mRNA_P-littoralis_Contig186.60.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig186.60.3
Unique NamemRNA_P-littoralis_Contig186.60.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A6H5K5L9_9PHAE (Mannosyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5K5L9_9PHAE)

HSP 1 Score: 1090 bits (2818), Expect = 0.000e+0
Identity = 536/628 (85.35%), Postives = 579/628 (92.20%), Query Frame = 2 
Query:   77 MGKPRRRAPRDRSEGDGDANVTGDEDTSEAVAMVESAPGTNMESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIFVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRR 1960
            MGKPRRRAPRDR+EGDGD+   G+ D  EA A+V S  GTN+  MVWAP+AA A+AFVL IRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAP+FALRSYFYLLPSV+AARASE FLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQ+FGRRAGGFFL+LSA+SAGMFVSAPALLPSSSSMTLFMLVMA+WL+ QF  AI VAMLCVFGTGWPFVGVIFIPMLLNCAWLRL  G+SFAEGLGAATASATWA++CA+A+A LATW+DSGWYGRTTSPTFNIL YNVLDAG+GRGDELYGVEPASYYVKNLFLNTS+AFPLA+ LP LALPLYPMADKVAKSELRQKLLMCSPGLLWLA+MF+KPHKEERFLYP YPSIFLAAACTLDI VQAASELVEKF  DA ADR+LLP A+AMACVLFAACLGMCRTAAVVRFHNTPCN+FKFVYYRE R YWDGP+  Q  EMMQPVRLCVGGEWHRYPSSFYIP EK+EV FLRS+FHGQLPQPF  TDGT AEPLQ+FND+N EE ERFVALDECDYV+AARFRD+DQ+STRAS+ +QDIL+ K+QW  VL+HKLLDPEFSDPALRAFFIPFVSE+FVRHG LSL+RR
Sbjct:    1 MGKPRRRAPRDRTEGDGDSGGRGENDA-EAEAIVGSERGTNVGDMVWAPSAAMATAFVLLIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPQFALRSYFYLLPSVTAARASEIFLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQKFGRRAGGFFLLLSATSAGMFVSAPALLPSSSSMTLFMLVMAMWLQGQFSRAILVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLRRGTSFAEGLGAATASATWAVICAVAIASLATWIDSGWYGRTTSPTFNILRYNVLDAGEGRGDELYGVEPASYYVKNLFLNTSVAFPLAVVLPLLALPLYPMADKVAKSELRQKLLMCSPGLLWLAIMFSKPHKEERFLYPVYPSIFLAAACTLDIIVQAASELVEKFRDDARADRKLLPQAMAMACVLFAACLGMCRTAAVVRFHNTPCNVFKFVYYREFRSYWDGPQHLQASEMMQPVRLCVGGEWHRYPSSFYIPSEKIEVSFLRSNFHGQLPQPFAPTDGTKAEPLQSFNDLNVEEAERFVALDECDYVLAARFRDYDQYSTRASQAMQDILKTKEQWHTVLSHKLLDPEFSDPALRAFFIPFVSERFVRHGFLSLYRR 627
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A835YXB7_9STRA (Mannosyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YXB7_9STRA)

HSP 1 Score: 414 bits (1063), Expect = 7.370e-131
Identity = 242/562 (43.06%), Postives = 329/562 (58.54%), Query Frame = 2 
Query:  323 PLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIFVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLAL----PLYPMADKVAKSEL---RQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRL--LPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKETTKRG 1981
            PL     G+   TWEYAP+FALRSY YLLPSV     +   L+L G  + K  +W+G+R F  +     EV +Y A K + G R G   L+LS  SAGMF +APALLPSS++M L  ++ ALW++ ++  AIFV  LCV GTGWPFV V+ IP   NC    ++ G     G     A  TW L+C  AV  +   VDS +YG +  P FNI+ YN L    G+GDELYGVEP +YYVKNL +NTS A PLAL LP + L      +  +  V K E    R  L+   P  LWLA+MFAKPHKEERFLYPAYP +F+ AA  +D      + +  +    A   + L  +   ++   V FA  +G  R  AV  +H   C + K  +  ELR     P+ S      Q + LCVG +WHR+PSS+++P +KVE+ F+++ + GQLPQPF A  GT A P Q FND+N EE  R+ AL +CDYV+   +R      TR + ++ ++ ++ + W  V   +++D + SDPALRAF+IPF+S  FV +G ++LFRR +  K G
Sbjct:   17 PLPCAASGYHRATWEYAPQFALRSYAYLLPSVLVEHLTSFVLTLAGFFDTKFFVWMGIRGFWAVLSAAAEVHLYKAAKTRLGGRVGILTLLLSGGSAGMFSAAPALLPSSTAMILTTIMTALWMEWKWNAAIFVGALCVLGTGWPFVAVLMIPFTWNCLRDAMTTG-----GASRVAARITWGLICFGAVGAVTYAVDSSYYGTSAWPNFNIVKYNALS--QGKGDELYGVEPWTYYVKNLLINTSCAAPLALLLPVVMLLNRWDRFKPSLLVRKMEFTRSRAMLMFAMPAYLWLAVMFAKPHKEERFLYPAYPFLFVGAAAAVDTLTLLLARVEARLPPSAMGKQVLKDVHLMLSSGVVAFALGMGSIRAMAVTTYHTGHCGVLKQAFNSELRARLAQPDSSAA----QRLSLCVGEDWHRFPSSYFLP-DKVELRFIKTGYTGQLPQPFSADKGTSAVPRQPFNDLNKEETSRYTALSDCDYVMDTIWR------TRTTDLIAEMKKSPEDWGKVTGRRIIDTQLSDPALRAFYIPFLSRSFVVYGQVTLFRRLKPAKGG 560
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: K8YQ02_NANGC (Mannosyltransferase n=3 Tax=Monodopsidaceae TaxID=425072 RepID=K8YQ02_NANGC)

HSP 1 Score: 323 bits (828), Expect = 4.450e-94
Identity = 227/672 (33.78%), Postives = 323/672 (48.07%), Query Frame = 2 
Query:  248 VLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGN---DKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIFVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWAL-MCAMAVAGLAT------WVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLAL----PLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITV--------QAASELVEKFGGDAPADRR--------------------LLPHAVAMA-------CVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEM-----------MQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAA----------------------------RFRDFDQHSTRASKVVQDIL----------EAKDQWDHVLTH-KLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKE 1966
            ++ +R++    T + DCDETYNYWEP+HYLLYG G QTWEY+P++ LRSY YLLP  + A+A    L LF QG    DK  ++  +R+   L     E     AV ++FG R G     L  +SAGMF ++PALLPSS++    M+  A WL R++  A   A+  V G GWPFV ++F+P+ L+  +  +SH      G G A       L + ++ VA L         VD  +Y R   P ++IL YN+  A  G  D LYGVEP S+Y+KNL LN ++  PL L LPFL L    P +P   +          L  +P  LWL +M  +PHKEERFL+P YP + L  A +L + V        +AA   V    G+    R+                    LL     MA        +L  A L + R  ++ +  + P  +F      +   Y          +            ++P RLC+G EW+R+PSSF++PH  V + F+R+ F GQLPQPF A +GT A PLQAFN  N EE+ R+V +  C Y+V                              R R  ++ ++   ++V D+           EA+     +L H  LLD   S    RAF++PF     + +G  +L  R+E
Sbjct:  102 LVLVRVVGGIVTPIADCDETYNYWEPVHYLLYGTGMQTWEYSPEYTLRSYAYLLPPAALAKAGALALRLF-QGPLLPDKRLLFYFLRVVFSLISASSEATFVDAVTRRFGARPGFLTFALLLTSAGMFQASPALLPSSAASNFVMVTTACWLSRRYAWATLAAVTAVVGLGWPFVALLFLPLALHTLYEAVSHS----PGPGVARQCRQGFLYVLSLGVAALVLVLPPVLLVDGFFYRRCVLPVWSILRYNLGGAAVGADDTLYGVEPWSFYLKNLLLNFNVVLPLVLLLPFLLLLVPPPAWPSTGRGTS------FLFVAPAYLWLGVMTTRPHKEERFLFPIYPLLALGGALSLHVVVGSMDRCLTKAAPLAVASAKGNKGGGRKRNGRDKGPEQEGPPRPPLAGLLHRLAHMAVRGMMPLALLLHALLSLSRAVSMTQNFSAPLRLFDDFSKHQRAEYLKAAAPVAASKXXXXXXXXXXXXVRPARLCLGAEWYRFPSSFFLPHAHVHLAFVRAGFGGQLPQPFRAENGTWAPPLQAFNAHNLEEKARYVPIHSCRYLVELFPPAPGGVRDQGVPEPSTGAAGEGDSKERARAQEEATSEDERIVHDVEWIDRRLRELGEARPVAWRILRHYPLLDKALSPSPWRAFWVPFGGASRLHYGAFTLLEREE 762
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A2D4C8U7_PYTIN (Mannosyltransferase n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4C8U7_PYTIN)

HSP 1 Score: 318 bits (814), Expect = 1.550e-93
Identity = 228/616 (37.01%), Postives = 318/616 (51.62%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQI--------------------WLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPF-PATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKETTKR 1978
            ++ +WAP   TA + +L  R++SA    + DCDET+NYWEPLHYL+YGFGFQTWEY+P +ALRSY YLL   + A+ +   + +     D  Q+                    + GVR    L C  CE L Y A  + FGRR   + L L   +AGMF ++ ALLPSS  M L ML++A W+  Q  LAIF   VA+LC    GWP+VG +F+P +++    R   G   A  +GA    A   L+  + V     W    +Y R   P +NI+ YNVL   +     LYG EPAS+YV+NL LN ++A  LA     L + L       +   L ++L   SP  +WLA+MFA+ HKEERFL+P Y  + L AA +L       S + +     APA RR++ ++      L+AA L + R  + V  ++ P  +F+ ++   L         S       PV LC+G EW+R+P+SF+IP +   V FLRS F GQLP+PF P   GT   P    N+ NAEE  R+V +  CDYVV     D D    + +K      E  + W  V     LD   S    RA ++PF + Q V     S++RR   T++
Sbjct:   53 DASLWAPTFETAVSLLLLPRVISAVVNPIADCDETFNYWEPLHYLVYGFGFQTWEYSPVYALRSYLYLLLHGAIAKVTTAAIVVGNVLGDPFQVVSALVSSSTAPTTTVSKVIVFYGVRGALALVCCYCEALFYRATIKPFGRRTARYLLWLLIWNAGMFHASTALLPSSFVMYLIMLLLAAWMDSQHWLAIFWGVVAVLC----GWPYVGALFLPFMIDTMATR---GVLRAVLVGACIGVAV--LLAELGV----NWY---YYRRLVLPAWNIVQYNVLS--NETDSTLYGTEPASFYVRNLMLNFNVAALLAAPAALLVITL------PSSVTLSRRLAFLSPLAIWLAIMFAQAHKEERFLFPVYALLCLGAAISL-------SAVSKTLATAAPALRRIVVYSTL---ALYAA-LSVSRVVSNVVNYSAPLRVFQHLHDHVLPSARTDVLSST--STPTPVTLCIGKEWYRFPTSFFIPTDATAVRFLRSSFTGQLPKPFEPLPHGTSVVPTH-MNNRNAEEPSRYVPITSCDYVV-----DLDLPEQQETK----FWEFPETWQRVHQEPFLDAARSPSPYRALYVPFWTPQRVTFTSYSVYRRCAQTQK 621
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: K3WCF1_GLOUD (Mannosyltransferase n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3WCF1_GLOUD)

HSP 1 Score: 306 bits (785), Expect = 6.410e-90
Identity = 220/601 (36.61%), Postives = 318/601 (52.91%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSL-----FGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDE-LYGVEPASYYVKNLFLNTSIAFPLAL-ALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQP---GEMMQP-VRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPA-TDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRR 1960
            E  +W P   TA + +L  R+ SA    + DCDET+NYWEPLHYL+YGFGFQTWEY+P +ALRSY YLL   + A+A+   L+L      GQ   K  ++ GVR    L C   E + Y +    FGRR   + L +   +AG+F ++ A LPS+  M L ML M+ W+++Q  +AI    +A+LC    GWP+VGV+FIP  L   + R           G   +  T A++ A +V  L   V+  +Y R   P +NI+ YNVL    G  D  LYG EP +YYV NL LN +I   LAL A+ F+ L    +    A S+L Q +   SP  +WL +MFA+ HKEERFL+P YP + LAAA TL   V     + +     A    R L   +  + +   A L   R  + V  ++ P  ++  +Y  EL      P +++    G+  QP V LC+  EWHR+P+SF+IP     V F++S F GQLP+ F    +GT   P    N+ N EE  R++++++CDY V     D  Q  T+  +  Q        W  V +   L  E S    R+F+IPF++ + V++   ++++R
Sbjct:   26 ERRLWTPTFETALSLLLLPRVASALVNPIADCDETFNYWEPLHYLMYGFGFQTWEYSPMYALRSYLYLLFHWAIAKATSFGLTLGVLGGAGQMLSKIVVFYGVRGALGLLCAYAEGIFYRSCIAHFGRRTARYLLWILLWNAGIFHASTAFLPSTFVMYLIMLFMSAWMEKQHFVAILWGVIAVLC----GWPYVGVLFIPFALETLYTR-----------GVVKSVLTGAVIGA-SVLTLEVGVNFHYYQRLVLPAWNIVQYNVLS---GETDSTLYGTEPWTYYVMNLALNFNIVALLALPAVVFMWL----LPSHYATSKL-QLVSYLSPLYMWLLIMFAQAHKEERFLFPVYPLLCLAAATTLSAVVYRVRTIFQSLNSAAVG--RALAKCLVWSVLGGFALLSASRITSNVINYSAPLRVYNHLYEHEL------PNEARSALHGKTSQPLVNLCISKEWHRFPASFFIPTNATSVRFVKSAFSGQLPKAFEQHANGTSVIPTD-MNNQNREEPSRYLSVEQCDYFVDLNLPD--QEETKFWEHTQ-------TWILVHSESFLHAEASRSPYRSFYIPFLTSKHVKYTDYAIYKR 584
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A5D6Y6Z2_9STRA (Mannosyltransferase n=1 Tax=Pythium brassicum TaxID=1485010 RepID=A0A5D6Y6Z2_9STRA)

HSP 1 Score: 304 bits (778), Expect = 7.840e-89
Identity = 216/593 (36.42%), Postives = 315/593 (53.12%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGN---DKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAI---FVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQP-VRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRR 1960
            E  +W P   TA + ++  R++SA T  + DCDET+NYWEPLH+LL+GFGFQTWEY+P +ALRSY YL      AR +   L+L         K  I+ GVR    L C   E  +Y +   + GRRA  + L L   +AGMF ++ ALLPSS +M L MLV + W+ ++  LA+    VA+LC    GWP+VG +F+P+ L+  + R   G+  +  +GAA  +A  A+            V+  +Y R   P + I+ YNVL A       LYG EP S+Y  NL LN ++A  LA   P L + L P A   A S L Q+L   SP  +WL +MF++ HKEERFL P YP + LAAA    +T+ AA   V++     PA  R L   +    +     L   R A+ V  +  P  +++ ++ R L         S P   ++P V LCVG EW+R+PSSF++P     V F++S F GQLP+ F A +   +      N+ N EE  R+VAL  CDY V     D +  + + +++ +D       W  V +   L  E S    R+F++P ++ ++V H   ++++R
Sbjct:   35 ERRLWTPTFETAVSLLVIPRVVSALTNPIADCDETFNYWEPLHFLLHGFGFQTWEYSPAYALRSYVYLAFHWVIARLAGLALALGASPELAVSKVLIFYGVRGALGLLCAYAEAALYRSCVPRVGRRAARYVLWLLLWNAGMFHASTALLPSSFAMYLVMLVTSAWMDQRHFLAVSWGVVAVLC----GWPYVGALFVPLALDTLYAR---GALQSLLVGAAVGAAVLAVELG---------VNWHFYRRLVLPAWQIVEYNVLSAETDSA--LYGTEPWSFYALNLALNFNVAAALAAPAP-LVVCLLPRAG--ATSTL-QRLAYLSPLYVWLTIMFSQAHKEERFLSPVYPLVCLAAA----VTLSAAVSSVQRALRSRPAAARALSSLLVWGVLGLYTLLSASRVASNVLNYRAPLRVYQHLHARVLPTAARSALHSDP--RLEPRVTLCVGKEWYRFPSSFFVPTSATRVAFVKSAFTGQLPKAFEAHENATSVVPTHMNNRNQEEPSRYVALAACDYFV-----DLNLPTQQEARLWEDPA----TWTLVHSEPFLVAEASASPYRSFYVPLLTAKYVTHADYAVYKR 590
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A8K1FM41_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1FM41_PYTOL)

HSP 1 Score: 302 bits (774), Expect = 2.390e-88
Identity = 215/601 (35.77%), Postives = 315/601 (52.41%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAAR-ASETF-LSLFGQGN--DKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLR---LSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATD-GTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKETT 1972
            E  +W P   TA + +L  R++S+    + DCDET+NYWEPLHYL+YGFGFQTWEY+P +ALRSY YLL  +   + AS  F  SL G      K  ++ G+R    L C+ CE L Y A    FGRR   + L +   +AGMF ++ A LPS+  M L ML +  W++RQ  LAIF   VA+LC    GWP+VGV+F+P + +    R   LS  +  + GL   TA                  V+  +Y +   P +NI+ YNVL +       LYGVEP S+Y  NL LN +IA   A+ALP L +    +  + A +   ++L   SP  +WLA+MFA+ HKEERFL+P YP + L AA TL     A + +   FG  +      +   V  +  L++  L + R  + V  ++ P  I+  ++   L P          G       LC+G EW+R+PSSF++P     V FL+S F GQLP+PF   + GT   P    N+ N EE  R+   D+CDYVV     D +    + +K      E+  +W  + +   L+ + S    RA ++PF++ + V++   +++++K  T
Sbjct:   21 ERHLWTPTLETAVSLLLVPRVISSLLNPIADCDETFNYWEPLHYLMYGFGFQTWEYSPLYALRSYLYLLVHLVVVKLASWGFSFSLVGTTGVVSKVMLFYGLRGALALVCSYCEALFYRACIPHFGRRTARYLLWILLFNAGMFHASTAFLPSTFVMYLIMLFLTAWMERQHFLAIFWGVVAVLC----GWPYVGVLFVPFMFDTLHARGVVLSLIAGASIGLVVLTAEIG---------------VNFFYYRKIVLPAWNIVQYNVLSSETD--STLYGVEPWSFYALNLALNFNIAA--AMALPSLLVVF--LLPRSASAGAGRRLAFLSPLFIWLAIMFAQAHKEERFLFPVYPLLCLGAAITLS---SAVASVWGVFGPGSSFGNFTVTVLVYGSLGLYSL-LSISRVTSNVVNYSAPIRIYSHLHDHVL-PSPTKNVFMASGSATAVTTLCIGKEWYRFPSSFFVPTNATSVRFLKSSFSGQLPKPFEQHENGTSVIPTD-MNNQNREEFTRYTPEDDCDYVV-----DLNLPGQQETK----FWESPGKWQLIHSEPFLNADASRSPYRALYVPFLTTKHVQYVKYAVYKQKRDT 581
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A2P4Y8M5_9STRA (Mannosyltransferase n=2 Tax=Phytophthora palmivora var. palmivora TaxID=611791 RepID=A0A2P4Y8M5_9STRA)

HSP 1 Score: 302 bits (773), Expect = 3.000e-88
Identity = 209/594 (35.19%), Postives = 308/594 (51.85%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLAL--ALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATD-GTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKE 1966
            E  +W P+  TA + ++  R  SA  + + DCDET+NYWEPLHYLLY FGFQTWEY+P +ALRSY YLL      + +    +L    N K  ++ G+R    L     E + Y +  ++FGRR   + L +   +AG+F ++ A LPS+ +M L ML  + W+ +   LA+F   VA+LC    GWP+VGV+FIP  +   +   S G   +  +GAA   A  A+            V+  +Y R   P +NI+ YNVL   +     LYG EP SYY+ NL LN ++   LA+   L    LP +    K+      Q L   SP  LW+A+MF + HKEERFL P YP   LAAA TL   V      + +F   A A    L   + +  +   A L + R  + +   + P  +++ +Y + L     G     P   M  V LC+  EW+R+P+SF+IP  +++V F++S F G LP+ F   + GT   P  A ND N EE  R+V L+ CDYVV     D +  S +  K      E    W+ V +   LD E S    R+F+IP ++ Q+V++   +++++K+
Sbjct:   23 ERQLWLPSLETALSLLVLPRAASALLSPIADCDETFNYWEPLHYLLYRFGFQTWEYSPVYALRSYVYLLLHYVVVQLTAFGSTLGLLANQKLLLFYGLRAALGLFSAYAEAIFYHSTSRRFGRRTARYLLCILLFNAGIFHASTAFLPSTFTMVLVMLFSSAWMDKNHYLALFWGIVAVLC----GWPYVGVLFIPFAVETIY---SRGLVKSILVGAAIGGAVLAVELV---------VNFHYYQRWVLPAWNIVVYNVLS--NETDSTLYGTEPLSYYLLNLVLNFNVVALLAVPAVLFIFVLPSHYETGKL------QMLAYLSPMYLWIAIMFTQAHKEERFLSPVYPLFCLAAAITLSGVVYR----IGRFFNHARAVGSGLTKVIVLGTLGVYALLSVSRVVSNIVNFSAPLRVYQHLYAKVLPNPETGMLLDAPNAAMPTVNLCLLKEWYRFPTSFFIPSNRIKVQFVKSSFSGLLPKAFEEHENGTSIIPT-AMNDQNREEPSRYVPLETCDYVV-----DLNLPSQKEIK----FWEEPSTWELVHSEPFLDAERSKSPYRSFYIPMLTPQYVKYADYAIYKQKK 578
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A662YK69_9STRA (Mannosyltransferase n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662YK69_9STRA)

HSP 1 Score: 302 bits (773), Expect = 4.210e-88
Identity = 217/609 (35.63%), Postives = 307/609 (50.41%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLF------GQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLR-----LSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLAL-ALPFL-ALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFA----ACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRRKET 1969
            E  +W P   TA + +L  R+ SA    + DCDET+NYWEPLH+LLYGFGFQTWEY+P +ALRSY YLL  ++  + +   + L       G G  K  ++ G+R    L C   E L Y +   +FGRR   + L L   +AG+F ++ A LPSS  MTL +L  + W+     LA+F   VA+LC    GWP+VGV+F+P  L   + R     L  G +   G+             AM +A     V+  +Y R   P +NI+ YNVL +       LYG EP S+YV NL LN ++A  LAL A  F+  LP +    +V      Q +   SP  LWLA+M ++PHKEERFL P YP + L+AA TL   V   + L            R + H +A+  VL      A L + R  +    ++ P  I++ ++   L    +G   S        V LC+  EW+R+P+SF++P     V F++S F GQLP+PF   +   +    A ND N EE  R+V L  CD VV     D  Q  T+         E  D W+ V     LD E S    R+F++P ++ Q V +   ++++RK T
Sbjct:   32 ERRLWTPTLETAVSLLLLPRVASALVNPIADCDETFNYWEPLHFLLYGFGFQTWEYSPVYALRSYVYLLFHLAITKLTALGVGLGLLGTMGGAGVSKILLFYGLRGALGLLCAYAEALFYRSSISRFGRRTARYLLWLLLFNAGVFHASTAFLPSSFVMTLVLLFSSAWMDGSHFLALFWGVVAVLC----GWPYVGVLFVPFALETFYSRGVVRSLLVGGAIGGGI------------LAMELA-----VNFHYYQRWVLPAWNIVQYNVLSSETD--STLYGTEPWSFYVLNLALNFNVAAILALPAAAFVWLLPSHYSTSRV------QLVAYLSPMYLWLAIMMSQPHKEERFLSPVYPLLCLSAAITLSAVVYRLARLFRH--------ERSVGHVLALLLVLGVLGGYALLSVSRVVSNTVNYSAPLRIYRHLHEHVLPNPANGLLRSDANTPEPVVNLCLLKEWYRFPTSFFVPSNATRVQFVKSSFAGQLPKPFEQHENGTSIVPSAMNDQNREESSRYVDLAVCDLVVDLNLPD--QQETK-------FWEETDTWELVHAEWFLDAERSASPYRSFYLPVLTPQHVTYAQYAIYKRKPT 594
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BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Match: A0A0P1ALP4_PLAHL (Mannosyltransferase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1ALP4_PLAHL)

HSP 1 Score: 301 bits (772), Expect = 4.770e-88
Identity = 206/592 (34.80%), Postives = 299/592 (50.51%), Query Frame = 2 
Query:  203 ESMVWAPAAATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAPKFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQIWLGVRLFHVLCCTLCEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFMLVMALWLKRQFGLAIF---VAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSSFAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVLDAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADKVAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLDITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRFHNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSFYIPHEKVEVGFLRSDFHGQLPQPFPATD-GTMAEPLQAFNDVNAEEEERFVALDECDYVVAARFRDFDQHS--TRASKVVQDILEAKDQWDHVLTHKLLDPEFSDPALRAFFIPFVSEQFVRHGVLSLFRR 1960
            E  +W P+  T+ +F++  R +SA  + + DCDET+NYWEPLHYLLY FGFQTWEY+P +ALRSY YLL      + +    +L      K  ++ G+R    L     E L Y ++ ++FGRR   + L +   + G+F ++ A LPSS SM L +L  + W+ ++  LA+F   VA+LC    GWP+VGV+FIP  L   + R    S +  G+               AV  +   V+  +Y R   P +N++ YNVL +       LYG EP S+Y+ NL LN +I   LA       L L P  +K  K +L   LL  SP  +WL +MF + HKEERFL P YP I LAAA TL   V     +  +     P     +P+   M  +   A L   R  + +   + P  +++ +Y   L    +G          Q V LC+  EW+R+P++F+IP    +V F+++ F GQLP+ F     GT   P  A ND N EE  R+V LD CDYVV     D  +    T  S            W  V +   LD E S    R+F+IP ++ Q+V++   ++++R
Sbjct:   28 EHRLWLPSMQTSLSFLILPRTVSALLSPIADCDETFNYWEPLHYLLYRFGFQTWEYSPVYALRSYAYLLLHYVIVKLAAFGFTLGLLPGQKLMLFYGLRATLGLISAYAEALFYQSISRRFGRRTARYLLFILFFNVGIFHASTAFLPSSFSMMLVLLFSSAWMDQKHYLALFWGVVAVLC----GWPYVGVLFIPFALETLYTRGIFKSVYVGGV------------IGGAVLAVELLVNFYYYQRWVLPAWNLIVYNVLSSETD--STLYGTEPLSFYLLNLALNFNIVALLAAPAALFILTL-PGHNKTIKVQL---LLYLSPMYVWLVIMFNQAHKEERFLSPIYPLICLAAASTLSAVVYRLKNVFSRV----PTLHTGIPNVFVMCTLSVYALLSGSRIVSNIVNFSAPLRVYEHLYASVLPNPENGKLQIAHDTATQSVNLCLLKEWYRFPTNFFIPSNSTQVNFVKTSFSGQLPKAFEQHYLGTSVIPA-AMNDRNQEEPSRYVLLDTCDYVVDLNLPDQSEFKFWTEPSS-----------WTLVYSEPFLDAERSKSPYRSFYIPILTPQYVKYAEYAIYKR 581
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig186.60.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K5L9_9PHAE0.000e+085.35Mannosyltransferase n=2 Tax=Ectocarpus TaxID=2879 ... [more]
A0A835YXB7_9STRA7.370e-13143.06Mannosyltransferase n=1 Tax=Tribonema minus TaxID=... [more]
K8YQ02_NANGC4.450e-9433.78Mannosyltransferase n=3 Tax=Monodopsidaceae TaxID=... [more]
A0A2D4C8U7_PYTIN1.550e-9337.01Mannosyltransferase n=1 Tax=Pythium insidiosum Tax... [more]
K3WCF1_GLOUD6.410e-9036.61Mannosyltransferase n=1 Tax=Globisporangium ultimu... [more]
A0A5D6Y6Z2_9STRA7.840e-8936.42Mannosyltransferase n=1 Tax=Pythium brassicum TaxI... [more]
A0A8K1FM41_PYTOL2.390e-8835.77Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
A0A2P4Y8M5_9STRA3.000e-8835.19Mannosyltransferase n=2 Tax=Phytophthora palmivora... [more]
A0A662YK69_9STRA4.210e-8835.63Mannosyltransferase n=2 Tax=Nothophytophthora sp. ... [more]
A0A0P1ALP4_PLAHL4.770e-8834.80Mannosyltransferase n=1 Tax=Plasmopara halstedii T... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig186contigP-littoralis_Contig186:165752..192528 -
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.D7FKV5
Preferred nameALG9
PFAMsDUF3445,Glyco_transf_22
Model size2717
Max annot lvl2759|Eukaryota
KEGG koko:K03846
KEGG ReactionR06259,R06261
KEGG Pathwayko00510,ko00513,ko01100,map00510,map00513,map01100
KEGG ModuleM00055
Hectar predicted targeting categoryother localisation
GOsGO:0000026,GO:0000030,GO:0003674,GO:0003824,GO:0004376,GO:0004377,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005783,GO:0005789,GO:0006464,GO:0006486,GO:0006487,GO:0006488,GO:0006490,GO:0006508,GO:0006511,GO:0006629,GO:0006807,GO:0006950,GO:0008150,GO:0008152,GO:0009056,GO:0009057,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009987,GO:0010033,GO:0010243,GO:0010498,GO:0012505,GO:0016020,GO:0016021,GO:0016740,GO:0016757,GO:0016758,GO:0019538,GO:0019941,GO:0030163,GO:0030176,GO:0030433,GO:0031224,GO:0031227,GO:0031984,GO:0033554,GO:0034645,GO:0034976,GO:0036211,GO:0036503,GO:0042175,GO:0042221,GO:0043161,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043413,GO:0043632,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044255,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044422,GO:0044424,GO:0044425,GO:0044432,GO:0044444,GO:0044446,GO:0044464,GO:0050896,GO:0051603,GO:0051716,GO:0070085,GO:0071704,GO:0097502,GO:0098827,GO:1901135,GO:1901137,GO:1901564,GO:1901565,GO:1901566,GO:1901575,GO:1901576,GO:1901698
Exons16
Evalue0.0
EggNOG OGsKOG2515@1|root,KOG2515@2759|Eukaryota
Ec32 ortholog descriptionAlpha-1,2-mannosyltransferase, family GT22
Ec32 orthologEc-17_001510.1
EC2.4.1.259,2.4.1.261
Descriptiondol-P-Man:Man(8)GlcNAc(2)-PP-Dol alpha-1,2-mannosyltransferase activity
Cds size1908
COG categoryM
CAZyGT22
BRITEko00000,ko00001,ko00002,ko01000,ko01003
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789890.7538025-UTR-P-littoralis_Contig186:165751..1664841680789890.7538025-UTR-P-littoralis_Contig186:165751..166484Pylaiella littoralis U1_48UTRP-littoralis_Contig186 165752..166484 -
1680789890.9624317-UTR-P-littoralis_Contig186:192452..1925281680789890.9624317-UTR-P-littoralis_Contig186:192452..192528Pylaiella littoralis U1_48UTRP-littoralis_Contig186 192453..192528 -


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

Feature NameUnique NameSpeciesTypePosition
1680789890.7688243-CDS-P-littoralis_Contig186:166484..1666251680789890.7688243-CDS-P-littoralis_Contig186:166484..166625Pylaiella littoralis U1_48CDSP-littoralis_Contig186 166485..166625 -
1680789890.7781742-CDS-P-littoralis_Contig186:167019..1671431680789890.7781742-CDS-P-littoralis_Contig186:167019..167143Pylaiella littoralis U1_48CDSP-littoralis_Contig186 167020..167143 -
1680789890.7909994-CDS-P-littoralis_Contig186:167342..1674101680789890.7909994-CDS-P-littoralis_Contig186:167342..167410Pylaiella littoralis U1_48CDSP-littoralis_Contig186 167343..167410 -
1680789890.8023155-CDS-P-littoralis_Contig186:167874..1680731680789890.8023155-CDS-P-littoralis_Contig186:167874..168073Pylaiella littoralis U1_48CDSP-littoralis_Contig186 167875..168073 -
1680789890.8121474-CDS-P-littoralis_Contig186:168304..1683861680789890.8121474-CDS-P-littoralis_Contig186:168304..168386Pylaiella littoralis U1_48CDSP-littoralis_Contig186 168305..168386 -
1680789890.8218887-CDS-P-littoralis_Contig186:168565..1686471680789890.8218887-CDS-P-littoralis_Contig186:168565..168647Pylaiella littoralis U1_48CDSP-littoralis_Contig186 168566..168647 -
1680789890.8332267-CDS-P-littoralis_Contig186:168976..1690511680789890.8332267-CDS-P-littoralis_Contig186:168976..169051Pylaiella littoralis U1_48CDSP-littoralis_Contig186 168977..169051 -
1680789890.8457108-CDS-P-littoralis_Contig186:169403..1694901680789890.8457108-CDS-P-littoralis_Contig186:169403..169490Pylaiella littoralis U1_48CDSP-littoralis_Contig186 169404..169490 -
1680789890.8544335-CDS-P-littoralis_Contig186:169814..1699801680789890.8544335-CDS-P-littoralis_Contig186:169814..169980Pylaiella littoralis U1_48CDSP-littoralis_Contig186 169815..169980 -
1680789890.8642802-CDS-P-littoralis_Contig186:170179..1704241680789890.8642802-CDS-P-littoralis_Contig186:170179..170424Pylaiella littoralis U1_48CDSP-littoralis_Contig186 170180..170424 -
1680789890.8812833-CDS-P-littoralis_Contig186:170766..1709111680789890.8812833-CDS-P-littoralis_Contig186:170766..170911Pylaiella littoralis U1_48CDSP-littoralis_Contig186 170767..170911 -
1680789890.8956904-CDS-P-littoralis_Contig186:171087..1711761680789890.8956904-CDS-P-littoralis_Contig186:171087..171176Pylaiella littoralis U1_48CDSP-littoralis_Contig186 171088..171176 -
1680789890.916561-CDS-P-littoralis_Contig186:171485..1716031680789890.916561-CDS-P-littoralis_Contig186:171485..171603Pylaiella littoralis U1_48CDSP-littoralis_Contig186 171486..171603 -
1680789890.9304218-CDS-P-littoralis_Contig186:172014..1721611680789890.9304218-CDS-P-littoralis_Contig186:172014..172161Pylaiella littoralis U1_48CDSP-littoralis_Contig186 172015..172161 -
1680789890.9401097-CDS-P-littoralis_Contig186:172673..1727281680789890.9401097-CDS-P-littoralis_Contig186:172673..172728Pylaiella littoralis U1_48CDSP-littoralis_Contig186 172674..172728 -
1680789890.952327-CDS-P-littoralis_Contig186:192367..1924521680789890.952327-CDS-P-littoralis_Contig186:192367..192452Pylaiella littoralis U1_48CDSP-littoralis_Contig186 192368..192452 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig186.60.3prot_P-littoralis_Contig186.60.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig186 166485..192452 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig186.60.3

>prot_P-littoralis_Contig186.60.3 ID=prot_P-littoralis_Contig186.60.3|Name=mRNA_P-littoralis_Contig186.60.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=636bp
MGKPRRRAPRDRSEGDGDANVTGDEDTSEAVAMVESAPGTNMESMVWAPA
AATASAFVLFIRLLSAGTTCVGDCDETYNYWEPLHYLLYGFGFQTWEYAP
KFALRSYFYLLPSVSAARASETFLSLFGQGNDKPQIWLGVRLFHVLCCTL
CEVLMYLAVKQQFGRRAGGFFLILSASSAGMFVSAPALLPSSSSMTLFML
VMALWLKRQFGLAIFVAMLCVFGTGWPFVGVIFIPMLLNCAWLRLSHGSS
FAEGLGAATASATWALMCAMAVAGLATWVDSGWYGRTTSPTFNILWYNVL
DAGDGRGDELYGVEPASYYVKNLFLNTSIAFPLALALPFLALPLYPMADK
VAKSELRQKLLMCSPGLLWLALMFAKPHKEERFLYPAYPSIFLAAACTLD
ITVQAASELVEKFGGDAPADRRLLPHAVAMACVLFAACLGMCRTAAVVRF
HNTPCNIFKFVYYRELRPYWDGPEDSQPGEMMQPVRLCVGGEWHRYPSSF
YIPHEKVEVGFLRSDFHGQLPQPFPATDGTMAEPLQAFNDVNAEEEERFV
ALDECDYVVAARFRDFDQHSTRASKVVQDILEAKDQWDHVLTHKLLDPEF
SDPALRAFFIPFVSEQFVRHGVLSLFRRKETTKRG*
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mRNA from alignment at P-littoralis_Contig186:165752..192528-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig186.60.3 ID=mRNA_P-littoralis_Contig186.60.3|Name=mRNA_P-littoralis_Contig186.60.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=26777bp|location=Sequence derived from alignment at P-littoralis_Contig186:165752..192528- (Pylaiella littoralis U1_48)
CAGCTGAGCTACAGCGCGTTGTATCGCACAGCTCCTGTCACCTCTCTCTT
TTACATTCAAGCTCAACTCCAGTGCCATGGGGAAACCGAGACGCAGGGCG
CCTAGAGATCGAAGTGAGGGTGATGGTGATGCCAACGTTACTGGTGATGA
AGACACCTCAGGTAGAACCACTTTTGCCGCCCTCATGATCGGCTTTTGAG
GCAGTTTCGGCTTGTTCACAATCGGAACATATACGAGTATATTATACCTG
GACAGCTTTAAGCGAATATCGGTGTACAGCGTTGTCATGAGACAACACCC
CATCACCACCTCGTTTGCAACAACGGCCAGCATCGTTTTGCAGAGCGGGG
GTGTGCTGCGCTACAACTTCTCTTCGAACCACTGAGGTATACGAGTTGGT
AGTTCGAACCAAACCGCACCGAGGAAAATGATCGAAGTCGCATCGTGTAA
TACTCACGACACAGTAGTTTCCAAGTATCACAAACATACCCGCAGAGCAA
ACAGGATTTTGTTCCGAAGGCAGCCGAACTGCTGTCTGCGTTCAGTTTGA
TTATTAATTAATGTATTGACCTCCTTTTCATAGCTGAAGCCGTACCATAC
CCTCATAACTGAAGCCGTGTCATACGTATAATATTATATCACACACTGCC
GCCATGCCGTGCAGTTATGATGTCATATCGAGGGCATTCGGAACGGTTAT
TCAGACATGAGAAGAACTGGAACCTCAAATCGTGCCCCGAGGTTCGATGC
AAATCTTGACCGCCGTTGGGGAAGCGATCGACTTTGGAGCGTGGGTAGTA
ATATATAATGAAAAAAATGAATCCTTCCACAACCTCGGTTGACCCTCCTA
CAGTAGGCTCCTCACTCTCAGGTGGCTAGTCGCAAGAAGCCTGCTTTTTA
TTTTTTTGTCGGGCGAAAAGGTTCCGTTTCGTGTAATCTCGCCGCGCAAT
GCCTGCAAATCGACTCGAGATATTTCAGCAGCACAGCAGCCATGGCACGA
GCTAAATATACGCATGGGCCGCGGCAAAGGCCCGCGGTAGGCTAGATGGT
AGGGTTATTTAGTAGAAGGATATCCCAGCCGCTATTGCGAGCCGACGGAG
GTAGCATGTTTTATCTCTGGTCCGGTGTGTTTGCTCCTGCACTCTATTTC
AGTATATATCCTTTTGCCCGGAAAAAATGCCTGAGTTTGCCCGGTTGAAG
GTTGCCCTGTATCTGTAATTCTCTAATCCCCTGGGTGTGGAGGCCTTCGG
TCTCTTTAGAGTACCCACTGCTGCTGTTGCTGCTGCCTGGTGAAGGCTCT
CGTATAGCACACAACCATGCCTGTTCTTCCCGCGGTTGATGCTACCGCCT
CCGCAGAGGGCGGCACGGCCGCCTGCTACAACCAATTCGTCTCGTTCACA
CATGTGTTTTTGATCCCAGTATCCGCAGACCGGGCTGGAACAAAAATAAG
TAAATAAATGCTCGATTCTGGTGCCCAATTTTTTCCTCTGAAGGCCCAGA
AGGGTTAAGGCTGGACTCCTCTTGATATTTTTTGTTTTCTTTCCCTTGCA
ATCTCGACCAAAAAAATAAGTGGCGGTTTCAGAAAAAGGTTGAGACAACC
TGACAGTTTCAGAATGATGCAGCGTCACTCAGCCAATGAGTGGCCAATAT
TTCATTGATTTTTATTATTTTCCATCGGAGATCATCCCCGCAAGCGATGC
GGCTGCCTGGGGTCATCGGAGCGATCTGGGCCAGCTTCATCATCGCTGCC
CCAGAAGGTACGACGTTCGACTATGATGTAGATTGTGTCGAAATATGACG
ACGCTGCAAGTTTCGTATGTTTTGGTTAGCTGTGTGTCGAAGTCTGGCAG
CGACGTGTTTTGGGCGCCGACCACCTACCTTCAACAGCAGCAGGAGGCCG
CTAATAGAGCCCACCTCGGCGTTCGCACCCCACAGATCGAAACTTCTAAA
TGTTATTCGAGTATATCCATTGCCATGTGTTCCAGATGGGCTACGAACTG
TGCCCGACCTCAGTCGGTCCACTACAAGTTGAGAAATGTTCTAAAATATG
TTAAAATAACAGCTCGTGGATCAGCTGTCATTCTCGAGGGGACAATAACC
CGAGGCACAACAGCCAGTACCCCACAAGGCAGTAAGCACTTCCGGAGGAC
CGGGAAAGTTTCACCCATAGTTAGTCATGATAGTTGCCTGTGAATGACGT
TGGAATTGATGTTGTACATGGACTGCAGCAGAAGAAGACCGTTTTTTATT
GTATGGGTCGTGGTTGAGGGTCAGCTCCCACCTTGCCGTGACCCCATGAC
AAGGTCTCTATCGTGCATAGTGCTGTTCTCTTTGGCTGCGATATGTACCA
GGGCGTAGGAGCACTTGAAAGATAGCTGAGACCAAGGAGAAGCACAAACA
AAAAAAACATTCAGAGGTTACGAATTGGGCACAGTTCATAACGTCGATAC
CGCAAAGCCTAAAATGCCCCTAAAACGATGTTATTGTACCGTTTTTACTA
TACAGCCAGCGGAGCGGGGCCCGTCTTGGACACCTGCACACCACTGGACA
TCGTCTCTTTGCTGGGCACCCAACCAACCCAAGATGGTTGGCGTACGTGC
GCAAGCGTCGAGCAAGATCTAGGCCTTGATGACAACGCTGTATCCAGCTC
ATGACGCATTGCATGTGCCGGAGTAAAAGGAAAACAACTCTCGAAAGACC
TGTGGGACAGACTAGGGGAAAAGGGCGTGTATCGACGCCTTGGTAGACAG
AGACCACATACTTGTAGGGTTTGGTGGCTTGCGCTTTGTGGAGAGGGGAA
CCCTGCCCCAGATATTAGCCCTCCACGGGACTTCGACGAAAGAGAGACGA
TGGGATTGCTGGAGAGGATGCCGTAGATGAGGATCGCAGTGCCGCTGCTC
AGGAGAAGGAGACGTACGCGTCTGGCGGTACCGCCAGAGAGCACGAGATG
AGGAAGGCTGCTGCTGCTGGGGAGGAAGTGACCGATAAAGTTCGCCAAAG
GTGCGGTCCTTGTCGAAATGGTTCATTTTTTGTGTATGATTGATAAGTCT
GTCCTGCGTTGGCAATGGTACGTTGATGTTACGCTCTCGTGTCCGTAATT
TGGTTAATTGTAGAGCTTTCCATCTAATATCAAGTACTTGTAGTATAGCG
AGAGACAGCGAGAGACATTGCCGTATGATAGGGTTAGTAAGATACGACAC
CTGCTGAAGCTATTTAAAATCACAGATACTCCACACATAAGAGAGTATCA
CCATCAAACGATACGTTTACTCTCGACGATACGTCTCTAATACGCCCTTT
GTTCATTGCTTTCGAATGTTGGATTTTTATTAAACACGTACCCCCCTCGC
TTGAACAGGGGGGGGGAGAGAAGAGTGGAAGCCCCGGGGATGACACGAAC
CATCCCCGCCCACGACGTTAGTACAGAAACCAGTCACAACACCAACAGGC
AGACGCTCTGCCTGCCCCCGACTTGGCTCTAAATCCAAACTGCCACGGAA
CTCATACCGTACACACGGACACCAATATTCATCCCGACCCGGAAGGCACT
CCTTGATATGATGTGCAGTACCCCTTCGACCATTATTTCGTCATACACTG
CACACAACCAACTCTTTGATACGATGTGCAGCACCACTTCTTCCGGGAAA
ATTAAATTCAACACAGGGATGATTAGGTGAAACACACAAATTGTAGCCCG
AAACACACAAATTGTAGCCCGAATAGCAGTACCCTCTTCTCTCCCAACAC
AACGACCAGACCACATAAACTTTCTGGTATACACGACGAGTCAGGTTTTA
TTCAAGCTTGGCGCAAACAACAACCAACGATGGTCCCACGGCCACAAACG
GTGGCCCCCTGACCACCATACCCGACAATACTGGCCGCACAACGGCCATC
CTGCGCCCCCTTCACAGCTCGTTCCGCCTTGAGTTACGTCTGCATTCACA
ACCAATGCACCGACACTCCCCTCCTCCGGAACCTGCGGCCCCCATGGCTC
GCCCTGTCTCCAGTGCATTGAACGAATGCGCCGACACACCACGACTTCCG
GAACCAACGAGCTACATCCAGCCTGACTCGCACACACACATGAAGCAAGG
ACACACACAAATTAGAGAACAGCCTCCAAGTCCTTGATCAACCCCACCGG
CGGTCTACACTCCGCGGACGACGAACACCCGACTTTTTCATCGATATACA
ACCGCACCGGACGGCGAACACACAAATGTTTCGTCTATATCCATCCGCAC
CGCCGGGACCGTACTACCTCCCGTTCCACTGACACCCTCAAAAGCACGGG
TGGGTGGGTGGGAAAGCAGAAGGTCTCCAGAACAAATACTCTTTGGCCAC
AGCCTTTCCACACTCGCTCTTGCTCGTTTACGTCGGACCAACGAGTGCCA
GGAGGGGGCCCACCTCTCCCCTTCCTGGCCAACTTCAAGTGATGCACTAC
TACGTGCTGATTGGCCAATGACTATTTATTCTTCCGCCATCACAAAACTC
AGATTTCAACGCCTCTCGCCTCTGAAATCTTCTGCTTTGTTCATTGCTTT
CGAATGTTGGATTTTTATTAAACACGTACCCCCTCGCTTGAACAGGGGGG
AGAGAAGAGTGGAAACCCCGGGGATGACACGAACCATCCCCGCCCACGAC
GTTAGTACAGAAACCAGTCACAACACCAACAGGCAGACGCTCTGCCTGCC
CCCACACGCGAATGGGGCTGGTTGCTATACTAACGTCTACTCACTCCACC
GCTCCCCCCCCCCTTTCCTTCTGCGAATACGTAAACACGTGTGCACCCCC
AATCATTCATCAGCATATAACACACAACGCATCAACCTTCCCTTGACTGC
ATTATCTCTACACTTCGAGAACAACCCGCTCGAAACTCGTTCTGCATCCC
ACCCATATCTACGGATATGTAGGCGATACCCCCCGCCGCCGATCTACTCT
CATCACGCAGCTTTCTGGTAACGCCTTTCCCCCCGCGGCCAAGTACGAGG
CACCCCCAATACACAGGGAATGCAACGGCAATCCCGCCAACACCACGACT
TGCCGCAAGGCCAAAACTGCTTGGTGTCTGAACCACACACGCCTTCTGTC
CGCGCGAGCAGCAAAACTGCTTGGAGTTTGAACCATAACACCATCTGTCG
GCTCTAGCAGTAACAGTAACCAAAGAGGCATGATAGCCACCATACCCGAC
AATACTGGCCGCACAACGGCCATCCTGCGCCCCCTTCACAGCTCGTTCCG
CCTTGAGTTACGTCTGCATTCACAACCAATGCACCGACACTCCCCTCCTC
CGGAACCTGCGGCCCCCATGGCTCGCCCTGTCTCCAGTGCATTGAACGAA
TGCGCCGACACACCACGACTTCCGGAACCAACGAGCTACATCCAGCCTGA
CTCGCACACACACATGAAACAAGGACACACACAAATTAGAGAGCATACAC
GAAGAAGTAATGGATAACCAGAACGAGTCCGATCATGAAATTTCCTGCCC
CCGCCGCCGTCCTGCACGAAGCAAGGCGGGCCACGGCGCACACGAGTCAC
TACCTTGTCGCCCTTCGACCACTAAACGGCAGCACGAACCAAACGATGAA
AGGATTTGACGGCGTACAAGCGGCAGCCGATACCGGTACTCGTGCTGCAG
ACCCCGGGGAGTAAACTCATGCGCAACACAAGACAAAAACTGGGCTGCAA
AATTGGTCGAATCCGCCACATCGACGAGAAATACAGGCAACCGCACCACG
CCCACACAAAATTCCATCCAGGCTGGACACACCGTCCAGATAAGATAGTT
CCAAAAGACGGCGCATTAGCTGCGCGGACAGGCTGGAGCCCACCACGGTA
CCGCCCAGCTTCTCCACGCCCACACGACATTCCACCCAGGCTCAAGGAAA
AAGGCCCAAGTAATTTATCTCAGACGACGGCGCAACTGCAGCCCGTTGAG
CTGGAGGCCAGCACCACGAAAAACGGCTCCCCGACCCGGCCCAGGTGGAC
CTCCTGTCTTTGTGTATGGGGAAAGCAGCGCCAAGGTTACCACATAAGGA
AGAAAACATCCAGCGAGATTTATTGTCAACTATGGAGTGGTACCACACCG
GACACAAGCGATGCCTCGAAATGCCATGCACCAAACATTTCAATACGTGC
GCATCAACACCGACAGCGCTAGGTCCATAGAACACTAGCGTCGTCGTCGC
AGGGGCGTAGTCACCCGCCATGACTGGCCGGTGCTCTTGCCGACACCTAC
AACCGAGCCGTACCAGTTGGCCGTTGAAATACATTGATACTAAATGTGCT
CGCGCCACACAAATGTAACAGTTCTCCCGCATATTATTGTATCGGAGACA
ACGGCCGGCCTGCACACAACGACAGAAACCACCACCGGCTCACCTGGACC
CATCTGAACACGGCAAAACTAGGGAGGCAGGCGCACGACAACCTGAAACA
AGTGGCTGATAATATACGACGTGGACAAGAATGCCCGACGAGGGCGCGCA
CGACAATATGCTACATTGGGGTTTGAATTTAGTACCTGGCACGTGGGAAT
GTGAGGTGCCCCCCCCAAGCTGGAACCGTGCTGTACCAACCATCGCCACA
TAGAGGTCGTCGTAAACCATCGGGCCGAGGATCACGCGCTGGGCTGGATC
GGAAACCTCTAACGTGAGCTAAGCCGACATCGGCATACTCACCGTCACCC
GCTAACGTCTCACAAAGAATTTGCCCGGGCGCAGAAAGGATGAAACATGC
ATTGGGAAAACAGTCGACTCAGACATCTGTCGAGCCGTGGCAGGTTTGAC
ACGTCGGCCACTGCTGTAACACTCGAGCTAGATTGTGCTGTTTGCCTTCG
GTCATGAAAATTGTGGGCTCCTGTGCTTCCAGGACGAACCCCCGAACCCT
CAGCGATCTCTTCGGAGGATTTAATAACCCGTGATCACCCAACCAACGGA
AGTAATCAGTGGCAAGGAAATGCACTGCCCGCAAACACCGGCGCCGATCA
TTAAACCGTCCCTCGACAAACACTCGTCGTCCAAATAATCCCGCACAAAT
ATGGGAACCAGCGAATTCGTCGACGACCACCCCATGGTCCGCATAGTACC
ACACCTCTGCGGCGCCATAAATTGACCATGCGCAACGGCTGCCACCTCAA
CCTTTGTCCCGGTAGCGGTCCAGAAACCAAATACGCGTGTGTTGACATGC
AAGCGTATACGAACACTAAGGACCAGAAACCCGGGATTGAACGCCACCCA
GACAACTGCCTCGGTCACCTGCCGAATCCGTCCGTAACATCCACACGACA
CCGAAAATATGAAATAAAATGCCCTGGTGAGGGCCGACTCCAATCCTATA
TAATACTCGTTGATTTATTCATTATTCTCACCATTGTCCGCGCCGTTCCT
GGATTCTGGAATATGGTGAGTGTACTTTTAACTGCGCCCCGCCGTGTTGT
GTTTGCGCCCCGCCCTACCCGCCGTTGTGCATACGCCATATAAATGATAC
ATTTAGATGACGAGAACCTGTACCGCTGTATGGATATGGATACAGCTTAG
TACTGCTGTCTGTGTGAGCAAACATGCCAAGCACTGTATCTACGAAATAT
GGGCTTTAACACGACTCCGAGAGGCGATACACGCAAGCCTCAATTTCCGA
ATGTAGGCACACGCGCGGCAGCAGCAACCATTAAATCGAAAATCGTGCAG
AAAACAAAATTTGGGCTCTTCCACGACGCCGACAAGCGATACACACAAAC
CCAAATTTCCCGAATGAGACGTGCATCAAACACCAACGCACACGATAAGA
TCACATCGAAGATAACATGCTCCGTGATGACTGCCGCTACTGCTGTGAAC
GCGCTGTTGTACAAATACCTCCCACTACGAAATTCGGACTTTCCACGACG
CCGAGAGGCCATACCCGCACGCCCGAAATTTCCTAGTGTATGCGCACGCA
CGCACGCGCGGCGAACTTCAAGTCGTGAACAAATCAAATTTTGAGCTTGT
TCACAACGCCGAAAGTCGATACCCTCAAACCCAAAGTCCCCGCATGAATC
AATCGTGTTTCACACACCGACGCACACCTAAGATCACGTTGGGGATTATG
TGTTCTCAACTAGTACTACAACTGCTGTGGTTCCAAACTTGCCAACAATG
TCACAGTTGATGAAATCTGGGCTCTTCCACGACACCGCACAGATGATACA
CAAAGCCCAAATTTCCCGAATGAAACAAGCGTCAAACACCAACGCACGCC
CCACGATCACGCCAGAGACTAGTTTCACTGTCACAACACTGCTGTGTGTA
CAAACGTGCTAGGGAAATACCAAATATGGGGCTCGTCCACGAAACCATGC
CGATAGGCGATACACAAGCCCAAAATTTCCCGCACGAAGCGTGCGTCAAA
CTTCGACGCACGTCCCAAGCCCACGTCGGGGGTAGTTTTCTCTGTGATAA
CTGCTGTGTGTGCAAACGTTCTAGGAACGTTCGTTGTATTGTCCATAAGA
CGCGACCTTCGCCCCGAGAACCCACCCAAGGGCGATTTCACAGGCGCTCC
CGGCTGCAACAGCAGTCGAAGTATACATCCAACTTATGGGGGACCTCTTT
CCATGATTTCCGGAGACTTTTTCAAACCACCCGATTGTGAGCAAACCTTT
TGTTTTCTCTTTTTTTTTTTTTTTTTCAACACAAACAAAGAACGAGTTAT
GCTCGGGGAGTGCTGCAGTTTTCCAGATCCTCTACTGCTGTAAGTTGTTT
TTATTCCCGACGTGTAGAGAACTCAACACATCCCACGGAGTCTTGTCTGG
GGTGGATGTGCTTTCTTTGTGATGTTCAGGAGTTTTCCTTAAAAAAATGT
GCTCGCACCCGTGAGACATTACGACGATTTCCAGAAAAAAAAAAAAAATC
ACACCACCGAAATGTGTTCACACAAGAGCGCACAAGAAACATTTCACAAT
ACTGCTGTACAGCAGTACCACCAAAGTGACATCGCACGCGCGACACATCA
CCACCCTGTGGCGCAACCCACAAACCGATACTGCTACTGTATTCATATCA
TATGTACACAGAAGTTTTCAGTATGTACTCGTGCTGTAAGAAGGTGACAT
CGCACACGCGAAACATCACCATGGGGCGCCAAACGAGAGGGGCACAAGAT
GAGTGAAATGCATGTACCAATGCATCATCAGCACGCCCCTCACAATGCCG
AAGCAGGGCAGACCCTGCCCCTGCCACACGGCAAAGGCAATCGGCAGCCT
CCTCGATAGGACGTGAAGTCAACACCGACACTCACAGGCAAACTCCTGCC
ACACGGCAAAGGCAATCGGCAGCCTCTTCGATAGGGCGTGAAGCCAACAC
CGACCCTCACAGGCAACCTTCACACAAGCGAGTACAGCGACACCGGCGTG
TATTCACGAGTGGTTGAACCGGCGGACAAATCGCCACGACAGAGTGGAAG
GGGAAACGGAAAACGACGTGACCGAACCCAAACACAAACCCGCCCAACCT
CATGAGGTGGAGAATGTGCCCACCCAAATTGCAACCGCGTACCTGGGATC
AACGATGACACCGCTCTAGAGCTGTAGGCACGTGGGCACGCGACTCCCCC
ATCAGCCAAAGCGTCAACCGCCACCTCCTTTCATGATTCAATCTACACCC
GCCCCGCGCGTTGTTGCACCAGCCGCACCCGAGGTTGGCCCCATCACATG
ATGAAGTCCGTCCCCCTATTCCCTACCGACCGGGCTGTGCACCCCCCCGC
CTGCGGGTTGAGCGCTAGGGTCAATGAAGAGCTGCCTCCCGAAGCAGCAA
CACCGTTGGGATCAAATCTGCCGCGGTCGATCGATCCTTCCCCTTGAGAT
GCCATGACTCGTTGGCAGCAAAAACGATCCACGATCCACCACCGTTCCCA
TGGAAGGCAAACCAAGTCCAGATCACCGAGACCAAGTCCAGAGCAACCCC
ACCGACAGACCGAAAGACGAGAGGCCTGAAAGCAGAAGGTCTCCAGAACA
AATACCCTTTGGCCACAGCCTTTCCACACTCGCTCTTGCTCGTTTACGTC
GGACCAACGAGTGCCAGGAGGGGGCCCACCTCTCCCCTTCCTGGCCAACT
TCAAGTGATGCACTACTACGTGCTGATTGGCCAATGACTATTTATTCTTC
CGCCATCACAAAACTCAGATTTCAACGCCTCTCGCCTCTGAAATCTTCTG
CTTTACGGCACCGACACATGTAATGAATCGTGCTTTGTGAATCGGTCCAG
GGGGGCCCGTCGTATCTTACGGCACCCACGGAACACACGCGTCACGCCGC
CACACACACCACGCTGCAGAGCTGTATTCTGCTGTACAGCTGTATTCTAC
TGTACTGCTGCTGCTTTACTGCTGCTGCTGTACTGCTGCTGCTACTGCGC
TGCTGTTGCTGCTGTACTGCTGCTACTGCTGCTTCGCTGCTGTTGCTGCT
GCTGAGATATGTAATGATGTATCATCTCGAAGTATCATACTTTCACTCGA
GACGGAAAGCATAGCAGTGGCACAGTTACAACAAGACAAGAGCGTTGTGT
GTGCGGCAGGCTGCGGCGTGATGTGTAAATTTTGTGATGCGATATTTTAA
CACGAAAACAGGTCATATTATCATCACCTACAGGCGTCAACAACAGTAGT
ACAGTCGACCGTGGGAACGGACTGTAGACATGCTCGTAATGCTGGTGTGG
TGTCGCTGGCGTAGGGGTGGAAGGCTCGGGGGAAGCAGCAGCCAGGACTG
ACAATGTCGTGAGGGAAGCAGCGGCAGGTGGGCGGACTGCTGCTGCCGTT
GAGCGTGCTGCCAAGGGAAACAACCTGCAAGGGGTGGGAAGCTTCCGAAG
GAGTGAGTCCGTGTGACCTTTTTGTTTTGATTGTTTGTGCGCGGGCCGTC
GCACAGTGTAACCCTAGCTAGATGTGACTGTACCGTTTTTTTTTGTTGGA
TAGAGGACAGATAAAACTACACATTTGTGGAGTTATTTTTTCTGTTGTTG
TGGATAGACACAAAGACATTGTTGTGTTATTTTGGTCTTGTGGATAGATA
CAAAAACACCGTTCTTTTTTTGTTTATTGTAGTGGATAGATAAAATCACA
TCGTTCTTGTACTGTTACTGTTAAGAAAAAATAATACCGTTCAGTTTTTT
TATCATTTGCGACACAGTAGATAAAATCACCCCGTTCATGTACTGTTTAT
TTTGTTGGAGTGGATAGACAAAATCACATCGTGCTTGTATATACTCCGAG
TATTTACGTTTTTGTGGCGGATGGAACAAATCGCACGTTTTTTTTTGGTT
ATTGTGAGATCACACTGTGCTTGTTCACATTTTGTTTTTGGTATCGTGTT
TTCACACTGTACTTGTATTGTTTTTTAGGGTCAGGAAAGAACAAATCACA
CTTTTGTTTTCATTTTGTAGCGCGTAGATAAAATCCCGTCGTTATAACAC
CGACGTTTTTGTACTATTTTTTCAAAGAACATCACATGTCCTTGAAACCA
TACTCATCTTGTATTGTACATCGTTTCTTTACTTCAAAGACATAATCAGC
CTGCTGTTCTTGTACTTTTTTTTTCAACGTCGGCTGCGACAGATGGTAGG
CGGAGAAGGAGTAAGAGAGCGGAGTCAGCAGCGGCGCCAATCGTTAAGGT
TAACAGCGGTACACCAAACGCCACTGGCAAGCCAGAAACACCGCCGTCAT
CGCTTGCTGCCACGCCAACAACGTCGACTGCGCCCAATGGTAGGAAGAGG
AAGAGGAAGGGAGCGGACCCAGCAGCGGCACCAATCATTGAGGCAGACAG
CGGCACAGCGACGGCCACTAACCTCGAAAATACGTCTGCAGGGTTTGCTC
CTTCCGCGGCACCAGCGGCTGCGTCCGAGAGCGGGGGGTCTAGGAGCGGC
AGGGTGATAATAAAATCGCGGAGAGCCACGGAGTCCAAGGGAGTTGCATC
CATCAAAGACAGCGACGGATGAGCAGTTGGTTGCGGGCGGTCGAGGGCGC
GCGCGGGGTGGGGGTGCGGGAGTGGGCCCGTCGTTGGCGTGCTTGCTGTC
GAAGGGTGAATTCGGGGCAGAGGAGGTGGAGTGGAGGTGGGGAGGGGTGA
AGGGGTGGGGGGGGGGCTTCGACAAGTGTGTGCGGGAGCGGCGGTGAGCT
GGGGTGGCGTATCGGCATTATACTTACTTCCTCATTTTTAATCTCTATCG
CCTTCCATAATTTTCCTTGAGGATTTTTTTGTTCTCTATCGTGTCCTCGG
AGACGGGGTACTCGCCATGTGTGTGCGGGAGCGGCTGACCTTGTGGGGGG
GGGGGGGGGCGTACCGGTACTTATTTTCTTCCTTATTTTCATACTCTACC
GCCTCACCTACTTTCTATTTCAGTTTTGTTTTCTGCTGTGTTACTGGGGA
CGGGATAATCGACATGTATGAGCGGAAGCGGCAGTGAGCTGGGGGGTGCC
GTATCGGCAGTCTTTTTCATTCAGATTTCTATTATCTACCTGGTGCATCC
TGGCGTATTTTTCCTTTCGGAGCTTACTTTTCGGTTGTGTCCTCAGGCTC
GACCTTGTGTGTTGGTCTTTCACTTTTGTTTGTACACACGTATTCGCCAT
ACATAAAATACACCCGTGGGTATTCCTGCGTGTTCGTGTGTAGCCTTCTT
TTCGATGCCATTTTTCTTTTCGTGTCCTCGGAGCGTAATCACGTGCCTGG
TGTGTTTCCACGGACTAGACTTAGCGACCTGGGCTGATGTGATGTCGATA
AACGACAAAACGACGTACTTTGAAGTACATTTTTTTTGCAGGTGGCCCGA
CATTATTCTTGGCCTGACTGGAGTTTCAAACATAAAATGTACTCGGAGTA
CGTAATCCTCGAAATCTTCTGACACTTACGCTTGAGTTCGAACCCCGGTG
CAAAACACGATCCGGAACTATTATCATCATACGTCATGCGTGAGGGTGGA
AAACGATTAATTCGTGAGTAAACAAAATTCGAAGTGTTGACGAGGGAAAG
GGATGGCTGTACCCTTTCTCGCGAGCAAAAACGAAGTCAAGTACCGCAGT
GGGAAGTGGAGAAAGAAAAGAAAAAAAAGAAAGGAAAAAAATCCTGTGTT
GACTGGCTTCCCACTGCTGTGTGGCCCCGGTTGGAGCTTCTACCTACCCG
AAAGGCGTAGAGTGGCGTCAAATTAAAGGGATGACAACACATACACACTT
CGTATGAGGTTTTGTTCGATATGACACTCATTGGGGTCCACGCCAAACCC
GTCGTTCGTGCACATCTATCTGCGTCCCACCGCGGCTTGACGAGGCAGAC
ACGCTCGGTCGTTTTTTTTTTGTGTGGTCCATGTGCAGCAAATTGTCCAG
CTCTGAGAACGTACGTGAAAAAACATGTTGGGGCGTGTGGAACAACGATG
TCCGTGATCGCTTCGCCGAGCTTCGTCGATAATCGCAGATTCTTGTTGAA
CCTGGAGACAAATAGCATCATTTCACACCAAAACAACACATGGAGACCCC
ATAAATCGCCACGGAACTCCCTCATTCATCGCGGATTCAACTGTCATTGA
TTTGCTCTGAGACACCCCATCAAATATTTTACCAAATTTCTGAGTACAAT
TTAGTTTAATATGCTACTCCGAAAGTATTTCCTATTTTCATGCCACCAAT
ATCGTGTCATAGCACACTTCGTGTTTCAATGCCGAACAAACAGAGACAAA
CCCGTGCACTTCTCATAAGTAATCAAACAGACAGACGCACCATGCGAAGT
CGCCACTTGACCACGACTTATCTGATCCGCAACGTGTTCAGCACCCTCTG
CATGCCGGTGCTGCCCCTGATTACAACAGTTTTCGAGTTCTCGCCGCTCC
GTCCGCTCGTGGGCTACGAAATACAGCAGAAGCTATTTCCCCGACAGCAA
TTCGCAACCATCATCAGTGCCTCAACAGTGCTAGAACCACTTCAGTGGGT
ATTCGGTCCATTCCTTTTCCAGGGAACATCTGCATCGCTCGTGCAAAGCA
CTGCCCACGCTTGCACTGGTTACCCATGCCCGTACACCCGATCAATTTCG
CCGCCTCCTGGTGCAAATTGCTGCGGATCGTACGAGCAAGGACATACGAC
ACGTTGTCGTACTTTCCTCCCTCTCCTTTTGGCGATCCAGCACGCCCTGT
CAGGTCATACGTTTCGGGGACGCGGGGGCGGGGGGGGTATTTTATTCACT
GAGCATACTGAGCATGTTCAGTAGCCGAAGAAACATCGAGCATAGAATAA
ACTCCAACAGCCTCTTAGAACTATGAGACCCCAAACACACCCGAGCGATG
TTTTCGAGTGCTACTGACTGCTATCTTTGTGTGATTTTATGTCAACGTCA
ATTTCGATGGCTTCGTTGATGGCATCATGTTAAATACTTCGTACTAGACT
ACCAACGAGCATCGGCAACGATATCATCAAACATGCCGCTCGATACTACT
ACAGATCGTCCGCTGTTCGTGCAGTTTATGTGTCCAGCAACCCCTGCACA
GCAGGCATTTTTGGTGTGGTGACACATGTGGCTTTCGGTGAGCAGTTTTT
CTTCAACTATCTATAAAGCGGGTACGTATGACAGCAGGATGAATCGTGAA
ATGCAGAGAGCCTAGTTCACATACCGATGCTGCTGTTGTCTCCAGCTCGT
GTTGTCTCTTGTGATATCGTAAGTGTACTACTGCCATTGCCTACGGCTGC
CGTTGTTTGGGTTGAAATGTTTCATTCCGAACATGTCATATCATACCGCT
GGCGCAAGAGGTCTCCCTTTCCACAAACATAATGCACACACACCTGGTTG
TCTACTGTAGTAGTAGTAGTTGAGACACGAGGAAGCCCTGTTGATTGCCG
CAAGTTGTCGTCCGGTTGGGGTGTTTCTTGTCCCACCTCGGGAGAGGCAC
CTCGCATTCGCACTCTCCTGCAGCCTCGGATACTTGCTGTTCTAGTCAGT
TGCGCATGTGGGAGGGGGTCGTTTGTTGCCTGCTCCAACATCGCGGCCGC
CAAAGCTTTGGAGTACTGCTGTAGTCAATCGAAGGAGGGGCGCCGAGAAG
CGTCGCCAGCTCGTCTCCAAACTCCTCTTCTGGTGTCTATGACCCGGCTA
CGTAACTGCCATTACCAGCAGGCGTATCCGCTGCATTAGTCTCACGTGTG
CCTTGTGCATCGCTCTCCTGGGAAAGAGGTACTCCACGACTACTTACAAA
AGCAGCAGCAGCAGTAGAGTCTCCGGTCTCGGGCGTTCTACTCTCGACAT
GGGACGGAATCGGTGGGATTCACGCATTTTGCCGCACGCTTGTCAACATC
AGTCGTGATGAGGCGTATAAGCAGCAGGGACAAGAGGTCGTTGTGTGTGC
ACGCACGAGTGCACACCTGGTGTGGTTTCTTGGTGAAAGCGAAAGCACAG
CGTTGATGAGTCCGCGCCAGCTGTGTTGTTGTGTTGTTGTTCTATGGTTA
TACCGCCTTCTTTCTTTTTTTTTACAGATCTCCGATTCCGATCGTGCAAC
AAAATCGGGCGATGTACTCGAACTGGCACCTCCTTGCCGGCCTTTTTTTT
TTTTTTTGGCAAGGAAATAAAAAAACGCGATTTCCTATTATATTGAAAAT
AGTGCTGCCTTAAGGAGGCGCTGAATAGGGCGGCAAATATTTCATAGCTA
AATCCAATTGATAAGGGCCCAAAAACACGAAAACACCTTCCCGCCATGGG
ATTCCCAACCTGAACGGCGATTTCAGCAGAGGACACCATAGAGAGGCGAC
GTTTGTATTGGCACGCTCAGATCTGTTGCTGGGGAGAAGATATCGAGGCC
CGCAGCAGTAGCTGAAAAACTCCGCAGCATAGCTGATCGCATGCGCAAAC
CGGACCGACACCATACGTTTGATGCGGCTGTACCCGCCGCCACAGGCCAC
AGACCCTGACCTCCTGAACTGCGGGTCATCCGAGGTAACTAGTGGTGTTA
GCTGCTGCTGTTGACCCGCAGTTCAGGAGGTTAGGGTCTGTGGCGGCGAG
CGCAGCAGTGGACGATGTTTTTTGGTTTGAGTCCAGCTTGCGGATTTTTC
AACCACTACTGCGGGCTTCGATATTTCAGCCCCTGCAGCAGATCTTAGCG
TGTGCCAATACACACATCGCTACTGCAGAGGTGTCCTCTACTGATCTCGC
CTTTCAGATTGGGACTCCTGCGGCCGCAAACCTTGTTTAAGCCGTATTGG
CTGTTTTGTCCTGATTTTAGACGGGTGGGATGTTTTGTCTTGGTTTTAGA
TGGGGAGATCGGAGGTAGACTCGTGATATGCATGTGAAGAGAAGCCTCCA
GCGCCGCTCTGTGCGATAATCAATTATTTTTTCTGGCATAACACCTTCCT
ATTGGTGTGAGGTACCCAGTATGTGATTACTGGGTCCCACTTCGCAAGTT
TTCAAAATCGGCCAATTCAAAAACAGGTTGGCAGCGGACCCTGAAGTGGA
GTAAATTACTACGAAGTTCTTTCGAAGCAACGATGTGCTTTATCGTGTAC
GGAGTGTGGACGGATTTCAAACCTTTACCCACCCCTTCTGGGACCAGGCC
ATTTTGAGCCTTTTTACACGAACAGCCCGGGTTCCAAATCAGAACCATTC
GATGTTACCCCGAGAACCAGAACAAGAGAAATATGGTTCAAAATGTACAG
CAGTCACGAAACCAAGAGGAAACGTACACATCAGCACCTCACAGATATAC
AGCCGGGGCCACTGACGAGGGCTCACAGCGGGCTGGTCACGTCCCTGGAG
AGTACACAAGGAATACCCGGTGGTCGAGATGCCGCGGCTAGCTCTCAGGC
GTCGTGGAACGTGTTCTAACCATCAAAAACGCTTACAATAATGCAGTCTC
TTTTGAACCAAGATAATAATAAGGAAAATTAGCTTACTGGTAAAAGCTCA
GTTGTTGCTGAATTTCTATGCCTACTGCCTTCTAAATGTACTTTTGGGTT
TGGGCCCCGTGGTCTGCGGCCGGCCTGAAGGCCGGCCCTTCCTTCTTGGC
ACATTGGTACCCCAGCAGTTCTTCCGATACGATAAACAAATGCATCGTAA
TCATCATCATTGCTGCTCTTCCATGTGTCGCATGAGATATTGTATGATAA
GTGCAAGTCAAGTACTTCGTGCCAGGTATGTATTTACTGCTGCTGCTGTT
GTTGCTGGGTTGACCAAACAAGATACCATCATCTTCTCTACAGCAGTATG
ATGTGTATCATACCATTCTTGTACTGCTCTTGTTTGTTGTGCAATACAGA
CACGAGAGGATGGCATGTGATATACGGCTGTACAGTAACGGCAGCAGTAG
TAGTAGTGCTGCTATATTGCCGGTGGTGTTCTCCAAAAATATACGATACA
ATCAAGTGTGCGAGTATACTGCGGATACTGCTGTACACTACTACTACTAT
GCTGCTTTGTCTTGCGAGATTTTAGATTTCGACATGCCGGGGCTTTATGT
TGACATATAGTCTTGGGCACCCTCACACCCCTTGACCACGCACACAGCAG
CAGTGAGCGGTATTTGTTTGCCCTCTTGCCCGTCTCTGAGTGCAGCCGGA
ATGCCTCTTAACTCTCAACGTAATGGGGTTCGGGAATTTTTTGTTTCTGT
CCCCGTCCCGAAGAGACCGGTCAAACACAAAGTATAAATAAAGTAAAATT
GATGTTTGATCAATAAATCGCCTAGAAGTTATAGAATGGTAACTAGTGTC
TTTCATGGGTACAAAAGAGGGCTCCGGTACCGAACGACACTTTTCCGGAC
AGGTCTCGACGACATCCTACTCCACCCCTTTTCGGCACGTGCACTGCCTT
CCTCTTACTGTGGAAATATGATGTTTTTTTTTTTGTAACACGAGTAGTGA
CACATATATCAACAGCACACACATAGGCCGTACATATTCAACACATGGTG
TAACGTGTGTTACACAAGACGACCACCAAATTGTCTTGCTGAGCCTGAGA
AAACTCCAGGGGAGCTGCAACGGTGCGTTATCTGGTGAGTCGAGAAACAC
AGGTAGATGTATATTTCTCTCTGTGTTCGCTGCAATATCTACCCCTGATC
CTCGTCTGGGGAGAGGCGAACACATTGATGTGTTGTAAAAAGAAACAAAA
AACACATCGATGTGTTCACCTTTCTCTATACTGCTATAGACGAGGATGTA
GAGGAGATTAGCAACGAACACACCTCATAGAGTTTGGAAAATCTTTCAGA
GGCGGAAGATATACGATATACACCGTCATGTTCGGTACACCTGGCCGCAC
CAGCGTGGTTGATGCCCCCAATAATTCCGCGGTCTGCATGCGCTGCATAA
TAATTTGACCTTTGTCCAGATGGATGAAAGGGGTTTTGATTGGCTACATC
GAATACACCGAACGAACATGAAAGAAATATGGATGTGGCGAAAACAAATC
GATAAAGTGGATGTACTCTCTGTATAATGGATATTTGGTGCGAGGTGCAG
TTTGCCCGTATATGGGTGTTGTGTTGTGAGGTGTGGGCGCTGGGCCGTGT
GATATGGTATGGGCTCTGGGCCGAGGCTCTAGGCCGTGTACTTGAGAAAG
GCTCTGGGCCTGTAGCTTGGAAAGGGCACTGGGCCGTGGCACTGGGCCGT
ACTTGAGATAGGCTCTGGGCCTGGAGCCTGGAGGCGCTGGGCCTGTAGTT
TGGGAAGGCCCTGGGCCGCACTTGATAGATTAATCACAAGCACAGAGGCA
ACACGGTCGCTCGGGTGGCGCAATCAAAGCTTCGAGAAGAAGCCACCTAC
GACATCAACGAAACACGTAACCCCCTGCATCGATCCAGAATGTTCCAGAA
CGCCGTAGGACTGCAACCAATGAACAAATGACCGCATGCTGCTGCGAGTA
CATCCAACACTGTAGTTTGAGAAAAATAGAAAAACATCACAGAAAGAACT
CTCACCCGAGACGGGACTCCATGAGATGTCTTCAGTTCTTAGTTTGCAAC
CGACATTAATAATAATCTTGTACGTCGGTGATACAAGTGTATTAGAAGTG
AAAAATGGTGATTCTTACTTATATACGAACAGTCTCACCAATCAACATCT
ATCCGCCTGCAGCTACCCGCCCAGTTGGAGCGCATTTCGTACCCACATAT
AATCTTTGTGAAGGCGACGTGATTTGATTTGGGATATCATATGGACGTAC
GTCATTTGTGCATGAGCGAGAGAAGATTCCAGGTCGAAGACGATGGAATT
TATTTTCTTCCCCACTGCTGAAGCGGCGTGTTTAATCTCGCTCTTGTGGC
TTTGTGTGTTCATTGTTGGTTGCCCCCCCCCCCACGCCGCGTATCTGCCT
CCCAGAATACGACTTTCTACTGAAAATTAGGTACCCTCTCGGGGCTTGAC
AATTTGATCCACGATAGAAGTGGAACGCCTTGTGGGTCACCATGATATCG
GAACACGCCACCGCTCACCTGGCAATAGTAGACACTCTTCTGACTCCATC
AATTGTAGCGACGTTCGTTTGGTGCAGTAAATACATTGGAAGCCTTGGGC
CAGTCGCGTCCCCCTCGTCTCACTTGCCCAGTTCTTTCAAGTACTGCAAG
GAACTCGTGAACCCACGGAGTATGGTAGTCTCATACATTTTTTAGGTTTC
GAGTTTGCTGTTTTATGCAGAATTTCCCAGGTGTTTCCATCCTCGAAGGG
CAACGAACGTGCACCATCATCGATTTTTTGTTTCATTTTACGACCAATCG
GTGAGAAAAAACGAACACGTCTCAGTATCATTTTGACGACAGCTGAAATT
TGGCGTTTGTCTGTCAAAGCTCAAACCCTGCGGTTCTTTTCTTGTCGCAG
AAGCCGTGGCGATGGTAGAGTCTGCACCCGGCACCAACATGGAAAGCATG
GTGTGGTGAGTGTTGGCAAGCTTGAGCGTACTCTGCCCCCCGAGGCACAG
CCCTCCCGTGCTTCTCATGTCGTGGACTTGGATCTTCTACTTTCATCCCC
TTTTCTTAAGCGAACAGCGATACAATTTAGCGTGATTTGTACAACGAATA
TGCAGGAATTCTTTGGTCGAACGCAGTGGCCGATGGTGATGATACAGGCG
TTCAAGAAATTAAACCCACATTCGTAATCTGGAAGGCCTTGATCGACGTG
TATGCACGGCCTTGACTATTGCTGCGATGCCTCGTCCCAGCCGCACCCTC
GACAGAACCAGGTAGAATAATACAAAGGGACTTGTAGTCACGGTGCTGCT
TCAGCTCGACATGCGGCCGAATCGGAATTCGAGGCTTTTTTTCCATCGGT
TTTAGTTCGTACTTTTTTCGTTCGTTTTGTCATGGTTCCACACGGTGGCA
GCGGTCGTTTAGATCGTTTGGTCCAGGCAGGGGTTCGCAATTCTCAATTC
TCCACCTGTTTGATCAGGGCTCCTGCTGCGGCAACGGCGTCGGCGTTTGT
CCTCTTCATCCGCCTGCTGTCGGCGGGAACCACTTGTGTCGGTGACTGCG
ATGAAACATACAACTATTGGGAGCCGCTCCACTACCTGCTCTACGGCTTT
GGGTTCCAGACATGGTGCGTGCAACAGCAGACTACCACTCCATCCACGAG
CCACAACAGATACATGGTACTACTATCAAATGATACTTATACCGGTTCCA
CGTGTACCGTTTGGTCAAAGGTGTGACTGCTGTGCGTGCCACAGGATAAG
GCAGCTATGTTTTCCGGGTAGCTGAATTTTCTTTTTCTGTTTTCGACCTC
TGAAGTGAAAGTGTAAAGTTGGCACAATGTGTGTAATGGACACGTCTGCT
GCAGAGGTAGCACAAACGAACCACCGAGACTGTATCCTGTTCGTATCGGC
GAGACGTGGCCTATCCTGGTTGGCAAGAGCAACAACGACAAGGTTTCATG
TATTGTGACCTCCTCCCCCCCGAATATGTTGATTTTTCTCAACTAAGCGC
TGGTTCTCATCGTTTCATCTGGCAGGGAGTATGCTCCCAAGTTTGCACTG
AGGAGTTACTTCTACCTGCTACCTTCTGTGAGTGCCGCGAGGGCGTCGGA
GACATTTCTGTCTTTGTTTGGCCAAGGAAACGACAAGCCACAGGTGAGCC
CGCCTTGCGCAAGCTTGCGGCACACGGACTGTGTGAGATTCGGGTATTGC
TTGCGATTTCGTCAGCCCGTCAGGTAGATGTGTAGGGTACCGGTGCCTCC
GATACGATGATCACTCGGGCCTGTCTTGATCAACCGCACATGTGTACAGA
AAAGAGTGAGCTACCAATCCCCGGCGCTGGCGATATGCGGAGTTGGCAAG
TGGCCATTGATGCCTTCACCAGCGTCTGTGCCACCTGTTGTGGGCCCGCA
TAAAGTCATAACCTGACATTTATGATGAATCCCTTGCTGCCCTGCCGTGC
AGATTTGGCTCGGGGTGAGGCTGTTTCATGTGCTGTGCTGTACCTTGTGC
GAGGTGTTGATGTACCTGGCCGTCAAACAACAGTTTGGAAGGTGAGACCA
ACAATAGCTACCGAGTGTGACGGCTTGTTTCCTGAGTCCGGAGGTCCAGG
TATTCCTGGCAGAAAGCAAACGATTAGCTCAGTATTCTGAGCGTGCCATC
GGGGTTTTTTCCTCGCAAGTGCGTGGCGTGACATGCTTCTGCTCGGCGTG
CTTACTGTTATGCTCAGGCGCGCCGGAGGGTTTTTCTTGATCTTGTCTGC
GAGCTCTGCAGGCATGTTCGTGTCTGCTCCAGCACTACTGCCCTCCTCCT
CCAGCATGACTCTCTTCATGCTCGTCATGGCCTTGTGGCTCAAGAGGCAG
TTTGGCCTTGCGGTGAGGTTTAGAGTAGCTTTTAGCCCACCGCACCTCAG
ACCGTAGTCCGCTTGCACCCGCTTGTCGTTATTGGGTGTGCGCCAGGGCT
ATTGCCAGTTGTTCTGTTCGTGATCGTGACTCACGGTAGGCACTTGCATG
ATTTGCCCCCGCTTTCGCTGGTGCAAACACCTCACGTAGGTGTATTCGTG
CGTACACGATCGTGTCGCGTTCGATGGTTCGCTTGGTGCTCATGGGCCAT
TGCGTGCGATGTCATATTTCCATCCCGTCGAGTTCACATTTCCTCTTTTT
TCGCGGGGTGTTTGTTCACTTACCCTCCCCCCCCACGCCACGGTTCCGCA
CCAGATTTTCGTGGCAATGTTGTGCGTGTTTGGTACCGGCTGGCCTTTCG
TTGGCGTCATCTTCATTCCCATGCTTCTCAACTGCGCTTGGCTGCGTTTG
AGCCATGGGAGTTCTTTCGCCGAGGGTCTTGGGGCGGCGACGGCGTCGGC
GACTTGGGCCTTGATGTGCGCAATGGCTGTTGCAGGCTTGGCAACATGGG
TTGATAGTGGCTGGTACGGCCGGACGACCTCTCCGACCTTCAACATTCTG
TGAGCTGCCGAGATTTTGCAATTGCCGCATTATTTTGCTTTCGTGATGCC
TTTTTTTTTTTCTGAAAATTGCATGTATGTTGCACCTTGTAACGGATGAG
CGCGTTCCCGTTGGCATTTGGTCTGCTGTTCATGTCTCTTCTCCGGCGTC
ATCATTTGAATGACTTCATCATGTTTGCCGTGCTGCCGTGTGAAACAGAT
GGTACAACGTCCTTGATGCCGGGGATGGTCGGGGTGACGAGCTCTACGGT
GTAGAACCAGCATCCTACTACGTGAAGAATCTCTTTTTGAACACCTCCAT
AGCCTTCCCTCTGGCGCTGGCGCTCCCCTTCCTGGCGTTGCCTCTGTACC
CCATGGCCGATAAGGTAGGTTTCGGAGGGAGGGGGCATCGACAGTCAATT
TTATGGTTAGTTGTGCATCATATGTCGTTTGACCGCTGATTCTCCCTCTT
CTTTCTTCATTATACTGCGCCGACGTTCCACAAAGTTTTTGATGGTTGCG
TGTTACCAATTGTGCGGCGTTTCGCTACAAGCTTGCACGTTTTCTGCCTT
TGATTTCGTTGATGAACTCCCCGTCGACGCTTTCCCTGTATTTTGTGTCG
TGTGTGCAACGCTGCACCGATCTTAGGCGCTGTCACGATGGCAACTGAAT
AGCTTTGGTTACTCTTTGACTGCATGTGCGCTGTCCAGGTTGCGAAGTCA
GAATTGAGGCAGAAGCTGCTTATGTGCTCCCCAGGGCTGCTGTGGCTCGC
TCTCATGTTCGCCAAGCCCCACAAGGTATAACGCCCGCGATGCGCCCATC
ACGAATCGATTAATTGTCCGATACGGTTGTAGCTAGTATTGATATGCAAT
AAGAACTGGGAAGGGGACTATTTCCTCGGACAGATGTATCAAAAATAGCT
GTTGTTTTTCCAAATCATACCGACGAATCAGGTTGTTTGTTGTACTTGGC
GTCTCCTTCTGAGCTGGTGTTCGCTGCAGTCCGCGTTGTGCAGAGCCTCT
TGCAGTTTTGTTGCAGCTCAGGCCAACCTACGTTAGTGAAATGCACGGGG
CACCATGAACGCGAAACTAACAGCATCCATTTCCGCGTGTAATTGCCTTG
GTATCCGTGAACCCGTATTTTCTACAGGAAGAGCGCTTCCTCTATCCGGC
CTATCCGTCCATTTTCCTTGCGGCCGCATGCACCCTAGACATCACCGTTC
AGGTAATAAGGCTACAGCGTTCACTTTGGCCTTAAATTTTTTACGCCTAG
ACGTTTCGATTAGGGTGTCACTCTGGGCGTATGTGGAAGCTTGTTTCTTC
GGAGCCGTCTTTGTTTTTTGTTCACTTTTTACTAATGCCTCGCATGTTGA
CATGTTCGGGTCATTCGTGCGATGGGCTGAGGGATGCTTCAAAGGTAGTA
GCACCCCAATTTCTCACACACGTTGGTATCTACCCTGGTACTTACGTGCC
GTTTGCACAGCTTGGCAAGGAAATGGCTCGTGATGCTTTCGTGTTTGATT
CCCTGGCCCATGTTTGATTCGTTGGCCGTAGGCAGCTAGCGAACTCGTGG
AAAAATTTGGTGGCGATGCACCGGCGGACAGGAGACTCCTACCGCACGCT
GTGGCCATGGCATGTGAGCGCTCGGCTTTTCATCGTGTGCCTTAGACCTG
ACTTTATGCGGCTGGGCGAAGTGTTGTAGTTTCATTCCATGTGATTTCTT
TATATTCGGGTATCCTCATGTCCAGATTCTCTCTGCTGCTAATTACAACG
TGGTGACGTTGTGGACTTTTGGGCGCTCCTCCGATCGCGCAGGTGTTTTG
TTTGCGGCGTGCCTCGGCATGTGCCGTACCGCGGCCGTCGTCCGATTCCA
CAACACGCCATGCAACATCTTCAAGTGAGTGCGGCCTGATTTTTGTCGTA
CATTCGCCGTAGCTTAGCTAGAGGTCGACGTGGGCACGGCCGGGAGGTAA
ACAGGCGCGCCGAAATTGCTGCCACCCGTACCACGTGCAAGCGAAGGCTT
GGTTCTGAGAACATCTTGTTCTTAATATCACGCATGCCTGCGACACAAAT
CCCTTTTCGACAAGTTTGTAAGCACCAAAAATGGCGTGTGATTCTGCTTC
TCCAGATTCGTGTATTACCGAGAGTTGAGGCCTTATTGGGACGGCCCGGA
AGACTCCCAGCCTGGTGAGATGATGCAGCCTGTTCGTCTGTGCGTAGGGG
GCGAGTGGCATCGGTATCCGAGCAGCTTCTACATCCCACACGAGAAAGTT
GAAGTCGGTTTCCTGAGGTCTGACTTCCATGGGCAATTACCCCAGCCTTT
CCCGGTGAGCTTTTTGCACATGTTGCATGCAGTTTCACCGCGTGCGCGAC
TGGGAAAAGTCATAATCTACCGCCGTTTCATCGGAGAACGACCCCGTGTT
ACTCGTTCCGTGCATGGAGAAGGAGATATCCTGAATATGCTCTTTCCTGC
CACTACGGAAATTTCGATCTGTTTTCAAGTCAAAAAAATTCCCACCTCCT
CAATCTGATGGCGTCACGTATTATATGTCAACTGCAAGGATGGTGTCTAA
ATTACGCCGCCAAATAGCGGTTTGGCATTTTTTTGATCTCATCCCACCTT
CTGCATGGACATCAAGGTAGACCACACACATCATATCATACGACATCTTG
GAAGCATTCATCACTGGGGTACTATACTGATACAACATGGGCATCGCGTG
ATGGGTCGAATCTGGTCACAACTTCCAAGTTTTGCGCGGAATGCTGTTGA
CCCTACTTGTTGGTGCAGGCCACCGATGGCACCATGGCGGAGCCTCTGCA
GGCCTTCAACGACGTCAATGCCGAAGAAGAAGAGAGGTGATGCAACGAGG
GGATTTGCTGTCAGTGCTGTGTCCTAGTCCTTTTGTACTTCGTATGTGGT
ACAATTTGGTAGCGATATTGCGACAACATTGTGTCAGGAGCTGTTTGCGA
TGGCAGTGTTGTAGCTTGTTCCATTGGAGACAACTGGTTCTTCCTTACTT
TTCCTTCCTTCGTATTCCTCCCCCACCCTGCAAAGGTTCGTGGCCCTTGA
TGAGTGTGACTACGTTGTAGCAGCCCGGTTCAGAGACTTCGATCAGCACT
CGACGCGTGCTTCCAAAGTGGTGCAGGATATTCTGGAGGCCAAGGACCAA
TGGGACCATGTGAGACTCCGTGCACGCATTGGTAACGACACAGATTTCCC
TCTTTTAGCACGTATGGGTTGCAACAGGCCGGGGAGGCACGTTGCATTTG
TGAAACGTTATCCGCACGGAAATAAGGTGGTTCTTGCTGGTGTGTACTTT
CTCCCTCTGCGAAATATTTTCCTTGTGAACTGCACCGCCAGGAGTAGTTG
CGCAATTTGCAGCGTACAGGATTTGTTCGCATGGACTTGGACGAGGGGTG
GCTATTGCTCGTACCAAGCCGCGTTCAACCACGTTGAATCAGAGGTGGGC
TCGGCAGGTCCCACTTTATCGATCTATTGGTCAAAGTAATCAAGCTCCCC
TCTGTGCCCCGCCTTCGCCTTCGACGTGACCGCACTCGTTTTGGGTCTGG
CAGGTGCTAACACACAAGTTGCTGGATCCAGAGTTTTCTGATCCAGCCCT
ACGTGCTTTCTTCATCCCCTTCGTCTCGGAACAATTTGTGAGGCATGGGG
TCCTCAGTCTTTTCCGGAGGAAAGAAACCACCAAGAGAGGATAGGGGTGG
GCGTACTTCTACAGAGTATGGTCTGGCAAGGGTTGGACTTCTTCCACCCT
ACAAAAAATTTCGGGTGTCATTTTGGTGTTGACTATACCCGTTCGGTGGT
GTGTTCAAGGCATGTCGAATCGTAGCATGTAAGATATTATTGCTCAAGAC
AATGGTCAAACAGCCCGTTTGTTTGGGGTAATCGATTCGTTTTCCACTGT
AGAAATGTACTCCGCATGTGTGTTTAATTTCACGCGGAGGTAGCCAGTTA
GGCTTGCGTTTGCGGTTGATGGCCGGCGTTTTGGTGCTCTTGTGAAGTAC
CCTTCTACTTGAAGCAGCATCTCCAACAGAACATGATTCATAGCCAATAC
AAGTACCGGTATGTTTTTGTGAAAGCGGGAACAACAACGTCTCGCCTTAC
ATATAATTACAACACGATGGTTTATCAAGGATAAGGGGCGGGTGCGCGGT
TCTGGCCCACCCTGACCACTACGAGAAGAGGGATGGAGTGGGCTGCGCGC
TACGGGGAAACAAAGCACGACGTACGCACGGTACAATGGTTCTCCGGCAT
GCATTTCCTTTGAGTTCGACCTCCAATCATTGCCTCGTTCGCCGTGTCAC
TTTCAATGCAATCCAAGACAGGAATCGGTCGTAAAGGATCCAAGCTGCCG
ACACGCACGGTATGCCGTATCGCTCTCTATCCCACACCGTAGCTCCAAGG
TGACCCCAGACACTTTTCAATTTCTCA
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Coding sequence (CDS) from alignment at P-littoralis_Contig186:165752..192528-

>mRNA_P-littoralis_Contig186.60.3 ID=mRNA_P-littoralis_Contig186.60.3|Name=mRNA_P-littoralis_Contig186.60.3|organism=Pylaiella littoralis U1_48|type=CDS|length=1908bp|location=Sequence derived from alignment at P-littoralis_Contig186:165752..192528- (Pylaiella littoralis U1_48)
ATGGGGAAACCGAGACGCAGGGCGCCTAGAGATCGAAGTGAGGGTGATGG
TGATGCCAACGTTACTGGTGATGAAGACACCTCAGAAGCCGTGGCGATGG
TAGAGTCTGCACCCGGCACCAACATGGAAAGCATGGTGTGGGCTCCTGCT
GCGGCAACGGCGTCGGCGTTTGTCCTCTTCATCCGCCTGCTGTCGGCGGG
AACCACTTGTGTCGGTGACTGCGATGAAACATACAACTATTGGGAGCCGC
TCCACTACCTGCTCTACGGCTTTGGGTTCCAGACATGGGAGTATGCTCCC
AAGTTTGCACTGAGGAGTTACTTCTACCTGCTACCTTCTGTGAGTGCCGC
GAGGGCGTCGGAGACATTTCTGTCTTTGTTTGGCCAAGGAAACGACAAGC
CACAGATTTGGCTCGGGGTGAGGCTGTTTCATGTGCTGTGCTGTACCTTG
TGCGAGGTGTTGATGTACCTGGCCGTCAAACAACAGTTTGGAAGGCGCGC
CGGAGGGTTTTTCTTGATCTTGTCTGCGAGCTCTGCAGGCATGTTCGTGT
CTGCTCCAGCACTACTGCCCTCCTCCTCCAGCATGACTCTCTTCATGCTC
GTCATGGCCTTGTGGCTCAAGAGGCAGTTTGGCCTTGCGATTTTCGTGGC
AATGTTGTGCGTGTTTGGTACCGGCTGGCCTTTCGTTGGCGTCATCTTCA
TTCCCATGCTTCTCAACTGCGCTTGGCTGCGTTTGAGCCATGGGAGTTCT
TTCGCCGAGGGTCTTGGGGCGGCGACGGCGTCGGCGACTTGGGCCTTGAT
GTGCGCAATGGCTGTTGCAGGCTTGGCAACATGGGTTGATAGTGGCTGGT
ACGGCCGGACGACCTCTCCGACCTTCAACATTCTATGGTACAACGTCCTT
GATGCCGGGGATGGTCGGGGTGACGAGCTCTACGGTGTAGAACCAGCATC
CTACTACGTGAAGAATCTCTTTTTGAACACCTCCATAGCCTTCCCTCTGG
CGCTGGCGCTCCCCTTCCTGGCGTTGCCTCTGTACCCCATGGCCGATAAG
GTTGCGAAGTCAGAATTGAGGCAGAAGCTGCTTATGTGCTCCCCAGGGCT
GCTGTGGCTCGCTCTCATGTTCGCCAAGCCCCACAAGGAAGAGCGCTTCC
TCTATCCGGCCTATCCGTCCATTTTCCTTGCGGCCGCATGCACCCTAGAC
ATCACCGTTCAGGCAGCTAGCGAACTCGTGGAAAAATTTGGTGGCGATGC
ACCGGCGGACAGGAGACTCCTACCGCACGCTGTGGCCATGGCATGTGTTT
TGTTTGCGGCGTGCCTCGGCATGTGCCGTACCGCGGCCGTCGTCCGATTC
CACAACACGCCATGCAACATCTTCAAATTCGTGTATTACCGAGAGTTGAG
GCCTTATTGGGACGGCCCGGAAGACTCCCAGCCTGGTGAGATGATGCAGC
CTGTTCGTCTGTGCGTAGGGGGCGAGTGGCATCGGTATCCGAGCAGCTTC
TACATCCCACACGAGAAAGTTGAAGTCGGTTTCCTGAGGTCTGACTTCCA
TGGGCAATTACCCCAGCCTTTCCCGGCCACCGATGGCACCATGGCGGAGC
CTCTGCAGGCCTTCAACGACGTCAATGCCGAAGAAGAAGAGAGGTTCGTG
GCCCTTGATGAGTGTGACTACGTTGTAGCAGCCCGGTTCAGAGACTTCGA
TCAGCACTCGACGCGTGCTTCCAAAGTGGTGCAGGATATTCTGGAGGCCA
AGGACCAATGGGACCATGTGCTAACACACAAGTTGCTGGATCCAGAGTTT
TCTGATCCAGCCCTACGTGCTTTCTTCATCCCCTTCGTCTCGGAACAATT
TGTGAGGCATGGGGTCCTCAGTCTTTTCCGGAGGAAAGAAACCACCAAGA
GAGGATAG
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