mRNA_P-littoralis_Contig176.70.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig176.70.1
Unique NamemRNA_P-littoralis_Contig176.70.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: D8LR85_ECTSI (Protein translocase subunit SecA n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LR85_ECTSI)

HSP 1 Score: 1481 bits (3833), Expect = 0.000e+0
Identity = 783/871 (89.90%), Postives = 811/871 (93.11%), Query Frame = 2 
Query:  563 RAKTQELRDRLSKGEGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEALSALEKAIAVCKEDSP----------GEEKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNPSPK 3145
            R KT+E RDRLSKGEG DD+IEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYS DVTYATNQELGFDYLRDHLTVT+DG VQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFAT+QKIASVLEK VHYTVSEK+QSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVR  EVLIVDTFSGRVLEGRRYSDGLHQ IEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTA+TDANEL  TYGL+VVQ         R +PDVVFRNR GANAAML EVERLHKDGRPVLIGTTNV MSDQTAK          TLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALA ELLSDEDLA VPKVGE FFPC+L E+A SALEKAIA CK DS             E +SREALEGLVSAACEAGPVEGAGAVAVREAA AVKKSFADAL+EEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQ ATEDYFAGIRRTVFSFDEVMN+QRLALYRARDDV+++E+++LRELALEYSAKTCTEIVQGNSA+DGTPKAVLSDKLRQFFPL DASALSAESL AA+SKGGK+GLL+HALDQAA+ATEKKLSDIEAV+ GL+SESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFG+QGKEMF+DLLDNVRRNTVYSLQMYNPSPK
Sbjct:   75 RDKTKEFRDRLSKGEGLDDMIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSCDVTYATNQELGFDYLRDHLTVTQDGTVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATSQKIASVLEKGVHYTVSEKEQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRDTEVLIVDTFSGRVLEGRRYSDGLHQSIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAMTDANELGTTYGLQVVQ--------ERLFPDVVFRNREGANAAMLNEVERLHKDGRPVLIGTTNVGMSDQTAK----------TLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAAELLSDEDLAAVPKVGETFFPCELPEDASSALEKAIAACKGDSALFASDNDSIDAGELLSREALEGLVSAACEAGPVEGAGAVAVREAATAVKKSFADALSEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQIATEDYFAGIRRTVFSFDEVMNDQRLALYRARDDVIDKEREELRELALEYSAKTCTEIVQGNSASDGTPKAVLSDKLRQFFPLGDASALSAESLTAAYSKGGKDGLLQHALDQAAAATEKKLSDIEAVRAGLSSESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGAQGKEMFLDLLDNVRRNTVYSLQMYNPSPK 927
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A835ZJ09_9STRA (Protein translocase subunit SecA n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZJ09_9STRA)

HSP 1 Score: 1023 bits (2645), Expect = 0.000e+0
Identity = 563/958 (58.77%), Postives = 681/958 (71.09%), Query Frame = 2 
Query:  395 RAPAEVLHMGLLDDLLTSKTDPVSAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKG--EGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKD-GRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLW-------------------------------------CQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNPSPKA 3148
            R    +L MGLLD+ +    D  S+     L  Y  RV  INALED+IE LSD++LRAKT E R RL+ G  +  DDI+EEAFAVVREAAWRVLELRHYDVQL+GGL LHE KLAEMATGEGKTLVATLP YLNAL+G G V VVTANDYLARRDAETMGQVHRFLGL+VGL+Q+ M  A R+ AY+ DVTY TNQELGFDYLRD+L V++ G  Q K F +CLVDEADSILIDEARTPLIIS+ V AP QKFA A KI+ +L+K +HY V EK+Q V++TD+G+ D  ++LGKSMFD  D WAP+IINS+KAKE+F +DKEYIV+  +V IVD+FSGRVLEGRRYSDGLHQ +EAKEG+ VS Q ++ AQVTYQ+LFRSFP+L GM+GTA TDA E E TYGL V++IPTALP+ARRDYPD V+R R  +  A+L EVER H++ GRP+LIGTT+V MS+  AK+L+ERGV C+ LNA P  VERE+EIV QAGR G VTVATNMAGRGTDI+LGG+P+VMAR+R+R ALAE  L   + A +P   ++F+PC L + A +ALE A+A    D+P    +SR               VE A   A R+AAA +K  +A AL EE E V   GGLYV+GT+RHESRR+DNQLRGR+GRQGDPGA+RFFLSLDDD+FRVFG D+   IM++FRLSDD+PIE+K VS TL +VQ+A EDYFA IRR+VF +DEV+N QR ALYR R   +     D   L L+Y A+T  +IV         P A L+ K+RQFFP A A  L+ E L     KGG   +       AA+A   K  +++ V+PG   E+AR+LTLTQ+DDLW                                     C HL+ MNLLKESVSMEVFRG +PL+EF  QG+E+F DLL   RRN VYSL +YNP P A
Sbjct:   67 RGSRSLLSMGLLDNFM-KPADAPSSFETKQLKQYNERVARINALEDSIETLSDEELRAKTAEFRARLAAGTEDTLDDILEEAFAVVREAAWRVLELRHYDVQLVGGLVLHECKLAEMATGEGKTLVATLPSYLNALSGAGGVFVVTANDYLARRDAETMGQVHRFLGLTVGLVQAEMDTAARRAAYACDVTYVTNQELGFDYLRDNLAVSEAGVAQVKPFHYCLVDEADSILIDEARTPLIISKQVPAPKQKFALAAKISGILKKGMHYDVKEKEQMVIMTDRGFADTQKMLGKSMFDAADAWAPYIINSLKAKELFAKDKEYIVKDGQVQIVDSFSGRVLEGRRYSDGLHQSLEAKEGLEVSTQGKITAQVTYQSLFRSFPRLAGMSGTAATDAREFENTYGLLVLRIPTALPLARRDYPDAVYRTRDASLRALLGEVERQHEEEGRPILIGTTSVEMSELIAKELQERGVKCEVLNAKPGSVEREAEIVAQAGRKGRVTVATNMAGRGTDIILGGSPAVMARLRLRAALAERHLEAAERAALPAPADSFYPCALSDGAAAALEAAVAAAAADAP----LSRGXXXXXXXXXXXXXXVEDAVTKAARKAAALIKSEYAAALKEEGETVRAAGGLYVMGTSRHESRRIDNQLRGRSGRQGDPGASRFFLSLDDDLFRVFGADKAKGIMNAFRLSDDMPIESKAVSETLGRVQQAAEDYFASIRRSVFDYDEVLNAQRNALYRTRGAFLRAPPADADALVLKYCAETVADIVPNFLGAKADP-AGLAAKMRQFFPTAPAEMLAEEKL-----KGGDGAVRAQCEAAAAAAWRAKRDELDQVRPGPGLETARYLTLTQLDDLWIKSSYIPSTSTPPPQXXXXXXXXXXXXXXXXXXXXXXCDHLDRMNLLKESVSMEVFRGNDPLQEFKDQGRELFKDLLATARRNAVYSLFIYNPRPAA 1013
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A7S3Y5Q6_HETAK (Protein translocase subunit SecA n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3Y5Q6_HETAK)

HSP 1 Score: 896 bits (2315), Expect = 1.680e-307
Identity = 487/927 (52.54%), Postives = 631/927 (68.07%), Query Frame = 2 
Query:  395 RAPAEVLHMGLLDDLLTS---KTDPVSAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEA----LSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLA---DASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNPSPK 3145
            R    ++ MGL D +  S    +   + +N  ++  Y  RV+ IN+LE  IE LSDD L+ +   LR R++ G   D + EEAFA+VREAAWRVLELRHYDVQLMGGLAL EG+LAEMATGEGKTLVATLP +L+ALAG+G   VVTANDYLA+RDA+ MGQVHRFLGLSVGL+Q      QR+ AY+ DVTY TN ELGFDYLRD+L +T    VQ + F FCLVDEADSILIDEARTPLIIS  VD P  KF  + KI +VL+KD HY V EK Q+V  T++G  DC  IL K +FDP DPWA ++ N+VKAKE+F    EYIVR  EV IVD FSGRVLEGRR++DGLHQ +EAKEG+ ++KQS+V+  VTYQ+LF+SFP L GM+GTA T+A ELE  Y LEVVQ+PTALP+ARRDY DV++R +     A+L EV R+H+ G PVLIGTT+V  S+  A  L E G+    LNA P  ++RE+E+V QAGR+G VTVATNMAGRGTDILLGGNP+ MARI++R+  A+E+ S+++LA+ P VG  F+P +L E A     SA EK +A  K+      + +++ +E L++ A EAGP      +AVREA   +K  +A    EEKEKVL LGGLYV+GT +HESRR+DNQLRGRAGRQGDPG +RFFLSL+D+ FRVFGGD+   I+ +FRL DDIP+E K ++ +++KVQK  E+YFAGIR  VF FD+V+N+QR A+Y  R  ++  +   L +    +  +T  EI+      +GT  A LS KL+QFF      D + +S   +         + L  +  ++   A   K   ++A + G+A+ +AR+L L   D  W  HL  M  LKE   ++ F G +PL+ +      +F +L + V+ NTVYS  +YNP  K
Sbjct:   55 RRSRAMIQMGLFDSVKKSADGSSVQENISNAKLIDKYNARVEKINSLEAEIEALSDDALKERAAALRARVAGGAALDAVTEEAFALVREAAWRVLELRHYDVQLMGGLALAEGRLAEMATGEGKTLVATLPVFLHALAGRGAH-VVTANDYLAKRDADLMGQVHRFLGLSVGLVQGPSTPEQRRAAYACDVTYLTNAELGFDYLRDNLAMTPGEVVQGRPFNFCLVDEADSILIDEARTPLIISEQVDGPKVKFENSAKIVNVLQKDYHYVVDEKGQTVQFTEEGMTDCANILKKDLFDPNDPWAAYLQNAVKAKELFAAGNEYIVRDGEVAIVDQFSGRVLEGRRFADGLHQALEAKEGLAITKQSKVIGTVTYQSLFKSFPVLAGMSGTAKTEAAELEEIYELEVVQVPTALPVARRDYDDVIYRTKEAKVRALLGEVARVHELGEPVLIGTTSVEDSEAVAAQLREEGIEVAVLNAKPGNIDREAEVVAQAGRVGRVTVATNMAGRGTDILLGGNPAAMARIQLRNTFAKEVASEQELAMCPDVGPGFYPAELSEAAKGLLASATEKVVASMKKG-----EATKDEIEELITVASEAGPSSDPAVLAVREAFNTIKAEYAKPCKEEKEKVLALGGLYVLGTEKHESRRIDNQLRGRAGRQGDPGGSRFFLSLEDETFRVFGGDRFDNILKTFRLGDDIPLEAKPITESVEKVQKQVEEYFAGIRLQVFQFDDVLNDQREAVYARRSQILASDDGQLMDGIKVFCLETANEIIPNYVTKEGTDAAKLSAKLKQFFTTITDLDEAKMSTMKM---------DALAPYVHERVLGALAAKAGQLDAQRAGMAASAARYLALVNYDQQWQAHLGAMAALKEGAGIKRFGGEDPLDMYKRDSFTLFQNLFNTVKLNTVYSYFIYNPQQK 966
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: W7TYL7_9STRA (Protein translocase subunit SecA n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TYL7_9STRA)

HSP 1 Score: 888 bits (2295), Expect = 5.410e-304
Identity = 495/930 (53.23%), Postives = 640/930 (68.82%), Query Frame = 2 
Query:  410 VLHMGLLDDLL--------------TSKTDPVSAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDDI----IEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAV---QTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNP 3136
            VL MGLLD L               TS   P    N  ++  YE RV  INA+ED  E LSD++LRAKT E + RL + EG +D+    +EEAFAVVREAAWRVL+LRHYDVQLMGG+AL+EG+LAEMATGEGKTLVATLP YLN L G G  LV TANDYLARRDAE MGQVHRFLGLSVGLIQ+ M   +R+EAY+ DVTY TN ELGFDYLRD+L +T+D  V   +  +  FCLVDEADSILIDEARTPLIIS+ ++AP  K+  A+K+   L+  VHY V EK Q+VVLTD+G  DC+++LGKS+FD +DPW  F+ N +KAKE+ TRDK+YIVRG ++ IVD FSGRVLEGR+YSDGL Q I+ KEG+  S QSQV+A +TYQ+LFR F KL GMTGTA+TD  +   TY L VV IPTALP AR+DYPD +FR++ G   A+L E  R HK G+P+LIGTT+V  S+  A  L+E  + C+ LNA P+ +E+ES+IV QAGRLG VTVATNMAGRGTDILLGGNP++MARI+++  LA  +L  +  A   +  ++FFP +L   A   ++ A+A+ KE   G E MS   +E +V+ A E  PV     +A+R+A   VK+ + D LA+EK +V  LGGLYV+GT RHESRR+DNQLRGRAGRQGD GATRFFLSL+DD+FR+FGGD++  +MD+FR+ DD+PIE+  VS  LDKVQ+  E Y+  IR+ + +FD V+++QR  LY  R  +V  +   L  +  +++ +T  +IV  N   +   K V  +K+RQFFP         E      ++      +  A+D+     E+K +D+   K  L +E+ R+LTL Q+D+LW Q LE +  LKE   ++ F+G +P+ E+  +    F DL+ NVRRNTVYSL  Y P
Sbjct:   74 VLTMGLLDGLKKAMTSAGVASGAIDTSMNGPPEMENAALIKQYEERVVRINAMEDAFEKLSDEELRAKTTEFQ-RLIR-EGKEDVTGPLLEEAFAVVREAAWRVLQLRHYDVQLMGGMALNEGRLAEMATGEGKTLVATLPAYLNGLTGNGAFLV-TANDYLARRDAELMGQVHRFLGLSVGLIQTGMTYPERREAYACDVTYVTNVELGFDYLRDNLALTEDETVLRARPLERAFCLVDEADSILIDEARTPLIISKQINAPQPKYGAAKKLVDFLKPGVHYEVDEKAQNVVLTDQGVKDCEKVLGKSLFDLQDPWMSFVTNGLKAKELLTRDKDYIVRGQDIAIVDRFSGRVLEGRKYSDGLQQSIQIKEGLPCSSQSQVIATITYQSLFRLFYKLAGMTGTALTDYKDFVTTYNLPVVAIPTALPNARKDYPDAIFRSKEGKLRALLRETRRAHKTGQPILIGTTSVETSELIADALQELNISCKVLNARPENIEKESQIVAQAGRLGAVTVATNMAGRGTDILLGGNPALMARIKLKLELARGVLGSQAGA---EAMDDFFPVELSPAADQLIQAAVALAKEI--GAEGMSLFKIEEIVAVAAENSPVTNPVLLALRDAYDEVKRQYQDVLADEKVQVKRLGGLYVLGTERHESRRIDNQLRGRAGRQGDSGATRFFLSLEDDVFRIFGGDKIQSVMDTFRVGDDLPIESPTVSEALDKVQQQVESYYFDIRQKLLAFDNVISKQRQELYEIRAAIVAHDAAQLHTMMRDFARQTTEDIVDANFETEKRSKIV--EKVRQFFPTLGPVD---EKEIMKMTRQQTSACMHEAVDKT---LERKKADLATHKAELYAETVRYLTLLQIDNLWAQQLEALEQLKEISVLQRFKGADPMLEYEKRTSAFFRDLIGNVRRNTVYSLFQYQP 987
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A6U4GUK1_9STRA (Protein translocase subunit SecA n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A6U4GUK1_9STRA)

HSP 1 Score: 842 bits (2176), Expect = 5.780e-287
Identity = 469/907 (51.71%), Postives = 619/907 (68.25%), Query Frame = 2 
Query:  473 NVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTV-TKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVP-CQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLS--DEDLAVVPKVGENFFPCDLLEEALSALEKAI-AVCKEDS---PGE-------EKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGR-NPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNPSP 3142
            N  VL  YE R+  INA+ D +  LS  +LR+KT E ++RL  G   DDI+EEAFAVV+EAA+R L +RHYDVQLM G+ALHEG LAEMATGEGKTL ATLP YLNAL G+G   VVTANDYLA+RDAE+MGQVHR LGLSVGL+Q+ M E +R EAY +DVTY  N E+GFD+LRD+L + +   A+  +   FCLVDEADSILIDEARTPL+I++   AP +K+  A K+A+ L+  VHY V  K ++  LTD+G+ D  R LG K +FDP+DPWAPF++N+VKAKEIF +D +YI+R +E+ IVD+FSGRVLEGRR+SDGLHQ +EAKEGI V  QSQV A VTYQ LF+ FPKLCGM+GTA + ++E    Y L+ +QIPT LP+ARRDYPDV F++  G   A+  EV      GRPVL+GT  V  S+   + L+E+G+     LNA P+  +RE+ I+ QAGR G VTV+TNMAGRGTDI+LGGN   +AR+ VRDA+    L   D+++  +  + E   PC + +EA + +  A+  +C  D    P +       E+   + +E LV+ A E  PV+    +A R A +AVK  FA  L  E+E+V+ LGGLYVVGT + ES RVDNQLRGR+GRQGDPGA+RFF+SLDDD+ R+FG D++   M++FR+ DD+ IE+KQVS  LD+VQ+  E+YFAGIRR V  FD V+  QR  LY  R  ++  + D ++    ++   T TEI + N A D    A +   L+ +FP+     +S E L    +KG K GL   A + A +A + K + +E  +  LA  +AR+L LTQ D+LW + L  MNLLKE+V M  ++G  +PL+E+  +G ++F DLLDNVRRNTVYSL +Y P P
Sbjct:   41 NAKVLTGYEKRIAKINAMGDEMAALSPKELRSKTAEFKERLGAGAKEDDILEEAFAVVKEAAFRALGMRHYDVQLMAGMALHEGYLAEMATGEGKTLAATLPAYLNALTGEGA-FVVTANDYLAKRDAESMGQVHRILGLSVGLVQAGMTEEERAEAYLSDVTYVNNAEVGFDFLRDNLALDSTQVALTRRPLHFCLVDEADSILIDEARTPLVIAQKSVAPGEKYEAAAKLAAALKIGVHYEVDMKGKTAELTDRGFADASRALGGKDLFDPKDPWAPFVVNAVKAKEIFKKDVDYILRDDEICIVDSFSGRVLEGRRWSDGLHQSVEAKEGIKVDSQSQVTATVTYQNLFKMFPKLCGMSGTAASSSDEFIDVYKLKTLQIPTNLPLARRDYPDVAFKSVDGKFTAVAREVAGAAATGRPVLVGTATVEASELLVEKLKEKGLENVSVLNAKPEAAKREASIIAQAGRAGAVTVSTNMAGRGTDIILGGNAPALARLYVRDAIVAVALKGDDQEMDKLSALDEESLPCAVSDEAQALVRDAVDMICGSDGLLPPRDAAAADLSEETGADDIEELVALAAEKAPVKNPQVLAARAAISAVKDDFAKVLDAEREEVMSLGGLYVVGTEKAESPRVDNQLRGRSGRQGDPGASRFFVSLDDDMMRIFGADKMKGFMETFRVPDDMAIESKQVSKALDRVQQGAEEYFAGIRRQVSEFDGVLQGQREQLYDTRRGLLESDADAVKSRVGKWFTDTATEIAEAN-AEDAAKAAKV---LKAYFPVVK---VSEEDLEGYVAKGDKAGLKARATEIATTALDAKWAALEKHRAELAGSAARYLALTQADNLWAEQLTRMNLLKEAVIMRKYQGGVDPLDEYRVEGGKLFDDLLDNVRRNTVYSLMVYQPGP 939
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: L1I7Z8_GUITC (Protein translocase subunit SecA n=2 Tax=Guillardia theta TaxID=55529 RepID=L1I7Z8_GUITC)

HSP 1 Score: 836 bits (2159), Expect = 1.800e-283
Identity = 452/892 (50.67%), Postives = 618/892 (69.28%), Query Frame = 2 
Query:  479 DVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMFDPRDPWAPFIINSVKAKEIFTRDKEYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDED-----LAVVPKVGENFFPC-DLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVE-GAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMY 3130
            ++LV  E++   IN LE+ IE L+D+ LRAKTQE + RL KGE  +DI++EAFAVVREAAWRVL+LRHYDVQ++GG+ LH+ KLAEMATGEGKTLVATLP YLNAL+GKG V VVT NDYLARRDAE MGQ+HRFLGL+VGLIQ+ M   +R+  Y  D+TY TN ELGFDYLRD+L +  +  V T+ F FC+VDEADSI+IDEARTPLIIS    APA K+A + KIA+VLE+ VHYTV EK QSV LT++G+ D ++IL  K +F+P+DPW+P+IIN++KAK +F +D +Y+VR NEV+IVD F+GRVLEGRR+S+GLHQ +EAKEG+  S ++Q +A +TYQ+ FR FPKL GMTGTA T+A E    YGLEV+ IPTALP+ARRD PD  FR + G   A++ ++ R H  G+P+LIGTT++  S+Q +K + E  VP + LNA P++V RE+EIV QAGR   +T+ATNMAGRGTDILLGGN    A+ R+   LA  L+  ++      A+  K      P  +L E+A++ +++A+            M    +E L++ A E GPVE G+    +REA   VK+ +     +EKE+V +LGGL+V+GT RHESRR+D QLRGRAGRQGDPG++RFFL+LDD +F+VFGG  +  ++D  ++ +D+P+E K VS  LD VQ+  E+YF GIR+ +F +DE+++ QR ++Y  R   V  + D +    LEY   T  EIV           + L++KL QFF   D   L    +AA  S+     +++  +++     E+K  +++AVK   + E  R++ LTQ+D LW QHL++++ LK+ + +  ++G +P  EF  +G E++ D+L  VRRNTVYS   Y
Sbjct:   90 ELLVRVESK---INVLEEQIEKLTDEQLRAKTQEFQQRLRKGETEEDILDEAFAVVREAAWRVLKLRHYDVQMVGGMVLHQRKLAEMATGEGKTLVATLPSYLNALSGKG-VHVVTVNDYLARRDAENMGQIHRFLGLTVGLIQAEMKPEERRANYGCDITYVTNSELGFDYLRDNLAIKPEDIVLTRPFNFCIVDEADSIMIDEARTPLIISEKTAAPAAKYANSAKIATVLEEKVHYTVDEKSQSVTLTERGFSDVEKILNVKDLFNPKDPWSPYIINALKAKSLFKKDVQYVVRANEVMIVDEFTGRVLEGRRWSNGLHQSVEAKEGLKPSSETQTVASITYQSFFRLFPKLSGMTGTARTEAKEFGDIYGLEVLSIPTALPVARRDNPDATFRTQAGKWKAVMGDIARRHTKGQPILIGTTSIAASEQLSKLMTELEVPHEVLNAKPEVVTRENEIVAQAGRAFAITIATNMAGRGTDILLGGNSGFFAKKRIMQKLAPALVDKKNGLPSKEAMEIKQNPACIPLPELSEQAVNKIDEAVQAAASALGSLPSMLD--VESLLAVAAETGPVEAGSHLEKLREAYRVVKEEYDVRCKKEKEEVEDLGGLHVIGTERHESRRIDQQLRGRAGRQGDPGSSRFFLALDDRLFQVFGGTSIDGLLDKLKVEEDMPLEAKSVSDALDGVQRRVEEYFYGIRKEMFKYDEILSSQRESIYSMRKKFVTEDSDYMSNTILEYCLDTAEEIVPNYIKEGKLDASGLANKLAQFF---DGIQLKDSDIAALKSRDEVRQVVRRQVEEV---LERKEGELDAVKESFSFEIERYIILTQVDLLWKQHLKDIDFLKDFIGLRAYKG-DPFIEFQQEGFELYQDMLKAVRRNTVYSFFQY 968
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A7S3L875_9STRA (Protein translocase subunit SecA n=1 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3L875_9STRA)

HSP 1 Score: 829 bits (2142), Expect = 2.070e-281
Identity = 467/924 (50.54%), Postives = 634/924 (68.61%), Query Frame = 2 
Query:  419 MGLLDDLLTSK-TDPVSAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFD-DIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQ---TKDFF-FCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMF--DPRD--PWAPFIINSVKAKEIFTRDKEYIVRGNE------VLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVEGAG--AVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDG---TPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQ 3124
            MG+ +D L+ + T+  S AN   L +   RV  INALE  +EDL DD+L AKT E + RL+ GE  +  ++EEAFAVVREAAWRVLELRHYDVQL+GGL LH+G+LAEMATGEGKTLV+TLP YLNAL G+ T  V+T NDYLARRD E MGQVH+FLGLSVGLIQS M   QR+ AY+ D+ Y TN ELGFDYLRDHL +T    V      +F  FC+VDEADS+LIDEARTPLIIS+ V APA +++ A ++   L+KDVHYTV  K++++VLT++GY + +R LG  S+F  DP D   WAPFI N+VKAKE+F +D EY +  ++      V I+D F+GRVL+GRR+SDGLHQ IEAKEGI VS+QS V+A+VTYQ+LFR F +L GMTGTA  DA ELE TY L V  +PTALPIARRDYPDV F+ R  AN A++ E+E   + GRP L+GTT+V  S+Q  + L+ER +  + LNA+P    RESEI+ QAGR GVVTVATNMAGRGTDILLGG P+ MARI+ R  L    +  +     P+  +++FPC L ++    L+ A +  K+ S G E  S E LE L++ A +    E      +A+R+AA AVK  +A+ L+EEK++V + GGLYV+GT RHES R+D QLRGRAGRQGDPG++RFF+S  DD+F +FGGD +TK+++ FR+S+D+P++  Q++  L+KVQ A E+ +  +R+ +F+FDEV+N QR A+Y+ R D++  + D   E+  +Y+A T  +IV+  +A +G    PK +  +K+ QFFPL+ A    A+    +     K   L+  +D+  S    ++ ++         +S +++TL  +D+ W  HL+ M  LKE+V +  ++GR+P+ E+ +    +F  L D +R N+VYSLQ
Sbjct:   51 MGMFEDFLSGRDTEKRSKANSQYLATLAKRVDKINALETAVEDLGDDELTAKTAEFQKRLADGEDLNGSLLEEAFAVVREAAWRVLELRHYDVQLLGGLILHDGRLAEMATGEGKTLVSTLPAYLNALTGQ-TSFVITVNDYLARRDMEKMGQVHKFLGLSVGLIQSGMTVEQRRAAYACDIVYVTNSELGFDYLRDHLALTPQETVLPGGAGEFTGFCVVDEADSVLIDEARTPLIISKQVQAPANRYSVANQLGQALKKDVHYTVDLKNKNIVLTEQGYRESERALGVDSLFSIDPNDGSAWAPFIANAVKAKELFNKDVEYTITNDKDGNPIGVGIIDAFTGRVLDGRRWSDGLHQSIEAKEGIAVSEQSSVIAKVTYQSLFRQFSRLSGMTGTATADAAELEQTYNLPVTPVPTALPIARRDYPDVAFKTRKAANEALVREIEGAREAGRPCLVGTTSVAQSEQLVELLKERDIHAELLNASPKNAPRESEIIAQAGRAGVVTVATNMAGRGTDILLGGCPTTMARIQTRSTLLGAGVLAKGQVEPPQPPDDYFPCPLNDDVSIMLKSAASSVKK-SLGSEITSIE-LEELLTIAFDTTEAEDDPEYVIALRDAADAVKALYAEVLSEEKDQVKKAGGLYVMGTNRHESSRIDQQLRGRAGRQGDPGSSRFFVSFQDDMFVIFGGDSLTKMLEMFRVSEDMPVDAPQITEALNKVQAAVEEKYREVRKEIFNFDEVLNGQRKAIYKRRRDILFSDMDKSLEMMKQYNAHTVADIVKAQTAANGDLNAPKLI--EKMTQFFPLSTAVVTEADLKGMSQEDATK--YLQVVVDEVFSQKSSQVKNL--------GKSCQYITLVTLDNAWSAHLQAMENLKEAVLLRSYQGRDPVSEYQNDAFALFEGLEDTMRFNSVYSLQ 959
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A7S2PR94_9STRA (Protein translocase subunit SecA n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2PR94_9STRA)

HSP 1 Score: 817 bits (2111), Expect = 1.970e-276
Identity = 477/945 (50.48%), Postives = 642/945 (67.94%), Query Frame = 2 
Query:  404 AEVLHMGLLDDLLTSKTDPV-SAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDD-IIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAV---QTKDFF-FCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMFD-PRDP---WAPFIINSVKAKEIFTRDKEYIVRGNE--VLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERL---HKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEE-LLSDEDLAVVPK-VGENFFPCDLLEEALSAL-EKAIAVCKEDSPGEEKMSREALEGLVSAACEA--GPVEGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKA-VLSDKLRQFFPLADASALSAESLAAAHSKGGKEG----LLKHALDQAASATEKKLSD---IEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSL-QMYNPSPKA 3148
            +  L MG ++D +  + D    AAN   + + + RV  IN LE TIE+L D+++ AKT+E R+RL+KGE  +  I+EEAFAVVREAAWRV+E RHYDVQLMGGL LH+G+LAEMATGEGKTLV+TLPCYLN+LAG+ +  V+T NDYLARRD E MGQVHR+LGLSVGLIQ+ M E +RK+AYS DV Y TN ELGFDYLRDHL ++    V    T +F  FC+VDEADS+LIDEARTPLIIS+ V APA K+  A  +A  L++ VHYTV +K+++ V  ++GY DC++ LG  S+F+ P D    WAPFI+N+VKAKE+F RD EY V  +   V I+D+F+GRVL+GRR+SDGLHQ IEAKEGI VS+QS+V+A+VTYQ+LFR F +L GMTGTA++DA ELE TY L+V  +PTALPIARRDYPDV ++ R  AN A++ EV        DGRP L+GTT+V  S+   K L + G+  + LNA+P+   RE EI+ QAGR GVVTVATNMAGRGTDILLGG PS MAR++ R  L +E +LS E+ +  P    ++++PCD+ ++A   L + AIAV KE     + ++    + +++ A +   G  + A  V +R+A  AVK+ F + L+ EKE V   GGLYV+GT RHES R+D QLRGRAGRQGDPG +RFFLS +DD+F +FGGD +  I+ +FR+S+D+PIE  QV+  LDKVQ A E+ +  IR  +  FD+V+++QR   Y+ R  ++    +   E   +Y+  T  +IV+     DGT K   + +K+ QFFP      +SAE +A     G KE      L  A+++   A  K+L +   ++    G  + SA ++TL  MD+ W  HL+NM  LKE+V +  ++  NP +E+ S+   MF  LLD +R NT++SL Q   P+P A
Sbjct:   59 SSALSMGFMEDFVVGQDDKTRKAANDKYIETLQERVNRINDLEPTIEELGDEEMIAKTKEFRERLAKGEDINGPILEEAFAVVREAAWRVIEQRHYDVQLMGGLILHDGRLAEMATGEGKTLVSTLPCYLNSLAGEPS-FVITVNDYLARRDMEKMGQVHRYLGLSVGLIQAGMTEEERKKAYSCDVVYVTNSELGFDYLRDHLALSPAQTVLPGNTGEFKGFCVVDEADSVLIDEARTPLIISKQVPAPANKYRAANTLAENLKEGVHYTVDQKNKNCVFNERGYKDCEKALGVASLFEEPSDASGAWAPFILNAVKAKELFNRDIEYTVLPDNGGVGIIDSFTGRVLDGRRWSDGLHQSIEAKEGIEVSEQSKVIAKVTYQSLFRQFTRLSGMTGTAMSDAAELEFTYDLKVTPVPTALPIARRDYPDVAYKTRNAANNALVKEVVAAGGGESDGRPCLVGTTSVMQSEAIVKALADEGIKAELLNASPENAAREGEIIAQAGRPGVVTVATNMAGRGTDILLGGCPSTMARLKCRAFLFDEGILSAEERSFYPPDPSDDYYPCDIGDDAKFMLKDAAIAVKKEFG---DDLTAIRFDEILTVATDTTEGEDDPAYIVKLRDATQAVKEIFQEELSPEKEAVKSRGGLYVMGTNRHESSRIDGQLRGRAGRQGDPGTSRFFLSFEDDMFVIFGGDGLKNILKTFRVSEDMPIEAPQVTDALDKVQLAVEEKYRDIRGQILDFDDVLDDQRKLFYKRRQKLLFSTPEATIETVDQYNKDTVADIVKAQVNEDGTVKVDTVMEKIGQFFPSV-IPVISAEDIA-----GSKEEEVITFLNVAVEEIFKAKVKELDEKAKLDGRPTGSLARSANYITLISMDNAWSDHLQNMENLKENVFLRKYQDLNPADEYKSESFAMFEGLLDKMRLNTIFSLWQSLAPAPVA 993
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: B8BZD8_THAPS (Protein translocase subunit SecA n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8BZD8_THAPS)

HSP 1 Score: 814 bits (2102), Expect = 4.460e-276
Identity = 466/920 (50.65%), Postives = 628/920 (68.26%), Query Frame = 2 
Query:  470 ANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDD-IIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAV---QTKDFF-FCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMFD-PRDP---WAPFIINSVKAKEIFTRDKEYIVRGNE--VLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERLH---KDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEE-LLSDEDLAVVP-KVGENFFPCDLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPVEGAG-AVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGTPKA-VLSDKLRQFFP-------LADASALSAESLAAAHSKGGKEGLLKHALDQAASAT---EKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSL-QMYNPS 3139
            AN   +   + RVK IN LE T+E+L D+++ AKT E R+RL KGE  +  I+EEAFAVVREAAWRV+E RHYDVQL+GGL LH+G+LAEMATGEGKTLV+TLPCY+NAL GK +  V+T NDYLARRD E MGQVHR+LGLSVGLIQ+ M E +RK+AY+ DV Y TN ELGFDYLRDHL ++    V    T +F  FC+VDEADS+LIDEARTPLIIS+ V APA K+  AQ +A  L++ VHYTV  K+++ VL ++GY DC++ LG +S+F+ P D    WAPFI+N+VKAKE+F RD EY V  N   V I+D+F+GRVL+GRR+SDGLHQ IEAKEGI VS+QS+V+A+VTYQALFR F +L GMTGTA++DA ELE TYGL+V  +PTALPIARRDYPDV F+ R   N A++ EV  +     +GRP LIGTT+V  S+   K L + G+  + LNA P+   RE EIV QAGR GVVTVATNMAGRGTDILLGG PS MAR++ R  L E  +LS+E+ +  P    + ++PCD+ E+ L  L+ A A  K++  G++  + +  E L  A       E  G  V +R+AA +V++ F + LA EK+ V   GGLYV+GT RHES R+D QLRGRAGRQGDPG +RFFLS +DD+F +FGGD +  ++ +FR+SDD+P+E  QV+  LDKVQ A E+ +  IR  +F FD V+N+QR   Y+ R +++    +D  ++   Y+ +T  +IV+  + +DG+ K   + +K+ QFFP       + D S L  + + +          L  A+++  +A    ++  +  +   PG  + SA ++TL  MD+ W  HL+NM  LKE+V +  ++  +P +E+  +   +F  LLD +R NT++SL Q  +PS
Sbjct:   12 ANEKYIAELQERVKRINELESTVEELGDEEMVAKTMEFRERLKKGEDINGKILEEAFAVVREAAWRVIEQRHYDVQLLGGLILHDGRLAEMATGEGKTLVSTLPCYINALTGKPS-FVITVNDYLARRDMEKMGQVHRYLGLSVGLIQAGMKEEERKKAYACDVVYVTNAELGFDYLRDHLALSPAQTVLPGNTGEFEGFCVVDEADSVLIDEARTPLIISKQVPAPANKYRAAQTLAENLKEGVHYTVDLKNKNCVLNERGYKDCEKALGVQSLFEEPADASGAWAPFILNAVKAKELFNRDIEYTVLPNNAGVGIIDSFTGRVLDGRRWSDGLHQSIEAKEGIEVSEQSKVIAKVTYQALFRQFTRLSGMTGTAMSDAAELEFTYGLKVTPVPTALPIARRDYPDVAFKTRDAGNRALVKEVVNVGGGTPEGRPCLIGTTSVLQSEAIVKALADEGIKAELLNALPENAAREGEIVAQAGRPGVVTVATNMAGRGTDILLGGCPSTMARLKTRAVLFENGVLSEEERSFYPPSPKDEYYPCDVDEDTLFMLKDAAAALKKEF-GDDLTAIKFDEILTVATDTTEGEEDPGYIVKLRDAAQSVREIFKEKLAPEKDVVKSRGGLYVMGTNRHESSRIDGQLRGRAGRQGDPGTSRFFLSFEDDMFVIFGGDGLQNVLKTFRVSDDMPVEAPQVTDALDKVQLAVEEKYRDIRGQIFDFDNVLNDQRRIFYKRRQEMLASNSEDTLKIMDSYNKQTVADIVKAQTNDDGSVKVDKVMEKIGQFFPSVLPVVTVEDISGLKQDEVVS---------FLNVAVEEIFNAKVEEQESKAKADGRAPGSLARSANYITLVSMDNAWSDHLQNMENLKENVFLRKYQNLDPADEYKIESLALFEGLLDKMRLNTIFSLWQSLSPS 920
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BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Match: A0A1Z5J8Q9_FISSO (Protein translocase subunit SecA n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5J8Q9_FISSO)

HSP 1 Score: 815 bits (2104), Expect = 1.300e-275
Identity = 467/930 (50.22%), Postives = 636/930 (68.39%), Query Frame = 2 
Query:  419 MGLLDDLLTSKTDPV-SAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSKGEGFDD-IIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGEGKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVGLIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHL------TVTKDGAVQTKDFFFCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTVSEKDQSVVLTDKGYDDCDRILG-KSMFDPR---DPWAPFIINSVKAKEIFTRDKEYIV----RGNE--VLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQVTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYPDVVFRNRVGANAAMLTEVERL---HKDGRPVLIGTTNVRMSDQTAKDLEERGVPCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVMARIRVRDALAEE--LLSDEDLAVVP-KVGENFFPCDLLEEALSALEKAIAVCKEDSPGEEKMSREALEGLVSAACEAGPV--EGAGAVAVREAAAAVKKSFADALAEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLDDDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGIRRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQGNSANDGT---PKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHALDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLKESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSL 3121
            MG+ +D ++ +        N   L   +TRV+ INALE ++E+L DD+L AKTQE + RLS+GE  +  I+EEAFAVVREA+WRVLELRHYDVQL+GGL LH+G+LAEMATGEGKTLV+TLP Y+NAL G+ +  V+T NDYLARRD E MGQ+HRFLGL+VGL+Q+ M E QRK+AY+ DV Y TN ELGFDYLRDHL      TV   GA +   F  C+VDEADS+LIDEARTPLI+S+ V APA K+A A  IA  L+  +HYTV  K+++ VLT+ G+ + +  LG  S+F  +     WAP+I N+VKAKE+F +D EY +     G +  V I+D+F+GRVL+GRR+SDGLHQ IEAKEGI VS+QS+V+A+VTYQALFR F +L GMTGTA++DA E E TYGL+VV +PTALPIARRDYPDV F+ R  AN A++ EV  +      GRP LIGTT+V  S++  K L E G+  + LNA+P    RESEI+ QAGR GVVTVATNMAGRGTDILLGG P+ MARI+ R  L EE  ++S ++LA+VP    E+++P D+ E++++ L+ A    K      + +S   L+ +++ A +      E      +REAA ++K++F + LAEEK  V   GGLYV+GT RHES R+D QLRGRAGRQGDPG++RFFLS +DD+F +FGGD++  +++ FR+S+D+P+E +QV+  L+KVQ A E+ +  IR  +F+FD+V+N QR  +Y+ R D++    D+   +  +Y+ +T ++IV+G +  DGT   PK  L  K+ QFFPL       A+ +     K   E  +K A+++  +      S +E  +P L   SA + TL  MD+ W  HL+ M  LKESV +  ++ R+P+ E+ +Q   +F +L D +RRN V+SL
Sbjct:   53 MGMFEDFVSGQDKNARQQENAAYLQQLQTRVERINALESSVEELGDDELIAKTQEFKQRLSQGEDINGKILEEAFAVVREASWRVLELRHYDVQLLGGLILHDGRLAEMATGEGKTLVSTLPAYVNALTGQSS-FVITVNDYLARRDMEKMGQIHRFLGLTVGLVQANMNEQQRKQAYACDVVYVTNSELGFDYLRDHLALSPEQTVLPGGAGEFSGF--CVVDEADSVLIDEARTPLIVSKQVAAPANKYAAANAIAGALKAGLHYTVDLKNKNCVLTEVGFKESEAALGVDSLFTIQADGSAWAPYITNAVKAKELFNKDVEYTILKDGNGKDIGVGIIDSFTGRVLDGRRWSDGLHQSIEAKEGIEVSQQSKVIAKVTYQALFRQFSRLSGMTGTAMSDAKEFEQTYGLKVVPVPTALPIARRDYPDVSFKTRAAANRALVKEVVNVGGGQPGGRPCLIGTTSVAQSEELIKALAEEGIAAELLNASPQNAPRESEIIAQAGRAGVVTVATNMAGRGTDILLGGCPTTMARIKTRSVLLEEGVVVSKDELALVPPSPDEDYYPADVDEDSITTLKDAAKAMKRAFA--DGVSAIELDDILTVAFDTTEADDEPEYVTLLREAADSIKETFKEVLAEEKAAVKAKGGLYVMGTNRHESSRIDLQLRGRAGRQGDPGSSRFFLSFEDDMFVIFGGDKLKNMLNMFRVSEDMPVEAEQVTEALNKVQNAVEEKYREIRAEIFNFDDVLNSQRSVIYKRRRDILFSSSDESLRIIKDYNMQTVSDIVKGQTDKDGTVNVPK--LLQKVYQFFPLVQPFVSEADLVG--KDKSTIETFVKVAVEEVFN------SKLET-QPNLV-RSANYATLVTMDNAWSDHLQAMENLKESVILLKYQNRDPVSEYKNQSFNLFKNLEDTMRRNAVFSL 965
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig176.70.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LR85_ECTSI0.000e+089.90Protein translocase subunit SecA n=1 Tax=Ectocarpu... [more]
A0A835ZJ09_9STRA0.000e+058.77Protein translocase subunit SecA n=1 Tax=Tribonema... [more]
A0A7S3Y5Q6_HETAK1.680e-30752.54Protein translocase subunit SecA n=1 Tax=Heterosig... [more]
W7TYL7_9STRA5.410e-30453.23Protein translocase subunit SecA n=2 Tax=Monodopsi... [more]
A0A6U4GUK1_9STRA5.780e-28751.71Protein translocase subunit SecA n=1 Tax=Phaeomona... [more]
L1I7Z8_GUITC1.800e-28350.67Protein translocase subunit SecA n=2 Tax=Guillardi... [more]
A0A7S3L875_9STRA2.070e-28150.54Protein translocase subunit SecA n=1 Tax=Amphora c... [more]
A0A7S2PR94_9STRA1.970e-27650.48Protein translocase subunit SecA n=1 Tax=Skeletone... [more]
B8BZD8_THAPS4.460e-27650.65Protein translocase subunit SecA n=1 Tax=Thalassio... [more]
A0A1Z5J8Q9_FISSO1.300e-27550.22Protein translocase subunit SecA n=2 Tax=Fistulife... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig176contigP-littoralis_Contig176:180602..208415 +
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.D8LR85
Preferred namesecA
PFAMsSecA_DEAD,SecA_PP_bind,SecA_SW
Model size3881
Max annot lvl2759|Eukaryota
KEGG koko:K03070
KEGG TC3.A.5.1,3.A.5.10,3.A.5.2,3.A.5.4
KEGG Pathwayko02024,ko03060,ko03070,map02024,map03060,map03070
KEGG ModuleM00335
Hectar predicted targeting categorysignal peptide
Exons20
Evalue0.0
EggNOG OGsCOG0653@1|root,2QS7I@2759|Eukaryota
Ec32 ortholog descriptionpreprotein translocase subunit SecA
Ec32 orthologEc-06_003500.1
DescriptionATPase-coupled protein transmembrane transporter activity
Cds size2862
COG categoryU
BRITEko00000,ko00001,ko00002,ko02044
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789847.3666666-UTR-P-littoralis_Contig176:180601..1809021680789847.3666666-UTR-P-littoralis_Contig176:180601..180902Pylaiella littoralis U1_48UTRP-littoralis_Contig176 180602..180902 +
1680789847.5848112-UTR-P-littoralis_Contig176:207697..2084151680789847.5848112-UTR-P-littoralis_Contig176:207697..208415Pylaiella littoralis U1_48UTRP-littoralis_Contig176 207698..208415 +


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

Feature NameUnique NameSpeciesTypePosition
1680789847.3792005-CDS-P-littoralis_Contig176:180902..1809651680789847.3792005-CDS-P-littoralis_Contig176:180902..180965Pylaiella littoralis U1_48CDSP-littoralis_Contig176 180903..180965 +
1680789847.3874524-CDS-P-littoralis_Contig176:181094..1811391680789847.3874524-CDS-P-littoralis_Contig176:181094..181139Pylaiella littoralis U1_48CDSP-littoralis_Contig176 181095..181139 +
1680789847.3960342-CDS-P-littoralis_Contig176:184995..1851501680789847.3960342-CDS-P-littoralis_Contig176:184995..185150Pylaiella littoralis U1_48CDSP-littoralis_Contig176 184996..185150 +
1680789847.4088855-CDS-P-littoralis_Contig176:185847..1859771680789847.4088855-CDS-P-littoralis_Contig176:185847..185977Pylaiella littoralis U1_48CDSP-littoralis_Contig176 185848..185977 +
1680789847.421097-CDS-P-littoralis_Contig176:187044..1872211680789847.421097-CDS-P-littoralis_Contig176:187044..187221Pylaiella littoralis U1_48CDSP-littoralis_Contig176 187045..187221 +
1680789847.4303992-CDS-P-littoralis_Contig176:187917..1880711680789847.4303992-CDS-P-littoralis_Contig176:187917..188071Pylaiella littoralis U1_48CDSP-littoralis_Contig176 187918..188071 +
1680789847.4387553-CDS-P-littoralis_Contig176:189914..1900871680789847.4387553-CDS-P-littoralis_Contig176:189914..190087Pylaiella littoralis U1_48CDSP-littoralis_Contig176 189915..190087 +
1680789847.4498646-CDS-P-littoralis_Contig176:190390..1905431680789847.4498646-CDS-P-littoralis_Contig176:190390..190543Pylaiella littoralis U1_48CDSP-littoralis_Contig176 190391..190543 +
1680789847.458795-CDS-P-littoralis_Contig176:191290..1914021680789847.458795-CDS-P-littoralis_Contig176:191290..191402Pylaiella littoralis U1_48CDSP-littoralis_Contig176 191291..191402 +
1680789847.4719496-CDS-P-littoralis_Contig176:192518..1926671680789847.4719496-CDS-P-littoralis_Contig176:192518..192667Pylaiella littoralis U1_48CDSP-littoralis_Contig176 192519..192667 +
1680789847.4814658-CDS-P-littoralis_Contig176:193998..1941961680789847.4814658-CDS-P-littoralis_Contig176:193998..194196Pylaiella littoralis U1_48CDSP-littoralis_Contig176 193999..194196 +
1680789847.489728-CDS-P-littoralis_Contig176:195605..1958181680789847.489728-CDS-P-littoralis_Contig176:195605..195818Pylaiella littoralis U1_48CDSP-littoralis_Contig176 195606..195818 +
1680789847.5025315-CDS-P-littoralis_Contig176:196895..1971411680789847.5025315-CDS-P-littoralis_Contig176:196895..197141Pylaiella littoralis U1_48CDSP-littoralis_Contig176 196896..197141 +
1680789847.5139372-CDS-P-littoralis_Contig176:197645..1977911680789847.5139372-CDS-P-littoralis_Contig176:197645..197791Pylaiella littoralis U1_48CDSP-littoralis_Contig176 197646..197791 +
1680789847.524564-CDS-P-littoralis_Contig176:198721..1988001680789847.524564-CDS-P-littoralis_Contig176:198721..198800Pylaiella littoralis U1_48CDSP-littoralis_Contig176 198722..198800 +
1680789847.537219-CDS-P-littoralis_Contig176:201533..2016171680789847.537219-CDS-P-littoralis_Contig176:201533..201617Pylaiella littoralis U1_48CDSP-littoralis_Contig176 201534..201617 +
1680789847.5488029-CDS-P-littoralis_Contig176:202845..2029701680789847.5488029-CDS-P-littoralis_Contig176:202845..202970Pylaiella littoralis U1_48CDSP-littoralis_Contig176 202846..202970 +
1680789847.5575435-CDS-P-littoralis_Contig176:203383..2035641680789847.5575435-CDS-P-littoralis_Contig176:203383..203564Pylaiella littoralis U1_48CDSP-littoralis_Contig176 203384..203564 +
1680789847.5664365-CDS-P-littoralis_Contig176:206047..2062241680789847.5664365-CDS-P-littoralis_Contig176:206047..206224Pylaiella littoralis U1_48CDSP-littoralis_Contig176 206048..206224 +
1680789847.5754259-CDS-P-littoralis_Contig176:207595..2076971680789847.5754259-CDS-P-littoralis_Contig176:207595..207697Pylaiella littoralis U1_48CDSP-littoralis_Contig176 207596..207697 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig176.70.1prot_P-littoralis_Contig176.70.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig176 180903..207697 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig176.70.1

>prot_P-littoralis_Contig176.70.1 ID=prot_P-littoralis_Contig176.70.1|Name=mRNA_P-littoralis_Contig176.70.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=954bp
MKRASAATTSLLLLVSCSGGSSHERRTLRRRRAPAEVLHMGLLDDLLTSK
TDPVSAANVDVLVSYETRVKNINALEDTIEDLSDDDLRAKTQELRDRLSK
GEGFDDIIEEAFAVVREAAWRVLELRHYDVQLMGGLALHEGKLAEMATGE
GKTLVATLPCYLNALAGKGTVLVVTANDYLARRDAETMGQVHRFLGLSVG
LIQSTMPEAQRKEAYSADVTYATNQELGFDYLRDHLTVTKDGAVQTKDFF
FCLVDEADSILIDEARTPLIISRSVDAPAQKFATAQKIASVLEKDVHYTV
SEKDQSVVLTDKGYDDCDRILGKSMFDPRDPWAPFIINSVKAKEIFTRDK
EYIVRGNEVLIVDTFSGRVLEGRRYSDGLHQCIEAKEGITVSKQSQVMAQ
VTYQALFRSFPKLCGMTGTAITDANELEGTYGLEVVQIPTALPIARRDYP
DVVFRNRVGANAAMLTEVERLHKDGRPVLIGTTNVRMSDQTAKDLEERGV
PCQTLNANPDLVERESEIVGQAGRLGVVTVATNMAGRGTDILLGGNPSVM
ARIRVRDALAEELLSDEDLAVVPKVGENFFPCDLLEEALSALEKAIAVCK
EDSPGEEKMSREALEGLVSAACEAGPVEGAGAVAVREAAAAVKKSFADAL
AEEKEKVLELGGLYVVGTARHESRRVDNQLRGRAGRQGDPGATRFFLSLD
DDIFRVFGGDQVTKIMDSFRLSDDIPIENKQVSATLDKVQKATEDYFAGI
RRTVFSFDEVMNEQRLALYRARDDVVNREKDDLRELALEYSAKTCTEIVQ
GNSANDGTPKAVLSDKLRQFFPLADASALSAESLAAAHSKGGKEGLLKHA
LDQAASATEKKLSDIEAVKPGLASESARFLTLTQMDDLWCQHLENMNLLK
ESVSMEVFRGRNPLEEFGSQGKEMFMDLLDNVRRNTVYSLQMYNPSPKAV
VEP*
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mRNA from alignment at P-littoralis_Contig176:180602..208415+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig176.70.1 ID=mRNA_P-littoralis_Contig176.70.1|Name=mRNA_P-littoralis_Contig176.70.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=27814bp|location=Sequence derived from alignment at P-littoralis_Contig176:180602..208415+ (Pylaiella littoralis U1_48)
GAAAGGTAGGGTAAAGCTATAGCAGCAGTGACCGACTTAGTTTAGCTCTG
ACAAGCAGCCCTCGGTGCTTGGCAAGCTAACCGTGCGCACCACTGCAAAC
GCAAAGAGAGCTCCCCGCCGCGCATTATATTCCAAGAATACCATCACACA
CGAAACGTACAGCGCAAACTAGGAGTAGATAGATACAGCCGCAGTACAGA
GGAGATCCGACAGCAGTTAGGTCCAGAGTTAGAGAGCTGTAAGCCCAGCA
GCAACGCAACCTCGGCTAGGAAACACACCAAAGCCAAAAGAGCCAGCCGG
GATGAAGAGAGCATCGGCAGCAACAACCTCTCTGCTGCTGCTGGTGAGCT
GTTCAGGTGGCTCTGCTTTCGTGCAGGGCCCGCCGCCGGCAGGGCGACAC
TCCGCGTCTCCGTTGTCTCAAGCAGCAGCAGCAGCAGCAGCAGCAGCAGG
AGCAGTGACGTCGCTGTCATCATGTTCCTCGTCTGCCGCACAGAGTCACG
AGCGGCGTACACTGCGCAGGAGGAGAGCACCCGCCGAGGTAAGTTCACCA
GTGCTACAAGTGGCAGGAGGAGAATGGTGCCCTCGAATTGGAGAGGGTGA
CGTTGTGGGTCTGTCTGGGCCAACAGTACAACATGTAGGCAATCAGTCAA
TCACAGGAATGTTGTTTTGTCTCCTTTGGTACGACAGCAGTCGGGTGTGA
CATCCTGTGTTCCTCTTGAGGAGGAACGAGCACCTGCATTACGCAAAAAA
TACTGCTGTGCTTCTGTACATATACATACATGGTTCATTGGTTCATGGTG
GTGCTGATCCTGAAGCTGTTGCGTGTACCATTTGATGCCATGAAGGTGGT
CTGCCTGCTGCTGTAGCGCCCTGCCGAGCCTGTTGTGCTCCCACCTGCAT
GTGCGCGGCGGCATGTGCAGCACAGCACAACAGCATTTCACTGGGTACAT
GACGTCACATGACATGTGTCAGAAATCAAGCAGAAAGTGACCTCGGCCTT
GAAGCACCGACCTTGATTGCGTACTGTTGTAGTCCCCTCCGTGCTCCTGC
TGCTGTGTACTACAAAGTACAAGTACGATGCTATCACCTTTTCAACGGCT
TCATGTAGAAGGTACAGCAGAACATGTAAATCGATAGTACAGACAGCAGT
ACTGCTGTAGCTTTGTTGAACACCTCACATGTACGGTACAGTACTTCGAG
GCATACTTCGAGAATGATACGAAGAAAACAGTTACAGCAGTAGAAGGAAT
GGCCAAAAACGGGTATACCCGGTGGTTTTGTGGCCACTATCGGGTACCCT
TCTTTCCCGCCGATAGAAATGGTCTCAGGGAGCAAACCCATTGGCCAAAC
CGCGCCGCCACCCGGTCCTGGCCTAATTCCTGCCAGGTATACCCGGTTTT
GGCTTTCTCCCCCGGAGCTACCCGATTTTCGCATACACTACTGTACCCGA
AATTGGCCCGACACACACTCTATAAGACACACACTCTATAACTAACAAGT
TATATTTCATGTGTACACAAAACTTCTGCTTCTGTATGATACCAAGTAGT
TTCATTTGTACTTCGTATCATATTGTGCTGCCATATTATCCCGTCATAAA
TCTCGTCTCTGTCACTCACCACACACACGCACGCACTTATGACACAACCA
TCAGATAAACTCGGATGCACTGGTACAGCGGGGACGAAGCTCATGGCAAA
TGGGGGCTTTTACCTGTTGTTGTTCGGATTCAATGAATGATGTGGGCCAG
CTCGTTTAAGAAATGAACTACTTGAAGTATAACTAGTTACAGAGTGCGTG
TCGGGCCACTTTCGGGTAGTGTATGTGAAAATCGGGTAGCTCCCGCGGGG
AAAGTAGCCAAAACCGGGTATACCTGGCAGAAATTAGGCCAGGACCGGGT
GGCGGCGCGGTTTGGCCAATGGGATTGCTCCCTGAGACCATTGCCAAAAC
CGGGCATACCTGGCAGGAATTAGGCCAGGACCGGGTGGCGGCGCGGTTTG
GCCAATGGGATTGCTCCCTGAGATCATTGCTATCTGCGGAAAAGAAGGGC
ACCCGATAGTGGCCACAAAACCACCGGGTATACCCGTTTTTGGCCATCCC
TCACAGCAGTACCTCCGTTTCTTGCAGCCCTGTTGTTTGGTATTCTGTTG
TTTTTCCCTACATATGTATTGTATTAAAAACCAAAGGCAAGTGCCACAGG
ATGAAAGGTGTGTGGGCAATAAAACAAAATAAGAAATGAAAACGCTCGTG
TGTGACCTTCGTCCTGTGTGACCCCGGCTGAAGCACCCATCATACCGAAA
GTGTAGACCGGAGCCCAGAATAAAGGAGATGACCCCCCCCCCCCCAAATA
GCAGAGAGCCCGAACGGTTGAAAAATCTACTTCTTGAGCACAAAAGGAGA
CAGCACCAAGCAGCCAAGCAGAACTCGATACCCGGGACACCAATCGAGAC
ACAAACTGTTGGAGGGTATGCTCCAGTGTTCTCATGTTGGCCACAGGAAA
TATGGTGGGTATGGGCTTTGGCTTGTGGCGAGCTTTCGGTGGCGGGGTGG
CTGAGGTGGAAAAATACGGCAGAAAAAATGACGCTGTCCGAGCCTGTTAC
CGGTAGTTGGCCAAAGACACAGACGCAAAGTCTGTTACGGTACTTCGGTA
TTTCGTTTTATCTGTTTTTCCAACTCCCATCTCTCACCGCCGCCAAAATC
TCGCCACAGCCCGAATCCACTGCCACCACACTTCCTGTGGCCAACCTGAG
AACATATATAGTAACACACGCTCCATCAGATTTGTGGATAGGCATCTGTG
TCCCAGGGGTCGAGTTCTTGTTGGTGCTGTCGCATGATGTGTCCGACAGG
GCTGTCTGCGACTGGTGACCAGGGTAGATGGGATGACGACGTACCCTTAA
CACACACAAACGAGAAGTCGTCCCGAAAAAAGCCCATCACGAGGGAAAGG
GACTGCTTGCCGAGCCGTTTTCGCGACTAAGATGAAAGCAAGCACCGCAG
ATTAGAGGTGAAAAAACATTTACCAGATCCTCCTCGGGTGCGACCGAAGT
AATTATTAAGTATTTGTATTCGTTCGAGGATCTTCCTTCTAAATATGGTA
TCTTTGGCGTTTCAGGGCCTCTGATTGGCCAACCTCGTTTGTGCCTGAAA
GACAACCGCGTTCTGTCCTGCAGACCATCGGTATTTATTTCACGACCGGG
GCGCCCCGACTCTCCTTGGTCGGTCGTGAGGGTTGAGGTTAGGGCTGGGC
TGGGCTGGGTTGGGTTGGGTCGGGCACGTGTGTGTGTGTGTCGTAGTTGG
TTTGGGGAGCTGAACTTCAATATTTATATAGTTGTCGAGATCCTTGAACA
GAATGGAAACAGACCTCCGACTTCCGCAGGTGTGCCCGATTTCATTTCCC
GGAAGGCGAAGACTGGCGTCCAAATTTGATGGGATGACAACACACACACG
TACACACGAACACAGCCATGCATACGTACGATGATGTAATTCCTCGAGGA
TACGGTGGGGGAAATAAAAAATAAATAAAATTATCTAACTGCCGTTGAAA
CGAGCAACGGATAGGCAACTGGACATCCCCTGTCGCCATAAACGTACAGA
AGGAGGCGTTTTGCATGTGTGGTGCGGCAAAAAAATAGGTTCAGAGGGGA
GGGGGGGGGGCTCGGATCGGGGAGAAGAGCCCTGTGGTGTGGCCTCCGTG
CGTATGTGCCGGATAGACAAGAAAGCAGATGCGGGCGGTACGTTCAGATA
CAGCTGTAGTCAGGGCCCCGATGCAGCATACCTGTTGGCAAAATGTAAGA
TAGCACTGCCATCATGCAGCAGTAGCATCCAAGGGGAGTACCGCTATTCC
TCACCAACAGCAGTAGAGGGAGCTTAGAAAAACGCTTGGGCACCCCTAGG
GCGTACGGGGCACGTGAACGCAGGCAGTCAGTCCCCGGGAGAGATCGTGA
AGTTTGGTTGGTTAAAGTCCCTCCTGCAAAGAAACCGGAAACCTTTGAGC
TACAGCAGTACGTCGTACATACCTCTTTGATTTTTCCTGGATTTCATGTA
TCTATCTGCATTCTTGATGATGCACAAAAGAGGTTGTTTCGAGGACACCA
GCGACTCGCCGGTCGGTGCCTGGTCGGAGGAATCGAAAGTGTTGACCGTT
TATCGTGCCGCTGCCACCGTCCCGTCGGAGCCATCCCGTTCCATCTCTCT
CACGACGTTTCCGGTACGGCAGAAGTTTCTAGACATTTTATCCGTCATTC
CGGCGACAAAGAAGTCAGTATCTTTATTTTTTTTGTTCGTTTGGACTCGG
TGTAATAAAACTGACATATGTATCGTAAGACTGACGTATGTATCACAAGA
CTGAAGGATGATTCTGCACGTGGGCCATGTGTTTTCTTCCGCAGGTGCTG
CACATGGGCCTACTAGACGACCTGCTGACGTCCAAGACGGACCCGGTCAG
CGCGGCAAACGTGGACGTGCTTGTGTCGTACGAGACTCGCGTCAAGAACA
TCAACGCCCTCGAGGACACCATCGAAGACCTGTCCGATGACGACCTCAGG
CAAGCTTGCCACCAAAGTGTTGTGCCTGCCTGTGTGTCTGTCTGTGTGTC
TGTCTGTTTGCCCGTCTGTCTGTCTTGTCTGTCTGTTTGTCTGTTCATCT
GATATCTGTCTGCTGGATGATTTGGAACCGCAGTGTACATTGCTGTAGCA
AGCACAGGATGAGGTGCGGGTCGGTAATTTTCTTTGGGAGGTGGCAGGCT
GCTCTACCGCTGCACGTACGTAGACTGCCTGGTATGGTTTAACATGTATC
TGATGGTATCCGACCGGTCTTGTGCCAGGCCGGTTGATGGGTTGCCCTTC
GAATGATCGGTTGGCAACAGCCTTGTTTGGCTTCTGGCCGGAGTGCGTCG
TTCTGCTCGGCTCATCGGCTTTGGGCTGTCACAGCATACTAAGAGTTATG
GCCGACCCGGGCTGCACCGCACCGTGCCGACAGCACTACTGTAGGCGCTT
TGCCTCGATACCCTCGATCCGCCTCAATTCGCCTTGCTTTGCCTCGATTC
GCCTCGATTCGCCTTGCTTTGCCTCGATTCGCCTTGATTCGCCTCGATTC
GCCTCGATTCGCCTCGATTCGCCTTGCTTCGCCTCGCCTCGCTTCGCCTT
GCTCTGCCCGGCGTACCCTCAACGTCTGCTTTCGCTCTCTCTCGCCGTGG
TCGTGGTTGTGGTGGTCTTGTGTGTGTGTGTTTGTGTGTCTGGCAGGGCC
AAAACGCAGGAGCTCCGCGACAGGCTGTCGAAGGGGGAGGGATTCGACGA
TATTATCGAGGAGGCGTTTGCGGTGGTCAGAGAGGCCGCCTGGAGGGTGC
TCGAGCTCAGACACTACGACGTCCAGGTACAGCCCTAGTCCTACACGGCA
TTCTGTTGCTGCACAACGTCAGCGGCATGTGATACATGGACGTCGCGGGA
GTTCGTGGGCGCTTTACCTTCGAAAGGGGTGCTTGCTTCGACCGGACACT
AACGGTAGAAATCATGCGAATTTCCGCCTCGACAAGGTGGTGGAACTGCG
CGGGCCCTTTGTGGTAACGTGTATAGGTTTGTTCCTTTACCCGTTGCCGG
ATGCTTGTCGAGTTAACGAAAACACACCAGTCCCACGTACCCGAAGCACG
TATTCTGCTCGCGTTGCTCCTGTCTTGCGACGTCCGTTTGTTCTACCTGG
CCGATATACGTACAGTACGAGTAGCTGCTATCATATCTGTTCCCCATGCT
ACCTGGCTGATATACGTACGAGTAGCTGCTATCATATCTGCTCTCCATCG
GATTCGTGTCGCTCAGGTAGCTTCGTAGGTGGTTGCTCTGGGTTGTTCCG
TGCCCCTCTTTACATGCGTTCTCGTCGTGTACATCACGTGTGGGGGGGTG
CACACGGCTGTGGGGCGGCGGCGTCTAGTCTTCTTGCTACAAAGTTTGTA
AGGATGTTTTGAGATCGTGACTGGGCGCTCTTTCCAGCGCGTAATTACGT
ATGATACCACACACACGCCGAAGATGCCACAACAAGACCGTGACGGGGAG
ATAAAAAAAAAGATCACGTGGAGATGGAGAACCCCCTGTTGCCGCGGCCA
ACCGCGTGACGTCACACCCTTAGCACGCGCCCTTGCACTGCATGTGCTAT
GCGTATACGTCACGCATTGATTGCCGTACACGCTCGTTTCCGTACGAACG
CCCCTGTGCCGCTCCGTCATTACCGAGAACAACAACATCAACGACGACAA
CAACAACGTTTCCCTGTGACTGATGCCCTTGGTACACACACGTCACACAT
CACCAGCAGCCGTGTGCACTGATGTTATTTTTTCCATGCGGTCGTTTCGT
TTTTTTCCCTCCTGCTTCTCCTCCAAACAACAACAACAACAACAACAACA
ACAACAACAACAACAACAACAACAACAACCACGCGCGATGCAGCTCATGG
GCGGTCTGGCCCTCCACGAGGGCAAGCTGGCCGAGATGGCCACTGGGGAG
GGTAAGACTCTCGTTGCCACGCTGCCCTGCTACCTCAACGCCCTGGCGGG
CAAGGGGACCGTGCTAGTCGTCACCGCCAACGACTACCTCGCTCGGAGAG
ACGCCGAGACCATGGGACAGGTGCGTTATTTACCCGGCGCACTCGAGTCG
AAAATGTTATACATGTGATATACATCCGAAGTACGAAGTATATTTTTTCT
TTTTTTAATTTGCCCTGGGTTAAGAAAAATTAAAGGCGAGAGCACCGCAG
GAGAGAAGATTCGTGGGCAGTAAAAACCGAATGGAAAATTAAAAAGCTAG
CGTGTGACCCTTCCTCCTGCATGGCCCCTGCTGAACGTCAATGATATATC
ATTGAAAGGTGTGAAAAATACTTGGCGCCAGAACAAATGGGGGCGAACAC
ACGCACACGCATATCTGAAATAGATGCGTTGGTTTGTTACGGTGTCCGTG
TTGTTCGTGCATATGTATGATATGATTTGGCACGTACGTATGATAGTTCG
CACACGGTACCCCCCCCCCCCCTTTTTTTTTTCCCCTGGGCCGTTGTCTT
CGCGCCATTTTTTTATCCGCACGGTAAATCGCACCATATCTCTCAGGCAA
CAAGAATGTCGCCCCCCCCCCCCCTCCCAGTACACACACTCTACACACGG
CCTGCTCTCCCCTCGCTGCCCATCAGCTCTTGCGAATCCCCGCTGCGCCT
CCCGAACGGCCTCCTCCACCTCTCCATCACCGGGTACCACTGCCCTTGCA
TGCACCCACCTATCTACCGACCGACCTACCTACCTGTGGCGTGATATATA
TATTTTTTTTTTGCAGGTACATCGTTTCTTGGGGCTGAGCGTCGGTCTGA
TCCAATCCACGATGCCCGAGGCCCAGAGAAAAGAGGCGTATTCCGCCGAC
GTTACGTACGCCACCAACCAGGAGCTCGGGTTCGACTACCTCAGGGATCA
CCTGACCGTCACCAAGGACGGTACGGAATGACGGAGTCTTGTGGGTGGTT
TTTTGTTGCGACACGCATGGAACATGTCATGATGTTAGTGGTTTCTTGTC
GGGCTGCTGTGTCGTGCTATGGTGTGTGATGTTTATTGGTTTGGATTGTG
TTGTGTTGTGCTGTGCTGTGTTGTGTTGCAGTACCGGCCCACTCACAAGA
AATGCCTTTGTAAGAAATCTAGCCTCAGATTTGTAAAAAAAACAGGAAAT
TTGGCCAAAGAAATTAGGCTCAGCGGCCCGCGCTATAGGCTTAATGTGGT
GGGGACAAGATGAGGTTTTGAGACTCGCTCAAAATTAGTGTTTCTTATGA
GCGGGCCGGTTCTGTATGTTATGTTATGTCATGCCATGCCATATGATGTT
GTGGATCTGTGTGTGTTATGGCGTGCCGTGTGCCACATGTGGTCGATGTC
ATAATGTTAATGTTCGTGCGAGATGGCGAGAGGATGTAATCGTCGTGTCG
TGGTGTGGTTTTGTGGTGACGTCTTCGGTGACAGGCCTCGTCGTTGGGGT
TTGATGTGCCGCTTCGTGCGATGCCGCATGCGGCTTTTTTACTGCTACGA
CTAGAATACATGGGATGACACACACACATACTACTGCTGTTGCGTCAGAA
TGTGGCTGTTGATCCTGAAAACTACGCCTCCGTTTTTAAGCATACGACAA
TACGACCCTCATCAGAGGTGAAAAAACGGATTTCCGTTTTTAGGCACACG
ACAATACGATCCTCATCAGAGGTAAAAACCGGATTAAACAGGCTTGAATG
GTATACCAACAACACCGTCGCGTGCCACAACACTTGTACTGTAAGTGCAT
CTCAGGAATATCGTGTATGGTGTGTCCCACTCTGTAAGTTTGCTCGTTTT
TATCGTCGAGAGGTCTGTCAGGGTAACAGCCGTATGATTGCGTCGTAGAC
ACCACGGAACTCTCCGCGCCGACTTTGGAGGTCAATTGCCTTGACTTGAC
TTGACTCCACGGCAGTGAGGGGGGCGCCAGCATCGACGGGGTTGATAGCT
CCCGAAGCGCGGTTGTTCGACAGGCAGAGGCAGCAGTGTCGTTGTCCGCT
CACATGTTTGTGTGATACGTGAGAGCGTTAGAATTTGTACTGAGCTCATA
GGCGACGACCCCTGACAGGTATTGTCTGTAGCTCAGCTCCTCTCGCAGAT
ATGCTTCGTTCGGAGTGTAATTTTAATTGACATCCTCCGTCACCCAATAA
CATGTTTTTTCGTTCCCTTCCCGCCTATGGCTGGAGCCGTCCTGTACGAA
CTACCCGGGGGGGAGGGGGGAATAAAATTTATGTATTTCAATTTGTAGAG
TTCATTTATTTATTGATTCTTACTTTATTAATATTAAATTTAATTAGATT
TGGGGGGCGTATTGGCGTCGACTCGACACCACAACAACGGGCCGACCGCA
GAGGGGGGGGGAATAAAATTTAAGTATTTCAATTTGTAGAATTTATTTAT
TTGTTGATTCTTACTTTATTAATATTAAATTTAATTAAATTTGGGGGGCG
TATTGGCGTCGACTCGACACCACAACAACGGGCCGACCGCAGAGGATATG
ATACGCTTCCTCGACCCTTACTTTTTATTTATTCCCCCCCCCCCCCCCCC
CCCCCCATCCGTCTTGCTGTGCGTCTAGAAAAAAAAAAACGTATTACACA
TGGTAAAAATACTATTGATGCCAGCAACCAAAAAAAAAAATTACAATGAT
GTACTTCAATGTAACAACGAAGTACATATCACATCATACATACTCCGCTG
TGCGTCTTTCTACGACATGGGCTTGTATATTTTTTGTTTTTGACGGATCA
CCATCACCGTCAGGAGCTGTGCAGACGAAGGATTTCTTCTTCTGCCTTGT
GGACGAGGCGGACTCTATCCTCATCGACGAGGCCAGGACCCCCCTCATCA
TCTCCAGGAGCGTCGACGCCCCCGCGCAAAAGTTCGCCACGGCGCAGAAA
ATCGCCAGCGTTCTGGAGAAGGATGTGCACTACACGGCGAGTATACGTTG
TTGTTGTTGTTGTTGTCGTTGTTGTTGTTATTGTTGATTCTCACATTAAC
TCACTACCGCCGCGGTCTGGCCCGTGGTACTTGTACATGATTCGTACGGA
CGAAGTATATACCACAAAGGGTGAAGGGTGATGCGCAATTAAAAAAATCA
GCGAAAATTGCGAGCGTTTTGGATGAAGGTCTGAGCTACACCGCGAGTTT
ATGGCATGCGAAGTACCATACAGAGTGACGCTCGATAGATACGAAGCACT
TTCGTTTATTCTGATGGGGGTTGCGCGTGTTGTCAACAGGTGTCTGAGAA
GGACCAGTCGGTGGTGCTGACGGACAAGGGCTACGACGACTGCGACCGCA
TCTTGGGCAAGTCCATGTTCGACCCTAGGGACCCGTGGGCGCCCTTCATC
ATCAACTCCGTCAAGGCGAAGGAAATTTTCACGAGAGACAAGGTGCGAAT
GCCCGCCTGCTCACGGCCATCACCTAAATCGTGGAAGTGCTTTATACAAG
CAGTAGTTATTGTATTTGTTGTATTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGATTCTCACATTAGCTCACCACCACTGCAGTCTAGCCCGCGGTC
ACAAACCAGGCACCAAACAAAAAAAAACAAGAAAAGGAATTAAACGATGG
CCACCCAATCAAAATCAGATAGGGTACCGTTGGGGTACCTACCATCTGTG
GTGGCCAGTAGTACAAAAAATGTGTGTGGGTGTGTGTATTGTTGTTGTTG
ATTCTCACACTAGCTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAGTG
CTGAGCCCTAGGAAGATCCAAAAAACAGAAAGAAACTACAAGGGAATACC
CAAGAAGGACCGAAGAAGATACGCCTTCCTACGCGGTGTGCATCACTGAA
CTACAGCAGTCACAGCAGTACCAACAGCAAACGTACTTCCAGCGTCGTTC
ATTTGACTGCAACATCGTGTTCAGTCTCCTCCCGCCCCACTTACAAATAA
CCGCTGCTGTACAAAAGCAGCTGCTGTCTGGAGTGCTGCCTGCAACGTAC
AAGTAGCCCCGGTAATCGGAGAAGACGGAAAAAGACAAAAAACACACACG
TACGATATCATCATCTGATGTTGTCGAGGATGGTGTCTCCATGTGTGTGT
GTGCCTGTGTGCCCGTGTCTGGCCTCTGTGGTGTTCCAGGAGTATATCGT
GCGAGGCAACGAGGTGCTCATCGTGGACACGTTCAGCGGCAGAGTGCTCG
AGGGCCGGAGATACAGCGACGGCCTTCACCAGTGCATCGAGGCCAAGGAA
GGTCTGTGTCACAGACCACAAGAGACATGTTGGGGGGGTCTGCAACGACA
TCAGTCAACCCTTGCTCAACATTTGCGACGGAGTTACGGCCTTCGCGAGT
TACATCGAGGCCAATGTATCGTGTGTTAAAAAGACGTGTTGAGGGTCTGC
AACGACATCAGTCAACAGATGACTGTTTATAGGGATAGTCCTCACTCGGG
CAAGAATGGTTTACCTCAACCATTTTTGTTTACCGGATAGCTGAGCAATC
TACTCTCCCCACATATGGCGTCGACTAGGTCAAATGTTGTGGGTTCGAGT
CTGACGTGTCCACCTCTTTTTCAGAAACGCTCGTTGAGGGCCCCGGCTCT
GTCATAAAAAAAATCCTGGGTGGAAAAAGCATCAGGTCCTCCCAGGGAAG
ACGGTCCTGATCACTTCCCATCCAGGTGTCAAGTGCTGGAGAGTGTTGAG
AGGTGGAGTTCCTCAGTCGGGTAAATGGTTAACCTTTTACCCGATGGCTG
AGCAGTCTACTCCTTCACTTTTGGCGACGACGGCAGGACATCCTCACTCG
GGTAGTGACCTTTTACCCCTTGGCTGAGCAAGATATCCCTTCACAAATCT
ACGGTCATTCTATGACACGTGGCATTTACTACTTCGAAAATATCATACAA
CGGTGGATTGATATGATGTCCACGACGGAAGACGATTTGGGCACCAGTCG
TGCGACGGTATGGGGAACCGAATGCTACCATCATCCATATGATACGAAGG
CATGGGACGAGAGTGGGGCGGGACGCTAGGAAGAGGGAATACAAGTATCA
TGTTTGTTATGGTTATTTTCCTTAATATAATCTGTCTACAAAGAAGCAAT
AGTGTTTTACCTCTTTTTTTTTATATTAACCACTTTGTGTTGTCTACGAA
GTACTGCACTATTATTTCCATATTATTTTTATTTGTCACTTGGCAATGTC
TACATACGAAGTACTACCATCTTTACGAAGTACCGTAGTAAATTTTACGA
AGTACTTCGAAGTATAATTTTCGAAGTATAGTTTGTCATTAGCCTCGGCG
ATTCGATGAGTGACGCAAGACCATGCCGCGTCCTGTCAAAACGGATTACA
CATGACGTGCATGACAGGCATCACTGTGTCGAAGCAGAGCCAGGTGATGG
CGCAGGTGACGTACCAGGCGCTGTTCCGAAGCTTCCCCAAGCTTTGCGGC
ATGACCGGAACGGCCATCACCGACGCCAACGAGCTCGAAGGCACCTACGG
CCTGGAAGTCGTGCAGGTAAGAGCCTTGTGACCAGCCCGCCCATTTTGGT
CGGCGTATGATACACACTCGCAACACGCCGTGCTTCGTGGTGGAAACCCG
CCTTGTTATGTGCCACATTTGGCCGCCCGCTGTGGTCTGTCTATGATACC
AGTATACTTCGAAGTATACTTGCAACACGCCGTGCTTGGTGGTGGAAACT
CGCCTTGTTCTCTGCCGTAGTAGGCCGTAGGTGTGGACGTGTCACCACAA
TAACGGACAACGACAAGAGTCGATTTATCTGCTGCGGGTGTGTGTGGCGT
GCGATGGAAACACCCAGGGTTTTTGTTGGTTGGAAGCCGCCTTTTCTTCT
GGACCTTCATGTACGTACTGCGGTACTGCTTGCTTGCTGTCACCAACCAT
TTTTCTTCTTCTGTCCTCTTGCATTCGTACCGGTAACACTCCTGTCCAAT
CTATGTTACCATCGCATCGTCCTCACCATCAATTCCCTTACCGGCAACAC
TCTTAACCCAATGGATATTATCATTCATCACCCTCGCCGCCAATACTCGT
GCCGATAACACCCTTTTTGTTATAAGTATCGTACAATCCCATCTTCCTCA
CCGTCAATCCTCGTACCGGTAAAACTCTTATCCAGTGTTTCTCATCGTCC
CATCTTCCTCACTGTCAATCCTCGTACCGGCAACTCTTTTCGAACGTTGT
TTCATCATCCCATCAATCCTTTCACCAGCAACTCTCACCACACGTGTCTT
TACCATCCAATGATCCTCACTATCTCAAGGCAACCTCTCCCCATCTTCCT
CACTATCAAACTTCGTACTAGGTAACACCTCTTTGATCATTCGTATCTCA
TCATCGCATCGTCCTCGCTATCAATCCTCACATCATACCGGCATCACTAA
ACACTCCTCGTGTCCGATGCATCTCATCATCCCATCCTCCTCGTCCTCAC
CATCGACCTTCGTACACTCTTTTATCACGTCCGAAGTACTGCATATCTCA
TCATCCCATCGTCCTAACCATCAATCCCCGTACAAACCATACCGGTAACA
CTCTTTCTACGAAGTGCTGCATATCTTATCGTCCCATCGCCCTAACCATC
AATCCCCGTACAAACCATACCGGTAACACTCTTTCTACGAAGTGCTGCAT
ATCTTATCGTCCCATCGTCCTCACTGTCAATCCTCATACAACCCATACCG
GTAACTCTCACCGTACGTATCTCATCATCCCTTGGTCCTCACTATCAATC
CTGATACATACTATGCCGGTAACACTCTTTTCTTGTCCAAATCATCTCAT
CATCCCACCGTCCTCGTCCTCGCTTCCAATCGACCGACCTACCGCAGATC
CCGACGGCTCTCCCCATCGCTCGGAGAGACTACCCGGACGTCGTCTTCCG
GAACCGCGTCGGCGCCAATGCGGCCATGCTCACCGAGGTCGAGAGGCTGC
ACAAGGACGGCCGCCCCGTCCTCATCGGCACTACCAACGTCCGCATGTCC
GACCAGACCGCTAAGGACCTCGAGGAGAGAGGGGTCCCGTGCCAGGTATC
ATACATATATTCTATATACCAAAGAAGCATGCAGTAGAGGGTTTTCCCCC
GTCTTTTTTTTTTCTGGAACCGGGTACCCGTTGGGGGCCATTGGGACTCG
AGCGGGTGGAGTTGGCGGGTACCCGGGTAGTTGGGAAGTGGAATACGGTG
CCCTCTCCCCCCCGGAATAATGAATTACGGTGCCCAAAAAATTAGAGGGA
GGTATCAAAGAAGAGAATTTTTTTTTTGAGCCGAGCACCCGTTGGGGGCC
GTTGGGACTCGAGGGGGTGTACCCGGCGGGTACCCGGGTAATTAGGAAGT
GAAATACGTTGCCCCCTTCCCTCCGGAATAGTGAATTACGGTGCCCCTAA
AAGAATTAGAGGGGTCCCGTGCCAGATATCAAAGAAGTTGAGCATTGCCC
CGTCTTTTTTTTTAGAACCGGGTACCCGTTGGGGGCCGTTGGGGCTCGAG
GGGGTGGACCCGGCGGGTGTTTGGGAAGTGGAATACGGTGCCCAATTCCC
CCCGGAATAGTGAAATACGGTGCCCCAAAAGAGTAGAGGGGTCCCGTAGC
AGGTACCAAAGATTTGCTGCTTTGCTGCCGTGAGGCCGGGCTGTGTAGAA
ATGTAATCTACGGCGGACAAACAGCGAGTTTAGTGGTCTCTCGAGCCAGG
TATCGAAGTAGTGCTGCTGTGACGCAGGTATATGCACTGCCGTGGCCATG
TGCGGCGGTGCCTGGCGAAGCGAACGCACAACGAGTGCAGTAGTACAGCT
GTGGGTGGTGGCGGTGTGGTGATGGTTGTGCGGATGGGCTGATGCTCTCA
GGGATGCCGCTGTAGCTGTAGTGGATTGTGATGGATGTGTGATACTTATT
TGACCTGGTACATCGACAGGCCAGTACTGCCGTAGATGCTGAGTGCGCTG
CTGTGAATACCACGGTAAAACTCCTAACCTACCCCATGATTTATCATTCA
GTATTTATGCCGTGAGCAAATGCATATGCCTCGAAAAGTATCTGATGGCG
CGTTCCAGGATAAGGGTATGTGATCAATCTTATCACGACCAAGGCAAGCA
GCAAATGTACCCCCCCCCCCCCCTTCCCTGCGTTCACATGCCTCGTTCAG
CGAAACCCCTCTTTGTCTCTGTTGTACAGAAGCGATTTGAGGCTTGTGAG
GTCTAGCTTACGACGTTTTGGCATGCAGGTCACAGGAAAAAAGAAAATAC
ACGCCCACAAAAAGAAAATAAACAAATCTGTTTTCATTCCACCCACACAC
ACTGCGTTTGCAGTTACAGGTCTCCGTTTACCAACGAAAAAGGATAGTGT
CGGACGCGATGCGTGGCCATTAGCCATTAGTCAAATATCCTCATAGAGGC
AAGAATCAACAAATACGTGAGTACCCCCCCCCCCCCCCAACCGCCCCGTT
ACAGACACTGAACGCCAACCCAGACCTGGTGGAGCGCGAGAGCGAGATCG
TGGGACAGGCCGGCCGTCTGGGCGTGGTGACGGTAGCGACTAACATGGCC
GGCAGAGGGACGGACATCCTCCTCGGTGGAAACCCTTCCGTGATGGCGAG
GATCAGGGTGAGAGATGCCCTTGCCGAGGAGCTGCTCAGCGACGAAGATC
TCGCGGTAGTTCCCAAGGTGAGGAGGGGGAGGGAAGGGCGCACGCAAGCA
AGCACGTGTGCGTGTGCGTGTGCGTGCGTGTGTAAACGAAAAGAGGCGTG
TGTGTGAAGTGAAAAGAGGCGTGTGTGCGTGCATCTTTTTTTGTTTTTTG
TCCTTCGTGTCTTGTTTTTCTTGTTTTACGGACGAATAGATTGAGCGTGT
GCTGGTGTAAGCATCATATGATACGCGTATCCATTCCCAATCGTTTGGAC
CATCTCTTTTTTTGCAAGTTTGCTCTCTTGTTCCTTTCACGTGGTGTGAT
CGATCGCCTTCGTGTACGCGTTTTGGCGGGATTGCTCGCGCTCCTTGTGA
TCACCGCCCACCTCCCCAGCCCACGAAGTAGAGGTCTGCCCCGTCTAGTA
ATTTCCCGGGTACATACCCGGTACCGGGCACTACCCGGTCGGTTTCGGGT
AGCATATTTGCTACCTGGGAAATTGAAATCGCAATACGGTGCCCCTTCGG
TGACGGGGTACCCCCATAAACATCACACACGGCGCCCCCTCGTTTTTTTT
GGCGCCGTATTTCGCTATTTCGAGGGAAGGGGGCACCGTATTCCACTTCC
CAATTTACCCGGGTACCCGGTCGGTACCATTTCCTCGAGCCCAGACGGGT
ACCCGGTTCCCGAAAATCCAGACGGGGCAGACCTCTACCACGAAGGACCG
CCCTTCTCGCTCACATGTCACTTGCAGCCAGCCAAGCCACAAAAGTGTGT
CAGCAACACGCGAAGTCGAAACGGCCTTCTATGCTCCTTTAGCTCGCGTT
ACGCGCGGCACCAAGTAGCCAGGCTCAACAGAGCGGAGTATACATCGCAC
CAACACATGAAAGCTAAAAAAAACGCGGTGCCCCAGGTTGAATGTATATA
TATATATATTTCCCGTGCGAACTCTGGCTCTATGTTGAGCAGGGCAGAGG
ATCAACACATGACACGAAGTGGTACACTACACCGCCGTGGTGCCCACTAT
CGTGCGCCCCTCCTCCCTAGCGGAGTATACATAGCGTCAAAACACGGAGG
TTCAGTAAACCGTGGTGCTCACTACGCCCCCCCCCCCTCCTCAGGTCGGG
GAAAACTTCTTCCCGTGCGATCTCCTAGAAGAGGCGTTGTCGGCTCTCGA
AAAGGCCATCGCTGTCTGCAAGGAAGACAGCCCTGGCGAAGAGAAAATGT
CGAGAGAGGCGCTCGAGGGTTTGGTGTCGGCCGCCTGCGAAGCCGGGCCG
GTGGAGGGGGCGGGGGCTGTGGCGGTGCGGGAGGCGGCGGCTGCCGTGAA
GAAGAGCTTCGCGGATGCCCTGGCCGAGGAGAAGGAAAAGGTACGATTGA
TGGTATCTCGCAGTCAAGAAAAGGTATAGGCTGGCGTGTCGTGTTCTCTG
CGGCTACCCTGGCCGAGGAGAAGGAAAAGGTACGATTGAGGGTATCTCAC
AGTCAAGGAAAGGCATAGGCTGGCGTGTCGTGTTCTCTGCGGCTGCCCTG
GCCGAGGAGAAGTAAAGGGTACGATTGAGGGTATCTCACAGCCAAGAAAA
GGCATAGGCTGGCGTGTCGTGTTTTCTGCGGCTGCCCTGGCCGAGGATAA
GGAAAAGGTACGATTGAGGGTATCTCGCAGTCAAGAGAAGGTAAAGGCTG
GCGTGACGAAGGCCTTGGCGGATGCCTTGGCCGAGGAAAAGGAGAAGGTG
TGGTTGATGGTATCCCTTAGTCAAGAAAAGGTACAGACTGGCATGTCGTG
TACTCTGCGGCTGCCTCGGCCAAGGACAACCGCCGCAGCCTTTCACTTTC
ACTTCGTGTCCCGTTCTGCGTGGCACGTTCGACATCGACGTCAGGTCCTC
GAACTGGGCGGTCTGTACGTGGTGGGCACGGCTAGACATGAAAGTCGGAG
GGTGGACAACCAGCTGAGGGGCAGGGCTGGCAGACAGGGGGACCCGGGGG
CAACACGCTTCTTCCTCTCCCTAGATGACGACATATTCAGGTACAGCGAC
GACGCTTTCAGGTACAGCACATCTTGTATTGCATTCAGCGAAAGGACGAA
TGCGGGTACTGCTGCTGCTGTACTCTAGAAGCGTTCGCTGGGCGACGACA
TTCTCAGGTACAGCATACGTATGGCATTGAGCCAAAGGACGAGTACGGGT
ACTTGCTGCTGCTGCTGCTGCTGCTGCTGCTGTCTGGGCCTTTCGCCTCT
GGCGGGAGACGATGTCAGATATGTGCCATGTTTGTATATACGTACGGACG
TTGTACACATTGAGAGCAGGGGGCACGTGCAGGCACGTTTCTGTAACAGC
AGACTGTTCTTCGCTAACTGTTGTTGTGGTGTGTGTGTGCGTGTGTGTGT
TTTTTTTTTTTTTTTTCCCGGTGAGACCCTTTATTGCTTCTTTATGTCGG
CGATCGGCGAAACACGCTTGGTTTATTTCTCTCCTTTGTTTTCACATCAT
TTTGGGGATGTTGGGATTTTGGCCAATCTTGATTCCTCTTTTTTTTTTGG
CACGCCGTATCGGGGTGTTTTGTTTCGAATCGGCCAACCACGCACGGCTG
GTTTCTCTTTTTGTTTTTCATGCCACATCACATCGGGGCATTCGAATTGG
CCAGTCACGTTTGGTGTCTCTTTCTATCCTTCTCCCATTTCATCTGAGGG
TGTTCGGATCGGCCAAATCACCAATCACGCTTGGCTTCTCTTTTTTTTTC
TCCAAGTCGTAGTATCTGATATTAGATATTAGTAATATCAGTAGATTAGA
TATTAGTAATATCAGCAGATTAGATATTAGTAATACTAGTAGGTATGTAG
ATATTGGTAATATCATGTACCGGTAGATATTGGTAATACAATGTTAATGA
AGGTTTTCGAACCGGCCAGTCACGCTCGGTTTTTTTTTTTTTTTTGTTAT
TTTGCCACTGCTGTTATCAGGGTGTTCGGAGGGGACCAGGTGACGAAGAT
CATGGACAGCTTCAGGCTCAGCGACGACATCCCCATCGAGAACAAACAGG
TGCGGAACAATTAAAACAAAAATAAATAAAAATAATATCCTTACGAATGT
TGCAACAGCAGTGCCTATACTTGCTGTTGACCTGTAGGAGACAAAGTGAG
AAAAAAAAACAGGTAGGGAACAAAAAAATAAGAAAAACGTGCTGTTGACT
TGAAAAAAAATAAAGTGGGAAACGAAACAGGTCGGGAACAAAACAAAAAC
AATATCGTTAAAATTGTAAAGCTGTGCCAACTCTGCTGCTGACTTAAGTG
AAAAACAAAGCAGGTCGGGAACAAAAGCTGCAAGTGAATTTCGTTACGAA
TGTTGCAACAGCAGTGCCTACGGTTGACTTGTACGGAGTAAAAAATAAAG
TGAGAAAAAAAAAACAGGTAGGGAACAAAAATTCCAAGTAAATACCGTTA
CGAATGTTACAACAGTGCTTACTTGCTGTTGACTTGTAGTATATATGGTG
AGAAACAAAAACAGGTCGGGAACTAAAACAGCTACCGTGTTGCTACATTT
TTCCAACTGGTGTTCTGTGCGCACAGATCACCCGTGCGGCACAGGAGACT
GATGTTCTGTGCTCACAAGTGACCTGTTACATTTTTTCCAATTGGTGTTC
TGCGCTCACAGGTCACCTGTGCGGCACAGAACATTAGTGTTCTGTGCTCA
CAGGTCACCTGTTACATTTTTCCAAATGGTGTTCTGTGCCCACGGGCGAT
CCGTTACATTTTTCTTTTCAATTGGTGTTCTGCGCTCACAGGTCACCTGT
GCGGCACAGAACATTAGTCTTCTGTGCGCGTGACCTGCTATATTTTTCCA
ACTAGGGTTATGTGCCCACGGGCGATCTGTTACATTTTCTTTTCCAATTG
GTTTTCTGCGCTCACAGGTCACCTGTGCGACACAAACATTAGTGTTCTGT
GCGCGCAGGTGACCTGTTACATTTTTCCAAATGGTGTTCTGTGCCTGGTT
GACCTGTGGGCACAGAAAGTGTTCTGTGCCCACAGGTGACCTAGAACATG
TTCTGTCCTACGTGTCCAATTTTCATGCATCGATGTCGTAATCGTTGTGC
GTGCATGAACAGCAGCCACATAGTCATAATTGTAAAAGTAGCATGCCTAC
AAGACTACGAATAATAAAACTCGTTTTAATAATGCACGAATAATAACAAT
AATGATAATAACAACAATAATAATAACAATACTAAATAATAGAAATAACG
CTAGTTTAGTAATGATTTTGCCTGGAATACTTGATGAAAGAGTAACTAAC
TCTCGGCAATGCTTTCGAAATCTATGATGCTACCCATACTATTAGTAGTG
ATAATATTGCGTAGTGCCACACACCAACATGCGCTCACGTGTTGCTACAT
TTTTGTATCACGAAGGACATTGTGACGTCAATATGAGTAGTGATACTACT
GCGTAGTGCCACACACCGACATGCGCCCATGTGTTTCTACATGTTTGTCT
CAATGGTGCGATGGTCATTGTGACGTTAGTATTAGTAATGATATATATAT
GCGTTGTGCCACACACCGACATGCGCCGACGTGTTGCTAAATTTTTGTAT
CACGAAGGACATTGTGACGTCAATATCAGTAGTGATACTACTGCGTAGTG
CCACACACCGACATGCGCCCACGTGTTTCTACATGTTTGTCTCAATGGTG
CGATGGTCATTGTGACGTTAGTATTAGTAATGATATATATGCGTTGTACC
ACACACCAACATGCGCCCACGTGTTGCTAAATTTTTGTATCACGAAGGAC
ATTGTGACGTTAATATTAGTAATGATACTACTGCGTAGTGCCACACACCG
ACACGCGCCCACGTGTTTCTACATGTTTGTCTCAATGGTGCGATGGTCAT
TGTGACGTTAGTATTAGTAATGATATATATGCGTTGTACCACACACCAAC
ATGCGCCCACGTGTTGCTAAATTTTTGTATCACGAAGGACATTGTGACGT
TAATATTAGTAATGATACTAGTTGCGTAGTGCCACACACCGACATGCGCC
CACGTGTTTCTACATGTTAGTATCAATGGTGCAATGGTCATTGTGACGTT
AGTATTAGTAATGATGTATATGCGTAGTGCCACACACCGACATGCGCCCA
CGTGTTGCTAAATTTTTGTATCACGAAGGACATTGTGACGTCAATATCAG
TAGTGATACTACTGCGTAGTGCCACACACCGACATGCGCCCACGTGTTTC
TACATGTTTGTCTCAATGGTGCGATGGTCATTGTGACGTTAGTATTAGTA
ATGATATATATGCGTTGTACCACACACCGACATGCGCCCACGTGTTGCTA
AATTTTTGTATCACGAAGGACATTGTGACGTTAATATTAGTAATGATACT
AGTTGCGTAGTGCCACACACCGACATGCGCCCACGTGTTTCTACATGTTA
GTATCAATGGTGCAATGGTCATTGTGACGTTAGTATTAGTAATGATGTAT
ATGCGTAGTGCCACACACCGACATGCGCCCACGTGTTGCTAAATTTTTGT
ATCACGAAGGACATTGTGACGTTAATATTAGTAATGATACTACTGCGTAG
TGCCACACACCGACATGCGCCCACGTGTTTCTACATGTTATTACCAACGG
TTCGATGGACATTGTGACGTTAGTATTAGTAATGATGTATATTGCCTAGT
GCCGCACACCGACATGCGCCCACGTGTTTCTAATTCTTTGTATCAATGGT
GCGATGGTCATTGTGACGTTTCGCTCTTTTAGGTCTCCGCCACCTTGGAC
AAGGTCCAAAAGGCAACCGAGGACTACTTCGCGGGAATCCGAAGAACGGT
CTTCTCTTTCGACGAGGTATGATGTGTGTATCGTACCATATGGCAAAAGA
TCTCTTCGACGAGTGATGATACTGTATGCATGCATGCACGACACCTGATG
TATCTTTCTCGAAGAGGTGTTGGTGAGACTACTACTCAAGGTAAGACATC
TCTGTTGGCGAGGTTTGGTGTAAGCGTGGTGAGACATTTCGCGGGATACC
CCATGTATCCAAAGAAACGGTCTTCTCTCTCTTTCGACGAGTTTTGGCAC
GCATGACACGTGATGTCTGTTGCTCGGAGAGGTTTTGGTATGCCTATGGT
GAGATATCTCTCTTCACGAGGTGAGGCAGGAGCGTGGTGAGACGTTTCGC
GGGATATATCCGAAGAACAGCCTTCTTTTCCAACGAGGTACGACAAAAAA
ATTCGTTGGGCGAGTCGTGGTACATGACACGTGGTATAGCAGTATCTCTT
TCGAAGAGGTATTGGTAAGCCTATGCACGGTGAGACATCTCTGTTCACGA
GGTGAGGTAGGAGCTTGGTGAGACATTTCGCGGGATGTATCCGAAGAACA
AGAACAGTCTTCTTTTTTTTTCGACGAGGCATGGCAAGAACAAAACGGGC
GAGTCGTGGTGCACATGTCAACTGGTACGATACAGCAGCAGTATCTCTTT
CGAAGAGGCATCGGTAAGTCTATGGTTAGACATCTCTGTTCACGAGGTGC
GGCGGTAGGAGCGTGGTGAGACCCTTCGCTGGACATATCCGAAGAACGAC
CTTCTTTTTCTTTCGACGTGGTACATATGATGTGACAAAACATGTAGTTC
TGCGAGGCGTGGTAAACATGCGGTCACCACTTGATAAAACTCTTGAGCCC
CGCACTATAACCTTTATACTTGGAGACTCGAGGCAGTTTCTCTCGGCGGG
GTAACTAACTCAACAGCAAATTTCTCCGAAGTGTATAGGTTCAGTGTGGA
GCTCTCGGCTGAATACGAACAACATCTCGGTTGATTTGGTCTTCTTCCTA
CGGTCGAGTTCTGAATAAATTCCGAAAAAAATAAAATCCGATACGTTTTG
GGCTGAAAATCTCAACGGCCGGTACCTTGAGGTGGTCGTCGGCCGCATCT
GTTTTGACACCCGGTACGTATCTCTTTCGAAGAGGTATTGTAAGTGCACG
GTAGGATAGATCTCTTGGAGAGATTTGGTGCAAGCCTGCTGTGGTCCACC
GACTTTTTGTTGCCTCGACCGTAATGCCTCCTTCCGTTTTTCAGGTGATG
AACGAGCAGCGGCTGGCCCTGTACAGGGCGAGGGACGACGTGGTCAACAG
AGAGAAGGACGACTTAAGGGAGCTCGCTCTCGAGTACTCGGCCAAGACTT
GCACGGAGATTGTACAAGGGTGAGCAAAATCGAAAGCGAAGGGATCCGAT
CTTTTCATTTTTTGAACAGCGGGGAACCAAGCGACACACACACACACACA
CACGAGGTCCGGAACAAGGCTAACTGGAAGCTGTAGCTCGCACAAAGCCG
CTTTGTTTAACACGTACTCCCGGGTTGGAGTTGGTTGGACGTGGTGATGC
TCCCTGCACGCCCCAGATTACACACACATTTCATGCATGCTTTGTCCACT
ACCCCGTATCCCCCACGTGGCAGTAATTCGGCCAACGATGGAACTCCCAT
TTTGCACGCTCATGTACGCGATGTCCACTACCCCGTATCCCCCACGTGGC
AGTAGTTCGGCCAACCACGGAACTCCCATTTTTACACGCTCATGTACGCG
ATGTCCACTACCCCGTATCCCCCACGTGGCAGTAATTCGGCCAACGATGG
AACTCCCAAGGCGGTCCTCTCGGACAAGCTGAGGCAGTTCTTCCCCTTGG
CAGACGCCTCCGCCCTCTCTGCGGAAAGCCTAGCCGCTGCCCACAGCAAG
GGAGGAAAGGAGGGACTGTTGAAACACGCGCTTGACCAGGCTGCCTCCGC
CACGGAGAAGAAGGTGCGGCATGTACAGCCTTGCTCAAGCGACACACATA
GCCTTGCTCAAGCGCACGTTTAGCTTCGCGTTCCACGTGAACCGTAGTTG
AGAGCCCGGCTCGTGCTCGCCTGCAGACCAGATCTGGCCCGTGCTGGCTC
GCGTATCGTGTGACAGCATTGCGACGATTAGTATGATATCGATGTTTTCT
TAGCGCGTCGGATGCATCTACGTGGGACTCTCAGTTTTGAGGGGTCTTCT
AACGAAGATTTGGCGTTTTTCTTCATCATTTTCCCGGCATTGTTCTTTCC
GAAATTGGTCTCCCCGTGTGCTGCTCTGCCTGCGAGCCGCTCTCCAAGCA
TGTCACGTGGAAGTCGCCACGCAGAAAAGTGACGTGTGGGCGGTGTGGCA
CGCTCGAATTTGCTGCTGTCTCCAAAGGATGTGAAGTAGAAGTCACCACG
CATGAAAAGTGACGTGCACTTTGATACGCTCAAATTTGTTGCTGGGGCTG
CATTGTCCAAGGCCGAACCATGGTTTTAAGAGGCCCCGACGCCGTCCGCG
TCTATCTTAGCCCGGAGACCACAAACAAACACCTCCCACTGCTGTCTGTG
CTCCCCACCATGGGCCCCCCCAAAAAAAAAACCTACACGTTTTTTTTTTT
TTACCTTTCGGCCATCACAGACCGTGCTGTACCCCAACGGTTTCCTATCT
GATTTTGATTGGGTGACCATCGTAGACGATATTTCCCTCTCTTTTTTTCT
TCCTCCTAGCACGATATTGATGTGCCTGGTTGGTGACCATGGGCTAGACT
TGGGTGGTGGTCAACTAATGTCAGAATCAACAACAACAAGTGCGGGTCAA
GCGAGCCACCCTCCCAATGGTGTGAGCTACTGCTGTCTGCAGCTATAGCT
GTAGCTGTAGCTGTAGACCCGCAGTTCAGGAAACAAGGGCTCATGGCGTT
GAAAGACGGGTTTCAGGCTGAGCTGCGACGAGTGGTGTCTGGAATGCCGC
GCCACATGTCTTCGACCACCCGCGTCACAATCCCAGCAGCAGACCTGAGG
GCGCCCACACCGGCGTGGCCGCTACATCGCTCGTGTGTACTACTGATGTC
ATGCTTGGGGCGGTTTCTAACGAAATGGGAAGGTTTTGTGTTGTATTTTG
AGCTCCCACTACGGTACTGTAGTGTTTCCTGTTTTGAAGTGTATCTAGAG
GGTCGCTTGGATGTAGAGAAGACGAAAATACTACCGTAATCATGCGAGTC
ATCGCACCCCCGTGTTAGCTTTTTTGCATTCCGTATTGCTCCATAACTAG
GAGAGTGCGAACACCAAACGACCCGTCATACGAAAGCTCTCGACGAGATC
TTTCCAAAACCACCCTTTTCGGCAGTGGTACTCTTCTGGTTGTGGAGCAA
TACGGAATGCAAAAAAGCTAGCACGGGGGCGCGATGACTCGCATGATCAC
GGTACTACTCGTACTGCCATTGAGGTATCACATGTAGTCACGACGCGATA
TTTTTGTGGGAACGCACCGACTCCTGTCTCTCAGCCATTTTTGACAGCTC
CAACCCTCCCTCTGCTGGTATCATATGATACCCCTCTCGAGTGACATTTT
GGTGGTCTTTTGAGGTAAACGAGTAGAGTTCCGGGGCTCCTCTCGGCAAC
GATTTTGACCACGGTAACGATTACCGCGGTGTGATACTTCGCCTTCACGG
TATGATATTGACCGGTATTTTTTAGATGGTAATCGGCAACCCCGGTAATC
CATACCGTGATCCTCGGCTCTCATGGTAATAAACGGTATGTTTCTATGGC
TGTCGGCCACCCCGGTAAACCGTACCGCGTGGTACGAAGCCCCCACGATA
ATGGGTGGTATTTTTTATATGGTAATCGGCCACCCCGGTAAACCCTGCCG
TGGTATGGACTCAACTTTCAGCCACCACGGTAATGTACCGTATTTTCTGG
ATGATAATCGCCCACCCAATGATCGTACTTGAATTTTTTCAAAAGTGGCT
TATCGTGCCCACCAACAAGAATAAGCTCTTGGTATGCGGAATGTGTGTCA
CGCCCCTTTTGAGTGCAAGATGAAAGATGGTACTCCCCGACTCCCAGAAT
TCTTGGTAAGAGTATCGTATTACACGATTGTTTATCCCGGCGGACTCGAC
GTTTTTTTTCAACCACTCCCAGCGCCTTTGGTCTTCTTCAAACCACCCTC
CAAGCTGTTCAAGCTCCTCTTATTTTTTATTTTTTTATTTTACTTCGACT
TGCCCCTAGGAGGCCTTCGGGGGGCGCCGTGAATGCGCGCGCGCACATCA
CAACAACTGCTGTGTGTAAACTTTGTTTATTTTTTCTCGCACCGCAAGCA
TCTGGATGCACGATGCAAAACCAAATACAAGTACGCGAGAAGTGGGTGAG
ACCTGAAACACACGTACACTTTGATTTATTCTTGACCCCCTGACATTTCG
TGTTCTGCTCTACGCCCCCCTCCCCTACTCTCAATCATGAAACCAGCTGT
CAGATATCGAGGCGGTGAAGCCTGGGCTGGCCAGCGAGTCGGCACGGTTC
CTGACCCTCACCCAGATGGACGATCTCTGGTGCCAGCACCTCGAGAACAT
GAATCTGCTTAAGGAGAGCGTGTCCATGGAGGTGTTCAGGGGCAGGAACC
CTCTGGAGGAGTTTGGGTCACAGGTAATTTCATAATTCGAAGTACTTAGT
GAAATGTTTCGGCTGCCCCCCTCCCCCCCCTAGAAAAAGTCGTAACAAAC
AATCTTATAGTGCAAAGCACAAGCACACTGTCGAAACTGAAACTAAACCA
TTAGACCAGTCAGCGCTGACTGGTCCATTGGTTTGCTGACTGGTCTCAAT
GGGTAAGTTTCATCCTCTTATCATACAGAGGTTGAGTCGTGGGTTCGAGA
GCTGTTCGAACGGCGTTTCCACACAAGCATCATACCAGGGTAGCCCCTAT
TTGCAGTTTAACACTGCAAATAGCACCGTGCAGTTTAACTTGACAACACG
GTCTGATTGGCCAAAGGCCAACGGTTGCTTTTTTTCAAGAACGCCAACCG
AACGCGCGGCGACGCCGTGCAGAGGCCCCTTTCGCAACCGATCACCCCAG
AGGTCGGGCGTGTGGGTTAGGGTTAGGGTTAGGGATAGGGCTGGGTTGGT
CGGGAGCGGCATAGATCATGAAGAGTGTTGTTAAACTGCAAATAGGGGAT
ACCACATACCAGGGACGTACGTGTGCAGTCAACTTCGAGAAAATTCATTC
CCGGAGCCTCTGAGAAGGTATGGGGTGCCCACCCGCATACAAGTTGTTTG
GCCAGGGCGTTGGAAAATGATGCCACCCGAAAACATTCGTATAAATGAAA
TGACAGTACTCCAACAAGTCGATCCAGTGTTGCTTATGCCAGATTCCCCA
CGAGCGTCGGCCGTATGAAATTGTTCGTGAGGCGGCCCCGTTCGAACAGT
TCTCGAACCCATGACTTTCTTTGGTAGAAGCTGAAACTTCACCATTAGAC
CAGTCATTGAACCCATGACTTTCTTTGGTAGAAGCTGAAACTTCACCATT
AGACCAGTCAGCGCTGACTGGTCTAATCGTTTGGTTTCAGCTTCTACAAC
ACACGGGCACCCGATTGTTCCCAAACGTAAATTTGTTTGAGCGGCAGCGG
GAAGGGTTCGAAGGGGACGCACGGGGAACAGCTCAATAATCGGGGTCGAG
TTAAGTGTTGATCGACCTTTTGCCACACGCTGCATCGAAGTACACTTTCT
CGTGCTATATACAGACATCCAGTGTCATCATTATGGTTGTACATCTCAAC
GCTCTTTTCTCAAACTTCTGTAAGCAGAGTGACTTCGACGCCGGAGTCAT
CTCTGCATATTATCCGACGGTTAGAGCGGTAAATGCACTTCGTAGAATAC
TTCGTCAAAGAAAATCCAACCACGCTCTGCTTCATGGCAGCTTTGTTTTG
GTTAGGCTTCGACGTCTTGAAACACCAAGCTGAAGCCAATCATCGCGTGC
GATTACAACCCCCCCCCATATCCCGTGCTTGTGTACCACTGTAGGGCAAG
GAGATGTTCATGGACCTGCTGGACAACGTGCGGCGCAACACCGTCTACTC
GCTGCAGATGTACAACCCTAGCCCCAAGGCGGTGGTCGAGCCCTGACCAA
GAGCAAGACAAGACCGGACAAGACCGGACACAAACGCCGATATACTGCCG
GCGGGCTACGTATGATGCCAAGAACCCAGAAAGCAAGCTCGGCCCGACTC
TCCTCTTCATGAGGCCGTGGCCGAGGTAGTCCGTCGTATAGAAGTTTTTG
TGTAGGGCTCGAAACTGAGCCTGGCCAATTTCTGCAAAAAAAAATATCCA
GAATTTCAGCAGCGTCGGTTTCTTCAATGCCACTTTCTCGATAATACGAA
GTACTTCGAAGTATAATATGTAGCACGCCCACGAAAAAATGCTGCACAAC
ATAGTAGACGAACACCATTTCATTTCGGACTTTGATCGGGCGAAAACACA
TTTATTTGGTGGGTGCAAGGTATGATACACGGTATGATGCAGCAGTGTCG
AACCGTTCCGCTACGACCGTACACGACACTCGCTGTGCGGTCTACGTCTA
TCTGCATTTGACGGTAAACGCCATAGAGACAGTTCAGCACCAAGAAAGAG
CATTCGCGTTGGTGCTATCAGATCATAGTTCAGCGAACCGAACGCATCCT
TTTTTTTCTGTTTTTTTTTAAGTGGCGGCAGGGATGACGAACGCACGCGG
AGCCTGGATGTGTGTAGATTCATTACGCGGTGCCGCCATCATTGCTCAGC
TTGCATGTACGTAGTGGTTTTCAAGCTTGCGTTCTGTTAGACACCAGTTT
TATTTTTTCTCGGG
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Coding sequence (CDS) from alignment at P-littoralis_Contig176:180602..208415+

>mRNA_P-littoralis_Contig176.70.1 ID=mRNA_P-littoralis_Contig176.70.1|Name=mRNA_P-littoralis_Contig176.70.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2862bp|location=Sequence derived from alignment at P-littoralis_Contig176:180602..208415+ (Pylaiella littoralis U1_48)
ATGAAGAGAGCATCGGCAGCAACAACCTCTCTGCTGCTGCTGGTGAGCTG
TTCAGGTGGCTCTAGTCACGAGCGGCGTACACTGCGCAGGAGGAGAGCAC
CCGCCGAGGTGCTGCACATGGGCCTACTAGACGACCTGCTGACGTCCAAG
ACGGACCCGGTCAGCGCGGCAAACGTGGACGTGCTTGTGTCGTACGAGAC
TCGCGTCAAGAACATCAACGCCCTCGAGGACACCATCGAAGACCTGTCCG
ATGACGACCTCAGGGCCAAAACGCAGGAGCTCCGCGACAGGCTGTCGAAG
GGGGAGGGATTCGACGATATTATCGAGGAGGCGTTTGCGGTGGTCAGAGA
GGCCGCCTGGAGGGTGCTCGAGCTCAGACACTACGACGTCCAGCTCATGG
GCGGTCTGGCCCTCCACGAGGGCAAGCTGGCCGAGATGGCCACTGGGGAG
GGTAAGACTCTCGTTGCCACGCTGCCCTGCTACCTCAACGCCCTGGCGGG
CAAGGGGACCGTGCTAGTCGTCACCGCCAACGACTACCTCGCTCGGAGAG
ACGCCGAGACCATGGGACAGGTACATCGTTTCTTGGGGCTGAGCGTCGGT
CTGATCCAATCCACGATGCCCGAGGCCCAGAGAAAAGAGGCGTATTCCGC
CGACGTTACGTACGCCACCAACCAGGAGCTCGGGTTCGACTACCTCAGGG
ATCACCTGACCGTCACCAAGGACGGAGCTGTGCAGACGAAGGATTTCTTC
TTCTGCCTTGTGGACGAGGCGGACTCTATCCTCATCGACGAGGCCAGGAC
CCCCCTCATCATCTCCAGGAGCGTCGACGCCCCCGCGCAAAAGTTCGCCA
CGGCGCAGAAAATCGCCAGCGTTCTGGAGAAGGATGTGCACTACACGGTG
TCTGAGAAGGACCAGTCGGTGGTGCTGACGGACAAGGGCTACGACGACTG
CGACCGCATCTTGGGCAAGTCCATGTTCGACCCTAGGGACCCGTGGGCGC
CCTTCATCATCAACTCCGTCAAGGCGAAGGAAATTTTCACGAGAGACAAG
GAGTATATCGTGCGAGGCAACGAGGTGCTCATCGTGGACACGTTCAGCGG
CAGAGTGCTCGAGGGCCGGAGATACAGCGACGGCCTTCACCAGTGCATCG
AGGCCAAGGAAGGCATCACTGTGTCGAAGCAGAGCCAGGTGATGGCGCAG
GTGACGTACCAGGCGCTGTTCCGAAGCTTCCCCAAGCTTTGCGGCATGAC
CGGAACGGCCATCACCGACGCCAACGAGCTCGAAGGCACCTACGGCCTGG
AAGTCGTGCAGATCCCGACGGCTCTCCCCATCGCTCGGAGAGACTACCCG
GACGTCGTCTTCCGGAACCGCGTCGGCGCCAATGCGGCCATGCTCACCGA
GGTCGAGAGGCTGCACAAGGACGGCCGCCCCGTCCTCATCGGCACTACCA
ACGTCCGCATGTCCGACCAGACCGCTAAGGACCTCGAGGAGAGAGGGGTC
CCGTGCCAGACACTGAACGCCAACCCAGACCTGGTGGAGCGCGAGAGCGA
GATCGTGGGACAGGCCGGCCGTCTGGGCGTGGTGACGGTAGCGACTAACA
TGGCCGGCAGAGGGACGGACATCCTCCTCGGTGGAAACCCTTCCGTGATG
GCGAGGATCAGGGTGAGAGATGCCCTTGCCGAGGAGCTGCTCAGCGACGA
AGATCTCGCGGTAGTTCCCAAGGTCGGGGAAAACTTCTTCCCGTGCGATC
TCCTAGAAGAGGCGTTGTCGGCTCTCGAAAAGGCCATCGCTGTCTGCAAG
GAAGACAGCCCTGGCGAAGAGAAAATGTCGAGAGAGGCGCTCGAGGGTTT
GGTGTCGGCCGCCTGCGAAGCCGGGCCGGTGGAGGGGGCGGGGGCTGTGG
CGGTGCGGGAGGCGGCGGCTGCCGTGAAGAAGAGCTTCGCGGATGCCCTG
GCCGAGGAGAAGGAAAAGGTCCTCGAACTGGGCGGTCTGTACGTGGTGGG
CACGGCTAGACATGAAAGTCGGAGGGTGGACAACCAGCTGAGGGGCAGGG
CTGGCAGACAGGGGGACCCGGGGGCAACACGCTTCTTCCTCTCCCTAGAT
GACGACATATTCAGGGTGTTCGGAGGGGACCAGGTGACGAAGATCATGGA
CAGCTTCAGGCTCAGCGACGACATCCCCATCGAGAACAAACAGGTCTCCG
CCACCTTGGACAAGGTCCAAAAGGCAACCGAGGACTACTTCGCGGGAATC
CGAAGAACGGTCTTCTCTTTCGACGAGGTGATGAACGAGCAGCGGCTGGC
CCTGTACAGGGCGAGGGACGACGTGGTCAACAGAGAGAAGGACGACTTAA
GGGAGCTCGCTCTCGAGTACTCGGCCAAGACTTGCACGGAGATTGTACAA
GGTAATTCGGCCAACGATGGAACTCCCAAGGCGGTCCTCTCGGACAAGCT
GAGGCAGTTCTTCCCCTTGGCAGACGCCTCCGCCCTCTCTGCGGAAAGCC
TAGCCGCTGCCCACAGCAAGGGAGGAAAGGAGGGACTGTTGAAACACGCG
CTTGACCAGGCTGCCTCCGCCACGGAGAAGAAGCTGTCAGATATCGAGGC
GGTGAAGCCTGGGCTGGCCAGCGAGTCGGCACGGTTCCTGACCCTCACCC
AGATGGACGATCTCTGGTGCCAGCACCTCGAGAACATGAATCTGCTTAAG
GAGAGCGTGTCCATGGAGGTGTTCAGGGGCAGGAACCCTCTGGAGGAGTT
TGGGTCACAGGGCAAGGAGATGTTCATGGACCTGCTGGACAACGTGCGGC
GCAACACCGTCTACTCGCTGCAGATGTACAACCCTAGCCCCAAGGCGGTG
GTCGAGCCCTGA
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