mRNA_P-littoralis_Contig202.25.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig202.25.1
Unique NamemRNA_P-littoralis_Contig202.25.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A6H5KFL3_9PHAE (Hydrolase_4 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KFL3_9PHAE)

HSP 1 Score: 482 bits (1241), Expect = 1.050e-164
Identity = 243/337 (72.11%), Postives = 279/337 (82.79%), Query Frame = 1 
Query:    1 GSTKAKMAAA---TPVPTAESVTEGHDGGPEWEGREKASFESRHEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGG--KSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDKFDRVVAALDEHW 996
            GS   KMAAA   +P PTA SV   HDGGP+WE R KASF+SR  G VWYR+WAPQS A+AMLFIAHGLHSHSGRWSK+AH+YTEKGY+VFANDHIGHGLTV+A +GG   SG+V D+  MTDDF + + +++ +EEDKTLPV+ILGHSMGSLVATV+A    EH  VGPR  KLALSGCP+VPGPGSASPFGLR LYPINR  GLVRRL+G +A++DP GPAAP+ Q SLS+DPEV LEA VDPLMVKGS RNKTAFEV+KL+Q AK+SA K+SVP LLIHGGDDD+A PSG+ EMKSLLTASS+V L+VYDG  HEVLKHK +F  VVAALD HW
Sbjct:    4 GSWGTKMAAAAPSSPAPTAGSVEALHDGGPDWEARTKASFQSRRGGSVWYRRWAPQSKAIAMLFIAHGLHSHSGRWSKLAHYYTEKGYVVFANDHIGHGLTVQAVEGGGTNSGMVEDHSRMTDDFTEFVVKMVGQEEDKTLPVMILGHSMGSLVATVSATKLTEHAVVGPRVKKLALSGCPIVPGPGSASPFGLRCLYPINRASGLVRRLSGLLARMDPGGPAAPLDQGSLSSDPEVKLEAAVDPLMVKGSVRNKTAFEVLKLVQVAKQSACKVSVPVLLIHGGDDDMAYPSGAEEMKSLLTASSSVALEVYDGVLHEVLKHKSEFKTVVAALDRHW 340
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A836C8A9_9STRA (Putative lysophospholipase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C8A9_9STRA)

HSP 1 Score: 221 bits (563), Expect = 1.750e-63
Identity = 129/288 (44.79%), Postives = 165/288 (57.29%), Query Frame = 1 
Query:   85 WEGREKASFESRHEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVA-AKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVL 945
            W G E   FES H   + +R W P       +FI HGLH HSGR+S+VA +   KGY V+ANDH GHGL+     G   G V DYRHM+D   + ++ ++D +  +  PV +L HSMG++V  VA AK   E   +  R   +A +GC L PGPGSASP GL   + + +  GL+  L  C A  DP GP API    LS DPEVA   K D    +G  +NKTA EV+KL    ++    +++P LL+HGGDD I  P GS EM SLL  SS   LKV  G  HE+L
Sbjct:   15 WSGSE-GEFESSHGDAIGFRTWTPAGEVRGTVFIVHGLHEHSGRYSRVAEYLNGKGYAVYANDHAGHGLSA----GDNMGFVSDYRHMSDAVAEFVKTMLDGQPLER-PVYMLCHSMGAMVGAVALAKLKAEDAALYGRIKGVAFTGCALSPGPGSASPLGLTCCFCLTKSKGLLHCLVACFATADPHGPNAPIDDACLSHDPEVAARLKKDFYHFRGRIKNKTAHEVVKLSDKTREVLPTLTLPCLLMHGGDDTICYPDGSEEMLSLL-GSSKKTLKVVPGLFHEIL 295
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A7S3UUJ9_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3UUJ9_HETAK)

HSP 1 Score: 167 bits (424), Expect = 1.690e-43
Identity = 98/287 (34.15%), Postives = 153/287 (53.31%), Query Frame = 1 
Query:  109 FESRHEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVID-----KEEDKTLPVLILGHSMGSLVA---TVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVL 945
            F++++   + YR W P +   A++F+ HGLH H GR+S  +H  T +G+ VFA+DHI HG         +S ++ D   +     ++I++ +       ++   LPVL++GHSMGS++A    VA K+      V  R     +SG  +  G  +ASP GL+WLY +N    ++R L    A  DP GP AP+  D LS D E     + D L+  G TRNKTA E+ K I +   + ++   P  ++HGG+D I  P  S +      AS   ++K+Y+G  HE++
Sbjct:   22 FKNQNGDLIGYRSWIPINKPRALVFLVHGLHEHGGRYSGFSHVLTAQGFAVFAHDHISHG---------RSRMIQDSMGLIPSMDEVIDDAVQFWKSIAQQYAELPVLVMGHSMGSIIAGNAMVALKDADAD--VAARVKGAVISGASIKNGVNAASPLGLKWLYCLNSCGPMMRCLTSGFAAADPTGPGAPLFDDFLSHDIEYVAARRRDELVYHGWTRNKTAAEIYKGINSLHSNFTRFDYPVYIVHGGEDSICLPV-SAQTWFERVASEQKEIKIYEGLYHEII 296
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A4D9DAP3_9STRA (Hydrolase_4 domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9DAP3_9STRA)

HSP 1 Score: 164 bits (414), Expect = 1.350e-41
Identity = 101/308 (32.79%), Postives = 164/308 (53.25%), Query Frame = 1 
Query:   85 WEGREKASF--ESRHEGRVWYRKWAPQS--SAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTK-LALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDKFDRVVAALDEH 993
            WE  ++A++     H GR++ R W P+   +  + +F+AHG++ H GR+  +AH  T KG+ VF +DH GHGL+     GG  G V D  ++  D  Q+I     ++  + +P  I+GHSMG++VA  AA   +E  +  P     +  SGC LVPGP +ASPFG+R+L+ + +       + G MA+LDP GP AP+++  L+ D +     + DPL  +G   N+T  ++++  +  K+     ++P L +HG  D +  P GS  +      S+   LK++    HE+   +   DR     D H
Sbjct:   20 WEEPQQAAYVISETHGGRLFTRTWIPKDCVTPASCIFLAHGVNEHIGRYCDLAHSLTAKGHKVFGHDHWGHGLS-----GGHRGDVEDLNYLIGDLKQLI--AAQRDNHRGVPFFIIGHSMGTIVAFHAA---LELSSEAPSLLHGVIFSGCALVPGPAAASPFGVRFLFCLTKSEWASSAIGGLMARLDPRGPLAPVVESELTRDTKELEALQRDPLHNRGPLLNRTGNQLLQKCREMKERLPHFTLPFLAMHGAADTVTYPEGSRFLFEH-AGSTVKTLKIFPALYHEIFL-ETAADREAVLRDVH 315
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A7S0QRU9_9CRYP (Hypothetical protein (Fragment) n=1 Tax=Cryptomonas curvata TaxID=233186 RepID=A0A7S0QRU9_9CRYP)

HSP 1 Score: 145 bits (366), Expect = 9.340e-36
Identity = 83/247 (33.60%), Postives = 135/247 (54.66%), Query Frame = 1 
Query:  139 YRKWAPQSSA----VAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGS 867
            +  W P+S A      ++ ++HGLH H+ R+  VAH +T  G+ V+A DH  HG +      G+ G++ DY+ +  DF +              P  I+ HSMG+LV  +A ++        P  T +  SGC L  GPG++S FGLR L+P+++   +   LAGCMA ++P GPAAP+I + +++DP      + DP +   +  N+TA ++++++ AAK +   +  P L +HG  D +  P GS
Sbjct:   45 FLSWLPESVAGNEVKGIVLMSHGLHEHALRYCNVAHAFTSVGFAVYAIDHAAHGKS-----DGERGLIEDYKVLPSDFVKFAATARSAHPPGK-PTFIVCHSMGTLVVLLALQSI-------PDVTAIVFSGCALFSGPGASSLFGLRCLFPVSQL-SIAPTLAGCMAAMNPRGPAAPVILEEVTSDPAELARFRRDPRVRHANIMNRTAHQLLQMVVAAKAAVPAVRAPFLALHGAADVVTLPRGS 277
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A7S3MGA4_9STRA (Hypothetical protein (Fragment) n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3MGA4_9STRA)

HSP 1 Score: 142 bits (357), Expect = 1.140e-34
Identity = 87/241 (36.10%), Postives = 137/241 (56.85%), Query Frame = 1 
Query:  148 WAPQSSAV-AMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGS 867
            W P++  + A++ I+HGL+ HS R+  +A    + G+ V A DH+ HG +      GK G++ D+  + +DF    + V  +++  TLP+ +L HSMG+LVA + + N +E          + LSG  +  GP ++SPFG+R LYP+++    V  L    + LDP G AAP++ D LS+DPE     + DP +      NK+A+E++KLI   K+    I+VP L IHG +D +A P  S
Sbjct:   26 WLPETLPIKAVVLISHGLNEHSLRYYGIAVALAKAGFAVHAIDHVSHGKS-----DGKRGIIADHTVLYNDFIAFGKSV--RDQYPTLPLFLLAHSMGTLVA-MKSINGIEG------LRAVVLSGAAVFSGPAASSPFGIRCLYPLSQTSAAVC-LTSITSVLDPGGSAAPLVIDELSSDPEELERNRKDPRVAPAMVTNKSAYELVKLIAEVKEEIPNITVPFLCIHGAEDKVALPKSS 251
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: L7LPT4_9ACTN (Putative monoacylglycerol lipase n=2 Tax=Gordonia sihwensis TaxID=173559 RepID=L7LPT4_9ACTN)

HSP 1 Score: 125 bits (313), Expect = 1.950e-28
Identity = 93/290 (32.07%), Postives = 139/290 (47.93%), Query Frame = 1 
Query:  121 HEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDKFDRVVAALDE 990
            H   + Y    P+S AV ++ I+HGL  H+GR+  VA   T+ GY+V A DH GHG +     GG+   V D+R  T D   +IE+  D+ +    P  ++GHSMG  +A   A   +EHP V      L LSG  LVPG               +  PG + RLA  + +L P  PA  +   ++S DP V    + DPL+  G         ++  +         ++ P L +HGG D +A P G+  +  L  A   V +K+YDG  HE+  ++ + D V+  + E
Sbjct:   12 HGVSIVYDVHRPESGAVGVVIISHGLGEHAGRYRHVAQRLTDLGYVVVAPDHAGHGRS-----GGRRLGVTDFRDFTSDLHTVIEQT-DRGDG---PTFLIGHSMGGAIALDYA---LEHPGV---LDGLVLSGAALVPG---------------DDLPGFMVRLAPVIGRLVPRLPATALPASAVSRDPNVVAAYEADPLVWHGKIPAGLGGALISTMATFPDRLPSLTTPTLALHGGGDRLANPEGTRMVGRL--AGGDVTVKIYDGLAHEIF-NEPEHDAVLRDVTE 268
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A7J9YKU4_9PSEU (Alpha/beta fold hydrolase n=1 Tax=Actinophytocola sp. TaxID=1872138 RepID=A0A7J9YKU4_9PSEU)

HSP 1 Score: 121 bits (304), Expect = 3.040e-27
Identity = 90/295 (30.51%), Postives = 142/295 (48.14%), Query Frame = 1 
Query:  127 GRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPR--FTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAG-CMAKLDP-AGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDK---FDRVVAALDE 990
            G+++++ W P      ++ I+HG   HSGR++ VA     +GY+ +A DH GHG +      G  G ++    +  D G++I   +  E    LP+++LGHS+G L+A       +++ T G +     L LSG  +VPG GS                  V RLA   ++ L P  G   P+   ++S DP+V      DPL  +G  R +   E +  I         IS+P L++HG +D ++ PSGS  + +   AS  V L ++DG  HE+    ++    D VVA L E
Sbjct:   15 GKIYWQGWEPDGDPAGIVVISHGFAEHSGRYAHVAARLATEGYVCYALDHRGHGQS-----DGVRGNIHRMTGVCADLGRLI--ALAGERHDGLPLVLLGHSLGGLIA-------LDYVTSGNQAALRGLILSGAMMVPGVGSK-----------------VERLAAKVLSSLTPNLGLVPPLDSSTISRDPDVVAAYDADPLNYRGKIRARLGAEGLAAIDRVTGRLPTISLPVLVLHGTEDQLSSPSGS-RLVADRVASQDVTLTLHDGLYHEIFNEPEQQVVLDEVVAWLTE 277
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A5S9PY02_9GAMM (Monoacylglycerol lipase n=1 Tax=Zhongshania aliphaticivorans TaxID=1470434 RepID=A0A5S9PY02_9GAMM)

HSP 1 Score: 120 bits (301), Expect = 7.420e-27
Identity = 85/298 (28.52%), Postives = 149/298 (50.00%), Query Frame = 1 
Query:   97 EKASFESRHEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDKFDRVVAALDE 990
            ++++F SR   R++ + W P  +   +L + HGL  HS R+  +A  +T++GY V+A DH GHG +      G  G +  +    D   Q  ++V     D+ L   ++GHSMG ++AT      ++H        +  ++GC L     SAS      L P+ +   +V R+   ++ L P  P   +  + +  DPEV    + DP +  G  R +   E+++    A K+A+ I++P L++HGGDD +A PSGS ++ + +++     L +Y G  HE+     K + + A + E
Sbjct:    4 QQSTFSSRSGCRIYTQNWQPVGTPKGVLILVHGLAEHSNRYVGIAQFFTQQGYAVYALDHEGHGHSQ-----GLRGYINHFDDFLDTLNQYCDDVAKLHPDQKL--FLIGHSMGGVIATA---YLLQH--------QQKIAGCILSGAALSASEL----LNPVTK---IVLRV---LSALFPKLPMLQLEANDVCHDPEVVEAYRNDPRVFTGKIRARLVNEILRTGDHALKNAADITIPMLILHGGDDKMAPPSGSEKLYAGISSKDKT-LTIYPGLYHEIFLEPQKLE-IYAEIHE 271
[Close]
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Match: A0A2S4HIW3_9GAMM (Alpha/beta hydrolase n=1 Tax=Marortus luteolus TaxID=2067667 RepID=A0A2S4HIW3_9GAMM)

HSP 1 Score: 117 bits (294), Expect = 6.710e-26
Identity = 78/290 (26.90%), Postives = 140/290 (48.28%), Query Frame = 1 
Query:   97 EKASFESRHEGRVWYRKWAPQSSAVAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGKSGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKNCVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLAGCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVMKLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKVYDGARHEVLKHKDKFD 966
            ++++  S    R++ + W P     A+L + HGL  HS R+  +A+++TE+GY V+A DH GHG +      G  G +  +        Q +  + ++   K L   ++GHSMG ++++      +EH     +     LSG  L  G           + P+ +       +   ++K+ P  P   +  + +  DP V    K DP +  G  R +   E+++      K+A+ IS+P L++HGGDD +A PSGS ++ + +++S    LK+Y G  HE+    +K +
Sbjct:    4 QQSTLSSNSGCRIYTQNWQPSDEPKAVLILVHGLAEHSNRYVGIANYFTEQGYAVYALDHEGHGHSQ-----GLRGYINSFDDFLTTLDQYLNNIANQHPGKKL--FLVGHSMGGVISSA---YLLEHQQ---KLAGCILSGAALATGDV---------ISPVQKV------VLNTLSKVLPKLPVLQLEANDVCHDPAVVEAYKNDPHVFTGKIRVRLITEILRTADRVLKNAANISLPMLILHGGDDKMASPSGSEKLYAGISSSDKT-LKIYPGLYHEIFLEPEKLE 264
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig202.25.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KFL3_9PHAE1.050e-16472.11Hydrolase_4 domain-containing protein n=2 Tax=Ecto... [more]
A0A836C8A9_9STRA1.750e-6344.79Putative lysophospholipase n=1 Tax=Tribonema minus... [more]
A0A7S3UUJ9_HETAK1.690e-4334.15Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A4D9DAP3_9STRA1.350e-4132.79Hydrolase_4 domain-containing protein n=2 Tax=Mono... [more]
A0A7S0QRU9_9CRYP9.340e-3633.60Hypothetical protein (Fragment) n=1 Tax=Cryptomona... [more]
A0A7S3MGA4_9STRA1.140e-3436.10Hypothetical protein (Fragment) n=1 Tax=Spumella e... [more]
L7LPT4_9ACTN1.950e-2832.07Putative monoacylglycerol lipase n=2 Tax=Gordonia ... [more]
A0A7J9YKU4_9PSEU3.040e-2730.51Alpha/beta fold hydrolase n=1 Tax=Actinophytocola ... [more]
A0A5S9PY02_9GAMM7.420e-2728.52Monoacylglycerol lipase n=1 Tax=Zhongshania alipha... [more]
A0A2S4HIW3_9GAMM6.710e-2626.90Alpha/beta hydrolase n=1 Tax=Marortus luteolus Tax... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig202contigP-littoralis_Contig202:101901..131566 -
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.D7G0W7
PFAMsHydrolase_4
Model size1800
Max annot lvl2759|Eukaryota
KEGG rclassRC00020,RC00041
KEGG koko:K01054
KEGG ReactionR01351
KEGG Pathwayko00561,ko01100,ko04714,ko04723,ko04923,map00561,map01100,map04714,map04723,map04923
KEGG ModuleM00098
Hectar predicted targeting categoryother localisation
Exons10
Evalue2.38e-173
EggNOG OGsCOG2267@1|root,KOG1455@2759|Eukaryota
Ec32 ortholog descriptionPutative lysophospholipase, monoglyceride lipase
Ec32 orthologEc-23_002030.1
EC3.1.1.23
Descriptionacylglycerol lipase activity
Cds size993
COG categoryI
BRITEko00000,ko00001,ko00002,ko01000,ko01002
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig202.25.1prot_P-littoralis_Contig202.25.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig202 102690..131548 -


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

Feature NameUnique NameSpeciesTypePosition
1680789991.207981-UTR-P-littoralis_Contig202:101900..1026891680789991.207981-UTR-P-littoralis_Contig202:101900..102689Pylaiella littoralis U1_48UTRP-littoralis_Contig202 101901..102689 -
1680789991.3222713-UTR-P-littoralis_Contig202:131548..1315661680789991.3222713-UTR-P-littoralis_Contig202:131548..131566Pylaiella littoralis U1_48UTRP-littoralis_Contig202 131549..131566 -


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

Feature NameUnique NameSpeciesTypePosition
1680789991.2196324-CDS-P-littoralis_Contig202:102689..1027851680789991.2196324-CDS-P-littoralis_Contig202:102689..102785Pylaiella littoralis U1_48CDSP-littoralis_Contig202 102690..102785 -
1680789991.2291605-CDS-P-littoralis_Contig202:103603..1037141680789991.2291605-CDS-P-littoralis_Contig202:103603..103714Pylaiella littoralis U1_48CDSP-littoralis_Contig202 103604..103714 -
1680789991.239082-CDS-P-littoralis_Contig202:104653..1047871680789991.239082-CDS-P-littoralis_Contig202:104653..104787Pylaiella littoralis U1_48CDSP-littoralis_Contig202 104654..104787 -
1680789991.2485383-CDS-P-littoralis_Contig202:105550..1056301680789991.2485383-CDS-P-littoralis_Contig202:105550..105630Pylaiella littoralis U1_48CDSP-littoralis_Contig202 105551..105630 -
1680789991.2600002-CDS-P-littoralis_Contig202:110613..1106831680789991.2600002-CDS-P-littoralis_Contig202:110613..110683Pylaiella littoralis U1_48CDSP-littoralis_Contig202 110614..110683 -
1680789991.2695599-CDS-P-littoralis_Contig202:112752..1128911680789991.2695599-CDS-P-littoralis_Contig202:112752..112891Pylaiella littoralis U1_48CDSP-littoralis_Contig202 112753..112891 -
1680789991.27911-CDS-P-littoralis_Contig202:113613..1137041680789991.27911-CDS-P-littoralis_Contig202:113613..113704Pylaiella littoralis U1_48CDSP-littoralis_Contig202 113614..113704 -
1680789991.2894704-CDS-P-littoralis_Contig202:114616..1147281680789991.2894704-CDS-P-littoralis_Contig202:114616..114728Pylaiella littoralis U1_48CDSP-littoralis_Contig202 114617..114728 -
1680789991.2997015-CDS-P-littoralis_Contig202:115746..1158051680789991.2997015-CDS-P-littoralis_Contig202:115746..115805Pylaiella littoralis U1_48CDSP-littoralis_Contig202 115747..115805 -
1680789991.3086853-CDS-P-littoralis_Contig202:131447..1315481680789991.3086853-CDS-P-littoralis_Contig202:131447..131548Pylaiella littoralis U1_48CDSP-littoralis_Contig202 131448..131548 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig202.25.1

>prot_P-littoralis_Contig202.25.1 ID=prot_P-littoralis_Contig202.25.1|Name=mRNA_P-littoralis_Contig202.25.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=331bp
MAAATPVPTAESVTEGHDGGPEWEGREKASFESRHEGRVWYRKWAPQSSA
VAMLFIAHGLHSHSGRWSKVAHHYTEKGYLVFANDHIGHGLTVEAAQGGK
SGVVYDYRHMTDDFGQMIEEVIDKEEDKTLPVLILGHSMGSLVATVAAKN
CVEHPTVGPRFTKLALSGCPLVPGPGSASPFGLRWLYPINRKPGLVRRLA
GCMAKLDPAGPAAPIIQDSLSTDPEVALEAKVDPLMVKGSTRNKTAFEVM
KLIQAAKKSASKISVPALLIHGGDDDIACPSGSVEMKSLLTASSAVDLKV
YDGARHEVLKHKDKFDRVVAALDEHWGYQR*
back to top

mRNA from alignment at P-littoralis_Contig202:101901..131566-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig202.25.1 ID=mRNA_P-littoralis_Contig202.25.1|Name=mRNA_P-littoralis_Contig202.25.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=29666bp|location=Sequence derived from alignment at P-littoralis_Contig202:101901..131566- (Pylaiella littoralis U1_48)
GGGAGTACGAAGGCCAAGATGGCGGCTGCAACCCCGGTACCAACTGCTGA
GTCGGTAACGGAGGGCCACGACGGTGGGCCCGAATGGGAAGGCAGAGAAA
AGGCTTCGTTCGAAAGTCGGTGAGCCATGTTGTCGTTTGATTCCGATGCC
TCTGAAACAGATGAAGAAGAGGAGACGAGCATTACCTCATTGTTCATGAC
ATAGGTACATGGCGGCCACCCAAAGCGATGCAGCCTTAGAGTACACGAAC
GATACTGCGATACAACGCGTGTTCTTGAAACATACCACTCTGATCATGAA
TAAGTGGCCGGTACGGATGATCAGTAATAAGTGGCCGGTTTCACAAACGA
GCCATTGCATAGATGCTACTTCAAACAAAACTGCTACTTATCACTGGAGG
CACTTGGGGGATGTACTTGTAGAGACATTGGATGGAATACCCCGGGGATG
GCTTTCAAACGCCCCCTCCCGGGCTCCGCCCAAGGATGGTCCTGGGTTTT
TGGTGCAAAACTTGCAAATGTTAGGGTATTTTGGACCCACCGCCCTGAAC
GCGAAACACGATATTTTTCACTCCGGGTGTTTGTTGTGGTTAATTAGTGT
TCCAGCAAGATATTGAAATCCTTACTTTGAAGATTTTAATTACCTGGTTA
TCACACTGAAGAAAAAAATACAAGAGCTCGAAAAGCGAAAAAAAAAGTCG
AAACAAAAAGTCGAAAAAAAAGGTGAAAAAACAAAAACTGAAAAAATGGA
CGAAAAACAACACCGCGATTCCGGGGCTCGAACCCGCGTTTAAAATGTTT
ACGTGGGCATTGGATATGAATCATTTGGTCCGTACCGGCCACTTATTCTG
ATCAGAGTACGTAGTAGTCTTGCAAAATGTTTACAATGGGTGATCGTAAT
GCAACAGAGCATTCACACAACAAGTGAAAGTAGTATATTCATATGACACG
TACAACACGAATCAATGTTGTTGTTGTTGATTCTCACATTAGCTCACTAC
CGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACACATCGTGCTAGGAG
GAAAAAAGAAAAAGAAAATAAATGGACTATGATCACCCACAGTCAAATCA
GATAGGGTACCGTTGGGGTACCATCTGTGGTGGCCAAAGTGTGTGTGGGT
GTGTATTGTCATCCCTTTAATTGGACGCCACTCTACACCTTTCGGGGAGG
CAGACGCTCCAACCGAGGTCACACAGGGGGAAGTCAAAACAGGAGTTTTT
TTTTTTCTCCACTTCCCTCTGCGGTGCTTCCCTTTTTGTACCAAACAAAA
TACAGAAAAAAAATAACAGGTTCGAAAGAAAAAACAAAAATTGGAAACAG
TACAAAAAAAAAAAAAGACAAACCTCAACCATAACCATATACATGTACAC
TACTTCGAAGTACATCGAACCAGGGCCCAGGGCCATGACAGACCAAGGCA
AAGGCAAACCAGGGCGCATAGTCCAGTAACTACATGATCAACAGACGAAA
GACGAAATAAAAAAGAAGATACAGGGAGGGCACAAAGACTGAGGGAGTGC
ACTCGTGCACAAACACGACAAACAGGCCGCCAAACAAAGAGGAAGCAGGG
GGACGAAAAGGGAACAGAAAAAAAGAGACAAAGAGGGACAAAATACAAAC
ATGGAGAGAGCAGAGGGAAGACCGGAAGTACCGTCAGTCGAATCAATGCA
ACCGTATGATAGATCGCACATCATACCGGTATGATTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTCTTAACATTAAAAACCATTCCGATCTCTCCTCAGT
ACCTTCTTATGTCCGTACTCCACGATCAGGAACGATTTCCGTGGTCACAG
GCTGCTTGCCCCAGAAGAGGTATATAGTACTGTACTCGGGAGATCCCCTC
AGTCCACCAAATGAAGGCACGACAAGGAGACTCCGGCAAAAACAAAAACG
GACCCCGAGAAATCACACAACGCTGTACAAAAATAGAACAAGATACAAAA
AAACAAGAAAAGGGAGCCTGGTCCAGAGCCAAGTCACAAAATGAAAGAAA
AAGAAATAAAAAGTCAAAAATAAAATAAAAAGTCACAGAGGAGTGACAAA
AAAAATGAGCGAATAATACCATTTTCCGTGGGTCAAATTTTGCCCCTTTC
GTACAGCAGCAAAAATCGTTATTAATACTGTTTTGAAGCAGGTACGGGCC
TTGCATCGATTCCGGAATAATACACGCATGGCGATCCGGTGTTGTCTAAG
ATGGAGGTGTAGTCATATATGGTTGTTGTAGGGTTGTACAAATGCACTTA
GAAGAATACTAATTTAATGTGGCGGGTACAGAAAAAAAAACTCAGATTTA
CACTATACTTCGTAGTAATATGCTTCGAAATATACATAAATACCGGTATC
TGTCACTGTGGTCTATACATCCGTGCGCATGGCGATCGGCGTTGTACCAG
GTACAGTAGAGATGTGTGGGTATACTTCGTATGTGATCACCCAGAGGTTT
TGGTTGTTGCATTGTATAGTTTACTAATAGAATCCGGATTACTCACCAGA
GATGGCGGGTGAAAACATGTACTTAGAAGTATGTCATAGTACACGAATAT
ACAGCGTATGTATGTACAGGGTTCCTGTGGAGTAACGCGTGGGTACTGGG
CCAGCAAGGCTATGGCATTGTAAGTACAATGTTGCATGTCATTGCCACGA
CCCCATCACGACCCCACCCCCCTTAGGTACGCACGTTTTCACCTACAAGC
CGCTGTATATTTCATCACTTCATGTATGCTGCAATATGACCAACATTTGA
GCTCCCAAAGACAGAGTATATACAATAAATAGCCTTCATCTTGCTCGATT
CCACGAGTAGTAGTAGGGTACTACGACCACGGCTCATAGCCACGGCCCAC
AGGCATGAACCTACAAGTTGCTGTTGAATACCCTACTACTTGAAAAAATT
GATGTATATGATTCCAAGTTTGGAGTTCTAGGTTTTTGTAATGGTGCAGG
TCCACATGCATCATTCTACCACCCCTTTCTTTTTGTTCAGGTACACGGAG
AGGCACAACAACTGACCTCTGTGAGGAAAAATCGCTAGCGAAGATCTTGC
AGCAAGTAGGCCAACAAGACGTTTGGCTGCGATTCGAAGATGTTGAGAAA
GTTGTCGGCATGCCAAACAAGAGCATGAACACCTTGTGGTCCGACCTGCA
GCCGAAGCAGGTCGATAGCAGGTGGCAGAGCACTACGCTGACAGAAGCGC
AGGGTAGGCTCCAGCAAGCGGGTGTGTATTTCGTATAAGGTTACCTGGCG
CCCTTACAGAAAGAGAAGGTGTCCGCTCTTTGAAAGCCTGCCTTGGTTCG
GGTGCGCTAGTATTTTTGACGCACCTAGTAAAATACCACTCTGGTGGTGT
GCGTGCGTGTGTTTGAGACTTGGAAGGCCTGTACGAGTATCTATTCTGGC
GTGCTGGCATTTTGGAGGACCTGGGTGCATTGGTACTCCTCTTGTGTTGT
GCGCGGGTGTGTTTGAGACAAATAATCTTTCCACCCTCCGAGTATTCATC
ACATGGGGGGGGTGGCAACCAAACCATCCGTGTGCATGCGTCTGTTAAGG
TACACACTCCATTCATCGTGGCCTCTGCTTCAGAAAACTAAGAGCCTTTG
GGGGAGGGGGGGTACTAGTTCAACCTCGACGTGCTGCATTCAAAAGCGCA
TTTCCTCACGGGCACATCAACATTGTGAACAGACAAGGGGTAGCCGAGGC
CCACCTCGTGTAAACCCCTTCCGCACTGATTGTCTCCAGACGGAAAAAAA
GAAAGACAGACAGAGCAATCAAGGGCGGGCAAAGGCTAGTAGCGTTTCCC
CACAAGCCACCGATAAAAGGCAGACTGAAAATGGTATTGTATGGTATAGC
AATGAAAACAAATAAGCCCGAGACGTGTTGGCCCGATTTATCACCTGTTC
AACACACAGTAAGTTCATGTTGTCGCGAAATGCCACCCGACGAACACCTG
GTCAGTAAACAAAAGAGGCAGTGCTGTGCACGGCGGTGGCAGGAAATAAG
ATCCAAACAAAAACAAATGTACCAACCCGGCTGTAAACGGAGTGTACTGC
GCGTGCGTGAGCACAAGAGAATCACCATTACGAGCTATGGTACGGTTGCT
GCGCGTCATTGACCGATGCCTTTGGCCTTCCACCGCCGGTAAACAAGACG
TCCCAACCCCCCCCCCCCTCCTTCCATTTCTAAACAAAGGCCTTTATCAC
CTCCCTTCACTCCATGTATATATGACGTGCTAGTAGACCCGGCGCAAGTA
TGAAATCGCTGGCCGCTAATTGCGGATGACGCCAGTCATCAAACGGAGTG
AACTGTCGAAACTCAGAGCGCAGTTGCGCCAAAAAAACTGAAACTTGCAG
AGGGCTCGAACCGTTTCGATAGGGGTCGCGCAGTTACCCTTGCCGGCGAA
GACGGTCATGCGCTTCGCGGGGGGGCACTGGTTCCGTGCTCCCGTGCACT
CCAGGTCTTTTGCCGTCTCATTTAAAAGCTCATCACGGACACGCGCCGCC
ATACAGTATCCGAGATTTCTCCCTGAGTTGTTCTGCCTGTCGAGCACGTC
CTGTACAAGTCGCGCATGCACAGGGCAAGGGGGCAGGACAGCCGAAGAGC
AAAATGCACGCTGTTGTCATATACGTGTCGAGCTGCAGGATAGCGACTGT
TGTCCACCAGGTTCACCATACCGCAGTAGAGTTTTAGGCGACGAAAAATG
TACTACGGCTTTTTATATTATCCGGAAACTCTGCAAGAACAGGAGCCGCA
GCAGAACACCAAGCCTCGGGAATAAAGCGTGCGGATCTAGAGAGTGTGGC
ATCGACAACAGCACCAAGATCAAATAAAAAATCAAAGCACCCTCCACCCC
CCCGTGCTGGAATGCTGGACGGCTCTTGAGGGCTCTTCCTTCGTGCACAA
CAAAAACGCGTCGGTAGTCTACGGCTCCTGTTTGCCTCCATTTACACGCG
TTTCTGCAGTCAAGAAACGACTACTACAATATTGAATCGTTTTACGAAAA
GCAACACAATCACACCATGCCCCCTGATAAATCATACCAGGTACAGACTA
AAGACCGCAGCAGAAGCTCCGTTTTATACAAGGAATGCCTTTCAACCCAG
AACGTAGGAGACATACAGCAGCAGGTATCAACACATGCCCGGCTTTTGCT
GCCGTAACTGCCGTGTGTTACATAAGGTAACCCCCCCCCCCCCCGCCTCT
CATTTCACAAAGCCCGACTACTTTTAAAACGAGGAGAGGGGGCCAGCAAC
GAGCGACACGCTTTCGCGAAGCGACCCGACGATATGGCACTTCCACTGCT
GTTTTGTTTGTTTGAGAAGCAAACCCTGTCTTCAAGGTCGGTCTATGCTC
TTGGTATACGAAGTCTTATGGGACGTACGGTACATATGGTGGAAAAGCAA
ATAAAAAATCGCGGAAATATCCTATAAAATATAGATAAGTACACACACTA
GAGACAACGCAAGTGATATTCGACGTGCATCACATATGAAGCCGATACTA
CTCAAGGGGAACAGCAGCGGACAGATGGCGCCGTCCAAAAACAAGTTAAA
AAATAACGGACGGACACGCAGCTATCATAGAGGGATATCACACAAATTAC
ATCATGTATTGGCATCTTTTCGAAACGCTCTCAAAGAGATGGTTTCAACG
ACCCCATTATCGGCACCGGCGCTCGTAAAACAGCGGGGAAAGCGAGCTTT
CAAGAAAAACGCTGTAGGGCGTGGTACATGGCGCCATTCACACTAACAAC
CATTCCGGTCTCTCTTCAGTACCTTCTCCTGTCCGTTTCCTCTGATCGTG
GACGATTTGTTCCGTGGTCACAGGCTGCTTACCCGAAAGGGATATATTAT
ACAAGTACACGGGAGATCCCATCATCCCACCAAAGGTACGACAAGGAAAC
TCTGGCAACACGAAACGGACCTCGAAATATCACTTAACGCTACAAAAAAT
ACAACAAAAAAGGGAGCAGGGTCGATAGCAAAGTCAAAAATGAAGTGAAA
AATTGTGAAATAAATCGAATTAAGGTGCCACAGATGCCGAGAAAAATAGA
CATCGGGCTTGCAACTTGCTCCACCGACCCAGCGACAATTTCAGCAAACG
CAAGCAGACGTGAAAGGGCAAGTAGCAGAGAAAACACAAAACTTATACTG
AATTACTGAATTATTACGGCGTAGTAACTCAGGCCACGGTACCCCGGTAA
CACAACAGGGAGGGGGCGCACTGATGCGGGTTGAATATCATCGAAAGGGT
GAGGGCTATCACAGCAGCAGTGTCAGTCAAAATCTAGTGCATACGTGTGA
TATGCCACTTCGTATTTACTTCGTTCGAATGATACGAGTATTGAGAAAAT
GTAACAAACTGCTGTATACTTCGGTATCTCTGCTCCTGCTATGATATGAT
TTAGATTTTCACATTATGATATCATATCATATGTTCATATCAGTTACAGC
AGTTTATCACATCCAAAATCAGTGGCCGGTACGGACACAGGTGAATCCGG
AACAAGTGGCCGGCTTCACAAATACGCCATTGTATGGATGCTGTTTCAAA
CGAAACTACTACCCATCACTGGAGGCACTTGGGGGATGAAAACAAGTAGA
GACATCGGATGGAATAACACCACGGGGATGGTTGTACAGCAGTAAAAAAA
AACGAAAAAAAAACGATAAAAAAAACGATAAAAAAAAGCGAAAAAAAAGA
CGTGATGTCGGGGCTCGAATCCGCATGATACGAGTATTGAAACTTGTCGC
TTATCAAATGTTTTGGTCAATTTGTTCCGCAGGTCTCTCATATTGGATCA
GAGTGGCGCCAATATACTTGTGCATATGCTGTACAGGAGCACAGTACAAG
TAGTATTTGTGCGTGTATCATTCTTTTGTACGCAGTATGATATAGTACAA
CAGATGTCCAAGTACAGCAGTATGCATCATGTGTGTTGTTGTGTTCTCTT
CTTGGTTTTTTTTTTTCTCACCTGCGATGATTTGAGCGTGGTAGCGCCCA
CACGATGTCGCAGCATCCTTGTCCTCCTTCCACATCTATCTTTAGATTCT
CCACCAGCGGGGCCGATTAGTCATGGAACGCGCTGCGACAGGCGTAGCCA
CGCCGTTTGCTGGCGCACAATCCTCGCTACCTCATTCGTGGTGTTGTTAC
TGCTGCTGCCGCTGTGCTGCTGCGGAAAATCTGTGCTCAAAGTAATTTCC
GCCGATTGTAAGCCGCCTCCCTCCACGGCACGACCGGCGGCTCTGCGGGG
ACGCTTTGCGTCCGGGCTACTGGTGCCGGCCATCGATCAGTCTATCTGTG
CTTGTTTGGAGCTCTATCTAGTCCTACAGCGCGAGAACGTGAGTGCTGAA
GTGTTGCTCTTGTGACCTGTTTTTTGTATGCATGTTTTTTGGGCTTATCC
ATCCCCCCCCCCAATAACGCATCAATTTGACCGTTTTTTAATAAAAAAAT
GTTCCCGCTTAACACACGTCTCAGCCCGCCTATTGGACCGATCCCTTAAG
GGATCGGTCCAGAAGATACATTATATTGTCAAGAAATTGCCCAATTCTCA
ACCCAAGACGATAACGCAGGTTGCTCAGAATAAGCGTTCCTATCGGGAAT
TGCGACGTTGAACACATGAAATCAGCAGAATACACCATGGAGCGGTGACC
TGCGTGCTGGCACGCTCAGATCTGCTGCTGGGGCCGAGATTGGAGGTCGA
AGTTATGTTTCAGGCACTCCAGAAATCGTCCGAATCTCAACCAGGTCCCA
AACATCTTCTTGACCATGCTCACTGCTTTTCTCGTCACCACGGGCCTCAT
CTCTTGAAACACCCGGTCTACAGCAGTAGGGGTAAGGAGCTACTGATGTA
GACCACTGGCTACTGCTGTCGACCCAAAGCGGGGCCCATGGCGACGAGTA
CGGGAGAGGAAGTTGTTCGGTTTCTGGCTGAAATGCGGACAATGGCTGGA
GTTCCTGAACCATAACTTCGACCTCCGATATCTCGGTCCCAGCACGCTCA
GATCTGCCGCTGGGGCCGAGATATTGGAGGCACAAGTTTTGTTTCAGGCA
CTCCAGAAATCGTCAAAATCTCAACCAGGTCCCGAACATCTTCTTGTCCA
TGCTCACTGCTTTTCTCGTCACCACGGGCCTCATCCCTTGAAACACCCGG
TCTACAGCACTAGCTAGGGTAAGGAGCTACTAATGTAGACCACTAGCTAC
TGCTGTCGACCCAAAGCGGGGCCCATGGCGACGAGTCTGGAGTAGAAGCT
GTTCGGTTTCTGGCTGAAATGCGGACAGTTTCTGGAGTTCCTGAATCATA
AGTTCGACCTCTGATATCTCGGTCCCAGCAGCAGATCTGAGCGTGCCAGC
ACGCAGGTCACTTGCTCCATGGTGTATTCTGCTGATTTATTGTGTTTAAC
GTCGCAATTCCCGATAGGAACGCTTATTCTGAGCAACCTGCGTTATCGTC
TTGGGTTGAGACTTGGGCACTTTCTTGACAATAAAAAAAAATATATATAC
TGGACCGATCCCTCAAGTGGTGGCCGCATCTGTAGGTGACCTGCTGGGTG
TAAGTGTGTTCGATGCTGTTAGTCAGGGCTCCACTGCCTCACGCAGAGGA
GCTATGATGAGTCTTGCTTAACACGTTTTGTTAGGACACACAAACAGAAA
GAACGAGAAGCGAGCCAGGCTCCAAGCATCACACAGCCCAAGCTCGCAAT
AATTGCGGTGCAACGCCAAAAACAAACGGGAGCACCTCATTAGTTCAAAC
ATGAAACCGTCAAAAGTAGATCCAAATACATTCGTCCTCCGACAAGAACA
CCTCGGACGACGAACACCCTCTCTGGTTCTTCACGCAAGTGGAAAACCAT
CAATTTTGGGGATATGTTATCCCTGGATCATGCTAAAACTTACGCCAAGA
CGGTTCGGGGGGAAAACCGGACTCGCCGATCAAAATCGTAAGTCTAAAAA
GCCTAAAAATAAAAACCGTCGCTATCCCGGAGGATTCCAAACCGCACTTC
CAAGGCGAGCAGGTCAAGCTAAAACTGAAAAATAAACGCCAGCACGCCGG
ATTACACACCCTGCGCCTATTTGCTTCGGGAGACGTGCTCAACATTTACC
CGCTTGAAACTACTTGCCCGGTGCTTGAATGCCTAACCCTATTCCAAAAT
ATTCATCAAACTCTTACGGTGGTTTTGGAAGGCAAGCCTTGCAAGGGTCT
TCGTAAGGATATCTGCGTGCTGATCATGTGATTTTACGTACTCTACGCTG
ATCTTGCGCATCCGGAACAAATCACGGATGAATTGGAAACGCGCGTCGAT
GTGCTTGCTCCTGGCGGAGCTCAGGGTTCTCAACCAGTGCCTTTGCCCCC
TGGTTGTCCTCAAGGACTTTGATACTCGCCCCACACGTCTCGGGCGCAAT
GAAAGACAGGACGGCCTCGACAATGAGAGCATCCTTGACCCCGTCCCCAG
CTGCAATGCACTCTGCCTCGGAGGTCGACAACGACACGACGTGCTGCGTC
TTGCTCACGTGGCTCACAACAGTGCCTCCCAAAGTTACTGCTACCCCCGA
TACCGAACGCCTGTCGTTCGCGTGACTGGCGTAAACGGAGTCTGCGTACG
TCTAGACCAAGACCCGGCCCCCGTACGTAAGTGATACCGAGACTCTTAGT
CCCTTTCAAGTAAGAAAGGATTTTTCTGATCGACTTCCAGAGCCTTGCAG
TCGGTGAGTGAGCACACCGTGCTTCCGCTCGTACCGCATTGGTTATGTCA
GGCCTAGTCGTCGGGGAGAGCCAAAGTAGGCTTCCTACGGCCTCTCTAAC
GGGCCAATCCCCTCCCAGCTCGTCTTCCCGCTTGGGTCCTAGGTCGTCGC
CGGGGGAAGCGGGGATGTCCGAAATGGATTCCACATCGAACCTCGTCATG
AGGCTCTCTACGTATGCCTCCTGTGACAACTTTATGGTACCTAACTCTAT
GTCTCGCTCGATACCGCACCCATCGTACCAGGTGCACTCTTCCCTGGTTT
TTGGTGGGGAATTTCTTGTCAAGGGACACCAACAGCTCATCACAGTCTTT
CTTTGATCCTCCTGCCAACAGGTCGTCCACGTACACCATCGGTATTCTCG
CGGAAAATGCAAGGGTCAGCCTTGCACTGCTCGAAACCCTCTGCTGTCAG
AGTGTCTGCACGCAAAGTGACTCTACTCTACTTTCGGCCACTCTGTTTGA
GGCCGTAGATTGCCCTCTCTACTTGTGCTGGCTTCTTCGATTTTTGTTCC
CGCAACCGTCGGGGAGCTTTAGGTATACATCCTCGTCTAGCGATGCCCCG
ATGTAGGCTTGCGCTACGTCAAAATGCTAGAGGAGAAAGTCTTCGCTCGT
CTGCTACCGCTAGCACAAGTCTAATGGACGCTGCCGACGGGGAGGGGGAT
GATAAGTGGGTGTTGTCCACGTTACGAGTTTGCGAAAACCCTCGCGCTAC
CAACCGCGCTTTCAACTTCGTGATTTTACCCCCCTTATCTGTCTTGTAGT
CGAAGCACAATTTCGACCCTGCGGTACGCTGTCTACTATTCTGAAGGTGC
CTGTTTTCAAGCGGTCCTCGAATTCCATATGCATGGCCTGTTCCCAACCC
TCTCGGAAAACGGAAGCTCTACTTCAGCTATGTTACGTGGAAATGGCTCT
ACTTCATTTGGTTTCTTCCCGATTGGCAGTGGGAAACTCAGCTCAGGGGG
GTCTTCGGTCGCCAGTGCGACAGGGCAGTCCGCGCCTTTCTCCGTCACGT
GCTGCTCCTCCCCCTCCCAGCTCTCCTCCGGTATTACACAGCGGATGCGC
TCAGCGTGTTGGCCAAACCCTCCCCCTTTCCGCTCCGGGTGGTGTTTGGC
CGCCATCTCTAGCGGGTAGTCCGGGCCGCTCTCCATAACGCACCAGGTGT
CCATCCAATCGTCTAGGCGCGCCTCCTCCTCCTCTAGGCGCTCCTCCAGC
ATCAACCAGCGGATGCGCTCAGCGGCTCCCGCCGCGTCGTGCGAGCTCGT
CCTTCTTGCCTCCCACTCGAGCGCACATGATAGCAGAGCGTCCACGGTCT
CCGGGCGCAGTTGGTATTGCGATCGTGCCTCGGACCGCGTGCGCCCGCCC
TGGGATGTCTGGGATCTTTCCGAAGAATGTCTGACGATGGGCCTCTCCGC
CCGCGAATGCTGGGACATCGCTGCTGCTGATGCTGCTGTTGCTGCAGCTG
CGGTTGCTGTTGTTGTTGTTGTTGCCGCTGCTGGAGCTGCTGCGGTTGCT
GCTGCCACCGCTGCCGCTACCGCCGCCTCTACTGCTGCTGCTAACGCCGC
TACCGCCGCCGCTGCCGCTGCTGCTGTTCTCGGCCCTCCCCGAGAAGGCC
GATGGTGCCGGTGGGGTGCTGTCCGCGTCCCCCCCGCCCCCTCTAATGCT
GCTGTCAGCTGCTGCCGCCGGCTCTCTACGCCCTACGAGTAGCATGGTGA
ACCCAGCCTCTGTCACGTCGAGGTCGGATTCGCTGCTCAAGTCGTCCACC
CTCCCTCCGCCTTGACTTGACGCGCCCTCCCCGCTTTCGGCCTCCCCCGC
AGCAGGCTCCCCCTCTTCGATGATAGGGGGCTGTGGCTTGCGGGGGCGCG
AGAGGGGCAGGGGGCACGTGTCGCCAAGTGACATTGCGGGTGGTTAGGAT
AGAGCGGTTAGCGGTGATCACGCGCATGCAGTCGCGAGGGTGATTGATGC
CAGGTCCTACATAGTGGCAGTCGGGCTTTCGGCTGCGATTTGTCGTCTCG
GTTGACTCTACAGACGGCCGGCTTGAGGAAGGGCCACGCTCCTCCGTGGG
GAAGGGGCGTAGCACGGTGACTTGTCTCCAGGGTTGACTGTGGTCGCGGT
AAGGTTTAGTGCATGGCACGCCCACGATACCGCCTCGGCCCACGGTGACG
GGTAGTCGGGCGCACCCGGAGACATCTCAGTGGCTTGAATGCGGGCGGCT
GTGGCAGCGTCGTTGATCAGGGCCAACCCGCGTTCGGCTACTCCGTTGTA
CATGGGGCTGTCTGCTGGTGTGAACTCTTCTTTGATACCACGCTTGCGAC
AAAGTTCACCCTTCGAAAAACTGGCCCCCGTTGTCTGACCTAACAGCCAT
GACGGCGGATGGTGTGCCTTCTGCCCGCACCTCCGCTAGGGTAGATTCGA
ACGCGCTGGTCGCGTCCGATTTTTGTCCTAGGAAACACACTCGCGTGAAC
CGCGTGCAATCGTCCCGTACGATGAGTGTGTACCGCTTCCCCTCGATACT
CTGTGTGGCCATTCTTCCGCTTAGATCAACAAACGCCCTTTGAAGCTTCT
TGACTGGTTTGGTGGGAGTCGACCTTGCGATGGGCTTCCGTAGCCCTTTG
GCCAGTAAACACCCTCGGCACTCGTGGAGCTCCCCGCTGTAGGTGAGGCC
TTGCTGCTCCGCCGCCTTCTTCAGCAGTACCTCGTGAGTGTGGCCAAACG
TACAGTGGAGAAGGTTGATGTCTCCGGGGGTGGTGGAGGCTTTCGCCCTA
CCAGGCGCGATGGTGGCACAAGCAGTGTCTACCGAACTACCTGTCGCCTT
GGGGCGGTACCCCAACTGGCGATAAAGCTTGCCGACCAGGGGGGAAAATG
CAGGTGCTCCCCCCTCAAGCTTGAGAGTGATCCCGTCTTTTGTCACCCGT
GTAGGTGTGGCCTTTTAGAGCCATGGACGGGAGGAATATAAGATGGTAGT
GTGAGAGGGGGGCGCGGGCTACGTCGTGTAGTTCAACTCGTACCCACCCG
TTGTCGGTACGGAGATTTACCGTGAGGTCACCGTACCCTACGATAGAAAT
CTCCCCCCCTCCTGCGAGACCGAAAGGTCGAGTACTCTCTCGGTAGTTGG
AAAGACCGTTGGCGTCCGGCGTCATGTTTCATATTGCCGCGCTATCAGCG
ATATACGACACGACCTGCTTTCCCAGCGCCCCACCCCCAACATCATTTCC
GATCATCGTACTGTACTCGCCTGAATTATCCGCTGCCGTGAACGTCTGGG
CATCGACGGTGATATCTTCGTCAGATTCTGCCACCTCCACCACCAGCGCT
GCCGTTTCGGACATGCAGTCATCCGTCTTGTGGCCGAAGCCCTCGCACTG
GCTGCTGTAAGTGTGTTTGCTGTGCGTGCATTTGTTTTTGCGGGCTAATC
CCCCCGGGAGATGTTCCCCCGGGGTGATGTCATCGACGAACCCCCCCCCC
CCCCCCCGAGACTCAATTTGGCCCCGGGGGGTGCGTTTTTTCGAAAAAAA
AAAACGCACCCCCCGCAGAGGGTTTTAACAAAAGGTTTTACGTTGCGTGG
TTAGCCTTGAGGAGGAATTAATGCTTGAAGAGTGGAAAGCCTCCCTTGTC
AGCTCTCAGCACAGGTGGGTTCACTCGAGGTTGCTTGTCATGGCTACCAC
TACTCTAAAAATTTGCGGCTATACCTGTGGGATATGAATCCCCCGCTTCG
CCGCGTCGCTCCACCGTGTTGGTGATCGGGCCCACGCCGGCGGGAACCGC
CGGCCTCCTGCCCGAATCTTCAGAAAGTCGTGACTCCTGAGACCACTCGC
TCCCCTGGTATGCCCCAACTTCACCTGTTGTTCTTGCGGCCGCAGCAGCA
CTTCGACCAGTGCCCGCTGCTGCCTCCTCCAGCGGCGCCCTATCGGCGCC
GCTGCTGCTGTCATCGGCGACTCTCCCGCCGGAGCCGCCTGACTCCTCTC
CTTGGTGATCTCTCCCTCCTAGGTTGGCCATCAGCAGCTTCATCATCTCT
TTTATCTTATCTGCGACTCTCAGTAGCGGTTCCCATCTTCCGTCCCTGTC
GAGGTTTTCTCCTTCTCAAGCGCCCCTGGCAGCGTCACGACCCGGCATGT
TGACCGAAGCTCCGTCGAAGGAAACACAAGTGTGTTCGATGCTTCTGGTC
CGGGCTCCACTGCCTCACGCAGAGGAGCTATGATGAGTCTTGCTTAACAC
GTTTTGTTAGGACACACAAACAGAAAGAACGAGAAGCGAGCCAGGCTCCA
CGCATCACACAACCCAAGCTCACAATATATGCGGTGCAACCCCAAAAACA
AATGGGAGCACCTCGTTGGTCCAAACATGAAGCCGTCAAAGCAGATCCAA
ATACACTCGTCCTCCGACAAGAACACCTCGAACGACGAACAAAGTGCACT
TCATCCGCGCTCCGGCAATAAGGCGGGGGGGATACCATGGAGGTGGGATG
ACAAGGGGTTTAGGATTTGGGATTAAGCTCGCATGTGTATTGGCCGGTGT
TGTGGCAATGGCGGCAGCAGTAGGAACGAAAGGGTGTCGTTCGTTCGTTC
GAAAAAGCCGGTAGTAGAGCCTGGAACCGCTGGAAAAGCCGGTGCAGGAA
CCGCTGCAGGAGCCGCGGGGGTGTTCCAAAGGGTGTGTAACTCTACCTCC
ATGCTGTCGGTGGCCCTCTTCGCTATGCTGGTGGTGCTGTGGGTGCTCAG
CACTCTGCCTTTCTCCTCTGTCTGTGTGTGTGATGTATGCAAGGGCGGGC
CGTGATGACATACTTTTTTTCAGAAGACTTGTACCTCAAGTGCACAGCAG
TGGAGTTTTTTAGGGAACTGATTGGAAAGGAACAACAAGAAAGAGCTGTT
ATGTGAGAGAGCGGCGGTGATGGAGGTGACTTAGGGCAACGCCGGCAGTG
AAGGAGCGTTACGAGAGCATGGTGCTGGTGATGTGGCCTTGGGCAACGCC
AACAGCAACGTTGACCCAGACAAGGAGGACATGTTTAGGGCGACATAACC
AGCGTCGCAAGGACGGCATGTAGATACCATCCTCGACAACATCTGATGAT
ACGTGTGTGTTTTTGTGTTTTTTCTTTTTTCTGTCTTCTCCGATTGCCGG
GGCTACTTGTACGTTGCAGGCAGCACTCCAGACAGCAACTAACTGCTGTA
GTCTGCAGCTACCTACTGACTGCTTGTAGCAGCAGGTTATTAGTTATAAG
TGGGGCGGGAGGAGACTGAACACGATGCTGTAGTCAAATGCACGACGCTG
GAAGTACGTTTGATGTTGGTACTGCTGTGACTGCTGTAGTTCAGTGGATG
CACACCGCGTAGGAAGGTGTATCTTCTTCGGTCTTTCTTGGGTATTCCCT
TGTAGTTTCTTTGTGTTTTTTGGATCTTCCTAGGGCTCAGCACCTTTTGT
GACCACGGGCTAGATTTTGGCGATGAGCTAATGTGAGAATCAACAACAAC
AACAACAACAACAACAACAACAACATGTATGATATGATAGATAAGGGGTG
TGTGCTGTAGGGGGGGTGGTTTCTTTTGCGATATATGGGTTTGTCACCCA
AGATAAGGCATTCTTTCTGAGCCGGTAATAGTTTAGCCCTGTTCGAATAC
AACATTCGAAGTACCGGTACCAGCTACAATAGATGCGAAGTATGAGTATT
ACCCAGCCAGTTTTTTGTTAACGTGTTTCGCCTCTGTTCTGCATTCCTTT
TGCTGAGTGAACCGTATCGCTACTGCTGCTTCGAGAAATCCCCACGCGAG
TCCTTCCTACCTTTGCGTTGGCGATATAGTCTTTTGCGACGCTCATTTTT
GACCATGCAGCACTGCTGTACCAGGATTCTTGAACTCTATAAACAATACT
TGAAAGCACAAGAGACATTTCACTAAAGCCACACGACTTTACGTACCTTT
CCCTTGCCCTGCTGCTGCTCCCCTGCGCGTCTCCCCATGATTTTCTCTCA
CTCGGCGGCAGGCATGAGGGAAGGGTTTGGTACAGGAAGTGGGCCCCCCA
GTCCAGCGCCGTCGCCATGCGTGAGTGTGCGGTATCCTAACGCTGTACCT
CGGATGTTAGTTCTGGCTGCAACGGCAGTACTGCCTGATTTGCCTAAGTT
ACCACGACCCCCTGGACCGATCGATGTTTGAAGCTCTCGATTGCGGTGCG
GTATGGTACAACTCCACAGGTTGGAAGCAGATAAGATTGTCGGTGCTGAC
CGAAAAGGGTAATCGATCGATCGGCATCAGAACCATTCGGTTGTCGAGAA
CGAGATATTCGAGAACGCATCATGTGGTAAAATAAGACATATTTATCGGA
GGGGTTTGACCAGTCTACAGCGAACTTTAAATACATTGTTGATTGATTAT
GGTTGTTGGTAGCCAAAATTAGTTCAACGTAAATGATATTTCTTTGTTCT
TTTTTATCTTCACGTCTTTTAATTTTCCTTTCAGACATGGTTCGATGCCG
ATAAAAGCATGGCTCATAACCTGTTGTCGTCGTTATGGAGCACCGTAGTC
GAGCTTTGAAATCGGCCCTGGGGGTCCCGTGCGGTGTATTTCGACCGACT
ATATCGGAATGGTTGTTCAAAACAGCGGTGTACCGGTGTATGTGCGTGCC
CGGTGTATGTGCGTGCACCGCGACCTCTTTTTTATGTTTACCCGCGGGGC
AAAATGAATCGACACGCTGATTTATACCTGGCTAACTTTCCATGGGGCCG
CCATGTTTGTTTCAACTCTGCCCTTGGTTTTTGATCCACTTTTTCCGAAT
AATGCACGGCCGGTGGCAGCAGTGCAGTACAGTACTACCGCGGCCGTGAT
CTCCTCGCAAATACATGTGACGTACCGGTACGCGGTGAGTTTTTGGTGCG
TGGCGTGTGCTATACGGTGGGGCGTCTTCCGTTGTGCATGCACACGCTTT
GCTGATAACTGCGGTTGCAATGGCACGCCTCCTTTTACAACCCCTTTCTA
TACAGCAGTTGGCTCGCTTTCTTGAATTTTGGTTTTCATATGTACTTGCA
TGCTTTCTCAATAAAGAACTTGCTCGTGTTTTTGGCAGTCTTCATCGCCC
ACGGGCTACATTCACACAGCGGCCGCTGGTCGAAGGTCGCCCACCATTAC
ACCGAGAAGGGCTATCTCGTGTTCGCGAACGATCATATCGGGCATGGATT
GTGAGTCGTGTCTCATGCATGTGGTACAGGAGGACATACCACAAAATTTC
CCACAATCCCCGCTTCTATAAAGTACTGCTGTATAAAGGAGACACGGTTA
GTTCGAGAGGACTTGAGCAAAACACTGCACGGTGTCATGTTTCGTGGTTT
TGGAAGGATACTTTCGGGGCCTTGTTTGCTCTTGAGTGACTCATTTGCGT
CGGAACTGCCATCACCACAAAGCCGTCTTTTCTGCGTGTTGGTCCCATGT
AGAGCAGGAGAGGTAGGGTTTGATTTTCAAGGCTACAAGAGCCATGCCGA
GGCCCCCCTTTCGATATAGTAAAAAGTCAGAGCGGATTGATTCTAACACT
GGAACAGTAGCACCGTTCCCCCCTCAAGATGGCTTTGCCTATTCGCCGTC
AGAGTCGAAAAATTTGCACACAACTCTCGCGAACTGGCAACCATTTTTTA
CTTATCAGTTGTTAACACGGCTGTGACGTGAGTGGATACAGCCCTAGACT
CTCGACCTTCAGCAGTAGTATATAGTACAATGTCACACCTAAGAAATTTA
TTGGAAATGTGTTTTCGAGCCTAACGAGGAACTGGCATTTGTTGATCACT
GCTGTCGCGTACTTGTTTACTTCCTACCCTGGACTTGTCGCAGCAGCACA
TTCTATGTTTTTCATGCTGAAATTACTACATCCTTCCGCCGTATTAATGT
GTATGCAGCCGTTTCTGGGCAGATAGGGAAAACAATAGGGCCCTGCTGCC
AAAAGCGACCGTACCTTGCTCCCATCCAAGCGCCACATCACGGACCACCC
AGCCTAGCCATTCCACGTCACAGCATGTGACGTTACAGCGAAACCTGACA
GAACTGAAACTCGATGCATTGTACGTCTCAACGAAGAGTGCACAAACTAC
CAAAACTGACAGGACTGTCGAGGCGGCTCAAGGGGGCAAATCAGGCGTCG
TGTACGACTACAGGCACATGACGGACGACTTCGGACAGATGATCGAGGAA
GTGGTAAGGATACCCCCTTGGGAGTTCCCCTGTTGCATGCTGTGACCGTG
TGCTGGTTCATAGGCGCTTCTTGTGCTATGTGATCGCTTCTTGATGGCTT
CCCGGGCCAGTAGTAGAAAGACCGCGCCCAGTGTTTGTTTTTCAGAGTTT
GTTGACCTTGGATTGGATTATTTGTACTGTAAACCGTATGATATGTACTT
CGAAGTAGATACTTCGAAGTAGAGGTGCATATATTTTCGGGACCCTTTTT
TTTTTGCCTCTTGAGCTGCGGTGGAGGTGAGATGAGACATGCCCTCACGG
TCGTAGGTCCCACCCTCAGTCACGGCCTCCACAAGTTTGGTGGCCCTCCT
CTCACCCGGCGGAATGTTGTCGCCTGACTCATTTTCTGGTGAAGGAATAG
AATGGTAGAGCAGCGAGACGACTTTTGTCTATTTTTTCCTTCATTGTACA
AGTATTATCTGTTTTTTTTGCGCGCACCGACCGGAACAGATCTTGACGAA
CACATTTTTTGGCGCTCTGCTTTTCGAGAAATGGGGGAGAGAACACGTTG
CAAATCGAGCGCTCTGTAGTGCAAGATGCGGGATTCATTCCTCCCACTGT
CAGTGTCACTAATAAACTTTTGCTCTTCTTTTGAAGATATGTAGTGTTGA
CCCCAACACCGCTTTCCAATTAAATTCCTCCTGTGCTTTTATCGTCCATA
TGTTTTTCTTCCGATACATGTTCAGATTGACAAGGAGGAGGACAAGACTT
TGCCTGTGTTGATCCTGGGGCACTCTATGGGATCCCTCGTGGCCACCGTA
GCGGCCAAGAACTGCGTCGAGCATCCCACCGTTGGTCCCCGATTCACGAA
GCTCGCCCTCTCGGGTGAGTCTCAACACACTGCTGTATCTCACCGCACAA
TCATGTCACTGCCAGCTCTATAGGGCAGCCAATACCAGCACCTGTGAGAA
GTGCCACGGCATAATCAGCCCTCAGGTTAGCCTACACCACAACATGTGGA
ACGTACAAAGGCACACACAACATCAAACACAAAGCAGGCACTGCTATTTT
GCGTGTATGGGGTTCCGGAGCCCGTACTGCCGTAAGGGTTTCAGTTTCTA
TGGCGGCGTTATCTTCTCGAACCAAGAAAACAATTCGGTGAAAACCTTAC
CCGACCCGGCAAATCCGTCGAGCTTTTCCCTTCACGTGTTTTTCGTGTCA
GACGCCGCGCGTCTCGGCCGACGCTAAGCTCTGAGATGTGTGAAAAAAAA
TCACGCCTCTTTACGCTCGCCAATAGATATGGTGACGGTTACGGTTACGG
CCTTAATGTACTAGCGGCAGTCCGTGAGCCTCCCGTAATTGACAAATCTT
CCTGGAGCTCCGTCGGGCGTTCTGTTCGCCACACCCCACGCGCTCTTAAC
ACGACGCCCTGAAGGCCTCGTCGTCTGCGCTATTGCACGCGGATGCCGCA
GCAAACCCAACAACGAGTCTGGGATGCACCTTGCCCGGGTTCCGTGATCG
ACGCAAAATCGCGGCTGCCCATTCATGTATCATGTACGCACACGCTCTTC
CTCACTCTCCCCTACCGCAGCGCATGCAGTCCCCTCCTTTACCCTAGTTT
CTCACACACAGGCATACTTCTCGGTGCTGTATGCGTGTCGCGCTGGGAAC
GTTTATTGTTTCTGAATGTTTATGTGTGTGCCTCTTTTTGGGATGCCCCG
TTCAAAAATAATTTTAAGTCTCTCCATCCCCGCCGTTTTTTTCCCAGCTA
CGACAGCAGGACAGGTTCTCTTACAGCACGGCTTCCTCTAGACATGCGCA
TCGTGAGCAGTAGCACTTAGATCTACTTTGGGGCTCCTGCTTGCCGTAAC
AGCAGTCCTTACAACACACCATGTCTTCCGCGGTCATTTCACTTCATACG
CTGACGTCTACATTGTTTGGGGAGAATCGTTCAACTCTAGGTTCCTGGGT
TCTTCGGCGCGCTGCCTTCGACACACAGAGAGAGAAAGCGAGAGAGAAAG
AGAGAGAAAGACAGACAGCTAGGGAGAGACAGACAGAGAGAGAGCCCCCC
TCCCTAACCTCGTGTGCTCTTCGTTCGTTCGTGCCCGTTCGTCTCTCAAC
GCCGCTCCAACCCTTCTCATCTCTCTCTCTATCTCTCTCTCTCTCTCTCT
CTCTTTATCTCTCTATCTCTCTCTTTATCGCTGTCTCTCTCTCTCGAGCG
GGTGAACACAAAAGGATCGGAATCATGTTGAGCCGGCTATCGTGGCTAAA
TTTGTTCGTGTTTGTCGTTGTATCTTACGCTTGTTGGCCCAGGACTAGTC
ACGGGTGAGGGGGGTGTTAAACAGCAAAGGCCGGAACGCTTTTCGACGCC
AATACACGGCAACAACAGCAACAGCGACAACAACAACAACAACAACAACA
ACAACAACAACAACAACAACAACTGCCGCAAAATGTAACAAAAAATCACA
GAGCAGTGACAAAAAAGACCTGGTGTTTATCAGTTGGTGGGTATAGCTTT
AGTGCGGGGTTCCCACTAGTCGTGTGTGCGTGTCGCCCCTTTTTTTTTTT
TGCGTTGTGCTTTCACGGGAGACATTTTTATTTCGCCTAATCTATTACAC
CGTTGTGCCACAAGATAAACTACCTCTTCGTTTGCTGCCACGTTGTCACG
AAGTGGTTTTTCCCGTCTCTCTTCTCTCGCAGCGTTGCGTGAGAAAAAAG
ACTCCGCGTTGTGTGTGGAAGAACGGTGTGTGAGGAAACGTGATTTTCTA
GATGCAGCTTGTTTTTTGTCGCCCCTCTTATGATATCGCAGTGTTGTGCA
AGAGCTAGATCCCTCTCTGTTTTGTGCCCCTTGCCTTTTTTTTCGGTTGC
CGACTCCATGCCGGTATAGTGCAAGAAGGCACCGACAAGTTGGGTGATTT
ATCCTATTTTGTTTCTTCCTATGCGCCGCCCAGGCTGTCCTCTCGTGCCT
GGCCCCGGCTCCGCCAGCCCCTTTGGACTTCGCTGGCTCTATCCCATCAA
CCGGTGAGGAACACCACACGGATATCAAAGAGTAAGCCTCATGATATGTA
TGTGTGCTTTTACGGTGTGTGTGATTTCCATTCCAGTTATTCTGGGCAGC
AGTCTACACCTTTCGGTGTGAAGTAAGTGCACCAGCCGAGGTCACACGAA
AGGAAGGTCACTCACGTGCTTTCTATTTTTTATTTTGTTTTTATTGCCCA
CATCTTTCCTCCTGCGGTACTCACCTTGGTTGTAAATGCGCATGTTCAGC
AATCACTTCCCTCTGTTTACTCACGAATAACCTGCTTTCCACTGTAAAGT
CGCAAGGAAACGCTCTCAAGAGAGAATCGACCATGCGACTTTTTGCACCT
GCCGCGATACGTGTCAGGATGACTCTCACCGTTTGTTGGCTATCATTGGG
GTGTACCGCTTTCGAGCGGAATCAGAGCAAGCACCCCGCAGCGGGATATT
TCTCAGGCCTTTCGCACCCCAAAGAAATTCAACTCTTCAATAGACGCAGC
CACGTAATGTTACGGACACGTACACAAGTACAGACTATGTAGGGAGGCCC
GAAAGCCTTGACGTCATTTTTTCGAGACAGGCAGGTCAGGTGAAAAAAGT
AAGTAACGCTAGGTAGACAATTGTATCATCACGCGAGAGAGAAGCCAGAT
GCTGGATTTCTGCTGTGTGTTATGTGAAAGCGGAGAGGGGCGTGCGGGCC
GTTCTGGTGCGCACGTGTGGTGTGTGTGATTGTGATGTGTTTCCGTGGGT
ATGGGTGTGGGTTGCAGCCCGGTGGGACCGCCAGACTGTGTGTCTGCTTT
GGAGGAACAAGCAGCAGCGAGGCAGCCGTGGCATGAAAAACGTATGTTGT
TGTTGTTGTTGTTGTTGTTGTTCGAAAAACAAAAATTGGAAACAAACAAA
ACCAAGCCAAACTCGGAAAACCAAACAGAGCACAGAACCAAGACAAACCA
AGGCAAAAACCAGAGCGCAGAGCCCAGCAAAGAGTGATGCAGTCTGAGAG
GAAAAAAATAAAACGAAAAGAAGGCAGGCAAGGGAATAGAAAGAGAAAAA
GAAAGACAACAGTCGGTTTAAAGAGTCAGGGAGGGTAAAACCAAGATGAA
GCAGGGAAATAAACGAAACGAGAAAAAAGAAACGGGGAGCAGGGCAAAAA
AAAAAGGGAGATCGGAAAGAGAAAAAACAAAAAGGGCATGCATCAGTCGC
AAACATGTCTCGCCACGAGGTCTGCCTGTTGGCGCTTGCTCTCCTCATAC
GCACTCATGCCTCCCGTCACCGGCACCACCGAACTCAGAGTTGCCTCTGC
CCTACGTCTTTGGCAGCAGCAACACCGCTACGTGATTTCTACCCTACAGG
TTTTTCAATCCGACCAACCCGCAGCTTGGCTTTGGGTTGCTTCTTCTGCC
GCGCAACTTTATCCCCATTACTACCCCGTATTCCTCCTCTCGTATGTCCC
CGCCATCCGTTCTCCCTCTCTTGGCCAAGGCCTGTTCCTCAGCTGCGTCC
CTCTCCCTCTTCAGCCGACGTGTCCTTTGAAGTCCCCCTCTTTCTTGAAC
CACTCGTGCAGGAACCGCCCCACACCCTCATCGATCCTGTCGTACCATTC
GTCCCTTCTCTTGGCATTTGCCTCCCACCCTTCCTTCTTGTTGATGGCGA
TGCCGAACGCTTCGAGATCCTCCTCCAGTCGCTTCAGCTAGTCAGACTAT
TTTCTATTTTCCCCCAGAGTACCTCGCACCCCACTCAAGTCTCCCAGCTG
ATCAATTATCGAGAGTCCCTCGTATCTCATGTGCGCGACGAATCCTGCGA
AGCATAGACGTTGCTTGCGCACGGTGGCTTCTATGCTCTCGTCGCGACCC
GCGTCGATGAGGGCTTCGGCGTAGGACTTGGGTCGGTCCGTCCTCTCCCT
CTTTTTCCTTCCGATGCAACGAAGGAGGAAGAAGTCTGCGGTACTAGATT
GGCCTTCAGGTTCCATGTGACACACACGTAGAGTAGGGTTTCCACGACCT
CGGCTTGGAGGAGTCGTACTTTGAGTCGAAGGGACGCCCCCCGACGGTCG
TAGATTGCCTGGCTGTTGCGCCGGAAGCAGTGGTGCGCTCGCTGCACCCG
GTGGGTGATCTCATCCTCGATGCTACCGTCCTCGCAGATCCCACCCCCGA
GACACACAAAGTCTTTCACTTGCCTGAACATCATCCCGGCAGCGTTGATC
GTGAACGAGAACGCCTCCATCCCTTTGGCAAGCATACACGTGGTCTCCGT
CTTGGGTTCTGATACCAACACTCCAAACCGCCCGGCCTAGCGTACGATGA
TTGGGATCATCTTCTCGAGGCTCCCAGGTGATTGAGAGACAATACATGCG
TCGTCGGCGTAGAGCATACCCCAGATGGACTCCACTGCCTCCACCCAGTT
GAGCGTTCCTCCCCTTCCCCTTCGCCACCTTCCTCTTGACCTTGGCAATG
TCCGCCATCATCTCCTCGTCCTCGCGGAACTCGTCGAAGGCGACCGTGAG
CATCGCAGCAAAGAAAAGGTTGAACAGCAGGGGTGCCAGATTGCATCCCT
GCCGGAGTTTCTATACCACATCAAACCAGTCGGAGCACGTTCCGTCTTCC
ATCCGCACGTGTGCTCTCATGCCGTCGTGGCATTGGCGGATGATCGCAAG
CATCTTTGGGGGCACTCCGAGCTGCTTGAGCACCGACCACAGCAGTAGTT
CCCGGTCGAAGGAGTCGTGGGCTTTCGTAAGGTCGATAAAACAGGCGTAC
ATTGGGGTTGACTTATTCCGTGCAAGCTCGGCAGGCGTCGAACCACGAAC
ATCGTGTCAACCGTTCAGAGGTTTGGTCGGAAACCGCTCTGTTCCTCCGG
CAGAATACCCTCTCGTTCGCAGTCACGCTTAGTCAGGTGGCGACCAGCTT
CAGGGGTATCTTGCCAGCGTGTGCCACAAGGGAGATGCTCGGGAATTGCC
GCACTCCGTCTTGTCCTTCTTGTGCAGAACCTTGATCGATGCGCCTTTCC
GCTGCTGGGGCATCCTACCCGCCTACCATATGTTCCTAATAAATGTCGTA
GAACTGCCGTAAAAGCACCCGATCTCCTTCAAGAGAAATCTCGAGTTAGC
TCCACCGGTAGCTCGTCCGGGCCTACAGCTTTCCTGTTGGCCATTCCCGG
ATGGCTTCCTGGACCTCAAACTTCGAGGGAACGTCGATGGAACTGCCTGG
TCCATCGCTCAAGGATGAATGCGGGGTCCTGCAGCAGATTTCCATCCTCG
TCCTTGATGTTCTGCGAAGTGAAGGCCATCTTCCCCTCCACATCCAATCC
CTTCGTGTTCTTGTAAGAGCCGGTCTGGCCCCTTTCATGGGCTTTCTCTT
CGAGATGACACACGAATCCCATGAAGGTCTTATTCACGGCACTGGCTCCA
CGTCGATCAAGCTGCTACCCGGCCGCTTTTTGATTGCCTCTAAGGGTTGG
GCTTTTCGGCGCACCACGAAGCTGCTTCCGGGCATCCTGCCTCTCCAGCC
ATGCCACGTGGATCTCCCGCTGCACGTCCTCACTGGCGCACCAAATCACT
AGGCAATATCTTGCCCTTGACCCCGGGGGGCAACGTCAGCGGCGGTGGAC
ATCACGGCAGTCGTCAACGCCGAAGCGTACTCATCCACAACAGTCGCACC
TTCTATGATGGGGGGAATCCTGCCTCTAAAGTCTTAGTCTTTCCAGGGGT
GGGGGTCCGCCATCAACCGTTGGTTGATGCTTGCAGGGGTGCTGCTGCTG
CTGCTGCTTCTGTCCCTCTCTCGCCGATTCGGTGCCACTCGGCCAATCAG
GCGGACGTCGACAATCACAAGGTTGTGGTCGGAGTCCGTACGGTAGACGC
GCCGTACAGAGACGTTGCGCACTAACCGCAGGTCTGCCTGGCGGGTTAAG
ATGAAATCGAGTCGGTATTCTCCCTTCCCGCGGCTGGAGCTTTCGAAAAA
GTGCGAAACCCCGCGGTTGGGTGTGCAGAAAAACGTGTCTGGGATAGAGA
ACCCACCGCCTGCTGCAGATTCCACCAGTCTCCGCCCGTTGTTGTTCCGC
GCGTCACGTCCGTATGCACCCATCACCTCATCGGGGGTGCTCTCCTCCTC
TCCCCTACCAGTCCGGGCATTCCCGTCCGTCATGACTTCGGCGTGTTCCC
GACTAGGTACCGCCTAAATGATGACCGAAATGTATATGTCGACAGCCGTG
CAGACCGTGCAAGCCTTGCCGCGTTCATTCAACCTCCCGGAAGGGGCTCA
CACCGAGGAGGTCTGTATTTGTACGCCCATGACATGACGTGGCTGCGTTG
GTTGTAGAGTGAAATTGTTTTGGGGTGCGAAGTGTCTGGGGAATGTCTCG
CCGGCGTGCTCTGATCCCGCCAGAAAGCGGTACATCCCATGCAAAATAGA
AAACAATGATGAGCCGCGAAACGGTAAAACCGCCAGGTGCTGGTATTTGG
TATCACGAAGCGGTAAAGGGTTGAGTTGACCAATCAGCGTCGCGAGAGGT
TCAAGCATCAACTTGTATTCTGGTGTACCGCTATGTGGCGTGGAACCTTG
ATGGAACACCGATTTGTGGCGTTTACGCTTATTTTTTGTTTTTTGGATGC
ACACGTTGTGGATGGGTGAGACAGAAAAAATCACACGTCTCTCGCCAAGC
ACTCCCTCCCCCCCTCCTGAAAAAAAAAGGCGGGAACGCCGGAGACAACC
AGTAGTGTAGACGCAAAGCCAGCGCTTCGATTGGATACGGCAATCGCGTC
AAGAACGTGTTTGCGTTGGATTTACCTCTGTTGGAAATAGGAGCAGCAGT
TTCACGTAAATATGCGTGGTCGGCGAGCAACCCGAGACCTATTTCAGGCA
CTCAACAATGGCATGTTTTGGGTACCACGCGCTCCCCCCCCCCACGTAGT
CCTTTGCCGATTCCCTTAACTCCGTTTGTTGTATGGGCTTGCCTCAAAAT
GCGCGGTGTTTCTCTTGCACATTTTGTCCCCCCTAGAAAACCTGGACTAG
TCCGCCGTCTCGCAGGATGCATGGCCAAGCTGGACCCCGCAGGGCCAGCA
GCACCCATTATACAAGGTTCGTCGGGGCACCAACATGTGGGCTTCATGTG
ATAATGTATCTTTGAAGTCTGGGATGTTTCATGCGGGCGATCTTTTGTTT
TTTGGCTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGACAACACACTC
CACCACAACGCAACAACGTTGTGTGCGGCTGCTAATTGTTTTTGCTGTCT
TTTAACCGGAGCAACGTCGTTGAGGCTATTCACACCGTTTACCCCTACAC
GCGAACGACGGTGTGTTCCACGGGACCCCCCCGGACCGATTTTCAGAGAC
GGACATCTGCCCAGAACGGAGGGCATCGGTGTCCAGCAGGGTGATCGGCG
TCGGAACCTTCACGCCGAGCACTCCCTTTCCGAAGGCCTTGATATCGTTT
GATGTTGGCTCCCTCTCAGTCCACTATAGGATTGAATCGTCCCAGGGTGT
GCGTGCTACACACGGTCATGTACAATAGTATCCGTGGACGTGCTGCAGCT
TCCGCTGAGTTCGCTCGCCCACAACACAAACTGTTGCTGCTTCTTACGCC
GTGTGACGTGAGCTCATCGCCGAAAACTAGTCAAGCCCGCGTGGTCGCAG
GAAAACCAAAGCATCAGCGAAAAACAGAAAGAAAAAAAAAACTTGCTGGA
ACAAGGAAGATGGAGTATGGTAACACAGCGGGGTGGAGACATTTTGGCCG
TGCCAGTTCCTCGGGTATATGCTTGTACAATGCTGTAGTTCTACCGACAG
AGAACGATCCAACAGTGTTTTGCTTTCAGATTCGCTGTCGACAGATCCAG
AGGTGGCCCTGGAGGCGAAAGTCGACCCGCTGATGGTCAAGGGCAGCACG
AGGAACAAGACAGCGTTCGAAGTCATGAAGCTCATACAAGCGGCCAAGAA
GAGCGCCTCCAAGGTGTGCGGGTGTGCGCCCCCCATTGCTCGTGTTCTTT
CGTAACCGATCAGATCGCCATGCGTCTCGTAACGATATGACTGCACCGCG
TGTTCCAAGAGCGGTGCGTCGGTTTGTCGTGTGCCGCCAGGCCGTTCCAT
CCGGTCTCTGTCTTACCGGGAACGAACAACACACTGGCGAAATATCTTAT
CGATACGAACCCCTACAGCGTACCGAACAACTACTGCCACTGGGTTCAAG
AAAATAATGGAATTTTCTTGAAGACACCGACCCGTTACGTGTGCGCGGGG
GTTGATGATACGATACAATACGATGCGATACCACGACACGGCCACCATGT
ACAGTATGTGTTGCTGAAGCAAAGTTGTTGTTGTTACTGTTGCTAATGCT
TTCTTGACATTCAAACCCGTGCCGACCTCGGCCCAGTACCTTCATATCTC
GCGTGCTGACCCAAGCGACGAGATGTGATTCACTTCCTCCGTGGTGTTGG
CACCGCCTGTTCGGTGTTCCCGGGGGGTAGATATGGGTATCTATCAGTGT
TTGACGCATACGTCAACTACGTCATCTACGGGGTCTCTGAGATATGCGAT
GGATTTTGTGGGTGATAAGTGGATGTCTGCTGCTCCTGTCTCATCAGTTG
TCCGCTCGCCTCGCTACCTCTGCGGTTTGAGCCAATAAGTATATATCCTC
CTTCGAGACGGCGTCCGCGTGAGCTAATGTGGTCACGTAGACAAGCCGGG
ACCGGTCAAATATTTGGCGTCGACATGTTTTTGCGTTTTTTTATCCCATC
TTCACACACGCCGAGTCTACTCTTTTTCGATTTCAATATGAAATCGATCG
GTCAGCAAGCCGTACGGGATGTATGATGCGTATGTCATACGCTCGCCGCG
TCTCCGCTTTCCGCGTTCTTTTTTCTCTTTGCGCACGCACGCTTTGCGGT
AGATTTCGGTTCCGGCCCTCCTGATTCACGGAGGAGACGACGACATCGCC
TGCCCGTCCGGGTCTGTGGAGATGAAGTCCTTGCTAACGGCAAGCAGCGC
CGTCGATTTAAAGGTTTGTTTGATACGCTCTGGTGTGTCTGGTATTGTTG
ACGTTGTAGATTTGGTGCTAGGGAGCCGGGTCTATGCCGTGAACTCCTGA
CGACCTACATCCAGGCTTTGCTTGTGTGATGAGTGCGAGATCTAGACAAC
GTCGCACATGACAATGAGTGCAAGTAGCCCCCCCCTGCCCAGCCGACGAG
TCTCGTCTCGCGTTTGAGAAAACGGCAATTGAAGCATCGGGCAGAGTTGC
CTTTTGTGCCAGTTGTCTATCAATTGGCAAACCAGACGGACGACGTGATC
GTTGTAGTGCTGTTATGTCTGGCAAATGAGACGATCAGCCTGAAGGTAGA
AAGAGCGTAGTGGATGGTGCAGCAGACAAGTGAAAGGCCATCGCCTTGAG
AAAACCCGAACCGTGGGGTAACTCTGCTGTGTCAGGAACAGTTACGGCGG
TGGTACCGCCTTGGCCGGGGTGTTGGTTCTAGCTATGATATGTGATGACG
TTGTCGGGTCATGTGTGATGTTGAGTTCACGCCCCCCCCCTTTCGATATG
GTGCCTACTCGTAGACGTATATAGTATACTTCGAAGTATATATGATACAG
CAGCTGCACATTCACAGGTTGTGTCTGTGGAGCATGATCCGCGTCCGCGT
CAACTTTGAAGCATTCGATTAAGTTTCAACAACAAGCACGGCGACGTGGT
GAAGAAAAGACACTATGATAGCTGCTCAATCAACTGTTTTGCTGTTACTG
TTGTTCCTTTTTGTATCATACAACGCAACGTCCTGTCATCCTCCCCAAGA
ACTCAACTGGAATGAACGGTCTTGGTTGCAGGTGTACGACGGGGCTCGGC
ACGAGGTGCTCAAGCACAAGGACAAGTTCGATAGAGTCGTTGCCGCTCTC
GACGAGCACTGGGGTTACCAGCGTTGAAAGACGTTTCGGCGGCGGGAAGG
CGTGCGCAGTGCGGGGGACCGGCACGTTTCCTGGGAAGCTTCGAACCCCC
CGCCTCCCTCTGCTGTTGTAAATAATACCGGTACATGTGTCGCGAAAGAA
GGAGGATCGCTGGCTGTATCACATCACATCATACATACTCCGGAGTACCG
TTTTTGTATCATAACAAGTGATGAAATAGTGGCCACAAGAGGAGGCCCAA
CAGGGAGATTAAGATTGTCAAGAAGTTCGATGTGTTGGATGTGGCAAACA
TGAAAGGAACGCCCAAATAAATGTTGATGGTAAAGAGGCCATCACGATCA
GCAGTAGTAGTAAGGACGGGCGCTCCGCCTCGAGAGAGAGATAGATATGC
ATGCACGTGCGGCCACCACTACGAAACTCGTTTTTGCGCGACACTCTAGG
CCTATACTGTAAGAGTTGCTGCATCAGGATCATAATCCACGGCTATGTAT
GCATCAATCATCAGCACGTACGCATTATGCCATGCATACTGCTGTAGGAC
TGTACCGGTATACCAGGTATATCTATCTCTGCCATCGCAATGACTTATTA
TTGCTGCGCTCCTGGTGGTATCAATCTATTCCCGCCGTATTTTACAAGTC
GTGTACCGCCGTGGCAACACCCATGACCCGCGGTAGTATTTACGAGGTAC
CGGTATTCACACTACAAGCGAGTCTGCTGTAGATATGATGACAAAGAAAA
TGCGTTCTTCCCAGATGAGGGTGGGGGCGCGCCCCCAGTTACAGCAGTAA
TTATCTTGTTGTCCAC
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig202:101901..131566-

>mRNA_P-littoralis_Contig202.25.1 ID=mRNA_P-littoralis_Contig202.25.1|Name=mRNA_P-littoralis_Contig202.25.1|organism=Pylaiella littoralis U1_48|type=CDS|length=993bp|location=Sequence derived from alignment at P-littoralis_Contig202:101901..131566- (Pylaiella littoralis U1_48)
ATGGCGGCTGCAACCCCGGTACCAACTGCTGAGTCGGTAACGGAGGGCCA
CGACGGTGGGCCCGAATGGGAAGGCAGAGAAAAGGCTTCGTTCGAAAGTC
GGCATGAGGGAAGGGTTTGGTACAGGAAGTGGGCCCCCCAGTCCAGCGCC
GTCGCCATGCTCTTCATCGCCCACGGGCTACATTCACACAGCGGCCGCTG
GTCGAAGGTCGCCCACCATTACACCGAGAAGGGCTATCTCGTGTTCGCGA
ACGATCATATCGGGCATGGATTGACTGTCGAGGCGGCTCAAGGGGGCAAA
TCAGGCGTCGTGTACGACTACAGGCACATGACGGACGACTTCGGACAGAT
GATCGAGGAAGTGATTGACAAGGAGGAGGACAAGACTTTGCCTGTGTTGA
TCCTGGGGCACTCTATGGGATCCCTCGTGGCCACCGTAGCGGCCAAGAAC
TGCGTCGAGCATCCCACCGTTGGTCCCCGATTCACGAAGCTCGCCCTCTC
GGGCTGTCCTCTCGTGCCTGGCCCCGGCTCCGCCAGCCCCTTTGGACTTC
GCTGGCTCTATCCCATCAACCGAAAACCTGGACTAGTCCGCCGTCTCGCA
GGATGCATGGCCAAGCTGGACCCCGCAGGGCCAGCAGCACCCATTATACA
AGATTCGCTGTCGACAGATCCAGAGGTGGCCCTGGAGGCGAAAGTCGACC
CGCTGATGGTCAAGGGCAGCACGAGGAACAAGACAGCGTTCGAAGTCATG
AAGCTCATACAAGCGGCCAAGAAGAGCGCCTCCAAGATTTCGGTTCCGGC
CCTCCTGATTCACGGAGGAGACGACGACATCGCCTGCCCGTCCGGGTCTG
TGGAGATGAAGTCCTTGCTAACGGCAAGCAGCGCCGTCGATTTAAAGGTG
TACGACGGGGCTCGGCACGAGGTGCTCAAGCACAAGGACAAGTTCGATAG
AGTCGTTGCCGCTCTCGACGAGCACTGGGGTTACCAGCGTTGA
back to top