mRNA_P-littoralis_Contig679.4.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig679.4.1
Unique NamemRNA_P-littoralis_Contig679.4.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: D7G4W8_ECTSI (Sulfate transporter, putative n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4W8_ECTSI)

HSP 1 Score: 1196 bits (3093), Expect = 0.000e+0
Identity = 632/747 (84.61%), Postives = 673/747 (90.09%), Query Frame = 2 
Query:   86 LVGDMWLDAEEEPTTDSLSNSSASDGAAPPQL--------VDASTSLREGPHRRTRLDTLESMDGDHCEGPGLGRRRGRSFLKTYEQLRSLHPETAHAEE--EYSLEERGGLVKSITTDIKIYSSKLSRAAAQKLKRRRE-RGCLPSFDWRKWIERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAILPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKRS-RDVTEAP 2290
             VGDMWLDAEE+PTT++ SNS                   V+ ST+LREG HRR+R+DTLES++GD   G   G RRGRS LKTYEQLR LHPE  HAEE  EYSLEER GL+KSIT+DIK + +K SRA AQKL+R RE +GC+PSFDWRK +E LPFLITVRTYQRE+FA+DLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVS VIGWI +EVNA TTQEDIDTKVQVT+AFTLCVG WQM+MRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGY+LP AILPV W EAVTNV  FNI SV +GVSGILLL++FKKLN RYLPHLPLPSQVVVV+LATLVT+L G ++DPYNVKVLGDIPVGLPPP+LPS P VDG+GGFSSYAGNLAIQSLLVAV+ YIITISIGKTFQRINDNAYKINGAQELVAM+SANMVGSLF+TYPASGSLSRTAVVQS+NAKTRMHL+PAV+VVMLV+VAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDF LWNVSFWVTAIVGPIEGIAVSVVVSLLYLL QTSRPANS LGRLPETREYRN+KRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDP   VRIHTIVLDASSINQLDASAIDMLILVAKSY+ERGVSILCANWKGPQRDLLELSGFYDVIPP NLFLGLHDAVVEARKR  R  T AP
Sbjct:    7 FVGDMWLDAEEDPTTEAPSNSXXXXXXXXXXXXXXXXXDDVEVSTNLREGAHRRSRMDTLESLEGDR--GDWRGHRRGRSGLKTYEQLRILHPERGHAEEIYEYSLEERDGLMKSITSDIKSHYAKFSRATAQKLRRHREAKGCIPSFDWRKSLESLPFLITVRTYQREYFANDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSQVIGWIDDEVNADTTQEDIDTKVQVTLAFTLCVGFWQMIMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYELPKAILPVIWYEAVTNVPKFNIASVCVGVSGILLLMIFKKLNNRYLPHLPLPSQVVVVILATLVTFLLGLENDPYNVKVLGDIPVGLPPPSLPSFPTVDGIGGFSSYAGNLAIQSLLVAVICYIITISIGKTFQRINDNAYKINGAQELVAMASANMVGSLFKTYPASGSLSRTAVVQSVNAKTRMHLIPAVVVVMLVLVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFFLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLKQTSRPANSTLGRLPETREYRNIKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPYQGVRIHTIVLDASSINQLDASAIDMLILVAKSYDERGVSILCANWKGPQRDLLELSGFYDVIPPANLFLGLHDAVVEARKRHHRRTTPAP 751
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A6H5KTA3_9PHAE (SulP protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KTA3_9PHAE)

HSP 1 Score: 1027 bits (2655), Expect = 0.000e+0
Identity = 561/731 (76.74%), Postives = 599/731 (81.94%), Query Frame = 2 
Query:  230 LDTLESMDGDHCEGPGLGRRRGRSFLKTYEQLRSLHPETAHAEE--EYSLEERGGLVKSITTDIKIYSSKLSRAAAQKLKRRRE-RGCLPSFDWRKWIERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAILPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQ-----ELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKAL-------------------------------------------ENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKRS 2269
            +DTLES++GD   G   G RRGRS LKTYEQLR LHPE  HAEE  EYSLEER GL+KSIT+DIK + +K SRAAAQKL+R RE +GC+PSFDWRK +E LPFLITVRTYQRE+FA+DLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSL+PPLMYLLFGTCNQLSLGVSAIESLLVAAGVS VIGWIG+EV+A TT+EDI+TKVQVT+AFTLCVG WQM+MRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGY+LP AILPV W EAVTNV  FNI SV +GVSGILLL++FKKLN+RYLPHLPLPSQ                                           VDG+GGFSSYA NLAIQSLLVAV+ YIITISIGKTFQRINDNAYKINGAQ     ELVAM+SANMVGSLF++YPASGSLSRTAVVQS+NAKTRMHL+PAV+VVMLV+VAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDF LWNVSFWVTAIVGPI+GIAVSVVVSLLYLL QTSRPANS LGRLPETREYRN+KRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKAL                                           EN+P   VRIHTIVLDASSINQLDASAIDMLILVAKSY+ERGVSILCANWKGPQRDLLELSGFYDVIPP NLFLGLHDAVVEARK S
Sbjct:    1 MDTLESLEGDR--GDWRGHRRGRSGLKTYEQLRILHPERGHAEEIYEYSLEERDGLMKSITSDIKSHYAKFSRAAAQKLRRHREAKGCIPSFDWRKSLESLPFLITVRTYQREYFANDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLIPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSEVIGWIGDEVDADTTEEDINTKVQVTLAFTLCVGFWQMIMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYELPKAILPVIWYEAVTNVPKFNIASVCVGVSGILLLMIFKKLNSRYLPHLPLPSQ-------------------------------------------VDGIGGFSSYASNLAIQSLLVAVICYIITISIGKTFQRINDNAYKINGAQARNGGELVAMASANMVGSLFKSYPASGSLSRTAVVQSVNAKTRMHLIPAVVVVMLVLVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFFLWNVSFWVTAIVGPIKGIAVSVVVSLLYLLKQTSRPANSTLGRLPETREYRNIKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALAHVFQPRYFLVLPCLEFTAVGHSVVTPALIPPRSLVMVMVAVKENNPYQGVRIHTIVLDASSINQLDASAIDMLILVAKSYDERGVSILCANWKGPQRDLLELSGFYDVIPPANLFLGLHDAVVEARKSS 686
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A0G4EYY6_VITBC (STAS domain-containing protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4EYY6_VITBC)

HSP 1 Score: 535 bits (1377), Expect = 2.370e-169
Identity = 297/599 (49.58%), Postives = 403/599 (67.28%), Query Frame = 2 
Query:  476 RGCLPSFDWRKWIERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNA-ILPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKRS 2269
            +GC      +++   LP +  V+TYQ+++   D+ +GL+EGI+ IPMGMSYALLA +P VYGLY  L  PL+Y  FGT +  SLGVSAIE+LL A  V++VIGW             ++ ++ VTIAF++ VG+  M +R+  VG +A FL+DP+LSGFSTASAFLIGTSQLKHL G   P     P+TW   +T++ + N  ++GIGV GIL+LV FK LN +Y     LP Q+V+V+L TL+ YLF  D  P+NVK L +IP G PP  LPS        G ++Y   L  +++ +AVM Y+I +SI KT     D  YKI+  QELVA+S AN +GS FQ +P + SLSRT+V+ SI  KT +H VP+V VV L + AITPLLY LP  ILASVV+FGV  M+DFR+A RL+ L  PDF LW V F VT  +G +EG+ +SV++SLL+LL +TSRP  ++LG+LP T  YRN+KRFP A E PG++IFRFD+SL+F+N  YFE ++K+++ D      +H  ++DASSIN +DA+++ ML  V   + +R V+++ ANWKGP RD L+ + FY  +P    FL LHDAVV A  R+
Sbjct:  188 KGCFKGLSVQRF---LPIIGVVKTYQKQWMCDDITSGLSEGIMAIPMGMSYALLAGMPPVYGLYNGLFFPLIYTFFGTSHHASLGVSAIENLLCAEAVASVIGW----------DAPMEVRIPVTIAFSVSVGVVMMALRLMKVGLVADFLADPILSGFSTASAFLIGTSQLKHLFGVVYPRTPYTPMTWWYCLTHIGSTNWMALGIGVCGILILVFFKWLNGKYFRKFNLPGQLVIVILFTLLAYLFRLDLPPFNVKTLKEIPQGFPPATLPSF----NPTGSTNYFVPLLQEAIPIAVMFYVIHMSISKTVAARLD--YKIDSEQELVALSVANTLGSFFQCFPCATSLSRTSVIYSIGGKTILHNVPSVAVVCLTLFAITPLLYYLPYTILASVVLFGVYGMIDFREAYRLFRLGGPDFALWLVCFCVTVGLGAMEGVMMSVILSLLWLLKKTSRPFTALLGQLPGTTVYRNLKRFPTAVEPPGVKIFRFDASLNFSNAAYFEAKIKSIKLDG-----VHAFIVDASSINDVDATSVRMLQRVVNFFNDRQVALMFANWKGPMRDFLDKAKFYQYVPAERCFLSLHDAVVWAISRN 762
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A0G4F6K3_VITBC (STAS domain-containing protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4F6K3_VITBC)

HSP 1 Score: 488 bits (1257), Expect = 3.170e-153
Identity = 270/598 (45.15%), Postives = 388/598 (64.88%), Query Frame = 2 
Query:  512 IER-LPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAILPVT-WIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRL---------KALENDPLDE-------VRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVV 2251
            +ER LP L  V  Y+  F   D+ AG+ EGI+ IPMGMSY+LLAN+P VYGLY  L  PL+Y+LFGT +  S+G SAIES+L A  V+ VIGW             +  ++ VTI+ ++CVG   M++R+  VG +A FL+DPVLSGF+T +AFLIGTSQLK L G+ +P     V  W   +TN+   N T+  + VSG+++L + K +N RY    PLP Q++V+VL T +T+LF  +  P+N+++L +IP G P P +P          F ++   L  Q++ +AVM YII IS+ KT  +   + Y+I+  QEL+A    N+VGS+FQ +PA+ ++SR  VV S+ AKT +H +P V VV L +  ITPLLY LP A LASVV FG   M++F++ +RL+    PDF LW   F VTA +G +EGI V+VV+SLL+LL +++RP  +ILGRLP T  Y+ ++RFP A+EIPG++IFRFD+ L+F+N ++FE++L         K+    P DE       V  HT+++D S IN LDA+++ ML  +AK ++++ + +L ANWKGP RD L+ + F+ V+P  + FL LHDAV+
Sbjct:  135 VERFLPILGFVTKYKAGFLGDDITAGIAEGIMAIPMGMSYSLLANMPPVYGLYNQLFLPLIYMLFGTFHHASIGTSAIESILCAEAVAHVIGW----------DAPLTERIPVTISLSVCVGASHMVLRLMRVGMVADFLADPVLSGFTTGAAFLIGTSQLKDLFGFPVPRTDFEVEQWWHILTNIPQTNWTAFTMCVSGLIILFLVKWINGRYFKKFPLPGQLIVMVLFTFLTWLFKLNEAPFNLRILHEIPQGFPVPDVPH---------FKAHFLQLFQQAIPLAVMFYIIHISVAKTVGK--KHGYRIDSEQELLAYGMTNLVGSMFQCFPAANAVSRVGVVSSVGAKTILHTLPNVAVVALTLSLITPLLYYLPYAALASVVFFGTYGMINFQEGRRLWKFKNPDFYLWAACFLVTATLGAMEGIIVAVVLSLLWLLKKSARPNATILGRLPGTSSYQEIERFPTAREIPGVKIFRFDADLNFSNAEFFESKLLTMIKPTGSKSDRRPPKDEEEGGDGDVATHTVIIDCSGINSLDATSMGMLERLAKWFQDQKMDLLFANWKGPMRDFLDRAEFFKVVPADHCFLSLHDAVI 711
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A0G4FBR4_VITBC (STAS domain-containing protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4FBR4_VITBC)

HSP 1 Score: 473 bits (1216), Expect = 2.900e-148
Identity = 259/596 (43.46%), Postives = 380/596 (63.76%), Query Frame = 2 
Query:  521 LPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAILPVT-WIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKAL------ENDPLDE-------VRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKR 2266
            LP +  V  Y+  F + D+ AG+ EGI+ IPMGMSY+LLANLP VYGLY  L  PL+Y+LFGT +  S+G SAIE++L A  V+ VIGW             +  +V VTI+  +CVG   M++R+  VG +  F++DPVL+GFST +AFLI TSQLK L G+ +P        W   +TN+   N T+  + VSG+++L + K +N RY    PLP Q++V+VL TL+T+LF  +  P+N+++L +IP G P P +P          F  +   L  Q++ +AVM Y+I IS+ KT  +   + Y+I+  QELVA    N+VGS+FQ +PA  ++SR  VV S+ AKT +H +P V VV L +  ITPLL+ LP A LASVV FG   M++F++ +RL+    PDF LW     VTA +G +EGI V+VV+SL++LL +++RP  ++LGRLP T  Y  + RFP A+EIPG++IFRFD+ L+F+N ++FE+++ ++      + D +DE       V   T+++D S IN LD ++I ML  +A+ ++E+ + +L ANWKGP RD L+ + F+ V+P  + FL LHDAV+ +  R
Sbjct:   72 LPIVGFVTKYKTSFLSDDITAGIAEGIMAIPMGMSYSLLANLPPVYGLYNQLFLPLIYMLFGTFHHASIGTSAIEAILCAEAVANVIGW----------DAPLTERVPVTISLAVCVGATHMVLRLMRVGVVVDFIADPVLAGFSTGAAFLIATSQLKDLFGFPVPRTDFEAEQWWHILTNLPQTNWTAFTMCVSGLIILFLVKWVNARYFKKFPLPGQLIVMVLFTLLTWLFQLNEAPFNLRILREIPQGFPVPDVPH---------FQGHFVQLFRQAIPLAVMVYVIHISVAKTVGK--KHGYRIDAEQELVAYGMTNLVGSMFQCFPAGNAVSRVGVVSSVGAKTILHTLPNVAVVALTLSLITPLLFYLPYAALASVVFFGTYGMINFQEGRRLWKFKNPDFYLWATCLLVTATLGAMEGIIVAVVLSLIWLLGKSARPNATVLGRLPGTSSYHEIHRFPTAREIPGVKIFRFDADLNFSNAEFFESKVLSVIKPSGSKPDRVDEEEGGDGEVPTQTVIVDCSGINSLDVTSIGMLERLAQWFQEQKLDLLFANWKGPMRDFLDRAEFFKVVPADHCFLSLHDAVIYSAVR 646
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A835Z9Z9_9STRA (Sulfate transporter family-domain-containing protein (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z9Z9_9STRA)

HSP 1 Score: 442 bits (1138), Expect = 1.450e-138
Identity = 245/582 (42.10%), Postives = 375/582 (64.43%), Query Frame = 2 
Query:  524 PFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNA-ILPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKR 2266
            P + TV  Y++ + + D  AGL EGI+ +P G++YALLAN+PA YGLYTSL+PP +Y+L GTC+Q+S GV+AIE+L +   V  V+G   +++  +    D++  V+ T+  +  VG+WQ++ R   +  I+  L+DPV+SGFST  AF+I TSQL  L+G  L N+  LP  W +A++   ++N  ++G+G++G++LLV+ + LN ++ P  P+P Q+ +V+L+ +VT       D Y + V+GDIP G P    PSLP+V G      +A ++ + S L+A+  Y++T+S+G  F     N YK++ +QEL+A+ +AN V S+   +  S S SRTAVV ++ AKT +H V A+++++L V  IT  LY LPK ILA +V+  +  M++F    + Y  SK DF +W ++F V  + G + GI   + ++LL +L +++     +LGRLP T  YRN++RFPMAKE  G++  RFD SL+FAN   +E  +  L  D L    +HTI LDAS+I  +D+S++  L+ + K +E +GV +L ANWKGPQRDLLE SGFY+ +    LFL LHDAV+ A+ R
Sbjct:   83 PIVKTVANYKKSYVSHDAGAGLVEGIMKVPSGLAYALLANMPAQYGLYTSLMPPFIYMLMGTCSQISFGVTAIEALFLGESVRGVLG---DDIIESEDDADVNIVVRYTLYISFMVGIWQLIFRFLQLNFISVLLADPVMSGFSTGGAFIIATSQLGGLLGIKLGNSEFLPELWAKAISMFDDWNWCAIGMGLTGLVLLVICQTLNRKFFPRYPVPWQIFLVILSIVVTKEMDLKED-YKLSVIGDIPSGFPTAEFPSLPDVPGHTHGQLFAKSI-VPSFLIALFVYVMTLSLGTFFA--GKNGYKVDASQELLAVGTANAVSSMCGAFICSASFSRTAVVNTLGAKTVLHNVMALVLMILAVTLITEQLYYLPKCILAVIVINALGAMLEFDHGAKYYTTSKADFAVWMLTFIVCLLGGAMYGIYAGIGLALLIVLWRSASAKIVVLGRLPGTAVYRNIERFPMAKETQGVKTVRFDGSLNFAN---WEKAVDTL--DRLATKDVHTIALDASAITTIDSSSLRGLLKLIKDFEAKGVKLLLANWKGPQRDLLERSGFYEHVTDDTLFLTLHDAVLFAKGR 652
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BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: U6LJZ5_9EIME (Sulfate transporter, putative n=1 Tax=Eimeria brunetti TaxID=51314 RepID=U6LJZ5_9EIME)

HSP 1 Score: 442 bits (1136), Expect = 2.410e-134
Identity = 283/680 (41.62%), Postives = 406/680 (59.71%), Query Frame = 2 
Query:  479 GCLPSFDWRKWIERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGE----------EVNATTTQE---------DIDT------KVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAI------LPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALP----SLPNVDGVGGFSSYAGNLAI----QSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKR------SRDVTEAPLSPPDPLAPAS---AGSTSKVEGGCILPSVP 2374
            GC+ S         +P    +RTY+ ++   D+ AG++EG++ IP GMSYA+LA LP   GLY + V PL+Y+LFGT   +++GVSAIE LL+   V+ +IG               V+A T+ E         D++T      +V +++  ++CVGL  +LMR+   G +A  L+ PVLSGFSTASAFLIGTSQLKH +G  +P A+      L   W    T+++  N  SVGI  + + +L + K +N +YL  +PLP  ++VV++ T ++   G ++    VKV+G+IP G P PALP    S   +   G       N+ +    ++L +  M ++I ISI KT  +     Y I   QELVA+ + N VGS FQ +P + SLSRT VV S    T++H +   LV++  +  +TPLLY LP A+LA+VV+FGV  M+DF++  RL  +   D  LW V F +T I G +EGI  S+++SLL+LL +T+RPA +ILGRLP+T  YRN+KRFPMA E  GIRI RFD+SL+F+N D+FE+R+    N  L   R+  +++D SSIN LD +AI ML  + K+  ERGV +L ANWKGP RD L+ + FYDV+PP + FL + DAV  A +R      S++  EA  +PP   +PA    AG+ +   GG + P  P
Sbjct:  125 GCMQSV--------VPLQEVLRTYKWKYLLPDMFAGISEGVMAIPQGMSYAMLARLPPQMGLYVNFVYPLVYMLFGTGRHVAVGVSAIEDLLLGESVTRIIGERERLEDISLARALAVDAKTSAEARAVLEATADLNTSLLQENRVAISVGMSVCVGLVFVLMRVLQAGLLADLLAVPVLSGFSTASAFLIGTSQLKHALGLSIPAAVEDADFKLLRQWWYCATHIKEANWVSVGICAASLCVLALCKMVNRKYLKCIPLPGPLLVVIIFTALSAGLGLEASS-GVKVVGNIPKGFPSPALPRFSTSFAVITESGDPVVVDRNVCLMMLREALALTAMFFVIHISIAKTITQ-QKKTYSIRPDQELVALGACNFVGSCFQCFPNATSLSRTCVVASAGGFTQLHQISNALVLVFTLSFMTPLLYALPNAVLAAVVLFGVYGMLDFKECVRLARIGGLDVLLWLVCFLITIIFGAMEGILASILLSLLWLLRKTARPACAILGRLPKTFIYRNIKRFPMAVEEEGIRILRFDASLNFSNSDFFESRVL---NSLLPSTRV--VIVDGSSINDLDVTAIRMLERLVKTLGERGVLLLFANWKGPMRDFLQKAAFYDVLPPEHCFLSIPDAVFWANRRVMLGDASKEALEA--APPQAWSPACSQHAGAMTPA-GGSLTPKGP 786
[Close]
BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A836CKT0_9STRA (Sulfate transporter family-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CKT0_9STRA)

HSP 1 Score: 431 bits (1108), Expect = 1.480e-133
Identity = 242/582 (41.58%), Postives = 364/582 (62.54%), Query Frame = 2 
Query:  524 PFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNA-ILPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKR 2266
            P + T+  Y+  +   D AAGL EGI+ IP G++YALLAN+PA YGLYTSL+PP +Y+L GTC Q+S GV+AIE+L +   V+ V+G   +E   +   EDI+  V+ T+  +  VG+WQ++ RIF +  I+  L+DPV+SGFST  AF+I TSQL  L+G  L N+  LP  W++A+    ++N  ++G+G+SG+ +L+  + +N RY P  P+P Q+ +V+++ +VT       D Y+V V+GDIP G P    PSLP+V        +A ++ + S L+A+  Y++T+S+G  F     N YK++ +QEL+ +  +N + S+   +  S S SRTAVV ++  KT +H V A+ +++L V  IT  LY LPK ILA +V+  V  M++F +  + Y  SK DF +W  +F V    G + GI   V ++LL +L +++     +LGRLP T  YRNV+RFPMAKE  G++I R D SL+FAN +   + L+ L         IH+I  DAS+I  +D+S++  L+ +   +E +GV +L ANWK PQRDLLE S FY+ +    +FL LHDAV+ A+ R
Sbjct:   90 PIVNTLMHYKPHYAVLDSAAGLVEGIMKIPSGLAYALLANMPAQYGLYTSLMPPFLYMLMGTCAQISFGVTAIEALFLGESVAGVLG---DETVESEDPEDINIVVKYTLYISFMVGIWQLIFRIFRIQFISVLLADPVMSGFSTGGAFVIATSQLSSLLGVKLGNSEFLPGVWVKALKMADDWNWVTIGLGLSGLAVLMACQFVNKRYFPKYPVPWQIFIVIISIVVTSQMNLKED-YDVSVVGDIPSGFPTAEFPSLPSVPDHTEGQLFAKSI-LPSFLIALFVYVMTLSLGTFFA--GKNGYKVDASQELLTLGVSNTISSMCGAFICSASFSRTAVVHTLGGKTVLHGVMALTIMILAVTLITEQLYYLPKTILAVIVINAVGPMLEFHNGAKYYKTSKWDFFIWVATFIVCLTAGAMYGIYAGVGLALLIMLFRSASAKIVVLGRLPGTTVYRNVERFPMAKETEGVKIVRLDGSLNFANWEKIVHTLQGLATKD-----IHSIAFDASAITTIDSSSLRGLLELVDDFETKGVKLLLANWKAPQRDLLERSHFYEHLTDDTIFLTLHDAVIYAKTR 659
[Close]
BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: U6JTV4_9EIME (Sulfate transporter, putative n=1 Tax=Eimeria mitis TaxID=44415 RepID=U6JTV4_9EIME)

HSP 1 Score: 432 bits (1111), Expect = 1.050e-130
Identity = 276/665 (41.50%), Postives = 398/665 (59.85%), Query Frame = 2 
Query:  521 LPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIGWIGE----------EVNATTTQE---------DI------DTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAI------LPVTWIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPSLPNVDGV---GG-----FSSYAGNLAIQSLLVAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENR-LKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKRSR--DVTEAPLSPPDPLA---PAS--AGSTSKVEGGCILPSVP 2374
            +P    +RTY+  +   D+ AG++EG++ IP GMSYA+LA LP   GLY + V PL+Y+LFGT   +++GVSAIE LL+   V+ +IG               V+  T+ E         D+      D ++ +++  ++CVGL  +LMR+   G +A  L+ PVLSGFSTASAFLIGTSQLKH +G ++P  +      L   W    T+++  N  SV I V+ +++L + K LN +Y   +PLP  ++VV++ T ++   G ++    +KV+G+IP G P PA P       V   GG       +    +  ++L +  M ++I ISI KT  +     Y I   QELVA+S+ N VGS FQ +P + SLSRT VV S    T++H +   LV++  +  +TPLLY LP A+LA+VV+FGV  M+DFR+  RL  +   D  LW V F +T I G +EGI  S+++SLL+LL +T+RP+ +ILG+LP+T  YRN+KRFPMA E  GIRI RFD+SL+F+N D+FE+R L++L    L   R+  +++D SSIN LD +AI ML  + K+  ERGV +L ANWKGP RD L+ + FYDV+PP + FL + DAV  A +R    D ++  L    P     P S  AG+ + V GGC+ P  P
Sbjct:  135 VPLQEVLRTYKWNYLLPDMFAGISEGVMAIPQGMSYAMLARLPPQMGLYVNFVYPLVYMLFGTGRHVAVGVSAIEDLLLGESVTRIIGERERLEDIALARALAVDPKTSAEARAVLEATADLNSSLLHDNRIAISVGMSVCVGLVFLLMRVLQAGLLADLLAVPVLSGFSTASAFLIGTSQLKHALGLNIPATVEDADFKLLRQWWYCATHIKEANWVSVCICVASLIVLAICKMLNRKYFKCVPLPGPLLVVIIFTALSAGLGLEASA-GIKVIGNIPKGFPSPAAPRFSTSFAVITEGGDPLVVHRNVCLMMLREALALTAMFFVIHISIAKTITQ-QKKTYSIRPDQELVALSACNFVGSCFQCFPNATSLSRTCVVASTGGLTQLHQISNALVLVFTLSFMTPLLYALPNAVLAAVVLFGVYGMLDFRECVRLAKIGGLDVLLWLVCFLITIIFGAMEGILASILLSLLWLLRKTARPSCAILGKLPKTFIYRNIKRFPMAVEEEGIRILRFDASLNFSNSDFFESRVLQSL----LPSTRV--MIVDGSSINDLDVTAIRMLERLVKTLGERGVLLLFANWKGPMRDFLQKAAFYDVLPPEHCFLSIPDAVFWANRRMALGDTSKEALDGAAPQTWSPPGSQHAGALTPV-GGCLTPKGP 790
[Close]
BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Match: A0A151H857_TOXGO (STAS domain-containing protein n=2 Tax=Toxoplasma gondii TaxID=5811 RepID=A0A151H857_TOXGO)

HSP 1 Score: 425 bits (1093), Expect = 1.810e-129
Identity = 261/634 (41.17%), Postives = 377/634 (59.46%), Query Frame = 2 
Query:  494 FDWRKWI-ERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMGMSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGVSAVIG-------------WIGEEVNATTTQEDI-------------DTKVQVTIAFTLCVGLWQMLMRIFGVGAIATFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLP----NAILPVT--WIEAVTNVQNFNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFGWDSDPYNVKVLGDIPVGLPPPALPS-----LPNVDGVGGFSSYAGNLAIQSLL-----VAVMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASGSLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVMFGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSLLYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHFANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKSYEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKR 2266
            F W + +    P +  +++Y R    +D  +G++ G++ +PMGMSYA+LANLP  +GLY  L  P  Y+L GT   + +GVSAIE LL    VS +IG              + ++  A +  ED                ++ ++I   +CVG+   +MR+   G +A  LS PVLSGFSTASAFLIGTSQLKH+ G  +P    NA   +   W    +N+  +N  +VGI    I+LL   K L+ RY    PLP  ++VV + T VTYL    ++ + VKV+G IP G P   LPS     LP  D  G   +Y   LA   +L     + VM +II ISI KT  +     Y+I+  QEL A++  N +GSLFQ +P + SLSRT+VV +  A+T++H +  +LV++L +  ITPLLY LP A+LA+VV+FGV  M+DF +  RL  +   D  LW V F++T + G +EGI  S+V+SLL+LL +T+RP   +LGRLP+T  YRN++RF MAKE PGI+I RFD+SL+F+N DYF++R++        E     +++D SSIN LD ++I ML  +    ++ G++++ ANWKGP RD L+ + FY+ +PP N FL LHDAV  A+++
Sbjct:  142 FSWTQLLLSSFPIIGVLKSYSRHNLNADFFSGISAGVMAVPMGMSYAMLANLPPQFGLYVGLFYPFFYMLMGTGKHVVVGVSAIEDLLAGEAVSRIIGEKEFVSQLESQKRLLLDKGLARSALEDTLLQRIESHEALLTQARIDISIGLCVCVGIVYAIMRVLQAGLLADLLSVPVLSGFSTASAFLIGTSQLKHMTGLAVPADVENADFKIMRQWWHCFSNISEWNGMAVGICCLSIVLLAGCKFLSRRYFKSFPLPGPLIVVAVFTTVTYLCRL-NEKFGVKVIGHIPDGFPSARLPSFYVPVLPASDLDGSAVTY--RLAFLDVLREAFPLTVMFFIIHISIAKTITQ-QKKTYQIDPDQELCALAFCNFLGSLFQCFPCATSLSRTSVVSATGAQTQLHNISNMLVMILTLSLITPLLYFLPNAVLAAVVLFGVYGMMDFSEFFRLCKIGGLDVLLWLVCFFITVVFGAMEGILASIVLSLLWLLRKTARPQCIVLGRLPQTYIYRNIERFRMAKEEPGIKIVRFDASLNFSNSDYFDSRVRQKL-----EPSTRYLIIDGSSINDLDVTSIRMLQRLCSHLKQNGITMVFANWKGPMRDFLQRAQFYETLPPENCFLSLHDAVFWAKQK 766
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig679.4.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G4W8_ECTSI0.000e+084.61Sulfate transporter, putative n=1 Tax=Ectocarpus s... [more]
A0A6H5KTA3_9PHAE0.000e+076.74SulP protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 T... [more]
A0A0G4EYY6_VITBC2.370e-16949.58STAS domain-containing protein n=2 Tax=Vitrella br... [more]
A0A0G4F6K3_VITBC3.170e-15345.15STAS domain-containing protein n=1 Tax=Vitrella br... [more]
A0A0G4FBR4_VITBC2.900e-14843.46STAS domain-containing protein n=2 Tax=Vitrella br... [more]
A0A835Z9Z9_9STRA1.450e-13842.10Sulfate transporter family-domain-containing prote... [more]
U6LJZ5_9EIME2.410e-13441.62Sulfate transporter, putative n=1 Tax=Eimeria brun... [more]
A0A836CKT0_9STRA1.480e-13341.58Sulfate transporter family-domain-containing prote... [more]
U6JTV4_9EIME1.050e-13041.50Sulfate transporter, putative n=1 Tax=Eimeria miti... [more]
A0A151H857_TOXGO1.810e-12941.17STAS domain-containing protein n=2 Tax=Toxoplasma ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig679contigP-littoralis_Contig679:48994..85998 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7G4W8
PFAMsSTAS,Sulfate_transp
Model size3359
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons17
Evalue0.0
EggNOG OGsCOG0659@1|root,KOG0236@2759|Eukaryota
Descriptionsecondary active sulfate transmembrane transporter activity
Cds size2493
COG categoryU
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791409.5494735-UTR-P-littoralis_Contig679:48993..490121680791409.5494735-UTR-P-littoralis_Contig679:48993..49012Pylaiella littoralis U1_48UTRP-littoralis_Contig679 48994..49012 +
1680791409.7531536-UTR-P-littoralis_Contig679:84211..842311680791409.7531536-UTR-P-littoralis_Contig679:84211..84231Pylaiella littoralis U1_48UTRP-littoralis_Contig679 84212..84231 +
1680791409.7662897-UTR-P-littoralis_Contig679:85153..853261680791409.7662897-UTR-P-littoralis_Contig679:85153..85326Pylaiella littoralis U1_48UTRP-littoralis_Contig679 85154..85326 +
1680791409.7767038-UTR-P-littoralis_Contig679:85344..859981680791409.7767038-UTR-P-littoralis_Contig679:85344..85998Pylaiella littoralis U1_48UTRP-littoralis_Contig679 85345..85998 +


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

Feature NameUnique NameSpeciesTypePosition
1680791409.5619802-CDS-P-littoralis_Contig679:49012..490771680791409.5619802-CDS-P-littoralis_Contig679:49012..49077Pylaiella littoralis U1_48CDSP-littoralis_Contig679 49013..49077 +
1680791409.5728023-CDS-P-littoralis_Contig679:55940..560341680791409.5728023-CDS-P-littoralis_Contig679:55940..56034Pylaiella littoralis U1_48CDSP-littoralis_Contig679 55941..56034 +
1680791409.5826244-CDS-P-littoralis_Contig679:56612..568121680791409.5826244-CDS-P-littoralis_Contig679:56612..56812Pylaiella littoralis U1_48CDSP-littoralis_Contig679 56613..56812 +
1680791409.5981245-CDS-P-littoralis_Contig679:57367..575841680791409.5981245-CDS-P-littoralis_Contig679:57367..57584Pylaiella littoralis U1_48CDSP-littoralis_Contig679 57368..57584 +
1680791409.6101456-CDS-P-littoralis_Contig679:58350..584851680791409.6101456-CDS-P-littoralis_Contig679:58350..58485Pylaiella littoralis U1_48CDSP-littoralis_Contig679 58351..58485 +
1680791409.6212764-CDS-P-littoralis_Contig679:60481..605891680791409.6212764-CDS-P-littoralis_Contig679:60481..60589Pylaiella littoralis U1_48CDSP-littoralis_Contig679 60482..60589 +
1680791409.6357439-CDS-P-littoralis_Contig679:61607..618101680791409.6357439-CDS-P-littoralis_Contig679:61607..61810Pylaiella littoralis U1_48CDSP-littoralis_Contig679 61608..61810 +
1680791409.646606-CDS-P-littoralis_Contig679:63327..634601680791409.646606-CDS-P-littoralis_Contig679:63327..63460Pylaiella littoralis U1_48CDSP-littoralis_Contig679 63328..63460 +
1680791409.6583343-CDS-P-littoralis_Contig679:66888..670171680791409.6583343-CDS-P-littoralis_Contig679:66888..67017Pylaiella littoralis U1_48CDSP-littoralis_Contig679 66889..67017 +
1680791409.6784642-CDS-P-littoralis_Contig679:67665..678151680791409.6784642-CDS-P-littoralis_Contig679:67665..67815Pylaiella littoralis U1_48CDSP-littoralis_Contig679 67666..67815 +
1680791409.689175-CDS-P-littoralis_Contig679:70457..706671680791409.689175-CDS-P-littoralis_Contig679:70457..70667Pylaiella littoralis U1_48CDSP-littoralis_Contig679 70458..70667 +
1680791409.7052364-CDS-P-littoralis_Contig679:72089..722411680791409.7052364-CDS-P-littoralis_Contig679:72089..72241Pylaiella littoralis U1_48CDSP-littoralis_Contig679 72090..72241 +
1680791409.7188423-CDS-P-littoralis_Contig679:72710..729031680791409.7188423-CDS-P-littoralis_Contig679:72710..72903Pylaiella littoralis U1_48CDSP-littoralis_Contig679 72711..72903 +
1680791409.7295609-CDS-P-littoralis_Contig679:74072..743291680791409.7295609-CDS-P-littoralis_Contig679:74072..74329Pylaiella littoralis U1_48CDSP-littoralis_Contig679 74073..74329 +
1680791409.743172-CDS-P-littoralis_Contig679:83964..842111680791409.743172-CDS-P-littoralis_Contig679:83964..84211Pylaiella littoralis U1_48CDSP-littoralis_Contig679 83965..84211 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig679.4.1prot_P-littoralis_Contig679.4.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig679 49013..84211 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig679.4.1

>prot_P-littoralis_Contig679.4.1 ID=prot_P-littoralis_Contig679.4.1|Name=mRNA_P-littoralis_Contig679.4.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=831bp
MASVGDDGGSSPTPYDYDHAPGLVGDMWLDAEEEPTTDSLSNSSASDGAA
PPQLVDASTSLREGPHRRTRLDTLESMDGDHCEGPGLGRRRGRSFLKTYE
QLRSLHPETAHAEEEYSLEERGGLVKSITTDIKIYSSKLSRAAAQKLKRR
RERGCLPSFDWRKWIERLPFLITVRTYQREFFASDLAAGLTEGIVCIPMG
MSYALLANLPAVYGLYTSLVPPLMYLLFGTCNQLSLGVSAIESLLVAAGV
SAVIGWIGEEVNATTTQEDIDTKVQVTIAFTLCVGLWQMLMRIFGVGAIA
TFLSDPVLSGFSTASAFLIGTSQLKHLVGYDLPNAILPVTWIEAVTNVQN
FNITSVGIGVSGILLLVVFKKLNTRYLPHLPLPSQVVVVVLATLVTYLFG
WDSDPYNVKVLGDIPVGLPPPALPSLPNVDGVGGFSSYAGNLAIQSLLVA
VMTYIITISIGKTFQRINDNAYKINGAQELVAMSSANMVGSLFQTYPASG
SLSRTAVVQSINAKTRMHLVPAVLVVMLVVVAITPLLYTLPKAILASVVM
FGVVKMVDFRDAKRLYHLSKPDFCLWNVSFWVTAIVGPIEGIAVSVVVSL
LYLLMQTSRPANSILGRLPETREYRNVKRFPMAKEIPGIRIFRFDSSLHF
ANKDYFENRLKALENDPLDEVRIHTIVLDASSINQLDASAIDMLILVAKS
YEERGVSILCANWKGPQRDLLELSGFYDVIPPGNLFLGLHDAVVEARKRS
RDVTEAPLSPPDPLAPASAGSTSKVEGGCILPSVPSQKEPSASETVVEIG
PDGETREWRVGAVEMNPSGEMEREWGLGRV*
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mRNA from alignment at P-littoralis_Contig679:48994..85998+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig679.4.1 ID=mRNA_P-littoralis_Contig679.4.1|Name=mRNA_P-littoralis_Contig679.4.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=37005bp|location=Sequence derived from alignment at P-littoralis_Contig679:48994..85998+ (Pylaiella littoralis U1_48)
GGACAACAAGTGGAAGGATATGGCGAGCGTAGGGGACGATGGAGGAAGCA
GCCCGACCCCTTACGACTACGACCATGCACCAGGGTGAGCCAGCCGTGGC
TTTGGTTGCGACGTTTTTGAACACATCCTTCGCGTGTGATGTCATATCCT
AGTAATACACTGCCGCGCTGTTTCAGAACAGAACACCATACAGCAGTATG
TGCATATGATATCATATGAAGAAGTAGAATCAAACATGAGTGGCAAGTGC
CACAACCAAGAGGCTCTCGCCTAGAAGCAGCCTGCTGCAGCCAAAGTGTG
TGTATGTGTGTTCGTGTATTGTTCTACGTGAATTGATGGTGACCTCATTC
CCGCTGGAAGCCACCTGGTACATACGCGTTGCGACGATTGCTGCGCTCAT
CGTGAAGTCTGTCTAGTACATTGGTGATATCACACACCAGTACCTGGTAC
TTTGTAGTAGCGATATCACAGGAAGCTTTGCCTTGTCACTAAACAAGGTT
TGCGCGGAACATTAGACATGCCGATAACCCCCGCGCACCCCTCTTATAGT
AGTGGGGGGGGGCTATATAGTGCCGCTTGAGTAGTGCCGTCGCCCGGTAT
AGTGTCAAAAAAATACATGGACACAGCCAGAACCTACTAGTTTTAGTGTG
CACTTCTGAAGGTTCTGGCTGTTTCCATGTATTTTATTGACACTATACCG
GGCGACGGCACTACTCAAGCGGCACTATATAGCCCCCCCCCACTACTATA
AGAGGGGTGCGCGGGGGTTATCGGCATGTCTAATGTTCCGCGCAAACCTT
GTTTAGTGACCAGGCAAAGCTTCCTGTGGTACTGCTGGATCGGGGTTGAG
AAGCAGTGTGCGTTGGAGGGCCGCTTCTCAATTATCTGCGTTAACCCTTT
TACAGTAGCGGCTACGGTTTAAGACAAAATGTTTAAGAGAAAGTACGGAT
TTAAGAGAGTCAAATGGCTTTGTCACGACCGAAATCGATTGAAGAGAGAA
TTCTTATTTCTGAGAATTTTCTCTTGAATCGAACCCCTGAAAAATGAGTT
CGGCGGTAGCCGAACACTTGTGTGAACTACTTCGTAGAGAACAATGCGGA
GATGTGCGGCATGTCCGAAGTGTCCTACCACCTCCGCAAGGCTAATAGCT
TGATGAGTGTCTATCGGTCGAGGGAAACCAGCCAGACGAGCTTGAGAAAA
TTCATGTAACTGCGATTGATTGCGTTGATGTGTTGCGCGTGATATGTATG
GTATGTTTTCGTAATTTGATGTGTGTCTATTTTCTTGGGTTGAAATACGG
TAGACGTATGGATCTCTAGGTGTTCTGGGCGGGGTATACTTCGAGTATAA
AGGGGTGGTTGAATGGGTAGGTCGAGCGGGGGAGGGGGGAAGGAGAGGGG
AAAGGGTGATTTTTTCTCGGGTGGTGGCTACAGGAGTGCTCGCATGTGGA
GTGATTGAGCATTGCATGGAGCTGAATTTAGCACAAGGTGCTGACGCGTG
CTTTACGTTTTGTAACATGAATTATACACCCTCCACAAACTCCTACTGTA
CAGGTACGGCAGTTCGTTCAAACCGAGAGCGTCCGCTCACCTCGCCTTTC
GAAATGTCACGATTTAAGAGAAAAATTCTCTTGAACCGTGACAAAAACGG
TATACAGAAAGCCCGATTTAAGAGAGAAATACGGGCTTGTCACGACCCTT
TCGTAAACCGTAGCCGCTACTGTACCCCCCTGTGAAAAATCATGGAACAT
TTTTTTTTTATCAAAAGCTCTATAAAAGCAAGTGAACGCGTCGCCAAATT
TGGCGACGCGTTCTCTTGCTTATTGAGTTCGTTTGAGAAATGAGCGGTTA
ACGAGGCAAAGGTTTAGCTTACAGTATTGGGAGTCACGTAATATTCCAGA
GTCACCAATAACAATGTGGCGACCCAAAATCGCGACATTTGGCTACCGAG
GGGGGGTGTTGTCATCCCTTTAATTGGACGCCACTCTAAAGGGATGACAA
CACACACTCTACACCTTTCGGGTAAGTAGACCCTCCAACCGGGGTCACAC
AGTAGGAACACAGTAGGAACACAGTAGGAAGTCAAGACGGGAGTTTTTTC
TTTTATTTCTTTTATTTTATTTCTCCACTTCCCACTGCGGTACTTGCCTT
CAGTTTTTCTCGCGAGAAGGGGTACAGCCATCCCTTTCCCTCGTCGACAC
TTCGAATTTTGTTTACTCACGAGTTAATCGTTTTCCACCCTCACGCATGT
CATTATGAGAAGAATCCCGGATCGTGTTACTGCACCGGGATTCGAACTCA
AGGGTAAGTGTCAGACGATTTCGAGGATATTCAGACGGTGGTTCAGTTAG
GGTAAGAGGGTTAATACCCCCTTACGGCTAGAGCGTATTTTGGGGACATT
TTGTCCCCAAAAAGAATTTGAAAAATCATGGAACAAATGTTTTAGCAAAA
GCTCTATGAAAGCAAGTGAACGCGTCGCCAAAGAAATGGCGACGCGTCTC
TTGGTCATAGAGTGCGTTTGAGAATTGAGCGGTTAGCGAGGCAAAGTGTA
GCTGCAGCAGTTTTGGGAGTCACGTAATATTCCAAGAGTGACCAATAACA
AAATTGCGATCCAAAATGGCGACGTTAGGCCACCTAGGAGTAAGAAAGGG
TGAAAACCCCCTTTTACGGCTGTAAAGCGGAGGTTGGGGACATGTTGTCC
GCAAAAAGAAGTTAAAAAACATTCCGCAGTGTTTCAACCTCTGCAGCAAG
TGATTGATGATGGCCTCGTGATCGCCGGTGTTCAATACCGCGGCATCGGG
CTCTCGAGAGAAAGCTGGCTGCGCCATGGCACGGGGTATGGGGGTACACG
CTGTGTATACTGTACCGCCCACAAGACTCATCCCGCACGCGAACTCTCAA
ACGCTCCTTTTCGTGCCCCGTTTACGGCTAGAAATGTTTTTGATTGATCA
AACCGTATCGAATGTCCCCAAAAAATTGGAGACATTTGGTACGGTTCAAA
GTATCGCGCTCGGACGGCGGGATTGTCGGGCTCTGGCCAACCGCGGACCT
CTGCAGCAGTATCGTTTTTTTTTTTTTTGCAGCAGTATCGTTTTTTTTTT
TTTGTGGACTTTTTTTTTTCTTTTAAAACTGTGATCTTTTGGCGTTGCTG
GTTGGTGGCGTATGATATGCGCCAGGACAACGAACACAAAACGCCTCTCA
TCATTTACCACAAAAAAGGGACCCCAATACCCAATAATAACGCGCCTTCG
ACAAGATAGCTGTGCGGCAGGACACGGGCTGCGGTGACCTCGGCAGCGGT
AGATTCTATTTACCTCATCGGTTCAAGCCCGTGGTCGTAGCGATCTGTGC
CGAACTGGTGTCAAAGTGTTGGAAAATGTGGCCATTATCTCGGACACACG
CACAGACAGACAAGACACCGAGAACCTCCGAAATTAAATGAAGGCAATGC
TGTCTCCGTTTTTTTTTTTTTTACGCACATACACTGACACACACCCGCAC
GTCACGACAAGTCGGCATACCCTATATGAATTCGAGGCAGTTCGACAAGG
AACTCACAATTCCCTTCGCTGGTGTCCTCTGCTTCTCAATAAAACTCTGG
ACACATACCGGCACTATATCGGCCCCCCCACTGCTGTGTACAGCAGTACT
CCTGCTGTGTACAGCAGTACTCCTACGTACATACGAGTACCGTATTACTT
CGTATATCATACTTAAACGAGTAAGACATGCCCGAGATACCCGCCGGTAC
TGCTGTATCAAAAACGATCTCCCAGCTTGTCTACTTGTATCTTTTGTCTA
CACCAAGGCTGGCTCTGAACAAAGGTGACGCCGATAATGATGATGCCCGC
ACTACACATTTTTACAGAGCGATTCAATGAAAACGATCTTATTTAGCCTG
ATTGATACCTGATACTGTACCCCCGGAGGGAGCTGCAACGGCACTGCTGT
ACTACTGCTGTAGTATTCTAGGGTTGTGTACATAATACTTCGAAGTATGA
AGTTGCCGATATTTCGACAAAATTCCGCGATAAACGAAAATTCGAAGTAG
CATCGGAAGTGTTGTCTACTGTTTCATACGGAGTATAAATTATCAGCTGA
GAGTTTAGCCGATGTTTGTATTTCGATATATATCGATGCCGATATTTTGC
TACATATCGGCGTGTTTGGGCACCTACCTGCAGGCGGCCTTGTTTCCGGC
TCCCTCCGGACGCCTGTAAAGGATAACACGCAAAGCATGTGGCTTTCGGT
GAACTTCTCACCAACAGAGTGGGCCTACAGCAGTACACTGATTGCCGAAA
CGAAGAGGCCCCTATACTTATTCCAAGTCATTCACATCATTTACTCGTAT
TTGTTATATCATACTTCGAGTATTACACTCTCGAAGTATTTGTTTATATA
TTTGTTTTTGTTTTTCGCACAAACCGCAGAGGGGAGAGGTGGAGAGAGAA
AAACTCAAACTCCGGTTGGACCTTCGCTCTATCTGACCCCCCGGCTGGTG
CATACGCTTCAATCGACTGGTGAAGGCCACCACTGCTGTAGTCCTTAGAA
TAGATAGGACGCTTAACACACACACAAGCAAGCACACAGTTGACCAAAAT
ACCCGGCTTTGTACCTGTACGTCCAAGACTAATTCCACACGCTATGTATG
TGCCGCCAGTTTATGATACCGCTGGTCTATGACGATGACGAACCGGCTCC
CCCCCCCCCAGTCCCTCGCGTTTGTACGTACAGTAGTAAAACGGAAGCCA
CCCCACCCACACGAGCACCCCTGTGAGTCAAATTTGTCCATGGTAACTGG
GATCGTACCCTCCGCAGCCAGCCACAACTGCTCTCGGCTGAACTGACGCA
GCCTCGTGGCGCACACGTGAAGGCCACGACCCCCTCTGCTCCATGATAAG
GCATTACTGCTGTGGTGACTTTAGACTCCTCCTCATTCGCAGCAGCCTGC
AATACGCGTCCGATTATTATCATCCCCATTCCCACCCCGGACCAGGCTCC
CTTTTGTCGTTGTATTTTTGTACAGTAGCGTTGAGTGATGTTTCGGGGTC
CGTTTCGTTTTGTTTTGCCGGAGTTTCCTTGTCGTGTTGTACCTTGTGCA
GTAGTCGATTGATGGGACCTCCCGCGTACTACAGCAGTACCTCTTTTGGG
GCAAGCAGCCTGTGATCGACGACGGAAATCGTCCCTGATCGGAGGAGTAC
GGACATTTAGAAGGTACTCTGTACCTCTTTTGGTGCAAGCAGCCTGCGAC
CGACCACGGAAATCGTCCCTGATCGGAGGAGTACGGACATTAGAAGGTAC
TGATGAGAGATCGGAATGGTTTTTAATGTGAAGACACACACACACACACA
CACACACAACCATCGTTTATTTCCTCTCTTTTTTTCCTCCTATATGTATC
TATGCATGTATCATGGGTGTACAAAAGTCTATTTGCGATAATTCCTTCAT
TTTTTCACACCCCTCGTGGGGTGTGTAGTTGTTCCGAAATCCAAAAACAC
CGGGAAGCCCCGTCTCCAGGCGAACAACTCTTTGGAGAGTTTTTTATTTA
TTTATTTTTTCGTTAACTGACTGTCAAATTCAGAAAAAACGAAAATCTTG
TTCGCTTTATTTCGCGACAACCAACCTAGTGATTTCAAGACAAAGTGCGG
CAAATACTCTATCCTAACCTCATCGATACCCGGAGAGTTTTTTCAAACAC
TCATAGCCTAACCTCATCGATACCCGGAGAGTTTTTTGTTTTTTTTCAGA
AAAACGAAATTGCACGAGATATTCAAGAAAAACAGATTTTGATGGCCTTT
TGGTTCTCGCTTGTTTTCGCGACAACATATCTTTTGATGTTATATTAGAG
TCACAACCAATCTTTTGATATTAAATTAGAGTGACAACCAATCTTTTGAT
ATTGAATTAGAGTTACAACCAAATTTTTTATATTGAATTATGAGTGCGGC
AAACGCTTGACCTCATCAATACCCCGAAGGGTTTCGCCTCATTTTTTGCA
GGAAAACGAAATTTCACGGCATGTCTTGGATTTAATGGATTTTAAGCCTG
TTTTCTATTTCGTCCACGGAGCAGTCTTTTTGTACAGAGTTATCCGTAAT
GACTTCAAACTAGCCTAAGATTTGGGGGAAAAAACGTTGAACATCGTTTG
CTTCCTCTTTCCCACGCGGTTACTCCCGTTGCTGGTTGACCTTTCCATTC
GTTTTCTTTCATAACTGGTGACGAAACAACTTATGAAGGAATTGTTTCCC
GGCCGGGTACGGGTATACCCTATACCTGGTATGTATCATACCCCGACACA
CCTTTGAATATTTATCGCCACGAAAGCCAAGGCGAGCGCCGCTCAAGGAT
AAAGTAGGAGTACAAAAAAAAAAATTAAATTCTGTGTTGACTTCCTACTG
TGTGACCCCGGTTGAAGCGTCTACCTACCCGAAAGATGTAGAGAGGCGTC
CAGATGAAGGGATGACAACACACACACACACACACACACACACACATTAC
CGCTGCATACATACATGTGTGACACATAGAGGAGGACAGAGAGAGAGAGG
GATAAGATACACCGCACTCATCTCACAGGCAGAGCCCAGAGCACAGGAGT
GTGTTGAATTCATGACGATGGTGAGATTTTTTAGGTTTCCAATCACGCCG
GCATTCCTCTCGCATGTATGTTGTTGTTGTTGTTGTTGTTGATTCTCACA
TTAGCTCACTACCGCCGCAGTCCAGCCCGTGGTCACAAACCAGGCACATA
TCGTGCTAGGAGGAAAAGACAAAAAAATATATATATGGACTATGATCACC
CACAGCAGTCAAATCAGATATAGGGTACCGTTGGGGTACCATCTGTGGCG
GCCGAAGTACAAAACAAAATACAGAAAAAAATACAGAAATGACAGGTCCG
AAAGAATGTTTGCATGTATGTATGATATGTTTGTCGCGTTTCGATAGGTT
GGTGGGAGACATGTGGCTGGACGCCGAGGAGGAGCCAACCACGGACTCGC
TGAGCAATTCCAGCGCTTCGGACGGGGCGGCCCCTCCTCAGGTACGTGCA
GCTCGTGTATGATACTTCGAAGTACGAGATAGATTTCTGCTGTGACGGAG
TCCCACCTATTAGTCCAACGGTTTCACTTTTTGACAGGTTCACTTTTGAC
AGGATTAACTTCGACGGTTCCACTTTCGACGGGTTCACCCTTGACGGGTT
CACAATGAAGGTTTCACTTCGACGGTTTCACTTCGACGGTTTCACATCAA
CGGTTTTACTTGGATGGGTTCACTTCGACGGGTTCACTTTCACGGTTTCA
ACTCTCGATGGATTCACTCTTGAAGCGTTCACTGCGACGGTTTCACTTCA
ACGGTCTCGCTTTGACGGTTTCACTCTGAGGGGTTCACTTCGACGACGGT
TTCACTTCGACAGTCTCACTCTCGATGGGTTCACTTCAACGTTTTCACTT
GTTTGGTTTCACTGTTGACAGGTTCACAATGAAGGTTTCACTTCGACGCT
TTCTGTGCGTGTTTTACCCCCCGTTTCCCGCAGCTTGTCGACGCCTCCAA
ATCATATCTGTGTTATCATATGATTGATTCGTCAACCCTCGTGTGTGTTT
TGCCCCCCGTTTCCCGCAGCTTGTCGACGCCTCCACGAGCTTGCGCGAAG
GGCCCCACCGTCGTACCCGCCTCGACACTCTCGAGTCCATGGACGGAGAC
CACTGCGAGGGGCCGGGTCTGGGTCGCAGGAGGGGGCGGTCTTTCCTCAA
GACGTACGAGCAGCTGAGGAGCTTGCATCCGGAGACGGCGCACGCGGAGG
AGGAATACTCCCTGGAAGAGTGAGTCGGCGCTGGCGTTTTCTGACAGTCC
CCTTGTGATGTTGTCGTTGGAAGTCACAGAATACACACGGACGAGGAGTA
AGCCCTGCAAGAGTGAGTCGGCGCTGGCGTTTTCTGACAGTCCCCTTGTG
ATGTTGTCGTTGGAAGTGAAACATTCGCGAGAACAGTGAGTCGTGTCGGC
GTCTCTGACAGTCCCTTGTGATGTTGTCGTTGGAAGTCAAAGAATACACA
CGGAAGAGGAATACTCCCTGGAAGAGTGCGTCGGCGCTGGCCTTTTCTGA
CAGTCCCGTTGACAGCCCCTTTTGATGTTGTCGCTGGAAGTGAAATATTC
GCTAGAACAGAGTCGTGTCGGCGTCTCTGACAGTCCCTTGTGTTGTTGTC
GTTGGAAGTGAAACGGCACACGCGGAAGAGGAGTACTCGCTAGGACAGTG
AGTCGTGCCGGCGTTTCCTGACAGTCCCGTTGACAGCCCCTTTATTCGTT
GCCGCTGTAGACCTTTTCATCTCAACCTGCTGCTGCTGTTGCTGCTGCTG
CTGCAAATTGACGTGACGAAACAGACGGGGAGGGCTGGTGAAGTCCATCA
CCACGGACATCAAGATCTACTCGAGCAAGCTGTCCCGCGCGGCCGCGCAG
AAGCTCAAGAGGAGGCGAGAGCGGGGCTGCCTGCCGTCGTTCGATTGGCG
GAAGTGGATAGAGAGGCTCCCGTTCCTCATCACGGTCCGCACGTACCAGA
GAGAGTTCTTCGCGTCGGACCTCGCGGCGGGGTTGACGGAGGTGGGTGGG
GGTGCCGTGGGTGGGTTGTTGTTGTTGTTGTTGTTGTTGTTGATTCTCAC
ATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACAT
ACCGTGCTAGGAGGAAAAATGAAAATAAAATAAATGGACTATGGTCACCC
ACAGTCAAATCAGGTAGGGTACCGTTGGGGTACCATCTGTGGTGGCCAAA
GTGCCTTGGGGTGATGCTATCGTACTGCTGTGGCAACTGTGGTTGATGTG
TGCCTTGGGGGATGCTACTGCTGCAGTTGTTGTTGACTACCATATGTACC
GCATGATAAGTTGTACTTTTAAGATGTCACACCGGTGTGGTAACATTTTT
GGGTTTGAAAAAATAATGTATCTCGGTTTGTGGGTTTTCGGGTGTGGTAT
CGCATTAAGGTGTGACATCTCATACATAGATTCCGTTTACATCACCCGTG
GGGTCGGTCAAGTCAAATGTTACAGGAAAAAAGAGCCCATTTGTTTCTTT
CAAAGAGCAGGGATTTGTTTTGAGCATGATGTTCTCCTGTTTTCCCCACT
CTTTCCGCCCTTGTATTCTGCCACTCATTCCACGCTTTTTTTTTTCCACT
CGTTCCATGTTTTTGTTTTCCTCCCGTTCCACGCTTTTTTTTTCGACTCG
TTCCATGTTTTTTTTTTTTTGTGTGTGATGGCGTCGCCCGCTCCATGCGT
GCACTGTTCCTATTCCTGTTTCTTGGTCTGTCTGTCTGTCTGTCTGTCTC
ATGGCAGGGCATCGTGTGCATCCCGATGGGGATGAGCTACGCTCTCTTGG
CGAACCTGCCGGCTGTGTACGGGCTGTACACGTCTCTCGTCCCTCCGCTG
ATGTACCTTCTGTTCGGGACGTGCAATCAGCTGTCGCTAGGGGTGAGAGG
CAACACAAACACACGCACACACACACGCACGCACACAACACACACACAGA
AACACACACAGAAACACACACAGAAACACACACAGAAACACAAAAAAAGC
GTTTTTGTTGTGCCTGGTTTTTTGTGTTGATGTGCGTTGTGTTGAGTGTG
TGTGAGTGTGTGTCCTCTCTATATATACTTCCTCTGTATCATAAGTCTGT
GCCGTTATGGGCGTGTAATTGTTTGCGCGTCCATACTGTTTCGATCATCC
TATTGTTAGGTTCGTTCGAAAGATGAAATAAAAAAAAAGCCAGTTGTTTA
TACTCAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTTTGAGAATTT
TGATTCCGCCAGATGTCTTGGTTTTAGGGTATGAGTCCCAAGTATCTTCG
TTTTAGTGTGGAAAACCCAAGTGTCTTGGTTTTAGTGTGGAGTCACTATT
ATACTGATTTTAGTAAGGGGGGACTCGACATGAATCTTTTAGTTAGGGGG
GCTAGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCATTGGGGTTTT
TTTGTGCCCCCGCCCCCCCCTCCACCTCTGGAAAGGGTCAAATACGGCCA
TTTTTGGCCTGACTACCTTTTTGTTAGCCGCTAGCCCATGCATGGTAGTG
CGCAAGAAAAAAGAAAACATGTGTTTCAACCCAAAAAACTCAGAAAATTT
CGAAAAAATTATCGCCGAAGACATCGGACACCGTTAAGGGGGCGTAAAAA
CATAACGGCACAGACTTATGATACGAAGGAAGTATTTATCTACATATCCA
TCTCTTTATCTCTCTCTCTCCCCCTTTCTCTCCCTCTCGCACACTCACTC
TCTCTCTCTCTGTACAGTTTCGGATGAGCGCAAGCGCTATTGTCGGACAC
GTGCTTTATACTTGTATACACATCGTACCCTCCCTCGCTTTATACATGGC
ACACAAAACCACAACTCTTCGTAATATCTCCTTAAAGTTTGCTTGTGTTT
GGTTTTTCGTTTTTGCTCTGGCTCCTCCACCCGTGGGTCTTGTGTCCGGC
AAGGGCTATCGTATCAACGCTTTGGCGTAGCTATGCCGCTTTTGTTGTCT
CCCCGTTGCCATGAGCGCCCCCGCGGAGCTGCCCTGACCACAGCAGGATG
ATATTCCGAACTGCGCGCCCCCCGTCTCCGACTAGGCGATGGACTCCACG
CCAGTCATGTTTCCTGGCTTACTTTTTATACGTTGAGGCAATTGGTTGGG
GATTCTCCGGGGTTACGCTAAGGGGATCTGGTATTCGCTGGGGTTTACGT
GAAAACGAGCCTCATGAAATTTGCTCAGATTTAAATTTTTCGAGGGGATG
AGCATAAACTACAATGAAAAAGAAAGATGCCCCTTCGTGATAGCTACCGA
TTCGTCCCCCGCTAGTTGGCACGGTAGCCAAGGTAGCCAACGTTCGTTCT
TTTCGTTTTTGATGGATGCCGTCCGCGTTTGTTTGACAACGGACTACTGT
TGATTTTTCAGATGAGCTTTGGCGAGAGATGATGCTCCTATAACAACACG
ACCCGAACACCACCAACAACAAGAATCAGCAGCAGCAGCAGCAGCAGCAG
CAGCAGCCGCAACAACTACACCCGATCCCGTTTTGAGTCGTTCCGCGATA
GCCCGCCCTCGATTTCTCGAACGAAAATAGCTGGCTTTGAAACCAGTTCC
TGGCCCGACGATCGGAAGTCTGACGTCTCTAACGATGGCGACTTCATTTT
TTGATAGCCCCTGGTGTACCCATTCCTTGTCTCTCAAAGCCACGAAACGT
GCGTTAAAGAACATCGCTGATGTCGGGGGGTGCTATCATATCGCGGAACG
ACTCTTTTTTTTGTCTTTGTTTTTTTCGTGTTTTCGTCTTTTGAGGTTTC
AACGAGAACCAGCAAACAGCAGCAGCAACAATAACACCCGATCCCACGTT
TTTTCTGTTTTTTTTTTTTCATGTTTTTGTCTCTCGAGGTTTCCGCGATC
GAGTCTCTCCTGGTAGCAGCCGGTGTGTCGGCGGTGATCGGTTGGATAGG
AGAGGAGGTAAACGCCACCACCACCCAGGAGGACATCGACACCAAGGTCC
GTCGCTGCCGTTGTTGTTGACAAGGTCCGCTGGCATGTCACTCGCGTTTT
TGGATGCTGGAGGTGGGTTTGTCCTCTACCATAGGGCTCGCACCCGACTT
GCCCCTACGCGGGTACCCGACCTCGGGTACCCGGAACCGAGTAGCCCCAC
CGGGTACGTACCTGGTTTCAACTTTTTGAGTCGGGTGCGACCCTGACTAT
CGCACCCGACTTGCTCCTACCCGGGGACCCGACCCCGGTACCCGGAACCG
AGTAGCCCCACCGGGTACGTACCCGGCTCCAATTTTTTGAGTCGGGTGCG
ACCCTAAGTGTCGCACCCGACTTGCCCCTACCCGGGTACCCGACCTCGGG
TACCCGGAACGGAGTAGCCCCGCCGGGTACGTACGCGGTTACAATTGTTT
TAGTCGGGTGCAAGCCCTGGTTTGTCCCGCGTTGATCACCGTTTGGACCT
ATGTCGGCACAGCTCTGCACTGCACCCCCACACCAGGCGGTCTGCTCACC
CTCGAAGTATTTCATTTCATTTTTCAGGACATGTCATACACAGTACGTGC
CTGCTTTATGAACACGGGCGCGACAGTAGGCTAGTGTGAGAATGAACAAC
AACAACAACAACAACAACAACAACAACAAACTACAATAACAATGATTGCT
AGCTTCCACTTCTTAACCGGTCTTGGCTTGTTTGTCTTTTGTATTCAGGC
TGGAGGCGGTGCCACCGCTGCCGCGACGTTGGTCTCCGGTCGTTCCGAGC
GTTGTATTGGATTCTGACTTTCGTTGATGCCACTGCTGTCGTGACGGTAG
TGCTCGTTCACGCTGTGCGTTGGATTGGATTTCTGGCCGATCGTTGGTTG
CCTCTGCTGCTGTACAGCAGTTGTGACTTAAATCGTCCCGAGCGTTGGGT
TGGATTTCTGACTAATCGTTGGTTGCCACACCGCTGCTGCTGCTGTATCA
TAGTACGCGACGTGCGTTGGATTGGATTTCTGTGCTCGTGTGTCGTTTGG
ACGCGGTGACACAGGTGCAAGTGACGATAGCCTTCACCCTGTGCGTCGGG
CTCTGGCAAATGCTGATGCGCATCTTCGGAGTCGGGGCGATCGCGACCTT
CCTGTCCGACCCAGTCCTGTCCGGCTTTTCCACGGCGTCGGCGTTTCTCA
TCGGCACCTCGCAGCTCAAGCACCTCGTGGGTTACGACCTGCCCAACGCC
ATCCTCCCTGTCACCTGGTGAGAACACAGCAGCACTCGACTGCTATGTAA
CTCTGTGTCTGTTTGAAGACGGCTCCTCGTCAGAAGTGCCGGGAGGAAAT
TTACGCAGGGCCTCTTTCATTCCCGAGTGGGTGGGAGACGTGGTCTCGAT
GGGGGATGCCTCCCTGCCAGGTGTAGCGTTGCCCCGTCTCAAACTTATTC
CGGTACCCGATGCGGGTACCCGGGTCCCGGCACTACCCGGTCGGGCCCGG
GTAGCATATTTGCTACCCGGATAATCGAAATCGCAAAGCGGTGTTGCCCC
TTCGGTAAAATGGGGTACTCCCATGAAAATCACACACGGCGCCCCCTTAA
TTTAGTGGGGCATCGTATTTCACTATTCTGGGGGAGAGGGGGCACCGTAT
TGCACTTCCCAATTACAAGGGTACCCTTGGTCGGGTCCACCCCCTCGAGC
CCAGACGAGTACCCGGGTCCTGAAAATGTAGACGGGGCAATGCTCTACCG
CCAGGTACCCCCAGGGTCGCTGTAGATCAGTGTTGAATGCCGGGGGTTAC
CCCACAAATTGTTTGAATGTTGACGTTGTTGCTTGCTTCTGCCGTATCAT
ATAATAGCACCGTATCATTGACATCACCATTTCGCCCTCCTGCCGCATGC
CCCCAGGGTCCCTGTAGATCAGTACTGAATGCCGGGTACCCCACAAATTG
AATGTTTGAATGTTGACGTTATCGTCGCGCCGATACCTCATTCCGACGTA
TTATATCATAGCACCGTAGAATTCATCAATCGGGGGGTATGTCACTGCGT
GGGGTGGGAGGCAAGAATCCGGACACACGATCCGAGATAGGTACATATTA
GATGTGACCAAGCTTCTTTTCTTTTTTTTCTGCGAGAGGTGGACTATTTG
AAGCCGTTTTCTCCCCACAGGCAAGACTAATGAAAGAGGCTTTCAATACC
ACATTTTTATTTTGAAAGTATCGTATGTGCGTGTGTGTGTTATCATTCCA
TATTCTCTGGCACACTAGTCTGCACCCTGCGGTCCAAACTACAGGCTAGG
CCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGGGGGAGTTTAGG
CCCATCGACGGGGTCACGCAGGAGGAAGGTCAACACAGGGGAAGTTGCCC
CCACTTTCCTTCTGCGGTACATGCGGGAGATTTTTTCTCGCCAGCAGGGA
TCCGCGGTCCCTACCCTCGTCGGCGAGCCCGAATCTGCTTTACTAACAGC
ATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCGGGAATCGAACCC
CCATACATCTGCATCTAGGGGTTAACGAGGAGACTACTAGTCCACCGGGG
CAACCGGTGTATGTATGTACCGGCATCATTTACTCCTTATTTATTTATTT
TTGAGAAGTGGACAGATTTATAAGTCGTTTTGTTGCCCAGATGAAGAAAG
AAGTAGTGGCATATTTATTCAAGTACTTGCTATCGTACCATATTTTTTTT
TTTCCACTTTTTTGGTTCACTTTTTTGGCGTCAGGATCGAGGCCGTGACG
AACGTGCAGAACTTCAACATCACCTCCGTGGGCATCGGCGTGAGCGGCAT
CTTGCTGCTTGTGGTCTTCAAGAAGCTCAACACTCGATATCTTCCACACC
TACCGCTACCCTCGCAGGTGTGCACTGCTTTCTAAAACTTGTTGCGATCC
AGCATGTCATACCGGGCTTGTTTCGTTTTTCGTTGTTATTTTTTTTTTGG
GGGACGTATAGGAGTCCCCCATCGGGTGAGTCAGCAGTACGGACACTAGA
AGGTACCTCTCGGGTGAGTCAGCAGTACGGACACTAGAAGGTACCTATCG
GATGAGGCAGCAGTACGGACTTTAGAAGGTACCTCTCGGATGAGTCAGCA
GTACTGATTTCCTCGGTCACAGGCTACCCGCCGAAAAAGGATACAAGTAC
GATACGAAGTATATCGCATCAAAAAAGGATACAAATACAGGACAATCCGA
CAAAATAAAGAAGATCCCGAAGGGTTGAGGGGTTGTCACGTCGTCACCCT
CACCTGTTTCGGATGCTAGTCTACACCCTTCATTTTTCGTGGGAGCAGCA
GCCGGGGTCCCAACAGACAGGAAGAAGAAAGGTCGACACTGACAGTTTTT
TTTTTTTTCATATACAAAACAGTAGTGTGTGTCGTTTTCACGTTTTCACA
CTTGAAACCGTTCCGATCTCCACTCGGTGCCTTTTTATGTCCGGACTGCT
GACTCATCCGGTCGGGGACTCGGTTGGAATGGTCACACGGGAGGAAGGAA
GGCCAACACTGACAGTTTTATTGTCCACGTACAGATAGCAGTGGCGTTTG
TTGTGCGTCGCATCCTCACCGTATTGATGGGTGCGATTTTTTCCCGCACA
CTGCTGTGACCTACCGTAGGTTCACATTCGACAAGTAGCCGTCATTTCGT
TTTCTTTTTATCTGTGATTGTTTTTGTTTGGCACGATTCGAGACAAATTA
AATGATTCGTTCCTGTGTGGGATCATGTGGCTTTGACCGCGATGGAGTAT
TTTGTTCCAGCGACATCCAACAACGACAAAACACATGTATGTACAAATAA
TTTCGGTTTAGCCGCCGTACGGCATTCACCGGAGTTTCGTCGTCGAAAGT
GTTCATTGTATGTATTATACTTTCATTTGAACTATTTCACTATTTACTTC
TACATTCAATGGTCATTCTGTCGTTTCAGTATCTTCAAGACGGACGTCAG
ACACCCGTTTGAAGATAGGGGGGTGATGTGAATGCCACCATGGAATGTCT
GTAGATCGTGACGTACTCAAATGGCCCGCCAGAGAGATCTCCGACGGGGT
GTCACAGATTAGAGCCAGCCGCTGGTTTCAGTCCCTGGAACCTTCCGCGA
AGCGTTCTTCCGTGCGAACTCTCTACTCACCCTCTCGTTTGTACCCCGTT
GGGTCCCTCTTGCCGTATCAAGAGCGAGACTTCGGTGTGTACTCCACACC
GCACACACGCACAAGAAGAATGCCTGTAGAACCTGAGTGGTCACACTCAC
TACACTTGAAACCGTTCCGACCTCTACTCGGTACCTTTTTATGTCCGTAC
TGCAGACTCATCCGATGGGGGACTCGAAATCCGACAGTACGGAACAGACC
CCGAAGTGTTGGAGGTCACTTTTTTTTTGTTGTTGCTGGTGTGTCTTCCC
ACTAATGAAAATCCGACAACATGGAACAGACACTAGAGTGTGGAGGTCGC
ATTTTTCTTTTTTATTTGGGTGTCTTCCCACAACAAATGTAAATCCGACA
ATATGAAACAGACCCCAAAGTGTTGGTATCACCTTTGTTTTTTGCTGAAG
TGTCTTTCCACCAAAGGGGTAAAATCTAACATGATTAACAGACCCCGATG
TGTTTAGATCACAATTTATATTTGCTGTTGTGTCTATCGTGTTTCCCCTC
CTTTTTCCTTTTTTGCGAATTTTATTGACGTTTCTCAATCTTAATCTTCC
CTCTCTCCCTTCCTTCCTTTCTCCCTAAATTTACGGTGGCTTTATGACAA
AAATAAAAATAAAACATGAAAAATGAAACGCCCAACTGGGACAGGCCTGA
CTTCCGCGGGACGTGTTGTGCTTTTGGCATCAATGGAAAAAAAAAAAAAG
CTTATAATAGAGAGACACACAAACAGGTCACACTTCGAGTACAGTGTGTG
TGTGTTGTCATCCCTTTGATTGGACGCCACTCTACACCTTTCGCGTAGGT
CGACGCTCCAACTGGGGTCACACAGGGGGAAGTCAACACAGGAGTTTTTT
TTTTTTTCTCCACTTCCCTCTGCGGTGCTTGCCTTGTGTTTGGTTGAGCT
TTTATCGCGAGAAAGGGGACAGCAATCCCTTTCCCTCGTCGATGGTTGCA
TCATATGTTGCTGTATTATATGATAGCTCCCCTGCACAGCAACAGCAGTA
GTTGCTCTGTCAGGTCGAACACCACAACATAATCAACTATCTTTACCTGT
TTCACGTTCAAAATTTAAAATTTATCTTTTCCCTTTATTCTTCATTATCT
ATTTGCTTTGTAAGGGTCATATTATACGGATCCTTCTAAATATTAATAAA
AAAAATTCAAAGATGAGTCTATTATAACTAGACTGCATCTAAAACCGCAG
AGGGAAGTAGAGGAAAAAAAAAAAAACTCCTGTGTTGACTTCCCCCTGTG
TGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGCCGAGCGGCGTCCA
CTTAAAGGGATGACAACACAAACACACACACCTAAACCATTTATAAATGT
ATACTGGTGTAATTTACTCTAACAAGGTAGTTATGATGGAGAGTGGTCTG
CTGTCACCCCGCGGCGTCAGCCGATGCCACCACGGACATGTTTATGCGGT
TACGGTCTTCATGCTCTCTCCCCTTTCGCCGTCGTTTCTCAACCCACCCG
ACCCCACCCCACACCCGACCCAGTACCCGCCCCCGCGTTTTTCTCTCGTC
CACTATATTTCACCCGTGGGACGTTCGTTCGTTGCGGGCCCCATGACGTC
ACCGCTAGTTATCATACAGGGGAGGGGGGTGGTGATGGGAAAATCGTCGA
GCTCTCTTCCGTTTTATTTTGTCGAGTTTCGTGTGTAACAACCCACTTTT
TCGACACCCGACCCCACCCCACACCAGACCCACATCCGCCCCCGTGTGTG
TTTTTGCTCTCTTCCATTCTGATTCTCACCCACACAGCAGGGGCGGTGGT
GATGGTCGTCATGCTCTCTCTCTTCATCTCTCTCTCTCTCTGTCTGTCTG
TCTGTCTGTCTGTCTCCATATACGGAGTATTTTTTTATGTATATACTTCA
TAGGAGTATATATCTCTGATACTCGTCATGCTCTCTCTTACAGCGGCCTG
CCCGTACAGAGTAAAGCGGAGGTATCATGCATTATGAAAATCTCTCTCTC
TCTCTCTCCCTCCGCTTTTTAGCCTCGTTGTTCTCGACCAACTCCATCCC
TCCCTCAACCACCCACCCACCCACCCACCCCATGCGTCTTCTGCGCCCGT
GTCGACCGACGTTCTTTGCCCATGACGCCATCGCCCGCGGCAAAGGTTGT
GGTGGTCGTCCTGGCGACCCTCGTTACGTACCTGTTCGGCTGGGACAGCG
ACCCTTACAACGTCAAGGTCCTCGGTGATATTCCCGTCGGACTGCCCCCC
CCCGCCCTGCCGTCCCTCCCCAACGTGAGTGATGACGTCACGGGACCCCT
TGATGTGTCTCGCCCTCTGGCGGTGTTGTGCGTTCTGTTTTGTTTTTTTT
GAAGCACGGGAGTCTGATGTCGCGCTCTCTTCGCCTGTCTGTAGCAGTAC
CATTTTTTCCTGTATCAGTGACAGAAGTGAAGGACTTTCTCGTTGTTGGC
GTTGTTCTTGTAACAAGTGAGAGCGGCAGGCTAGGTATAGACATCCCCTC
CCCGGCCGCGTCTCACACATTTTTTTTTTAATCCCGTTCGTGATTCAAGT
ACGATACGACTTGGCAAGTGCGTAGTTATTTGTGCCTTCATTTGTTTCAC
ATAATGTATGATACAAAGTGAGAGGTGTCTCCCGAAGCAGAAGGCAGGCG
CATGTTATCGCCTTTTTTTTTTTTTCCTGTCTCTAATGGTTTCATTTTTT
TTTGTCTGTTTACCTGTTTTGTTGTGTTGTGTTGTGTTGTGTTGTGTTGT
GTTGTGTGTTACATGTTTGTGCTTGTGTTTGTGTTGTGTTGTGTTGTGTT
GTTCTGTTGTGTCGCCCGTTGTGTCGCCTGCTGTGTTGTGTCCTGCCGTG
TCTTGTTGTTTTGTGTGTTTGGGCGTTTTGATGTTTTGTTTTTGTTGATA
CCCCCTTTTTTTTTTTTTGAAGGTGGACGGGGTCGGAGGATTCTCCAGCT
ACGCGGGTAATCTGGCGATCCAAAGCCTGCTCGTCGCAGTGATGACGTAC
ATCATCACCATCTCCATCGGGAAGACTTTCCAGAGGATCAACGACAACGC
GTACAAGATCAACGGCGCCCAGGTCGAGTCACAGCTTGTTCCTCGTCTTA
CGTTGTGCGTTACTTCCGACGTTTTTTGCGATGCACGAGCAAGCATCATG
TGTCGGCATTTCTTGCCTTTTGTTTCCTTGTCTTTTCGGAAACACTGCAT
ACCAAACAGTGTATGGATTTTCAAGACCCACACTTACAGTAGAGGCCCTC
TTTCGGAAACACTACTCAAGACTCAAGCATCAGGCTGTCTGAGCCGAGAC
GAAGAGGTATCATACCCTGGAAGCCTTTGCATTGAAGCGGGGGCAGCGCT
GATACAAGCGGGGGAGGCGGGGGTCAACAGCTCGCGGCAAGTGTCCGGGC
CCCGGTTGTACTTTTGTGAGCATCACACTTTCGCCACTGCTGTGCCAGAG
CAGTCAGCCTGCCTGTCGCTGTTCTGCACATGCCAACTTCTATCCCTTGC
AGTGACCCTAACCCTAACTCAGCCCTTCAACCCTAACCCTGTCTGGTGTA
TATACTTCGAAGTATATCAATAACAAAAGCACCAACACACATGCAGTTCA
TGTTTTCACATTCGAAGCTTTTCCGCAGTACAGCAGCACTACGAACATTT
CGAAGCTTTTCCGCAGCACAGCAGTACCACGAACATACGGGGGGTTGTTT
GGGGTACCCGCCACTTGATACTGATCTACGGGGACCCTGGGGTCTTTTGT
GATGGGACGGCTCGTTTTACTTCTTGTCAAGTCAAATGCGAAGGACTTGA
CTGTCCTATGACTACGGCAACCGGTACAATCCCAACACACATTCATTACA
CATTTTACATTCGACGAGCTAGCTTACGGCAGCACTACCACAAACATGGG
CGCCAACACACATGCGGTCCACGGTTGACATTCGACGCTTTGTGACGGCA
AGGACTTGCGCTGATGGCGAGGGGTACTGCTGTAGAGTTTTTTTTTTTCA
CCCTGACCTACGACAGCACACGGCCAAGGACAGCAGCACCAACAAGTAAC
ATTAACAACATTGATTACGCTTGCACGAACTAGCTGTTCATTTTAAGTAT
GCGTCTGCGGTGTGTTTTCCTTATCCTAATCTGCAACATGCTTCACTAGT
AATATTACGCATCTACGGATGTACGCCACGAACTGGCTGTTCATTTCATC
AATGTGGCTTGTGTTTCCCAATCCTCGAGGACGGAAGCACACGGTCGAGG
ACAGCAGCACGCCAGCACCAACATGTATCGTTGGTAATATTACGCATGTA
CGGATGTACCCCACGAATTGGCTGGGCTGTGGAAACACCGACCGGAGACA
GGCCACTCGTCGTGGACCTTGACCAAAAGTTGTGATCGTCTCTGGTGGCG
TTGAAACCCTCTTGACCTCCATTATCATCCCGAGTGCCTTCCTTTTTTTT
TTTGGTTCCATTACTGATACGAGTACCTCTATTAGGATCCCCGAATGTCA
TCCTCTCATAATTCGTGCCGATACCGACCGCAACCCGTGGCAATAGAAAT
GCCGGTAGGAGAGAGGCTTCTCGTTGAGTGCCTCGTCCAATAGTTTTGAT
TGTTTCCGGTTGCGCGGAAACCATGTCGATCTCTCATCATCATAAATTAC
CAAATGTCTTCCCTACTCTTGTTCGTTTGGTCCATTACATTTTTTGGCCT
CTATTATCGAACCGAATGTCTTCCTCAACACAAGTATGTAATTTTGGCCC
ATTACATTTCTGGCCTCTATTATCACCCCGAATGTTTTCTTCTTGCGCTG
AAACAATTGCGGCCTCTGTTGTCATCCCGAACATATTTCTTTCATTTTTA
GTTTGGTCCGTTACATTTTTTTGCCTCTATTATCATACCGAATGTCTTCC
TCTACACAAGTACGGAGTATATTATTTTGGCCCATTGCATTTTTTGGCCT
CTATTATCACCCCGAATGTTTTCTTGTTGCGCTGAAACAATTGGGAAAAA
TGAAACAATTGGGGAAAATGAAACAATTGGGAAAAATGAAACAATTGGGA
CCTCTTGTTATCATCCCGAAGATATTTCTTTTACTTTTTTTTGGGTCCGT
TACGTTTTTTTGCCTCTAGCATCATCCCGAGTGTCTTTCTCTCTGTGTGT
ATTTGGTCCATCACCAACAGGAAATCGCGGCCATGGAAACGGCGGCAGGA
GCAAGGCTTCTCGTTTAGTTCCCTCGTTTAATTTTTTTTATTGTTTTTGG
TTGCGTTGAAACATTTTTTTGCCTTTGCTATCATCCCGAATACCGTCCCT
ACTTTCATCACACGTTTTTGCCCTCTAATATAATCCCAAATGCCCTCCCT
ACTTCCATGTGTCTGGGTCCGTCACATTTTTTTGCCTCTACTATCATCCC
GAACGTCCTCCCTGCTTCTATTCGTATGGTCCGTGACAGTTTTTGCCATT
ACTATCGTCCCGAATGCCTTCCCTTCTTTCATCTGTTCGGGCCATCTCAT
TTTTTTTGCCCTCAAGTATCATCCCGAATGCCCTCCCTCCTTCTATTTGG
TTGGTCCATGTCATTTTTTGGCCTCTATTGTCATCCCGATAATCTTCCTC
TTTTCTTGTTCGGCTCTTTACATGCTTTGTCCTCTATCAAACATACATAG
TGTCATCCCGACTGTCTCCCTCTGTCCATGTTTGATTGTGTTTGGTCTAT
CATCCTACCAACAGGAGCTCGTTGCCATGTCCAGCGCGAACATGGTGGGG
TCTCTGTTCCAGACCTACCCGGCGTCGGGCTCTCTCAGCCGGACGGCGGT
CGTGCAGTCCATCAACGCCAAGACCCGCATGCACCTCGTCCCGGCCGTGC
TTGTCGTCATGCTCGTGGTGGTGGCCATCACCCCGCTGCTCTACACGCTG
CCCAAGGCCATCCTGGCTTCTGTGGTGAGTTATCCCGCACAGCAGTAGTT
GCATCATGGCTCTTATCTGCTGATCCTTGAAGTATTTTTCACTCATCGCG
GTACTGTGAGGACGATTCTCCTCGGAATTTCCGGGCCCTCTTTCGTCAAG
GATGGGTCACCGGGGAAACCCCGAAGTGTCTGTGTCTGTGTCTGTGTTTG
TGTCTGTGTCTGTGTGTGTTTGTGCGTGTTTGTGTGTGTGTTCGGCAGAA
GCAAAAAAGCTCCGCGTGTGCACAAAGGTGCAGTCCAGCGCCCATAATAA
TTGGGACGACGGCACATCAATCAACACACGTGTGTGTAAGCTCGCATTGC
TCCGGTGTGGCGTGTGTCCGCGTATACACAGAGAGGTGTAGACCACCGCC
CAGAATAAACGGGATCACAACACATCAATCAACACACACATGTTACATTC
GTGTTGCTCAAAAGTGGGTGTGTTTGTGGATGTGTGTGTGTGTGTTTTCG
TCCCGATTAATGTTCGGCACCAAGTGTACACCTTTCGGTATCAAGTTGGG
TGTGCCAGGCCGGGCTCACACAGAAGGAAGGTCACACGCCACACGGGGTT
GTACAGTATGCAGACGGTATACCACCGCTATACGACTTGCGGCATCGTAT
CACACTGCGTAGAGGTCACCATCACCTCTGCTTCGTTCCACACGGCAGTT
TGTTATCCCGCACAGATTGCACCCATGGTCCTGACGTATGCACATGTATC
AGCTGCAGCCTCGCGGAATTTCTGAGGGTCTCTATTCTTTCGTCAGCCTT
CTCATGCAGCTTATGTATTACGAATTACAGTTTGATTTATTCCGACTTCC
GACTCTCCTTGCCGTATCGTATACTTCAAGTATTTCACACTGCTGTATTT
GGAGAAGTTTCGGTCAAAACAACTAATGTCATAGCCCCCCCCCCCACGTG
ATAAAAATGGAAAACGAACAACCCAAAACAATACGAATACCTGGTATGGT
ATGGTATGGTATGGTATGTATGACGGGTCATGTTCGGAGTGGTGAAGATG
GTCGACTTCCGGGACGCGAAACGCCTGTACCGTTTGAGAGGAACGTTTAT
GCTACCATACAGCACCGCCCTGTTTATGCTACAGCAGTGCCCCGTTTATG
CTTCAGCAGCACCCACAGCAGCACCCCGTTTGAGCGCACCTTTCCTCCCC
GTTGATGAGCCTCGTTTTTATTCTCCGCCACATTTCACCCTGTTTATGCT
ACAGCAGTACCCTGCTTATGCGCACCTTTCTTCCCCGTTGATGAGCCTCG
TTTTTATTCTCCGCCACATTACTCTATTATAACTCTTGTCTTACAAAAAG
AAATGTCATCTCCCCCCGCCCCCCCCCACCGCTCCACGTGAAAAAACGAA
TAAATGTCATAACTCACGCACGATAAAAAACAAAACGAATACATAGGTCA
TGTTCGGAGTGGTGAAGATGGTCGACTTCCGGGACGCGAAACGCCTGTAC
CACTTGAGCAAACCCGACTTTTGCTTGTGGAACGTGTCCTTCTGGGTGAC
GGCTATCGTGGGCCCGATCGAGGGTATTGCCGTCAGCGTTGTCGTTAGGT
GAGGCAAGGCGGAGACGGATGCTGACACACTGCGGTGTGGTGTGGTGTGG
TGTGGTGTGAAACGGTTTGGGTAAGCATGGTGTGGTATTGGTACGGTGGT
GCGATACGGTACGGGACGGGACGATTGGTATACTGCTGGTATTGTTTGGT
AGGGTATCTTATTGTGTGGCACGGGACGGTATGGTACTGTATGGCATGGT
ACTGTGTGGTGCGTTATGGTATAGGGTACTGAATGGTAAAGCATGGTATT
GTAGTATGGTATACTGTAGCATGGTATGGTCTATGGAATGGGACGACATA
GGACACCCACCGAGGTGTGAAGAACGCTGCGTAGTTTCAGGTACAGCACG
AACGATACCGATTTATAAAACAAAATGGACACCCCCTCCCCCACCCCCAC
CTCCCAATCCGTTTTCATATTTTTTTTGGTGAGTGACTGCTCCTTCCCCC
CCTTGCCCCCCCCACAGCCTGCTGTACCTGCTGATGCAAACGTCGAGACC
GGCGAACTCGATCCTCGGGCGTCTGCCTGAAACGCGCGAGTACCGCAACG
TGAAGCGGTTTCCCATGGCGAAAGAGATACCCGGCATCCGAATCTTCCGG
TTCGACTCCAGCCTGCACTTCGCCAACAAGGACTACTTCGAGAACCGACT
CAAAGCCTTGGTGAGAGTGGCAGAAGAGACATATATCATCAGTCCGTTTT
TTTTTTCGTTTTTTTACTTTGATGTGTCGGTGTACTTACCATGCATACGA
CGTGAGCACCGACTCTCGAAGCCTTCGTGAGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGAGAGAGAGATCAGGTTTGTTTCTTTTTTGTTTTTGTT
TGTTTTGGTGTCTTCATGTAACCCATACAGTACTCGTATGTACCCTCGCT
TCCTTTTCTTTTGTGTTGATTTCAATGTGTACATAACTTGTTGCACTTTT
CCGCCCAAACAAGGAAGGGCTACTATCGTATCGTACCGTATCGTATCGTA
TCGTATCGTGTGGTGTCGTACGACGTGATAACCGACTCTCAGAGCCTATC
TGATGAGTGCAGAATCAACTCAAGAGGGAGATGTTATGTAATTTTTTATT
ATCTGCGTTTTTTTCTAATCTGCTCTAGATCCTCGTCAAGAGAGAGGCGA
ACACACTGATGTGTTTGAAAAGATCAATGAAACAGCCTTTCTAACTCGCT
TTTTTTCGTGGTAACTTTTTTTTTGTGGAGAGAACGAGAGCCTTCGAACG
TCAGCTACTATTGTCGTCTTTGGGGTCAAACAGCAACGGAGTCGTGCATC
AACAACAACCCCCCCCTCCACTCCCCCGCCTCCTCCCCCCGGTGCCCCAT
CCCATCCAGTCCTTCGCGTGTCGTATGTGTGTTGCGAATAAACGACCCTA
ACCCTAACCCTAACCCTAACCAATACTAGATACAATCATGAGGGTTCCAA
AAAATGGCAACAAAAGTGTAGTCGTAACTCAAAGCGATGGATCGAGCTCT
TGTTTGCTTGCAGCACAGACCTGATGACCTCGCGAGCGCTCCCTCCTTTC
CCGGGGCTCCATCCAAAACGACCCACCCGCTCAACGAAATTTGCGTACTC
GAGTATATCATACACGATCGTGCCAGACGCTCCTTCGGTCAATACCAACA
ATAAGTATTGTAACGAACGCAAGCATCAATACCAAAAACAAGTACTGCAA
CGATCCCAAGCAGCCGCAGTAGTATACTAGTACAGTACTCCGTATATGTC
AAGAGATGGAATGAGCGCTTGATTGCAGTACAGACAGATCCGATGACCGT
GTGCACCCCCCCCCCCACGGTGCCCCCAGGAAAACGACCCGCTCGACGAA
GTTCGCATACATACGATCGTGCTTGACGCCTCTTCGATCAACCAGCTCGA
CGCGAGCGCCATCGACATGCTCATCCTCGTGGCCAAGTCCTACGAGGAGA
GGGGAGTTTCCATCCTGTGCGCCAACTGGAAGGGCCCCCAGCGAGACCTG
CTGGAGCTGTCGGGCTTCTACGACGTGATTCCTCCGGGCAACCTGTTCCT
CGGCCTCCACGACGCCGTGGTCGAGGCTCGAAAGAGGCAAGAGAAGAAGA
AACGAGTGGTGCAATGCGCGATTTTTTATTTTTTGTTATGTAGGACCGTA
CAACATACATACATATATATATATATATATACACGACGTTATGTACTTGA
AAGAAGTATCATCATGCTTCGGGGGTCACGCAGTTTAAAGCAGTACGTAT
GATATTTTTTTTGTTTTTTTTCTGGAAAAAAAAGGAGCAGAAAAAAATCA
CGTACTTACGATACAGTTGAAGAATCAGGCTGCCGAAAAAAGTGGCGTGC
GTAAACAAACGCCTCGCTACGTCCTACCATATTATACCTTGCCAAAGATG
GTACTCTCCTTCGATCGCAATGCTGCATGTACTCGAAGCACTATTTACTA
TTCACAGCAGTGCCTCTTGATTCATTTGTAACGCGCTGAGCGGTTAGCCT
TCATTATGGGTATACTACATCCCTAGTCGATTACACATTCTATTGACGGA
TCAACAACACCAACAAAACTGCTATACGAGTAGACCCCCTTTGCCATCTC
GAAAAGGGACACAGAACTTGGCGAACCATGTGTACACGTGCGTATATGTA
TACGCACCCCGAAAGGTGTGTGCACTGCTGTGCATACGTATCATCATATA
CTTGGTTCCGCCTTTATTTTTTCTTGGTCTTGCTGAGTGTGTATTATACG
AGTATTTACGCCACGTCAGTGTTTGTTGTTGTTGTTGATTCTCACATTAG
CTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAGTGCTGAGCCCTAAGA
AGATCCAAAAAACGGAAAGAAACTACAAGGGAACACCCGAGAAAGACCGA
GGAAGATACACCTTCCAACGTGGTGTGCATCACTGAACTACAGCAGTCAC
AGCAGTACCAACAGCAAACGTTCTTCCAGCGTGGTTTATTTGGCTACAGC
ATCGTGTTCAGTCTCCTCCCGCCCCACTTAAACAACAGCCAGTAGGTAGC
TGCAGACTACAGCAGTTATTTGGGGTTCGACACTGAACCACCCGGGGGGG
AAAACCGATTGTTGTTCTTGCCAGTCTACACCTTTTTAGGTTTGTTAAGA
CAGTAACGTAAATTCGAACTCCTCAGCCTCGTTTTACCCTCGTCGGTTGA
TGCCCCACCCTTCCTCTTCTGTGTCGGTGTTAGCTTCAACTGTTGTCCTG
TTGGTGCCCCGCCAACTAATACGAAGTACTGACTTGGTACGAAGTGTATG
ACATACGTTATGCACATATAATACTGTAGGTTGCATAAGATATCACACCG
GTGTGATGACATAACATTTCCGGATTTAGAAAAATGATCACACCGGTGTG
GTATTGTGTAATTTTGACTGGGGGGTGGTATCTTCTGTCACCCTTTTCAT
TGACTGACTTAGACAGACTTGCGCCTTTTTCGGGATTGAAAAAGATAGCA
CACGGGTGTGTGTGGTATTGTGTAACTTTTCGGAGGGGGTGTGGTATCTC
AAGTATGAAAGTGTGATATTTTATGCACCCAACGGTAAGCGCTTCAGACG
GGGTCACGATAGTCAGGACAAATTTTTTCGGTATACTGTAGAGACCGTTG
TTTTCCACCCGAGACACAATTACAATTTGCCCCCGGGGTAATTTTTTTCC
TATTCGTTCCCCCCGTTTTTTTGTTAGTTATTGTTCTTCCGATTTTGGCA
TCACTGCGAATGAAAAGCGCCGGCTCTTTGAGGCCGGCAAGCTGTTTCAT
TGCTATTCCTAGGTAGTCGTCGCTAAGGCCGAACCAAACGCACACTCGGG
CCTGGATTCCTTGGATAGCAGTGACTGCAGTAGCAGTGGTGCGTGATCAA
CGAAGACCACGTGATCAGTCAAGATCACTTGTTTGTTCAGAGAACAGATG
CTTTTTAATTATTGTACCTATTGATTTCCGCCGTTGAGAAAGAGAGTGCC
ACGATGTGGTTCACTCAGCACACAGCACGCCACACAGAAAACAGACCATC
ACACACTGTACTGAAATGGAAAAGAGAACCGCTACCCCATGTTGACGCTC
AGCGACCCCCGCCATCGTGGGTTTGAAGAAAGTTGGAGATACCGGTACGG
TACTGACTGCTGTAAGCGTGTTCGCTGTGCTTGCATTTTGTGTTTTGCGG
GCTAACCTCCTCGGGAGATATCCCCCCGGGGTGATGTCATGAAAAAAAAA
AGATCCCCCTCCGAGACTCAATTTGACCCGGCGGGGGGAGCGTTTTCGGA
AAAAAAAACGTAACCCCCGCCGGGGGTAAAACAACGGTCTCTACGGTATA
TACGAAGTAAAATAGAGGTATCATGTGAAGGCGCTTCAGCCGGGGTCGCG
GCAGGTAGGATTTTTTTGTTCTCCACCTTCTTCCTTCTGCGGTGCTTTCC
TTTTTGGATGATGTTTGTCGCTCAAGAAGGGTTCCGAGGCCGTCCCCTTT
TTTTTTCCTTTTTCCTTTTTCCTTTTTCCTTTTCCTTTTCCTTTTCCTTT
TGTTCCTTTTGTTCCTTTTGTTCTTTATTTTCTTCTTTTTTTCTCTTGTC
GACATTATCCAAGGCGGATTCGTAAACTCTTACGAGTACTGCACTCGGAC
GAAACTTTATTTATTTATTTTTTCGTGGAAAAGTACGAAATACGAAATGA
TAAAACTTCGAATTAAAAAAAAAAGTCTTGTACAGCAGTGTGATGAAAGA
CAACTAAAAAAAAGTAAAAAACCAAGACTGCTGTAAGATTATTAAAAAAT
ACATGACCTTATGTGGATCCGAACCCATGAGTTTGAGATTAGGCGAGTGT
CGATCAATTTTGGTGGTTATTCTCGTGATCGGCCACATTCGACGCTGCTG
GAAGATTATTCATGCAAATGTTTTGGGATGGCATGCGGGCATTTTTACGT
GCCTCATCGCGAGAGCCAGCGATTACGCTACGCAGGACAAACTCGTCAAC
CTGCACACATTGGTTGAAGCGTGTTCAGACGTCCCCCTCCCGATTGAAGC
AACGCATACGGGCTGTTCTTACGCTAATGCGAAGCACCGTTTCCCGCGCT
CCGTTGAGGCTACTGGCCTAATTCGATGCAACCCGCTTTTGTAGCTTCAA
TTCTGAGTGTCTGCATTCCTCTAACAAACCCAGACAATGCAACGACCGCA
ACATATGCGCATGAGTTTGGAAGCAAAGGGTATGGAGAAGGGATAGGTAA
GGTACTCACGAATGTCAAGTTACTACCGCTGATTCCATGTCCCTGTACTG
TAATTCGTAAGCAGGCTTTTTTAGATTGGTGTCCGGTATCATATGTGTAG
TGCAGACACACTTTTGGAGAGCCACCGCGGTATCAGCTCCACCGACACTA
GGCAAGCACGTGCGGAATTGTGTGCTCCTGAAGCAGCTGCTGGTCCTCGC
CGGGTTCGGAGCCCTGAAACATGTTGATTCTCACATTAGCTCACTACCGC
CGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAA
AAAAATAAAAAAATAAAATATATGGACTATGATCACCCACAGTCAGATCA
GATATGGTACCGTTGGGGTACCATCTGTGGTGGCCAGAATACCAAACAAA
TACAGAAAAAAATAACAGGCTCGAAAGAAAAACAAAAATTGGAAACAGTC
CGATAAACAAAAAATAACCAAGACAAACCTCAACCAGAACCATATACTTC
GAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAGACCAAGGC
AAACGCAAACCAGGGCGATGGTGCAGTAACTACATGATCAACAGACGAAA
GACAAAAAATAAAATAAAAAGAAGATACAGGGAGGGCACAAAGACTGAGG
GAGTGCATTCGTAGATAAACACAACAAACAGGGCCAAACAAAGAGGAAGC
AGGGGAACGAAAAGGGAAAAGAAGATCGGAAGTACCGAAAGTCGGGAGAG
GGGGGGGGGGGAGGGGGAGGTGATAGAAATAAAATAAAAGGCATGCAATC
AATCGCAAACGTGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCTCC
TCAGTTGCACTCATGCCTCCTGCTACTGGCACCACCATACCCAGATGTTT
CTGCCCCACATCTTTGGCAGCAGCAACACCACCACTCCGCCCTACAGGTT
TTCCACTCCGGCCACCCCGTAGCTTGGCATTGGACTGCTTCTTCTTGTGC
TGTGCAACTCCAACCCCACTACCCCGCTGCCCTTGTGCCCCCCCGTACTC
CTCCTCTCGTTTATCCCCGCCATCCGTTCTCCCTCTTTTAGTCAAGGCCT
GCCTCTCAGCCGCGTCCCTCTCCCTTTTCAGTCGACGTGTCTCTGATAGG
TCTCCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCTCGTC
GATCCTGTCGTACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACCCCT
CTTTTTTGTCGACCACGATGTCGAACGCTTCGAGGTCCTCCTGCATTCGC
CTCAGCCAGTCAAACTCTTGCCTCACCAGATACCTCGCTCCCCCCTGTAA
TTCTCCCAAAAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAA
CGAATCCTGCGAAGCACAGTCGCCGCTTGCGCACGGTGGCCTCAAGGCTC
TCGTTGCAACCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGTCGGTC
TGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGGAGGAGGAAGAAGTGGT
GGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCAGATTCCATGTGACA
CACCCGTAGAGTAGGGTCTCCACGACTTCAGCTTGGAGGAGTCGTACTTT
TAGTCGAAGAGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTGCGCCG
GAAGCAGGCGTGCGCTCGCTGCACTCGGTGGTTAATCTCGCCCTCAATGC
TACCGTCCTCACAAATCTTACCCCCGAGATAAACAAAGTCTTTCTTCTGC
TTGAAGACCATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCCATCCC
TTTCGCGAGCATACACATGGTCTCCGTCTTGGGTTCTGACACCAACAGCC
CAAACCGCCCGGCCACACGTACGATGATCGACATCATCTTCTCAAGGCTC
CCAGGTGATTGAGATACAATACAGGCGTCGTCGGCGTAGAGCATACTCCA
GATGGACTTCACTGCCTCCACCAATCGGGCGTTCCTCCCCTTCCCCTTCG
TCACCCTCCTCTTGACCTTGGCCATGTCCGCAATCACCTCCGCGTCCTTG
CTGATCTCGGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGCTGGAA
CAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTCCCTGCCCCACATCAA
ACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCATTCCG
TCGTGGAATTGGCGAATGACTGCAAGCATCTTGGGGGGCACTCCGAGCCG
CTTGAGCACCGACCACAGTAGTTCCCGGTCTACGGAGTCGTAGGCTTTCG
TGAGGTCGATGAAGCAGGCGTATAGTGGGGTTGACTTCTTCCGCGCAAGC
TCGTGTAGGCGTCGAACCACGAACATCATCTCAACCGTTGAGCGGTTTGG
TCGGAAACCGCTCTGTTCCTCCGGCAGGATGCCCTCTCTTTCGCAGTAAT
CGCTCAGCCGGGTGGCGACCAGCTTCAGGAGTACCTTGCCAGCGTGGGCC
ACAAGGGAGATGCCTCGGTAATTGCCGCATTCCGTCTTGTCCTTCTTCTT
GTGCAGCACCTTGATCGAAGCATCTTTCCACTGCTGTGGCACCCTTCCCG
ATTGCCAGATGTTGATGATGATACTGTAGAACTGCCGTAGGAGGGCTTGG
TCTCCGTCAAGGAAGAGCTTGATAAGCTCCGCCGGTAGTTCGTCCGGGCC
CACAGCTTTCCTGTTGGCCATTCCCCGGATCGCTTCCTCAACCTCAAACA
GCGAAGGGACGTCATCAAGCGGTACGCACTGGGGCCAGGGCTCGATCTTG
TCTACCACTCTCGGATCCAGGGTCGGTGACTTGGTGTTGAGCAGAGCATG
GAACCACCTGGCCCACCGCTCGAGGATAAGTGCGGGGTCCCGAAGAAGAT
TTCCATCCTCGTCCTTGATGTTCTGTGAGGTGAAGGCCCTCTTCCCCTCC
ACATCCAATCCCTTCATGTGCTTGTAGAAACCGGCCTGGTCCCCTTCGCG
GCTTTTCTTCTCGAGCTGACTCACAAATCCATCGAAGAACTCATTCACAG
CACTGAAACATGCGGTAGGAGGAGTGTTTGTGTTGTCGTCCCTTTAATTG
GACGCCACTCTGCGCCTTTCGGGTAGGTAGACGCTCCAACTGGGGTCACA
CAGGGGGAAGGCAACACGGACGGGAGTTTTTGTTTTTTCCACTTCCCTCT
GCGGTGCTTGCTTTGTTTTGGTTGAGCTTTTATCGCGAGGAAGGGGAACC
CAATCCCATTCCCTCGTCGATGGTACGATCGAATTTTGTTTACTCACGAA
TTGATCGCTTCCCCCTTTCACGCGCAATGTGGGAGCCCTTTCACGCGCAA
TGTGGGAGAAAGAAGCTCAGATCGTATCATTACTGCACTGGGATTCGAAC
TCACGCGTGAATGTCAGAGGGTTGTGCGGACAACCACCTGAACCACCGGG
GCGACCGTGCATCGCGATGATGTGCCCAAATTTTGAAGGAAAGTCCACCG
TTTCGGACAGGTTGATATCGACGCGCACGCCCTAGCTCGGGAACGAAGTG
GCGCTCTGGTGGCGCTCCGCAGGAGCTTGTCGACAGGTGGTCCATTCAAC
GATCACAATTTACAGCTGACAAAAAGAAGCAACACAGGAGGAATGCTCGA
CAGATGAGCTCCTCGTTTTGGCTCGAAATGCGGTCTAGTCTAAACTTGAA
TAATCCGCACACTGCTGTACTCCACAGCAGAACAGAGCAGTACAGCAGCA
GCAGCAGCAGTGTGCGGATTTTTTGTACAGCAGTGCGATCGTTTGTGTGG
ATTATTCAAGTTTAGACCGCATTTTGAGCCAAAATGCAGAGCTAATCTGT
CGAGCTTTCCTCCTGTATTGCTTCTTTTTGCCAGCTGTAAATTGTGATCG
TTGAATGGACCACCTGTCAACAGGCCCCTGCGGAGCGCCACCAGAGCGCC
ACTTCGTTCCCGAGTTAGGGCGTGCGCGCCGATATCAACCTGTCCGAAAC
GGGTGGACTTTCCTTCAAAATTTGGCCACATAATCATGATGCACTCCTGC
TACCGCGTGTTTCAGGGCTTCAAACCCGGCGAGGACCAGCAGGTACTTTA
GGAGCACACTTTTCCGCACTTGCTTGCCTAGTGTCGGTGGAGCTGATACT
GCGGTGGCTCTCCAACAGTGTGTCTGCACTACACATATGATACCGGACCC
CTACCTGAAAAAGCCTGCTCCCGAATTACAGGGACATGGAATCAGCGAAA
TTTCTTATTTACTTGAAATTTTCCTGGAGTACCTTACCTATCCCTTTTCT
ATACCCTTTGTTTGGAAGCACCCTATGCATTGAAAACATGATTTTCTGTT
TAAAGCTTGGGTATTTTTTTTAATCGATTACGGGACTAATGTCTGTACTT
CGTGTTACTGCATATCACACACATGCACAGCGGTAGCATACGTTTTTTTT
AATCAAATCAATCGAAGAATGAATACAAATTTTAGGAAAAATGCAGGTTT
ATCGTTAAGCCTCAGGGGTTTCGCAAAGTACACTCATGTTGAAGATGCTT
ATTCTACTTGTATCATATAGCAGTTTTTTTTTTTGTTGAACACACGGCTC
TGTTGGAGGCAAAATTTTCCGAGAAATGTACGCGGACTGTCCTTTATGAG
ATAAAAAAAAACTGGAAGCTCTGCCGTTTCGTGTGCCACCGAGTCTGATG
CAGCCTCTGATTGCTCTCGTGGAGCGCTGTTGCTGGAGGCACACACCCTG
CATCGACATGGCCTACAGGGTTCCGCCGTGGCCTTGCTCGGTCAACCTGC
CCCTGGTCTCGGTTTGCAGCATGCCATGGCGGTGTTATTTTCCCACAAAG
GACGTCTCAACGACTCCTTGGCGGGGATGGATTCATCGAACCTCGATGAA
GAGGAGAATGACACGCCTCATGCAGCTGGTATGATAGGGCTATCATGAGA
CAGCCGGCCGTTGACGCCGAAGCTCTATCGAGTATGCACGGTGGATAGCC
TTTCCGCTACCGAAATAATGCAAGCCCTCAAGTACAATGTCGTGACAAGC
CTTGAAGAAGCTGCAACCTTTTTCTCCCTGCGGTTGATCGCAGCATGAGC
GCGGAGCGAGCGATGCGATGCATGGATGCCGCCGCGTCCAACGGGAGAAG
ACATCACTTCTTCTCTCTTCTTCTCCCTTTGCTTTGCCGTCGCGAGAAAT
ATTAAATCCCTCTTCTCTCATGTCATAGATTCGGCATATTCGTGCGCTGC
TCTGAATACACCTCCGGGCATGGCCCCACGGGTTAGGGTTAGGGTTAGTA
TCCCTAACCATAACCCTAACCTTAACCTTAACCTTAACCGTAATCCTTGA
AGCCTACTGCTGAGGTGGCTGAGCCCAGATCCGAGCTCCCACTCGTAATC
CATTGGGTGTTAGGGTCGGCAGCTCTGTCTCTCGGGTGACCCCTCCCGCT
GCGGACAGCTTAGCTCGAGATAACTAACAGCCAGATAATGTTTGAATCAC
TCCGGAACAGCATATATATCTGAAAGATCCTTTCATGGTGTAAACAGGTT
TCCGCCCAAACCAGCCCTCTGCTTTTCGTGGCAGGAAGGATCTTTAGACC
AAATCCAATTCCGCCTTCCTAGTCTTTATACCGTGAATTCCGAGCTGCAA
AAAGCGGGAATTCCCGCTTGGGCACAACTTTCAAGCAGGAATCCGAGCTG
AAAATACCGCGTTCCACATTTCCACATGATAATGGTCCATCTCGGACGAC
AGCAGTTTTGAATAATAGACGGGTCCCATTTTTGAAACAGTTGACACGTA
TTATATCATACGGCGAAAACCAGAGAAGTATGAGGAACTCTGGTGGCCGA
TAAATATCTTCTGGGTTCTATCATACGTTTCACCTTCAATATACCGTAGG
CGGTTTCCCCATTGTTCCTGTCTTTCACAGAGTTCTTTCAAGTTCGGGAA
ATGCCCCGCGCCGCCCATTACAGGTTTTTCTGTGTGTGTGTTGTCATCCC
TTTAATTGGACGCCACTCTACACCATTCGGGTAGGTGGACGCTCCAACCG
GGGTCACACGACAAGAAGTCAACACGGGAGTATTTTTTGGTTTTTTCTCC
GCTTCCCACTGCGGTACTTGTCTTATTGTTTCATCGCGAGAAAGGGTACA
GCGATCCCTTTCCCTCGTCGACACTTGGAATTTTGTTTACTCACGAATTG
ATCGTTTTCCACTCTTACGCATGACACGAGAAAAATCCCGGATCGTGTTA
CTGCACCGGGATTCGAACTCAAGCGTAAGTGTCAAAGGATTTTCTGTACG
TGGAAAAAATCGCAAAAAAATCCGGACAACTTTTGTGCGTTTTCTGTTTA
CTGTACCCCCTTCGCAAATGACATGATGGTATAAATATGACACCGCAGAG
TAACATGCCTCGCACGTTCAGGTCCAGGGACGTCACGGAAGCGCCGCTAT
CGCCTCCGGATCCACTGGCTCCGGCGTCTGCAGGATCCACGAGCAAGGTC
GAGGGCGGCTGTATTCTGCCGAGCGTGCCGTCGCAGAAGGAGCCCTCGGC
GTCCGAGACGGTGGTCGAGATAGGTCCCGACGGGGAGACCAGGGAGTGGA
GGGTCGGCGCCGTGGAGATGAACCCCAGCGGCGAGATGGAGAGAGAGTGG
GGCTTGGGCCGCGTCTAGTGGTCGTTGAGGGCGGGGAGGTGCGAGTTGCG
TGGGTGGTCATATAGGGCCTGACCTTCCTTTTATCCCTCTTCTTTGTTTT
TTGCCTAACCTCATGCTACATACGGAGTACTATTCTTTCATGCTATGCTC
TGAAATCATCCTTTGCTTTAACTCCGTTTATGCTCGTTTGTGCTCGAGTA
ACAGGCGAGATACGCTCGTTTTCTGCTGACTGCTGGCAATCATTCTAGTG
TATGCTTTTAAAAATTGATGGCAACTTATGCTCAAAGAAATGCCAGGGTG
AAAAGTCAGGCCCTGCTGGTGGTGGCAGTTGGTGGATGACGGGGTATTCC
GTCGTCGCCATCCCTGTTGTTGAAAGAGGTACCATAAACATCAGCAGTAG
TACAACAGTCGCTGCCGGGGGAGGCGCCGCTGCCCTGCTGGCGGGGGGGC
GGCCGGCTTGGCGCCGTGGCGATACGGGCGGTGTGGCGACGCTGGCAGTG
TATGATATCATCACCACCCCCACCCTGTCGCATCGTGCTGTCTTTCATCG
CACCACACAGCAGCTCGATCTCTTGCTCGAAATTGTGGCAGGTCGTCGAT
CAATCAATCAATCGATCAATCAATCAAATCATCCCTGAACGGACCACCTA
TTTTTTTCCGCACAGTACACTTGTATGTAAAGTATATCAATCGCATCTAG
TCAAAGCTTCTGCACTGTACTGTATGCGCTTGCTTGTTTGGAACGAACCA
TGTGCAACGAGGAGGGCGCGCATGGGAGAGAGCGAAGACGGAGGTTTAAG
TAAAAACGTTTTTTGTCTCAGCTTAACGCAGACTTTTTTTATGACGCGCG
TCGCACCGTGTTGCCCTGACCTCCACGTACCACACATCCGCGCTTTTTTA
TCTTTCACCGTTCGCTGCTTCATCCAATGGCATCACGTGATTCGGGCCCT
TCTACAGCAGAGGCGGTTGTTCGAGGCGAGTCGGGCGGAAAGAAACTGGT
TGGATTGGTGCGAAAACCCACAGCGGTGGGACGGGACGACGTGGCTCGCG
CTATACATATCGGACGCATCCACCGCCTACCGAAAAGCACCAGAACCGAC
CTGCGCGCGTAGCGGGGCTTGCGCCTGCTGCCGTGCTGCTGCTGCTGCTG
CTGCTGCTGCTGCTGCTGCTGCTGCTACTGTGCACGCTTTGTGTGGTGGT
GTGTCTTCTGCTACTCTCTCCCCAAGGCGTCGAGCAGTACAGTACCTGGG
AGATCCTACCTTTGGGCGGATGAAGCGTGAACTCCATTTTAACGCCATTC
CTGGTTTGATGAACGCACACACGCACACACACACACGCACACACACCTGG
GAGAATTACAGCGGCGTGGTTCTTCCGTCTCGAAGCACCAGACACAAAGA
TCCCGACCCTTCTCGAAGCCAGGAAGCGACGAAGTCTCGGCCGTGGCTGA
TGACTTCACTCACCGATCAGGGGGTACTTTCCAGTTAGAATTCAGTGGCG
TCACTACTGTCACCGAGAGGATGCTCTGCGAGGCACGATGTGACTATGGT
AATTTTGGCATGATGTGATGATTGGTGTTGTGTGATGGTTGTTTCGCCAC
AGCAGCGGGAAAAGAGTATACAAAAAGGTTGGCAAGGCACGAGTAGGATG
GTCTATGTAATAATATTTAAACATCCATGTTGGACGTCGACACCTTTCCC
CTTTGAGGAGAAACGTCGATCCAGGGGGGGATACCGGTCTGTTGGTTGCC
TTCCAGTAGTCATTCGACAACTGACCACACATGTCATATACATTTTACAT
GCCTT
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Coding sequence (CDS) from alignment at P-littoralis_Contig679:48994..85998+

>mRNA_P-littoralis_Contig679.4.1 ID=mRNA_P-littoralis_Contig679.4.1|Name=mRNA_P-littoralis_Contig679.4.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2493bp|location=Sequence derived from alignment at P-littoralis_Contig679:48994..85998+ (Pylaiella littoralis U1_48)
ATGGCGAGCGTAGGGGACGATGGAGGAAGCAGCCCGACCCCTTACGACTA
CGACCATGCACCAGGGTTGGTGGGAGACATGTGGCTGGACGCCGAGGAGG
AGCCAACCACGGACTCGCTGAGCAATTCCAGCGCTTCGGACGGGGCGGCC
CCTCCTCAGCTTGTCGACGCCTCCACGAGCTTGCGCGAAGGGCCCCACCG
TCGTACCCGCCTCGACACTCTCGAGTCCATGGACGGAGACCACTGCGAGG
GGCCGGGTCTGGGTCGCAGGAGGGGGCGGTCTTTCCTCAAGACGTACGAG
CAGCTGAGGAGCTTGCATCCGGAGACGGCGCACGCGGAGGAGGAATACTC
CCTGGAAGAACGGGGAGGGCTGGTGAAGTCCATCACCACGGACATCAAGA
TCTACTCGAGCAAGCTGTCCCGCGCGGCCGCGCAGAAGCTCAAGAGGAGG
CGAGAGCGGGGCTGCCTGCCGTCGTTCGATTGGCGGAAGTGGATAGAGAG
GCTCCCGTTCCTCATCACGGTCCGCACGTACCAGAGAGAGTTCTTCGCGT
CGGACCTCGCGGCGGGGTTGACGGAGGGCATCGTGTGCATCCCGATGGGG
ATGAGCTACGCTCTCTTGGCGAACCTGCCGGCTGTGTACGGGCTGTACAC
GTCTCTCGTCCCTCCGCTGATGTACCTTCTGTTCGGGACGTGCAATCAGC
TGTCGCTAGGGGTTTCCGCGATCGAGTCTCTCCTGGTAGCAGCCGGTGTG
TCGGCGGTGATCGGTTGGATAGGAGAGGAGGTAAACGCCACCACCACCCA
GGAGGACATCGACACCAAGGTGCAAGTGACGATAGCCTTCACCCTGTGCG
TCGGGCTCTGGCAAATGCTGATGCGCATCTTCGGAGTCGGGGCGATCGCG
ACCTTCCTGTCCGACCCAGTCCTGTCCGGCTTTTCCACGGCGTCGGCGTT
TCTCATCGGCACCTCGCAGCTCAAGCACCTCGTGGGTTACGACCTGCCCA
ACGCCATCCTCCCTGTCACCTGGATCGAGGCCGTGACGAACGTGCAGAAC
TTCAACATCACCTCCGTGGGCATCGGCGTGAGCGGCATCTTGCTGCTTGT
GGTCTTCAAGAAGCTCAACACTCGATATCTTCCACACCTACCGCTACCCT
CGCAGGTTGTGGTGGTCGTCCTGGCGACCCTCGTTACGTACCTGTTCGGC
TGGGACAGCGACCCTTACAACGTCAAGGTCCTCGGTGATATTCCCGTCGG
ACTGCCCCCCCCCGCCCTGCCGTCCCTCCCCAACGTGGACGGGGTCGGAG
GATTCTCCAGCTACGCGGGTAATCTGGCGATCCAAAGCCTGCTCGTCGCA
GTGATGACGTACATCATCACCATCTCCATCGGGAAGACTTTCCAGAGGAT
CAACGACAACGCGTACAAGATCAACGGCGCCCAGGAGCTCGTTGCCATGT
CCAGCGCGAACATGGTGGGGTCTCTGTTCCAGACCTACCCGGCGTCGGGC
TCTCTCAGCCGGACGGCGGTCGTGCAGTCCATCAACGCCAAGACCCGCAT
GCACCTCGTCCCGGCCGTGCTTGTCGTCATGCTCGTGGTGGTGGCCATCA
CCCCGCTGCTCTACACGCTGCCCAAGGCCATCCTGGCTTCTGTGGTCATG
TTCGGAGTGGTGAAGATGGTCGACTTCCGGGACGCGAAACGCCTGTACCA
CTTGAGCAAACCCGACTTTTGCTTGTGGAACGTGTCCTTCTGGGTGACGG
CTATCGTGGGCCCGATCGAGGGTATTGCCGTCAGCGTTGTCGTTAGCCTG
CTGTACCTGCTGATGCAAACGTCGAGACCGGCGAACTCGATCCTCGGGCG
TCTGCCTGAAACGCGCGAGTACCGCAACGTGAAGCGGTTTCCCATGGCGA
AAGAGATACCCGGCATCCGAATCTTCCGGTTCGACTCCAGCCTGCACTTC
GCCAACAAGGACTACTTCGAGAACCGACTCAAAGCCTTGGAAAACGACCC
GCTCGACGAAGTTCGCATACATACGATCGTGCTTGACGCCTCTTCGATCA
ACCAGCTCGACGCGAGCGCCATCGACATGCTCATCCTCGTGGCCAAGTCC
TACGAGGAGAGGGGAGTTTCCATCCTGTGCGCCAACTGGAAGGGCCCCCA
GCGAGACCTGCTGGAGCTGTCGGGCTTCTACGACGTGATTCCTCCGGGCA
ACCTGTTCCTCGGCCTCCACGACGCCGTGGTCGAGGCTCGAAAGAGGTCC
AGGGACGTCACGGAAGCGCCGCTATCGCCTCCGGATCCACTGGCTCCGGC
GTCTGCAGGATCCACGAGCAAGGTCGAGGGCGGCTGTATTCTGCCGAGCG
TGCCGTCGCAGAAGGAGCCCTCGGCGTCCGAGACGGTGGTCGAGATAGGT
CCCGACGGGGAGACCAGGGAGTGGAGGGTCGGCGCCGTGGAGATGAACCC
CAGCGGCGAGATGGAGAGAGAGTGGGGCTTGGGCCGCGTCTAG
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