mRNA_P-littoralis_Contig188.5.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig188.5.2
Unique Name	mRNA_P-littoralis_Contig188.5.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A6H5JNF6_9PHAE (GT13 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JNF6_9PHAE)

HSP 1 Score: 590 bits (1521), Expect = 1.770e-197
Identity = 285/435 (65.52%), Postives = 344/435 (79.08%), Query Frame = 1

Query:   37 AFPDPADGVDLPHVGGTAGPMETFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDK-----KPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAAMSPYARFKPAGLLPAPINALRGGLVEAEVG-MQVTPGDSALLSCDDICSTK 1323
            A PDPADG  +   GG AGP+E FLA G KLP+VLLTC+R +LL  TIESLR+VRG+DM+ VMVLQDGT+ +V A+VR++ LYL+QNT+ PGLRGGPK GD+GA+RIAMHY+F+L H F   P+AP VVIVEDDLLFSPDFLEY+E NAP+LERDPTTLVLSAW+DNGY  RVSD AELKRT +FPGLGWLL+RKLF+EL PKWP  HWDHWLRD KQ+  REC++PEVPRTYHNG++GTFM Q MHD+LFKNI YN D SFSW      GG     PP YAKG+  NYE R+EARI  ARHIN+L++LPTS   ++ EQ+VMWYTL++TE    +     KP PFKPL+D FG+WHEYRRGEH+GMH+ RY  ++HVM+INAA SPY + KP GL+PAP+NALRG L  + VG +  TP + A +SCDD+C+ K
Sbjct:   78 AIPDPADGGGVGGGGGAAGPLELFLARGEKLPVVLLTCDRHDLLEETIESLRNVRGMDMSTVMVLQDGTNDKVAAVVREQNLYLKQNTQAPGLRGGPKPGDNGAKRIAMHYKFALQHAFERHPQAPAVVIVEDDLLFSPDFLEYLETNAPVLERDPTTLVLSAWNDNGYTGRVSDKAELKRTLYFPGLGWLLTRKLFDELGPKWPSQHWDHWLRDPKQHLGRECIYPEVPRTYHNGVRGTFMDQAMHDRLFKNIGYNQDASFSWKSAQP-GGXXXXSPPGYAKGMTENYERRMEARIASARHINNLNDLPTSLTPQENEQLVMWYTLQETEGPPARRGAKPKPSPFKPLSDVFGIWHEYRRGEHSGMHSLRY-WNAHVMLINAAKSPYVKLKPDGLVPAPMNALRGEL--SHVGPLMKTPAERAAMSCDDVCAAK 508

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7S2DMU5_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2DMU5_9STRA)

HSP 1 Score: 404 bits (1037), Expect = 2.580e-125
Identity = 217/501 (43.31%), Postives = 289/501 (57.68%), Query Frame = 1

Query:   91 GPMETFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLF-EELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQ--ARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNG--MHAFRYDGDSHVMII------NAAMSPYARFKPAGLLPAPINALRGGLVEA-EVGMQVTPGDSALLSCDDICSTKGMRCKESTFELLNACELLKEHFPCTKCAESYGSEQPCYVELNAPALNYPGQCLVSSNPRDSTCSASHHLTRRLCPCVP 1557
            GP+E+    GG LPI +L  NR ++L  T+ESL   RG    DV+VLQDG ++ V  + R  G+    +     +RG  +   DGAERIA HY+++L H   S P +PG+++VEDD LFSPDF++Y +   P+LERDPTT V+SAW+DNG + RV D A L RT FFPGLGWLLSR+L+ EEL  +WP  HWDHW+R   Q+K RE V+PEV R YH G KGTFM    HD  FK IDYN DP F W        A++A P  Y   +   YE+ + A        H+  LD L  +        VV+W+    T+  + ++PP FK +A + G+WHE+ R  H+   +H FR+ G   ++ +          S +A++KP+ + P      +    +   VG   T       SCD +CST G++C    F  +N C  L+ HFPCT C+E+YG EQP YV   AP  + PG CL SS P DS C ASH  TRRLCPC P
Sbjct:   61 GPLESHFNNGGYLPIAILAANRPDMLRETLESLLKARGARRGDVLVLQDGDNAGVAQVARSFGIEPVFH-----MRGHLRVHMDGAERIASHYKWALQHALDSSPSSPGIIVVEDDFLFSPDFIDYFKAVGPLLERDPTTFVVSAWNDNGLKDRVWDKARLCRTGFFPGLGWLLSRRLWTEELASRWPDQHWDHWMRSPAQHKGREAVYPEVNRDYHAGKKGTFMDAHHHDLYFKGIDYNTDPEFRWQL------ADTAIPS-YLFAMQEVYEAYLAAVFTSPGTTHVAALDELEEAVG-----DVVLWHD---TDLDTRREPPDFKRVATYLGIWHEWPRTGHSDGTLHTFRWHGSKALVFLANVNTEQGGRSSWAQYKPSHVTPLHSREFKASAWDPLPVGTVPTAATLPSQSCDYVCSTAGLKCLADGFRGVNTCHALRAHFPCTDCSENYGPEQPAYVVPEAPLESLPGSCLYSSQPGDSNCFASHSSTRRLCPCGP 541

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: D8LRW8_ECTSI (Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase, family GT13 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LRW8_ECTSI)

HSP 1 Score: 358 bits (919), Expect = 9.390e-111
Identity = 182/336 (54.17%), Postives = 221/336 (65.77%), Query Frame = 1

Query:  181 ESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKK-----PPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAA 1173
            ESLR+VRG+DM+ VMVLQDGT+ +V A+VR++ LYL+QNT+ PGLRGGPK GD+GA+RIAMHY+F+L H F  RP+AP VVIVEDDLLFSPDFLEY+E NAP+LERDPTTLVLSAW+DNGY  RVSD AELKRT +FPGLGWLL+RKLF+EL PKWP+ HWDHWLRD KQ++ RECV+PE                                                                               +LPTSS  +  EQVVMWYTL++TE    ++     PPPFKPL++ FG+WHEYRRGEH+GMH+FRY  ++HVM+INAA
Sbjct:   85 ESLRNVRGMDMSTVMVLQDGTNDKVAAVVREQNLYLKQNTQAPGLRGGPKPGDNGAKRIAMHYKFALQHAFERRPQAPAVVIVEDDLLFSPDFLEYLETNAPVLERDPTTLVLSAWNDNGYAGRVSDKAELKRTQYFPGLGWLLTRKLFDELGPKWPREHWDHWLRDPKQHQGRECVYPE-------------------------------------------------------------------------------DLPTSSTQQGDEQVVMWYTLQQTEEPPARRGAKPNPPPFKPLSNVFGIWHEYRRGEHSGMHSFRY-WNAHVMLINAA 340

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7S1GCK1_9STRA (Hypothetical protein (Fragment) n=1 Tax=Bicosoecida sp. CB-2014 TaxID=1486930 RepID=A0A7S1GCK1_9STRA)

HSP 1 Score: 292 bits (748), Expect = 1.070e-85
Identity = 156/361 (43.21%), Postives = 220/361 (60.94%), Query Frame = 1

Query:  124 KLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFE-ELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINA--AMSPYARFK 1197
            + P+V+LTCNR  LL  T+ SL  VRG+D + + V+QDG  + VE +VR  GL L Q+     +RGG  A  DGA RIA HY++SLD++F S   AP ++I EDD LF+PDFLEY    AP+LE DPT  + SAW+DNG+  R  D+  L+RT FFPGLGWLL R L+E EL   WP  HWDHWLRD +++K R+ V PE+PRTYH GIKGTFM+Q  H++ F +I+ N DP F+W+   GV       P    +   + Y++R+ + I+ A  I +   L         E V + Y     E  +D     F+ +A +F +WHE  RG ++G+H   + G + ++++N   A + + +FK
Sbjct:    1 RFPVVVLTCNRAGLLDRTLLSLEEVRGVDDDLITVVQDGKVAAVEQVVRDHGLRLHQHEAKTNMRGGVPA--DGARRIAEHYKYSLDYMF-STTTAPAIIIAEDDFLFAPDFLEYFMAVAPLLESDPTLFLASAWNDNGFAGRTKDLRALRRTGFFPGLGWLLPRGLWERELSATWPHEHWDHWLRDPRRHKGRDIVTPEIPRTYHIGIKGTFMNQDTHNKYFASINLNRDPHFTWLDAEGV-------PVDTREAEQSAYDARLASLIKGATVITEPSQLDALL-----EGVGVMYFSASIENQAD-----FRAIATYFHIWHEILRGSYHGIHEIWWQGSARLVLVNVREAKAAFTQFK 341

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A6S8E5K5_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A6S8E5K5_9STRA)

HSP 1 Score: 293 bits (749), Expect = 1.300e-85
Identity = 169/385 (43.90%), Postives = 225/385 (58.44%), Query Frame = 1

Query:   85 TAGPMETFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSR-PEAPGVVIVEDDLLFSPDFLEYM-EVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLF-EELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAAMSPYARFKPAGLLPAPINA 1230
            T G    +LA G +LP+V+L CNR   +   + SL +  G+ + D+ V QDGTD+ V A+ ++ G+ + +N    GL+ G +   DGA RIA +Y  +L      R PEAPGV+IVEDDLLFSPDF +Y  EV AP+L+ DPT  V+SAW+DNG+  +  D  EL+R+ +FPGLGWLL R L+  EL PKW     DHWLRDKKQ+K RE V+P VPRTYHNG +GTFM    H + F+ I YN+D SF W         N      Y   +   YES +  RI  A HI    +LP    T     +V WY  K  +  S  +PP F  LA+ F LWHE++R +HNG+H   Y     + +IN+  S YA  KP  + P  ++A
Sbjct:   36 TDGVFGRYLASGKRLPVVMLACNRPIAMREALSSLLNA-GIQVEDIAVAQDGTDAAVTAVAKEFGVQVRRN----GLQHGHR---DGAARIAANYGDALRWAIEERFPEAPGVIIVEDDLLFSPDFGQYFNEVAAPLLDTDPTVFVVSAWNDNGFFAQA-DKRELRRSVWFPGLGWLLPRHLWIHELGPKWXXXXXDHWLRDKKQHKGRETVYPAVPRTYHNGAQGTFMDSWHHQKYFQPIQYNIDHSFFWE------SHN------YLSVVRDTYESNLRTRISNAIHIASFHDLPQHHNT----PIVFWYGWKPNDQASPFRPPAFICLAEPFHLWHEFQRTDHNGLHFALYQAQP-LFLINSYTSKYAAIKPDHIKPLTLSA 394

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7S3H8D0_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3H8D0_9STRA)

HSP 1 Score: 288 bits (737), Expect = 2.640e-84
Identity = 150/384 (39.06%), Postives = 222/384 (57.81%), Query Frame = 1

Query:  481 APILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLF-EELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSW-IPPPGV------GGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAAMSPYARFKPAG------LLPAPINALRGGL-----VEAEVGMQVTPGDSALL-------SCDDICSTKGMRCKESTFELLNACELLKEHFPCTKCAESYGSEQPCYVELNAPALNYPGQCLVSSNPRDSTCSASHHLTRRLCPCV 1554
            APIL  DP+  V+SAWSDNG+  +V D   L+RT +FPGLGW+L+RKL+ EEL P+WP +HWDHWLR ++  K R+ ++P+VPRTYHNGIKGTFM+ + H++ F++I YN D S +W I   GV       G+N     VY +G     + RVE  ++  +H+  + +L       K E + +W  +       +  P  F+P+A FFGLWHE+RRG H G+H F Y   ++++++N   + +AR +         LLP  +N L+        +  ++  +  PG+  ++       +C+++C     +C      L+N+C  L+EHF CT C  S G+EQP +V   A A   PG+CLV++    STC ASH  T RLC CV
Sbjct:    4 APILHIDPSAFVISAWSDNGFADKVHDPFALRRTDYFPGLGWVLTRKLYKEELEPRWPTSHWDHWLRSEETSKHRDIIYPQVPRTYHNGIKGTFMNLETHNKYFRDIGYNTDASITWPITASGVQNNNIDSGSNGVSKSVYMQGHSKVNQYRVEQLVKVCKHVTSVMDL----LKYKDEVICLWVDV---NTNCEGHPVAFEPIASFFGLWHEHRRGNHRGLHEF-YFNSNYLLLLNVFDNRFARTREGDVRTYHYLLPPTVNPLKSAKQFDKSLLRDLKRKALPGNVNMVKATELGQNCNEVCQAVNKQCSLPQLLLINSCSALQEHFSCTLCRNSMGTEQPAFVNPRAEAQFGPGECLVNTGEASSTCEASHPSTYRLCACV 379

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7S3PPY5_9STRA (Alpha-1,6-mannosyl-glycoprotein 6-beta-N-acetylglucosaminyltransferase n=1 Tax=Aplanochytrium stocchinoi TaxID=215587 RepID=A0A7S3PPY5_9STRA)

HSP 1 Score: 290 bits (742), Expect = 3.110e-81
Identity = 173/519 (33.33%), Postives = 254/519 (48.94%), Query Frame = 1

Query:  130 PIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTP------GLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVS--DMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAAMSP---------------------YARFKPAGL---------------LPAPINALRGGLVEAEVGMQVTPGDSALLSCDDICSTKGMRCKESTFELLNACELLKEHFPCTKCAESYGSEQPCYVELNAPALNYPGQCLVSSNPRDSTCSASHHLTRRLCPCV 1554
            P+VLLT NR E L  T+ SL  VRG+    V+ +QDGT   V  ++R   + + +   TP       L+ G     DG  +IAMHY +SL   F + P+AP +V++EDD LFSPDF+E+    AP +E D T  + SAW+DNG++  V+  D +++ RT  FPGLGW+L R ++ E+   WP   WD ++R+    K R+CV+PEVPR +H G +GTFM    H + F  I YN D +F W P             VY +  + NYE      ++ + H+ +   L   S       +V+WY ++    + +K     KPL + FG+WH+  RG   G+H F Y     V+ IN    P                     +  +KP G+               LP  ++ L       +V +     D    SC  +C +K + C      L+N C+ LKE+F C KC ES G +QP +V     +      CLV+S+P   +C    +  RRLCPC+
Sbjct:  218 PVVLLTYNRPERLNTTLGSLLKVRGIVKEKVLGVQDGTIESVTNVLRYRRVLINKRIETPMDRKRVTLKNGKI---DGGAKIAMHYGYSLRKAFETFPDAPAIVVIEDDFLFSPDFMEFFVSVAPTVETDDTLWIASAWNDNGFQENVNVKDHSKILRTDQFPGLGWMLLRSIWTEISQNWPANQWDWYMRNPLTSKWRDCVYPEVPRDFHTGTRGTFMDADTHKKYFDRIRYNTDANFRWSPN------------VYKEVRVGNYEKSFVETLKSSVHVTEGWQLEVPSDI----PLVVWY-VQNPHPSQEKS---VKPLMERFGIWHQLMRGSRQGVHEFWYRNKK-VIFINTYNPPKMSHEKMKKQLWFWGYRKQTKWISYKPKGIPVFKPMDLLYQMKQPLPKDVS-LEPNFAGVDVKITAASKDQTGESCSTVCVSKHLSCNAKYLPLINNCDTLKEYFNCKKCTESVGGDQPNFVSEEGDS------CLVNSDPSYFSCEGHFYSARRLCPCM 705

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7R9U447_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U447_9STRA)

HSP 1 Score: 279 bits (714), Expect = 3.030e-80
Identity = 152/365 (41.64%), Postives = 208/365 (56.99%), Query Frame = 1

Query:   91 GPMETFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIINAAMSPY 1185
            GP+E+F+  GG  PIV+L C+R   L  +++SL +VRG+D   ++V QDG    V  +VR+ G+ L Q+   P     P   D     IA+HY+F+L   F   P APG++IVE+DL FSPDF EY   + P L+ D + ++LSAW+DNG+R    D A L RTSFFPGLGWLL+R+L++EL  KWP  HWDHWLR   Q+K R+CVFPEVPRT+H G+KG+FM+Q+ HD+ F  I +  DP+FSW       G      P Y       YE+   ++I     I       T +   +    V W  L+ T          ++ LA F+GLWHE  R  H  M  F   G    ++I+  +SPY
Sbjct:   72 GPLESFVRAGGAFPIVMLACSRPHYLRESLKSLLAVRGVDRRHILVAQDGKQVDVAGVVREAGIELVQSHHPPA----PTRRDPSVP-IALHYKFALKKAFERYPTAPGIIIVEEDLTFSPDFYEYFSHSVPALDHDDSIMLLSAWNDNGFRDVSRDPAALHRTSFFPGLGWLLTRRLYDELIIKWPSQHWDHWLRSPDQHKGRDCVFPEVPRTFHGGVKGSFMNQETHDRYFDRIAHQRDPAFSWDDAQLWLGL-----PPYLVATKFVYEAWTLSQITAPSPIARTGQTVTWTQEEEPSTAVFW--LRPTNKQD------WERLAQFYGLWHERDRSAHKKMLRFWRHG-RRTILIDYGISPY 417

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A7S3XJJ4_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XJJ4_HETAK)

HSP 1 Score: 251 bits (640), Expect = 1.820e-72
Identity = 129/259 (49.81%), Postives = 163/259 (62.93%), Query Frame = 1

Query:  259 ALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGVGGANSAPPPVYAKGILANYESRVEARIQQARH----INDLDNLPTSSATRKGEQVVMWYTLKK 1023
            A+VR+ G+ L QN     LRGG  A  DGA  I  HY+F+L   F    +AP V++VEDD  FSPDFLEY E NAP+L+RD +T VLSAW+DNG+  +V D   L RT +FPGLGWLL+R+L++ELRPKWPK HWDH+LRD KQ+K RE V+PEVPRT+HNG KGTFM    H + F +I YN D +F W             PP YA+     YE R+ AR++ A      ++  D LP SS    G    +WY + K
Sbjct:    5 AVVRQLGVRLVQNEGRTKLRGG--AAQDGAALICSHYKFALGWAFDEHKDAPAVLVVEDDFYFSPDFLEYFEANAPLLDRDASTFVLSAWNDNGFWGKVRDRGALHRTEYFPGLGWLLTRRLWDELRPKWPKAHWDHFLRDPKQHKGRESVYPEVPRTFHNGKKGTFMDLGTHKKYFADIAYNTDATFRW----------PHRPPSYAQAAQEVYEPRLAARLRAAPAPAGGLDGWDALPGSS----GADAALWYRVDK 247

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BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Match: A0A812K4I4_9DINO (GNTI protein (Fragment) n=1 Tax=Symbiodinium necroappetens TaxID=1628268 RepID=A0A812K4I4_9DINO)

HSP 1 Score: 256 bits (654), Expect = 7.870e-72
Identity = 140/374 (37.43%), Postives = 207/374 (55.35%), Query Frame = 1

Query:   91 GPMETFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTDSQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFGSRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYRRRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKT----------HWDHWLRDKKQYKKRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPP----PGVGGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQVVMWYTLKKTEA-TSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGDSHVMIIN 1167
            G +  F+ +G  LP++LL   R E L  T+ SL  VRG  +ND++V QDG+D +V  +V    +    +   P +  G ++    A RIA HYR+S+D  F      PG++IVEDDL FSPDFLEY +  AP+L+ D T  ++SAW+DNG+   V +   L RT F PGLGWL+ R+L++EL+P WP            +WDHWLR  +Q++ R  ++P+VPR +H+G  GTFMS  +H+Q F++I YN D   +W  P    P +  A SA         L  YE R+  +++ A     +  L  + A+     + +W  +   +  T       F  +A FFGLWHE +R  + G+H F + G  HV ++N
Sbjct:   81 GDLSYFIQKGFSLPVLLLAHRRAERLLETLRSLAGVRGFSVNDILVSQDGSDEEVAKVVDSMNISRISHDAKPPVNSGWRSA---ALRIARHYRWSIDAAFKHFNHTPGIIIVEDDLRFSPDFLEYFQAAAPVLDCDSTLWIVSAWNDNGFDHLVREPKGLLRTQFMPGLGWLMLRRLWKELQPNWPNVDERRREAKMCNWDHWLRSPQQHQGRSVLYPQVPRVFHHGSIGTFMSLGLHEQYFQHIFYNQDSKITWQRPTVDSPWLDLAVSA-------ARLEQYEDRIVWQLRSAETPRSMPALVKALASGTASVLAIWINVNPEDVKTRSGAKQGFSSVAKFFGLWHEGQRALYRGLHEFWW-GKKHVFLLN 443

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig188.5.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5JNF6_9PHAE	1.770e-197	65.52	GT13 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 T...	[more]
A0A7S2DMU5_9STRA	2.580e-125	43.31	Hypothetical protein n=1 Tax=Dictyocha speculum Ta...	[more]
D8LRW8_ECTSI	9.390e-111	54.17	Alpha-1,3-mannosyl-glycoprotein 2-beta-N-acetylglu...	[more]
A0A7S1GCK1_9STRA	1.070e-85	43.21	Hypothetical protein (Fragment) n=1 Tax=Bicosoecid...	[more]
A0A6S8E5K5_9STRA	1.300e-85	43.90	Hypothetical protein n=1 Tax=Aureoumbra lagunensis...	[more]
A0A7S3H8D0_9STRA	2.640e-84	39.06	Hypothetical protein n=1 Tax=Spumella elongata Tax...	[more]
A0A7S3PPY5_9STRA	3.110e-81	33.33	Alpha-1,6-mannosyl-glycoprotein 6-beta-N-acetylglu...	[more]
A0A7R9U447_9STRA	3.030e-80	41.64	Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi...	[more]
A0A7S3XJJ4_HETAK	1.820e-72	49.81	Hypothetical protein (Fragment) n=1 Tax=Heterosigm...	[more]
A0A812K4I4_9DINO	7.870e-72	37.43	GNTI protein (Fragment) n=1 Tax=Symbiodinium necro...	[more]

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Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig188	contig	P-littoralis_Contig188:36655..54310 -

Analyses

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


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D8LRW8
Preferred name	MGAT1
PFAMs	GNT-I
Model size	3338
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K00726
KEGG Reaction	R05983
KEGG Pathway	ko00510,ko00513,ko01100,map00510,map00513,map01100
Hectar predicted targeting category	other localisation
GOs	GO:0000139,GO:0001701,GO:0002252,GO:0002376,GO:0003002,GO:0003674,GO:0003824,GO:0003827,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005794,GO:0005795,GO:0005797,GO:0005975,GO:0006040,GO:0006047,GO:0006049,GO:0006139,GO:0006464,GO:0006486,GO:0006487,GO:0006725,GO:0006793,GO:0006807,GO:0007275,GO:0007389,GO:0007399,GO:0007417,GO:0007420,GO:0007568,GO:0007610,GO:0007626,GO:0008150,GO:0008152,GO:0008194,GO:0008340,GO:0008344,GO:0008375,GO:0009056,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009225,GO:0009227,GO:0009790,GO:0009792,GO:0009987,GO:0010259,GO:0012505,GO:0016020,GO:0016021,GO:0016319,GO:0016740,GO:0016757,GO:0016758,GO:0018193,GO:0018196,GO:0018279,GO:0019439,GO:0019538,GO:0030534,GO:0031090,GO:0031224,GO:0031984,GO:0031985,GO:0032501,GO:0032502,GO:0034641,GO:0034645,GO:0034655,GO:0034656,GO:0035010,GO:0035282,GO:0035283,GO:0035284,GO:0036211,GO:0043009,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043413,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044260,GO:0044267,GO:0044270,GO:0044281,GO:0044282,GO:0044422,GO:0044424,GO:0044425,GO:0044431,GO:0044444,GO:0044446,GO:0044464,GO:0046348,GO:0046483,GO:0046700,GO:0048471,GO:0048513,GO:0048731,GO:0048856,GO:0055086,GO:0060322,GO:0070085,GO:0071704,GO:0098588,GO:0098791,GO:0140096,GO:0140103,GO:1901135,GO:1901136,GO:1901137,GO:1901360,GO:1901361,GO:1901564,GO:1901566,GO:1901575,GO:1901576
Exons	14
Evalue	2.51e-118
EggNOG OGs	KOG1413@1\|root,KOG1413@2759\|Eukaryota
EC	2.4.1.101
Description	alpha-1,3-mannosylglycoprotein 2-beta-N-acetylglucosaminyltransferase activity
Cds size	1467
COG category	S
CAZy	GT13
BRITE	ko00000,ko00001,ko01000,ko01003

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig188.5.2	prot_P-littoralis_Contig188.5.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig188 38502..54214 -

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


Feature Name	Unique Name	Species	Type	Position
1680789897.0530086-UTR-P-littoralis_Contig188:36654..37760	1680789897.0530086-UTR-P-littoralis_Contig188:36654..37760	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig188 36655..37760 -
1680789897.0749717-UTR-P-littoralis_Contig188:37832..38501	1680789897.0749717-UTR-P-littoralis_Contig188:37832..38501	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig188 37833..38501 -
1680789897.236865-UTR-P-littoralis_Contig188:54214..54310	1680789897.236865-UTR-P-littoralis_Contig188:54214..54310	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig188 54215..54310 -

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


Feature Name	Unique Name	Species	Type	Position
1680789897.0840557-CDS-P-littoralis_Contig188:38501..38600	1680789897.0840557-CDS-P-littoralis_Contig188:38501..38600	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 38502..38600 -
1680789897.0929337-CDS-P-littoralis_Contig188:39245..39386	1680789897.0929337-CDS-P-littoralis_Contig188:39245..39386	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 39246..39386 -
1680789897.110143-CDS-P-littoralis_Contig188:39954..40101	1680789897.110143-CDS-P-littoralis_Contig188:39954..40101	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 39955..40101 -
1680789897.1226544-CDS-P-littoralis_Contig188:43850..43921	1680789897.1226544-CDS-P-littoralis_Contig188:43850..43921	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 43851..43921 -
1680789897.1345677-CDS-P-littoralis_Contig188:44368..44516	1680789897.1345677-CDS-P-littoralis_Contig188:44368..44516	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 44369..44516 -
1680789897.1441267-CDS-P-littoralis_Contig188:45995..46092	1680789897.1441267-CDS-P-littoralis_Contig188:45995..46092	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 45996..46092 -
1680789897.1548748-CDS-P-littoralis_Contig188:47918..48058	1680789897.1548748-CDS-P-littoralis_Contig188:47918..48058	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 47919..48058 -
1680789897.1695173-CDS-P-littoralis_Contig188:48640..48727	1680789897.1695173-CDS-P-littoralis_Contig188:48640..48727	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 48641..48727 -
1680789897.1846948-CDS-P-littoralis_Contig188:49764..49845	1680789897.1846948-CDS-P-littoralis_Contig188:49764..49845	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 49765..49845 -
1680789897.1975243-CDS-P-littoralis_Contig188:50330..50474	1680789897.1975243-CDS-P-littoralis_Contig188:50330..50474	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 50331..50474 -
1680789897.2105124-CDS-P-littoralis_Contig188:52129..52285	1680789897.2105124-CDS-P-littoralis_Contig188:52129..52285	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 52130..52285 -
1680789897.219658-CDS-P-littoralis_Contig188:53378..53447	1680789897.219658-CDS-P-littoralis_Contig188:53378..53447	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 53379..53447 -
1680789897.2281544-CDS-P-littoralis_Contig188:54127..54214	1680789897.2281544-CDS-P-littoralis_Contig188:54127..54214	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig188 54128..54214 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig188:36655..54310-
coding sequence from alignment at P-littoralis_Contig188:36655..54310-

protein sequence of mRNA_P-littoralis_Contig188.5.2

>prot_P-littoralis_Contig188.5.2 ID=prot_P-littoralis_Contig188.5.2|Name=mRNA_P-littoralis_Contig188.5.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=489bp
METFLAEGGKLPIVLLTCNREELLGHTIESLRSVRGLDMNDVMVLQDGTD
SQVEALVRKEGLYLEQNTRTPGLRGGPKAGDDGAERIAMHYRFSLDHVFG
SRPEAPGVVIVEDDLLFSPDFLEYMEVNAPILERDPTTLVLSAWSDNGYR
RRVSDMAELKRTSFFPGLGWLLSRKLFEELRPKWPKTHWDHWLRDKKQYK
KRECVFPEVPRTYHNGIKGTFMSQKMHDQLFKNIDYNVDPSFSWIPPPGV
GGANSAPPPVYAKGILANYESRVEARIQQARHINDLDNLPTSSATRKGEQ
VVMWYTLKKTEATSDKKPPPFKPLADFFGLWHEYRRGEHNGMHAFRYDGD
SHVMIINAAMSPYARFKPAGLLPAPINALRGGLVEAEVGMQVTPGDSALL
SCDDICSTKGMRCKESTFELLNACELLKEHFPCTKCAESYGSEQPCYVEL
NAPALNYPGQCLVSSNPRDSTCSASHHLTRRLCPCVPA*

mRNA from alignment at P-littoralis_Contig188:36655..54310-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig188.5.2 ID=mRNA_P-littoralis_Contig188.5.2|Name=mRNA_P-littoralis_Contig188.5.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=17656bp|location=Sequence derived from alignment at P-littoralis_Contig188:36655..54310- (Pylaiella littoralis U1_48)
ATAGTTGTGGGTGTAGGTGTTGGTGGTGATCTTGGCGCTTTCCCCGATCC
CGCAGACGGCGTGGACTTGCCTCATGTCGGAGGAACCGCGGGGCCCATGG
AGACCTTTCTCGCAGAGGGCGGGAAGCTTCCGATTGTCCTGCTCACGTGT
AATCGGGAAGAGTTGCTGGGGCACACTATCGAGGTAAGCGAGAGAGGGCG
GGACGGGAGGGGAGGCAAAAAAGGGGGGAGGCAGCAAAAGACTGAAGCCA
CCGCGGTGGTGGTAGTGGTGATGGTGGTGGGGAGTTGTCAGATGGGTTTC
TTGCGTTTGAGGAAGTGCATACTACTGCAACGAAGTTGACTCGCTCACTT
TTATTTTTTTGTCATCAGTTCCATGTCAATGATGAGTAATTCGCCTTCTT
TCACTTCGTAGTGTACCGCGAATGGGCGTATAGTGCGGCACGCTTTTTAG
TCTGAACGCGCGTCTTTTTTCCAGATGCATGACTGGCGACCCGACACGGA
CTTACTTATTTTTACTCGTATTTGATGTGTTTTATTGACGTGTTTTTCTA
CTGCGTGTTTCTTGTGTTTTGTTCTATCGCATGTAGGCTTGCTTCGTCTC
TCGCTCTCTTTTATTCGGGACTCCTGGCTCTTGCACTTTGCCGCATGCAT
CCGCCATATACCCACCCCCCCCCCCCCGCCGAGACAAAGCGGCAAGAACG
TTAAGAGAAGGGGAGGAACTGGCGATGATCCGTCTCGAAAGGCGTGCCTA
ACCGTTGGTTAAATAACTTCTAGGTATGAGCTACCCCAACACACCCGCCT
CCCCGCCTCGCCTCTTACCCCCCCCCCCCCCTCCCCGCCCTCCCCCGTTA
TTTCTAACACAAGAGCCTCCGCAGTGTACGCGGCTTGGATATGAACGACG
TCATGGTCCTGCAGGATGGCACGGACAGTCAGGTGTGTCCGTCACCTCTT
CTATTTTTTGTGTGTGCGTGTATGTATGTTGCAACCTGAACATTTGGCTT
TCTTTAAAACTAGAGAGAGAGGGGGGTTGTGTTCGCTGAGGGGTGTTATA
ATCGGCGCATATCTTTCGAAGGATTCAAATGCGAAATTTCGGAATTTCGA
AACAGAGCGAACCACAGGTCCCATTTCGAAATTTCGAACCTTCGAAATTT
CGAAATTGAGCGCTCTGATTATAACACCCCTGAGCAGGAAGAATTGTTCT
AAGGTTCTACTGCTGTCCAAGATTCCACTGCTGTCTCTTCGGCACAGATG
CGTGTCTGCAGAACAGCTTGCTCTTAGACACGGTAGGTTTCGACTGCTGT
TGCAGCCACTTACAGGACACCGTTTTCCTTAGGACCTCTTTCTTTCTCTC
TATATCTCTACGTGCGTTCCTAACAGATTTCATTCTCGCCTCTCTCTCTC
TTACAACTCTTGTACTGTCGTTGGCCTTTGTTTTCGTTTCATTTGGCTCG
AGTTATCGTTTTCGATCCCGTTCTCATTCTCGTTCGTGCCCTTGCCATTC
TGTGTGAGCCTTGAAATACCGACCCAGATTCGCGGCGATCGTGCGAGAGA
AGGAGCCTTGCGTGTCTCTCCGTCTCACGTCCTTTTCATTGTCCTTGTCA
TTTTGTTTTGTTTCATTTTGCTTTGTCTTCTTACTGCCTGCTCTTGCTCT
TGCTTTTTTGTGCGAGTCTGTGAGCAGCAAACAGAGGTCCAGGCACGCTG
TTCATAATTGTTACAGTTTCGTTCTTCATGCTCGTGTGCTGCTGTTGTGT
AACAGCCTTCTAAGTAACGAAAGACGAAAGGTCGACGTTGCACGCCTCAA
GCTTGACTATCGTCGGAGTTTTCCTTGCCCTTGCTGTTGTGTGTTCACCT
TCTACTAACGAAAGTTCTTTGTATCGCGTTTTTTTGCTCTTGCCTCTGCT
CTTCCTCTTCCTCTCGAGCGAGCCTTCTTACATCCAACAAACCTTGATAG
TTTCTTATCGTGTATTTTTCATGCTCTTGCTGGCTCGGGTGTTAACTTCC
TGATGACGGGACGAACGACCAAAAGGTCGAGGCACTCGTGCGAAAGGAGG
GGCTGTACCTCGAGCAGAATACGCGCACCCCGGGGCTTAGGGGCGGTCCC
AAGGCCGGCGACGACGGGGCGGAGAGAATAGCCATGCACTACAGATTCTC
TCTTGACCACGTCTTCGGCTCAAGACCGGAGGTAAGCTAAACATCCTATG
CATGACACCACAATTCGTATCAAGAATTTACATTTTTGCAGCTTTCATAT
CATAAATGCTCCAAAGCATCAAATGGACTTTCATTTTAACCCTAGGGATG
CATACTACGAGGTGACAGCCATTACCGAAAAGGTTTGCCCTGGACCACGT
CTCTGACGCTAGACCGGATACGAGGTGACAGTTGATAGGAAGTATGTCGT
TGTACTTCAAGGTATGAGTATATCGTTCCAGATGTATCACGGATTTGTTT
TATTGCTGTGCATGCGCCAGGCTACCCCACCCCGTGCCTGTATGGTAAGG
GCTTTATTTTATACTGTTCGAGATGAGCGATGCAGTACAACTTCTCCCTT
ATCCACGTCTTTTTTTGACCCAAGGCCAGATATTTGTAAAACTGATTTTT
ATTGACGTCTGTTTTACATCGTGCCCAGGTGTAAAACTGATTTTCATCGA
CGTCTATTTTGACACGAGGGCAGGTGTAAAGCTGATTTCCATTGGTGTAT
TTTCTGTTTTCGACACAAGGCCAGGTGCAAGGCTGATTTTCATAAACAAC
CTTACGATCCAAGGCCAGGTGTGAAGGTGGTTTTCATTGACGTTTACTGA
TGCACGCTAGATGTAATTCTGTATTTCAATGACTTTTTTTCTATTCGCAA
GGCCAGATGAAAAGCCATTTCTAGTCATTGGTTGAATGATGTGTCAGCGT
GATATCAGACCTGAGTCAAAAGGAAATATCGACCATCGTTTTTGGCGCTC
TGAACATAAATTCGGCTCATCACTGTTAGGAGGGATATACTCTGGTGTAA
TCTTTCGTTGGGCCCGTGCCACATTGTCGGACAGCCATTGTGGGCACCGT
TGAATTGGGAGCTACGGAAGGATTCATCCTTACTGCGCACGAGTACAATA
TTCCCTCTTTCGGGTTGGTAGCCTGTGACCACGGAAAAGCGCCACATATC
GCAGCAGTACTTGCATTAGAAGGTACTGCGCAGGTTCTGAATGTGACGTC
AACACACACAACCCCATACTTGATACAAATGCTGCCTAGGGCATGAAGTC
CGTTTAAGCATTCGGAATCAATCAAATCAACCTTCTGATATACAACTAGC
AGAAAAATGGAATTCAATATTTGTTCTTGAACGAACATTGGTATTTTCGA
GAATTCTGTTCTTTACTTCTGGTTATATTCTATCCACAGAATGATAAACA
CATGTACGTCGTACCCATAGGAGATAAAAAAAGTTCGTGTGTCGAGCTTT
CCTTCCCTGCTGTGTGACCGACCCTAGCTGTTGCTCGCAGAATAGATAGA
ATGACAACGCACACATAAACACACACGCACGCGCACACACACAATTCAAA
ATATACAACTGTAACCATTGCGGGCTAGATAACTATGCCGCGAAGCTACG
AACCAAGATGCACGAACCTGCTTTCGCTGCTATTTTTTCTGGCTACTATA
CGCCACGTACGTGATATTTTTTCAGGTTTCATGCACGGATTTCAGGCGTC
CATAATCTTACACGATACTGCTGGGATATACCATACCTTAAGGCTATCTG
TGATACCATTGAAACAATTCACTTTAGCACAATCCGTCGGACCAACACAC
GACATACATGCGTACTCTGCTGCGGTAATGTTGTAGGCCCCCGGCGTGGT
GATTGTGGAAGACGACCTGCTGTTCTCGCCCGACTTCTTAGAGTACATGG
AGGTCAACGCCCCCATTTTGGAGAGGGATCCGACCACCCTTGTGCTGAGC
GCCTGGAGCGACAACGGCTACAGAAGAAGGGTGAGACATAGGGAGGGAAA
GGTAGAGAGAGACATCTGAAATTATCATGTCAACGTGCAAACCTCACCCT
AACTAACGGCAACGACCATGCAGAGGAAGGATGAAAGAGAGATACATTGA
GATAAAGGGAGCGAGAGAAAGATATTGATAGAGATAAAGGGAGCGAGGGA
GATCATGGGAAATGTTTTTGTAGTTGAACACCCAATCCTTGTTCTAGCTC
TGACCCGACCACCGTGGTGATGGTGGTGGTAGGCGCCTAGAACGACAACG
GCTACGACAGAGGAAGGGTGTGTGATGGAGGGCGTCGTGGCTTGGTCAAT
TGAGCGTTTAATGCCTAACGATATTTACCTCAAAAACACTTTCAACCATG
GTAGCATCTTCCTGACAATCTCGCGCGATTCGATGCTTTTGCCCCCCGTT
CTTTCACGTGCTTTTTCTTCTATTATTCTTTTGCTCTTTTCGTCGTTTTT
TGTTGTGCTGCCCAGGTTTCTGACATGGCGGAGCTTAAACGCACCTCCTT
CTTTCCCGGTCTGGGCTGGCTCCTTTCCAGAAAGCTTTTCGAGGAGGTGG
GTAGGTGTGTGGGCCGCTGTTTACTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCTCCACTCCCAG
CAGGGGTATGTAGCTGACACCCTCTTGCGTTCATGTGTGATGATGATAAA
ACTATCATCAAGCGAAACGGAACGACTCCCGCGGTCGCTGTAACGCAAGG
TTGCACACGATTCGCGGGACCGTTTACGAGAGACACGCGCCCGAAATTGA
CCAATTCTGGCACGCGAAGATACGTGTGCCAGTAAGCGTTTTCATGGCGA
CAGCGACGTAGAACTCTCCCAATGCACACCGATCTAGCTGTCCACCTATC
CTGATGTTTAGGGTTCGGGGTCGGGCGCCCCTGCTTTGGGGGCGAGGAAG
TAACCTGCAAGCATGTCTGAGAGCGCGCCTACCTCCAGAAAGAACAAAAC
AATCACTCGCTGGCACACGTATCTTCGCGTGCCAGAGCTGGTCAGTATCA
ATTTGGAATTTAGTGGCGCCGATGATGAACCGATCTAAAGTCTGCAATAT
ATCGTACAGAACTTCACTTGCACAACGAATAGGTCAACCAACACAAACAA
TGCCTGCCATGCGTTTGCGGGAAAAGCTCTCCACGATTACACACCGACAG
TCTCTACTGTGGTATCAAGCTCTAAAAGCCGGTCCGGTGGGTGCCGTGGC
AGCTTATTCGATCTACGGTAATTCAACGATAGTACATGGAAAGATCCCCC
CAAGTAAATGCAGTACTTGAAATCAAAGTACAAGATTACAAACGGGGGAT
GCTGACCTTGTCAAGCGGGAGCGGTTCCCCGAGACTTTCTACTCGCACGT
CGAACAGAGCCCGCCGTCAAGAGCTTGTTGTCGCTGTCTTTATTGAAAAT
GCTGCTGTGGATACGGTGCGTGCTATATACTTCGAAGTACGTGCTTAAGA
AGAATGTCGCCGTGTGTGTGCCTGTATGCCTATATGCGTGTGTGCGTGTG
CGTGTGCGTGTGCGCGTGCGCGTGCGGGTGCAGCTCCGGCCGAAGTGGCC
GAAAACACACTGGGACCACTGGCTCAGAGACAAGAAGCAGTACAAGAAGC
GAGAGTGCGTATTCCCCGAGGTGAGCGAGAGAGTATAAGAAAAGAGAGAA
ACAAACTACACTCAATTGGAAAAAGGCTGTGCGGTTACCAAAAGTCACAC
AAAGAAAAAACAGACAAAAACAAAAACGAAGTTGTAACAATCACCAAGCA
TTTTCGTGCTTGTAAAAAACGTTTCGACTGAAGTGCCGCAAAGTCATGAA
AACAATCTATTTTATTCTTGACTCTTTCATTCTGGCTCGCTTTGGAATCT
CATTTTTATTATCTGTTATCGGTGACACAATATGGAACATTCATGATCGT
TTTGCTCAATGTTATTGTTTTTGTTAAAAGTAAATGTGCCGCAGACGCAC
ACCACTCTCTTTTAATCTGGCGTAATTTTCCAGCGTTTTTTTTACCGCCC
TCGCCCCTCTCTTCGCCGAGAAACGTCCAAAAGCGAAAACACGAAATAGA
CCCTTCATGATACTGTGTCAACAAGCATAGACGGTAAAGGTCGAAACCAC
CCTTTGTTTCTACAGCAACTCTCGCCCCTTTCTGCCGTGATATGTTTAGA
AACAATAAACGATAATAGTCGTAACTCACGTTGTTGTTTAAAAATAAAAC
AGGTGCCACGGACGTACCACAACGGGATCAAGGGAACGTTCATGTCTCAG
AAGATGCACGACCAGCTCTTCAAGAACATCGACTACAACGTCGACCCTTC
CTTCTCGTGGATTCCACCGCCTGGTGTTGGTGGGGCCAACAGGTACAAAT
ATTTCTATTATGTACTTGGTACTCAAACCACTTTTTTTTGTTTATCGCGG
TTCCTGGCTTCGTTTCTAGTGCCCACCCTCCCCGCCTATTGCCAAATACT
ATCGCTTCGCAGCAAGAAATTAGTTTTCATTTTTTTCTTGCAACTCAACT
CATTTTCACAATGTTTGTAGCACCAGGTGTGTGTGTGTGTTCATCCCATT
TATTCTGGGCACCAGTCTACACCTCTCGGTATCAAGTGGGTGCACCGGCC
GGGGTCACACACAAGGAAGGTCACACACGAGCTTTTTTAATTTAATTTTG
TTGTATTACCCACACCTTTCCTCCTGCGGCACTTGCCTTTGGTTTTTAAT
GCGAGTCAGGTTCAGCAATTCTTTCCCTCTGTTTACTCACGAATAACTCG
CTTTCCAAGTAGTTCTATTATTTTAGCTATTCGCCGAAATATTTACCGCA
CAACCGTCCGAGCTGACATGACTGACTGACTGACTGACTTAGCGTGCGTG
CGTGCGTGCGAGGATGTATCGCCACCGTTTCATGCTCTATCTTTGTGCGA
TCTATCTTACGATTCGGATTGGTTTCGTTGTATCTTTCACGTGCACGCGC
ACGTGCGTGGATGTATCGCCACCGTTTCATGCTCTGTGTGTGTGCGATCT
ATCTTACGGTTCGGATTGGTTTCGTCATAATTTCACGTACACAAGGTTGT
CACAGGCTCACGGTAACGCTGACCACAGGTTTGGTTATGGCCCCCTCGCG
TGGGTGCGTGGAATGGATGACCTACCCACCTACGCATCGTTGTGCTGTAT
ATTGTTCACTCACAGGTTCCTCTAAACGTGGTACCAACAGTCACATACCT
ACCTAGTCTACAGTTTCATTTGGTTCTTATTTTCGTGTGCTCTATGTTTT
TCACTCACAGGCTGCTTATACCTGGTACCAACAAAGTTGTAACTTGCCGA
GCCTACCCATCTGGTTTACGTCTTCATTGTATTTCGTTGTCTTTTTGCTT
ACGCTGTACCAGGTATGTTTTTAACTCAGGCTCCTGTAAACCTGGTATAA
ACACAGTTGTACCCTGCGTCGTTTTTCATATGCTACACGTTTTTCACTCG
GGCTCCAATGATCCTGGTACAAAGGTGTAACCTGTCATGCGTACCCTACC
CATGTAGTTTAGGGTTCCGTTGGATCTGGTGGTCGAGTTTACGTACCTAG
CTTTTTTGTGCGCAGGCCCCTACAAAGTTGACAGGAAGGATGAGTCGTGC
ATATGATAGCTGCCTTCGCCCTAATGCGTTATGACTTGTCATACCGTTTA
AGGCAGATTTTTGTCTGACATGGTTTGTTTGTTTCCATGCCTTCTTTGCA
TGCTCCTGATATGAAGTTGACGACAGAGAGGTCATGATACCCTTCGCGTG
GGTGCGCCGGGTGACCTACCCACGTCCATAGCAGTTCATTGTTTTTGGTG
TGGTTGTCTATATTCACGTCTGCTTTGTACACGCAGTACCTGGCAAAATA
TGACGGCAGGTTGGTCATCTTGTTGCCTTTTGCGCGGATGCGTTGTGGCC
CACCTCCTCACCTTCTCTACGATTGCGCTTGGGGTGTGTGTCTTTTTTTT
ATCAGGCATGAGTTTGTACGAATTAGTCGCTGAAAGGTTGACGGCAGGTC
GTTTCGTTTCGTAGAAGAGTGGCGTTAATTATTTACCTGATACACGCCGA
CGTTAAAAACTTACCTTCTAAATCCCGCAGTTATCGCTGTGCTGTGTCGT
CTCCCGTCCGACGGTTTGACGTTTTGATTTATTCGTTCGTTCCACCCACG
ATGATATCATGCAAGAAGTGCTCCACCACCAGTGTACGCGAAGGGGATCC
TCGCCAACTACGAGAGCAGGGTGGAGGCACGAATACAGCAGGCTCGGCAC
ATCAACGACCTAGACGTGAGTGACGGATGCCTTTGTATTTCGGGAGGGGG
ATCGGCGAAAGTGCTTATTTGTTGGTATTGTTTTGCTAGCTCAGCTGCGC
TGCCGCCGCAAGAGCACAGCTTTCCTCCCGTTTTATTGTGCGCGCATGTG
TGCGTGTGTGTTGTGCGTGCGTGCATCCCTGTGTTGTTGTTTTTGGTGTC
TTCAAGCGAGGTACAGTGATGTGCGCTACACGGCTTCGGGGTATGATGGT
GACTCAGCCCCGGCACCGGCCCCAGATCGTTGTCATATCTTGTAGTGCGG
TTTATGTCATCATTGCAGCTACATACTGCTGTGTTGAAGGTCTGCTTTTT
TGCTATTGTTATCGCATCTATATTGCGATTTGTTAGAATGCTACAAATCA
ATGTTGGTGAGTTTATCTCTCCCGAGACTGGCCATTGAAGCAGCGGGTCT
GTGAGGTCCGGTTTCCAGGCGAGTCTGTGTCTGAGGAAATAGAGCTCACG
CACGAGATCAATCACCGAAGCTGAGCCACATGGGGCTGCCTGAAGTATTA
GAACATTTCGACAGTCAGTCAGCACAGTGGGGATTCAAGGTCTGACTGCT
GAACGCAGAGGCGATGGAGGCTTTGCTTTATGGGTGTATGACCTGGGCAC
CACGCGCGACCACTACGCGTTATCGCGGACAACACAACACCGCCTGCTAC
TGCGGTTCATCGGAAACCGCCGCGTACGTGGCACCTACCGACCCTCCTCC
TATGCCAAAGCTCTGGAGAACACCGGGAGTCAATTTATGAAAGTGATTTT
TCGGCAAAGGCGGCTTTTATTCGCGGGAGCTCTGGCCAGACAATACGACG
GATGAATTTCGAAGCGGCTGATGCTCGGCGAACTCGAAAGGGGGGAGGAC
CCGCGGCGAGGCCGCCTGACACGACCTTGGCTAAAATCGTTGGAGGACAA
TTTCAAACATTTCGGAGCCACATACGGTCCGACGGACGGTAGCCGACTAA
CATTTGGTATTATCACCGCCGTGTGGACAAAGGTCGCATAGGAGAAGAAG
GGGGGTGCCGTGGTACACAGGGGTGGTGAAGGGGGCTGCGAGGTTAATGA
CCGCCTGGCACGAGGATGAGAAGGAGGCAAGCAGAAAACGAGCGGGAAAA
CGAGACGAGAAATAACCCAGGGGCGAGGAGATTACCTAGGAGGAAAAGCT
GGGGGGGCTAACTTGGGAAGCAAGCGTGGAAAGATTCGGAATGACGGGAC
GAAGGCAGCAGAGGACAGCAAGAGGGAAGGGATGGAACGAGTAGCACGGC
ATGCACCAGATTGACTGAGTGCTCGATACTCTCCTATCGATGACAATCCC
CCCGTTTCATCTCCCTCCCCCCTCTGAGTTTCCGTTTTGTGTACGGGAAA
GTGCACACAAACGTACCAGGTTCAAAAAAACATGTAAAATTTCCTTGCCA
CCCTCAAATGATGGTGCCCTTTATTCTGTTGCTACAACTTGCAGAATCTG
CCCACTTCCTCGGCAACGCGAAAGGGGGAGCAAGTGGTGATGTGGTACAC
CCTAAAGAAGACGGAGGCGACCAGCGACAAAAAGCCACCCCCCTTCAAGC
CGCTTGCCGACTTCTTCGGTCTTTGGCACGAGTATCGTAGAGGTGAGTTG
ACGGTACCGAAGGTGTTGTACACTTGCAACAAGGAATTGAATCGATTTTG
GTTGACTCGCTTCATTCTTTGGCAACTAAAGAACGACGTGAGCCAAGCAG
TCGGACGGTTTTCATTGGCTGGCCTCGTTTTTCTGGCAGTAAAGAAAATA
ACGACGGCAGTCATATGATACTTGCAAGAACATAGCTTTTGTAGAGAAAG
AACATCAAAGCCTGTTATTCTACAAGAATGTACATTTGGTAGGGTACTAC
TGCTGTACCTCATATCGTATACTTCAATGTTCAAACGAAAAAGCCAAGCA
CCAAAGTAGCGCTAGAGCAGTAGCAACCCCCCCCCCCCCCCCAAGTCCCC
TTATTGCGTGCTACTCTCTGACCCGACTTCGACATCGCCCTCCGTTCCCC
CTCCTTTTTGTTTTGTTCCGCCTCTGTTTTCTCTTTCAGGGGAACACAAT
GGGATGCACGCCTTCCGGTACGACGGGGACTCACACGTCATGATCATCAA
TGCGGCCATGGTATGATAAATGTCCAGTTCGGATAGGGAAACAGCCAAAT
ACTACGTGCGTAGCAAGCTCTGAATTATTGTAGCTGTTGTCTTGCCCCAT
GCGTACACACAGATATCCTACATTCCTGGAACTGCTTATGATATGATGCT
GTGTACAAATACAGAGAGACACCAATGTACCATCACAGCAGTATGATATG
TTAATTGTAAGCTGCTGTCTTGCGTCATACGTACCAGGTAAAATTTTATA
CGGAATGTACAGGTTTGTTACAATCTGATTGTTCCCACCTGAGCCCCTTA
GGTGTTGTGGAGTCTTGATCAGTCCGGATAACGTCAGCTGTGCGGACACT
TCGAGCTTTAGAAACGTCAGCTGTCTGTTTTGTCTATTTTACATTTCAAG
TAGAACGAACACAGCAGTTTCTCCCGTGAGGCAAGCTCAGTTTGGTATTC
GCCCCACTGCTCCCTGTGTTGTCCTCACAATACGCACATACAGGCTACAC
CACATTAATCTTACAAGGCGCATACACACATGCACAGCAGCAGTACAAAG
AGTCACAATACTTACATCAATCTACGCAAAAGAAACAAGCATGATCTGCG
GTCGGTGTGCAGCTGTGTAGACTACTGCTGTGTTCAAGACTTTCTCAGGC
AGACGGCAGTCTTCAATCTGTCAGTGTGCAGCTGTTTTCTTATTTTGTCC
TCACGTACACATGAAAGGGATGACAACACACACACACACACATGGACAGA
TTGGTGCATGCCGGTACTCCAGGGTCGGTCGCTGTCTGTTTCAGAAGACA
ATGTCAGCAGCTATATTCTGAGTAGAACGATATTATCATAAACAACCGAA
GGCACAGGTTATTGATGCAGCAGAAGTTCTTCGTGCTTGCCTATAAAGCC
GCAACATATGACAATATAGCAAGGTTAGCCGCAGCTGTGCTGTTGTTTGT
GGCGCTGAGATATGATACCGGTATGTTCGTGCTGCACCAGACACCATCAT
CGTCGTCACAACAGCAGCAGGAGCAGCAGCAGCAGCAGCAGCTTTGCGAC
AACGGAACACACAAACGTATATATGAATTGGTTGTATTTCCCCTTTTGCC
GTTTGTCGCCGTATCCTTTCCTCCGCCATCTCTTTCCTCTGGCATTTCCT
ATTCTGGCTTTGTTTATTTTCGATTGCTTTTATTTTCAATTTATTTTTCG
AGTCTATCTCAATTTCCGGGTTTTATTTGTATTTTGGAATTTGACTCTGA
AGATACCCATCGGTTGGGCAGTACCTACGCCTCGCCTCGCCTGTTTTTTT
TTTTTTTTGGGTTCGGCCTTTTTTTCTTTCCATTTTTTTGTGTTTCCTTC
CATGATGTATGTAGCACGATGTGTGGTTTGTGACCACGGACGAGACGAAA
GCGGTGAGCTAAACGTGAGAACCAACAGCAGCGGCAATTTTCATACAATT
TCATACCTGGTACGACGTCTAAATCATGCGACGGAGTGCATATATGATAC
TTGTACTTCGAAGTACATATTATCAGCTCCATGTGATACTTATTGCTGTA
CATACAGCGGTCTTCTGGGGGCGCTTCGTGGCGTTTCTACACTTTTACGG
CACAGCAGCTCTAGCCGGCCGTCGGAAAGTGCTGTGTGTGCGGCTTGGGT
TAAAAAAAGCCGGTAAAAAACGGGTTCCCTTGCCTGTTGGATGCAAAAAA
GCTCCATCTATGTTAGGTCGGCGGCGGCGGCTGCTGCTGCTGCTGTGATG
GAGAGCAGATGTTAAGAAAATCATTAAATGAAAAAATATTATCGGAACGT
TGTTCTTCTACTTCATCTTTCCTATTGTATCATGCATACACAAACCAACA
ACAGCGGTAAATGTCACTTGATTCATATTCGGGTAGCACTACTGCCTGAA
TATGAATCAAGTGACATTTACCGCTGTTGTTGGTTTGTGTATGCATGATA
CAATAGGAAAGATGAAGGAAAATAACTACGTTCCGATACTTTTTTAACCT
TTCATGATTTTCTATATATCTGCTCTTAGAGCGCGTGCGTGTTGATACAG
CACCATGGACGTTTAGAGGCGTCCCATCACACATCAGCGGCAGCAGCCGC
CGACCTCACACAGATGGGAGCTTTTAGTGCGGCTTTAGTGCATCCAACAG
GTAAGGGAACAAACGCCAGCAAAAGCTTTCGCCTACCGGGACAATCACGC
CGAGGCACGTCTGCCGAAAAACAGTTTTTACCAGGTCACACATCGCATAC
GAAGTAAATATTATATATCCGTATTGAGGTCTAAATCGCGGGCACGACTT
TCCCTCTTCGCCTCCAAAAAAAGGTCATATATGTCCTTTTCCGCCCACAT
TCCTTGCACTCTCTGTCTCCCGAAATCGTGGGGACACGGCGGCTGATTCA
CCGCCACATGCATTTTATCTTCGGCTTGCATTACCCCCGGACTATGTCCC
GTCTCCCAATCCGGAGGGGAAACTTAATATGTGTTGGTTTATTTTATGTC
TTTTGCAGCTGTTGGCTTTCGTCGTACTGTATACATCCGTCGGAGTACAT
GGCACCAGGCAAGCGCATATATTATGATTATGCTGCTGGCGTCTGTTTCT
GTACGTACTTATTGTGTCACACGCTGTATTTTTGTAAATCATGCTCGCTC
CTTTCTTTGTGTATGTGAAGAAGCAGTTGTTTGCTGTGTGTTTTATCTCC
TTCGCCAATGTCCTTTCACACCCACAGCTTCAAAAAAATAACGGCGAAAG
GGGCCAAGACTCGACAACATATCCACGGCCCACGAAGTCTCAAGAAGCAG
AATCGAATAGTTTACTCTGTGCCTAAAAAGAAACGTACTGCGGGCCGCGA
TTTTGTTTTTGTTTTTTCTTCCTGCCTCTATAAATTCTTCTCATGTACAA
CATGGTAAATGTTTGAAAGCACGGGCAGGACGGCGGAGGAGGGAGTTCCG
ACAACTTGATGAGAGAACTAAAAAAACCCAGCAGAAACAGCACAGTAGTG
GCAGCAGCGTTGATTCTGGCTCTGCCCCATTCCACTCAGTAGTCCCAGGA
AGGAGAGAGATTCCATGTATATGAGCGGTCGCTATTCTGGACGATAAATC
GCTGGTTGGGCTAATCCTTGTATTGCGAAGAGAGGGAGAGGTTGCTGTAG
GTTTTTGGTTGAGGACATGGAAAACAACAAAGTGGGGATGTGTGTACCAT
TTGGAACTTCATGTCTTCGTGGCACGATATGTTGAATAGCCGCAACGTGC
ACCCCAAGCCGCTTCAGATTGCTCCGCCTATCATACCTCGGGTGCTAATG
AAACACCGGCAACAAACGCTTGCGACCCTGCCCTTTTAGATGCATCTTCT
GCTGAACACTGCTCCGCTCAACCTAGATATGCCGTTCAACCTGTTGCTTC
CGAAGCTCATAAATATAGTCGTTATTGCGGAAGTGTCCCTCTGAGTCACG
GCAGGGGAGTAAAAACGCACGCATCTTGTCGTTTTCAATTCAGATGCGTA
ATCAATAGTTTCCAAGCCTAACGAAACGCAAGCAACAAATAGTTCCCGCC
CGCATCTACTCCTTTTCTCACTTCAACCTGTATTAGAAAAATACGCAGCA
CGCGCCACATCCCTGCCTACCTGCCCTGTGCCGTGGCTCACTCTGACCTT
TGTTGTTGTTTTTAAATACCAGGTACCTTAATCCAGCCACTGATCCTGTC
TGTCTCTCTGTCTGCCTGTGCTTGCGTTTGCTCCCCTTTGCCGTCCTGCC
CCCTAATAGTCTCCCTACGCCAGGTTCAAGCCCGCGGGCTTGCTGCCGGC
CCCGATAAACGCCTTGCGTGGAGGGCTGGTGGAGGCCGAAGTGGGGATGC
AAGTGACCCCCGGAGACAGCGCCTTATTATCTTGCGATGACATCTGTTCA
ACGAAGGCGAGTTTCTATTTCGTGTATTTTGCTTTATTTTTTTAACGGTT
GGTTGTTGTTGTTGTGTTTGTTGTTGTTGTTGTTGTCGTTGTTGTTGTTG
TTGTTGTTTTGCGGTGGTGGTGAGGGGTGGTGGTGTCCTTGGTGGACGTA
AGTTGCTTGAGGTTAATAAGCGTTACAGTCCCGGCGTTTTCCCTTGCGAC
ACGGGAAATGAAAGGTTTGCGTCGCTTCGATGACGGGTCCGATGCCACTG
CTGCTGTGCTGCGCTCCTGCTGTCTGCTGCTTCCTTTGTGCTGCTATGTA
GCTGACGCCGCTCGTGCTGCCGCTGTTACAATTGTACTTTTATGAAACAA
CCCATTCCATTCGTGCTTTCTTATCCGAACCGTTACCACCCTCCCTCCAT
CTCGCTATTTTTCAGCCATTTCCACTTTCCGTTTTCCAACACGATTCGTT
CATCCATTTTCAAGCAAGAAACAGAGTAAACACTCATATAACTCTTCAGG
TAGTTTCGTCCTCACGCTCGCGCTCGTTTTCTACCCTACCCGCGCCGTAC
CTTTTTCGTTGTCTTGTCTTGCAGGGCATGAGGTGTAAGGAGTCGACGTT
TGAGCTCCTCAACGCGTGCGAGCTCTTGAAAGAGCACTTTCCGTGCACCA
AGTGCGCAGAGAGCTACGGCTCTGAGCAGCCATGCTACGTCGAGCTGAAC
GCACCCGCGTTGAACGTGAGAGGAAGCGTCAATGTGCTCCGTATATATTA
CGTGAAGTAGTTTGCATTGAAGTTAGCCCACTCAAACACGTACACACACG
CACGCACACATGCGACGAAATGAAGTACTTCTCCACGCGTTCGGTTCTTT
TTCTGATGCCAAAAGCCGCATACCTTGTGTTCCCTCGAACTCTTATCAGA
AGGAAGTCGCGATCATGACATGAAATGCGTATCGCTTGTCGGCACCTGAC
ATGGCAATCAATCAATACATCGGTCAACAAAGACGGTGTGGCTGTCCTTC
TTCTGTTTCCGTCAACTCGATCACGAGATTTGAAAATAAGTCGTGTCCGT
GTCTGCAAAAGTTGCCGATATACAGCGCTCTGTTTCCATACTTTAATCTA
CTGCTCTTCTGCTGTGTTGCAGCTGTAGCTTAGTATACTACGAAGTAAAA
ATTGTGTGCAGAAAACCACCAACAACGTCACTGTAAACGTGGGGATCAGA
AGACGCTCTGTTTCCATACTATAGATAGCGTATTCGATAGGCGTTTTCGA
CAAATGACTCCCCCCCCCCTCTCCGGATTTCCCCGCTTCGCACCTGGCGT
TGTCCCCTCCTTGTCCCCTCCTCGTTTGCGCTTTCGGGGAAATTCAATGC
TATAATACAGTACCCTGGGCAATGCCTGGTTTCGTCCAACCCGAGGGATT
CCACGTGCTCCGCTTCGCACCATCTCACGCGGCGACTATGCCCCTGCGTG
CCCGCATGACCCACCTCGATGAGTTTGTGGAAGAAGCAAGGGTTGAATAA
ATTTAGTGGTGCACTTGCACTGACTTGGCTTGCACTGACTTGGCTTGCCT
AGACATACATGTACTCTAGGCGTCCGTTCCTTGTGGTTTGATATCGAGAG
GACGTGTAAAAATGTGAGCATGCTCGTAGCCGAAAAATAATTACAGGTGC
GTGCTTTGTTGTTTGTTTGTGTGTTCAGGAAGTGTTGATGTGATGCGTGC
ACGTGTGTGCGTGTGCGTGTGCGTTACGTATATACCTGTGTGCGTGTCTT
GGTGTGTTTTGTGTCTACTTTGGAGACGGAAGAAAGTCGACCTTAAGGTG
AACACAAATTCAATCAACTCAGAATCGAATGGATTCGAATCGTGCTTCGC
GTTCTTGTTTCGTACTCCAGCCTAGTAGCACAGATGCAAGCGTGGTGAGC
GGTAGAACATTAGCAGAGAGACGAAGGAACAGAGGCGGGGTTGAGGCGGA
GAAAGTTGCCCTGGCTTTCAGTCCAAGGTTTCAATGCTGTGGGAGCGAAG
CTAGTAACTAGATTGCCGTGTATAGATGACGTGGTATATCGCTCCCGCCA
GGACCAAAACTCTAATTCTAGTTCATATCTCCATCCATGTAGATAAGAGA
GGGCATTTGAGCCAAAAAATCGCCACTGGAAAGGTCTCCTCGAAAGCTCA
AGCTTTCCAAAAATGTGTGAATGTTTTTGCTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTCACCCACCTTGTTGGGGAGAGATGCTTA
CGTCGTTCTAGGCTAAGAAGACGCCAGCCCAGTCCCGTGTCGATACTGCC
TGCCAAACACAGCCAAGAGCTGATTATTTTGTTTTGTTGTTCTTATTTTT
GCAATCGTCGTCGTCGTCGTTCTTGCTGTTGAGCGGGGTTAATTTCCACC
TTGCTGGAGAGAAATTAAGCTTGAAAAAATGATCCAAGGGGGGAGGTGAT
GTAGATTTTTTCTCCACACCCATATCGGCACAAAGATACGGAATGCCTGT
AATAGTTACTGCCACACACAGCAAAGAGTAGGTGGTACGTTTGTGGGGGC
CTACGAGGGGTCAACGTATAAAGCGGACGTCACTTGTAGTGGTGGTGTTC
ACTTTTTCTTAGCCGACGTTGTATGTTTCGCCGTTAAAGCCCTGCCGTGG
TTTTCCTGAAGACTGGTCATGTCACGCGAGCACTACTGAATCGGTGGGTG
GGTGCGTTCTTGGGTGCGGTGGGTGGTCTTGACGATGGTTGATTTTTGGC
GTGGGTATTTTCGCCTACCTGTCTGTCTGTGTTTGATCTTCGTCGGATAT
TTGTCTGGAATGTTACTCTCGTTGCAGTCTGTACCCGCTGTAGAATCTTG
GCTGGGTTGTGCACGCTATGCTTTCATCATTGTTGTTAGCGATGATAAAC
TTGAAGAATTGGTGGCTGTCTTGCTGGGTGGCCTTGCTTATTAGGGCTGC
GTGGGATTCATCACGATGTGAAAGGTTCGGTGGGATCGATCGAGCGCCTT
CCGGAAATGAACGAAGGAGCAATGATATGAGTTCACAGGACTGGCTCCCA
ATTATTTGTTGTGTTTTTTCGTCCGCATTTCACAGGTTTTTCATGCTAGT
TTGTCCACGACGGATGTCGCCGTCTCCCACTGGTTGGTTAAGTCCGGGGG
ACAAAAACACATACTTCAAAGTACTTCGTACTTGATCTGGTAAGCGGGCG
GGACGACTTTCTGCGTGCAGACGACGCCAAATGGTCTTGCGGTGCCGGTA
CTTGTATGTGCGTCCCGGCGCGTTGTCAAGTTGCTTGTCCCCTCTGATGA
CTACTG

Coding sequence (CDS) from alignment at P-littoralis_Contig188:36655..54310-

>mRNA_P-littoralis_Contig188.5.2 ID=mRNA_P-littoralis_Contig188.5.2|Name=mRNA_P-littoralis_Contig188.5.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1467bp|location=Sequence derived from alignment at P-littoralis_Contig188:36655..54310- (Pylaiella littoralis U1_48)
ATGGAGACCTTTCTCGCAGAGGGCGGGAAGCTTCCGATTGTCCTGCTCAC
GTGTAATCGGGAAGAGTTGCTGGGGCACACTATCGAGAGCCTCCGCAGTG
TACGCGGCTTGGATATGAACGACGTCATGGTCCTGCAGGATGGCACGGAC
AGTCAGGTCGAGGCACTCGTGCGAAAGGAGGGGCTGTACCTCGAGCAGAA
TACGCGCACCCCGGGGCTTAGGGGCGGTCCCAAGGCCGGCGACGACGGGG
CGGAGAGAATAGCCATGCACTACAGATTCTCTCTTGACCACGTCTTCGGC
TCAAGACCGGAGGCCCCCGGCGTGGTGATTGTGGAAGACGACCTGCTGTT
CTCGCCCGACTTCTTAGAGTACATGGAGGTCAACGCCCCCATTTTGGAGA
GGGATCCGACCACCCTTGTGCTGAGCGCCTGGAGCGACAACGGCTACAGA
AGAAGGGTTTCTGACATGGCGGAGCTTAAACGCACCTCCTTCTTTCCCGG
TCTGGGCTGGCTCCTTTCCAGAAAGCTTTTCGAGGAGCTCCGGCCGAAGT
GGCCGAAAACACACTGGGACCACTGGCTCAGAGACAAGAAGCAGTACAAG
AAGCGAGAGTGCGTATTCCCCGAGGTGCCACGGACGTACCACAACGGGAT
CAAGGGAACGTTCATGTCTCAGAAGATGCACGACCAGCTCTTCAAGAACA
TCGACTACAACGTCGACCCTTCCTTCTCGTGGATTCCACCGCCTGGTGTT
GGTGGGGCCAACAGTGCTCCACCACCAGTGTACGCGAAGGGGATCCTCGC
CAACTACGAGAGCAGGGTGGAGGCACGAATACAGCAGGCTCGGCACATCA
ACGACCTAGACAATCTGCCCACTTCCTCGGCAACGCGAAAGGGGGAGCAA
GTGGTGATGTGGTACACCCTAAAGAAGACGGAGGCGACCAGCGACAAAAA
GCCACCCCCCTTCAAGCCGCTTGCCGACTTCTTCGGTCTTTGGCACGAGT
ATCGTAGAGGGGAACACAATGGGATGCACGCCTTCCGGTACGACGGGGAC
TCACACGTCATGATCATCAATGCGGCCATGTCTCCCTACGCCAGGTTCAA
GCCCGCGGGCTTGCTGCCGGCCCCGATAAACGCCTTGCGTGGAGGGCTGG
TGGAGGCCGAAGTGGGGATGCAAGTGACCCCCGGAGACAGCGCCTTATTA
TCTTGCGATGACATCTGTTCAACGAAGGGCATGAGGTGTAAGGAGTCGAC
GTTTGAGCTCCTCAACGCGTGCGAGCTCTTGAAAGAGCACTTTCCGTGCA
CCAAGTGCGCAGAGAGCTACGGCTCTGAGCAGCCATGCTACGTCGAGCTG
AACGCACCCGCGTTGAACTACCCTGGGCAATGCCTGGTTTCGTCCAACCC
GAGGGATTCCACGTGCTCCGCTTCGCACCATCTCACGCGGCGACTATGCC
CCTGCGTGCCCGCATGA