mRNA_S-latissima_F_contig1030.279.1 (mRNA) Saccharina latissima SLPER63f female

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

Overview


Name	mRNA_S-latissima_F_contig1030.279.1
Unique Name	mRNA_S-latissima_F_contig1030.279.1
Type	mRNA
Organism	Saccharina latissima SLPER63f female (Saccharina latissima SLPER63f female)

Homology

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BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A6H5K6A8_9PHAE (Lactamase_B domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K6A8_9PHAE)

HSP 1 Score: 402 bits (1033), Expect = 1.220e-136
Identity = 205/333 (61.56%), Postives = 237/333 (71.17%), Query Frame = 2

Query:  188 VGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAAS--PRT-----ATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEWTPTV 1165
            +GC C RC+ AR NP  KD +V CL++ DE EGKVFL+DATPDL  QLW IQH +RKG  S RPLELGGILLTHAHIGHYTGLLQLGKE AD R VPVFCTP MASFLR N+PW QLT+RGNI+I+EL    T                             V+LT S+S LPV VPHRAELSDTVAYV+S++  + D +  A S  P+      A    G +   K+++CPDTDGWS W RSI  WC EVDVALLDATF+G+ ELK RDMSEVSHP+A +TM +LAGCKAEVVL+HLNHTNPL   DSPERAQA AAG+KVG+FGMEW PT+
Sbjct:    2 IGCGCHRCEYARRNPDFKDGLVVCLALADETEGKVFLIDATPDLREQLWYIQHPKRKG-DSGRPLELGGILLTHAHIGHYTGLLQLGKEEADMRGVPVFCTPSMASFLRSNQPWRQLTDRGNIAIQELDMDATDNSKDA---------------------VPVQLTRSLSVLPVPVPHRAELSDTVAYVVSVASRAVDASDTAVSHAPKLDLGPPAEVSSGENDTMKLLYCPDTDGWSDWKRSISSWCNEVDVALLDATFHGKGELKGRDMSEVSHPIATETMAQLAGCKAEVVLIHLNHTNPLLTADSPERAQAVAAGYKVGSFGMEWAPTL 312

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BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A835Z5U1_9STRA (Pyrroloquinoline quinone biosynthesis protein PqqB n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z5U1_9STRA)

HSP 1 Score: 280 bits (715), Expect = 4.100e-88
Identity = 150/342 (43.86%), Postives = 195/342 (57.02%), Query Frame = 2

Query:  143 KVVLLGCAQDAGVPQVGCACQRCDSARS-NPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHT--ERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWS-GWTRSIRDWCEEVDVALLDATFYGRAELK-DRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEW 1153
            + ++LGCAQDAG+P +GC+C RC  AR+   A KD MV CL +VD+ + K FLVDATPD+G+QLW +Q       G  +V    LGGILLTHAH+GHY+GLLQLGKE   A  VPVFCT  MA+FL +N PW+ L E  +I I EL T G++                             RL   +   P+ VPHR E+SDTVA + S    S                       K+++CPDT+GW  GW + IR WC+EV+VA++D TFY   EL   R ++++ HPL  DT+  L+GC A+VV  HLNHTNP+    S +R     AG  V  FGM+W
Sbjct:   12 RAIVLGCAQDAGIPSIGCSCSRCSHARALGSAYKDGMVACLGLVDDGDRKAFLVDATPDIGSQLWELQQAIPANDGPGNV----LGGILLTHAHMGHYSGLLQLGKEALGAAQVPVFCTASMAAFLHENLPWSLLVEGNSIVITEL-TPGSAY----------------------------RLCTGLCVTPISVPHRDEISDTVAMLFSCGDQS-----------------------KLLYCPDTNGWGEGWGKGIRAWCDEVEVAVVDGTFYSADELPAGRSIADIPHPLIPDTVARLSGCSAQVVFTHLNHTNPVATAASEQRRSVTDAGMSVAEFGMQW 297

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BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: D7FQF9_ECTSI (Coenzyme PQQ synthesis protein B n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQF9_ECTSI)

HSP 1 Score: 271 bits (692), Expect = 2.180e-86
Identity = 136/240 (56.67%), Postives = 163/240 (67.92%), Query Frame = 2

Query:  467 RNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRT-------ATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEWTPTV 1165
            R VPVFCTP MASFLR N+PW QLT+RGNI+I+EL    T                             V+LT S+S LPV VPHRAELSDT+AYV+S++  + D +G A S  +       A    G +   K+++CPDTDGWS W R+I  WC EVDVALLDATF+G+ ELK RDMSEVSHP+A +TM +LAGCKAEVVL+HLNHTNPL   DSPERAQA AAG+KVG+FGMEW PT+
Sbjct:    2 RGVPVFCTPSMASFLRSNQPWRQLTDRGNITIQELDIDATDNSKDA---------------------VPVQLTRSLSVLPVPVPHRAELSDTIAYVVSVASRAVDASGTAVSHTSKLDLGPPAEVSSGENDTMKLLYCPDTDGWSDWKRNISSWCNEVDVALLDATFHGKGELKGRDMSEVSHPIATETMAQLAGCKAEVVLIHLNHTNPLLTADSPERAQAVAAGYKVGSFGMEWAPTL 220

[Close]

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A524ARI4_9CHLR (Pyrroloquinoline quinone biosynthesis protein PqqB n=1 Tax=Anaerolineales bacterium TaxID=2073117 RepID=A0A524ARI4_9CHLR)

HSP 1 Score: 239 bits (609), Expect = 3.840e-73
Identity = 135/340 (39.71%), Postives = 177/340 (52.06%), Query Frame = 2

Query:  134 MPAKVVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEW 1153
            M  +  LLG AQD GVP  GC C  C  AR +PA +   V CL +VD    + +L+DATPD   QL ++ +             L GI+LTHAH+GHYTGL+ LG+E    R++PV+ T ++ASFL D+ PW+QL   GNI +R L T GT                              +L+P +   PVLVPHR ELSDT+A V+                           A+++ +CPD D W  W  ++RD+   +DVALLDATF+   EL  RD+SE+ HP A DT + LA    +V L+HLNHTNPL +   PER    A    VG FG  W
Sbjct:    1 MSVEANLLGIAQDGGVPHAGCDCANCSRARVDPAFRQ-FVACLGLVDRANRQSWLIDATPDFREQLHALHNL-------APDCPLAGIVLTHAHMGHYTGLIHLGREAMCTRDLPVYATLRLASFLHDSAPWSQLVALGNIELR-LLTPGTD----------------------------TQLSPDLHLTPVLVPHRDELSDTLALVVH------------------------GPARRLFYCPDIDAWDKWEHNLRDFVAGMDVALLDATFFSHDELPGRDLSEIPHPSAIDTAERLAKVDCDVRLIHLNHTNPL-LAPGPERDWLAAQEISVGAFGARW 278

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BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A2E9PTP6_9CHLR (Pyrroloquinoline quinone biosynthesis protein PqqB n=1 Tax=Anaerolineaceae bacterium TaxID=2024896 RepID=A0A2E9PTP6_9CHLR)

HSP 1 Score: 234 bits (597), Expect = 2.660e-71
Identity = 134/336 (39.88%), Postives = 169/336 (50.30%), Query Frame = 2

Query:  146 VVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEW 1153
             +LLG AQDAGVPQ GC C  C  AR +PA +     CL +VD   G+ +LVDATPD   Q    QH   + A       L GILLTHAHIGHY GLL +G E  +A  +PV+ + +MA FLR N PW+QL E  NI +R L TSG                                L+P++S +PV VPHR E SDT A+V                           + +++ +CPD D W  W   ++D+   +DV  +DATFY   EL  RDM  + HPL  DT + L G   +V LVHLNHT+PLF    PER      G +VG  G  W
Sbjct:    8 AILLGTAQDAGVPQAGCDCSNCSRARRDPAQRR-FTACLGLVDREAGQSWLVDATPDFREQ----QHILHQFAADCA---LAGILLTHAHIGHYPGLLHIGHEAMNAHRLPVYASERMAEFLRGNAPWSQLVEYENIELRSL-TSGVESV----------------------------LSPNLSVVPVSVPHRQEFSDTFAFVAC------------------------GAQRRLFYCPDIDDWELWEHDLQDFAIGMDVVFVDATFYNANELPQRDMDRIGHPLVMDTAERLMGLDCQVRLVHLNHTSPLFT-PGPERELLREYGIEVGRRGEHW 281

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BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A7V3GUU5_9CHLR (Pyrroloquinoline quinone biosynthesis protein PqqB n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A7V3GUU5_9CHLR)

HSP 1 Score: 228 bits (580), Expect = 8.030e-69
Identity = 133/342 (38.89%), Postives = 184/342 (53.80%), Query Frame = 2

Query:  134 MPAKVVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEV--DVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEW 1153
            M    +LLG AQD G+PQ GC C  C +AR+NPA +  +V+ L +VDE  G+ +L+DATPD  AQ  ++        T+  PL   G+LLTHAH+GHY GLL LG E  +AR +P++ TP+MA+FLR + PW+ L   G++++ E+                                  V L+P +   PV VPHR E SDTVA+++              SP           ++ + +CPD D W  +   +R W + V  D+ALLDATF+   EL  RD++++ HPLA+DT   LA    EV  +HLNHTNPL+    PERA  EA G +VG  G  W
Sbjct:    1 MSVSAILLGVAQDGGLPQPGCHCPNCAAARANPALRQRVVS-LGLVDEAAGRAWLIDATPDFPAQYDAL--------TARAPL--AGVLLTHAHMGHYPGLLWLGPEAMNARGLPLYATPRMAAFLRAHAPWSGLAAGGHVTLVEIAPG-----------------------------QEVALSPRLRVTPVAVPHRDEYSDTVAWLVR-------------SP-----------SRTLFYCPDIDHWRAFQPDLRAWLQRVGVDIALLDATFFSPDELPGRDLTQIPHPLARDTASLLADGDIEVAFIHLNHTNPLWR-PGPERAWIEAQGLRVGAQGDVW 277

[Close]

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A1Q3T670_9SPHI (Pyrroloquinoline quinone biosynthesis protein PqqB n=2 Tax=Bacteroidetes TaxID=976 RepID=A0A1Q3T670_9SPHI)

HSP 1 Score: 226 bits (575), Expect = 1.820e-67
Identity = 127/338 (37.57%), Postives = 175/338 (51.78%), Query Frame = 2

Query:  146 VVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGC----KAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGM 1147
            + +LG  QDAG PQ GC  + C +A    A++  +VTCL++VD    + +L +ATPD+  Q  S+Q      A  +      GI  THAHIGHY GLLQLG+E   AR+VPV+  P+M SFLR N PW+QL E  NI +  L+                               +S+ L+PS+   P++VPHR E S+TV ++I   G                        KK++F PD D W  W R+I +   +VD+A LD TFY   EL  RDM EV HP  +++M+  AG     ++++V +H NHTNPL    S E+ +  A GFKV   GM
Sbjct:   42 IAVLGIMQDAGYPQAGCD-KECCNAYWKGAEEKKLVTCLALVDRKANQYWLFEATPDITTQFHSVQQYLSSQAGHIP----AGIFTTHAHIGHYAGLLQLGREAMGARSVPVWTMPRMDSFLRYNAPWSQLVELKNIQLNALKED-----------------------------SSITLSPSLKVKPLVVPHRDEFSETVGFIIESVG------------------------KKILFIPDIDKWEKWDRNINEEVSKVDIAFLDGTFYKNGELPGRDMKEVPHPFVEESMQLFAGLPDTVRSKIVFIHFNHTNPLRKKGSSEKEEVSAKGFKVAEEGM 321

[Close]

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A2E5HWR5_9CHLR (Pyrroloquinoline quinone biosynthesis protein PqqB n=2 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A2E5HWR5_9CHLR)

HSP 1 Score: 223 bits (568), Expect = 7.970e-67
Identity = 132/343 (38.48%), Postives = 170/343 (49.56%), Query Frame = 2

Query:  143 KVVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCM----VTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMF-CPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEWT 1156
            K++LLG AQD GVP VGC C  C  AR+     DC     VT + +VD   GK +LVD TPD G Q+  +              +L G+L+THAHIGHY GL QLG E  +A  +PV+ +  M+ FL  N PW QL E+ NI +  +++ GT+                             +L+P++S  PVLVPHR + +DT A++I                         H  K  MF CPD D W  W   +  +  + +VALLD TFY   EL DRDMS VSHPL  DT+K L     +V  VHLNHTNPL   D   R   +  G KVG  G  W+
Sbjct:   11 KIILLGTAQDGGVPHVGCLCNNCQIART-----DCTLQQYVTSIGIVDFTAGKSWLVDCTPDFGHQMDVLFQF-------APDCDLSGLLITHAHIGHYLGLAQLGAEVMNANLMPVYVSESMSEFLSCNAPWRQLVEQRNIDVVIIESDGTT-----------------------------KLSPAISIKPVLVPHRKDFTDTFAFII-------------------------HGIKHSMFYCPDIDNWDDWEYDLSVFINKFNVALLDGTFYEDGELPDRDMSAVSHPLVSDTLKRLGDTNCDVRFVHLNHTNPLLRKDYAYRMYKKY-GVKVGNIGDSWS 286

[Close]

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A2V7XRA8_9BACT (Pyrroloquinoline quinone biosynthesis protein PqqB n=1 Tax=Acidobacteria bacterium TaxID=1978231 RepID=A0A2V7XRA8_9BACT)

HSP 1 Score: 223 bits (569), Expect = 1.230e-66
Identity = 132/337 (39.17%), Postives = 172/337 (51.04%), Query Frame = 2

Query:  137 PAKVVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGM 1147
            P + V+LG  QD GVP +GC    C  AR +P+ +   V CL ++D+  G+ FL+DATPD+ +QL S+ +T R  A   RP++  GILLTHAHIGHYTGL+  G+E   A  VPV+ T  MA+FLR N PW+QL   G I +RE++    +                              LTPS++F PV VPHR ELSDTV YV+               P  A           +++ PD D W  W R +      V  ALLD TF+   EL  R + EV HPL  +T   L    + VV +HLNHTNPL + D   R      GF V T G+
Sbjct:   34 PVRAVVLGVTQDGGVPHIGCQQALCVRARRDPSRRQ-RVACLGLIDDRAGQRFLIDATPDMASQLESL-NTGRALADPRRPVD--GILLTHAHIGHYTGLMYFGREALGAHAVPVYTTTHMAAFLRANGPWSQLVALGQIELREIEPGRETV-----------------------------LTPSLAFTPVRVPHRDELSDTVGYVVR-------------GPTGA-----------LLYVPDIDKWEKWDRRVEGEVARVGTALLDGTFFSADELPGRSIDEVPHPLVSETAARLGELSSRVVFIHLNHTNPL-LWDDRLRRDLRGRGFTVATDGL 312

[Close]

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Match: A0A098SAZ3_9BACT (Pyrroloquinoline quinone biosynthesis protein PqqB n=2 Tax=Phaeodactylibacter xiamenensis TaxID=1524460 RepID=A0A098SAZ3_9BACT)

HSP 1 Score: 223 bits (567), Expect = 2.050e-66
Identity = 131/340 (38.53%), Postives = 173/340 (50.88%), Query Frame = 2

Query:  146 VVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENEGKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTGLLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSGTSXXXXXXXXXXXXXXXXXXXXXXXGGFASVRLTPSVSFLPVLVPHRAELSDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSGWTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELA----GCKAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEW 1153
              +LG AQDAG PQ  C    C  A  NPA +  MV+CL++ D   GK +L+DATPD   QL  I+ +          LELGGILLTHAHIGHYTGL+ LG+E   A+ VPV+  P+M SFLR+N PW+QL + GNI +R LQ                                +V L+P+++  P  VPHR E S+TV +  S+ G +                       ++MF PD D W  W   I    E  D+A LDATFY  AEL  RDMSE+ HP  Q+++K  A      +  +  +H NH+NPL    S  + + E AGF +   GM +
Sbjct:   35 ATVLGIAQDAGYPQANCQKACCRPAWDNPAKRR-MVSCLAISDRQAGKAWLLDATPDFPEQLQFIRDS--------LGLELGGILLTHAHIGHYTGLMYLGREVMGAQGVPVYVMPRMDSFLRENGPWSQLADLGNIELRTLQAG-----------------------------QAVALSPNLTITPFPVPHRDEFSETVGF--SVQGPNH----------------------QLMFLPDIDKWGRWEVPIDSMIEVHDLAFLDATFYSGAELPGRDMSEIPHPFVQESLKRFAPLPDSIRRRIYFIHFNHSNPLLQAGSAAQREVEQAGFGISREGMRF 312

The following BLAST results are available for this feature:

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot

BLAST of mRNA_S-latissima_F_contig1030.279.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Saccharina latissima female vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5K6A8_9PHAE	1.220e-136	61.56	Lactamase_B domain-containing protein n=1 Tax=Ecto...	[more]
A0A835Z5U1_9STRA	4.100e-88	43.86	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
D7FQF9_ECTSI	2.180e-86	56.67	Coenzyme PQQ synthesis protein B n=1 Tax=Ectocarpu...	[more]
A0A524ARI4_9CHLR	3.840e-73	39.71	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A2E9PTP6_9CHLR	2.660e-71	39.88	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A7V3GUU5_9CHLR	8.030e-69	38.89	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A1Q3T670_9SPHI	1.820e-67	37.57	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A2E5HWR5_9CHLR	7.970e-67	38.48	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A2V7XRA8_9BACT	1.230e-66	39.17	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]
A0A098SAZ3_9BACT	2.050e-66	38.53	Pyrroloquinoline quinone biosynthesis protein PqqB...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
S-latissima_F_contig1030	contig	S-latissima_F_contig1030:10015..29514 -

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 of Saccharina latissima female vs UniRef90	2022-09-19
OGS1.0 of Saccharina latissima SLPER63f female	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Bacteria
Seed ortholog score	204.1
Seed ortholog evalue	1e-49
Seed eggNOG ortholog	1122176.KB903531_gene2817
KEGG rclass	RC00296
KEGG ko	ko:K06136,ko:K06167
KEGG Reaction	R10205
KEGG Pathway	ko00440,map00440
Hectar predicted targeting category	other localisation
EggNOG free text desc.	Beta-lactamase superfamily domain
EggNOG OGs	1IWBX@117747,4NGB4@976,COG1235@1,COG1235@2
EC	3.1.4.55
COG Functional cat.	S
Best tax level	Sphingobacteriia
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko00001,ko01000
Exons	9
Model size	1206
Cds size	1035
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_S-latissima_F_contig1030.279.1	prot_S-latissima_F_contig1030.279.1	Saccharina latissima SLPER63f female	polypeptide	S-latissima_F_contig1030 10053..14848 -

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


Feature Name	Unique Name	Species	Type	Position
1622815395.718991-UTR-S-latissima_F_contig1030:10014..10052	1622815395.718991-UTR-S-latissima_F_contig1030:10014..10052	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 10015..10052 -
1693924859.0838394-UTR-S-latissima_F_contig1030:10014..10052	1693924859.0838394-UTR-S-latissima_F_contig1030:10014..10052	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 10015..10052 -
1622815395.9249227-UTR-S-latissima_F_contig1030:14848..14851	1622815395.9249227-UTR-S-latissima_F_contig1030:14848..14851	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 14849..14851 -
1693924859.2007895-UTR-S-latissima_F_contig1030:14848..14851	1693924859.2007895-UTR-S-latissima_F_contig1030:14848..14851	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 14849..14851 -
1622815395.9374573-UTR-S-latissima_F_contig1030:20131..20178	1622815395.9374573-UTR-S-latissima_F_contig1030:20131..20178	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 20132..20178 -
1693924859.2090487-UTR-S-latissima_F_contig1030:20131..20178	1693924859.2090487-UTR-S-latissima_F_contig1030:20131..20178	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 20132..20178 -
1622815395.9487195-UTR-S-latissima_F_contig1030:29431..29514	1622815395.9487195-UTR-S-latissima_F_contig1030:29431..29514	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 29432..29514 -
1693924859.2266417-UTR-S-latissima_F_contig1030:29431..29514	1693924859.2266417-UTR-S-latissima_F_contig1030:29431..29514	Saccharina latissima SLPER63f female	UTR	S-latissima_F_contig1030 29432..29514 -

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


Feature Name	Unique Name	Species	Type	Position
1622815395.7343657-CDS-S-latissima_F_contig1030:10052..10091	1622815395.7343657-CDS-S-latissima_F_contig1030:10052..10091	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 10053..10091 -
1693924859.105056-CDS-S-latissima_F_contig1030:10052..10091	1693924859.105056-CDS-S-latissima_F_contig1030:10052..10091	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 10053..10091 -
1622815395.749054-CDS-S-latissima_F_contig1030:10594..10738	1622815395.749054-CDS-S-latissima_F_contig1030:10594..10738	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 10595..10738 -
1693924859.1220102-CDS-S-latissima_F_contig1030:10594..10738	1693924859.1220102-CDS-S-latissima_F_contig1030:10594..10738	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 10595..10738 -
1622815395.7601144-CDS-S-latissima_F_contig1030:11311..11818	1622815395.7601144-CDS-S-latissima_F_contig1030:11311..11818	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 11312..11818 -
1693924859.1357324-CDS-S-latissima_F_contig1030:11311..11818	1693924859.1357324-CDS-S-latissima_F_contig1030:11311..11818	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 11312..11818 -
1622815395.7701755-CDS-S-latissima_F_contig1030:12340..12444	1622815395.7701755-CDS-S-latissima_F_contig1030:12340..12444	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 12341..12444 -
1693924859.144022-CDS-S-latissima_F_contig1030:12340..12444	1693924859.144022-CDS-S-latissima_F_contig1030:12340..12444	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 12341..12444 -
1622815395.7836494-CDS-S-latissima_F_contig1030:13451..13536	1622815395.7836494-CDS-S-latissima_F_contig1030:13451..13536	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 13452..13536 -
1693924859.1565773-CDS-S-latissima_F_contig1030:13451..13536	1693924859.1565773-CDS-S-latissima_F_contig1030:13451..13536	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 13452..13536 -
1622815395.7977479-CDS-S-latissima_F_contig1030:14085..14187	1622815395.7977479-CDS-S-latissima_F_contig1030:14085..14187	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 14086..14187 -
1693924859.1683128-CDS-S-latissima_F_contig1030:14085..14187	1693924859.1683128-CDS-S-latissima_F_contig1030:14085..14187	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 14086..14187 -
1622815395.8147125-CDS-S-latissima_F_contig1030:14794..14848	1622815395.8147125-CDS-S-latissima_F_contig1030:14794..14848	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 14795..14848 -
1693924859.1924736-CDS-S-latissima_F_contig1030:14794..14848	1693924859.1924736-CDS-S-latissima_F_contig1030:14794..14848	Saccharina latissima SLPER63f female	CDS	S-latissima_F_contig1030 14795..14848 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at S-latissima_F_contig1030:10015..29514-
coding sequence from alignment at S-latissima_F_contig1030:10015..29514-

protein sequence of mRNA_S-latissima_F_contig1030.279.1

>prot_S-latissima_F_contig1030.279.1 ID=prot_S-latissima_F_contig1030.279.1|Name=mRNA_S-latissima_F_contig1030.279.1|organism=Saccharina latissima SLPER63f female|type=polypeptide|length=345bp
MPAKVVLLGCAQDAGVPQVGCACQRCDSARSNPADKDCMVTCLSVVDENE
GKVFLVDATPDLGAQLWSIQHTERKGATSVRPLELGGILLTHAHIGHYTG
LLQLGKEGADARNVPVFCTPKMASFLRDNEPWAQLTERGNISIRELQTSG
TSSGSSGDSGGDSGGDSSGGGSSGGGGFASVRLTPSVSFLPVLVPHRAEL
SDTVAYVISMSGNSEDDAGGAASPRTATPRIGGHSAKKVMFCPDTDGWSG
WTRSIRDWCEEVDVALLDATFYGRAELKDRDMSEVSHPLAQDTMKELAGC
KAEVVLVHLNHTNPLFVVDSPERAQAEAAGFKVGTFGMEWTPTV*

mRNA from alignment at S-latissima_F_contig1030:10015..29514-

Legend: UTRpolypeptideCDS

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

>mRNA_S-latissima_F_contig1030.279.1 ID=mRNA_S-latissima_F_contig1030.279.1|Name=mRNA_S-latissima_F_contig1030.279.1|organism=Saccharina latissima SLPER63f female|type=mRNA|length=19500bp|location=Sequence derived from alignment at S-latissima_F_contig1030:10015..29514- (Saccharina latissima SLPER63f female)
GATTACTCGTCTGATGTCACGGCGGGATATTGAGCCTAACCTTCAGCAGT
GAACAGTCAATGGTATCGGGCGCTGGCATTGAGGTGAGCTCTCAGGTCGA
AACGATGTTGCAACGATCCGGTGTGTGACGAGGCCCACTACTTCGCCGCC
ATTCGATAAGATAATATGTGATGTTTTCATTTGATGAAAGATGAAAGTAT
AAAAATAGTCCAGTCTGGCCAGCTGAGCACTCGTCGTACCGATCGTGACT
GATGTGGGGAGGATCATGATGATGATCATGCGTCTTCTCGCTTATCCTCT
TGCCATTACCCGGGTACTCGCGAGTAATACCCGGCTTGCTTTTACCCTTC
ACGGGTACGTACGAGTAACACTTCATACTCGCCGAGTATTTGGGCCACGG
GAACCCGGGTACTCGGGTACACACGTGGACATTTAGCTCAAGCCACAGGG
TGTCGGTGCCGGACCCTGTGTGAGGTCGTATTTGGTGGGACCCTGTACAG
GGTATCACCAGTAGTATGTAGGTGCCTTGATTCACAGACCCTGTACAGGG
TTCGACCCATGGACCCTGTACAGGGTTTGTCAAACAAACGGACCCTGTAT
AGGGTTGGACCCTTGGACCCTGTACAGGGTTTGACCCATGGACCCTGTAC
AGGGCTGATTCAAGGACCCTGTACAGGGTTTGACCACAGACCTGTACAGG
GTTGGTCCTTTTGCACCTGTGCAGGGCTGGCACATGCACCTGTACACATG
CAGATATACATACGAAATAGTAAACCGTTTGTTATTATTGACCGTGCGAA
GCCCCCTCCCCACCCCCCAACTACATCCTTACAACCTAATGATATCAGAC
TGATGCAGAGAACGAAAACTGAGTCGTCACGAAGTTGGAGAAAAGCAAGC
AAGAAGTGCGTCAACCCCTTTGACGAGGCACGAAAACACAGCTAATAAAA
GCAAAAATAACACAACACTGACGTGTGTTTCAACATTTGACCGTTTTTTC
TACCGAACAGTCTCGATAACCCCAGCATGGGACTACGGCCATGCATATGG
AGTGAGTAATCCCACGAAGTTGATACGAGGAGAGACTCTCGAGCTCCAGC
TGAGCAAACTGCAGTTCTTCGTGGAAGCGCTTTTGAAACAGATTGGACTC
ACGCCTTACGAATGGTACGATAATCGACGCAGAGGACTAACCGCCATATT
TCAACAGAGACAAATTACAGATGCTGTATCGCAAATAACACGTGCACCAG
TATACGCGGCAACAAGTCAACAGTGCATTCGCTCCCTCTCGCAAACACGC
ATAATCCTTCTGTGCCGTTTGACATCCAGCCCTGCTTGTACAGGAAACCG
TCGCCGACGTCCTTGGGCCCGAATACTGTTGCGAGATACGTAGAATAGGG
GAAGGAAGGAGAGCACGAAATCCGAACGTCGATATGCAAGTATGAGCAGC
GCAACAATAAGCCAACTAAGTCAAATTGGTAGTCGCTGCGTGCTACTTTT
ATGCTGCACATATCATACGTAAGTACTGTAGTAATACTTCGTTATTGCCG
GCGCCGGGCATGCGGCAGCCCCGCCGGGCCTCTGCTTTGTATACCCGTAC
ACGTGTAAAGGGAGGGACAAAAGTCAGACCACCAAAACGTACGTACAGCA
GTAGTACTTGCAATACCTGGTACACACGTACACGTATGTGGTGGTAGGTA
CGGAAGTCTGTGTGTTGTAGACTCGTACACACCTACTTGGCGGAGGCTGC
CGCGCCTATACTTTATGCCAAATCTATTGTTCGGCAGGGTGATCTCTTCT
GTAATGCCAGCTGTTGTGCTCAACTTTACAACCTACCGCTATTACACGTC
AACGTTCAAACATCAAGGTCGTTGGGGATTTTGAATTTTGTACTGGCACA
GCAGTGCGACTTACGTAAAAATACCAGTACGTCGTATGTTTGACTCTGGT
ATCGAGCCGTTATGTACTTTCGGTGCATCCTATTTGTGGTCGCGTCAAAC
GTCTTCGTCGCGGAAAATGACTGCAGAGTGGCGAGTTGAAAGCTGATACC
CGAAACAACAGGACGTACCTGGTAAAACGATAGGGACTCGAGCAAGGGAA
TGCCCCTGGTCTCCGTTGGGTGAGGGTACGGCATCATCAAGGTGTGCGCG
ACCACAAACACAATCGCTTGCTACTTCTGCTGCTGTAGAATAGACGGCGC
GTAAAAGCTACAAGGCGGTAAGCTCCGAATACCATGGGTGCTCTACCACG
TTGGCAACTGGCAAACCACTCACCATGGTAGAAGTGCGATAGACCTGGTG
CTGTCCGCTCATCGTCGCCGTGCAAGTCCGATCACTAGCTTTGCCGCCGC
GGGTCGATACAACACGTCTGCCCACAAGCATCATCCCTTCGACAAATAGT
CGTGTGTGTCCAAACCCACACAGCCAGCCTTCTCCAGTGCGCATGGTTTG
GTAGCCAAGACCCCCCATACCAGCTCTCCCACAGATTCGCGCTTGACTAC
TCCTCGGTGATCGGAGCTCCTACCAACGAGAGCGCCGTTGGTTGGTGCCT
ACGGCATTCGTTCGAAGCAGCGCTAAATCGAAATGCGAACCAACGGCACA
ACGCTCAAAAAAAACAGGGGTTTCGACAATTTTTATCAGCCTCAGTCGGG
GCGAAAAGCCAAATTTCAAATTTTCAGAATATTTTCAGAAAATATTTTTT
CAGAATTTTCTCGTTGGAGCTTTTTTCGGGCTACACCCTACACCCTGGTA
CAGGGTCTAAGGCTAATAACCCTGTACAGGGTATGAACTCCTTGTGGCAA
AAGACACTGAGAGCTAGTAGTCCAAAAAGGTTCCTGTGCACAAGACCTGG
CAAGGGCCTTGAGCTGCATAGCTATTAGGGTCTGTATGATGACCTTACAG
GGTATGCACCCTGTCAAGGTACGACATTTAGACCCTCACAGGTCGGTCTA
TTGCAAGGTCCATAATATATAGATGACCCTGCCAAGGCCTTAACGTGCAC
AGGGTATTTACTGTGACGCTGTTCAGGGTGTTGGCCATGTCAAGGTCTGC
ATGATTGACCCTGTACAGGGTTGTTGACCCTGTCAAGGTAAGCCCTCCAG
ACCCTAACAGGGTGGGGTGTCTGTGTACCTACTGTAGTGCAAGGTTTCGA
TGCTAAATTCCCTGACAAGGTCCCAACCTCGTCAGGGTCTTAGTGTTGAC
CCTGTACAGGGTGTGGACCCTGTCAAGGTCTGTCTGATGACCTGTACAGG
GTCTTGCACCCTGCCAAGGTGAGCCCTCCAGACCAGGACAGGGTGAGGTG
TCTGTGTACCTATTGCAAGGTTCTGTTATCGACCCTGTACAGGGGTAGAC
CTGTCAAGGTCTGAATGATGACCTGTACAGGGTATTGCACCCTGCCAAGG
TGAGCCCTCCAGACCCTAACAGGGTGGGATGTCTGTGCACCTATTGCAAG
GTTCGTTATCGACCCTGCACAGGGTGTAGACCCTGTCAAGGTCTGCATGA
TTGACCCTGTACAGGGTACGAACCTGTCAAGGTAAGCCCTTCAGACCCTT
ACAGGGTGGGGTGTCATCCTACCATGTAGTGCAGGGTTCGCTTGCACAAG
ACCCTGTCAAGGTCCAACCTTGGAAAGGGTTGACTTGGTGACCCTGTACA
GGGTGTAGGCCCTGTAAAGGTCTGCGTGATTGACCCTGTACGGGGTATCG
ACCCTGTCAAGGTAAGCCGTCCAAACCCTGTAAGGGTGTAGACCCTGTAA
AGGTCTGCGTGATTGACCCTGTACAGGGTATCGACCCTGTCAAGTTAAGG
CCTCCAGACCCTGTACAGGGTGTAGATCCTGTGCAAGGTCTCGCCCCAAC
ACCTTGCCAAGGTCTTCACCCTGTGCAGGGTCTGTTGAGCGTACCCTGCA
CAGGGTGTTGACCTTGGCAGGGTGTCACAGCATACCCTGTGCAGGGTTCG
ACACCCTGTACAGGGTCGTCACAGGGTCATCACAGGGTGCCGACCCTGAC
AGGGTGTCCACAGCGTATAGCCGAATTTCCACGTGTGTACCGGTACGCGG
GTACTCATTGGTTTACCTTGGAAATCCCGGTTATGGTATGGTAACTTGTC
ATCCCCCAAACAGCAAAGCACGTCGTCCCCTGGGTAGCATTCGGTATTTA
TTCTCCAGGATACCCTTTTCAAAATGAAAAATGCTCACATGGCTCACATC
TCACCTATGGTGTTACCCGGCTTGCTAGTATTACCCGTCACGGGTACGGG
TAACACGTCACACTCGCCGAGTATTTGGGCCCCGAGCACGCGGGTACCGA
CTGTTCGACGGGTACCCGGGTGTTAGACGGGTACCCGGCTGCTAAACGGG
TAACCGGGTACCCTGATCGTAAATACTCGAGAGTACCCGGGGGGTGGTTT
TCCAAAGTTGGCGGGTACTGTAAGACGTGCACACGTCGGATAACACCTCT
ACAGTAGTTCTCACATGACGAAGCTTATTTATTAGATTGGGCGGGTGATT
GGTTAAAATGTTACCAGTACATATTTTATAGCCCAACGGACTATTAATAA
TGGGTTGCACGTATAATAGTGGTCGTGAGTTCGAACCTCACGACCACCAT
GAAAACGTGAGTTCGAATCTCAAGACCACCATGAAAACACTTTTTAAAGA
AGAGCGATTTTTCTCATGCCGGAGAACTCGAGCGTCTGGAGCGGGCGCAA
CAGCGGGCGAGAGAGACGACGCTCCGGCGGAGACAGCGCCTTCGACACCG
CCTCTGTCCCTTGCAACCCCTCTGGGCTTGCCCAGAGCTCTGCTGCCTGA
CATGCCACCGAACGTGCCGCTTTTGGTACGTACGGCGCCATGCGAAGACC
AAAGTCCCCGCTGTTCTGAAGGGGGGGAAAGTATTATATGGGTTAGAGTG
GGTGGGTGATTCGTCTCCCTGGTTAAACTTTTACCAGTAGCCCAACGGAC
TAATGCCTCAACATTTTCCTGAAACCTGTCTGTGGTCACAAAACAAGGCT
GTAACAAAAAATGCATCTCGATGGGAGGAAACACAAACAAGCCGTACCAT
GTACGAAATAGTGCGCACGGTAGTACCAGTACGGCGTAAGGGGACGGTAT
TGAACAACGAGCTGTGGTATATTATCCCTTTAGCACTTGCAACTTACAAC
CAAGAACTATCCATGGTATTATATACATCATATATAAATGTACGTACAAG
ATTTCCCTTCGGACGGGTGTACGTAGCGAATGGTGGTGGTGTTTTGAGGA
TGTGTGACGTGATGTTGATGCTGTATCTATCATTATTATCATGCCTGCAG
TTGAAAATATTATGTCAAAATCCTACTTGACAAAAAACAATATTATTAAC
CACAGGTATTATTAGTTGGGTGCGATAGGATTAGGGTAAGGACACAGAGT
ATCCCTAGCCAAGCCAGCCTACCGTATAACACGGAAGAAAGCACACCCCC
CTTAGATAACACACACCCCCACATAAGCACACCGGGTGATATATTTTTTG
CTTCGTTTTTCTACCGTCACTTTATCACCGGGGGCACGTTAGATAACACA
CCCTCTATGTGTGTACGCCTGAAAACAGTGTCAAACTCCACAATGATCAC
ACCACCTGGTGGATGGATATCATTCACAATTCACAATCAACGCGCACCGG
TATGGACACCAACATGGAGGCAACTGCTGCGCCCCCTCACAGTGGGCCGA
ACGAGTCTGCGGCTTCGACCCCACCTGTAGCTGCTGCTGCCGCGCCTCGG
GCGACGATCATGTCGTTTTTCTCTGGGACCAGCGCGCTCACCGGTACTGG
CACTAACGTTATCACGTCTCCTACGTCCGCCGTGTGCCAAGCCCCGGCTA
CTGGTACCGGTACCGGTACCGGCGAAGCACCTGCATCACTTTAGTTGCGG
TGCGACCCTCGGGGTTTCATCAATGAGTACCTGCATGGTACCGGTAACCG
TTTTGGGGTATCGTAGCAAGGCGGGGAGTTTTGCTGTTATCCCCGGGTTT
CAAGCGTTTGCCTTACCATCACCGGCAATACGTGAGAATAGAAAAACAAA
CTGGTTTTAGACCACGAAGCTTGTCATGCGTTAGCACACCCCTTGCTAAC
ATACCCCCTGCATTCTGGCCGGGGTCTGTTCACACTCACTCCATAGCAAT
CATTGATATACCGTTATCACACCTTCTCATTACCACACCCCCTAAATCTG
GTCGGGGTCTGTTAACTCTCCTTATCAACCAATAATGCCGGTAGCACACC
CCGTCGTTGTCACACCCTCTCGTTACCAAACTCCCTAGCTGCAAGGCCCT
CGTGCATGGTGTTTATCACCGGAGATGCGTTAGATAGCACACCCCTCCAC
AACAGCACACCCGGTGATAATATTTTTAAATGCCAAAATGTTATCACCGG
GGTCTGCTTTCTTCCGTGTTATACGGTATTGAACGGGTACTCGTTGGTAG
TCACGTGTGCTGTTTGATTAGAGATCGAAGAAGAGCAGCTTTATTCCTTT
TCTCACGATGGAAGACTGAAAGAGCAGAAGGCTTGGTTCTGTCATGAACC
TGGGAACCCCTGGTTCCCATCTAAGATACGCCTTTCAAGTACTACCAATA
CGATTATTATACCTGGGAGTGGCCACACCAGAAATTAAATTAACTCATTG
AAGCTGTCGTCCATATGCAAGTCCGCCTCAGAGGCGGTTCTTAGCAGGAT
GCAGCTCACCCTCCATGCGACTCGCCCAATACCTCACGGCGCTTCGCGCT
TGGTGCAAGCAATGTCTGCCTGGTTGGTGAAAACCCAACGTGGTCCGTCC
CGGCATTGTAGGGATGCGAGGGTCTATGGTCATATGACTACGGCCGTGCA
CGACATGAGTACACCCCCCCCCCCGTCTCTATCAGGAGTAAGAACGGTGC
TTCGTCTCGAAAGGGATGCGTGGTCAGTGGTCAAATGGCGGAGGCAAGCA
ACAAATGAGTACCCCCCCCCCCCCCCTCCCCTTTTTCAGCCAAACGGGTG
TATAGGGAAAACAGGCCCGCGGCAGGTGCCCGCGCGTGCCCCAGCCTGCC
TCTAATTCGAATGTGACGCGCTGGCAAGTCGCCAACAGCCGATGCCGAGC
ACCCACACCTTTTTCCTTTTTTATTTCCGGTACGCAACTGGGGCTAAAGG
GATCGTGGCGGAGAAGGATGCACAAAGATCCCCCCTTGTGGCTACAATGT
AGGGGGTATGCCCCCCCCCGCAATTCTACTATATTTGACGTATTACCCCT
TTTTGACTAGGTTTTACCCCCATTTGACCGGAAGCATACCCCTTTTTGAC
CACTCTCGACAAATTCAAAGTTCCACCGTGAATCTGTTTTGGACAGACCC
GCGCACGGCGAAACATCGGTCTGTTCTCGGGTCTCTCCAGAATAGTTAGA
TTTACGGTGGAACTCCGAAGATGTCGTGAGTGATCAAAAAGGGGTACGTT
TTGGGTCAAATGGGGGGAAACCCTAATATAAAAGGGGTGCTACATAATTA
TGCGTAGTAGAATTGCGGGGGCATACCACCCCCCAAACTGTAGTCAAAAG
TGGAGATCCTTGTACCCTCCTCCGCCACGGTGCCGTTAGCCTCAATAACG
CGCCGGAAAATAAAAAGGGAAAAGTGTGCGTGCTGGGCGTGGGCTGCGGG
CGTGTTGCCAGCGCATCATAATATAATTTGAAGCAGGCTGGGGCACGCGC
GGGCACCTGCCGTGGGCGTGTTTCCCACCCCCTCCCGTTTGGCCGCAAAA
GGGGGGGCATGCCCCCCTTTGACTTTTACCTTTTATGAGTCTTTGAAATT
AATGCTTCTTGCCGTCCCCAAAAAAACTGAGCCTCACCGATGACAACAAT
GGGAACGCAAAGTTTGAAAGTTTTCTTTCAAAAACATTGCTTTCAAGAAA
CGGCTGAAGATATTATCGTACCCCATCGCTGTGGGGGAAAAAAGGGGGAA
ATGTTTGTTTTTTCTTGTTTTTTTTCACGCGGCTGCACGCGGCGCAATTT
GTTTTTCCTCGTTGTAAATTGTCAACACGCTATAAAAAATCAGCTCATGC
GAAGATAGACCTTCGATCTCGACTATTAATAGTGTAGTTTATCATCGTCC
CTAGACTATACATACCCTGTTTAGGACATGTCCCTGGACTATACCCTGTT
TCTTCTACTGTTCGAGTCGTGTAGGTAATGGATACTACCAGGCTACCAGG
TACGTACTCGTCCTTAGTACAGTATAGGCTACCAGGTACGTACTTGTCCT
TAGTACATCAGTACGCAGTGCACTGCTACGTACTACGAGTACAGCAGGAC
TACTGACTATTAATACTACAACTCTGCTGCTGTTATCATGGCGGAGCATA
GACTGTAAGGATAAAAAACGTCACGTACGACTACTTGTACACAAGACTTC
GTACTGCTGTACTTGCATATTATTATGCTTGCCATCCGTCAATGTGTAGC
ATGATGAGCTTTAACGTTGATCACTCATAAGCACGCTGAAAGAACTAAAC
CACAGAAACAAAAAGAGCTCTCTGGACTAAACCCACTCCCTTCTGCACAC
ACTTCCGGCTTGAGCTTTGTCTACTCTATTCGCTGTCTCAACTCCACCCT
TCTCTCCACGTATTATCATTTTCTACTCTAAATCTTAAGTCGCATCCAAG
CTCCACCCCCACGCCATCGGTGTGCCCCCCCCCCCCCCCCCCCCCCCCCC
CCCCCCCCCCCCCCCCCCCCCCCCCCCCTGCTCCTCGTTGTGTCCTGGCG
GTCCCTAAGCTGGAGCTAAAATCGCGACACCTTCCTTGAAATGACGACCT
GTGTGGTCACCGAGATAATGTTTTGGAGTAGGCGTTCCTTCACCACCCCC
TTCCTCGCCATGGATCCACCATCCCTCCCCCCTCACGACGCTAGCTGCTA
ACTGGTCGATGAAGTTGCTGCCTTCTACCCCGAGGCGCCCAAAGCTTTCC
ACCGCTAAAGTGGCAAGCGTATGGCTCCGTTCGTCGAAGGACACGCATGC
CCCGGACGAGCGTAGTGTTGACGCTTGCGCGCCTCGGAGGTAGAGGCAGC
TGATCCATCGTGATCAGCACTGCCTCCTCGCAGGTGTACCTGCGCTTGCG
GGTCTGCATGGGTGGCTTGAATGTTATTATGTATATATGTACATACATAC
AATACCTGGCGTTACGTCGACAGCTGTGTCGGTATGTCTCTTTCGTAGTA
TTACCTGCCGGTACCTGGTACCAGGTCAGGTATACTGTCCAAGTACTAAC
GGACAACACCTAAAAACGCCTCCACAAATGCTGGCGCCCCTTGCTCCCTG
ACAACGTGTTTGCAACAACGTGTGTGCACAAAGCAGAGCGTCGTGGTTCC
TGGAGGCGGCAAGAAGAGCACGGGCGCAAAAAAGTGAGCTTGTCATCCAC
CGACCGTTTCTTCTGTTGTTTTTCGTCTGCCCTCCTCGTCTTTCTGTTGC
TGTGTGGGCATGCCGAGGTCCAATTTTGAACTGCAGTACAGCAGTATGTC
CTCCTTCTTTGTTGTTTGTTCCTGTGGTCCCCTTGAAAGTGTAAGCTGAT
GAAGTTCAATGATGTATGGTACGTATTACGATGATGATGTTCTCACACGA
TTTATTATAGCTCATTTCCCTGAAATCCTGCCTGTAGTAACAAAACAGGC
TGTAACAAAAAAAAAGTATTTCGATGGGAGAAAACACAAGCAAGTACGGA
ATAGTGCGCACGGCAGTACCGATACGTGAGGGAACGTTGCTGAACGAGCT
CTGGTATACCACCCCGTATCATTTGCAACCAAGTACGCATAGGTACACCC
GAAAAAATAAATTAAACATAAATTAAAAATAAAACATGAAGGTTATAAAA
AGAAACACAACGAAATGAAAAGAAATGAAAAAGAAAAGAAAAAATAAATA
AATGAGAAGAACCGAAACAAACATGCGCTCAGGGCTCCTGCCGAGCCCCG
AAAGAACAAGGTCAAGGTTGTTGTTTGCTGGTACGAGCAGTCCCACGTAC
ATATGATACCTAGTTCATCGAACATAAGCAAGGGCTCCGCGTGTGGGTGC
CGGCATTCGCCGGCATCCATGCTTCGGATAGGAAAATACACCTGTCACTT
ACAGTAGTAGTAGTGTGTACTGTCAAAACCTCATTTACGAGTCTTCCTCA
GATACACATCTCAGCAGTCTTGGTTCTCTCCGACTTTTGTATGGTATTCC
CTTTCGTTGTCTTAGTTCTCACTATATTTATACTTCGAATTAGGTTATTT
CCGAGATCCCTTTTCAATCAGTCTCACTTATCACGCATGGCGCCCGCTCA
TCGTGTGATTCGGTATATGATCACGTACTCGTACAGGATCAAGCCAACGC
CAAGTGTTGCAGGAAGAAGGCAATGCGGACTACAGTAGTACGTAGTGTTG
ATGTTCAGTTCTCTAAACCTCATTTCTCAGTCTTATTCCTCAGACATCCA
TCAGTCGTATTTATCTCGGGCTCGTTTATTATTCTATATCCCTGCTGTAA
GGGTTCATTACCCTGGGCTGGGCAATCGATCGATTTTTTACACCCCGATA
GCGCAGCAGGTAACACCTTAATATTCGACGTCGTCGAGGACACGGCTTCG
AATCTCACTTCGAACGTTTCTTTTATAGAAGCGCTTGCTGTGCGTCCTTG
AAAACATATCCTCTCCCTGGGGCCCCTGATATTGACACGAAGCGAGTAGG
TACACGTACGACCATATACGGTGGTACCGTTACGTCCCAAATACCCCGCC
TTTCAGAGGGGGGGCGAGCGTTACAAGGATTACCCTGGGCTGGGTAATCG
ATCGATATTTTACCGCGATAGCTCAGTAGGCAACACCTTCACATCCCCTT
TTCATCAGTGTCAGCTCTCACAAGCTAAACTCCTGAGATGCCTTTTTTGT
CAGTCAGTCCAAGGTCAGTCTAATGTATTGCAGTTCGTATCCTTCAAGAT
GCACAGCTAAGCCGAACATCTGAGCTCCTGTTCGCCCGCAACCAATAGTT
TGTCTGACCAAGTACCTGAACCTCTCCTCTCTCATACCAGGTATCATACC
GGTATAATTTTATGTGCGTCGCATGTCATACGAACGAGCAGAGTAATACC
GATTACCTGGTCATGGTTCAAATGAACCGACGATCTACAAACAAATAAAC
CGAGTTTTGTTTTTGAATGTACTACAGCTGCTGTACTATGATGTCAAGCC
ACACAGGGTATAAAATATAGATACCGCGAAGTGTGGCGCGAACCTCGGGC
TCGCCTCTTTCCTCGGGAAGGCGCGCGTAGACGTCCCGGCAAGGAGGGGG
GCGAGAGCAGCTCATGAAATCGATAACTCTAGAGTGTACTTTTCATAACA
TTTCATATATATGAACGAGCAGTACGAATATTACCTGGAACCAGATCGAT
TGAAAACAACCCGATATCTTAAACAACACCAAGTTGGTTTGTTTTTTGGG
CAATAACCAAAAACGGGTATACCCGGTCGGTTTTCACTCAAAAACGGGTA
CACCCTGGAATCAAGTAAAAAACACGCCCAGCGAGCCACGCGATTGGCCA
AAAACAATTTGTACCCATTTTTGAGAGAAACTGTCCCGGGTACAACTGTA
AATATGTATTATGCTTGGCTTTCAACCGTTTTTGGTTATTTATTTTGCTT
AAACCACTCGCCTACAGTGTGCCTCGCTCTCCACTGCGTCTGCGGCCGCT
CTTTCGTTGTTTCATTTTCTTCCAAGCCTTTTCACAATTCACTTAAACTC
TATTCAACCATTTTACGCACTGGGTACGTAAGTCTTCAAAGTGATATACG
ACTGATGTATTTTTACTGTAATACGAATGCTGCTGTAGTATAGGGTGTAT
TTCAGGTACAGCTTGAGACCAAATAAAACACACATGCTTGCCGCCAGAAC
TCTCTGCCCCTAAACACACGTGACCCCTGACCCTGCTCCCGATCCCACCC
GAACCTGAGCCCTCCAAACATAATCTGGACACGTCTAAGTGTATAGTTAG
GCGCCGACAAGTGTGCCTGGTTGTAACTACCCCTCAGAAACGGGCACGAT
GTGATTTTGGCCAATCTATCCCGTGATAGCTCGTGGGATGTGGTGTTTTG
ACTCGATTTCATGATGTACCCGTTTTTGACTCCTACCGGCGCGGGTGTAC
CCGTTTTTGGTTATTGCCCTTGTTTTTTACTATTATGTCAAGCTGGTGGG
ACACAGGCTAAATATAAAGCGAAGTACCAGTATGACATGTACGGATACGG
GTGGGTGCGTTCACGAACCTCGGGCTCCCGCCTTTCAAGGAGATACGCGT
AGACGACCCGCGAGACCAATAAATCGTCCCTCTTGCCGTAATACGGAGGA
CAAACTTGTTTCTTGTGATTTTGAAAATTCCAAATGATTTTGCCGAACAC
CAGGTAAATAACGTAGATAACCAGCAGCAGCAGCAGCAGCAGCAGCAGCA
GCAGCAGCAGCACGACACCAATATCTCCATCAGCGAAAAGTGGAACCTTT
CTGTCTCGAAAATAACCCCAATGTCTCACGATCTCCGCAAGACCCGCCCA
ATTCGGAGTCGACGCGCTTGACGACGGCGCGCGGCCCGAGAGCGCGCGTG
AGGGAAAACGTAGGGCGGAGGCTGCGGAACGCGACCCTCGAGAAGAGTGG
GCCAGAAACCGAAGGCGAGGCCCCGAGACCGGGGACGAACGGATTTAGGT
CTGAGGCCAAGACTGCAGTGCGAGGAACTTTGGAGAAATCAGCTTGCGAG
CGCTCGAACATTATTTTATATATATACAAGGGCTCCGCATGGGTGCCGGC
ATTCGCCGGCACCCATGCTTCGGAGAGGACATATACCTGGTACATCAGTT
ATTTGGTGCCATCCATATTATTTACGACAATGTGATGGCGCTCGCTCGTG
TTTCGATATCTGACGCCTACGTGCAGAATCAAGGCAATGCCAAGGGTTGC
AGGAAGAAGGGACTGCTGCGTGCTGAAATGTTCAGTTCGCAACCTCATTT
CTCAGCCTCAACAGTCAGTCTCAGAAATGTAATCAGTCGCGTTCGGTGTT
CCCTGGATAGTCTCAGTCCTCAGGATAGTTTGTGAGATTTACGACAACAA
CAATCTGATGGCGCTCGCTCGTGTTTTGACATCTGACACATACTACGTGC
AGAATCAAGGCAATGCCAGGTGTTATTGCAGGAAGAAGGAAACGCTACTG
TAATTGCTGATACTCAGTTCGCAACTTCATTTCTCAGTCTCTGTCAGAAA
TGCACCAGTCGAGGTCCCGGTGGCGGGCTCAGTTTTCAGTTTTGGCACGT
GCGGCAAAAACACTTCGTGCCGAGCAGCGGTTCCGCGTGGATATGCAAAG
TCAAGCTAGCAACGGGGGGAGGAACTCAATTCTTCTTGACTCTAGGTGTT
TTGAGCAGACTCGTATCTACAGCACTGCTGTACACTACAACAGTAGTACT
GCTGTACAGCAGTACGTACTACACAGCAGCACTCAGCAATACTATACACA
CCAGCTGCTCGCTACGTCGTACATACAGCACTCGTACCTGGTACTACTCG
TACGTGTACTGCTGTTTGTTCTTGTACGACGTATTACAGCCAGGCACAGC
AGCAGTAATATCTCTACACTGAAAAATGAGCTACTATTGTACTGAACCCC
ACCGAAAAAAAATCAGCCGAGTTTTCATTCCTCCGTGGATCTTTTGATTT
TTTAATTGAGGCGAGATATTTTGAGACTCGCACCACAAATATCTCTCTCA
GCAGAAACAGCACCACGCATATCATCCTCAGCGGCCAGTAGAGCCGAGGT
ATCTCCGCAAGATCCGCGCACTTCGAGGTCGCTGCGCTCGGCGGCGGCGC
TTGAATCGAGAGTGCGCGCGGGCGGAAAGTCACGGGCGGAGGCTGAGGGG
CGCGACCCTCGAGAAGAGCGGGCGAGAAAGCGAACGCGAGGCCGTCGAAA
CGGGTCCCGAGTGCGAGTCCGGCCTGAAGCCAAGTAAAAGCCCAACAGGC
CCAAGAGCACCACAGCGAACCTCAATCAACGTATATATATATCTATACAT
GAGTGTCGTTGCTTGTATATGAAAACGTCGCATGTAAAGCAGTGGTACCT
GAAGTTGAAATGCATATACTGTACAAGGTCCCCCTTCGGGATGTAGTTGG
CTTGAAATCCCGGGGGTGTCGCAAGTTGAAAGGGGGGAACACAGAACAAA
GGCGTTCTTCCTGTGCATACGAGCCAATGTGGAATGTACTGTTGTGCCGC
TGCTGTTATAGACTGTATGTTGGGCGGATGCTTTTGAAATCTAAAGAACG
TGTTCGGGAATGAGCTGCTGCTGCCTGGATGAAATGCTGCTGCTATTGCT
GCTGGGATGCCGAGACTGCTGTATGCGATGTGGCTCGAGGTGGCAGCTGA
ACCGAATGAGTCATACGAGTATTATACACGTTTCGTGTTTTACCCCGCGG
CAGTACCATGGCTGTACTATACATATGGCAGTGCCATGGCTGCGCTGTAG
GGCAGTGGTTTGGCAGTGCTATGCCACTCCCCTATCCCTGACCCCAACCC
GGACCTGATGCTTTATTGTGGTAGGCTTGATATGCGCTTGTTTGATCAAT
TCAACACGAGGTCCAAACCCAATCATTGCGAACGCACGCCCACTACTGTT
TTGCTCTTTGCAGAAGATGCCGGCGAAGGTCGTCCTACTCGGCTGTGCTC
AAGATGCGGGGGTACCCCAAGTGAGTTGCCTTCCTTGTGCTGTGGAACGG
CCAACATCCTTACCGAGAACGAGACGAGTAATAGGTGGTGCGGCCTTGTA
AGGAGGAATTTACATCTACTGTAAGTGGGTAGCCATTTTTGTTTAAATCA
CGTAATTATACCAATATTTTACTGAACACAATACTAAACAAGCATAAGTG
ATACCGGCATACAAGGTAGACTTGTATTGCAACTACTGCTTGGTTACGTA
CGTACGTGCAGAATTGAAAGTAAACATTGTCGGTATGCGTAGTGAGTTCG
TGCTATACTTCGTATATACTTTGTACGCGCAGTAACTCCATGCTCAGACT
GATTTTGGACCGAAATAGTATCTGTGTCATTTGGATGAACCCGCCCTGTT
CACCCTCTGATACACTTGGAGGGGGGTCACAGATCTACCTCATACCTGTA
AAAGCGCCCTTTATTAAGAGGAGTGCGGTCGCGCCTCCTTTGTGCTTTGT
CTACAATGTGTTGCTTTGGAAACATCCCCACGTACTTCGTATAATATGCA
CGTGATTATTTGTGTATGCGCACCTTGCGCCTTCACCTTACAACTTGCCC
CTTGCAACTTGCAAATGCACGTTTTAGGTGGGGTGCGCTTGCCAACGGTG
CGACAGCGCTCGATCTAACCCGGCCGACAAAGACTGCATGGTCACGTGCT
TGAGTGTCGTCGACGAAAACGAGGGGAAGGTAATCGAGGACGATGAGCAC
CCTTTTTGTTTGTTTAATTTTACTTGTTTTTTTCACATTTTACAGCCAAC
CCAATGACCATCAACATTCACGTTAAACGTTGGTAGTATATACGACGGCT
GCTTGCTAAGGTTACATTTGCGGGTCAATTGAGGACACTACAACAGCAGT
AGTAATCCGCACAGGATACTTACCATGCTAACGTGTTCCAGGTACCTACA
TAGTAAAATCAAGGGAACACTACAAAATCCAGGCTGAGATTTTACAGGGA
AGTAAGAAATCCCGACGCGGGTAAGCGAAGTTAATGTAGAACAAACCCTT
TGCCAAGTAAGTAATACAGCCTGCCCAACAGTCGCGGACGCCATCGGCAT
GGGGCATGCGAAAAAATTGTCTCAAACGCGACCGCTGCACCACTCAGCAC
AATTGGTGACGCCTCCAGAGAACCCCTAAGGTTGGACCATGGGTTGAGTT
TTTTTTGTAACACCTTTGTGAGACGAAAACGCCGAACAAGAGACACGGCC
GTCTTCCAATTTTGCTCGAGTCGTGCAGGTGTTCCTCGTGGACGCTACCC
CCGACCTCGGTGCGCAGCTGTGGTCCATACAGCACACGGAACGAAAAGGT
GCGACCTCCGTACGTGCTATGTTATTTGTTTTTCTTTGTTTTGTTTTGTT
TTTATCTTCGTTTGTTTTGTTTAATCGTGTTCTCGCTTGTTTTGGTTTGC
TTTGATTTCTTTTGTTTTCCAGCCGTTACCTGCCAACGTAACATGCTGTC
GAGTTTCGAGGGTGACCGAGTGTGACTAACGTAACAGCGAGCAAACAAGC
CTTAGGGGTGTCGGTGCGGATGGACGAGCGCGACATCGGCCATCGCGAAA
GTAAGACCAAGTAGACGTGTGGCACTGAAACAACGCCGCGGGCGGGACGA
TAATACGATTGCTTCGGCTAGCGGCAGGATCAGATCGATTCACAGCGCAG
CACACAATCCAAAGTGACGAGCAGTTTTCGCGCTGATCACCTACCGGTAG
TAATTCGCTGTTGGTTGCTCGCCCTCGGGTGCCGGCAAGTGGTTTCCTTC
GGATTGCTTGCTGTTGGTGCGCGCTTCAACGTGTGGACGGTGTTACCCAC
CCGCATATATATTTGTTTTCATGTCCAGGATTTTGGGTTGGTTTCGTTGA
TTGTCCTTCCCACGCCCCCCTCCCTCCCCCCCCCTTCGTATTTCCTTCCG
ACAAACCAGAGTGCAAAACCGACGAGCCAGGCGTGTTTTTATTTTCTGCG
CTTCACGACGTATGGTAGGTAGTTGTGCTGCATCGTCACCGCCGTGATGG
TGCCGTGGTCGTTTCTTCTATACCAAACCTACACCACGGACCACGTATTT
TCTTTTGATATTTGTACGTTGCGGTAGTTTGTTGCGATAAATAGTTTACG
ATTCACTGAAGTATGTTCACGGCCGTTAGGATCTCACGTTATTGCAGTGT
CGTCCCGAGTTCGTCATCGCGTTGGTCGTGGCACGGCTATGCTACGTAAT
AGTTCGGTGTGCCGCCAGAAAAAGTGTGAACCTTCTTGTTCTAGAATGCA
GTAGACCCAACAGTGGATCGGACGGCCATCGCGCGCTTCGCCCGCCCTCG
CTTCCCAGATGTCGACGCAGGGCCGTTGGAGCTCGGCGGCATCCTTCTCA
CGCACGCCCACATCGGCCACTACACGGGGTTGCTTCAGCTGGGCAAGGAA
GGGGCAGATGCTAGGAACGTGCCGGTGAGATGAATGGACCCCCCAAACGT
TTTGCAGAAAATCGCGGCGCAAGGGCACTGACCCACAGGCGCTGTGCAGA
CAAACCGTGTGCGGAGACCGGCATTAGTTTGTCACCAGGGTGAACCCCCC
CCAGCTGTCTCTGGAAGTGGCCACACCAGAATTCAAATATATTCACTGGA
AGCTGTCGGCCATATGCAAGTCCGTCTCACAAGCGGTTCTGAGTAGGATG
CAGCTCACCCTTCATGCGACTCGCTCTCTTCACGGCGCTTCGCGCTTGGT
GCAAGCAGTGTCTGCCTGGTTGGTGAAAGCCCAACGTCCTCCGCCCCGGC
ATTGTAGGGATGCGAGGGTCTATGGCAATACGACTACGGCCATGCACGAC
GTAAGTACACCCAGCCCCCCCATACACACCCACCCACCCACCCACCCACC
CACTCAACCACCAAACCACCCACCAACCCCTCGCGCGTGACCGAAAATGG
CCGTTTTCGTCTCCTGAACGCGGGCATCGTGTTCGCGCGACGGCAGGTGT
TCTGCACCCCGAAAATGGCATCTTTCCTGAGGGACAACGAGCCGTGGGCG
CAGCTGACGGAGCGAGGAAACATCTCGATTCGGGAGCTGCAAACATCGGG
CACCAGCAGCGGCAGCAGCGGCGACAGCGGCGGCGACAGCGGCGGCGACA
GCAGCGGCGGCGGCAGCAGCGGCGGAGGCGGCTTTGCGTCCGTTCGGCTC
ACTCCCTCGGTTTCCTTCCTCCCCGTCCTCGTACCGCACCGTGCCGAACT
GTCTGACACTGTGGCGTACGTAATCTCGATGTCGGGAAATTCCGAAGATG
ACGCCGGTGGGGCGGCATCTCCGCGGACCGCTACCCCCAGAATAGGCGGC
CACTCGGCAAAGAAGGTGATGTTCTGCCCCGACACGGACGGCTGGTCCGG
CTGGACGCGTAGCATCCGGGACTGGTGCGAGGAGGTCGACGTTGCGCTAC
TCGACGCCACGTTCTACGGCAGAGCAGAGCTCAAGGATCGAGACATGAGC
GAGGTGAATTTAGGCCTACATTTTTTTTGCGGCCAAAAATCAAACTAAGA
CGATAGGAAAAAAGAGCAGTACACCAGAAAACACTCGGAATTCTACCGAG
TGGATCTTGAAGAGAGTATGAGTGTTTTTGACTGTCCAGCCGAGGAAAAC
GGGTATATTATGGGCCTGGATTTTTTTATTTCAGACGTGTGTGCCCCCTC
TCCCTCTGTGAGCCAGCAGATTGTCGCGCCTCGAGAGCGTATCTATTTTT
TCGGTGCACCAGCGATGATTTCCCTGCGGTGTACCTTGAGCCTTGTGAGA
CCCAGAGATACCGACCGACCAATTAAAACTGAGATTTTTCGTGGTCGTGC
TCTCATTTCATTAACCGACTATTATTGTGAAAGCGCAGATTTTTCCAATT
ATTCACGCAGTTGTCATGCTGCGTCCGTGTTGTATACGTAGCCGCTCGCA
ATCGTACGTAGTCCTTGTGCTAAAGTTATCATCGCCCAACCAAGTTTTTC
AGTCACTTTATTGTCTAAAGCCCCTAAAGGGTTGGTCGCGACCGTCCCTC
ACCCCCCCAACCCTCCCCCCATCCAGGTCTCTCACCCACTCGCGCAGGAC
ACGATGAAAGAGCTGGCCGGCTGCAAGGCCGAGGTGGTTTTGGTTCACCT
CAACCACACAAACCCGCTCTTCGTGGTGGATTCCCCCGAGCGAGCGCAGG
CGGAAGCAGCAGGCTTTAAGGTGAGGAACACTTAGCCAAGGCGGGGTGTG
GCGCCCCTTGCCGCCTTCGTGACTTTCCCCTGCCTTTCAAGAGCGGGGGG
GCGGAAAGGAAGCCAGTTTCTGTGAAAGGTGTCACTCTGTTGCTCACGCA
GAGGAAGCCTACGTGGCCCTTTTAGTACGGCACGCCTGTTTGGCTACTGT
GAGATGTGGCGCCCTCGCAATTTTCCTCTGGCTTACAAGAAGGAACTTTT
GCGGGGAAACCCTGGTCTGCAAACTTGCGCCCTGTTGCTCATGCAGGGGA
GGGCTGTGTACCCCCTTATGGGACTATAATACCATCACCTGTGGGGAGTT
TCAATCGACAGTACTGTTATGTTTTGTTTTGTGCTCACTCGCCTACTCGG
CCGCTTCTCTTGCCACTGCCGACACAATACAAGCAGTGACATGCACTGGC
ACTAGGCTGTACCAGTACCTTTTTTTACGTTTTTCGTGCCTGAAACCCCC
TTTCCTTCATACCTTGTTTATAGGTGGGAACGTTCGGCATGGAGTGGACG
CCTACCGTGTAACAAGAAGCGTAGATTCGCCGCTCTCGGGTCTACTTGTA

Coding sequence (CDS) from alignment at S-latissima_F_contig1030:10015..29514-

>mRNA_S-latissima_F_contig1030.279.1 ID=mRNA_S-latissima_F_contig1030.279.1|Name=mRNA_S-latissima_F_contig1030.279.1|organism=Saccharina latissima SLPER63f female|type=CDS|length=2070bp|location=Sequence derived from alignment at S-latissima_F_contig1030:10015..29514- (Saccharina latissima SLPER63f female)
ATGCCGGCGAAGGTCGTCCTACTCGGCTGTGCTCAAGATGCGGGGGTACC
CCAAATGCCGGCGAAGGTCGTCCTACTCGGCTGTGCTCAAGATGCGGGGG
TACCCCAAGTGGGGTGCGCTTGCCAACGGTGCGACAGCGCTCGATCTAAC
CCGGCCGACAAAGACTGCATGGTCACGTGCTTGAGTGTCGTCGACGAAAA
CGAGGGGAAGGTGGGGTGCGCTTGCCAACGGTGCGACAGCGCTCGATCTA
ACCCGGCCGACAAAGACTGCATGGTCACGTGCTTGAGTGTCGTCGACGAA
AACGAGGGGAAGGTGTTCCTCGTGGACGCTACCCCCGACCTCGGTGCGCA
GCTGTGGTCCATACAGCACACGGAACGAAAAGGTGCGACCTCCGTACGTG
TTCCTCGTGGACGCTACCCCCGACCTCGGTGCGCAGCTGTGGTCCATACA
GCACACGGAACGAAAAGGTGCGACCTCCGTACGGCCGTTGGAGCTCGGCG
GCATCCTTCTCACGCACGCCCACATCGGCCACTACACGGGGTTGCTTCAG
CTGGGCAAGGAAGGGGCAGATGCTAGGAACGTGCCGGGCCGTTGGAGCTC
GGCGGCATCCTTCTCACGCACGCCCACATCGGCCACTACACGGGGTTGCT
TCAGCTGGGCAAGGAAGGGGCAGATGCTAGGAACGTGCCGGTGTTCTGCA
CCCCGAAAATGGCATCTTTCCTGAGGGACAACGAGCCGTGGGCGCAGCTG
ACGGAGCGAGGAAACATCTCGATTCGGGAGCTGCAAACATCGGGCACCAG
CAGCGGCAGCAGCGGCGACAGCGGCGGCGACAGCGGCGGCGACAGCAGCG
GCGGCGGCAGCAGCGGCGGAGGCGGCTTTGCGTCCGTTCGGCTCACTCCC
TCGGTTTCCTTCCTCCCCGTCCTCGTACCGCACCGTGCCGAACTGTCTGA
CACTGTGGCGTACGTAATCTCGATGTCGGGAAATTCCGAAGATGACGCCG
GTGGGGCGGCATCTCCGCGGACCGCTACCCCCAGAATAGGCGGCCACTCG
GCAAAGAAGGTGATGTTCTGCCCCGACACGGACGGCTGGTCCGGCTGGAC
GCGTAGCATCCGGGACTGGTGCGAGGAGGTCGACGTTGCGCTACTCGACG
CCACGTTCTACGGCAGAGCAGAGCTCAAGGATCGAGACATGAGCGAGGTG
TTCTGCACCCCGAAAATGGCATCTTTCCTGAGGGACAACGAGCCGTGGGC
GCAGCTGACGGAGCGAGGAAACATCTCGATTCGGGAGCTGCAAACATCGG
GCACCAGCAGCGGCAGCAGCGGCGACAGCGGCGGCGACAGCGGCGGCGAC
AGCAGCGGCGGCGGCAGCAGCGGCGGAGGCGGCTTTGCGTCCGTTCGGCT
CACTCCCTCGGTTTCCTTCCTCCCCGTCCTCGTACCGCACCGTGCCGAAC
TGTCTGACACTGTGGCGTACGTAATCTCGATGTCGGGAAATTCCGAAGAT
GACGCCGGTGGGGCGGCATCTCCGCGGACCGCTACCCCCAGAATAGGCGG
CCACTCGGCAAAGAAGGTGATGTTCTGCCCCGACACGGACGGCTGGTCCG
GCTGGACGCGTAGCATCCGGGACTGGTGCGAGGAGGTCGACGTTGCGCTA
CTCGACGCCACGTTCTACGGCAGAGCAGAGCTCAAGGATCGAGACATGAG
CGAGGTCTCTCACCCACTCGCGCAGGACACGATGAAAGAGCTGGCCGGCT
GCAAGGCCGAGGTGGTTTTGGTTCACCTCAACCACACAAACCCGCTCTTC
GTGGTGGATTCCCCCGAGCGAGCGCAGGCGGAAGCAGCAGGCTTTAAGGT
CTCTCACCCACTCGCGCAGGACACGATGAAAGAGCTGGCCGGCTGCAAGG
CCGAGGTGGTTTTGGTTCACCTCAACCACACAAACCCGCTCTTCGTGGTG
GATTCCCCCGAGCGAGCGCAGGCGGAAGCAGCAGGCTTTAAGGTGGGAAC
GTTCGGCATGGAGTGGACGCCTACCGTGTAAGTGGGAACGTTCGGCATGG
AGTGGACGCCTACCGTGTAA