mRNA_S-latissima_F_contig1010.128.1 (mRNA) Saccharina latissima SLPER63f female

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

Overview
NamemRNA_S-latissima_F_contig1010.128.1
Unique NamemRNA_S-latissima_F_contig1010.128.1
TypemRNA
OrganismSaccharina latissima SLPER63f female (Saccharina latissima SLPER63f female)
Homology
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: A0A6H5JV90_9PHAE (Protein kinase domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JV90_9PHAE)

HSP 1 Score: 522 bits (1345), Expect = 3.540e-183
Identity = 256/294 (87.07%), Postives = 276/294 (93.88%), Query Frame = 2 
Query:   29 MVCEEEYELVEQIGRGSFGKVYRAQHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRRAAEMMKKLFGEGLLES 910
            MVCEEEYEL++QIGRGS+GKVYRAQHDSGE+HAIKVVELEAAED+L++I QEI+MLQAFNCPQLTRYHGSFIVGS+LWISMEYLEGGSLQDL+K+S   LDE TTQW+LREILKALVYLH ERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLG+TAIEMIKGRPP+S+MHPMKAVL IP NPPPTLGK+G YSKHFHTFLE  FQRDPNLRPSAQ+LLKHPFMKAA+ TD L KLLE RRA++MMK LFG GLL S
Sbjct:    1 MVCEEEYELLDQIGRGSYGKVYRAQHDSGEVHAIKVVELEAAEDDLDNIQQEIKMLQAFNCPQLTRYHGSFIVGSALWISMEYLEGGSLQDLIKSSTNNLDEHTTQWILREILKALVYLHSERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGVTAIEMIKGRPPYSDMHPMKAVLCIPNNPPPTLGKEGHYSKHFHTFLEQCFQRDPNLRPSAQELLKHPFMKAAKPTDTLNKLLEARRASQMMKSLFGGGLLNS 294
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: D8LIZ0_ECTSI (Serine/threonine protein kinase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LIZ0_ECTSI)

HSP 1 Score: 459 bits (1181), Expect = 3.410e-150
Identity = 226/261 (86.59%), Postives = 245/261 (93.87%), Query Frame = 2 
Query:  128 IKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRRAAEMMKKLFGEGLLES 910
            +KVVELEAAED+L++I QEI+MLQAFNCPQLTRYHGSFIVGS+LWISMEYLEGGSLQDL+K+S   LDE T QW+LREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLG+TAIEMIKGRPP+S+MHPMKAVL IP NPPPTLGK+G++SKHFHTFLE  FQRDPNLRPSAQ+LLKHPFMKAA+RTD L KLLE RRA++MMK LFG GLL S
Sbjct:    1 MKVVELEAAEDDLDNIQQEIKMLQAFNCPQLTRYHGSFIVGSALWISMEYLEGGSLQDLIKSSTNNLDEHTAQWILREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGVTAIEMIKGRPPYSDMHPMKAVLCIPNNPPPTLGKEGNFSKHFHTFLEQCFQRDPNLRPSAQELLKHPFMKAAKRTDSLNKLLEARRASQMMKSLFGGGLLNS 261
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: A0A836C7V6_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C7V6_9STRA)

HSP 1 Score: 365 bits (938), Expect = 5.760e-115
Identity = 180/287 (62.72%), Postives = 226/287 (78.75%), Query Frame = 2 
Query:   41 EEYELVEQIGRGSFGKVYRAQHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRRA---AEMMKKLFG 892
            ++YEL EQIG+GSFGKVY+AQH  G IHAIK+++LE+ ED++E + QEI MLQ   CPQLT Y+GSF+V SSLWI ME LEGGSLQ+LMK ++ T++E T  W++R++L+ALVYLH ERKIHRD+KA N+L+A DGSVR+ADFG SVQLT S+ KR+TF GSPYWMAPEVI   D YN +ADIWSLGITAIE+  G PP SEMHPMKAVL IP N PP L  D +Y K F +F+E    +DP+ RPSA +LLKHPF+K A++T+ L +L+E RRA   + +M+ LFG
Sbjct:    6 DDYELQEQIGKGSFGKVYKAQHRDGTIHAIKIIDLESQEDDMEDVQQEISMLQTCKCPQLTHYYGSFMVDSSLWIVMELLEGGSLQELMKEAQCTINEPTIAWIMRDMLQALVYLHSERKIHRDIKAANVLIARDGSVRVADFGVSVQLTVSVDKRRTFVGSPYWMAPEVIAHTD-YNERADIWSLGITAIELATGLPPLSEMHPMKAVLFIPKNAPPRLPDDAAYGKKFQSFVERCLVKDPDERPSAAELLKHPFIKGAKQTNQLQELMESRRANKASSLMQDLFG 291
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: UPI0014259220 (serine/threonine-protein kinase 26-like isoform X1 n=3 Tax=Anneissia japonica TaxID=1529436 RepID=UPI0014259220)

HSP 1 Score: 295 bits (754), Expect = 3.930e-94
Identity = 149/273 (54.58%), Postives = 202/273 (73.99%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLE 853
            E+ Y  +E+IG+GSFG+V++   + + E+ AIK+++LE AEDE+E I QEI +L   + P +T+YHGS++ G+ LWI MEYL GGS  DLMK    TLDE     +LREILK L YLH ERK+HRD+KA N+L++ +G V+LADFG + QLT ++ KR TF G+P+WMAPEVI  Q  Y+SKADIWSLGITAIE+ KG PP S++HPM+ +  IP N PP L  DGSYSK+F  F++S   +DP  RP+A+DLLKH F+K+A++T  L +L++
Sbjct:   38 EQLYTKLEKIGKGSFGEVFKGIDNKTKEVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPFVTKYHGSYLKGTKLWIIMEYLGGGSALDLMKAG--TLDEVYISTILREILKGLDYLHSERKLHRDIKAANVLLSENGDVKLADFGVAGQLTDTLNKRNTFVGTPFWMAPEVIK-QSAYDSKADIWSLGITAIELAKGEPPNSDLHPMRVLFLIPKNNPPQL--DGSYSKNFKEFVDSCLNKDPKFRPAAKDLLKHRFIKSAKKTSYLTELID 305
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: UPI000D73C24C (serine/threonine-protein kinase 25-like isoform X1 n=1 Tax=Pomacea canaliculata TaxID=400727 RepID=UPI000D73C24C)

HSP 1 Score: 286 bits (731), Expect = 3.270e-92
Identity = 147/273 (53.85%), Postives = 198/273 (72.53%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLE 853
            E  +  +E+IG+GSFG+VY+   + + E+ AIK+++LE AEDE+E I QEI +L   + P +T+Y+GS++ GS LWI MEYL GGS  DLMK    TL E+    +LREILK L YLH ERK+HRD+KA N+L++ +G V+LADFG + QLT++  KRQTF G+P+WMAPEVI  Q  Y++KADIWSLGITAIE+ KG PP S++HPM+ +  IP N PP L   G+YSK F  F+E    +DP  RPSA+DLLKH F++ AR+T  L +L++
Sbjct:   22 EVRFTKLERIGKGSFGEVYKGIDNQTQEVVAIKIIDLEEAEDEIEDIQQEIMVLSQCDSPYVTKYYGSYLKGSKLWIIMEYLGGGSALDLMKAG--TLPENDIAIILREILKGLDYLHSERKLHRDIKAANVLLSENGDVKLADFGVAGQLTNTTNKRQTFVGTPFWMAPEVIK-QSAYDTKADIWSLGITAIELAKGEPPNSDLHPMRVLFLIPKNNPPQL--TGNYSKPFKEFVEICLNKDPENRPSARDLLKHQFIRRARKTAYLTELID 289
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: A0A3M7R930_BRAPC (Serine threonine-kinase 25 n=1 Tax=Brachionus plicatilis TaxID=10195 RepID=A0A3M7R930_BRAPC)

HSP 1 Score: 292 bits (748), Expect = 2.050e-91
Identity = 150/294 (51.02%), Postives = 206/294 (70.07%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRRAAEMMKKLFGEGLLESAS 916
            E+ +   E+IGRGSFG+VY+        + AIK+++LE AEDE+E I QEIQ+L   + P +T+Y+GSF+ G+ LWI MEYL GGS  DLMK      +E+    +LRE+LK L YLH E+KIHRDVKA N+L++  G V+LADFG + QLT S+ K  TF G+P+WMAPEVI  QD Y+ KADIWSLGITA E+ KG PP+S++HPM+ +L IP NPPP L +   +S+ F  F+E   Q+DP+ RPSA++LL+HPF++ A+RT  L +L+E  +  +  + L G+  L S+S
Sbjct:   16 EKRFTKQEKIGRGSFGEVYKGIDRQDNSVVAIKIIDLEEAEDEIEDIQQEIQVLSQCDSPFVTKYYGSFLKGTKLWIIMEYLGGGSALDLMKPGP--FEENYIAIILREVLKGLEYLHNEKKIHRDVKAANVLLSEQGDVKLADFGVAKQLTQSVCKGNTFVGTPFWMAPEVIK-QDAYDFKADIWSLGITAYELAKGEPPYSDLHPMRVLLQIPKNPPPQL-QGNQFSRPFKEFIEMCLQKDPSNRPSAKELLRHPFIRKAKRTGYLTELIERHKDWKRNRALRGDQSLNSSS 305
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: UPI00193A0FA0 (serine/threonine-protein kinase 25-like n=1 Tax=Styela clava TaxID=7725 RepID=UPI00193A0FA0)

HSP 1 Score: 285 bits (729), Expect = 1.050e-90
Identity = 146/276 (52.90%), Postives = 201/276 (72.83%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRR 862
            E+ +  +E+IG+GSFG+VY+   + + E+ AIK+++LE AEDE+E I QEI +L   + P +T+YHGS++ G+ LWI MEYL GGS  DLMK+    ++E     VLREILK L YLH ERK+HRDVKA N+L++ +G V+LADFG + QLT +  KR TF G+P+WMAPEVI  Q  Y+ KADIWSLGITAIE+ KG PP +++HPM+ +  IP N PPTL  DG+++K F TF+E+   ++P  RPSA++LLKH F+K A++T  L +L+E  R
Sbjct:   20 EKLFTKLERIGKGSFGEVYKGINNKTQEVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYVTKYHGSYLKGTKLWIIMEYLGGGSALDLMKSGD--IEEHYIATVLREILKGLDYLHSERKLHRDVKAANVLLSENGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIK-QSAYDFKADIWSLGITAIELAKGEPPNADLHPMRVLFLIPKNNPPTL--DGNFTKEFKTFVEACLNKEPRHRPSAKELLKHRFLKQAKKTSYLIELIERHR 290
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BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: A0A0C3LVR5_9AGAM (Protein kinase domain-containing protein n=1 Tax=Tulasnella calospora MUT 4182 TaxID=1051891 RepID=A0A0C3LVR5_9AGAM)

HSP 1 Score: 281 bits (718), Expect = 1.690e-90
Identity = 147/274 (53.65%), Postives = 198/274 (72.26%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSI-AKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLE 853
            EE Y   E+IG+GSFG+VY+  +  S ++ AIK+++LE+AEDE+E I QEIQ+L   + P +T+YHGSF+ GS+LWI MEY  GGS  DLMK       E     +++E+LK L YLH E K+HRD+KA NIL++ DGSV+LADFG S QL+ ++ AK+ TF G+PYWM+PEVI  Q  Y+ KADIWSLGITAIE+ KG PP++E+HPMK +  IP NPPPTL +   +SK F  F+    +RDP  RP+A+DLL+H ++  A+RT+ L +LLE
Sbjct:    8 EEFYVRQERIGKGSFGEVYKGFEKASKKVVAIKIIDLESAEDEIEDIQQEIQILSQLDSPFVTKYHGSFLKGSNLWIVMEYCAGGSCSDLMKAG--VFREEYIAIIIKELLKGLEYLHQEGKLHRDIKAANILLSGDGSVKLADFGVSGQLSGTLSAKKNTFVGTPYWMSPEVIK-QSGYDHKADIWSLGITAIELAKGEPPYAELHPMKVLFLIPKNPPPTL-EGPEFSKLFKDFVACCLRRDPRERPTARDLLRHKWILKAKRTNYLTELLE 277
[Close]
BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: A0A6F9DQF5_9ASCI (Serine/threonine-protein kinase MST4 n=1 Tax=Phallusia mammillata TaxID=59560 RepID=A0A6F9DQF5_9ASCI)

HSP 1 Score: 284 bits (727), Expect = 2.240e-90
Identity = 145/277 (52.35%), Postives = 196/277 (70.76%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLEGRRA 865
            E+ +   E+IG+GSFG+VY+   + + E+ AIK+++LE AEDE+E I QEI +L   N P +T+YHGS++ G+ LWI MEYL GGS  DLMK      +E     +LREILK L YLH ERK+HRDVKA N+L++  G V+LADFG + QLT +  KR TF G+P+WMAPEVI  Q  Y+ KADIWSLGITA+E+ KG PP +++HPM+ +  IP N PPTL  DG+YSK F  F+E+   ++P  RP A+DLLKH F+K A++T  L +L++  +A
Sbjct:   20 EKLFTKQERIGKGSFGEVYKGIDNRTSEVVAIKIIDLEEAEDEIEDIQQEITVLSQCNSPHVTKYHGSYLKGTKLWIIMEYLGGGSALDLMKAG--FFEEPFIATILREILKGLEYLHSERKLHRDVKAANVLLSESGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIK-QSAYDFKADIWSLGITALELAKGEPPHADLHPMRVLFLIPKNNPPTL--DGNYSKDFKQFIEACLNKEPKFRPPAKDLLKHKFLKQAKKTSHLVELIDRYKA 291
[Close]
BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Match: UPI001F045610 (serine/threonine-protein kinase 26-like n=1 Tax=Xenia sp. Carnegie-2017 TaxID=2897299 RepID=UPI001F045610)

HSP 1 Score: 283 bits (725), Expect = 2.520e-90
Identity = 142/273 (52.01%), Postives = 196/273 (71.79%), Query Frame = 2 
Query:   38 EEEYELVEQIGRGSFGKVYRA-QHDSGEIHAIKVVELEAAEDELESIHQEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTLDESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGESVQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKGRPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRPSAQDLLKHPFMKAARRTDVLAKLLE 853
            E+ +   E+IG+GSFGKVY+     + ++ AIK+++LE AEDE+E I QEI +L   + P +T+YHGSF+ GS+LWI MEYL GGS  DL+K    + DE     +LREILK L YLH+E+KIHRD+KA NIL++  G V+LADFG + QLT+++ KR TF G+P+WMAPEVI  Q  Y++KAD+WSLGITAIE+ KG PP +++HPM+ +  IP N PP L  D  YSK+F  F+ +    DP+ RPSA+DLLKH F++ A++T  L + ++
Sbjct:   11 EDVFTKQEEIGKGSFGKVYKGINKKTTDVVAIKIIDLEEAEDEIEDIQQEITILSQCDSPYVTKYHGSFLKGSNLWIIMEYLGGGSALDLLKAG--SFDELAIATILREILKGLEYLHMEKKIHRDIKAANILLSDHGDVKLADFGVAGQLTNTMVKRNTFVGTPFWMAPEVIK-QSAYDAKADVWSLGITAIELAKGEPPNADLHPMRVLFLIPKNNPPQL--DSQYSKNFREFVGTCLHHDPSYRPSARDLLKHKFIRMAKKTSYLIEYID 278
The following BLAST results are available for this feature:
BLAST of mRNA_S-latissima_F_contig1010.128.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Saccharina latissima female vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JV90_9PHAE3.540e-18387.07Protein kinase domain-containing protein n=1 Tax=E... [more]
D8LIZ0_ECTSI3.410e-15086.59Serine/threonine protein kinase n=1 Tax=Ectocarpus... [more]
A0A836C7V6_9STRA5.760e-11562.72Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
UPI00142592203.930e-9454.58serine/threonine-protein kinase 26-like isoform X1... [more]
UPI000D73C24C3.270e-9253.85serine/threonine-protein kinase 25-like isoform X1... [more]
A0A3M7R930_BRAPC2.050e-9151.02Serine threonine-kinase 25 n=1 Tax=Brachionus plic... [more]
UPI00193A0FA01.050e-9052.90serine/threonine-protein kinase 25-like n=1 Tax=St... [more]
A0A0C3LVR5_9AGAM1.690e-9053.65Protein kinase domain-containing protein n=1 Tax=T... [more]
A0A6F9DQF5_9ASCI2.240e-9052.35Serine/threonine-protein kinase MST4 n=1 Tax=Phall... [more]
UPI001F0456102.520e-9052.01serine/threonine-protein kinase 26-like n=1 Tax=Xe... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
S-latissima_F_contig1010contigS-latissima_F_contig1010:126330..154726 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 of Saccharina latissima female vs UniRef902022-09-19
OGS1.0 of Saccharina latissima SLPER63f female2021-02-24
Properties
Property NameValue
Taxonomic scopeNematoda
Seed ortholog score284.3
Seed ortholog evalue6.9e-74
Seed eggNOG ortholog31234.CRE14896
Preferred namegck-1
KEGG koko:K08838
Hectar predicted targeting categoryother localisation
GOsGO:0001932,GO:0001933,GO:0002009,GO:0003674,GO:0003824,GO:0004672,GO:0004674,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005886,GO:0006464,GO:0006468,GO:0006469,GO:0006793,GO:0006796,GO:0006807,GO:0007275,GO:0008150,GO:0008152,GO:0009653,GO:0009888,GO:0009892,GO:0009898,GO:0009966,GO:0009968,GO:0009987,GO:0010563,GO:0010605,GO:0010646,GO:0010648,GO:0010941,GO:0016020,GO:0016301,GO:0016310,GO:0016324,GO:0016740,GO:0016772,GO:0016773,GO:0019220,GO:0019222,GO:0019538,GO:0019899,GO:0019900,GO:0019901,GO:0023051,GO:0023057,GO:0031323,GO:0031324,GO:0031399,GO:0031400,GO:0032268,GO:0032269,GO:0032386,GO:0032388,GO:0032501,GO:0032502,GO:0032879,GO:0033043,GO:0033673,GO:0035239,GO:0035295,GO:0036211,GO:0042325,GO:0042326,GO:0042981,GO:0043066,GO:0043067,GO:0043069,GO:0043085,GO:0043086,GO:0043087,GO:0043170,GO:0043405,GO:0043407,GO:0043408,GO:0043409,GO:0043412,GO:0043547,GO:0043549,GO:0043900,GO:0044092,GO:0044093,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044424,GO:0044425,GO:0044459,GO:0044464,GO:0045177,GO:0045595,GO:0045859,GO:0045936,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048585,GO:0048729,GO:0048856,GO:0050789,GO:0050790,GO:0050793,GO:0050794,GO:0051019,GO:0051049,GO:0051050,GO:0051128,GO:0051171,GO:0051172,GO:0051174,GO:0051239,GO:0051246,GO:0051248,GO:0051336,GO:0051338,GO:0051345,GO:0051348,GO:0060255,GO:0060281,GO:0060284,GO:0060341,GO:0060429,GO:0060548,GO:0060562,GO:0060627,GO:0065007,GO:0065009,GO:0071704,GO:0071900,GO:0071901,GO:0071944,GO:0080090,GO:0098552,GO:0098562,GO:0098590,GO:0098592,GO:0140096,GO:1901564,GO:1902531,GO:1902532,GO:1903358,GO:1905879,GO:2000241,GO:2001135,GO:2001137
EggNOG free text desc.Protein tyrosine kinase
EggNOG OGs1KU1J@119089,38G1B@33154,3BA42@33208,3CTF2@33213,40BNW@6231,411EW@6236,KOG0201@1,KOG0201@2759
Ec32 ortholog descriptionSerine/threonine protein kinase
Ec32 orthologEc-20_002080.1
EC2.7.11.1
COG Functional cat.T
Best tax levelRhabditida
Best eggNOG OGNA|NA|NA
BRITEko00000,ko01000,ko01001,ko04131
Exons9
Model size951
Cds size921
Stop0
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_S-latissima_F_contig1010.128.1prot_S-latissima_F_contig1010.128.1Saccharina latissima SLPER63f femalepolypeptideS-latissima_F_contig1010 126358..154726 +


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

Feature NameUnique NameSpeciesTypePosition
1622815372.7560234-UTR-S-latissima_F_contig1010:126329..1263571622815372.7560234-UTR-S-latissima_F_contig1010:126329..126357Saccharina latissima SLPER63f femaleUTRS-latissima_F_contig1010 126330..126357 +
1693924843.8935745-UTR-S-latissima_F_contig1010:126329..1263571693924843.8935745-UTR-S-latissima_F_contig1010:126329..126357Saccharina latissima SLPER63f femaleUTRS-latissima_F_contig1010 126330..126357 +


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

Feature NameUnique NameSpeciesTypePosition
1622815372.7673318-CDS-S-latissima_F_contig1010:126357..1264621622815372.7673318-CDS-S-latissima_F_contig1010:126357..126462Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 126358..126462 +
1693924843.907656-CDS-S-latissima_F_contig1010:126357..1264621693924843.907656-CDS-S-latissima_F_contig1010:126357..126462Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 126358..126462 +
1622815372.7775586-CDS-S-latissima_F_contig1010:130598..1307171622815372.7775586-CDS-S-latissima_F_contig1010:130598..130717Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 130599..130717 +
1693924843.9203713-CDS-S-latissima_F_contig1010:130598..1307171693924843.9203713-CDS-S-latissima_F_contig1010:130598..130717Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 130599..130717 +
1622815372.7875044-CDS-S-latissima_F_contig1010:149150..1492681622815372.7875044-CDS-S-latissima_F_contig1010:149150..149268Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 149151..149268 +
1693924843.9360056-CDS-S-latissima_F_contig1010:149150..1492681693924843.9360056-CDS-S-latissima_F_contig1010:149150..149268Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 149151..149268 +
1622815372.8020496-CDS-S-latissima_F_contig1010:149539..1496251622815372.8020496-CDS-S-latissima_F_contig1010:149539..149625Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 149540..149625 +
1693924843.9476159-CDS-S-latissima_F_contig1010:149539..1496251693924843.9476159-CDS-S-latissima_F_contig1010:149539..149625Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 149540..149625 +
1622815372.8113828-CDS-S-latissima_F_contig1010:150305..1504161622815372.8113828-CDS-S-latissima_F_contig1010:150305..150416Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 150306..150416 +
1693924843.961431-CDS-S-latissima_F_contig1010:150305..1504161693924843.961431-CDS-S-latissima_F_contig1010:150305..150416Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 150306..150416 +
1622815372.820653-CDS-S-latissima_F_contig1010:151195..1512921622815372.820653-CDS-S-latissima_F_contig1010:151195..151292Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 151196..151292 +
1693924843.9715319-CDS-S-latissima_F_contig1010:151195..1512921693924843.9715319-CDS-S-latissima_F_contig1010:151195..151292Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 151196..151292 +
1622815372.832054-CDS-S-latissima_F_contig1010:153095..1532051622815372.832054-CDS-S-latissima_F_contig1010:153095..153205Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 153096..153205 +
1693924843.9814487-CDS-S-latissima_F_contig1010:153095..1532051693924843.9814487-CDS-S-latissima_F_contig1010:153095..153205Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 153096..153205 +
1622815372.9762523-CDS-S-latissima_F_contig1010:153890..1539871622815372.9762523-CDS-S-latissima_F_contig1010:153890..153987Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 153891..153987 +
1693924843.9928977-CDS-S-latissima_F_contig1010:153890..1539871693924843.9928977-CDS-S-latissima_F_contig1010:153890..153987Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 153891..153987 +
1622815372.9889007-CDS-S-latissima_F_contig1010:154648..1547261622815372.9889007-CDS-S-latissima_F_contig1010:154648..154726Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 154649..154726 +
1693924844.0138364-CDS-S-latissima_F_contig1010:154648..1547261693924844.0138364-CDS-S-latissima_F_contig1010:154648..154726Saccharina latissima SLPER63f femaleCDSS-latissima_F_contig1010 154649..154726 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_S-latissima_F_contig1010.128.1

>prot_S-latissima_F_contig1010.128.1 ID=prot_S-latissima_F_contig1010.128.1|Name=mRNA_S-latissima_F_contig1010.128.1|organism=Saccharina latissima SLPER63f female|type=polypeptide|length=307bp
MVCEEEYELVEQIGRGSFGKVYRAQHDSGEIHAIKVVELEAAEDELESIH
QEIQMLQAFNCPQLTRYHGSFIVGSSLWISMEYLEGGSLQDLMKTSKTTL
DESTTQWVLREILKALVYLHLERKIHRDVKAGNILVASDGSVRLADFGES
VQLTHSIAKRQTFAGSPYWMAPEVIMAQDTYNSKADIWSLGITAIEMIKG
RPPFSEMHPMKAVLSIPTNPPPTLGKDGSYSKHFHTFLESSFQRDPNLRP
SAQDLLKHPFMKAARRTDVLAKLLEGRRAAEMMKKLFGEGLLESASAVPL
AKRNTLP
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mRNA from alignment at S-latissima_F_contig1010:126330..154726+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_S-latissima_F_contig1010.128.1 ID=mRNA_S-latissima_F_contig1010.128.1|Name=mRNA_S-latissima_F_contig1010.128.1|organism=Saccharina latissima SLPER63f female|type=mRNA|length=28397bp|location=Sequence derived from alignment at S-latissima_F_contig1010:126330..154726+ (Saccharina latissima SLPER63f female)
GCTTGGCACTGTGGTGTTGATCAGAGGGATGGTGTGCGAAGAGGAGTACG
AGCTGGTGGAGCAGATAGGCCGTGGCTCCTTCGGAAAGGTGTACCGGGCG
CAGCATGACAGCGGGGAGATACACGCCATCAAGGTACGTACTGACTGCGT
GTACGAGTCCTCCAGACTTGTTTCTTGTTTCGTACATACGACCTGGTTAT
ATATGTCTGTCACCTGTCACCTGTCACAGCAGCAGTCGAGCAGAAGCGGG
ACATTTCAGCACTCCATCTCGTGCTGCCTGACCCGCTGCCTTTGACCCCA
CTAGCGTAGCCCGTGCCCACATCTTCACTCTGCCCAAACATTAACCCGTA
CAAGCAGCCATGGCGATAGGACGTCTTAGGAGACCTCATGGTCGCTGTTT
TCGTAGCGACCTGTTGGAGGGGGGTTTAAGGAACGAAGGAACACCTAAGT
ACCGCATTTTTTCATTTTTTCAGGCCCAAATTCTGGTTCAATTTTTGAGA
GGGTTCTGAGTTCTGAACTTGTTGATGTTCTTGCTCGTGCACGTATACAT
TGCTGCTGCTGCTGCTGAGGGCGTGAGAGCGCTGAGTGCGTTGCATTTGG
GGCTGGAGTGCTGGCGGGCTCGCGGCAAGAGTATGGTCTCACACTCTCAA
ATCAGACGGTTCCTGCTACCACTCACTGCTTGCTGCGTTGGCAGCATGCC
AGCACCTTGGTTGCCATTGCTATTTGCTCTACTTACCTGGTACCTGGTCT
TTTTCTGGTGAATTTATCAACATTTTAGAATGGCGTGCGTTGTGGTTTGT
GGTTCAGTCTGGTCAATCAGTACGTAAAGACCAATGTCAGAGGGTACGAG
GCAGGAAGGACAAAACAAGGAAGGCCTCGCTTTGCCAAAACCACCTAATT
TTATCGTGCTATCGTTTGTACACGAGGTATCGTACCTGGTCAGGTGTGTG
ATTGCGACAGCAGCAGAGCAGCAGCCGCAGCAGCTGGTGCAGTGATATTG
TAATATAGTACCGTCGATTGGACTCGGGAAAGAAGCGTTACGTGGCCATT
GTTCGTACATACAGAGTACTCGTATTCAATTCAAATACCAGTAGGTCGTT
CTACGCTACGTAACATGGCTCATATATATATTGGTACCTGGTATAGAGAT
AGGACAAAGGACAAACTGCGCTGCTTCGCCTCGAGATGTGACCTTGTGAC
CTTTACGAGTACAACACGGTAGCTCACACCTCGAGACGAAGCAGCAGCAG
TGGTGTGCGCCTCGAATCGCCTGGTGCCACACCTCGAGACGAAGCAGCAA
GCGGTGCTGTGCGCCTGGCCTCGCCTGCCCCCAACGTTCGTGGTAGCCCC
AAAAGTCTTCCATTATATATACGACGGATTTACATCCACGTACGTCTTGG
CTTCTTATTCTTACCTGGTACGTGATATCATATCATACCATGAACATATC
ACATACATACGACCTGGTGCTTACTGCTTTCATCATTATCCTCACGGCTG
GTTCGCCCTTTGTTTGCATCGATGATTATGACACGTGTCATTGGCTCAGC
CGTAAGTTACTCGTGCGCTCGTGCGCTCGTGCGCTCGTGCGGATGATCCA
CAGCTTACTACAGCAAGCAGCAGCACTCGGCAGCAGTTATTCCGTGTTAT
TAGTGCTGGTTTCGTTACTATTGAGCATGCCATTCGCATGGATGGTATAT
ACTCGTACATACATACTTGTACATGCTACCTGGTACTCTTGTGAGGTGCT
TTTGTTGTTTCGTCGTTGTCTCCGAGCTTTTTTTATTGAGCTACGCGTAC
TCGTACTGTACGTCTATACGTACGTGCCTCATGTATGCCTGAAACCTGTT
TCCTGGTACTCGTTTGCGCAGCTATCATACGCAAACTGTCCTAAATTATA
TCGTAAGATACTACACTTCGTATATAAATATCATCACTACTATTAATAAT
GTCGTAACACAAGACAAGTTTAACCTGGTTTATACTCCTACCGCCTGATA
CCTGGTATATAGCAGTCTTGTCCAGGACACCACCAGCCGTATAATTGCAC
GTACGTGCTGTGGGCTGTTAGATCTGCACGTACTTTTGCACCATCTTTAC
CCTTGCTCCCACCCGGACCTGATCCCGCCCGGATCTGATCCCATTTGGCA
CCCTGCTCCCACCCACAAGGTGCAGAAATATAATCAGCCCTCCGCAGGAG
CCGCCGGAGGCCCACCTGGCACCTCGATCCCATTTGGTACCCATGTAGGC
CATACATATCTGCAACAACTCCTGCTATACATATAACCGTATTGAATGTA
CGTGCAGATTCGTTAGACTCGCACGTACGTGCAAGTTCTACGGAGCCGCC
AGGACACAGGCAAGAGGGCGAATGGTGAATTATACTTCAGGCACGAGCGG
TGCGAGCGGACCATGCACCCTTTCTGCAGTAGGCCCCTTGTATTTTTGTA
ATGCCATACCTGGTACTGCTGTACTATTAATGGCACACCAGCTCTACGAG
CGTACCAAGTCTGTGTACGTATACACAATTAATAGTATTATGTGCGAGTA
GTGCTGTACAGTATATAGACTATGGTGTATGGTGTGTAGTATATCAGATT
GTGTCCCCCTCGTACGGGATGTACATCCTGCATGAGGACATATAAAAGCC
GTAAGTACGCGAGATCGAAGTATTACACTCAGCTAGCAAAGATGAGTTTC
GTCGAAGTCCTCGATCTCCCAGCTGTTGTTTTTTTTTAATTTTTTTAATA
TGTGCATCACACCACCCCGGGAGAGGTTTATCTCTCGCCTCTCCAAACGC
GCCGCTGTACGTACATATATCCATATATGTGTATGTCGTGTGTTCTTCAC
ATGAAACCGTTATTTCTATATACCCGTCGACATCCAGCACACCCAGTGTC
CGTGCCGATTCTTCACCCTAGAGAGATACAAGCTCTGTGATCACAATATC
ACGACACAGAGATACTACTGTCTACTCTGTACGTTGTACCTGGTAATGCA
GCACGGAGAGTATAGACACAGCAATGTCATGTCACCGTACTGGATAAGGA
ACGCACAACACACACACGCCAGCAATCCAGATACAGCAGTGAGAGAGAGA
AACACGAAATATACCACACGCCAAAGTGGTGGTATTTAATGGTACATACC
TGGTACGGTACAACAGCTACTGCCTGTTCTGCGGCACTGCTGTGCGGCAT
AATAAAAAAGTGTTCCAGTAGTATTTAAATGCTGTGTACCTCTCACTTTG
TCGTCCATTGCGGAGGACCATTGTAATCAGGACCCATCCCATACACAAAA
ACCTAGATATTCTAGTATTTTTACTATTAATAGACATATTAGGTCCTGAC
TGTATACCATGTTCCGCCGTAATTGAATTTTGAATAGATCTCAACTGAAT
TTCGGAAATTCATTGTCTAATCTATTCGCCATTAAGGCCGAAACAGCTCT
AACCCTTTTACAATTCCTGATTTTCCCTTGTCTAATCCCAAGTGATTTGT
CGCTAAAACGGGAGTGCGATGGTAACCTCTCCGGAAAACGGCGTTAAGGC
TTTTTTAACCCATTCAGAACTGAAAAAAATGTCCCACACTAATTCCAAGT
AGTTTGTCCCCAAATTCGTGGGACCAGTTCTTAAGGGGTTAAGGCGAGTC
CTGAAGGCTAGGGTCTATTACAGGGGACCATCATAGTAAATAGGGCCAAA
TATTGTTAGTAAAAATAGGTATAAAATATATGCATAGGTTTTTGTGTGTA
CTACTGCTGTAGGTCCCTATTTTACTATGCCCCCCCGCAATAAAATATAC
TTACTGCTTAAAGTGCGTGGTGAGCATATACAGCATATCGCATATCACAG
CAGGGCTGCAGCAGTAGTAACAATAGCGATAGCAGCAGCCAGCGTATCAA
GCATCAAACACATCAGAGCCTCGATTTTTCGATGTTTCATTTTCTTCTCC
GCAAGCTCACGCGCTACGTACACTGATTGGCTGATTGATGATTAGTTGAT
GCCCTCTACACGATACACTACGATTATGCACTACACCGGTACCGCTGTAG
GTACAAGGTATACTATACACTGGTCTGGTCCTATATATACGTAGAACATT
GCCGAGGCACCGGATGTCAGTCACGCTGGCGAAGCTATCGCTGTGCTGGC
AATCCGTTAATAGAACACTTGTCGTAATCCTAATCCTTCTTCCTTGTTGT
TGTTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGCGTGGTGGTGC
TGGATTTTTTGTTGTTCAGGTGGTCGAGCTGGAGGCGGCCGAAGATGAAC
TGGAGAGCATCCACCAGGAGATACAGATGCTCCAGGCCTTCAACTGCCCG
CAGCTCACCCGATACCACGGCAGCTTCATTGTCGGCAGGTGTGAAATTGT
ATGATATGGTATTATATGAAACCGATAAACAACGGAGTCAACCCATTCAG
AACTGAAAAACTTATCCCACACTAATTCGAAGTAGTTTGTCCCCAAATAC
GTGGGACCAGTTCTTAAGGGGTTAATCGATATTTGATATCTGGTACATCA
AAGATTTCGTTCGGTGCATATCTGCTATCTGCATACAAAACACGGAGATG
CCAAGGGATGGGATGGAGGGCAAATCATCTTTATGATATCATACGATATA
TCGAAAGTTCGATACTTCGATATATCGGAACTTTCGATACTTCGATATAT
CGGAACTTTCGATATATCGGAAATTTCGATATATCGGAGCTTTCGATACG
AAATCCAACACTAACATGATAGGATATATTAGCATTATATACAGGATACA
GGTCCCCGCACTTCTTCTTCTTCTCCTGTGCGTCTGTCGTCCAGTCAAAA
TCAGCAGTTCGTATCAGTTCATATATCAGTGCACGTACACCAGGTGGCAC
TTTTTTTTTTTTCGCACCAGTCAACACCTGTTCGCACGTTCGCACCAGTG
ACCACATCAGAGCTTGTTCGTACCAGTATCTCTCTAGGATGAACCGGCAC
GGGCACTGGGTGTGCTGGATGCTGGATGTCGACGGGTACTCGTAGTAGAG
AGAACGGTTTAATGTGAAAACACAAACACTATCCTTATTATTTAATACGC
TTCGGTAGTGGTGGCGCCGGTGGTGGTGTCGTTTTGGATCTTCAGGACTA
TGCCGGTTTCGGTATGCCCCGCGGGAGACCGGCTCTACCGCGCGCCACCC
GACCCCGATCGGCACCGCACCACCACCCCGGCCACCCCACGCGTCGGCCC
TCGGCGACCCCGTCGAGAGAACGGGCCCCGGTTCCGACCTCGGCCAGAGG
GGATCGGGGGAAGGCGGCCTCCCGGGGACGGCTCGCTCCGTCCCCTCTGG
CCGAGGTCGGATCAGCGGGAGGGGAGGGGTTCCCAGCGTATTCGGAGGTC
TTTGCGGCCCGGGGTCTAATCCCACACTAAAATCAAGATAAAACATCTCC
ACACTAAAATCAAGTAATTTTCCTGGCCATACTAAAATCAAGTAATTTTC
CCCTAAAGAGTCCCCCAGATGTGAAAATATGGATCTCCAGAACTTCGGTC
AAAATCGAAATCGGCCCATAACTTCGCGAGTTAGCCACTTTTACACTAAT
TTCAAGATAAAAAGCCCAGACGTAAAAAAATCGACCAAAAAAAAAAAAAA
AAAAAAGGCCACTGCTGTACGTACAAGGGCTGTGCATCCATGCCGGCGTT
TTGTTTACACTGCTGTATGTACAAGGGCTGCGCACCCATGCCGGCGTTTT
GTTTGTACGTACATCTCCATACTAAAATCAAGTAACTTTTTGGCCATACT
AAAATCAGTAATTTATTTTTAAAGAGTCCCCCAGATGTGAAATATGGATG
TCCAGAACTTCGGTCAGAATCGAAATCGGCCCATAACTTCGCGAGTTAGC
GGTTTTTAACACTAATTTCAAGATTAAAAAGCCCAGACGTAAAAAAATCG
CCCAAAAAAAAAAAAAAAAAAAAGGCCACTGCGGTACGTACAAGGGCTGT
GCATCCATGCCGGCGTTTCTTTAAGCTGTACGTACAAGGGCTGCGCACCC
ATGCCGGCGTTTGTTTGTACGTACAAGGCTGTGTGCATGTGCATCCATGC
CGGCGTTTTGTTTACACTGCGTACGTACAAGGCTGCGCATCCATGCCGGC
GTTATGTTTGTGTCCGCTGAACGTACGTACGAGTCGTACTGCTGGACTGC
TGCTGCTGTTGTGCTATTGCTGCTGGTGTTGCTATTGCTGCTGTAGATGG
GTTATATAAGGACTACTACTATTTTGCTGAACGTACTGGTGCTGCTGTAT
ACTGATTTCACTCTGCTCTGTTATACCGGCCCCGCCCTGGCGTGGTTCGG
GGTACCACTAGTTAATAATTAATTCTATCGTACGTACTGCTGTAAATTAG
CTGTATTATGTAAATCACCGGTCGCCCCGGTGGTCTAACAGGTAGCCACG
AAGCCTGTTAGCGTTGGAGGTCGGGGGTTCGATTCTCCTCGTATTGTTGT
TGTTGTTGTTGTCTTCACAAAAAGCCTTTGCCGGTCTCTCTACCAGTACC
TCCATCTGTCCGTACTAATCCACACTTGACCGCGGTCGATTCCCGTGGTC
ACAGGCTAACTTCCCAAAAAAAGGGTATACGAAATAAAATTTGGAACCCG
AAGGGTCCGAAAAGCGATCAAATCAGTCAAAACAGATACTGGAGCCCTCC
GCTCCCCTCTACACGCTATGTGAAGGTAAAAACCCAACTGGAAAGGTCAA
CATCACCATCGGGGGTATACGCCCCCTGATTCTATTTTGGGTGCCCCTAT
ATGCCGGGGTGTTCCGTGCCGGTTCACGCCGGGCCAGGCAAACAAATCGA
GTCCTCCACACCGTTATAAAACGCAGACAGATACGGGGAAGGGAACTAGG
TCCCTTTCTACTGATTCCCCCCGGGCCCTGCGAGCAGTGTAACTGCAAAA
GGTCAAAAACAGCGAAGGGAAAAAGACAAAGAAAAAGAGCAAGCCAAAAG
CACAACCTCAAAACAAAAACCACAGAGATAGCACAGACACGTCACCCCGG
GGGGGTTGGTGCAGGGTGCAGCGATAGGGGGAGGGAAAAAACAAAACAAA
AATAGTCCCAGGGAAGTCAATCCGGCACATTCGCGCCACTCGTCCGCCAT
TTCTCGCTTGTTTTTCTTCCCTCGCCGATTCGTCCTCTTCCGCCCCCTCC
CGTCCCTTTGGGTTTGTTTGTCGTCTCTATATTTTTTCTAGGCTCTTGTC
CTCGCTTGGTCGCTCGTTTTCGGCTACCTCCTCTTCGTCCTTGTGCCAGG
AGGCCCATAACCTCTCAGCCCCTGCCACCTCCCTGATACCACTGCCTTCC
TCCCTTCACCTTCGCACTTCCGCCCAAACTTGGATTCGGGACTCCGAAGA
CCACATCTCTCGTCGCTCGTAAGCCGTGCGTAGCCCCGAACGCCTTGAAG
CCCATCCTTCAGGCACGTCTGCCAGTTCCGCCCCCGGGCACCCCGCGCCC
GGGTCCTTCCCCCCCACCAACTCCCCGAACATCAGTCGTTTCGGGAGCCG
CCCGTCTGGCTTTCTTGCCACGGCCCCCGCGAACAGCAGGCGCCGCTGCC
GGACGTGGCTTCCACGCTCGGCACCCACCCTCTTCAGGGCCTGGGCGTAG
GACAGCTGCCGGTAGGTGCCCGCTTGCGCTGGTACCCAATAACTCGCAGC
AGCACCCCGGTGGTGTTCGTCCGCAGCAGCCGTAGTGGTCGCGACTGGGC
CCAGTCATGCAACCGTACAAGCATGCCTCCATCGCCTCCGCTTGAAGCGG
GGGGGTCTTGAGTCAAACGGTGCTCCCGGGCCTATCGAAGAGCTCCGGGC
CATACCTCCTGACGCACGCCGACGCTGCTCTGCTCCGAAGTTGATCTCCC
GGTTGAGGTCGCCATTTTTCGTTGACGAGGCCGCCCAGTTACCGGAACTC
GGGGGTTTTGGGGTGTACCTCTCCCCCCGCTGCTTCGATGATAAGCGGGG
GCGGGGCAGTGTTGGCTGCTTTCTCCTTTACGCGCACAGTAGAGTCTCCG
TCTTCTTCTCCGACACGGTCAGCCCGAACTCCCCGAACACCTCCACGTAA
TGGTCATCACCCCTCGCCAGTCCGTCGGCGGACCCGATACAACGCCGGCG
TCATCGGCATACGCATCCCCCACACCGCCCTCCGTACGCGGCCGAGTGGT
GTCTCCTTTCCCCGCTCCCGTTTTCCTCCTTTCAGAGCACTAGGTTTCTG
CTGATACCATCGTCCTCGCTGAATCGTACGATAACGACCTCTAGGCCGCG
GCAAAGAAAACGTTGAACAGCAGTGGGACAGTACACACCCTTGTCGCAAC
CCTGCGTGACCAGAACCATTCCGACAGTTCCCCCCCGTCGTCCATCGCAC
CCGGCCCGCTTCCGTCGGGGATTGCGGAGGGACGCGATCATCTCCGCAGG
AATCCCGGCCCTGGCCAGCCCCTTTCCCCACAGCACCCTCTGGGTCCACC
GAGCCCATAGGCCTTCTGTAGGTCGACGAAGCACATGTAGAGCGGTATTC
TCCTTCTCCCCCTAGTTCCTGGGGTCGGCGCACGACGAACAGCATGCATA
CTGTAGATCGACCAGTCGGAAGCCGCACTGCTCCTCCGGGAGGGGTTTTT
GGCTTCGCAGAAGGGGCTTAGGGGGTTGGTGATTGTTTTTTGGGGGGGAC
CCCTTTTTCCCACTGCGATAGCAGCGAGATCCCCCTGAATTTGTTTGCAG
TTGGACCGGTCGCCCTTCTTGTACAGCACTTTGTGGTTTTCGTCCTTCCA
CTCTTGCGGGATCTCTCCTCCGTTCCACACGTCGACGAGGATGGCATGAA
GGCGCTCCAGGACCACGGGTTCGTCGTCATCGATCTGAGTAACTCGGCAG
GGGGGAGTCATGGCGGGTGCCTTCCATTTTTGCAGCCTTTCGTTGCCCGT
TCCCCTCCCTCGAGGTCTGCGCCGCTCCCAACCGTCGGGTGGCTCGCGTC
GCTTGTCGTTGCGTCACTTTTTTCGGCGATGTTCTGGGTTCAGGGTGGGG
ACTTGGTGTTGAGGAGTGCCGAAAATCCCGCCCACCGCTGGGGATTCTCC
TTGCTCCGGAGCAGCACGCCATTCCCCGTCCGTGACGAACTGCTGCCCAC
CCGCTTTCTCCCGCTGGGCCCACTGATCCCCTTTAAGGTGTTTTTACAGC
CCTCCCCATGTCGCGGTCCTTGTAACCGCTTCGAGCTCCGCCACGTACCT
GTCGAGTGGCATAGAGCCCGTTTCGACTGCTGCAGTTCACTCCCTTACAT
GCTGCTTTGAGGGTCCCCATGTCGCTGTGGTCCAATTGCCCCTCCATCGC
GCGGCGCGCTTTCCCCCCGCTTGGCAAGGGCCCCTCCAAAGCTGCTCTCG
TCACTGGGGTCTCACACCACTCCCCGCTGCGTCGTCTCCGCGGTTCCTCG
GGTAGACCGTCTGCCCCCGCGTCGTGAGGGCATTGGTAACATCGTCGCCA
TCCCCGCTGTGGTGGTCGCTGGCTCACCCGTTGTTGGTCGAGGTTGTGGA
TGAAACCGCTCGCTCACCGGGCCCCCGTGCTGTTTCGACCTGCAATTCCT
GTCGCTGAACTGCTGCTGTTTCGGTTTGGTCCGCACTGCTCGGTTGTGGG
CAAGTCTGCCACCGAAGTCGACGGTTTGGGTATCACCATGTTTGTGGTCT
GGTCCGCCTTTACTGGGCGTACCGTTGGGGAAGGACACTACTTTGGACAC
TCGCCACGGTGTGCCTGCCGCGTTGAGGATGTAATCGATGCGCCGGCATT
CGTCCCCCGACACCCGTTGTATGTGTGCCATATCCCACCCTTACGTGTTT
GGGGAAGAAGGTGTTCGTGATTGCTATCCGTTGTCCGTTTGCGAAGGTCA
GCAAGCCTGCCATTGTCGTTCACTTATCACGCCCAGCCCCGCCCATGATA
CTTTTGTCCTCTCCATCCACCCTCTCTCCCGTCCGCCATTGGCGTTTCCC
TCAGTACGTACACACACTCCTTGGCAGGAAACCCCCGCCGAGACTGTCAA
ATTTTTCCCAGAACCTATGCTTGAGGTCGCGGTGGCGACCTCTGTTGGGG
GCGTACGCAGCTACGAGTTGACCGCTCCGCGGTGGCCCGTTTTCTCAAAC
CTCATGGCCATAAGGCGTTCATCGATATATTCGGTGGTGTATCAGAGTTC
CTGCACATTGACTCTTTAACGGCTATTCCCCCCACCGTGTGTTTCCACCT
CTCCCCGTGCCCCAGCAGAACACCCGAAACCCCGCTGCTGCGAATTCCGT
TCGGCCTGCCCTCCTTGTCCTCCTGTAGCCCAGCACCGAAACGTTTTGTC
TCGCTGCCTCGTACGGTGCTGCAGGGTCTCCCATAGCCGTTAGCCCCTTT
TACAGCCAGAGTCCGCACATTCCAGGTTGCTACCCTAACAAGTGTACTCT
GCTGCCTCTCCCGGGCGATGCGTGGTGCCTTCCTAGCCAGCCTGCGCTTC
GCCCGTCCCCTCCTTTTCCTCCTTCGTTCCCTTTTATCTGTTTTTTCTTG
ATTGCTTTGCGCACTCTCGGGGTATAGTAAAAAAGTTCTCCCGGTGCTTG
TCTGTTGTACCAGAGATACGCCTCATCCCGGAGCGACTCGACCCTCCAGC
TCTGGATTCTCCTCCTTCCTCTCTCTGGTGCATACCCACACGGTGTGCGG
TCACTCCGCCACCCTCTCCGTGCTCTCTGCTGCTGCATGGCCCCGGTGTC
CAAGCCGGGGCGTTAGGGTTTAACCCCATCTGCAGCCACCCGAGCTGGCT
GCGTCACGAGCTACCCTGATCTCACGATAGCGGTAACTCCCGACTGCCAG
ACTCAGGATCCCCCTCTGAACGGTGCTAAGGACCGTGTATCCGTCTGGGT
TGGGTGGCCTTTCGAGGTTTAGGTCCACTTGCGGACCTCGGCCTACCTCA
GCAGGGAGGCAGGCCGGGGGAGTGGAGATTTTTATTCTCAAAATGACACC
AACTGTCGAGAGCGCATATTATAGCGTGGGTAAGCACAATTCGACGAAAG
TTGACGAGGGAAGAAAGTGCTGAAATCTTCTCGCGATAAAAGGCAAGCAC
CGTAGTGGGAGAGGAGGGAGAAGAGCCTACTTTGTGACCCCGGATCTGAG
TTACGACTAGGAAGGAGAGAGAAAGGAAGGGCGAAGATAATAAATGGGAT
GGACAAAAAAAAAAAAAAAAAAAAAAAAGTCGACAACGACATACCTGGTA
CCTGGTACATACGAAGTGTATACGTGTTACTGTTGCTGTGCGTGTGTATG
TGTGTGTGTTTGTTCTTCACATTAAACCCTCCTTTCTACCCGTCGACATC
CGGCACACCCAGTGTCCGTGCCGATTCTTCATCCTAAAAAGGTACCAGTT
CTGTGGTCACAAAACTACGACGCAGAGATACTACGCTCAGTGCAGTAAGC
AGAGCAGACAATAGTAGACACCATCCGCGGTGTTGCGTCAAGTTTTTATC
TTCGGTTTAGGGGGGGGGGGGTGATGAGAAATCCCCGGTTGAGATCTGAA
AAATGAATGCCATGTTGGTAGTCCTCTATTTGATCGTACCTTCAAGTTTG
ACAACTAATTTCGAGGGTAGTGCTCCCATTTCAACGGTTTTACCGGCTAC
GTAGAGATTTGGACAAAAGCGCTGGTCCCAAAATATCCCCTCCCTCTGAA
ACAGACTCGATCGTACTGAAATATTCAGGGTGGAGTAATCTTGGGGTGGG
GGGTGGAGATTACGAATCAGTCGTTACATTTTTCGAACTCGGTCATCGAT
AGAGTTACACAGCTAAACATGCATACGCCAAAAAGCGGGGATGCCCTTTA
AAATCCCCCCCCTCTTAAAAGGGCCAATAACTTTGCCGAAGCGGGGATGC
CGTTTAAACCCCCTCCCTCTTAAAAATGCCAATAACTTGCCGATATGGGC
TGAATTTTTCGTTGGTGGGTAGTTTTGGGATGGGGACCACGAACCGGTCA
TAAAAATGTTTCAGTTCGATCTTACGAACCGGTTCCTCGATTTTGTGGAC
AAAATACTTGGAATTAGTGTGGGATAAGTTTTGGAGTCCTGAAAGGGTCA
AGAAACGACTACGTACGTATGCCAAAACATGCAAAAATTGTTTTTTCTGA
GGGATTATGATATTGCTTCCGAATTTCTCTTATGTATGGTGCCGATTTTT
CGTCTGGTGAACTTTCTGAGTGGCTCTAGCCCCCCTATAAATCGGCCAAG
CGAAGTCGATTGGCGCGGTGGTATATCTATCACACCCTGGACAATTCCTA
TTTCAATAGTCTATTGTGTCTATAATTATTTTTGGGTGTAGTCTATTAAT
TGGAATTGCCCAACCAAATGATTTTGATTGCAGTATATTAATTGGTATTG
TCCTCGATGAAATGCAATCGAGCGCTGTTCTCAGTTTGGTTGTGTTTTTT
TTTGTGGAGTATTAATATATATTGTTGTTATTAATAGTTGTGGTTGGAGT
TGGTGTGAGTGGCGAGAGAGACCAGTCGGCACCGGGCCCGACCTTTTATT
TCATTTTATTTTCGGTTTGTTTTTCTATGTTTCTTTCGATTTTTCTCTTT
TAACGCATGATATAAAATGTGTACGTATGTCGTATGTCATCATTAATCAT
TCCGTGCATCTACTACTCCAACAACCCGGGGACGAAAACAGACATCCCCG
CGTCGATGCCGCCCCGCAAGGTGGCCCTTACAAATCCGTTCAGAGTGGTA
CATCACAGCATACTACGAGTACTACCATCAAACCAGGTGTAAACATACCA
GGTATAAACATACTTATAGATGTTTTGTATTGTCTGTCACGTCTCCGAAG
CTCGACACTTTTGCTTAAGTGTACTGGTGCTGTATTCAAATCTGTAAGTG
TTAATGGTAAGTCGTCCGCGCGTGTTCTATATTAATTCCTCGTCGAGAAT
ATAGGCCAGTGACTCCCCTGGATGTTGCCAGGGTCAACAGGACGATTTTC
ATAACCATTCTGCGCACTGATACTATATAACCTGCAAAGGAGGGGGGGGG
TTACATGTCCATATAACGTCAAACAACAAGTACATCGGTATCCTCGTTGA
ATCGACGCAAACTACGTGCCAGGTGTGTGTGTTTTCGTCACATTAAATCT
TCCTTTCTAAAGAAAAGAAAACCCGTAGTACAGCTGGTACAGACAGGTTC
TACCCGCTAGTCGGTCTGGTACCTTGCTACCCTGTCTGCCGTCTCCTTCC
TGCTTTCTTCCGCCGCGGTTTCCCTACGACCCCCCCCCCCCCCGTCTCGA
TTCCCTGCGGCGCCACCCACCACCCATACAACCAGAGGGCATTCCTCGGG
ACGCGGTTTCGACTCCGGGACAAAATCCCGCGGGATTCAGGTACCACGGG
ATTTTACGAATTTGTTTGTGCGGGATCTGGCCACCGCGGGACTCCCCGGG
ACGGGATTTAGCCACCACGGGATTGAACGGGATTTTTTTAACGGGATCTA
GCCACCACGGGATTCGACGAATTTGTTTGTGTGGGATCCGGGCACCGCGG
GACTACCCGGGACGGGATTCAGCCACGACGGGATTAAACGGGATTTTTTG
TGCGGGATCCGGCCACCGCGGGACTCCACGGGACGGGATTCAGCCACGAC
GGGATTAAACGTGATTTTATGTGCGGGATCCGGCTACCACGGTATTACGC
GGGAATCGTTTGTACTGGGCGCGGGTATTTCACGGCACTGCTGCTGTGTT
CGGCGATCACGTTACGGTGGTACCGCACATGATGTTTTGGACGGGACCCG
ACCTCCAAGGTTACTCCGCGATTGTTGTACGGAGCGCAAATACACAAATA
CACATCCAACACCAAACACAAATTCAACTCTCTCACCACTATGTATTGAT
TATCAACATATTGGATTATCTATTTTATACCAAGTTTACAGTACGAGCAC
ATTTTTTGTTTTGCAAAAAATAGCTATGGAAAAAAAAGGTGAAAAAAAAA
GAGACAGAATCGAAGTCGGAACCTGACACTTGCACGTACCCTGGTCATAG
TCCCTCCCTTTACGAAGGGGCAATTATCGTTTACGTTTGTACGGGATTTC
GCGTTTCTGTACTGACGGGATTCGGGATATCCTGAATCGTGCGGGACGGG
ATTCGGGATACCCGGAATCGTGCGGGACGTGTTTGTGCGGGAACGGGATT
TTTGAATTTGCGCGGGACGCGTTTGTGCGGGAACGGGATTTACACTTTTC
TGCGGGACCGGGAACGGGATTTAGGAATTTGCACGGGACGCGTTTGTGCG
GGAACGGGATTTCACATTTACCGCGGGACCACGGGATAATCCCGAATCCC
GCACAAAACCGCGGGAAAAATCCCGAGGAATGCCCTGCATACAACGGATG
CGTTGCGCGCTCCCTACAGCAGTGTGTGTGTGTGTGTATTCTTCACATTA
AACCTTCCTTTCTACCCGTCGACATCCAGCACACCCAGTGTCCGTGCCGA
TTCTTCATCCTAAAAAGGTACCAGTTCTGTGGTCACAAAACTACGACACA
GAGATACTACGACGCTCAGTGCAGTAAGCAGAAGAGACAATGCAATGCCA
TATACGACAGGCAATACCTACTCTCCTAGCAATCCAGGTGCATAAGAGAG
AAAAAGAGAAAAGAAGAAAAGAAAAAAGAAAAAAAAGAAAAAAGAGAATA
AAAGTAAACAAGATGAAGCAAATCAACAATCAAACAACCAAACGAAAGCA
TGACAAAATAAAAGAAGGAAAGTGTCGTGTTTCTCCCAGAGGAGGTGCGA
CAGCCAATAAAATCAAATTAAATGAAACGAAATGAAATGGACTGAAACAC
AGCGTACACAGGGCAAGACTAATAACGACAGGAAAGGACAGGCAGCCGGG
GAACACCAAAAGCACCTTCCAGGCAGCCGGGGCAGGTTTGTGCCCGTAGT
ACAGACAGGTTCTACCAGCTATTAATAGTCGGTCTGGTACCTCTGTCTGC
CGTCTCTTTCCTGCTTTCATCCGCCGTGTTTTCCCTACGAACCCCCCCCC
CCCCCCTCCGTCTCCATTCCCTTGGACGCCACCCATACAACGGATACGTG
GCACTTCCTACTCAGTTCCGTTTCGTTTTCGTGCCACACACGAGAGTCCA
GGAAAGAGAAGAGGAAATAACAACAAAGTGAATGAACAAACAAACATTAC
GAGTAAAGCGAGAAAACCAATTGACAAAAAAACAAAACTTTATTTTTTCC
GTTTCACTTTTTCTTTTCTTGTTTTCTATTTCTTGCAGCTGGGTTGCTAG
CAGGGCAGGTCGTGCCTGTCGTATGTGTGTGTGTGTGTATTCTTTACATT
AAACCTTCCTTTCTACCCGTCGACATCCAGCACACCCAGTGTCCGTGCCG
ATTCTTCATCCTAAAAAGGTACCAGTTCTGTGGTCACAAAACTACGACAC
AGAGATACTACGACGCTCAGTGCAGTAAGCAGAAGAGACAATGCAATGCC
ATATACGACAGGCAATACCTACTCTCCTAGCAATCCAGGTGCATAAGAGA
GAAAAGAGAAAAAGAAAAAAATAAAAAGAAAAAAAAAAGAAAAAAGAGAA
TAAAAGTAAACAAAATGAAGCAAATCAACAATCAAACAACCAAACGAAAG
CATGACAAAATAAAAGAAGGAAAGTGTCGTGTTTCTCCCAGAGGAGGTGC
GACAGCCAATAAAATCAAATTAAATGAAACGAAATGAAATGGACTGAAAC
ACAGCGTACACAGGGCAAGACTAATAACGACAGGAAAGGACAGGCAGCCG
GGGCACACCAAAAGCACCTTCCAGGCAGCCGGGGCAGGTTTGTGCCCGTA
GTACAGACAGGTTCTACCAGCTATAAATAGTCGGTCTGGTACCTCTGTCT
GCCGTCTCTTTCCTGCTTTCATCCGCCGTGGTTTCCCTACGAACTATACG
TACATATGGCACTTCATTGTCTGCTTTGCATTGCAGCGTCAAAATGTGAA
GACCACACAACACAGTCAAGTATTAATAGGCCGAGGTAAGTCGCAGGTGC
AAGAGCTGTCGCAGAGTGTGTGTGTGTGTTCTTCACATTAAACCTTCCTT
TCTACCCGTCGACATCCAGCACACCCAGTGTCCGTGCCGATTCTTCATCC
TAAAAAGGTACCAGTTCTGTGGTCACAAAACTATGGCACAGAGATACTAC
GCTCAGTGCAGTAAGCAGAGCAGACAATGCAATGCCATATAACATACGAC
GGGCAAGACCTACCCTGCTAGCTATCCAGGTGCTTGAAAGAGAAAAAATA
CTGTAGTGTCTTTCTCTATTAATGTACATATTTTTCAGGTTGTTGTTGTC
TTCACATTAAAAGCCGTGCCGGTCTCTCTATCCAGTACCTCCATCTGTCC
GTCCTAATCCAACACTTGGCGCGGTCGATTCCCGTGGTCACAGGCTAACT
TACCCGAAAAAGGGTGAGAAATGGAATACATATGAGCATAACGTAGCAAT
CTATCCATTTTACTTTCAAGAATCTATACCCTGGAACCAGCACGTACACG
GCAGAACTAATTAGCGTATCAGATACGGGCGAACATAAGTAAGAAGGAGC
AGCACAGCAGAAGAAGTTATTAATAGTACTCGTACGGGTATGTACGAGGT
ATAAACGATTTACTATTTACATACAGCAATATCATTAGAGTAACAAACTT
CTGACTGGGAAGTCGGGTGTGGGATGCCGCGGAGAAGAGGGGAACTGGGA
GACGAGAGAGAGTGACACCGGGAGAGGAAGGGAGAGACGGAGAGAGCGGG
GCAGGGATGTGGTCCGTCGCTCCAGAGGAGCCGAGGGGGAAAGGTTGGAT
AACGAGGACGCGAGTGCGCAGCAGCCGGTCGTCGAGTTGGAACGCGGTAG
TGTCTCTCACGTTCGATGCTTTTCTGCTTGGGAGACTTCCGTCACGTTGC
CACTCCGGCCGGAAATATAAGGTACATTTCGATGGTCACAAAATGTACAA
ATGCACCTAATAATGGTTACGAGAAGATCGACGGTCGAGCGAATTTCAGA
GCAGACCCAAGGGTAGCCAAGAGTAGCCCGGCTAGTCTGTAGAGAATCAG
CACAACATCACCCAGGATGCACCAAACGAGCTGAAACTTCGAGGGCGCCC
TTACGGTGATGCATGGAGAGGGTCTGTTCGGTTTGGGGGGTGGGTCAGAC
AAGGGATTTCGAGACTAAAAATATCGAGGGGGTGAGCCTCTTGTGGGGAG
AAAACCAAGTAAGACAGACAGGATTTGAATTCCCAAAACAGAGACTCAGT
TTTGCAAACTGAGAATTTGAATTGTCCGGGTAATTTATTTTGGATGCTGC
CTACTAATTGCAATTGTCCAGACAACTGATTTTGGGTGCTGTCAATTAAT
TGGAATTGCCTGCACAATTATTTGGACCATTCCTATTACAATAGTCTATT
GTGGCTACAACTGATTTCGGATGCTGTCTATTAATTGGATGTGCCCAACC
AAATGATTTCAATTGTAGTATACTAATTGAAATTGTCCGGGCAACTGATT
TTGGGTGCTGCCTACTAATTGGAATGGTGCCTACAATTGATTTCGGGTGC
TGGCTGTTAATTGGAATTGCCGAGACACTTGATTTCAAATGCTATCTATT
AAATGCAATTGTCCAACTAAATGATTTCGAGTGATTTCTATTAATTGGAA
TTGCCCCGTCAAAGTATTCCGAGTGAGATACGTATATCAGTCGGATTTGT
ATAGCCAACTTGTTTCGATTGTTGTCTATCAATTGAAACTGTCCAACCAA
ATGATTTCAAGTACGGTCTATTAATTGGAATTGTCGAGGTCAGAAAAAAA
GATCGAACACTAACAATTGGAAGGTCAGGACAAAGCCTATTGACCCAACC
AACAATTAAATTTGGAAAGTCAGCACAGAAACCTATTGACCAAACCACTC
CTATTGATAGGCAAGACCTGAAACTAATTGTTGAAACAATTTCAATTGGA
AGGTCAGGGCAGAAACCTATTGATCCGACCATTCCTATTAACAGAAAGGA
ACAGAAAGAAATTATTGAAACAATTCCAATTTGGGAAAGGGGAGAGCAGA
AACGGTTTGATTGAACCATTCCCAAATTTTGAGACAAGACCAGAAAATAA
TTGCTGAAACAATATCTATTAGAAGGCCAGGACACAAACCTATTGGCCGA
ACCATTCCTATTAATAGATGCACCACGAAAGCAGCATCTCGACCAATTCC
ATTTAAATGGACTTCCGGAAGATCTACTGTAAAAGCAATAGTCCATTGCG
GGTAGGTCCCATATCCTATTGAAGAAGTAATGGAGTATTTGGAGTCTCCG
GAGCGAAAAAGTTGCAGGAGACAATTCCAGTTAATTAACAGAGCTCTAAA
ACAATTGCTTAAGCAATTCCAATTAGTAGGTGGACTACATATGTTGTTGT
CTTTGCAATTCAATTGCAGCAATATGGTAAGAATCAATTGTCCGCCTCAT
TTCATTTAATAGACTTTTCGGTGGGTCAATTGTAGGGCAATAGTCTATTG
CGATGCCTATTGTCCAAGGGTTAAGCAGAAAGGGAATGTAAAAAAAAATC
CTAGTGATTAATCGGCCGCCAAACATTTTGTCCGAGATATTTTAATTTAA
TGGGCATCCTCCGAAATATGTTATCTGGTCGATTCCAATTAATAGACTGC
TTCATGAATCGTTTGCCTTTGCAACTTTAAGAAATAGCTTCCCCATGCAT
ACATTGAGTGTCAAATTCCTATTGCAGCGTCCGGAATCAATTGACCAGTA
ACATATATTGTCGATGAAATGGAAATGCCTGATTGTCTGGACATTTGTTT
TCGAAGCTGCCAAAAAAATGAAAATTGCCAGGACAATTGTATAGAAAGAT
GCCAACTAAATGGAATTGCCGGCGCAATTAATTTAGAAAGATGTCAATTA
AATGGGATTGCCAGCACAATGGTTAGAAGGATGTCTATTAAATGGAATTG
CCAGGACAATTGATTTAGAAGGATTCCAATTAAATGCAATTGCCAGCACA
AATTATTTGGAGGATGTCATTGAATGGAATTGCCAGCACAATTTATTTAG
AGGGGGTCAATTAAATAGAATTGCCAGCACAATTTTTTTAGGAGAATATA
ATTAAATGGAATTGCCAGCACAATTGGCACCGAAAAAATTCTGCAATTGT
CCATTAGCGTTACAATAGAATGGAATATATTTCAATGACTGGTTCAGCAA
TGGATTTCGGTGGTTACTGCAATAGCAATTACTTCAACCATTATGTAGAT
GGTGTATATTGCATAAATTGGGTGGACGATAGGGCCTAGTGGTGTCTGTT
AAAAGGAAATTTTCTGTACCATAGAGCTCGATGTGTTCCAATAATTGGAA
TTGGCGACCACAATTGCCAGTCAATTGTAATAGGAAACTATTAATAGGAA
ATTAGACTATTGTCAATTGTCCAGGGTGTGATTATCTATACAAAGTAAGT
TCGGAAATGCGGCCAAAGAAAAAAGTTATCGGCAAAGGAGAACTCTTTTT
TATATATATATATAACATAAAATACCTACTTATTAAACGTCGTTTTTAGG
GTTCTGAGAGCGAGCCAAGAAAACGTTTTTAAATCGTTTTTTTTTTTTCA
GCGCGTGAGGGCTAAAGACGCAACGCCGCGGATGGCACCTATAGTACTAA
TAGTTCGTTAATCGTAAATAGGCACCTTACCGGGTGCAGTACATATGTAT
AGCTACATGACACGCCGGGCTGGGTTGTGCCGTGGAATCTGTTCGAGTAG
GTTGCAGGTTATTGTTTTTCATGTTTTACCCTGGCTGGTATTAAATTGAA
CCCTAATGCAGTACAGCAGTGGGTACCCGGACTTAAGAGAGGTCACCTTA
TATAAGAGGATAGCACGGTTAAGAGAGGCCAAATCGGCTGGACCCGCCTT
ACACTAAACCTATATATTTCCCACTGTGGATAAGAGGAAAGGCTAGTTGA
GATCGATGTTTTCGGCCTGCTGTGCCACACCTCTCTTAAATAGGGGTACC
CACTGCTGTAGTGGCATCTCTATAGTGCCGGTATGCGCCAGCCAACAATA
CAGGCACTATAGCGGCAACCGGCACTACTCCGAACACTACCACACACACT
GGTGAATCCCTTGTGTGCCAGTGCCAAGAGATTCCATAGGCACTATAGCG
GGCAACCGGCACTATAGAGGGACCGCTACTGCTGTTAGTGGGGTGTTATC
GTTGTCTCTTCTGGCTGGCCGAATCGCACCACGACAAAGGCGGCAGGTCC
TCTTAAAGTGCGGTAGAGCCTCTACAGTGCGGTAGACCCTCTACAGTGCG
GTAGATCCTCTACAGTGCGGTAGACCCTCTATAGTGCGGTAGACCCTCTA
CAGTGCGGCAGAGCCTCTACAGTGCGGTAGAGCCTCTACAGTGCGGTAAA
GCCTCTATAATGCGGTAGAGGGGGTAATTTTAGGGCTGGAATGTTTCTCA
CATCGGACAGATGACCGAGTCCCGCTTCATGATCTAGATCCTTCAGGGAA
GATAGATGTATGATCTGTATGATCTGTATGATCTGTATGATCTCAGCTCA
TGTCTCTGGGTGGGAGCTGTAAAACCTACATGGCCTAGGACATTGTTCCC
TGGGTTGCATGTGTAATCTGTACTACTGCTGTACAGATCCTGCACAATAT
ATCATAACGGCAGGTTAAGATCTAGATGATCTATAGATGATCTATATATG
ATCTATAGATTATCTATCTGTAGATGATCTGTCTGACGTGTGAAATATTT
GTGACTGACGATGGGAGGCACCTCAACTAAAATGCCCAAACTCTATTGCA
ACTCCTTTAGTATCATAAAAGAGAAAGAAAAAAGTTTGTGATACCAAATC
TGTTCCAAAAATATAAGGACGATTTGTAGATTAATGTCCAGTCCAAACGG
TGCTTGTATCTCGGTACATAAGTGGATATTTTAATTGCCTATCGGATTCG
CTCATGGGGTAGGTTGGGTTGCGCGTGTTTAAGTTTTTTTTCCTTCTTAT
AATCGATGTCGGGGTGAGAGTTATGGAGGAGGTCTTTTCACGAGCATATA
TATCCTGAGGAAAGAGCACTAAACTCTCTCGGGACTTGACAGCGGGGGCA
ATTGACGATAAGAAGTGACAGGGGCATGGTACAGCAGTGGTATATACTGC
TGGGCGCTCACGCTGTTCGTACGTTATCATTGGTTTAACCGCTCCCCCTT
AAAAGGGACCCCTTAAAAAAAGGGGGTCCCTTAAAATGGGTCAATGGGTC
CCTTGAAGGGGGAACCTTAAAAAGGGGTCCATTAAAAAGGGGTCCTTTAA
AATGGGGCCCCTTAAAAAGGGGTCGTTTTTTAAAAGAGAAGAAAAAGGGA
TCCCTTAAAAGGGGTCCCTTAAAAAAGGGGTCCATTTTAAAAAGGGGGTC
CCTTAAAAGGGGTCAATGGGTCCCTTAAATGGGGCCCCTTACAAAGGGGT
CCATTAAACAGGGGTCCCTTAAAAGGGGTTTGAAGGTACCCCCTCTCCCT
ATATACGGCAGCATAGCATTATATTATACGAGACGATGAGACACTGAAGG
CGTGCTACGATAGGGGTACTGGCTGTACCGTTTTTTGGCTGAAACGTTTT
CTGAATGACGGAGGGGCGCCTTAACCCATTCAGAACTGAAAAAAAATGTT
CCACACTAATTCCAAGTAGTTTTTCCCCAAATTCGTGGGACCAGTTCTTA
CGGGGTTATAGCCCGAAATGGTCGGAATTCCATCCTTGTATTGCAAATAT
TTTTCGTCATGGGAGTGTTCATCGTTTACGTAGCACTTTTTTCAAACCCC
TCCCACACCAGTTTTTGACGTACTATTAAATAGTATAGAGAGCCTCAAGC
GAGGCGCATCGGAAAAAATAATTGGTGCACCTCTACCGCCGCTGCCCCCA
CTGATGTGTAACGGTTCGAGCTCGGGGAACGGGAACTTTCACCGCGCTTC
GGTCGGCTGGCCGGTCCCCTTTTAGGTGCTGTAAAGGCACTACGTACGGC
CGCACTCGAACTTTCGAAGTTTCTTTATACTATTGATATACCAGGGTCGC
AAGTGTCGGGGCCGGGGGTCTCTGCATGTCTGCACAGGCCCACGAATAAG
AAATACCCTTCTAAGGCTAACAATAAGAACGTCAGGCTCACTTTTTGGGG
GACGCTTAGATTTTTGGACTTAAGAAATCGTGGTGAAGCAGCGAGCTCTA
CACTATTCCTACCTTTTTTTATCATTCGATATTGTTTTTTTCAGTCATTT
TTTAATTATTTGCATTATTAAATATTGCTGAAACCTGATTTTTTTTTGTT
ATTAGTTTTATTTAAGCTTAAGAACAAAAGTAAAACTGGTACATATTTAA
AAAATTAAAAAAACAACAGCTGTGAGCTCGAGGATTTCGTCGAAGCTCAT
CTTTGCTAGCTGAGTGTATGTGATCGCACCAGGGATCTTCACGGGTCGGA
TTAGCAGGCTCCTTCGGTTGCCCTTGTTGCCCTTTTTTTATTTCAGGCAT
TCGCCTTTGCTAAGTCAAAAGGAGAACGTGGAGGGTGTGGACCACCCCCC
CCCCCCCAATCAGTTATGCCGTATTTGAGGAAAACTTGTGGCGTTTTTCA
CGGAACGATCCTTGAAATTTCCGCCCACAGCAGTGATAGTTACCAGTCTG
ATCGCACGTAAGTAAATACACAAGGAACTTTTGGGAGATATGCCTCTAAA
CGTATTTGTTGTGTGGTCTTTTTCGGGTGTGCGTCACCTGTTTGTTCCCT
CTCGCTTCTGTGTCTCGCCAGCTCCTTATGGATCTCGATGGAGTACTTGG
AAGGGGGGTCACTGCAAGACCTGATGAAGACGAGCAAGACTACCCTCGAC
GAGAGCACCACCCAGTGGGTCTTGCGGGAAATATTAAAGGTGGGGATTAG
AGGAGATGATCGAAGGTGGGGGGCAACGCGGGGGGGGGGGGGTTGGGGGG
TGAGGTTCGAGACATGTGCATTTATGTTTTTTTTTTTTCTGCAAACTTGT
AGCGAGCTATTCCCCTCGTACCAAGCGAACTCTCCCCCCCGCCCCCCTGC
GTCTCGCTCACGGGGCACCGTCTAACCGACGCCATATCTTCCCCTTGCGC
GCGCGTCTCGGTACGCGGTGGTTTTATCGCCTGCTGCCGTCGTTTGCCCT
TCACCTTCAGGCGCTGGTCTACCTGCACTTGGAGCGAAAAATCCACCGCG
ACGTTAAGGCCGGGAATATCCTCGTTGCGTCAGATGGCAGCGTTCGGTAA
GCCCCCTCCCTCTTTCCCTCCTCCCCCACCTCCCACACACCCCTCCTTCC
CCCCCCCTGGTGCAAGCAGCGTCTGCCTGGTAGGTGAAAAGCCGACGTGC
TCCGTGCCGGCGTTGTAGGGATGCGAGGGTCTATGGTCATACGACTTCGG
CCATGCATGACATGAATACCCCCCCCCCCCCCCCCGCCTCGCCTCCTTCC
CCTAAACTCCGTCGGCGTGGTGTTGACTACCCTACGACGGAGAACCAACC
CGGCGCAACAACAAACCGACGGCACAAATCCAACGGAAAACAATATCGGC
GAACTAAACTGACGGACGGCACACACCAATAAATAAATAAATCGACCGAA
TAAATCGACCGAAACAAAACGATCATATAACTCGCCCGAATGAATCGACC
GAATGAATCGACCGAATGAATCGACCGAATGAATCGACCGAATGAATCGA
CGGATCAAACCGACGGCTCAAACCCGACGGGATTCGTTTTTGGCCGAACA
AACCGACCGAATTAAAAAAACCCGACCGAACGAACAAACCGACAAACGAA
CAATCGACGGGGGAAAACGTATCGGTGGTGCGTAAACGACAACACGCCAA
CGCTAACAACGACCACGACGACAAACGGCAAAAAAAAAACGTTGACCCCC
CTCCCCCCCCGCCCCCCCGACAAAAGGCTTGCGGACTTCGGAGAGTCCGT
ACAGCTGACGCACTCCATCGCAAAGCGCCAAACGTTCGCGGGGTCACCGT
ACTGGATGGCGCCGGAGGTCATCATGGCACAAGACACGTGAGTGCTCTGT
CCGTCTTTACCCCCCTGCCCCGTGTCTCGAAAGGGATGCGTGGTCAATGG
TCAGATGACTAAGGCAAGCAACAAATGAGTACCGGCAGTTACCTGGTATT
TATTACCCATTGCTGCCTCTGGAAGTGAACACCAAAAACAAAAATCAGTT
GATTCGACGCTTGTCATCTATATGCAAGAAAGTTCGCCTCACAAGCGGTT
TTCAGTAGAAGTATGCAGCTTACCCTTCATGCGACTCGTCGCCCAGCACC
TCACGTTTCGCTTCGTGCTTTGGTGCAAGCAATGCCTGCCTGGTCGGTGA
AAACCCGACGTGCTCCGTCCCGCCGGCATTGTTGAGATACGAGGGTCTAT
GGTCATAAGACTACGGCCATGCGTGACATGCGGCTAATGAGTACACCCCC
CCCCCCAAGAGGCGGTCGTAGTCTGAGTACAGAATTTTAGCAGTGTATAC
AGCCTAGCGCAGCTCTGTCTTTTCCGGCGGATGAGAGGCGTTTATGCCGC
GGGGAAAAAAACATTTCTCGCCCCTACCAATCGCTACCCACCATGGTGCG
TGTCACCGCACCGCTTCAATCAGGTGTTTTTTTTTGCCTCTCGTCGTTTT
ATTGGGGCCTGAGTTCCTCCCCCACCCCCCCCCTCCCCACTCCCCCCTTC
CCCCCCGCCTCGTACATCTGCCCCTTTGCCTTTGTTTTTTTGTGACTTGG
CGGGACGTGTCGCGCGATGTGACGTGGCGTGATGTTGATGTGATGTGATG
TGGCGTGACCCGGCAGTTACAACTCGAAGGCGGACATCTGGAGCCTGGGC
ATAACGGCGATCGAGATGATCAAGGGACGGCCCCCTTTCTCCGAGATGCA
CCCCATGAAGGCTGTGAGTGTCCACCCGTGTCTCTTTTCTGGCTGGGGGG
GTGAGGGGGAGGTGTACTCATTAGCCGCATGTCATGCATGGCCGTAGTCG
TATGACCATAGACCCTCGCATTTCTACATTGCCGGGACGGAGCATGTCGG
GTTTTCACCGACCAGAGAGGCAGACATTGGAGGGGTGTCGCCCGTGGGAT
GTGTTTTCGGGGGCGCACGACGAAAGCGACAAGCGGTGGGGGTATGAGTG
GTGCTGAACTCAATGCGCGGCGAAGACAAGCACTCCCAGTAGAGCTGTAC
GTATCCGGGGCACCCTTGCAGGCCTAGGGAAAGGTATAGTTATAGAGAAA
GGCGCGGCCTGGCCTGCCTTGTGACCTCCTGTCAAAAAATGGCCACTGAA
CTTAACTAACATGAGGGATGCCATTTTGTTTGTACAGAGTAGGTAGCCCC
TTATAAGAGACGTCTTAATAACCCCATTAAGGATTGAACTCCCATTCAGG
GGACGAACTACTTGGGAATTGGACTGATATATACAGTAGTAGATAGCCCC
TTTTTAAAGGACCCTATATCGTGCAATCGGCATTGGAGGTCCCTTATATA
CCAACCAACGCCCCTTATCAGAGTTGGTACCGGCCCCTTACAGTCAGCAG
TGGCAGTGGGCAAAAATGGCGGGCAGAAATTTGAGGCCCCTTATATACCG
TTTTCCCTTATCGCGGGTGGGTCCCTTAAAAAGGGACTCTACCTACTGTA
TTGTCAAAGGACGTCGGGGGTTGAGGGGGATATCGAAGGGGAGAGGAGAA
GGGGGGAGGGGGTGTAGGGGGGAGTCGCCTGTTGGGGTTGCTCGGGTGGA
GGTGACATGGACAAAAGCAGACCGCTGCACGAACAAGTGGAGTTCCGTCC
TTTTCTTCCACCATTCCATACTTGTGGCAGATGATACAGATCATTCTCAC
TTGATGATCTAGATATTTCAGGGCAGAAAGATGTATGATCTGTATGATCT
GTATGATATGATTATCTGTAAGATCTAGCTCATGATGCCGGGTGGTAGCC
GTAAAACCTGCACGATCAAGCACATGTTTCCTGGGTTGGACCTGTACTAT
AACAGATCCTGCACAGCATCCCATAAAACGGCAGCGGTAGGATCTAGATG
ATCTATTAGATGATCTGTAGATGATCTATCTGTAGATGGTCTGTTGTACG
ACGCGTGAACCGTTCACTTGCGGTGGTAGAGTAGGCAAGGAGCTGGACGC
GCACGCACCGCCCGGGGCTCGCCTTCTCCGCACGTTTTTTTCGGGGTTTC
GAAGCGTGTGGCGTGCTTTCCGCTTGCATCGGTGACTCAAGGTTTCGGCG
ATAGGGGGGTCGGCGCATCCTTTCCTTTCCTTAGGAGGGTCCTTTCTCTC
TTGTCTTTCCGCGATGCTAACCGTCGCGATTTCCTGCACCCAATCTAAAC
GGAGCAGTACTAGTTTCCGCCGCTTCGACTACCCCCCTGGAATTCACCCT
CCACCCCCAACCCCACCAAGTCGTCAGCGGCGAAGGCCCGTCGGGCTGGC
GTGGCCACACCCTTGCCCGCTCGCTCGTGATGGACGTGCGGGCCTCCTGG
AGACCTTGGCGTGTGCTCACCGTCCGTCTACCGTGCTCTCCTTTCTACCG
TGCTCTCCTTTTTTGGTGTTGTCTCTTTTTGTTCGTGTTGCGTGCTTGTT
CGTACGCGTGCGTGTTTTTGTGGGTGCGTGTGTTTGTGCGTGCGTGCGTG
CGTGCGTGCGTGCGTGCGTGTGTGTGTGTGTGTTTTTTTGTTTTTGTTTT
TATGGTTGCGAGACAGGTCCTCTCGATTCCGACGAACCCACCGCCGACCC
TCGGCAAAGACGGCAGCTACAGCAAGCACTTCCACACCTTTTTAGAGAGC
TCTTTCCAGCGGGACCCGAACCTGCGGTGAGTTTACCGGTATATTACACC
TGTTGTCTCTCTCTCTTTTCGCAGGACGGGTGTCGGTGCTACTTCTGGTA
GGAGACTTGCGCGTTAGTGTGGTTTCATAGTGCGGGCGTGGAGGAGGCGG
GTGGCCGAGGGGGGGCAGGGGGGCGGGCAGTTTCAGAAAGGAGGGAATTG
TCGTGACGAGCGGTGTGGCTTGGTCTGCAAGAGTCGCGGCGGGGGCTGCG
GGTAGTTGCTTGTATAGTATGGGCCGGCGGGGTTGGGGTGGTAGAGAGGG
GGTGGGGGGTAGGGTGGCGGACGGTGTCGAAGCGGAGGCGGTTGTCGTGA
CAAAGTGACGTGGCTTGGTTTGCATGAGTCGCGATGGGGGTTACGAGCGG
CTCCTTAATAGGGCTAGACGGCCTCCGCCGCGCTCGCCCAGACTGGTCGA
GACGGTAGCGATGCCATTATTAGTAGCAAGTTACTCAGGGGCACTTATTG
TAGTATTATGCCCCTTTGCCATTTTGTTGTTGCACACACGCCAGTAGGGA
GTAGCCTGCCCTTCCTTTTTTTGCCCGTTCCTTCTCTCTCCCCGCTCGCT
CTATCGCTACGGTCTTCCGCTGAATTGCACCCGTTGTGTTTCGATCGGTC
TGTCTTGTCTTCTGGCCCTTTCGCGCGTTTGCGTTTGTTCGATGACCCGG
CCGGCCAAAAGACCTTCCGCGCAAGACCTCCTGAAGCACCCGTTCATGAA
GGCAGCGCGACGGACAGACGTGCTGGCTAAGCTGCTGGAGGGGCGGCGAG
CTGCGGAGGTAAGAGAAGTGGCGGGTCTGGTGGGCAGAAGAATACGTTTT
TATTTTTATGTTTCACCCGAACGTGTCGTGTCACGTCGAGCTGCTCGCGC
GGCTGGCCGCCCGTTAACAGTTTTTTTTGTGTGTGTGTGTGTTTGGTTGG
TGTTGAGGAAATGTGTTTTGTCTCCGTCCGCCCGTGCGTGCGGTTGATTG
TGTCGGCGGTCCGATCCGCTGGCATGGTACGGAGTCGGTAAGTCTGCTAC
TGCTGCTGCTTTTGCTGCTGACGATGATGACGACGACAACACAACCGGTA
TTGTCAACAGGGCCTCCTCACGGCGTCGTCCATTCCTCTATTAGTCTCTG
TCCGCTCTGCTCTGTGTCGCTCTCATGGGTGTGTCAGGAATATAGACATC
GACGGCGAGTTTGAACAGCCGCACCCCGCCCGGTCGCCCCCCCCCCCCCC
CCTCACGCTACCATGCTTTCCCGCTCGCTTGGTCTCACCTTTTGCGGGTT
CCGGACTTGGTTATTTGCGCGAGTGTGCGCATGCTTGTATTATGTGTTTG
GTGTTTTATTATCTATTTGTTGCTGTCGTCGGCACGTCATGGCGCTTTCC
TCTGGCTGCCCTTTCCTCCGTCTGCTTGTCCTCTGTCTGATTTGTCGATA
ACGTCGTTTTTTTTTCAAGATGATGAAGAAGCTGTTCGGAGAAGGGCTGC
TGGAATCGGCATCGGCGGTACCGCTCGCGAAGAGGAACACCCTTCCG
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Coding sequence (CDS) from alignment at S-latissima_F_contig1010:126330..154726+

>mRNA_S-latissima_F_contig1010.128.1 ID=mRNA_S-latissima_F_contig1010.128.1|Name=mRNA_S-latissima_F_contig1010.128.1|organism=Saccharina latissima SLPER63f female|type=CDS|length=1842bp|location=Sequence derived from alignment at S-latissima_F_contig1010:126330..154726+ (Saccharina latissima SLPER63f female)
ATGGTGTGCGAAGAGGAGTACGAGCTGGTGGAGCAGATAGGCCGTGGCTC
CTTCGGAAAGGTGTACCGGGCGCAGCATGACAGCGGGGAGATACACGCCA
TCAAGATGGTGTGCGAAGAGGAGTACGAGCTGGTGGAGCAGATAGGCCGT
GGCTCCTTCGGAAAGGTGTACCGGGCGCAGCATGACAGCGGGGAGATACA
CGCCATCAAGGTGGTCGAGCTGGAGGCGGCCGAAGATGAACTGGAGAGCA
TCCACCAGGAGATACAGATGCTCCAGGCCTTCAACTGCCCGCAGCTCACC
CGATACCACGGCAGCTTCATTGTCGGCAGGTGGTCGAGCTGGAGGCGGCC
GAAGATGAACTGGAGAGCATCCACCAGGAGATACAGATGCTCCAGGCCTT
CAACTGCCCGCAGCTCACCCGATACCACGGCAGCTTCATTGTCGGCAGCT
CCTTATGGATCTCGATGGAGTACTTGGAAGGGGGGTCACTGCAAGACCTG
ATGAAGACGAGCAAGACTACCCTCGACGAGAGCACCACCCAGTGGGTCTT
GCGGGAAATATTAAAGCTCCTTATGGATCTCGATGGAGTACTTGGAAGGG
GGGTCACTGCAAGACCTGATGAAGACGAGCAAGACTACCCTCGACGAGAG
CACCACCCAGTGGGTCTTGCGGGAAATATTAAAGGCGCTGGTCTACCTGC
ACTTGGAGCGAAAAATCCACCGCGACGTTAAGGCCGGGAATATCCTCGTT
GCGTCAGATGGCAGCGTTCGGCGCTGGTCTACCTGCACTTGGAGCGAAAA
ATCCACCGCGACGTTAAGGCCGGGAATATCCTCGTTGCGTCAGATGGCAG
CGTTCGGCTTGCGGACTTCGGAGAGTCCGTACAGCTGACGCACTCCATCG
CAAAGCGCCAAACGTTCGCGGGGTCACCGTACTGGATGGCGCCGGAGGTC
ATCATGGCACAAGACACGCTTGCGGACTTCGGAGAGTCCGTACAGCTGAC
GCACTCCATCGCAAAGCGCCAAACGTTCGCGGGGTCACCGTACTGGATGG
CGCCGGAGGTCATCATGGCACAAGACACTTACAACTCGAAGGCGGACATC
TGGAGCCTGGGCATAACGGCGATCGAGATGATCAAGGGACGGCCCCCTTT
CTCCGAGATGCACCCCATGAAGGCTTTACAACTCGAAGGCGGACATCTGG
AGCCTGGGCATAACGGCGATCGAGATGATCAAGGGACGGCCCCCTTTCTC
CGAGATGCACCCCATGAAGGCTGTCCTCTCGATTCCGACGAACCCACCGC
CGACCCTCGGCAAAGACGGCAGCTACAGCAAGCACTTCCACACCTTTTTA
GAGAGCTCTTTCCAGCGGGACCCGAACCTGCGGTCCTCTCGATTCCGACG
AACCCACCGCCGACCCTCGGCAAAGACGGCAGCTACAGCAAGCACTTCCA
CACCTTTTTAGAGAGCTCTTTCCAGCGGGACCCGAACCTGCGACCTTCCG
CGCAAGACCTCCTGAAGCACCCGTTCATGAAGGCAGCGCGACGGACAGAC
GTGCTGGCTAAGCTGCTGGAGGGGCGGCGAGCTGCGGAGACCTTCCGCGC
AAGACCTCCTGAAGCACCCGTTCATGAAGGCAGCGCGACGGACAGACGTG
CTGGCTAAGCTGCTGGAGGGGCGGCGAGCTGCGGAGATGATGAAGAAGCT
GTTCGGAGAAGGGCTGCTGGAATCGGCATCGGCGGTACCGCTCGCGAAGA
GGAACACCCTTCCGATGATGAAGAAGCTGTTCGGAGAAGGGCTGCTGGAA
TCGGCATCGGCGGTACCGCTCGCGAAGAGGAACACCCTTCCG
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