mRNA_P-littoralis_Contig671.18.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig671.18.3
Unique NamemRNA_P-littoralis_Contig671.18.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A6H5KK43_9PHAE (ERD protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KK43_9PHAE)

HSP 1 Score: 1122 bits (2903), Expect = 0.000e+0
Identity = 567/775 (73.16%), Postives = 652/775 (84.13%), Query Frame = 3 
Query:  330 EENTSEWSPVWTTAAFAAAQGLVVYFLFECWRKQKNKRGIYQPRQTQRPHRTPEEPSSAPLSWLGSVNRVDDEETLKLVGMDHYVLLRHCLFGAKLTFIPSLIGVLLMVFVYRDGGGTEENFNEITMGNVKAQSSRLWFSVGFMYIVVLWALLLWWKEWENFVVKRFNFMAVGDPDMDKEVAFSAMIENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPKETKTKVGGVLCCGGEKVSTETHYTNELSKLLSEADKEHARISQVASQGAGSSVASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAADAKLLKAAGAAQGPSSTADHPFEGKAYVQGRSRHDVLSSPAFVSDSINRSISTNRTQSSLKKSEWETKPEGYRDPANSHKISRPRREMNIQTVESV 2654
            ++ +SEWSPV +TAAFAA QG++VY LFECWR+ KNKRGIYQPRQTQRPHRTP EPS+ P SWLGS+ +VDD E LK+VGMDHYVLLRHCL G KLT +P+L+G++LMV VYR GG  E NFNE+TM NV   S+RLW+SV FMYIVVLW LLLWWKEWENFV KRF F+A GDPDM+KEVAF+ M+ENIP+DKRSSPALYGYFDNLFPGKVSYASLCMHS DLE TL +K  AL KIEHAVAQ+HL+PPKET T+VGGV CCGGEKVS+E H+  EL++LL+EA+KEH+RISQ AS+GAGSSVASSTGFVAFTSAATKLAA+ LSLSGKL+ MDAH APAP+DVIWDNVT PAL V  K KIANC+WM GILFWA+PVAVVL  +DL+AL +R  WIPLP+P SFL+GLI+GLLPVVALAVLTALVPIVIR+VA+KFCRMKSEADVDLYVFKWHFGFRVANLWL+I+GGS+INQLDPF+++P SIVDLLG SVPGK+QFFLNSL+V+LL+GLAMDLSR+IP+II  + GA A+D GKSDRELR++Q APSLNWGVFYP LLFVLL+VFCYAAIAPI+LP AC++Y GS+LVYKNQAL+V+VQTAESGG SMYLLF FSMA LYIGEVVFLAY+G+K G  +   A++LI IT  WH+ VN +FVEMSK QC+EAAVAAD KLLKA  AAQGPSS+ADHPFEGKAYVQ                            SSLKKSEWET PEGYRDPAN+ K+  P  E+  + VE V
Sbjct:    5 DQTSSEWSPVISTAAFAALQGVIVYALFECWRRNKNKRGIYQPRQTQRPHRTPCEPSAGPFSWLGSIGKVDDSELLKMVGMDHYVLLRHCLMGFKLTALPALLGIVLMVLVYRTGGNGEVNFNEVTMANVTKGSTRLWYSVAFMYIVVLWTLLLWWKEWENFVPKRFKFLAEGDPDMNKEVAFATMVENIPEDKRSSPALYGYFDNLFPGKVSYASLCMHSSDLEATLEKKQEALEKIEHAVAQRHLEPPKETMTRVGGVACCGGEKVSSEVHFKGELARLLAEAEKEHSRISQDASKGAGSSVASSTGFVAFTSAATKLAAAGLSLSGKLNNMDAHNAPAPNDVIWDNVTAPALFVDGKKKIANCVWMAGILFWAIPVAVVLAISDLDALKQRWDWIPLPSPSSFLYGLIAGLLPVVALAVLTALVPIVIRLVAIKFCRMKSEADVDLYVFKWHFGFRVANLWLLIIGGSIINQLDPFVKDPGSIVDLLGVSVPGKAQFFLNSLIVSLLAGLAMDLSRIIPLIIKTIMGALADDVGKSDRELRNAQAAPSLNWGVFYPELLFVLLIVFCYAAIAPIVLPTACLLYLGSYLVYKNQALYVYVQTAESGGGSMYLLFSFSMACLYIGEVVFLAYIGIKDGSYETIAAVVLIFITIFWHMHVNKKFVEMSKVQCLEAAVAADNKLLKAT-AAQGPSSSADHPFEGKAYVQ----------------------------SSLKKSEWETSPEGYRDPANASKL--PGSEVEHRMVEEV 748
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A835Z8B3_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z8B3_9STRA)

HSP 1 Score: 409 bits (1051), Expect = 6.540e-120
Identity = 246/619 (39.74%), Postives = 354/619 (57.19%), Query Frame = 3 
Query:  876 FSAMIENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPKET-KTKVGGVLCCGGEKVSTETHYTNELSKLLSEADKEHARI-----------------------------SQVASQGAGSSVASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAADAKLLKAAGAAQGPSSTADHPFEGKAYVQGRSRHDVLSSPAFVSDSINRSISTNRTQSSLKKSEWETKPEGYRDP-ANSHKISRPRREMNIQ 2639
            ++A++E IP  KRSS AL+GYF ++FPG+VS A+LCM +  LE T+ ++D AL  IE A A     P K   +TKVGG  CCGG+KV   TH+  EL  L ++AD EH  +                               +A   A S  ASS+GFV FTS  TK AA+   ++     M+  +APAP+DV+W NVT P      K  IAN  +  GILFWA+PV      A+LE L E+  W+ +P  G+ L+GL+SG LPV+ L VL  LVPIVI + A KF ++K+++ VD Y+F+WHFGF+VANL+L+I+GGS+  QL   I +PS I+ LL S++PG SQ+F+N L++  + GL M+LSRV+P+II+M+ GA   ++  + REL      PS  WG+ YPPL+F  +V   Y  + P+I PV  + Y  +++V+K+Q L V+ Q +E GGA   +L+ F   +L   EVV + Y G+ K P QA LA++ +  T L++  V+T +V  ++   +E A   DA   K  GA   P+S      E  AY       DVL S  +   ++ RS+             WET+P  YRD  A++  +SR  +   ++
Sbjct:  379 YTALVEGIPASKRSSAALFGYFAHVFPGQVSKATLCMDTQALEQTIGKRDQALVGIEKAEAFSIAKPDKPPMQTKVGGKACCGGKKVDAATHFKEELETLNTQADNEHRDVVALNAAITDRDLVPLRRTSSKNQADAASPEDIAVSKAWSKGASSSGFVTFTSLVTKSAATQCQVAVYPQIMETFSAPAPNDVLWHNVTMPIDDQRRKRAIANAFFTVGILFWAIPVMFTQTVANLEGLREKCPWLWIPDQGTALYGLLSGYLPVILLVVLMILVPIVIGLAASKFFKVKAQSQVDEYIFRWHFGFQVANLFLVIIGGSIFTQLSAAISDPSGIITLLASALPGASQYFMN-LVIVAIGGLGMELSRVVPIIIAMLMGALKPEKALTQRELDARMTPPSFAWGIIYPPLIFSFMVGMTYVCLVPVIQPVVALYYGLAYVVFKHQVLHVYHQRSEGGGAYFPMLYSFLTYALACAEVVMIVYFGIAKAPAQAVLAVVPLVATLLFNRHVSTHYVPSTRMLALEIAREVDAYTEKNGGAGPVPAS------EFGAYT------DVLESAEYAQPALRRSL-------------WETQPRPYRDGGAHAQDVSRTYKSYGVE 971
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: B7G8J8_PHATC (Early-response-to-dehydration protein n=2 Tax=Phaeodactylum tricornutum TaxID=2850 RepID=B7G8J8_PHATC)

HSP 1 Score: 372 bits (956), Expect = 1.380e-108
Identity = 247/709 (34.84%), Postives = 368/709 (51.90%), Query Frame = 3 
Query:  348 WSPVWTTAAFAAAQGLVVYFLFECWRKQKN----KRGIYQPRQTQRPHRTPEEPSSAPLSWLGSVNRVDDEETLKLVGMDHYVLLRHCLFGAKLTFIPSLIGVLLMVFVYRDG---GGTEENFNEITMGNVKAQSSRLWFSVGFMYIVVLWALLLWWKEWENFVVKRFNFMAVGDPDMDKEVAFSAMIENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPK-ETKTKVGGVL-CCGGEKVSTETHYTNELSKLLSEADKEHARISQVASQGAGSS-----------------------VASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEE--PSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGG-ASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAAD 2369
            WS +W T   +  QGLV Y  F  +R+ K+    +  +Y+PRQ  R HR+P  P  A  SW  +   V  EETL+ VG+D Y+ LR    GA++  +  ++  L+++  Y  G   G + + FN++T+  V A S RLW S+   +I V + L   W EW  +   R+ F+A GD DM K   ++  +E IP   R+  AL  YF+ LFPG V  A++   +  L+  + E+   + K+E AVA  H  P K   K KVG  +  CGG       HY  E+ +L    D E +      +  A SS                         +ST FV F++  TK AA    L+G    M    AP P  V+W N++ P  Q       A  +W+ GILFWA PV+ V   A+L ++ E    +    P +F +GL+SGLLPV+ALA+L A++ + I   A +F R KS A+VD Y   WH  F+ ANLWLI++GGS+ NQ+D  I +   S+IVD++ S++PG S FF+N +LV+      M+LS +    I ++      +  ++ R+L   +  PSL WG   PP++F+ LVV  Y  I P++     + + GS+LV K+Q L V+ Q  E GG A+   LF F +A LY+GEV+F+AY+G+K+ P Q  L    +  T +    +    ++      +E A   D
Sbjct:   13 WSGIWVTGLVSFVQGLVFYSFFR-YRRGKDAPAEQYDLYEPRQHTRQHRSP--PPFAG-SWYKAAWNVSQEETLRCVGLDSYMFLRFLRLGARICTMGCVLA-LVLIPTYATGEERGRSTQQFNQLTLARVSADSKRLWASLIAWWIFVGFVLYELWNEWVLYAHNRYEFLARGDVDMPKGYRYAVRVEQIPPAYRTDQALLDYFERLFPGSVEQATVFWKTDKLQALIDERQVTIEKLESAVAFTHGKPNKPRPKVKVGATMGLCGGSPTDAIEHYKIEIDRLNEAIDMERSMFDSSEAGKATSSKRVDVDDGNIETSFSAEDQHSGKADTSTAFVTFSNLRTKQAAVQCELTGNPDSMIIFPAPDPKGVLWKNISVPLPQQKILQVQAAALWLAGILFWAAPVSFVTSIANLNSILESIG-VDSANPDAFWYGLVSGLLPVIALAILMAVLYMAIVAAAKQFVRYKSMAEVDAYALYWHQLFQFANLWLILIGGSVFNQIDALISDFNISAIVDIIASALPGASVFFVNMMLVSSFGSFGMELSMLPTYGIKLIMQMIQPEAMRTQRQLDQGKEPPSLEWGQKVPPVVFMFLVVVLYMPIVPLMEVFGLIYFAGSYLVMKHQCLHVYAQEFEGGGDATWQKLFGFLIACLYMGEVIFIAYMGIKEAPAQGVLGFFPLVGTIIMQAVLKRNIIQPLANLSLEVAATVD 715
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A835ZHV1_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZHV1_9STRA)

HSP 1 Score: 326 bits (835), Expect = 7.860e-91
Identity = 192/454 (42.29%), Postives = 265/454 (58.37%), Query Frame = 3 
Query: 1239 VASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYG-SFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAADAKLLKAAGAAQGPSSTADHPFEGKAYVQGRSRHDVLSSPAFVSDSINRSISTNRTQSSLKKSEWETKPEGYRDPAN 2597
            VASSTGFV   S   K AA    ++G+    +   AP P DVIW+NVTTPA     K  I N  W+ GILFWA+PVA     A+L+ L ++  W+ +P   S L+GLISG LPV+    L AL+P+VI + A KF ++KS++ VD Y+FKWHFGF++ANLWLI++GGS+INQL P I +P+S V  + S+VPG SQFFLN ++ ++   L ++LS +I V++++       D  +S REL  S+   SL WG  YPP++F LLV   Y  I PII P  C +Y+G ++L+YK+QAL V+ Q  E GGA   LLF   M  LY  EVV + Y G+KKGP Q  LA + +  TFL+   V   +V  ++   +E+A  AD  L +  G   G S   +   EG       +   ++ S  +V             Q +L++S WET P  YR  AN
Sbjct:  443 VASSTGFVTLASLVAKQAAVQCDIAGRPGAYEVLPAPEPRDVIWENVTTPAAAQKKKKSICNAFWILGILFWAIPVAFTQAVANLQGLKQKLPWLWIPPTNSVLYGLISGYLPVILFLALMALIPVVITLSAKKFIKLKSQSAVDTYLFKWHFGFQLANLWLILIGGSIINQLSPMIADPTSTVTYVASAVPGASQFFLNIIITSIFLKLFLELSCIIGVVLNIFKRMIKKDECRSQRELDASRQPKSLVWGKIYPPVIFNLLVALVYICIVPIIQPF-CALYFGLAYLIYKHQALHVYAQPTEGGGAYFPLLFTMMMGCLYTAEVVMIVYFGIKKGPAQTPLAFVPLIATFLFDRYVRKEYVHFTRMLALESAAEADVGL-RTRGGEGGTSVGGEEVKEGWGTGTAVAPLHMVDSDYYV-------------QPALRRSTWETDPLPYRTNAN 881
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A835ZAD0_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZAD0_9STRA)

HSP 1 Score: 287 bits (734), Expect = 6.810e-76
Identity = 183/495 (36.97%), Postives = 263/495 (53.13%), Query Frame = 3 
Query: 1245 SSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAP--GSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVA--------------------------NLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVT------------GAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYG-SFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAADAKLLKAAGAAQGPSSTADHPFEGKAYVQGRSRHDVLSSPAF-------VSDSINRSISTNRTQSSLKKSEWETKPEGYR 2585
            S+TGFV F+S A K AA+  +LSG+    +   AP P D++W NVTTP      +  +AN +W  GILFWAVPV      A+LE L  +           G+ L+GL+SG LPV+ L VL  L+PIVI +   KF ++KS++ VD Y+F+WHFGF+VA                          NLWL+++GGS+ NQL P +++P+S V L+ S++PG SQFF+N +L    +GL M+LSRV+P ++  V             G    D  ++ REL       SL WG  YPP++F+LLV   Y  I P++ P AC V++G +++VYK+QAL V+ Q AE GGA   LL+    A LY  EV+ L Y G+K+G  QA L+L  I  TF ++  V+T +  +S+   +EAA   D                A            RSR  +L+ P+        V    +        Q +L++++WET+P  YR
Sbjct:  714 SATGFVTFSSLAAKQAAAQCALSGRAGAFETAPAPEPRDILWQNVTTPVAVQRRRRFVANALWTVGILFWAVPVGFTQMIANLEGLRAKIXXXXXXXXXXGTALYGLLSGYLPVILLLVLMMLLPIVISLSGTKFMKLKSQSAVDEYLFRWHFGFQVATLSLAESMPTGHSTQLLKFTRATPVANLWLVLIGGSIFNQLTPMMDDPTSTVTLVASAMPGASQFFMNMVLTQTFAGLGMELSRVVPCVVGAVMRKASKRPRKSWMGHITPDAARTQRELDARTEPGSLTWGTLYPPIIFILLVALVYVCIVPVLQP-ACAVFFGLAYVVYKHQALHVYGQRAEGGGAYFPLLYSLISACLYTAEVILLVYFGIKRGAAQAVLSLGPIAATFAFNRYVHTHYECVSRTLALEAAREGD---------------MAAXXXXXXXXXXXRSRSGMLAEPSQEEVKEEGVGSYASMLEEQEYAQPALRRAQWETRPMPYR 1192
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A7S1UM43_9STRA (Hypothetical protein (Fragment) n=1 Tax=Grammatophora oceanica TaxID=210454 RepID=A0A7S1UM43_9STRA)

HSP 1 Score: 261 bits (668), Expect = 2.120e-72
Identity = 169/508 (33.27%), Postives = 262/508 (51.57%), Query Frame = 3 
Query:  888 IENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPKET-KTKVGGVLCCGGEKVSTETHYTNELSKLLSEADK-EHARISQVASQGA---------------------------------GSSV------------------ASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMY-LLFRFSMASLYIGEVVFLAYVGLKKGP 2249
            +EN+P   RS+P L  YF+ LFP +V   S+CM++  L+  +AE+   +  +E AVA  +  P K   KT    V CCG  KV    ++ +E+++L  E D    A +S+ ++Q A                                 G++V                  ASSTG+V FTS   K AA    +SGK   +D  AA  P+ VIWDNVTTP  Q      +    WM G+LFWAVPVA V   A+L  L +    +P   P S  +G++SGLLPV+ L +L  ++ + I   A    + KS  +VD Y   WH  F+ ANLWLI+ GGS I++LD  +  P  +V  + +++P +S FF+N +++       ++LS +    + ++      +  K+ R+L D Q  PS+ WG   PP++F+ LV   Y  I P++   A + + G+++V+K+Q L V+    E GG   +  +F F +ASLY+ E++++ Y+GLK+ P
Sbjct:    3 VENVPPTLRSTPQLRSYFERLFPNQVRDVSVCMYTKALDKLIAERQKNIEALEKAVAFTNAKPDKPAPKTSTSMVPCCG-PKVEAIPYHRSEIARLNDEIDTAREAVLSEASAQVATDTDVPEEAVEYPNDNASNEQEVELVAKDYDNLGTNVVVEGGTDDVAEATADNGSASSTGYVTFTSLKAKQAAVQCEISGKKDRVDVFAASEPNGVIWDNVTTPLTQQRVVEMVMAAFWMVGVLFWAVPVAFVTALANLNGLLKSVG-LPEQDPNSAWYGIVSGLLPVIFLQILMIVLYLCIVACAKMIIKKKSMPEVDTYALFWHQLFQFANLWLILFGGSAISELDTLLNNPDELVRSIAAALPAQSVFFVNYIILASFGAFGLELSMLPTYGVKLLLSMIQPEASKTQRQLDDEQVPPSVIWGRIIPPMIFIWLVSIVYMTIVPMMSVFALVFFSGAYIVWKHQCLHVYASEFEGGGTVTWQTVFVFLLASLYMAELIWVGYMGLKEAP 508
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A7S4JH78_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4JH78_9STRA)

HSP 1 Score: 254 bits (650), Expect = 1.020e-68
Identity = 145/376 (38.56%), Postives = 214/376 (56.91%), Query Frame = 3 
Query: 1245 SSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYL-LFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAAD 2369
            SST FV F S  +K  A    LSGK+  M+A  AP P  V+W N+  PA +  +   +A  +W  G+LFWAVPV+ V G A+L  +   A  +PL    SFL+GLI+GLLPVV L +L  ++   I M A KF   KS  +VD Y F WH  ++ ANLWLI++GGSL NQ+D  + +P+S+  LL S++PG S FF+N +  +  +   M+LS+++P ++      F     ++ R+L +    PS+ WG   PP +F+LLV   Y  I PI+   A + + G ++V+ +Q L  + Q  E GG  ++  L  F   SLY  E +F AY+GLK G  QAA+AL+ +G+T + H ++    +       +E A   D
Sbjct:  153 SSTAFVTFASLRSKQCAIQCELSGKVDRMEATPAPEPTGVLWSNIPYPAERQQYSQMVAAILWTAGVLFWAVPVSFVTGIANLNGI-LSAVQLPLMDESSFLYGLIAGLLPVVFLKILMIVLYKSIHMSASKFIHKKSVPEVDGYTFYWHQLYQFANLWLIVLGGSLFNQMDALLNDPASVATLLASAMPGASTFFVNMIAASSFASFGMELSQIVPYVMRAAMDKFIPKEKRTQRQLDEGTDPPSIEWGKHLPPAVFILLVSLVYMPIVPIVDAFAAVYFGGMYVVWSHQCLHSYAQEFEGGGQPVWENLSMFIFVSLYTSESIFFAYMGLKNGKGQAAMALVCLGMTVVLHGRLRRNVMRPLSNLALEMAAYVD 527
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A7S1YQP2_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1YQP2_9STRA)

HSP 1 Score: 201 bits (511), Expect = 1.780e-48
Identity = 133/420 (31.67%), Postives = 202/420 (48.10%), Query Frame = 3 
Query: 1146 HYTNELSKLLSEADKEHARISQVASQ-----------------------GAGSSVASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALAL-ILIGITFLWHLQVNTRFVEMS 2333
            +Y +E+ +L  E + EH RI +   +                       G G  +   TGFV F +   K +A   +++G    M   +AP P D++W+N T     +  K    + +   G L W+V V  +   ++L+ L     W+ +PA  SF +GLI G LPV+ L +L   +  ++R +  K  R K +++VD +VF+WHFG+RVANL +IIV  SLI  LD     P   +  L   +   SQFFLN+++V   S    +L+++  +I   V          S R L   + A   +WG   P  +F  LV   Y  I P+++    + +Y S  VY +Q LFV+ QT E GG  MYLL R     +YI  V+F   +GLK+    A   L I+   T +   ++N  FVE S
Sbjct:  708 YYLSEIKRLNREVECEHRRIMEERQKSEDKYLSQSVLAANLAQTMKFMTGVGGDLTCDTGFVEFNNLTAKQSALQCNITGTNQYMVTKSAPDPRDIVWENATVERGTINIKKFQMDSLLFAGTLTWSVVVIGITSISNLDRLTFLPDWL-VPATDSFWYGLIQGYLPVIVLELLMLFILFLLRFIGEKVIRFKVKSEVDKFVFRWHFGYRVANLVIIIVSRSLIETLDALRTNPQDFIFQLAGGISASSQFFLNNMIVAAGSENLWELAQITNMIFHFVMHKITTVEATSKRALEKLEEAERFDWGEVVPTFIFSFLVAAVYVTIVPLVIGACALFFYISTKVYTHQVLFVYAQTYEGGGKLMYLLNRTVFVIIYISVVIFATVLGLKEAKVAAPFFLFIMFMTTLIVDKKINNTFVEPS 1126
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BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A812REC8_SYMMI (RSN1 protein n=1 Tax=Symbiodinium microadriaticum TaxID=2951 RepID=A0A812REC8_SYMMI)

HSP 1 Score: 196 bits (497), Expect = 1.910e-48
Identity = 161/617 (26.09%), Postives = 289/617 (46.84%), Query Frame = 3 
Query:  660 VYRDGGGTEENFNEITMGNVKAQSSRLWFSVGFMYIVVLWALLLWWKEWENFVVKRFNFMAVGDPDMDKEVAFSAMIENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPKETKTKVGGV-------LCCGGEKVSTETHY------TNELSKLLS------------EADKE------------------HARISQV--ASQGAGSSVASSTGFVAFTSAATKLAASSLSLSGKLH-EMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAP-SLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAAD 2369
            V++DG       N  TM N+     RL+ S    ++     +L+  +E++ FV +R  F+   DPD+  +  +S +++NIP   RSS  L+  FD++FPGKV  A +     +LE  +  +   L ++E A+A  H         K+ GV       LCCG +  + E +        NE+  L S            EAD                       ++Q   A+Q   +   + TGFV F S    L+A  + +   ++  +    A    ++IW+N++  + Q      +   ++  G++FW   +  +   ++LE+L +   +I      S  + L++GLLPV  +    +L+P++    A    +  S + V + VF W F +++ N+ + I+ GSL   L   ++ PSSIV LLG+S+PG S FF N  L   + G A +L ++IP  +        N+R  + R+L        S+++G + P +LF+  +V  Y  ++P+++    + +    +V K   L+VFV   E GG   + LF +S   L++  ++ + Y+G+K+G  QAAL   +  I  ++   +N ++  +++      AV +D
Sbjct:   13 VHQDGVA---GVNLYTMANINKNGDRLYASAICCWLFATLFILMIEEEYKEFVSRRQAFILKDDPDVSAQKRYSVIVQNIPVHFRSSKKLHELFDHIFPGKVHSAQIAYALIELEKCIERRTEILMQLELAIA--HFKASDMKDRKLVGVNKEHKEALCCGTKVDAIEFYQGQLDLVNNEIQTLRSASLRAVPADPIGEADDRPSGNGVSLLEKGTPRCDGETEVAQSVGAAQDQPTGSPAGTGFVTFNSRTACLSAYRVGMLSDVYPNLKVQPAGPSTEIIWENLSYSSKQAAGGKSVTKTVFTAGMVFWGSVLVFIGAISNLESLEKYLPFIE--DLDSTTYSLLAGLLPVAVMGYFLSLLPVIFAYGAKNVEKATSMSAVQVEVFHWLFSYQLTNVVVTILSGSLFTSLVDALDNPSSIVTLLGASLPGISVFFGNFTLSAAVIGSAAELLQIIPFAVFTAYRILFNERTLTKRQLVTGPLEDRSMDYGAYLPAVLFIFYIVLIYWVMSPLVVLFGSIYFLAKGVVLKYLFLYVFVPKFEMGGKFYFNLFSYSFRGLFLSSIIMIVYMGIKQGSVQAALIFPIPIIIHVYWKHLNHKYEHLAQDLAYWRAVESD 622
[Close]
BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Match: A0A2B4T0B0_STYPI (Putative membrane protein C2G11.09 n=3 Tax=Pocilloporidae TaxID=46729 RepID=A0A2B4T0B0_STYPI)

HSP 1 Score: 189 bits (480), Expect = 4.610e-46
Identity = 160/653 (24.50%), Postives = 301/653 (46.09%), Query Frame = 3 
Query:  417 CWRKQKNKRGIYQPRQTQRPHRTPEEPSSAPLSWLGSVNRVDDEETLKLVGMDHYVLLRHCLFGAKLTFIPSLIGVLLMVFVYRDGGGTEENFNEITMGNVKAQSSRLWFSVGFMYIVVLWALLLWWKEWENFVVKRFNFMAVGDPDMDKEVAFSAMIENIPQDKRSSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQKHLDPPKETKTKVGGVLCCGGEKVSTETHYTNEL----SKLLSEADKEHARISQVASQGAGSSVASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDVIWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERASWI-PLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEADVDLYVFKWHFGFRVANLWLIIV-GGSLINQLDPFIEEPSSIVDLLGSSVPGKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRDSQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKNQALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAALALILIGITFLWHLQVNTRFVEMSKKQCMEAA 2357
            C  +QK+K  IY PRQ       P +   +  SWL     V D+E     G+D  V +R      K+  +    G+++++ V   GGG      +I + N+  +SS++W      ++  L    L + EW+ F+V R  ++  G         ++ ++ ++P+  +   +L G+ + LFP +V    +       +  + E+D    K+EHA A       + T  K    +CCG  K  + T Y  EL    +KL +E +K+H  +                 FV F S  +   A+          +D   AP    V+W N++    +   +T +   +    + FW VPVA V    +L+ L + A ++ P+    SF+ G I G L  +AL +  A++P+V+++ + K   + S+++VD       + F + N +L +   GS +N+L    ++PS I   L  ++P +S FF+  +++  L+G A+ L R++P+I+  +   +     K+ RE   +   P + +   +   LF+L+V   Y+ +APII P   + +   ++V+ +Q L V++     GG     +F   + +  + +++    +GLK+    + L L L  IT L++  +   ++  ++   + AA
Sbjct:   42 CILRQKHKI-IYAPRQLLIDTLAPGKRPQSFFSWLFPAFTVKDDEVFLYAGIDAVVHMRFMKLCFKIALVLMPYGIIVLIPVNYFGGGDLSGLEQIALSNIVPKSSKVWAHTVAAWVYTLIICYLLYTEWKAFIVYRQQYLNKG-----MGYQYAVLVRDLPEKFKDYESLKGHVEELFPDEVEDVVIVEDLKKWQELVNERDALKWKLEHAKAVFEQSGERPTHKKF---ICCG-TKFDSITQYGAELETAQAKLDAETEKKHTLLPS--------------SFVVFRSLRSSTLANQADWDNSPLAVDVMPAPELTSVLWTNLSIGLWERKLRTVLIYTLVFLLVFFWTVPVAFVSTLVELQNLTKIAPFLKPVLELSSFVKGAIEGFLSGLALIIFFAILPLVLQLFS-KLEGIPSQSEVDRSTLGKLYIFMLVNKFLFLTFAGSALNKLKEMADKPSQIPSFLAEALPSQSTFFICFIMLATLTGYALQLLRIVPLILVSIKRKWLV---KTPREDELAWKPPPILYDRVFANHLFILIVGLSYSTLAPIITPFVALYFGFGYIVWMHQTLSVYIPVYSCGGMMWPRVFNRMIIATVVFQLLMFGVIGLKQSYAASVLILPLPVITVLFYFFILQHYIRPAENLSLSAA 666
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig671.18.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KK43_9PHAE0.000e+073.16ERD protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0... [more]
A0A835Z8B3_9STRA6.540e-12039.74Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
B7G8J8_PHATC1.380e-10834.84Early-response-to-dehydration protein n=2 Tax=Phae... [more]
A0A835ZHV1_9STRA7.860e-9142.29Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A835ZAD0_9STRA6.810e-7636.97Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A7S1UM43_9STRA2.120e-7233.27Hypothetical protein (Fragment) n=1 Tax=Grammatoph... [more]
A0A7S4JH78_9STRA1.020e-6838.56Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]
A0A7S1YQP2_9STRA1.780e-4831.67Hypothetical protein n=1 Tax=Ditylum brightwellii ... [more]
A0A812REC8_SYMMI1.910e-4826.09RSN1 protein n=1 Tax=Symbiodinium microadriaticum ... [more]
A0A2B4T0B0_STYPI4.610e-4624.50Putative membrane protein C2G11.09 n=3 Tax=Pocillo... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig671contigP-littoralis_Contig671:92925..118579 +
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.D7FTY9
PFAMsPHM7_cyt,RSN1_7TM,RSN1_TM
Model size4257
Max annot lvl2759|Eukaryota
KEGG koko:K21989
Hectar predicted targeting categoryother localisation
Exons21
Evalue0.0
EggNOG OGsCOG5594@1|root,KOG1134@2759|Eukaryota
Ec32 ortholog descriptionDomain of unknown function DUF221
Ec32 orthologEc-07_002900.1
Descriptionion transport
Cds size2346
COG categoryI
BRITEko00000,ko02000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791400.1376798-UTR-P-littoralis_Contig671:92924..932381680791400.1376798-UTR-P-littoralis_Contig671:92924..93238Pylaiella littoralis U1_48UTRP-littoralis_Contig671 92925..93238 +
1680791400.4529645-UTR-P-littoralis_Contig671:116982..1185791680791400.4529645-UTR-P-littoralis_Contig671:116982..118579Pylaiella littoralis U1_48UTRP-littoralis_Contig671 116983..118579 +


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

Feature NameUnique NameSpeciesTypePosition
1680791400.1541944-CDS-P-littoralis_Contig671:93238..933131680791400.1541944-CDS-P-littoralis_Contig671:93238..93313Pylaiella littoralis U1_48CDSP-littoralis_Contig671 93239..93313 +
1680791400.168445-CDS-P-littoralis_Contig671:93786..938521680791400.168445-CDS-P-littoralis_Contig671:93786..93852Pylaiella littoralis U1_48CDSP-littoralis_Contig671 93787..93852 +
1680791400.1824758-CDS-P-littoralis_Contig671:98792..988411680791400.1824758-CDS-P-littoralis_Contig671:98792..98841Pylaiella littoralis U1_48CDSP-littoralis_Contig671 98793..98841 +
1680791400.1985471-CDS-P-littoralis_Contig671:100058..1001791680791400.1985471-CDS-P-littoralis_Contig671:100058..100179Pylaiella littoralis U1_48CDSP-littoralis_Contig671 100059..100179 +
1680791400.2149098-CDS-P-littoralis_Contig671:100695..1008061680791400.2149098-CDS-P-littoralis_Contig671:100695..100806Pylaiella littoralis U1_48CDSP-littoralis_Contig671 100696..100806 +
1680791400.2270432-CDS-P-littoralis_Contig671:101325..1014151680791400.2270432-CDS-P-littoralis_Contig671:101325..101415Pylaiella littoralis U1_48CDSP-littoralis_Contig671 101326..101415 +
1680791400.2391493-CDS-P-littoralis_Contig671:101666..1018021680791400.2391493-CDS-P-littoralis_Contig671:101666..101802Pylaiella littoralis U1_48CDSP-littoralis_Contig671 101667..101802 +
1680791400.255146-CDS-P-littoralis_Contig671:102558..1026781680791400.255146-CDS-P-littoralis_Contig671:102558..102678Pylaiella littoralis U1_48CDSP-littoralis_Contig671 102559..102678 +
1680791400.2709672-CDS-P-littoralis_Contig671:103247..1033461680791400.2709672-CDS-P-littoralis_Contig671:103247..103346Pylaiella littoralis U1_48CDSP-littoralis_Contig671 103248..103346 +
1680791400.282522-CDS-P-littoralis_Contig671:105006..1050481680791400.282522-CDS-P-littoralis_Contig671:105006..105048Pylaiella littoralis U1_48CDSP-littoralis_Contig671 105007..105048 +
1680791400.3025382-CDS-P-littoralis_Contig671:106479..1065871680791400.3025382-CDS-P-littoralis_Contig671:106479..106587Pylaiella littoralis U1_48CDSP-littoralis_Contig671 106480..106587 +
1680791400.3135798-CDS-P-littoralis_Contig671:107019..1070851680791400.3135798-CDS-P-littoralis_Contig671:107019..107085Pylaiella littoralis U1_48CDSP-littoralis_Contig671 107020..107085 +
1680791400.326082-CDS-P-littoralis_Contig671:108791..1089131680791400.326082-CDS-P-littoralis_Contig671:108791..108913Pylaiella littoralis U1_48CDSP-littoralis_Contig671 108792..108913 +
1680791400.3374162-CDS-P-littoralis_Contig671:109983..1101031680791400.3374162-CDS-P-littoralis_Contig671:109983..110103Pylaiella littoralis U1_48CDSP-littoralis_Contig671 109984..110103 +
1680791400.3506453-CDS-P-littoralis_Contig671:110817..1110041680791400.3506453-CDS-P-littoralis_Contig671:110817..111004Pylaiella littoralis U1_48CDSP-littoralis_Contig671 110818..111004 +
1680791400.3630023-CDS-P-littoralis_Contig671:111489..1115851680791400.3630023-CDS-P-littoralis_Contig671:111489..111585Pylaiella littoralis U1_48CDSP-littoralis_Contig671 111490..111585 +
1680791400.377839-CDS-P-littoralis_Contig671:112304..1123931680791400.377839-CDS-P-littoralis_Contig671:112304..112393Pylaiella littoralis U1_48CDSP-littoralis_Contig671 112305..112393 +
1680791400.3924112-CDS-P-littoralis_Contig671:113219..1133671680791400.3924112-CDS-P-littoralis_Contig671:113219..113367Pylaiella littoralis U1_48CDSP-littoralis_Contig671 113220..113367 +
1680791400.4089475-CDS-P-littoralis_Contig671:114245..1143921680791400.4089475-CDS-P-littoralis_Contig671:114245..114392Pylaiella littoralis U1_48CDSP-littoralis_Contig671 114246..114392 +
1680791400.4266908-CDS-P-littoralis_Contig671:115335..1154821680791400.4266908-CDS-P-littoralis_Contig671:115335..115482Pylaiella littoralis U1_48CDSP-littoralis_Contig671 115336..115482 +
1680791400.438474-CDS-P-littoralis_Contig671:116775..1169821680791400.438474-CDS-P-littoralis_Contig671:116775..116982Pylaiella littoralis U1_48CDSP-littoralis_Contig671 116776..116982 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig671.18.3prot_P-littoralis_Contig671.18.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig671 93239..116982 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig671.18.3

>prot_P-littoralis_Contig671.18.3 ID=prot_P-littoralis_Contig671.18.3|Name=mRNA_P-littoralis_Contig671.18.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=782bp
MSTTAEENTSEWSPVWTTAAFAAAQGLVVYFLFECWRKQKNKRGIYQPRQ
TQRPHRTPEEPSSAPLSWLGSVNRVDDEETLKLVGMDHYVLLRHCLFGAK
LTFIPSLIGVLLMVFVYRDGGGTEENFNEITMGNVKAQSSRLWFSVGFMY
IVVLWALLLWWKEWENFVVKRFNFMAVGDPDMDKEVAFSAMIENIPQDKR
SSPALYGYFDNLFPGKVSYASLCMHSGDLETTLAEKDGALAKIEHAVAQK
HLDPPKETKTKVGGVLCCGGEKVSTETHYTNELSKLLSEADKEHARISQV
ASQGAGSSVASSTGFVAFTSAATKLAASSLSLSGKLHEMDAHAAPAPDDV
IWDNVTTPALQVTWKTKIANCIWMTGILFWAVPVAVVLGFADLEALGERA
SWIPLPAPGSFLHGLISGLLPVVALAVLTALVPIVIRMVAVKFCRMKSEA
DVDLYVFKWHFGFRVANLWLIIVGGSLINQLDPFIEEPSSIVDLLGSSVP
GKSQFFLNSLLVTLLSGLAMDLSRVIPVIISMVTGAFANDRGKSDRELRD
SQGAPSLNWGVFYPPLLFVLLVVFCYAAIAPIILPVACMVYYGSFLVYKN
QALFVFVQTAESGGASMYLLFRFSMASLYIGEVVFLAYVGLKKGPQQAAL
ALILIGITFLWHLQVNTRFVEMSKKQCMEAAVAADAKLLKAAGAAQGPSS
TADHPFEGKAYVQGRSRHDVLSSPAFVSDSINRSISTNRTQSSLKKSEWE
TKPEGYRDPANSHKISRPRREMNIQTVESVV*
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mRNA from alignment at P-littoralis_Contig671:92925..118579+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig671.18.3 ID=mRNA_P-littoralis_Contig671.18.3|Name=mRNA_P-littoralis_Contig671.18.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=25655bp|location=Sequence derived from alignment at P-littoralis_Contig671:92925..118579+ (Pylaiella littoralis U1_48)
CGTCTCTTCCAGATTTCCTGTTTCCTGTCTCATCACTCACTCTTTGTTGG
TTGATCACCTGCTTCTCTCTCCCGTGTAGCCGACACGCAGAGCAGCGCGT
TGCCGAGCCGGACAGCACAGCGGCGTCCGCTAGGATTTACGAGGCTGAGG
GCTAAGGAAGGTAGAGCTTGGAGGACGGGTGTGCGCGTGAAGGAATTTTG
ATCGAAGAAGTTCATAGTGACGACGGAGGGCACCAACAGCAATCGCATCG
GGGGAACGACGCATTTTGGTCTGATTTGATCTGATCTGAGCCAGAGCCAT
AGCGGGCGACAACGATGAGTACGACAGCAGAAGAGAACACATCAGAGTGG
TCTCCGGTATGGACTACGGCTGCCTTCGCCGCGGCGCAGGTGAATACCTA
CCATATCTGCGTTGGTGGTGTGGTTTAGGCTGTCGATGCCCGCCCAAATT
GAACCGATTGGAATTGACGAGAGAGCCACAAGGAGCGAAGGGGAAGCCGA
GCCAAAAGCACACGGCTGGGGCGTCGAATCGCATTCTCTGCGCTCCTCTC
ACATCAACCCTGTTATGCTTGCTCTCCGAGTGTAGTCGTAGTTTGTCCCA
AGTTCTTCTGCTCCTGAGCGGGAACACCGCAGCAGCTGCAAGACGAGAGT
AATTGTCGTGATTTTGGATTGGTTGCAGTATTCTCTCTCGTCTTTCGGGG
TCCCCAACGCCCATTTTTTGTTTTAGTTCATCAATGCAGCGCGCCGACAC
TAAGCCATCGTCGTGAAGGCGACGACGTCGACAACTTCAATTGAACTCCA
AATGCTGCACTGGTTAACATGTCCTGATACGCATTTGCCACGTTCTTGGC
GTTCGGTCCCAGGGATTGGTCGTGTACTTCCTGTTTGAGTGCTGGAGAAA
GCAGAAGAACAAGAGGGGCATCTATCAGGTGTGCATCAGGAGGGTCGCCC
ATAGCGGATCGGCAGGAAAATTGAAAATATAATTTGAGAATTCAATCGTG
GTAGTCTTCGAACGACTGCGACGAGAGAGCAATAGCCGACCCAGATGAAT
TGGTGACATCTCTTGAGAAACAGGGTCGTAGAACATGTTGGTAGAGGGCA
TGGAAGCCCTTACCTCCAGCCCCGATCATCAACGTAGTACTGCTGTCCGT
GGCCCGTTACTTTCTTAGGGATTAAACGTGTTCCGTCCAAGGTCAGAATT
CCTATTCTTGCATGACACAGGCATTTACTTCGTCATGTACTCCGTATATC
ACTCGTGAGTAAAAGCCAGAGTGTAGACTGCAGACTGCAGACTGCTGGCT
GAGCGGTGTGACTGCATGTTCAGAGCCATTTTTTGCCATCGAGAAAACTC
GGAAGGAACGATCTCAAGTGGACTGCTGCTGCTGCTGTCTGTGCACAAGT
GTGATTACCGGTGAAGGTGTATACCCTCTTGAGGCTGGTAGCCTGTGACC
ACCCTTTTGAGGTTACAGCAGGTAGATAGCCGTGACCACGGGAAGCGCCC
CCTTTACTATCCAGATACTTGTAGTCGGCATTGCAGACAAAAAGTATGTA
TTAAGCAGAGGTCGGAATGGTTTTCAATATGTTGCAGGTAAAAGTTGGAA
CACATCCGTTTGTTTGCTGGATTTTCGGCTCTTGTACTCTGCTGTAATAT
GTTCGTTCTCGTGTTGTAATACGTTTGTACCACGACTGCGATCAATTCGT
GAGTAAACAAAATTCGATCATACCATCGACGATGGAAAGGGATTGCTGTC
CTCTTTCTCGCGATAAAAGCTCAACCAAAAACAAGGCAAGCACCGCAGAG
GGAATTGGGGGAAAAAAAAAAACTCCTGTGTTGACTTCCCCCTGCTGTGT
GACCCCAGTTGGAGCGTCGATCTACCCGAAAGGTGTAGAGTGGCGTCCAA
TGAAAGGGATGACAACACACGCACACTACATATTGTAGCGCGTTTGTCTT
GTTGATATTCGGCCCTTGATTTTCTCTTCCATGCTCTGTTGTGTAGTTGG
CAAAGCAGCTCCCACTTGTGAATAACAGAGATGGGCTGCTGCTACTATTG
CGGTCTGTCACCTCTGTTCTGTTTGTCGTTGTTGTTATTGTTGTTTCGAA
TAAACGACTTGTGTAGAAAAACGAAAAACGAAGGACACAGCCAGCAAATT
CAACTTTAGAAAATATCTTGTTTTTAAATCGGGCTCCAAAAATGTTCATT
TGGTCTTCGGATCGTCGATCTTCGTTTTCCACTCCTCAAGGAATAGGAGT
ACTTCAAAGCAGTATTCCTACTCTCGTAAATAGCGTTCGATCGTCAGTCA
AGCCCGATTAGTGTGACGGCAGTCAGTGTTCCTGCACTCGATGGGGCAGG
TAACGACACCGCCATCACAACAGCAGCACGTAAATTTAGTTGCGATGTTT
CACAGCAATAGTTCGGAATACGGAATATTGTACAAGTATTTCTATTACAA
ATTTCCGTATTATGTAGGTATCCACACACGCTGCATCATCTGCGGATCAT
TTAAGACTTGAAGACTTGTATCATATGCTTCTACTTCGTATCAGATACTT
CGAATATCTCGTTCGACCAGTTTACTGGTACTGTGTATGTGCGAACTGCT
GACTCCTTCTTCAGGGGATAGGGGACGCCGCGTGTCGCGGTCACAGCAGG
CCACACTGACCAAAAGGGGCATTTCACGTGTGGAGACGTCGGGACATATC
GACAAAGTTCAGATTTCAATGTCAAACACTGAGTGATTCACGAGACGAAA
TATAATTTCAATTTCAAAAACCAAGTTTTTTCAACTCTGTGTATGTACAA
CAGCAGTATGGCGGATACAGCAGCACAAACAGCTAGTAGGACAGGTCGAT
CAGGTTCAGGTCAGAGCGTGTTTTGTCTTTGGATTCAAATCCTGCTCCGG
TCTCTACTCTAACCGCTCCGATCTCAACTCAGTACCCGACCTATCGAGGC
CGTTATACGCGGTTTTATCGAAATGTGTGTTAACCCTTCTGGGGCCAGGG
TATTTCGGCGGGGCAACCCGAAAAGCCGGTGTTCTAAAAAAAACTTAACC
AGCCGGTATTCCACCGCCCGAGAACCAGACACAAACCCAGCTCTTGGCTC
CGCGTGCACGAATCATAAGAAATTTACATGTGAGCACCTCACAGTTTTTC
AGCTATGACAGGGTCACTAGAAAGGTCTTACAACAGGCTGGTGGCGTCCC
TGGAGAGACTAGGAGAGTTAACCGATGATCGCGATGCCGCCTCCTGCTCT
CAAATATCGCGAAATGAAGACTGGTCATCACAGGCCTTCCTCTCCTATAC
CCAAATGAAATCAAGTCAATCCGGGAATGGCGCATTTTTTTAGCGCATTT
TGTCCACTGCTGTAGCCCACACGACCTTCATTTTGCCAATTTGGGGCACA
GCAGGATGCATGTAGCAGGCCCTGCGGTGGTTGGAAGACTGCTGTGTGTT
GCTCGTGTTGGATACTCCTGGTGCGGTGTTTTCTTTTATAATCAATGGTG
TACAACTTCCATCACGTTCTTTGGTTCGGGATTCATTTGTTGTTTTCGTC
CCCATCCCCGACTCCATCCCCATGTCCCGACGAGACCGCCTCAAGAAATA
AAATAAAATAAAATGAACAATTTGCAGAGAACAAAAAAATGCACTGAAGA
CCAGAAGGGTTAACTTCCCATCTATTCTGGACGCCACTCTATCGTATCAT
ACACCCCTTTTGGGAAAGCACCGTATCCTCTGTTACACATCCGGAGGGGT
AAAACCATGTGCTACTGCCCATACAAAAAACACGTTTTTTTTTACGAGCA
AAACGTGTCATGGCACGCAGCCGCTAACCTCGATTTTCCTGTGACATGAT
TAGATCATGCTGGTTCGCAAGCTGTGCGAGTAGTGCTGATCCAAAATCAT
ACTTGCATTTTCTGGGTAGCTTTGCACCAAGTTGCGCACCCTCCGAGTTT
CAGCCAATTTGGTCAAATCTGCGCCTGATCAACTTTGATCCGAAGTTTTT
TTCGGGCACGAAATGACTAAATGTTGGGTACATTTTCGGAGGTAGACATA
TTGTTGTTCTTGGTTCGAAGTGTTCGACCTTACAAACTACTGGAGTTCCG
ACTGGTTTGGGTCGATTTTAGGCAACTTGTGCGAGCCCATCATCAGCGCT
GTAGTGCTGATCCAAAATTATGGACACCTTCGTTGGGTAGTACATTCACC
AAGGTTCACCCCCTGCGAGTTTCAGCCGATTCGGGCATCGCTAAGAGTGA
TCAACCTTGGCGTGAAGTTTGAGCTAAACACGAGCTCTGGATGCGCAGAA
AAATGGCTTGCTTTCAGTTGCGATGGCGCAGCATTCCTGCAGTTTGAAGC
AAAACCATAGCATATAAACTACTGGAGAAGGTAGAACACGACCCTCTTGG
GACCTCCTGTCGATATCGTATGAAGCCGGGGTCTGTGTGAGGAGCAACAT
CGGCGACAAAGGTCATGACTCCGAATGCTGCTTGCAGCACAAATTCCGAA
TGGTTTCTGCGGCACAGAGTTACAAATCTGAGAGGGGCTCTTTTGCCGGT
ATTAAAAAAAACATACCGGTAACGTACGCGCGCACGCACACGGGATGTCG
GGCCTAGGCGGCATCTACACGCCCCAAGCATACGATGAAGCGGCAGGGCC
ACAGCAGTTGGGAAGCTCACTCCCTTCTCCGAATACCGGTACCGGTGGTA
AATTTCAGATGCAAAACGAAATGCCGTGTCTTAGAATGTGATGTGTTTGT
TCCCGGGGGGTAGACGATTTACGAAGCGATGAAATTAACGCCGGGGTTAA
ACAAGAAGTTTTTTAGGGGGGGGAAGGTACACCTATTTTTATCTCAAAAA
AGGGTTAACCCCGGGGACGTGACAGCGTTTTTTCCTGCTCTTTCAGCGAT
TCTAGGGGGGGGGGTGGGGGTACGACATGGGGGGGGTGTAACAGAGGATA
GTACCGGCACGGTAGGCGGACTCTCCAGCCGGGGTCACGCAGATGGAAGT
CAACTACGAGTAGAACACAGGAGTTTTTCTGTGTTTTCTCCACTTCCCAC
TTCGGTGCTTGCCTCATCCTTGGTTGGTTACTTTACCGCGAGAAAGAAAG
GGGTCAGCACTCCCTTCCTCTCGTCGGTACCTTACCCGAATTTCGTTCGC
GTACAGTATTGTGAGGAGAAAATTCCACATCGTGTTACTGCACCCAAAGG
TTCGGCCGTATGATACACGGGAGTGTCCGAAGGTTTGTAGAGCTTTACCA
GCTGAAGTACGGGACAGATTTGTATGGCCATGCGCGCACTTGAATCTGCC
AGTCAAGGGCCACCGCGACCTAGAATCTGAAATCCACATGAACCAAGCTG
CCCACCTCACCTCTCCCAATGTTGAGGTTTGGGTGATGGGGTTTCGTATC
GGACGTGCGTGCTCTGGCGTTGAAGCTAGGGAAGATGGAAACCTAATGGC
ACTTCTAAGAGCGTGTCCCGGGAATCGACGGTAGTCAGTTTGGTCCCGTG
CTTGTATGATACGTGTGGATGATGATGGGTGATGGGTTCTTGAATTACCT
CCAGGATCAAGATTGATTAAATTGCTAAATTGGGATTTTCAACCTGAAAT
ACTGCTGTGGCCTGTACATGAAATACACAAAATCGAGAAAACCTTTCTAC
CTTGAGAAGAACCAAACCAACCTATACTAGCTGCCCTAAAACATCTCTAT
TCCCTCCTCCCTCCTCCCTCCTCCCCCCTTTCCCCTCCCGCCCCTATTCC
CCTCCCCTGATTTCTGCATCACCGACCTATGTGTAAACGAATGTAATGTT
TGTATCGACATGTGCTGCCGCCGCCGTGTTGACACGATCTGGCGACGCCA
TCAACATGGAACAAACAGCCAAGGCAGACGCAACGCCCGCACCGCACGCC
GGAAGAGCCATCCTCAGGTAAACTAATTTAATATCGTAGACAGTGGGGAC
GTTGTTTTTAGCGTATGTGGGTTTGTCTTCATCGCATCCATCAATTCTAG
ACGTCTTCATCGTTCGGTGTATGTTGGGCTCATGAGCCCCCCCAATGATA
TCATACGAGAATCCACCGCGAGCATCATAAAATGTTTCATCATCGGAGTG
TGGTTTCTTTTGCGATTGACGGCACTGCTGCAACTGCTGTTTATTCATGC
ACCACTTAGCCCCCCCAATGATATCATACGAGAATCCACCGCGAGCATCA
TAAAATGTTTCATCACCGGAGTGTGGTTTCTTTTGCGATTGACGGCACTG
CTGCAACTGCTGTTTATTCATGCACCACTTGTAGTGTTTATCTTGCCGCC
TGGACAGTGGCTTGCACACAGCAGAAGCAAACGGGCATCCGTTTGGAATA
CCGCTGCTGCAGGTTGTGACACGTGAATCATCTCGCAGAAGTAGGATCCT
CTCGCCTCTCGCACGGCACCCCACCCACAAAACCAGCACACGCAGAGCAT
TCCACCCACCTCGACGTACCGTACATCATGACCAGTGACTGTTTGCTCAC
AGCAGCGGCCATCGAAGATCGTCATGTTCGCGGCTCAGGTACAGCAGTGA
AAGAGGTACACCTCTCTGTTTCCTCCGGTGTGGTTTTTTGCGGGTTCACA
GCTCGGCCAACAGGGGGGCGGGGCGGTACTGAGCCAAAGGCCTGCCAGAC
TGGGTCCCCAAGTACGGGATAAAAATCCCCACGAAGTAGCGATCACCGCA
GGTATTGCTCTCGTCCCTCGACGTATAATGCGACAAAAGAAAGCAATGTC
TGCGATGATCGCTACCAACAATAGTAGCGGGAAAATCAGCCTACAAGCAG
TCATCTTCTATACTCATCTTTTGTACTGTTACCATGTTGGGTTCAACGGG
GTAAGGATTGGAGATCATACCATAGGGCTTTGGTGAACATCGACCATCTT
TCGGCGATGTTTGAGAGCAGAAGGCGGATGGCCTTTCTATTCTAGCCTCT
CCAGGGACGCAACCAGCCTGTCGGCAAAAGCCGTTTTCCGCCTGTCTTCC
TCTTGTTCTGGTCCCTCTTTCCCTCCCATTCTCCCTCTCTTTCTTTCTCT
TTTTTGTTTCTCTATTTTTTATTTTTTACTTCTCTCTTTCTTTCTCTCTT
TCTTTCTCTCCCCCTCTCTCTGCTCGTATTGAAGCACCGTTGTCCTGGCT
CGGGTCAGTGAACAGGGTGGACGATGAGGAGACGCTCAAGTTGGTTGGGA
TGGACCACTACGTCCTTCTCAGGCACTGCCTCTTTGGCGCGAAGCTCACC
TTCATGTCAGTATATATCATTTGAATTTATACAGCACGAAGTGATCCTGT
GTCAGCGTTTTTCGTTTTGTTTTTTTACTCTTCTTTTTTACCAGGGCGCC
GCCCATCACCTCCTGCACCGCCGCAGTTACACGAATCGATCGTTTGATTG
AGTTTTATTTTGTACCTATGGTCTATTATCCACCGAAGAGACGCGGCTGG
ATGCGTGCGTGCATGCACGTATCATATCATATCGATACCCATGAATGACA
GCAAAGACACTTTTTTTACGATGCCCGTCTTGCTTTGCACGTCCTGTGTC
GACGTCTTGTTGCTCTTCTGTTCTTGACTCACTACTGCCGTGTAGACATG
TACGAAAGTATATACTTCGTACAAGATAAAATGGAAGCACATGCGGAGCG
GTGACAAAGAAAGTGGCATGTACCTTGTCCAAGAAAAGACGTGGTGGTTA
CAGCTTGTTGTTGACATGTTTTTTGTCGTGGTCTGTCCTGTGTTGTTTGT
CTGCGTTGCTGTGCGCAACAGCCCGAGCCTGATCGGAGTGTTGCTGATGG
TGTTCGTCTATCGGGACGGTGGAGGAACCGAAGAGAACTTCAACGAGATC
ACGATGGGCAACGTGAAAGCGCAGAGCTCCAGGTGGATAAAAAATACGAA
GTAAAGAATAAACTTGTCGACGAGACGGCCGGGAGTTGAGAGGGAGTAGG
CTCGCTTGATTTTAACGCAACACGAAACGCACGCAGCAGCGAGCGCTAGA
AGGGATGGGATGACAACACACGCACGAATACAGCACTTTGTTTTCTTCTG
TTTCTTGTGTATGGTAACAGTTCATGCAACGGTTTCTCGACCGAAACCGT
ACAAGACTCTCTGTCATGTCATACAAGACAAGGCGATTTGTTGCATGGAT
CGCCCCCGCTGTGCCTGCCGACCGATATGGTTGGTTCGTACTAAGTAGTT
CGTTCGTTCGTTGATTCTGTTTGACTGGCTCTCCTTTTTGGGCCCACCCG
CTCGCCCTGCTTCATTTACAGTCCCGCAGGCGATCGGCTCTTACTCACTT
CGTACTTGTATTTATTTTTTGATTACGTTTCTTTTGTTCTTTCTTTCTTC
CTCCACTATTTTTATTATTTCTGTCTTTGTGTGTCTGCGTTGATTGTCCA
GGCTCTGGTTCTCGGTCGGCTTCATGTATATTGTCGTGCTCTGGGCTCTT
CTACTCTGGTGGAAGGAGTGGGAAAACTTCGTCGTCAAGAGGTGCTGTAC
TTGTTTTACATTTTTACTGACTTGACTTGACTTGACTTGACTTGACTTGA
CTTGAGCCACCGCCGTGCTGTTTTTTCTGCAGCAGGATGACGATGTCTTG
ATTTGACTAGACGTCGATCAGGACCATATCGATCAATAATTACATCACCA
CCACCACCACCACCACCAACAACAGCAACAAAAAAACGACCGAATGACTG
AGTGAATGAATAAATCGGATACTTTTTTCGACTTTTCTTCAGGTTCAATT
TCATGGCTGTGGGCGACCCGGACATGGACAAAGAAGTGGCGTTCTCCGCC
ATGATCGAGAACATCCCCCAGGACAAGCGGTCTTCGCCTGCCCTCTACGG
CTACTTCGACAACCTCTTCCCCGGCAAGGTACCTGCATATCTGGTTTGTG
CTTGGAAGTAGAATGTGACACTTATCCCGCTGTATGCGCCAACGGATGAT
GCGAGTTTCGTGGTGCAACGGGTACATGCACATCATGCTTGGGAGGACTG
CTATGTGACACGTGAATGCGCAAAAGGAGGCGTGTTTTGTAGTGTAACGA
GTACTGCTGCTTGGGAGTTTACTTCCATGTGACAACATGTATCATATGTT
GTGCAAACGGATGTGTGTTTTTGGTGTGACGAGTGCATGCGTGCTTGGGA
GTACTGCCGTGTGACACATGAATGCGCAAACCAATGTGTGTTTTTGGTGT
GACGAGTACATGCATGATTGGAGGTATGCGCAAACGCATGTGTGTTTCGC
GGTGCAACGGGTGAAGCACACTCGTATTATATCATATATCAAATCATACA
AGTAGTTTTTTTTCCGATGGTGACGCTTTGCTCTTTGTTGTTCGACCCGC
GATAGAGTCATGTTCGGCGTGTTAATCATTAAACTGACCGTTCTTTGAAG
AACATTGTCTGCTACACATGATACATGGATAGTGCATTGACAAATAAATA
GCGTGAAAAGAAGAAACTACAACAATCGAAAACCAATTTCATATGATCCG
AGCATGTGAATGATGATATCATGCCGGCGTGGCTTACACGGATATTACTG
GTATACTGGTATGTACTTTGAAGAAGAGTCCTGGTAAAAGCAACAGTAGT
AACAAGAGTGGCGCACACGCTGCATCTTTTTCAGGTGTCATACGCGAGCC
TGTGCATGCACTCCGGCGACCTGGAGACCACTCTCGCAGAGAAGGATGGC
GCCCTCGCCAAAATCGAGCACGCCGTGGCTCAGAAGCACCTCGACCCGCC
CAAGGTGTGTAGGAGCATCCTCTCGGCTACGCACTGCTGCCATTTGTTGT
TGTTGTTGTTGTTGTTGTCGCTGCTGCTGCTGCTGCTGACGTTGTCGACA
TGGTGTGATATTTTGTGCGTGCGTGCGTGCGTGTGCGTGTGTGTTGTGTT
TTGCCATCCCATCTAGCCTGTACGCCAGTCTGGAGGTTTCGGTGTAACTT
GGCCGCACCAGCCGGGGTTGATTGACCACACAGCCGAAGAGAGGGCAACA
CCACAGGACCCATTATTTACTCTTTTCCATGAACAAATGCAGTCTATACA
TGCCTGGTATATACGGAGTATGTATATATATGTACGTACGTACGTACGTA
TGTATGCAGTATGTATGTATGTGTCTATATACTTGCTCCGTTCGTGCGAG
CCTCAGGCTAGCAAGCCAATCAAGTATCTTGTCTTTTTTTTTTTTCGACA
CTCTGAAGTACTTGGTAAATACGGAGTATGAAATGTTACCGCTAGTGTGT
GTATGATACGAAAATCGGGTGATGTTTTCGTTCGTTCGGTGATTCGTTCT
CTTTTTCTTCGCCTGCTTTTCAGGAAACCAAGACGAAGGTCGGCGGAGTT
CTCTGCTGTGGAGGCGAAAAGGTTTCGACGGAGACCCACTACACCAACGA
ACTCTCGAAGCTGCTTAGCGAGGTGCGCGAAAATCCTCGCCGCTGTAGCA
GCAACAGCGAATATTTTTCGTTCGTGTCATCTGTTGAGTCGTGTGTAGAA
CCAGAAGTAGATGCATCGTATCGCTCTTGGTGTTTGTTGCTAATCGCTCT
GGATCCTCGTGTAGAGAGAGGCGAACACACTGATTTCTTTTGTGAGAAAA
AATATATACCCGAAGTATATATTAGGTGCATGTGTCTGCCCCATGTGTCT
TGTCTGCGTGCGAGTAGATGGATGGATGAATCGGTTGGTGCGCAAGATAC
ATGCATGGGTACCGTTGTGTATTTTCCCGCCCCTCCTTACTCGGGTGTGC
TGCTTGTACCAAGCCACCGTCTGCCTTTGCGAATGGATGGGCATTCATGG
ATCCATGCATTGGAATAACATGTTTCATCTCCCTTCTCCTTGCCCACGTG
ACACTTGTGTGTGTGCCACCCTTCATGCCCCCCCGACACTGCTGTTTTTC
TGCTACACATGATACGTGCCGTGCACTTGTGATTGAAGCAAAGGTTTTTT
GAACATGCTTCGAAGCACATATCTGGCTGGTATGATATGATACAACATGT
TTCGAATCGCCCCCTGTACTGATGAATTGCTCGTGCCGCGGATAGCTCAA
GCTGCTCCCGTCGCTCGGTACCCCCCGCACGCTTGCGGAACAGACGTTGT
CTTTGCTGTATGGATGCCCGTGTTGTGGCTGCTGTCCTCTGTTCGTGGAT
TTACATATCTTTTCTGAGTATTAAATTATACAAGAAAAAAAGACCGGCAT
GTGTGCGTGCGAAGTTTGTGCGTTTGATCCAGGATCGATGAGCGTGTGTA
CAAACATGTGTATTGTTTTTTCCCAATTATTCTCGTCCCATCCATTCCAT
CGTTCCATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGATAAAA
CAAAAAGCTCAACCAAAAAGGCAAGCACCGCAGAGGGAAGTAGTGGAGAA
AAAAAAAAAAATCCTGTGTTGACTTCCCCCTGTGTGACCCCGGTTGGAGC
GTCTACCTACCCGAAAGGTGAAGAGTGGCGTCCAATTAAAGGGATGACAA
CACACACACAACACACACACACATCCATTCCGGACCCAACCTAGTCTTCG
CCTTGGTGGGTGAATGTGTGGGCGCATGTATCAGCCACTTAGACAAGGAA
GAAACTCTAAATGCGGGTACCATAGCTGACTTTTCCCTCTATTTTTCGCC
CCACTTTTTTTTGGGGGGGATTCTTGCTTGCATTGCAATACAGCTATTGT
GGTGCCATCATGGTGGAAATTTTGGTCGCGCGATGAACAACGACACGATC
ATATGTTTCGCCATCGGTCGATCGATTTCGCGGACGTCCAACTGACTGAC
TTGTGACCCTTTCTGGCACAGACTACCAATCGAGTGAGATTAAAAGCGCT
GTCTCTCTTTTTTTTTTGCTGCTGCTGCTGCTGCCGCTGCTGCTGCTGCT
GCCGCTGCTGCTGCTGCTGCCGCCACCCCCGCGTATTTTGCCTGGACTCT
ACGGGAAACAAATTGCGTCGCCGGCGTCGCTTCTAAATCGCTTCACATGG
TTGGTGGATGGATGGATCGATGGATGGATGGGGTTCGGCGTGATTCTGTC
GCTGCATCGTGTGTACGTTTTCTTTGGTACAGGCCGACAAGGAACACGCC
CGCATCAGCCAGGTCGCTTCTCAGGTAGGATGTAACAAGCGTGTGTGCGT
GTGTCTTGTGCTTTGTTGTGTTTCGATGGATCGATCGACTCGTCTGACTT
GCTGGTATGTACGCGGCAGAACCAGCTAGCTGCATGGCGTCTACCTTAAC
GGATGGTAGTCCTTTTGGGGTTGGTTTGTCTGATTGTTTTATTTAGCACT
AGTTTCTGTGTGTGTGTGTTTTTTTTTGTCATCGAGGCAGGTTTGTCGTT
TCACGAAAGGGTGCCGCGGTGCGTGCGTTTTCAAACTTTTTTTTTTGTAC
GAAGTACAGCAGCCGTAACAAAAGGGCCATAGCCATTTGCCCATCCGTCC
ATATGATATCTTGCACGACGTACGGAGTACACAGCAGCAGTACACACCTT
TTCAGTATCGTGTAGACTCGTGAGTTTTTGTGATGTACGAAGTACTTCGA
AGAGGAAGGTATTTTGGGGCCGTTCCTTTTGTTTTTTTTGACAGGATGCC
ATGCCAGTTATTCCGTACGTTCTTCCGTTCGATCGTTTGCGCATGCTATG
ATGTCGTATAAACAATTTGCGCATACTGTGATGTCGTACAACAACACGTT
ACGGCGGTCGTTTTTGAGCGTCTCTACAGCAGTTGACACGAACAGTCTTA
TCATCGGCCTGTAGTATGGGCATACATGCACATACTTCGAATAAGATACA
ACAATTTCGAGAATGTTTGTCGACATCAAAAAAGAGGGCGTGCCCACGGC
GGGATCAATCCGTACGTCAAAGCGTATCAAAGACGGGATCAATCAGCACG
TCAAAAAAGGGGAAGTGTCCCAGACAATCAGTACGTCAAAAGTCATAAAG
ACGGCATCAATCAGAAGGTCAAAGTCCATCCCAGCAGTCCTGCGTTTATC
GTACATATTTACTTGCCCGGTTGCGGGTTGCCAACGTCGACAAGAGCATT
CGTGTCGCGGAGACCTTCCTCGACTTACTTGTCCGTCTCGACTTTTTCGT
TCCCCATGGTTATAGCGCGAATATCATACACGGATGATAAAAAAAAAATC
CATTCAAGCGCGCCAACAACAAGGCGAATATTTGATGACGCGGTTTCAAG
AGTCGGAATTGTTGTGCCGGGTAGCTGTATACAATATCCAGTCATGGCCG
GGTTTACTTTGGGGGGGGGGGGGGGCTTCGTCAGGGAGGCGAAGGGAGTT
CCACGCAGAAAGCTCGGCCGGTAGCACGTCCGAAATACTCAGTACGACGC
ACTTTGTGACGGTCCAACCGAGTCGGGCCTCAAAGGATGCTACCGCCGTG
TTTCATCTTGTAATATGTACATACTGTACTTGGTCGGACGATTTCTTTTC
TTTTGGGAAAAACAATCCGGTCGGCAAAATTTTCAAATGTATACTTCGAA
GTACTCGCCGGTGTAACAATACGGTTACTTTTTTGCTTTTTTTTCTCACG
TACAGGGTGCCGGTTCGAGCGTGGCGTCGTCGACCGGTTTCGTCGCCTTC
ACGTCGGCCGCCACCAAACTCGCCGCCTCCAGCCTCAGCCTGTCCGGAAA
GCTGCACGAGATGGTCAGTCGTTTAATCTGTCACGCACAGACAGGCAGAC
AGCAGCTCGTGCAGTCGAACCGGATGGATGAGTCCATGGCGCCCGCAAAC
AACATCTCTCTCTTTGTGCCGCCTTTTGCTTTTTCGTCTTTTTGGCAATG
GCAGTGTTGGTTATTACTTCGAAGTACTATGTATGTTTTGCTTCGTGTTC
GTGCTCGTGCTCGTGCTTGTGTGTGAGTGGGAGGGTGTTTTTTTGTTTTT
GTTAACAGAATGCTCAATGCATTCATGGCGCCTGCATTATCTCCTTTGGC
CGCCGTTTGCTGTTGCGTCGTTCTGGCAATGACAGCGGTGTTGGTGGTTT
CATTTTTTTTTGCTTTGTGCTCGTTCTTGTGTGCCTGTGTGTGTATTTTA
TGTGTGCATGTGTGTGTTTTTTCTTTCTTCTTTTCTTGTTCGCAGGATGC
TCACGCCGCCCCTGCCCCTGACGACGTGATCTGGGACAACGTGACGACCC
CCGCTCTTCAAGTGAGTCTTGGGACATGTGCTACTTACTCCCTCTGGTCC
GAAATATAAGATCGGTTGGGAAATCCCGAATATAAGATCGGTTTTTTTGT
TAGAGGTGTTTCAGAGGTCATTCCCTTTCAATTTTGTTTTTGATCGTGCT
CGGATACAATATGAACCCAAGGGGGAGAAAAAAAAACAGGGGATGATAAT
GTTTCGCCCCCCCCCAGAGAAAAATAAAAAATGATTCCCTGCGACAGCCC
TCATCAGTAGGGAAAAAAGAGGTGTCGTTTTTACCTCTAACGCGGCAAAA
AAAAGGCTTTTTTGCTCGTTTTTTTTGTTGTTGTGTTTTTGGGCAGTTGG
GCTACCTGTACAGCCACCTTTTGCAGTATTTTCACAAGTTCTTGGCTGTT
GACCGGGACAACAACTTAAGGGTGGCAAAAATTGCCCACTTCGAGGGGCA
AAAACGAAGGGAAGACGCCAGAAAAAAAAAATGTGTGTTCACGCCGGGAA
TTGAACTCCAGGCTATTCAAAGACACGCCTTGTGCGAGATATTTACAGTG
CAACCCAAACCGATCCTATATCTCGGATCAGAGGGAGTATTTATTGACAC
CTGACCGCGAAATCGTCCCTGATCGGCGGAGTACGGACATGAGAAGGTAC
TGAGGAGAGATCGGAATGGTTTTTAATGTGAAGACAACAACAACACGGCT
GCATGTCGTACAACAGGACATCACGTCGAGCGCAAGCGTCATCGTTGTTG
CAGATGCGAGCTCAAGGTTTTCCTCCCATTATGAATGATGTAGTCGGACG
TATGTATATACGTAGGACCGAACCGTTGCAACCCCCACCTTGTATTCAAT
TGTAATGATGTCTGTTCCCTTTGGTGTGTTGTCGGTGTGTGTACGTAAAT
GTGTGAAAGCACAGGCTGTTTGTTCAGTTGTAGACGTGAGCATCGTGGTT
TGTTTCTGTTTTTTTTGTGTTTTTGTGTTTAAAGCCTGGCAAGACGTTAC
CGTTGGGTTGTTTGAATTGGACCGTTAAATGTGAGCGTCGGACGTTGGTC
GAATATGGTACCAGGTAATATTTGTCTACATTGCTTCAGAGTATGATAAA
TGATTGTACTTCGTGTGATGTGATGTATTTATGTGTTAACGTATGCTTCA
GGGTACGGAATACGATGGTAGTATACGATGGTGGTGGTGAGGCCGTTCGT
GACTAACCGGGGCAGAAAAGAAAAATATTTATGATGTGTGAAATAAGTGA
TGATTGCTACGATGCGCAGTTGATGGATTAAATCGTTGTCTCGTGAGATC
TCTAATCCTGAGTGAGAATATGATGACACGTGCGCTATGCTCTCTTGTTT
AGTACCACATCGAAGTGTCTTGTTGCCGTCGAAACTTGAAAAAGTCCTCT
GTGTGTCAGGAACACAATACGTATCCGGTGCATATCATCTTCGTGCCTTC
ATACATTCTACCATATGATATCTCCTGTCTGGCGCCGGCTGGCACCTGGA
CGGGACGCCCAAACATTTTCATACCGAAAAGTTCACAGATAGATCAGAGT
CCAGAGTAGACGGGAGAACCCCACCCCCGACCCCCCGCCCCCCCCAATAA
CGCTACCACACACACAGCATCAGGCCGGTTTTGGAATGTGAGTATTAAAT
GTTGTGTTTGATTGGTCGAGTTTGATATGACGTGACTGTTGGATGTGGTG
ACCGTTGGAATAAACAGGTCACCTGGAAGACGAAGATCGCGAACTGCATC
TGGATGACCGGGATTCTGTTCTGGGCCGTCCCCGTCGCCGTGGTGCTGGG
TTTCGCCGACCTCGAAGCGCTCGGGGAACGCGCTTCCTGGTGGGTTGTGG
CGTCGCCGTGTGAACTTTCTTCTCACGAGTATGATACGAGTACCCGTATC
GCACATGGCGCAGGTTTTTGCTACATTGGTGACTGCTTAATTTATTGTAC
TAAATATATGAAAGATTGTGGCGACGAGCTAGTGAGATAATCAACAACAC
TAGCAGTAATGTGGGTAGGTACATCGATGTATTATCTCATTTTCATGCCT
GCTGCAATGATATCTAGAGCGAGGCCCCGGGCGGCCTGGCCTTCTTCACA
CCGAAAATTCCATATCAAACACTTCCAGAATCCGTGCTTGCTAAATGTTT
TTTCGAAGACGGTGGCGATCCGGTGTCTGCTGGATACGTCGAGGGATGAC
AACGTTTATTTCCAGGTGTCTTTTTTCTGGCGTCCTGCATTGCTGTTTCC
TTGAACAATTGCTCTGTTCCGTGGTTTGCGTATGTTGCCCGTGATTTTGA
TGACCAGTATCTCTCTTCCCGTCTCCGTGTTCTTGCTGTTTTTCAGAATG
ATACAAGAAATAAAATAAATTACTCAAATGTTGTGTATTGATGATTTTTT
CAGGATTTTTTCTGCTTCTCTCTTGGGATAACTACTTGGTGCACATTGCA
AAAACGATTTACAGTACCTGGTACCAGGTACTTTTCTTCGTTGTTGGTTC
CATGATTTTGATTTGATTTTTCGTATCGCCTTCCCTTTTACTTTTAGTAC
AATGCCATTTGGTGCACATTACCAAAACGACATGTTTTTGCGGTTGGGTT
CATGTTCATTATTTCTTCTTCATTACTTCTTCCTTTACTGTGAAGTAATC
CTAGCATTCGCTTACAGCTGTTGACACTTAGTACACATTGCAAAAACGAC
TGACTTTTTTTTCGCCGTCGGTTCCATGATTTGTATTTGATTTTGCGGGA
TCCCTCTTCCCACACTAAAAAGACGACTGGCTTTTTTTTCGCCGTCGTTT
CCATGATTTGGATTTGATTTTGCGGGATCCCTCTTCCCACACTACAAAAA
CGACTTACTCCGTATTTTTTTTCCGACGTTGGTTCCATGATTTTGATTTG
AATTTGCAGGATCCCTCTCCCGGCGCCCGGCTCGTTCCTGCACGGGCTTA
TCTCCGGTCTTCTGCCTGTCGTGGCCCTCGCCGTGCTCACTGCCCTCGTG
CCCATCGTCATCAGGATGGTTGCAGTCAAGTGAGACGGTAAAAAGTCAAG
TGAGACGGTAAAAAGTCAAGCGAGACGGTAAAAAGTCAAGCGGGACGGTA
AAAAGTCAAGTGAGACGGTAAAAAGTCAAGTGAGACGGTAAAAAGTCAAG
CGGGACGGTAAAAAAGGAGTACAGCACAAGACTTTGGGGAATTGTCCGAC
GCAGCACTTGATCTCATACGAAGTACCAGGTACGGAGTATGATAGGAGCT
ATGATGCTACTTCTGTAGACTGGCCCGCAGCTGAGGAAATTTGGGCCCAT
GGCGGCGAGTACTGTACAGCAGAGGGAGGTGTCACTAAAGATGTCCTGTA
TCGGGCCGAGATGCGGGCGGTTTCTGGAGTGCTGTATGTACCACATATGT
TCGACCACCGATGTCACAGGCCCAGCAGCAGACCTGGGCGTGCCAACAAC
ACACACGTCCCCTCTACATGGTGTCTTCTACTGATGCCACTTTATCCCTG
GCTTAGTTTTCATTCACACTAGAAGATCGACGTCTATTTCTTGGGGATTT
TGATAATGGATCAAAAGAGATGTTTTTTTCAATTTTTTGCACAGGTGACA
AGGGGGTTATCACAGACGGCGCGAATTCGGAGAGAAACCCTTGGGTGTTC
ATGTTTTTTCACGCTTGTTTCGGTAGCGCACGCGTCTCGCCGTATACCTG
TGTCACAGTGACGTGATTTTTGCTGTTTGGACTCTTTGGAAAGGTTCTGC
CGCATGAAGAGCGAAGCCGACGTAGACCTGTACGTCTTCAAGTGGCACTT
CGGCTTCCGTGTTGCTAACCTGTGGCTCATCATCGTCGGAGGGTCCCTGA
TCAACCAGCTCGACCCCTTCATCGAGGAGCCGTCCTCCATCGTAGATCTG
CTGGGCAGCTCCGTCCCCGGCAAATCCCAGGTGTGTTCACAGCAAACTCT
CCTTTGGCATGCATTCTCATCATGTACTTCGAAGCAGCAGCACTACTGTT
GCTCGTCGGTGTCTTTTTTGCAACAGCGTCTTGGCTGCCTTTTCCGTTGA
TTAAACTAAAAGTGCTGTGTGTGATGGCTGGCTGCTGTCCAAAAAACAGC
AGTTGTTTCTCTCTCTTCTGGCTAATTGCCTCGTCACCCGTGTCTCCGTT
TCGCCTTCTCTTGCCGCGGTTTGCTCTCTCCCTCCTCAGAATGCTGTGCG
CTTTGTCTTGGGTGTAGTTTGCTGTGTGGCATCATATCACACACAAGTAT
TACTTGTTCCTCAAGAGCGCCCCCTCCCAATGATGCTAACTCATCACCTC
TCTCTCTTTCGCCTTTTTCTGGTTGTTGTGTGTGTGTTCGTGTGTGTGTT
TTGTGTTTTGTGTTTTTTTCATTGTTTTTTTGTGTTTTTTTTATTTTGTT
TCTTGGGGCAAACAGTTCTTCCTCAATTCACTCCTCGTCACGCTTTTATC
CGGGCTAGCCATGGATCTCAGCAGGGTTATCCCCGTCATCATCAGCATGG
TCACGGGAGCGGTAAGTGGTTGCCGCGGCAGCAGAACGTGTATGCTCGCG
ATTTGGCGTGCGTGTGTGCGTCGTGTGTGTGTGTGTGTGTGTGTCTTAAT
GGTGGGTTTCGATATCGATCGAAAGAATGACACGCTCGTCTCCCACCTGC
TGCTGTGTCATGCCTCCTACTTATCGCTGTATATCAACCATGGGGAATTT
GTATGCAGGTTTTTCATGTTTTTTTTTTTTTTCGTGACCGGCCGCATGAT
TTGACGATACCTTTCGTAATACAACGCGAGTAAGTAGCTGATGTGCGAAA
AAGAAGGTGGTACTCGCAAAGCCTGCCCTTGGTTTTGCGTGGGTGACGTG
CCCGGCTGATTGATTGTGATCGTGGGAAGAATTGAGAACACAGGGAGACA
CACTGGTAAATGCTACTTATGATTCAGCGGCATCAAATGCTGGTGTGACA
TACTTGGCATGACGATTGCTCACTTGCTTGTATGTGGGCTTCTGTGTACG
GTCCGTGTCACGAAGTCTTCTGAGCGATGCTGACCTCTTTCTCTCTCTCT
CTCTCTTCCTCTGCCCACCCTGTTGCGTCTTCATTCCCTGTGGCTCCGCT
TTCGGTGCTGGTTTGCCGACGCTCGCTTTTGTGCACGTATATACCTCCAT
GTCTGCCGGTGACGCGCGGTTCGGCCATCCCTCCGGTAACGTTGAATGCT
GATCACGGTCTGTGCGGCACGATCTGACAGTTTGCCAATGACCGCGGCAA
GTCCGACCGTGAACTGAGGGATTCGCAGGGAGCCCCTTCGCTAAACTGGG
GTGTCTTCTACCCTCCGCTGTGAGTTGTTTTGTCGTGAATCAGATTTTTG
TTGTGTTTTCATCCCTCTTGTAGTTCCGGTGTTGTCATTGGTTTGTGTTG
TTCGTAGTCTGGGTTCGAAGGCCGAATTTTGTGATGGTGATGTTTGTCTA
TTATTCGTCGTTCTTGTAGTGCTGCTGTTGTCAACGGTGTTGTTGGTAGT
CTGGGTTACTCGGGTGTCTCATTGCTTGATCATTTGACATTTTGTTTGTC
ATCATTTGTGATTGGACAGCAGTGGAAGGGACATATCAGAGATCGGGACG
GCTTTCAATGTGAAGACAACACACACGCACACACACACGAAAACGTCAAT
ACTACTTGTACCTGAAGTGCTTCGTCGTCCTTTGTTGTTGTGAATCAGGT
GTCTACATATAATATAGCCTTGCATTCACTTTCCTTAAAAATAAAAACGC
TCTTCGTCTTTGACCCTCGCGCCCCCTTCACCCTGTTTTTGTTGTTTCCT
ATGCCGGGCGTTTAGTCTGTTGGGATTGCCGTCTTCTTCCCCTCTCGTTG
GCTTTCTCTTTCTATTTTTTTTCTATCTCCATCTATATTCCTGTATATCG
CTCATATCTCGCTCTCTCCTCCCCTCCCTCTCTCCCTCCCTCTTTCTCCC
CTTTTCTCCCTCATTTCAACTCTCCCCCCTTCTCTCCCTCTCCCCCTCTC
TCTCTCCCCCCCTCTCTCTCCCCCTCTCTCTCCCCCCCCCTCTCTCTCTC
CCCCCCCCTCCCGCCCTCTCCCCCTCTCTATCTCCCCCCTCCCCCCCTCC
CCCCCCTCTCCCCCTCCCGCTCCCCCTCTCTAACTCTCTTCTCAGGCTGT
TCGTGCTTCTCGTGGTGTTCTGCTACGCCGCCATCGCGCCCATCATCCTG
CCAGTGGCGTGCATGGTCTACTACGGGTCGTTCCTCGTCTACAAGAACCA
GGCTCTCTTCGTCTTCGTGCAGACGGCGGAGAGCGGCGGAGCGGTGAGTC
TTTCTTTGCCGTGCAGTTCTGTGCTGTGCTGTGCTGTGCTGTGCTGTGCT
GTGCTGTGCTTTGCCTTCCTTCCTTTTCTGTCGCTTTGCTGCTCTTTGCT
TTGCTTTGCTGTGTTTTTCTTGTCTTCTTTTGTTTTGTTCTTTTCTTGCT
TTTTTTATTTTGTTTTTGCGTTTGTTGTTCCTTTCTTGGATTTTCTTTGC
CTTGCCTTGCCTTGCCTTGCCTTGCCTTGCCTTGCCTTGCCTTGCCTTGC
CTTGTCTTGTCTTGCCTTGCCTGGTATCAACTTTGTGCGTGTGCATTAAA
CCATTTACGTGATGCGGATGCCAGTCGTTCCATTAGTTGGTCTACTTTGA
ACGAAAGGTATGTATGAGGTATGCTTGAAATGTCACGAAATGTTACCAAC
ACCAAAGTCTACGATCATGGGTATGTATGATTTGGCGTGAGGCCCTTACA
GCGGTCAACGGATTCCGGCCGCCACCGAAGTCTCCTTTCTCCTGAAGAGG
AAGGTGGTTTGAAATCTGTCAGCTATTACTGCTGTACGTACTTTCGCGAT
TTGCTGATATTGGTCATGCGAGTTGTCCGCTGTATACTTTCGGAGATATC
TACCAGTGATCGCCCATCGCTTTTGCTGGCCCTTCACTGTTTATCCCGCC
CGTGCTGGTGGGTGGGTGCCCAGTGGATGACGCAGCTATCTAGACAAGTA
TATTCATGCGCTGCCTGTGTTTTTTGGATGCCATGCACTTATTTATGCTG
CATACCTGCCTTGTCCTTATTTTCTATTTTCCGTCATTGACCGCTATTTT
CTGGACCTCCGGGCCCAAAGCTCATCTGTTGTATTTTGCTTTGCATCGCG
TCGAATCGCATCGAATCGCAGTCTATGTACCTGCTGTTCCGCTTCAGCAT
GGCGAGTCTCTACATCGGCGAGGTTGTGTTCTTGGCCTATGTCGGGTTGA
AGAAGGGCCCCCAGCAGGCCGCCCTCGCTCTCATCCTCATCGGCATTACC
TTTCTCTGGCACCTACAGGTATGTGTGTGTTCGGTCACACCTTGCTTTCG
TGCGACTTTTGTGTGTTGTTGTTGTTGTTGTTGTTCTTGTTGTTGTTGTT
CTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCCGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTCTTGTTCTTGTTGTTGTTGTTG
TTGTTGTTGTTCTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCTGTTGTT
GTTGTTGTTGCTGTTGCCGTTGTTGTTGTTGTTGCTGTTGCCGTTGCCAA
CAGTTGTTTGCACGATGAGAGTGGAAAAGAGTTGTCCACAAGACCCGACC
ATCACATGGAAGAGATAGATGCTAGTTCTCTGTGTTCGTGGCTAGTCTAC
TCCAGATCCTCGTCTGAGGGAGACGAGCACATTGATGTGTTCGGCAGAAA
AAAAAAAGTCAAACGAGGGAAAATGCTTTGAAATTGCGATGCTGAACCCT
TGTCGCGTAATCATGGGGGCAGGCACGGCGAAAGGAGGGCGGAGAAATAA
ATCGTGTTGACCTTGCTTTTTCTTGTCTGTCGGGACCCCAACCCGGCTGG
TGCGGTCAGCTTGTACCGGACGGTATAGACTGGCGCTTAAAATTGACAGG
ATCGCAACACATGCACGCAGTTTAGCCCAAAAGTACCGGGTTTGTTTTTG
GCGGTCTAGGACTGACTGAAGGGGAACGCCGCGGAACGCTCAACATTTTA
CGCGTTTTTTGATAGATGTACACATGATAGTATCTTGAAGTCAAAATGTG
CTGAATCGAATGAAATCGAATCGGACGAAGCGAAGCGAAGCGAAGCGAAG
CGAAGCGAAGCGAAGCAAGTCGTCGAAATCAGCAGGTAAAAGCAAGTGAT
ACGATCGGTGCGGAATGAATGAACTCAGTTGTGATGAATCGACTGGAATG
GTTCTTGTCAGGTGAACACGAGGTTCGTGGAGATGTCGAAGAAGCAGTGC
ATGGAGGCTGCCGTTGCGGCCGATGCCAAGCTTCTCAAGGCTGCCGGCGC
TGCCCAGGGACCCTCCTCCACCGCCGACCACCCCTTCGAGGGCAAGGCAT
ACGTCCAGGTTTGTGTGTGTGTGTGTTTTTTTTTTTTTTGTCGTGTTTCT
TCCGTAAAAGCCGTGGAATATGATATCTACTTGGAAGTATCCAGCACAGC
AGTTGAAAAACCCTCGTTAAGGACAAGGTGCTTGTGCAGGTTCGTGCGTA
TGTTTTTGCTTGTGTTCTTTCCGTGAAACGCCGTGTGATACGATAGTCAC
GTCGAAGTGTCTGGAACAGTTAAACCCCGTGAAGGATATGGTGCTTGTGC
AGGTTGGTTGGGATTCTTGTGTTTCTTCCGTGATATGCCGTGTGAAATTA
AGAACGGTAAACCTTATGAAGGACACGGCACTTGCGCAGGTAGGTTGGTT
GTTTGGTTGGGGTTTCGTATCTTCCGTGAAACGCCGTGTGTTACGTTAAA
TGCCGTGATATCTATCTAGTACGTTGAACCCTCATGAAGGACAAGGCACG
TGTGCAGGTTGGTTGGGATTCTTGTATTTCTTCCGTGGAATGCCGTGTGA
TATCTGGTACGGTAAAGCCTCATGAAGGACAAGGCATCTGCGCACGTTGG
TTGGTTGGTTGGTTGGTTGGGGTTTCGTATCTTCCGCAAAATGCCTGGTG
TGTCCAGTACGTTTCAAACCCTCACACAGGGCAAGGCGTGCAGCAGTATT
ACATGTATCGAGTATTACACGAGTTTTGAACGCTCAAAGAGGGCAAGGCG
TAAAATATGATGGCGTATTACATGAGTTTTTGGTTGTTTTTTTTTTCCCG
CACCAAACAACTCGTATGATATGATATGACAATACGTGGCAGTGCGTGGT
GTGAATACCTCTGTATCGCTCTTGGTGAGGGGGTTGGGTATCATCTATTG
CTCGCACCCACTTCGATTTTCCATGGCATGCCTGCGTTTTGCGAGAACCG
TTTGTCTTTGTGTCCAGCAATGAAGCGGGCTGTTTTGTGATACGGTGAAA
ATGGCTCACCAACAGCCAAGATAGTACGCGCGGGTTGGTTGGTTCGTCTC
CCGCGAACAAAGATTCGTACTTCCAAGTAGTAGTGTACGATATACTCGTA
CGTGATGATCCGTGAATACGTGACACCTGTCCATCTATTTATTTATTTAT
TGTGTTGTCGTTGGTTGTAATTTTGAATGGACGTTCCCTTTCATGTCCTA
CCCTCTCGTAAATTCATACTCGTACCTGGTATTATACATCGCGATGCAGC
GGTGGAAACGTACGTGGAAACGTGACAATATACTGATGTTTTCATTCCCG
TGGTGCCCTGTGTTGTCGTGTTGTTGTGTTGTCGTTGGTCCTAATTCGAA
GGGACGTTCCCGTCATGATGTCCTGTCCTCTCCCGCCTTTGTCTCCGACT
CGATCAATCGATCAATCTCGACCAATCGCACGCAGAGCTCCCTCAAGAAG
AGCGAGTGGGAGACCAAACCCGAGGGTTACCGCGACCCGGCCAACTCTCA
CAAGATCTCCCGTCCCAGGCGGGAGATGAACATCCAAACCGTCGAGAGCG
TTGTCTAGGCCCGTGCTGGTGCTGCTGGTGCTGTGGAGCGTCGGCGTCGA
TTTTGATGGCGACCGCGGTTTTGGGGGGGATCCGGGTTGATCCAGGAAGG
AGGAGAGAGAGGAGGAGAGCCGAGCCATGGGACAGCGAGTGCTCTTTTGA
GTTAGCTTCGGTTGGTTGAGATCTTGACGTTGGTGGTTGAGGATGGAGAA
AGTGGGGAGGGAGGGAGTGCGGTAGCGGTGTGCTGAGCTGCCGCTGCTAC
CGCCTGCGAGCTCATGGCTGCGAGCTTTTTGTTGAGCTGCTGCTGCCGCT
GCGAGCTTTAACTGCTGCGAGCTCATCGTTGACATCGATCGTGAGCGGTC
GTTGTCGATCGAGGAAGGACGTGTGATGGTTCGCACGGCGGTTAGCGGCG
CGATAAGGTGTGGTGTGCCTGCCTGCTGCCCTGATGGCATTGCAGTGCAG
TCAGGGTGTATGCACATTGCATGGATGGTCAGATAGGTTATCTTGTGGCG
TGGTGTGCCTGCTGCCCCCATTGCATCGCAGTGCAGCCAGGGTTCATGCA
GATGTATCTTCTCTCGTTGTCAAACGAAGAGAGGAGGGAACGGCATTGTC
TCTTTTATCTTGTCGTTTGTCTCTTGTCTTTCGTCTGACTGTTTTGTCTT
GTCTCCACTTCATTTCAAGTCTTGATTTTTTATCAGCACTTTGTATTGAG
CAATAGCGTTCAATCGCGTTCGTAAGGCTTAGTGCGCGCACTACCGTTAG
GCGTGACTACAGTCGTGTGGCCCCTGCTGTTTCATTTAAGTAGAGGGACG
AGAAGAAAAGCGAGGGGATCGCCCTTAACTGATTGAATTATAATAAATCC
GTGACTGGCTTTGGCGTGGCTGACGCCTACTACTTTTCTGTTCCCACGAG
CTTTGTGACGGGGAGTGTATTTATGCTACATATGTGGTTTACCTTGTTTT
TTTTTTCAGTTTTAACAGTGTGAGGGGTTTCGGTGACAAATTTTAAGTGA
GGTATGTGGGAAGGAAAAAAGTACTAGCAAATGCTTGTTCCCTGCCGTGG
TTTCAATCAACCAGTCACAGCGCTGAGATTACTGTAGGGTGTGAGGTGTG
GGGGGGAGATCAGCTCGTAAGTTTTTCTGTGTAAATCCTCGCCGGTACTG
AAACTAACAAACGCTTGAACGTTTTTCAAGAGTTTTTTCTAGCAGGAAAG
GTGAGGTGCCCTCCGTTGAGTCTCTGGTACGTAATCGAACAGGGGGGCGG
CGTTTGTCCCTCTGGTGTCTCTGTTAGCGGAGGTTGTTACTTGGGTGGTG
GTGGACATGGAAGGTGTTTCGAAGAACCAAGACGTGACGTGACGCCCTCA
AGAAGAAAGTGTAAAGCCCGGGGGGTGGAGTATGATTGCAAGGCTTTTCT
TTGCGCTTTTTATTCCATAGTGTTGTACAAGTGAAAGATGTATGATACGA
GTACAACGCTCGAATGCATGCTGCTTGCCTGCCTGCCTGCCTGCCTGACT
TCCTGTATGTAGTGAGGGGTGTTTTTTCTTCTCACGTTCGTCAGAGAGAA
CGAACGCCTTTTCGGCACTTCTTGCATGCGCTATGATAAAAAAGTACGCA
TTTGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig671:92925..118579+

>mRNA_P-littoralis_Contig671.18.3 ID=mRNA_P-littoralis_Contig671.18.3|Name=mRNA_P-littoralis_Contig671.18.3|organism=Pylaiella littoralis U1_48|type=CDS|length=2346bp|location=Sequence derived from alignment at P-littoralis_Contig671:92925..118579+ (Pylaiella littoralis U1_48)
ATGAGTACGACAGCAGAAGAGAACACATCAGAGTGGTCTCCGGTATGGAC
TACGGCTGCCTTCGCCGCGGCGCAGGGATTGGTCGTGTACTTCCTGTTTG
AGTGCTGGAGAAAGCAGAAGAACAAGAGGGGCATCTATCAGCCAAGGCAG
ACGCAACGCCCGCACCGCACGCCGGAAGAGCCATCCTCAGCACCGTTGTC
CTGGCTCGGGTCAGTGAACAGGGTGGACGATGAGGAGACGCTCAAGTTGG
TTGGGATGGACCACTACGTCCTTCTCAGGCACTGCCTCTTTGGCGCGAAG
CTCACCTTCATCCCGAGCCTGATCGGAGTGTTGCTGATGGTGTTCGTCTA
TCGGGACGGTGGAGGAACCGAAGAGAACTTCAACGAGATCACGATGGGCA
ACGTGAAAGCGCAGAGCTCCAGGCTCTGGTTCTCGGTCGGCTTCATGTAT
ATTGTCGTGCTCTGGGCTCTTCTACTCTGGTGGAAGGAGTGGGAAAACTT
CGTCGTCAAGAGGTTCAATTTCATGGCTGTGGGCGACCCGGACATGGACA
AAGAAGTGGCGTTCTCCGCCATGATCGAGAACATCCCCCAGGACAAGCGG
TCTTCGCCTGCCCTCTACGGCTACTTCGACAACCTCTTCCCCGGCAAGGT
GTCATACGCGAGCCTGTGCATGCACTCCGGCGACCTGGAGACCACTCTCG
CAGAGAAGGATGGCGCCCTCGCCAAAATCGAGCACGCCGTGGCTCAGAAG
CACCTCGACCCGCCCAAGGAAACCAAGACGAAGGTCGGCGGAGTTCTCTG
CTGTGGAGGCGAAAAGGTTTCGACGGAGACCCACTACACCAACGAACTCT
CGAAGCTGCTTAGCGAGGCCGACAAGGAACACGCCCGCATCAGCCAGGTC
GCTTCTCAGGGTGCCGGTTCGAGCGTGGCGTCGTCGACCGGTTTCGTCGC
CTTCACGTCGGCCGCCACCAAACTCGCCGCCTCCAGCCTCAGCCTGTCCG
GAAAGCTGCACGAGATGGATGCTCACGCCGCCCCTGCCCCTGACGACGTG
ATCTGGGACAACGTGACGACCCCCGCTCTTCAAGTCACCTGGAAGACGAA
GATCGCGAACTGCATCTGGATGACCGGGATTCTGTTCTGGGCCGTCCCCG
TCGCCGTGGTGCTGGGTTTCGCCGACCTCGAAGCGCTCGGGGAACGCGCT
TCCTGGATCCCTCTCCCGGCGCCCGGCTCGTTCCTGCACGGGCTTATCTC
CGGTCTTCTGCCTGTCGTGGCCCTCGCCGTGCTCACTGCCCTCGTGCCCA
TCGTCATCAGGATGGTTGCAGTCAAGTTCTGCCGCATGAAGAGCGAAGCC
GACGTAGACCTGTACGTCTTCAAGTGGCACTTCGGCTTCCGTGTTGCTAA
CCTGTGGCTCATCATCGTCGGAGGGTCCCTGATCAACCAGCTCGACCCCT
TCATCGAGGAGCCGTCCTCCATCGTAGATCTGCTGGGCAGCTCCGTCCCC
GGCAAATCCCAGTTCTTCCTCAATTCACTCCTCGTCACGCTTTTATCCGG
GCTAGCCATGGATCTCAGCAGGGTTATCCCCGTCATCATCAGCATGGTCA
CGGGAGCGTTTGCCAATGACCGCGGCAAGTCCGACCGTGAACTGAGGGAT
TCGCAGGGAGCCCCTTCGCTAAACTGGGGTGTCTTCTACCCTCCGCTGCT
GTTCGTGCTTCTCGTGGTGTTCTGCTACGCCGCCATCGCGCCCATCATCC
TGCCAGTGGCGTGCATGGTCTACTACGGGTCGTTCCTCGTCTACAAGAAC
CAGGCTCTCTTCGTCTTCGTGCAGACGGCGGAGAGCGGCGGAGCGTCTAT
GTACCTGCTGTTCCGCTTCAGCATGGCGAGTCTCTACATCGGCGAGGTTG
TGTTCTTGGCCTATGTCGGGTTGAAGAAGGGCCCCCAGCAGGCCGCCCTC
GCTCTCATCCTCATCGGCATTACCTTTCTCTGGCACCTACAGGTGAACAC
GAGGTTCGTGGAGATGTCGAAGAAGCAGTGCATGGAGGCTGCCGTTGCGG
CCGATGCCAAGCTTCTCAAGGCTGCCGGCGCTGCCCAGGGACCCTCCTCC
ACCGCCGACCACCCCTTCGAGGGCAAGGCATACGTCCAGGGACGTTCCCG
TCATGATGTCCTGTCCTCTCCCGCCTTTGTCTCCGACTCGATCAATCGAT
CAATCTCGACCAATCGCACGCAGAGCTCCCTCAAGAAGAGCGAGTGGGAG
ACCAAACCCGAGGGTTACCGCGACCCGGCCAACTCTCACAAGATCTCCCG
TCCCAGGCGGGAGATGAACATCCAAACCGTCGAGAGCGTTGTCTAG
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