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 24

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POSITION

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Match Name	E-value	Identity	Description
D7FQH1_ECTSI	6.830e-99	63.89	Ankyrin repeat protein n=1 Tax=Ectocarpus siliculo...	[more]
A0A7U0TIW6_9TREM	3.260e-8	32.67	Transient receptor potential cation channel 3 n=1 ...	[more]
A0A4S2M3M5_OPIFE	9.300e-8	33.33	Uncharacterized protein n=1 Tax=Opisthorchis felin...	[more]
A0A167PJ38_9PEZI	2.430e-7	31.03	Ankyrin repeat-containing domain protein n=1 Tax=S...	[more]
A0A0N4Z6E2_PARTI	4.870e-7	28.43	ANK_REP_REGION domain-containing protein n=1 Tax=P...	[more]
UPI001E8CE5B4	5.600e-7	30.56	uncharacterized protein n=1 Tax=Morchella importun...	[more]
A0A3N4KLU5_9PEZI	5.660e-7	30.56	Ankyrin n=1 Tax=Morchella conica CCBAS932 TaxID=13...	[more]
A0A378K2C9_9GAMM	6.390e-7	31.07	Ankyrin repeat protein n=3 Tax=Legionella TaxID=44...	[more]
A0A315VDT7_GAMAF	7.430e-7	30.89	Protein kinase domain-containing protein n=8 Tax=P...	[more]
A0A6A4JZ21_APOLU	7.680e-7	30.88	Ion_trans domain-containing protein n=4 Tax=Mirini...	[more]

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Relationships

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Species	Type	Position
mRNA_C-linearis_contig10.556.1	prot_C-linearis_contig10.556.1	Chordaria linearis ClinC8C monoicous	polypeptide	C-linearis_contig10 2377939..2388395 -

The following CDS feature(s) are a part of this mRNA:

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at C-linearis_contig10:2377939..2388395-
coding sequence from alignment at C-linearis_contig10:2377939..2388395-

protein sequence of mRNA_C-linearis_contig10.556.1

>prot_C-linearis_contig10.556.1 ID=prot_C-linearis_contig10.556.1|Name=mRNA_C-linearis_contig10.556.1|organism=Chordaria linearis ClinC8C monoicous|type=polypeptide|length=750bp
ADTEGKIGRTRGRTSPNERAPAEVAGVRLATSSRLRHPRDPGSPENAYRK
AVEAYLAPPVKTCYSGAPNGGSSTNQSELHRQSRSLSPAAAQLSRWCSPT
RPSAGPPTSGTGVHGSNPPGAGAPTGPSSAAVASFKKEGVPPLLLAPAEW
GIGLGGEWVSARGPHTIRAVGRVSLTWADIRGNTLLHLAAQHNDVALVQA
VYECEERRKKALEKKESRRERVLERARAWNERAPKEATERKVPEKATALK
TKDILRRIKEEIAEQEKTTTDVVNDATPAVDDVGDFSNKVSKAHTYMSHV
GSHGPTPSADDGGVLLEGEIWLPLVSREQEAAAPGGSGGGGRRFSPEGAG
GRRVRLTRRPRGGAAVVEALRAVLEEAHVRQVVRLAGLYLARTMNEAEWY
HRTAVILPRSSSAGGSTDLLVDIAAAHPSDTYQRTVAKAAIQDFAEEERS
NAEGGFWMDRGIKDALDLNARNRLSETPLILGAQNASVEVVAALLEEEEA
GTDIAALNANGCTALVLAAMLNKTAVVKVLVATYVARGLGVDHRTANGFS
ALHWAVVRGNADTTVDLVDARASINTGRTERRQALWRLPIHKCAEYGSSA
CLQVLLKAGADPLVEDKLGMTPMHIAAGKGFLEILQILAAGGEHTAAVSV
NVVSKTNGKTPLHYAVESLQLEAARFILGRGSGRGDIDGNADAASPARPR
GREAEGIKLLDASQRTKLEVMLAAAAKEERGVLASGLASLSEFVQKVFL*

mRNA from alignment at C-linearis_contig10:2377939..2388395-

Legend: polypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_C-linearis_contig10.556.1 ID=mRNA_C-linearis_contig10.556.1|Name=mRNA_C-linearis_contig10.556.1|organism=Chordaria linearis ClinC8C monoicous|type=mRNA|length=10457bp|location=Sequence derived from alignment at C-linearis_contig10:2377939..2388395- (Chordaria linearis ClinC8C monoicous)
GCAGACACGGAGGGCAAAATAGGTAGAACTAGAGGCAGGACATCTCCAAG
TGGGGAAAGCACGGCAACAACAGCAACAGAGCGAGGGAAAGCGGGCGGAT
TAAAAGGAGCCAGAGCAGTGGGAGGAGATGAAAGAGCACCGGCAGAGGTA
GCAGGAGTGAGGCTCGCAACCTCTTCGCGGTTGAGACACCCTCGAGACCC
AGGCTCGCCAGAAAACGCTTACAGGTAGGATGCATTATTTCTTATGATGA
CCATGATTTGACATCTCAAAACCCAGGGCTTGCTTACGTAGCGGTGAAGG
AAAAAAGCAGAGGTATGGACGTTGTTCTCGAAGTCGAAGGGACCCTTGAA
CTTTTCCCGCTTCGGTTGTCTGCCGGTATTTGCCCTATTTATAAATCAAC
GGGATCAAAGAAATAACCTCCCCTCAAAGAGACAAATACCTAAGTGGCGG
ATTAGCAGTTCAATACAGTGACGTATTGTGGGATAGGTGGAGAAGAAAAA
CACTTAAAACTGGGAAAACGCCCTATTTCACCCAAACGTCAAAGACCCGA
CCGATCATCCTCCCCAATGATTGTTCAATGAGAAGAAGGTCGGCTGCACA
TGGGGTGGGTGGTGTGAATTGCTCATCAAGTACGGCACTTTTAGGGATGC
AACAATGGCTACCACCCGGTAGTGATGGCCATCGTGCTGCACCCTTAAAT
TGATTGTATCTGTTAACATTTTTTTGTTGTTGTGTACCTTGCCCGTGAGC
CCTTGATTATCTTCCTTCATCAACCCCACCCCTCGTCAAACCTTCGTACT
CCTCCCTCTCGTTCAATCACACGACACGTAGTACTTGACAGCCAAAAAAC
ACAAAAAAAACGAAAGAGGAGTAAGAGAAGCCGGCTTTGAAACCACGCGC
ATCCTGCCTAGACTAATGCAAAACGCTTTGCAGAGCCGTCATCTTACCCA
GAGCTCCAAACGGCCAACCGACCCCAAGACCAAGCGTCCGAGTACACACC
GCCCTACCAACCACGTGCTTCCCGCAGAAAAGCCGTCGAGGCCTACCTGG
CACCGCCGGTCAAGACATGTTACTCCGGCGCACCCAACGGCGGCAGCAGC
ACCAACCAGAGCGAACTCCACCGGCAGTCGCGAAGCCTGAGCCCCGCGGC
AGCGCAGCTGAGCCGGTGGTGCTCTCCGACACGACCTTCCGCAGGCCCCC
CCACCAGCGGGACGGGTGTTCACGGTAGTAATCCTCCTGGGGCTGGAGCT
CCCACCGGTCCTTCGAGTGCCGCCGTTGCTTCGTTCAAAAAGGAAGGGGT
TCCACCGCTTTTGCTGGCCCCGGCGGAGTGGGGGATCGGTTTGGGTGGGG
AGTGGGTCTCCGCTAGGGGGCCGCATACCATCCGAGGTGCGTCCTCTGAA
AAAAGCAAACGGAAATCGTTCAGCAGCGCCTCTTGCTTACATGGCTTCAA
AAGGGCGCCGTTTCGCTACGTTGTCGAAGTGCCACGTCGCAGGTTTACTC
TGCTAGCGAGGGAAGGAATCGGCCAGATGCCGACGTACTACTTCTACATA
CCTCCCGTGGGGAGCGTCATTGCTCCCCCGTGCAAGACAGACGCAACAAA
AATATGTTCTAGTCACTATAGTATGGGTATCGTGTACCCTACCCCTGCGT
TGCCTTTGAAAACATGTTGGCCGTTGAATTGTTTTTGTTTTCCTCAAGGT
GGGCAGGGGTTGTCCTGGCCTTCTTAACACACCTTCCCCGACGCACCCGT
TACTTTCCCGCTCGCCCATCGTTCCTTGCCTTTCCCTTGCCTTCCTTTGC
CGCCAACAAACGACCTTGGCTGACGACTGACTGGTGTCACGCTGATTACC
CTAGCCGTCGGCCGAGTGTCGCTCACCTGGGCCGACATCCGAGGCAACAC
CCTTCTCCACCTAGCTGCGCAGCACAACGACGTCGCTCTCGTGCAGGTGC
GCCGACGAGAGGGGAGAGAGCTTAGCGCCAGGATGAGGGTTGGAGTTAGG
CTTCGGGCCGGGGTCAGGGTCACATAGCAAGAATAATGCGGTTCCGGGGT
TAGACTTCAAAGAAACGTGAGGGGTATCGACACAAGAAATGAGGGAGTGC
GACAGCGCGGGGGTCAATATACCGTTCGGACCGTACAGCAACGAAACATC
AGCAGTACGATGATGCATGCCACACTGTTTTACGTGCCTCTCCGTCTCTC
ATTCTCTCTCCAAGGACGAAATCGATCTACCCCGAGCTTAGCCTCAAGTC
TAATTGGTCCACTGTTCCATCTCGTCTCGTAGACTGCCCAACAATGTAGC
ATGCCTGAAATCTGACGAACCCTACACCAACCCTTACCACAACCGTAACC
GTAACGGTGTCCTGACAAGGAAGGCCGTTTATGAATGCGAGGAGAGAAGA
AAGAAAGCCCTTGAGAAGAAGGAGAGCAGGAGAGAGAGGGTGCTGGTGCG
TACAGTACAGTACCTCCTGGACGACTCGGGGTTAGGGGTTCGGGGTAAAT
CTAGACAAACGGTCGTCGACGGGCCATCCTCCCCAGTGATCGGAACACCT
GTGCATGTTACGCCAGATAACCTTCTCAAACCTGCCAGTTTTATCGACCA
AGGAAGGGGGTGGTGTAGATACGTCCCTGTTGGCTACCTTAGGGGCCCCG
GAATCGAAGGTTGCAGTAAACAAAACTGTGCATGCAGCGTACATACGACA
GAAAGCTTACAGCGAACGCGATTTTTGTGTTGTGGAACTCGGCGCGTCTG
TTATAGCAAGGATGGGGACAGCCTTGCTTCGTTCTTTGACCGGGTGAGCC
ATAAGGGGTAATGTCGACGTTAATAAATGACGGAATAAACCTTACCTTGA
GTTCACGAGTTCACGCTTCCGAAGCGATGAGTTTCCCGCCGGGATGTCCC
TGATTTAGCTGTCAAAACGTTTATTGTTTTGCTGCGGTATGCTTCAAAAT
ACTGGAGTACTTGACAAGTTGGATGAACAAACCTCCTACATAAAGTGATC
CCACGGTCCCGAGACACGTTTGTGCCACAACGATCCTACAAGTATTATTG
TGCCGTTCGTGTGCTTCACGAACCTCCTCTGCAGGAGAGGGCCCGGGCTT
GGAACGAGCGGGCCCCGAAGGAGGCCACAGAGCGGAAAGTCCCCGAAAAG
GCGACCGCTCTCAAGACCAAAGACATCCTGAGGCGCATCAAGGTCAAGAC
GCCGTTCGTTGCCGTTACCCGAAGCCCACTAAATCGGATTTGGTCTGTGC
GAAACTAACCTATCTATGTCCAACTGCTGTATTCCATTAGTCTAGGATTT
TCATGCGGATATTTTTCCCTAAAATTTCATCCTCTCACCCTAACTCCCCG
CCGACACAAAACGGGGCCGGGTAGACGTTGAACATTTCCCTACAGACGCA
TGAAGGGGAAGCGAGTCGAAAAGCCTCCCTGTAAGTACGTGGGTTGAAGA
AGATATCACAACCCGGCACCGACGTCAGAAGCTACCAAAATCTCGATTGC
TCGACTACTGGCTGGTGCTGTCTTGGAAAGGTCTCTCTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCCTCTGGTCTGAAGCCTCACACAACA
AATAAATGCGATATAACAATGTTTCTTTCGGATTCAGCGGCGCCATATAC
TTTCGACCCGACGCGCCGCATTGCGCGTCTGAGGTTTGAACTCTGCCCTC
TGCACCACAAAGAGGACCCCACGTTGCTATTTAGTTCTAAGCATCTTCGC
GCCCTGGTATACTTGCACAGGAAGAAATTGCGGAACAGGAGAAGACGACA
ACCGATGTAGTCAACGATGCAACACCTGCTGTCGACGACGTCGGCGACTT
TTCCAACAAGGTGAGCAAAGCACATACATACATGAGCCATGTTGGAAGTC
ATGGACCGGTAGTCGCAACGGCTACAGTCACGCCTCGCAACCAACGGAGC
CTGACCGGCTGCCTTGAAGGCACTTCGCCGCGGTGTATGTACTTTTCCCC
GAACCCGTCCAATACAACACTCGAACGACGAAAGGAAAGGCAACAAGAGA
TACGTCTCCCGTAGTCCCAAGTTCCCCTCCACGACAACCACCGATTTATT
TACTTGTTTCCGGCGATTGCGGCAGAAGAAGCCAGGTCGTAATGTAACTG
AGGGGACGACAGACAGGTCGGAGGTCGGAGTCCGCAAACGCGATACAACA
CCGTTCATTTATTCCTTCCCCCCCCGCCTCCATGGTGCCCAACCGCCGTG
CCCCCGACACAACATGAAACCGACACGTTCATCCTCGTTCGAACCAGCAT
GCGGGTATCTCTCAAAGGGAGACGCCGTCCGCGGACGACGGTGGTGTCCT
TCTCGAAGGTGAAATCTGGCTGCCGCTGGTGAGCAGAGAACAAGAGGCAG
CAGCACCCGGCGGAAGCGGCGGCGGCGGCCGTCGTTTTTCCCCTGAAGGG
GCTGGCGGACGAAGAGTACGGCTGACAAGGAGGCCGAGAGGAGGAGCCGC
TGTCGTCGAAGCCCTTAGGGCTGTCCTCGAGGAGGCGCACGTGCGGCAGG
TGATGGTGGTGGTGATGGAAAATTGAACCGTGTCCTGAAGCGCAAAGAAA
ATGAGGCGTTTCCCCTGCACCAACACGAAGCGGTAACCATAGGAGACGCG
CTTGTTTTGCCATTTGCCACACTGCACCCGTTCCGGGTCCCGACATAGCA
TCGTGGAAGACCGAAGAAGCTCAAGAGTTACCGGATCTAGGAGAAGGTGC
TGATGGAGCTAGGATCTATTTGCGTTCTTACTCGAAATACATGTACTTCG
TATGTGTTCTACGTAAAACCTTCATTAGATCCCCATGCCCGGCCGGGTAT
GGTCCTTTGACTCCTCCCCCCGCCAGAGAAAAAAATGAGCCTCCTCCCTC
TTTCCTCCCCGATACGCGGCGAAAATCATCACGTTCTCTACGGGTAGCGA
TTCACACCCTCGCACCGTATGAAAGCTACACAACACCACGTCAGAGTTTC
CCAACTAAACACGTGTTGCGCTACAGGTGGTACGGCTTGCGGGCTTGTAC
CTGGCGAGAACCATGAATGAGGCGGAATGGTACCATCGCACAGCGGTAAG
AAAGAGCCGCAGACAACGAGGGGCAGAAGGACGATGACTGTTTTGGCAAA
ACTATGTAGTTGTTGGTGAAACTGCTGGAAAGCAACACAATGCGCGGTGC
ACGCTACGTGCGGGTTGTCCTTGCACTTCAAAGCCAAAAACGTTTCGAAA
CTGTGAGGAATGCAAGGTCCAGGGTTCTTGTACCTCAAAGGTTCCCCTGA
AAGTATGCGCGAGATTGGCTTGTGGCTTTATATTCGGCGGTGGGAAACGT
ACATACATGTAGTTGGCGAGGAAGACGGTATCATTTACGGTACGTCTCCA
GGAAGGGGTGAGAAAAGTACTTGTACTTGTACATACATACGTACGTACGT
TTGTGTGGCTGATGCTCTAGCACTTCACTCAGCCTTGGTCGCGTCGCGGT
GGCGACAGTTAAAAAAAAAAACACAAGAGAGGGCAGAGAAAAAGAGAAAC
AACAATGATATCACAACCATCACCACCACCACCACCACCACCACGCACGG
CTAACCACACAGCTTTCTTTCTTCCGGTTTTTTGTCTGTCTCTCACCGAA
GGTAATCTTACCAAGAAGCTCGAGCGCCGGGGGATCGACCGACTTGCTAG
TGGATATCGCCGCGGCGCACCCCTCCGATACCTATCAACGTACGGTAGCT
AAGGCTGCCATTCAGGTATCTAGTCTACAAACATGTATCCCGCATTATGC
CCGGCCTGGGTTAAAAATAATCGGCGTGGGAAACCTGTTCGCCCGTTATT
TCACCGATTGACTTCACTGTGCTGAGGAGGAGATTGGTGCGCACTCAAAG
GATTTAAAATGCATGCAAGGTCTCATACCCTTAGGCCATGAACTGAAAGG
ACTTTGCGGAGGAGGAGAGAAGCAATGCGGAAGGCGGGTTTTGGATGGAC
CGAGGGATCAAGGACGCGCTGGACCTCAACGCTCGGAACGTAAGGGAAGC
TGATTGAGAGATACAAGTAGGCCTAAGATGCAAAACCGAGGGGTTGTGAA
CGTCCTGTTATGTATCACCGGCAGGTACACCGAAGCATACATGAGTTATA
GCCGGCCACCCGCTACATGCGTTGCAGCTGATCACGCACGTTACATCCGG
TACGCCCGATCGCGCCCGTCACATCGTTCCACTCGGTCACACCCGTTACA
TGGCGTTGGGTGAGCAGACGGAGACTGGCACCAGAGTTGATCGGAGTGAA
CAGTTTTTAGCAGCCATTGACGCAATCCTAGGGCTTAAGCCAACGTACCG
TGCCGTGAGAGAAGCCCAGCGGCGAGCTCGATACGTTACACCACATAACT
TGGAGGGGGAGCAGACAAAATACTTGTGGCTGCTCTAGGTAGGGTAAGAC
TAGGTCTCAATGAACAGTATGAGCATCTACGCCGACAATTAATCCCCTCC
TAAACAGCGACTATCGGAAACCCCACTTATCCTGGGAGCTCAAAACGCTT
CTGTGGAGGTTGTGGCAGCCCTTCTGGAAGAAGAAGAGGCGGGCACGGAT
ATCGCAGCGTTGAACGTGAGCGCTCCAAATGCTATTTATAATGTTTACAG
CCTTTCGCCATTGGCCACCTCGGGAATGTGCATGAGTTCTGACTGCGGTG
CTCTCACCTGTGGTTGTCTGCACAGATATGTGAGAGCACGACTCGGGCGG
GCGGGCGGGCGGGCGGGCGGGCGGGCGGAAGAATGAATAACCTCAGCAAA
GCAATGGCACTTATTGTAATTCTCCTCAACATTGTTCGTCTCTGTTGCCT
GGACATCTGGCATTTTGGCACACTGACTACGTGCTAACGTCCTCGAACAT
TCACAATCTTCGAAGCACGTATGTATTTGGTGCATATATGAGGCATCTTG
GCGTTTGTTGTTGTTTGCTGTGTTCTCAAACTGGCTGCGCAGGCGAATGG
CTGTACGGCGTTGGTATTGGCCGCGATGTTAAACAAGACGGCGGTCGTCA
AAGTGCTCGTGGCGACATACGTCGCAAGGGGGCTCGGGGTGGACCACCGG
ACGGTAAGTGGGGATGGGATTGGACGGCGTTGCTGGGTTTTTCTACCGTC
GGTGGCGTGAGTGCTAAATACAGTGGGGGCGCCCGCTGTCGAAAGAGAAA
TTCTCACAACAATAACGGGATCAGATTCCGTCAATAATAATAGTAATAAT
AACAATAATAATATTGGGCAAGAAACGTAGCTCGATCGTGGATCCTGCAC
TAAACCTCATACAAAGTCCTACGCTCGAACGTTGGCGACGAAACTAGAAA
TTGAGCCTCGACCTCGTACTTTACGTGTCTTGTCAGCTGGCGCCCACTGT
GTACTTTGGGCATTGCTGCCGCTGAGGCCGTCCGGAACTGAGGTGTCGAA
GGTCAGCGATATAATTTATGATGTATTCTTGAATAATAGGGCATTTCCCC
TCTGAATTTACGCTTGCTGCCACCCAGCAGGCGAACGGGTTCTCCGCCCT
CCACTGGGCCGTGGTACGAGGCAACGCGGACACTACGGTTGATCTCGTGG
ATGCGCGGGCATCCATTAACACCGGGTGCGATGGATCAGTACCCATTATA
CCGCGTTTTCTGCAATCACGACACGGTTACATTGCAAGTATTGGTTCTGA
AGGGCTCTACCTGGAAGAAGCGAAAATACGGCACTTCGAGTAGTTTCGAT
GTTGCGGCGTTTGTGAATCTGGATGTAAATGGCTCACTTACCACCGCGAT
GCTTTGAAGATTTTTCCACGCTTCCAACAATGCCCGATAATGTCGCTTAT
TTCTTCTCGTTCGCAAGGTTTAGTGTCTAAGAACCCAAAGAACCCTGGCA
AGTGTTGTCCGGGAGTTCTTAGAGACATTCCCAGTTTCCAAGCCAAGGAT
GCAGCCTGGGCCTAAGCAAGCGCTTCTGATGAAGTGCCCTCGGCCAAAGC
AAGCGCTTCTGATCAGATGTTCTCTGCTGTCACGAAACAGGCGCACCGAG
CGTCGGCAAGCTCTTTGGCGACTGCCGATCCACAAGTGCGCCGAGTACGG
CTCCTCGGCCTGCCTCCAAGTCCTGCTAAAAGCGGGAGCGGACCCTCTCG
TCGAGGATGTGAGACACCCCGCCATACCTATCTATGCCCCCCCCCCCGCT
ATCTGCTGTAATCCACTGACTACCCGAACAGTTATTTGTGGCTTCGTGCG
GGAACTCGACCAACTGTTCCGCAACAACGCACCATTTTGTGCCTGGCACG
GAAGCTCTCTTCCGTTGGCAACTAACGGTACTTCCGTTGGTTGCCAACGG
TACATGGGCTCTTCCTAATCCTGTACCATCTAAGAGCAACCTACCCGGAA
CTTATGCACGTCCCAAAATAGAAGGCAGCTTCCCCAACACCTCTCTTTCA
TCATTACACCGCCCTTCCCAAAAAACAACCGTTTAGAAACTGGGGATGAC
GCCCATGCATATCGCAGCCGGGAAGGGATTCCTGGAAATACTGCAGATCC
TTGCAGCTGGTGGAGAGCACACCGCCGCGGTTAGCGTCAACGTGGTCAGC
AAGGTATGCAAGCGATACAAGAATAGCTGCGCAGAGGAGAAGATGGAGGA
ACCGTTCTCTTTTTGCGTTGTTTTTTGCAGGATTAGACTACTGCTGTAGG
ACCTCAACGACTAGAAGAATGGCGCACAAGTTTGTTTGAAGTGTCCTGCG
CATGCGGTAAATGTACCAATATGTTTTTTCGGCTACGGCCCTGTGCCGAC
CGACAGCTACCCGTGCACTCGCAATTGGAGAGATGTCAGCGATTACTAAT
CTGCACCATTCGTACATACATACATACATACACATACGCAGAAGAAGTCG
GCTTGCTGGTGTTCGCCGCGTTGTTGACCAACAAGCATTTTCACCGGGTC
GACTTCTTCTGCCTCCTGCAAAAACATGGTTGCTTGGTTGATGCACTGAT
GATGAGCAGATCGAGCTTAACGAGAGTTGACCCTTTCCTGACAAGCACCC
AACGCACCCCTGGAAATCAACAAGCTAATCAACCGTCTTTGTTGCGATTG
ATTTTGTAGGTGGAAACCCAGAGCAATCAATCAGCCTACTTACCACAGTT
AGTTGCCCCCCGGGAACGATATCTTCACAACTAATTTGAGTCTCGATTGC
TGGCGGCGCCGCCTTGCGGTAACACCTTGCTTCTCGCGGCGACCCGCCCT
GACCTGACTGTGAGTGAATCAATGGCTAATTCGCACTCTGTTTTTTCCAG
ACAAATGGCAAAACGCCTCTCCACTACGCGGTCGAAAGCCTGCAGCTAGA
GGCAGCACGCTTCATCCTCGGTCGTGGTAGTGGTAGAGGGGATATCGATG
GAAACGCGGACGCCGCTTCCCCTGCCAGACCAAGAGGCAGAGAGGCGGAG
GGGATCAAACTCCTGGATGCCTCTCAACGAACCAAGCTCGAGGTATTATT
ACGTGTACGTACTACGCGGGTTGAGATGCAGAATTGGCTTCGTTTCGTTT
GTTCCGCGTGGTGGGTGGGCGATTTACTACACTACACTCTACCTGGCACA
TAAACCAGTACCAATAATGGAAGTCAGAACATCGCTTCCACAATAGACAA
GCAGGCCCATGGAAGTAGGATGCAGGCCCGTCTACTTCTTCTATGGAAGT
CGTGTTCTTTGCTTCCATTGAAATCGTTGGCTTTTTTCGCGGAGGAAGCG
ATCGGGGTTTTATGGACGCAGCGGGCAGAGGGAGCCCGAGCAGTGTTAAT
TTTGTTTCGATTTTTGTCGAGAGTCACTTCCACAGCGAAGGGTTGCTTTG
CCAGGGTTGGGGGATATACTGTAGATCCAGGGTCAGGGTTGGGGAACAAT
TTGTTTTTGTCGGAACGGTTTCGGGAAAAACTTGCTTTTTTGTGGAGGGA
GTCGTGGCAGTTGGTTGGTTTTTCCATTGAACGAAGTCACGAATCTGTCG
ACGAAACAACGCCTAAATAGTGTGCATATCGGGTTTCACAACTCTTCTCG
AAATGTTAAGAGGAACTTAGAGGGGGGCCAATGAGAAACGATAGTGGCTA
CAGGTAGGGCTGTAGTGCTACACAAGAACACGGCACGGTTCCTGGAACGA
ACAACGCCGAGAACAAGCTGACTTCAACATCTAACGCGCATTCCGTCGGA
AGTATCTGTCAGCGGGTTAGGTTCATCTATCTATCTATGGCGTCGGATGC
CGGTTTCTCTTCTTGGTGGTGCTAAGAATGACACAGACAGGCATCCCTCA
TGTCAGGAAAAACATCCGAGAATTGCTCCACCGTCGCGCCCCTTCCCCCA
ACCCTGTTCCGAAGGTGATGCTGGCCGCTGCCGCAAAGGAGGAGCGGGGA
GTGCTTGCTTCCGGCTTAGCTTCACTTTCGGAGTTCGTGCAGAAGGTCTT
CTTATAA

Coding sequence (CDS) from alignment at C-linearis_contig10:2377939..2388395-

>mRNA_C-linearis_contig10.556.1 ID=mRNA_C-linearis_contig10.556.1|Name=mRNA_C-linearis_contig10.556.1|organism=Chordaria linearis ClinC8C monoicous|type=CDS|length=4500bp|location=Sequence derived from alignment at C-linearis_contig10:2377939..2388395- (Chordaria linearis ClinC8C monoicous)
GCAGACACGGAGGGCAAAATAGGTAGAACTAGAGGCAGGACATCTCCAAG
CAGACACGGAGGGCAAAATAGGTAGAACTAGAGGCAGGACATCTCCAAAT
GAAAGAGCACCGGCAGAGGTAGCAGGAGTGAGGCTCGCAACCTCTTCGCG
GTTGAGACACCCTCGAGACCCAGGCTCGCCAGAAAACGCTTACAGATGAA
AGAGCACCGGCAGAGGTAGCAGGAGTGAGGCTCGCAACCTCTTCGCGGTT
GAGACACCCTCGAGACCCAGGCTCGCCAGAAAACGCTTACAGAAAAGCCG
TCGAGGCCTACCTGGCACCGCCGGTCAAGACATGTTACTCCGGCGCACCC
AACGGCGGCAGCAGCACCAACCAGAGCGAACTCCACCGGCAGTCGCGAAG
CCTGAGCCCCGCGGCAGCGCAGCTGAGCCGGTGGTGCTCTCCGACACGAC
CTTCCGCAGGCCCCCCCACCAGCGGGACGGGTGTTCACGGTAGTAATCCT
CCTGGGGCTGGAGCTCCCACCGGTCCTTCGAGTGCCGCCGTTGCTTCGTT
CAAAAAGGAAGGGGTTCCACCGCTTTTGCTGGCCCCGGCGGAGTGGGGGA
TCGGTTTGGGTGGGGAGTGGGTCTCCGCTAGGGGGCCGCATACCATCCGA
GAAAAGCCGTCGAGGCCTACCTGGCACCGCCGGTCAAGACATGTTACTCC
GGCGCACCCAACGGCGGCAGCAGCACCAACCAGAGCGAACTCCACCGGCA
GTCGCGAAGCCTGAGCCCCGCGGCAGCGCAGCTGAGCCGGTGGTGCTCTC
CGACACGACCTTCCGCAGGCCCCCCCACCAGCGGGACGGGTGTTCACGGT
AGTAATCCTCCTGGGGCTGGAGCTCCCACCGGTCCTTCGAGTGCCGCCGT
TGCTTCGTTCAAAAAGGAAGGGGTTCCACCGCTTTTGCTGGCCCCGGCGG
AGTGGGGGATCGGTTTGGGTGGGGAGTGGGTCTCCGCTAGGGGGCCGCAT
ACCATCCGAGCCGTCGGCCGAGTGTCGCTCACCTGGGCCGACATCCGAGG
CAACACCCTTCTCCACCTAGCTGCGCAGCACAACGACGTCGCTCTCGTGC
AGCCGTCGGCCGAGTGTCGCTCACCTGGGCCGACATCCGAGGCAACACCC
TTCTCCACCTAGCTGCGCAGCACAACGACGTCGCTCTCGTGCAGGCCGTT
TATGAATGCGAGGAGAGAAGAAAGAAAGCCCTTGAGAAGAAGGAGAGCAG
GAGAGAGAGGGTGCTGGCCGTTTATGAATGCGAGGAGAGAAGAAAGAAAG
CCCTTGAGAAGAAGGAGAGCAGGAGAGAGAGGGTGCTGGAGAGGGCCCGG
GCTTGGAACGAGCGGGCCCCGAAGGAGGCCACAGAGCGGAAAGTCCCCGA
AAAGGCGACCGCTCTCAAGACCAAAGACATCCTGAGGCGCATCAAGGAGA
GGGCCCGGGCTTGGAACGAGCGGGCCCCGAAGGAGGCCACAGAGCGGAAA
GTCCCCGAAAAGGCGACCGCTCTCAAGACCAAAGACATCCTGAGGCGCAT
CAAGGAAGAAATTGCGGAACAGGAGAAGACGACAACCGATGTAGTCAACG
ATGCAACACCTGCTGTCGACGACGTCGGCGACTTTTCCAACAAGGTGAGC
AAAGCACATACATACATGAGCCATGTTGGAAGTCATGGACCGGAAGAAAT
TGCGGAACAGGAGAAGACGACAACCGATGTAGTCAACGATGCAACACCTG
CTGTCGACGACGTCGGCGACTTTTCCAACAAGGTGAGCAAAGCACATACA
TACATGAGCCATGTTGGAAGTCATGGACCGACGCCGTCCGCGGACGACGG
TGGTGTCCTTCTCGAAGGTGAAATCTGGCTGCCGCTGGTGAGCAGAGAAC
AAGAGGCAGCAGCACCCGGCGGAAGCGGCGGCGGCGGCCGTCGTTTTTCC
CCTGAAGGGGCTGGCGGACGAAGAGTACGGCTGACAAGGAGGCCGAGAGG
AGGAGCCGCTGTCGTCGAAGCCCTTAGGGCTGTCCTCGAGGAGGCGCACG
TGCGGCAGACGCCGTCCGCGGACGACGGTGGTGTCCTTCTCGAAGGTGAA
ATCTGGCTGCCGCTGGTGAGCAGAGAACAAGAGGCAGCAGCACCCGGCGG
AAGCGGCGGCGGCGGCCGTCGTTTTTCCCCTGAAGGGGCTGGCGGACGAA
GAGTACGGCTGACAAGGAGGCCGAGAGGAGGAGCCGCTGTCGTCGAAGCC
CTTAGGGCTGTCCTCGAGGAGGCGCACGTGCGGCAGGTGGTACGGCTTGC
GGGCTTGTACCTGGCGAGAACCATGAATGAGGCGGAATGGTACCATCGCA
CAGCGGTGGTACGGCTTGCGGGCTTGTACCTGGCGAGAACCATGAATGAG
GCGGAATGGTACCATCGCACAGCGGTAATCTTACCAAGAAGCTCGAGCGC
CGGGGGATCGACCGACTTGCTAGTGGATATCGCCGCGGCGCACCCCTCCG
ATACCTATCAACGTACGGTAGCTAAGGCTGCCATTCAGGTAATCTTACCA
AGAAGCTCGAGCGCCGGGGGATCGACCGACTTGCTAGTGGATATCGCCGC
GGCGCACCCCTCCGATACCTATCAACGTACGGTAGCTAAGGCTGCCATTC
AGGACTTTGCGGAGGAGGAGAGAAGCAATGCGGAAGGCGGGTTTTGGATG
GACCGAGGGATCAAGGACGCGCTGGACCTCAACGCTCGGAACGACTTTGC
GGAGGAGGAGAGAAGCAATGCGGAAGGCGGGTTTTGGATGGACCGAGGGA
TCAAGGACGCGCTGGACCTCAACGCTCGGAACCGACTATCGGAAACCCCA
CTTATCCTGGGAGCTCAAAACGCTTCTGTGGAGGTTGTGGCAGCCCTTCT
GGAAGAAGAAGAGGCGGGCACGGATATCGCAGCGTTGAACCGACTATCGG
AAACCCCACTTATCCTGGGAGCTCAAAACGCTTCTGTGGAGGTTGTGGCA
GCCCTTCTGGAAGAAGAAGAGGCGGGCACGGATATCGCAGCGTTGAACGC
GAATGGCTGTACGGCGTTGGTATTGGCCGCGATGTTAAACAAGACGGCGG
TCGTCAAAGTGCTCGTGGCGACATACGTCGCAAGGGGGCTCGGGGTGGAC
CACCGGACGGCGAATGGCTGTACGGCGTTGGTATTGGCCGCGATGTTAAA
CAAGACGGCGGTCGTCAAAGTGCTCGTGGCGACATACGTCGCAAGGGGGC
TCGGGGTGGACCACCGGACGGCGAACGGGTTCTCCGCCCTCCACTGGGCC
GTGGTACGAGGCAACGCGGACACTACGGTTGATCTCGTGGATGCGCGGGC
ATCCATTAACACCGGGCGAACGGGTTCTCCGCCCTCCACTGGGCCGTGGT
ACGAGGCAACGCGGACACTACGGTTGATCTCGTGGATGCGCGGGCATCCA
TTAACACCGGGCGCACCGAGCGTCGGCAAGCTCTTTGGCGACTGCCGATC
CACAAGTGCGCCGAGTACGGCTCCTCGGCCTGCCTCCAAGTCCTGCTAAA
AGCGGGAGCGGACCCTCTCGTCGAGGATGCGCACCGAGCGTCGGCAAGCT
CTTTGGCGACTGCCGATCCACAAGTGCGCCGAGTACGGCTCCTCGGCCTG
CCTCCAAGTCCTGCTAAAAGCGGGAGCGGACCCTCTCGTCGAGGATAAAC
TGGGGATGACGCCCATGCATATCGCAGCCGGGAAGGGATTCCTGGAAATA
CTGCAGATCCTTGCAGCTGGTGGAGAGCACACCGCCGCGGTTAGCGTCAA
CGTGGTCAGCAAGAAACTGGGGATGACGCCCATGCATATCGCAGCCGGGA
AGGGATTCCTGGAAATACTGCAGATCCTTGCAGCTGGTGGAGAGCACACC
GCCGCGGTTAGCGTCAACGTGGTCAGCAAGACAAATGGCAAAACGCCTCT
CCACTACGCGGTCGAAAGCCTGCAGCTAGAGGCAGCACGCTTCATCCTCG
GTCGTGGTAGTGGTAGAGGGGATATCGATGGAAACGCGGACGCCGCTTCC
CCTGCCAGACCAAGAGGCAGAGAGGCGGAGGGGATCAAACTCCTGGATGC
CTCTCAACGAACCAAGCTCGAGACAAATGGCAAAACGCCTCTCCACTACG
CGGTCGAAAGCCTGCAGCTAGAGGCAGCACGCTTCATCCTCGGTCGTGGT
AGTGGTAGAGGGGATATCGATGGAAACGCGGACGCCGCTTCCCCTGCCAG
ACCAAGAGGCAGAGAGGCGGAGGGGATCAAACTCCTGGATGCCTCTCAAC
GAACCAAGCTCGAGGTGATGCTGGCCGCTGCCGCAAAGGAGGAGCGGGGA
GTGCTTGCTTCCGGCTTAGCTTCACTTTCGGAGTTCGTGCAGAAGGTCTT
CTTATAAGTGATGCTGGCCGCTGCCGCAAAGGAGGAGCGGGGAGTGCTTG
CTTCCGGCTTAGCTTCACTTTCGGAGTTCGTGCAGAAGGTCTTCTTATAA