mRNA_P-littoralis_Contig16.68.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig16.68.3
Unique NamemRNA_P-littoralis_Contig16.68.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A6H5JEB4_9PHAE (AAA domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JEB4_9PHAE)

HSP 1 Score: 593 bits (1530), Expect = 5.740e-208
Identity = 314/358 (87.71%), Postives = 321/358 (89.66%), Query Frame = 2 
Query:  191 ENFAMGGADDAKPAPA---PARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQVAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRGCSSQ 1255
            ++  MGGA D+KPA     PARLQPWVEKYRPKTVDDVAHQDEVT+TLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTY+DRILELNASDERGIKV  +      KI T   QVAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRL YIS EE V I+  GLQAIVDLSGGDMRKAVTAMQSASQFYAG EV TPEVLVDIAGKIPAEVKDALW AIKSGSY  IVAAVDDFMSSGYPLSTLLEDMQEATVAD  IPDH KADICRRIAEADRCLIDGCNEELQLLDLASVA R C SQ
Sbjct:    5 DDVTMGGAADSKPAAQQAPPARLQPWVEKYRPKTVDDVAHQDEVTNTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYRDRILELNASDERGIKVVRE------KIKT-FAQVAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLSYISREEDVKITADGLQAIVDLSGGDMRKAVTAMQSASQFYAGAEV-TPEVLVDIAGKIPAEVKDALWSAIKSGSYHKIVAAVDDFMSSGYPLSTLLEDMQEATVADTTIPDHNKADICRRIAEADRCLIDGCNEELQLLDLASVAARSCCSQ 354
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A836CA10_9STRA (P-loop containing nucleoside triphosphate hydrolase protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CA10_9STRA)

HSP 1 Score: 396 bits (1018), Expect = 1.590e-130
Identity = 209/343 (60.93%), Postives = 256/343 (74.64%), Query Frame = 2 
Query:  221 AKPAPAPA-RLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQVAVGRATHQAG-YPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEV-VTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATR 1240
            AKPA APA   +PWVEKYRP+TVDD+A+QDEV  TLK AI+TGV+PHLLFYGPPGTGKTST+LA+ARTLFGP+ Y+ RILELNASDERGIKV  +        +    Q AVG A   +  + CPPFK+IILDEADTMTPDAQ+ALRRTMETY+ VTRFCLICNYVTRIIEPLASRCAKFRF AL    ML RL +I+  E V+IS +G QA++ L+GGDMRKAVT +QSA Q Y G+   +T E L +++G++   + + +WLA++SG +  +  AVD FM  G PLS+LL  + E T+AD  IPD  KA IC++I+EAD  L+ G NEELQLLD+     R
Sbjct:   10 AKPAVAPAVHTKPWVEKYRPRTVDDIAYQDEVVKTLKKAISTGVMPHLLFYGPPGTGKTSTILAVARTLFGPEMYRTRILELNASDERGIKVVREK-------VKNFAQAAVGTANATSTTHSCPPFKLIILDEADTMTPDAQAALRRTMETYTKVTRFCLICNYVTRIIEPLASRCAKFRFRALSNETMLTRLDHIAAAEHVSISAAGKQAVIGLAGGDMRKAVTTLQSAHQLYGGSGTEITAEALAEVSGRVSPALVEQIWLAVRSGDFRTLTDAVDAFMFEGSPLSSLLTTLLEDTLADDAIPDVTKAAICKKISEADYSLLLGANEELQLLDVGGFMMR 345
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A4D9CQY7_9STRA (AAA domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CQY7_9STRA)

HSP 1 Score: 366 bits (939), Expect = 1.790e-118
Identity = 189/349 (54.15%), Postives = 246/349 (70.49%), Query Frame = 2 
Query:  203 MGGADDAKPAPAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQVAVGRAT---HQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATR 1240
             GG D A       ++QPWVEKYRP+ VDD+++QDEV  TLK AI TG LPHLLFYGPPGTGKTST+LA+AR+LFGP+ Y+ RILELNASDERGIKV          +  +VKQ A    T     AGYPCPPFK+IILDEADTMT +AQ+ALRRTMETYS +TRFCL+CNYVTRIIEPLASRCAKFRF  L +  M  RLR I T E  ++++  + AI+ ++ GDMRKAVT +QSA QFY G+  +TP+ + +++G +P  +  +LW AI + S+ N+ A  D+   +GYP   +L  + +  VA+ G+ D KKA +   +A A++ +IDG +E LQLLD+ ++  R
Sbjct:    8 QGGKDVAVAKAQQTKVQPWVEKYRPQGVDDISYQDEVVKTLKNAIQTGTLPHLLFYGPPGTGKTSTILAVARSLFGPE-YRSRILELNASDERGIKV----------VREKVKQFAQFTVTGLEKTAGYPCPPFKIIILDEADTMTTEAQAALRRTMETYSKITRFCLVCNYVTRIIEPLASRCAKFRFRPLSREVMEARLRAIGTAEGASVTQEMMNAILTVADGDMRKAVTTLQSAHQFYGGSSSITPDAVREMSGGVPDGLVQSLWEAISTQSFDNLKAQCDEVEMAGYPTMAVLHRLFDLVVAEEGVEDAKKAVVMAGLARAEKLIIDGASESLQLLDICALMMR 345
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A7S4DH62_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4DH62_HETAK)

HSP 1 Score: 359 bits (922), Expect = 3.840e-116
Identity = 194/352 (55.11%), Postives = 240/352 (68.18%), Query Frame = 2 
Query:  218 DAKPAPAP---ARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVK---QVAVGRAT-HQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGT---EVVTPEVLVDIAGKIPAEVKDALWLAIKSGS-YPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATR 1240
            + +P P P   AR QPWVEKYRPKTVDD+AHQDEV  TLK AI TGVLPHLLFYGPPGTGKTST+LA+A+TLFGP+ Y+ R+LELNASDERGIKV          I  +VK   Q AVGR      G  CPPFK+++LDEADTMTPDAQ+ALRRTME +S VTRFCL+CNYV+RIIEPLASRCAKFRF  L   AM  RLR I  EE V  S+  +  IV ++GGDMRKAVT +Q+A + + G    + +  + ++++AG +PAE    LW A+     +  +    D   + GYP+  LL  +QE  +A  G+PD +KA +  R+A AD  L+DG  E LQLLD A+   R
Sbjct:    2 EIEPVPPPQKSARHQPWVEKYRPKTVDDIAHQDEVVKTLKNAIDTGVLPHLLFYGPPGTGKTSTILAVAKTLFGPEIYRARVLELNASDERGIKV----------IREKVKGFAQHAVGRGVVGPNGRRCPPFKIVVLDEADTMTPDAQAALRRTMEVHSKVTRFCLVCNYVSRIIEPLASRCAKFRFQPLQAPAMAARLRQIGAEEGVAFSDETVDTIVAVAGGDMRKAVTTLQTAHRLFGGGGSGKALGRDAILELAGDLPAEATAGLWRAVAEDRVFHRVQEEADALAAEGYPVGALLLRLQEEVLARPGLPDWRKAAVLERLARADAALVDGAGERLQLLDAAATLAR 343
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A1Y1HK96_KLENI (Replication factor C subunit RFC4 n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HK96_KLENI)

HSP 1 Score: 353 bits (906), Expect = 6.660e-114
Identity = 181/342 (52.92%), Postives = 239/342 (69.88%), Query Frame = 2 
Query:  227 PAPAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRG 1243
            P P P+  QPWVEKYRP+ V+DVA Q+EV  TL+ ++ TG LPHLLFYGPPGTGKT+T LA+AR LFGP+  K R+LELNASD+RGI V          + T++K    VAVG     +GYPCPPFKV+ILDEAD+MT DAQ+ALRRTMETYS VTRFC ICNY++RIIEPLASRCAKFRF  LG+  M DR++YI  EE +++ +  L  +  +SGGDMR+A+T +QSAS+ +     ++ E ++ ++G +P +V + L  + +SG Y      V D ++ GY +S +L  + +  V    + D +KA IC R+AEAD+CLIDG +E LQLLD+AS   R 
Sbjct:    3 PMPGPS-TQPWVEKYRPRNVNDVASQEEVVKTLRNSLETGNLPHLLFYGPPGTGKTTTALAIARQLFGPELVKTRVLELNASDDRGINV----------VRTKIKDFAAVAVGPGV--SGYPCPPFKVLILDEADSMTEDAQNALRRTMETYSKVTRFCFICNYISRIIEPLASRCAKFRFKPLGREIMTDRIQYICREEGLSLDDEALNTLGKVSGGDMRRAITCLQSASRLFGSR--ISSENIISVSGVVPDDVIEKLLTSCRSGDYDKAQGTVTDIIADGYAVSQILSQLHDEVVRAEDVTDEQKARICERVAEADKCLIDGGDEYLQLLDVASNTMRA 329
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A2P2JDL4_RHIMU (Replication factor C / DNA polymerase III gamma-tau subunit n=2 Tax=Rhizophora mucronata TaxID=61149 RepID=A0A2P2JDL4_RHIMU)

HSP 1 Score: 347 bits (890), Expect = 1.780e-111
Identity = 180/352 (51.14%), Postives = 234/352 (66.48%), Query Frame = 2 
Query:  230 APAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRG-CSSQ*EFMME 1273
            AP     QPWVEKYRPK V DVAHQDEV   L   + T   PH+LFYGPPGTGKT+T LA+A  LFGP+ YK R+LELNASD+RGI V          + T++K    VAVG +  Q GYPCPPFK+IILDEAD+MT DAQ+ALRRTMET+S VTRF  ICNY++RIIEPLASRCAKFRF  L +G M  R+ YI  EE +N+    L  +  +S GD+R+A+T +Q A++ +  T  ++ + L+ ++G IP EV  AL+ A K G +    A V+D ++ G+P+S +L  + E  V    + D +KA IC+ + EAD+CL+DG +E LQLLD+A    R  C+   EF  E
Sbjct:    2 APVLQSSQPWVEKYRPKKVKDVAHQDEVVRVLTNTLETSNCPHMLFYGPPGTGKTTTALAIAHELFGPELYKSRVLELNASDDRGINV----------VRTKIKDFAAVAVGSSQRQGGYPCPPFKIIILDEADSMTEDAQNALRRTMETHSKVTRFFFICNYISRIIEPLASRCAKFRFKPLSEGIMSSRILYICQEEGLNLDTEALSTLSSISQGDLRRAITYLQGAARLFGST--ISSKDLISVSGVIPQEVVGALYAACKGGDFDYANAKVNDVIAEGHPVSQMLSQLFELVVEADDVSDEQKARICKSLGEADKCLVDGADEYLQLLDVAGSTMRALCNMPQEFSHE 341
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A445CA11_ARAHY (AAA domain-containing protein n=2 Tax=50 kb inversion clade TaxID=2231393 RepID=A0A445CA11_ARAHY)

HSP 1 Score: 346 bits (888), Expect = 3.440e-111
Identity = 175/341 (51.32%), Postives = 235/341 (68.91%), Query Frame = 2 
Query:  230 APAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRG 1243
            AP     QPWVEKYRPK V DVAHQ+EV   L   + TG  PH+LFYGPPGTGKT+T LA+A  LFGP+ YK R+LELNASD+RGI V          + T++K    VAVG   H+ GYPCPP+K+I+LDEAD+MT DAQ+ALRRTMETYS VTRF  ICNY++RIIEPLASRCAKFRF  L +  M +R+ YI  EE +N+    L  +  +S GD+R+A+T +QSA++ +  +  ++ E L+ ++G +PAEV +A+  A KSG++ +    V++F++ GYP S +L  + EA + D  I D +KA I +++ EAD+CL+DG +E LQLLD  S   + 
Sbjct:    2 APVMQSTQPWVEKYRPKQVKDVAHQEEVVRVLTNTLETGSCPHMLFYGPPGTGKTTTALAIAHQLFGPELYKSRVLELNASDDRGINV----------VRTKIKDFAAVAVGTIQHKGGYPCPPYKIIVLDEADSMTEDAQNALRRTMETYSKVTRFFFICNYISRIIEPLASRCAKFRFKPLSEEIMSNRILYICNEEGLNLDAKALSTLSSISQGDLRRAITYLQSAARLFGSS--ISSEDLISVSGVVPAEVVEAILKACKSGNFDSANKEVNNFIAEGYPASQILTQLFEAILED-DISDEQKARIAKKLGEADKCLVDGADEYLQLLDTVSTTMQA 329
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A0A0KYI8_CUCSA (AAA domain-containing protein n=5 Tax=Cucurbitaceae TaxID=3650 RepID=A0A0A0KYI8_CUCSA)

HSP 1 Score: 343 bits (879), Expect = 6.490e-110
Identity = 173/336 (51.49%), Postives = 233/336 (69.35%), Query Frame = 2 
Query:  230 APAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLAS 1228
            AP     QPWVEKYRPK V DVAHQDEV   L   + T   PH+LFYGPPGTGKT+T LA+A  LFGP+ YK R+LELNASD+RGI V          + T++K    VAV     Q GYPCPPFK+IILDEAD+MT DAQ+ALRRTMET+S VTRF  ICNY++RIIEPLASRCAKFRF  L +  M  R+ +I  EE +++    L  +  +S GD+R+A+T +QSA++ +  +  ++ + LV+++G IP EV DAL++A KSG++      V++ ++ GYP++ +L  + E  + D  + D +KA IC+++AEAD+CL+DG +E LQLLD+ S
Sbjct:    2 APLLQSSQPWVEKYRPKQVKDVAHQDEVVRVLTNTLETANCPHMLFYGPPGTGKTTTALAIAHQLFGPELYKSRVLELNASDDRGINV----------VRTKIKDFAGVAVSSGQRQGGYPCPPFKIIILDEADSMTEDAQNALRRTMETHSKVTRFFFICNYISRIIEPLASRCAKFRFKPLSEEVMSKRILHIGNEEGLSLDGEALSTLSSISQGDLRRAITYLQSAARLFGSS--ISSKDLVNVSGIIPQEVVDALFVACKSGNFDTANKKVNNVLAEGYPVAQMLSQIFEVVIEDNDLQDEQKARICKKLAEADKCLVDGADEYLQLLDVVS 325
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A6V7QGJ8_ANACO (AAA domain-containing protein n=3 Tax=Ananas comosus TaxID=4615 RepID=A0A6V7QGJ8_ANACO)

HSP 1 Score: 343 bits (879), Expect = 7.670e-110
Identity = 178/348 (51.15%), Postives = 234/348 (67.24%), Query Frame = 2 
Query:  230 APAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRG-CSSQ*E 1261
            AP     QPWVEKYRPK V DVAHQDEV   L   + T  LPH+LFYGPPGTGKT+T LA+A  LFGP+ YK R+LELNASD+RGI V          + T++K    VAVG   HQ GYPCPP+K+IILDEAD+MT DAQ+ALRRTMETYS VTRF  ICNY++RIIEPLASRCAKFRF  L +  M  R+ +I  EE +N+    L  +  +S GD+R+A+T +QSA++ +  +  ++   L+ ++G IP +V ++L+ A KSG +      V   ++ GYP+S L+  + E  V    I D +KA IC+++ EAD+CL+DG +E LQL+D+AS   R  C+ Q E
Sbjct:    2 APLLPSSQPWVEKYRPKKVKDVAHQDEVVRVLTNTLETADLPHMLFYGPPGTGKTTTALAIAHQLFGPELYKSRVLELNASDDRGINV----------VRTKIKDFAAVAVGSKPHQGGYPCPPYKIIILDEADSMTEDAQNALRRTMETYSKVTRFFFICNYISRIIEPLASRCAKFRFKPLSEEVMSGRILHICNEEGLNLDSEALSTLGSISQGDLRRAITYLQSAARLFGSS--ISSNDLISVSGVIPQDVVESLFTACKSGDFDVANKEVTRIIAEGYPVSQLICQLLEVIVNAEDIQDEQKARICKKLGEADKCLVDGADEYLQLMDVASHTMRALCNMQQE 337
[Close]
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Match: A0A6P3ZVL2_ZIZJJ (replication factor C subunit 2 isoform X2 n=4 Tax=Ziziphus jujuba TaxID=326968 RepID=A0A6P3ZVL2_ZIZJJ)

HSP 1 Score: 342 bits (876), Expect = 2.160e-109
Identity = 176/349 (50.43%), Postives = 237/349 (67.91%), Query Frame = 2 
Query:  230 APAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKGAIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDERGIKVSYQTYNVCIKILTRVKQ---VAVGRATHQAGYPCPPFKVIILDEADTMTPDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGAMLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTEVVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLSTLLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASVATRG-CSSQ*EF 1264
            AP     QPWVEKYRPK V DVAHQ+EV   L   + T   PH+LFYGPPGTGKT+T LA+A  LFGP+ YK R+LELNASD+RGI V          + T++K    +AVG A H+ GYPCPP+K+IILDEAD+MT DAQ+ALRRTMETYS VTRF  ICNY++RIIEPLASRCAKFRF  L    M +R+ +I  EE +N+ E  L  +  +S GD+R+A+T +QSA++ +  +  ++ E L+ ++G IP EV +AL+ A K G++      V++ ++ GYP++ +L  + E  V    + D +KA IC+++AEAD+ L+DG +E LQLLD+ S   R  C+   EF
Sbjct:    2 APVLQTSQPWVEKYRPKQVKDVAHQEEVVRVLTNTLETTNCPHMLFYGPPGTGKTTTALAIAHELFGPELYKSRVLELNASDDRGINV----------VRTKIKDFAAIAVGSAQHKGGYPCPPYKIIILDEADSMTEDAQNALRRTMETYSKVTRFFFICNYISRIIEPLASRCAKFRFKPLSDEIMSNRILHICNEEGLNLDEQALSTLSSISQGDLRRAITYLQSAARLFGSS--ISSEDLIGVSGVIPQEVVEALFSACKGGNFDLANKEVNNIIAEGYPVAQMLSQLFEMIVEADDVSDEQKARICKKLAEADKALVDGADEYLQLLDVTSNTMRALCNMPQEF 338
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig16.68.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JEB4_9PHAE5.740e-20887.71AAA domain-containing protein n=2 Tax=Ectocarpus T... [more]
A0A836CA10_9STRA1.590e-13060.93P-loop containing nucleoside triphosphate hydrolas... [more]
A0A4D9CQY7_9STRA1.790e-11854.15AAA domain-containing protein n=1 Tax=Nannochlorop... [more]
A0A7S4DH62_HETAK3.840e-11655.11Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A1Y1HK96_KLENI6.660e-11452.92Replication factor C subunit RFC4 n=1 Tax=Klebsorm... [more]
A0A2P2JDL4_RHIMU1.780e-11151.14Replication factor C / DNA polymerase III gamma-ta... [more]
A0A445CA11_ARAHY3.440e-11151.32AAA domain-containing protein n=2 Tax=50 kb invers... [more]
A0A0A0KYI8_CUCSA6.490e-11051.49AAA domain-containing protein n=5 Tax=Cucurbitacea... [more]
A0A6V7QGJ8_ANACO7.670e-11051.15AAA domain-containing protein n=3 Tax=Ananas comos... [more]
A0A6P3ZVL2_ZIZJJ2.160e-10950.43replication factor C subunit 2 isoform X2 n=4 Tax=... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig16contigP-littoralis_Contig16:231465..257133 -
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.D8LT29
Preferred nameRFC4
PFAMsAAA,Rep_fac_C
Model size1892
Max annot lvl2759|Eukaryota
KEGG koko:K10755,ko:K14015
KEGG Pathwayko03030,ko03420,ko03430,ko04141,map03030,map03420,map03430,map04141
KEGG ModuleM00289,M00295,M00400,M00403
Hectar predicted targeting categoryother localisation
GOsGO:0000075,GO:0000076,GO:0000166,GO:0000228,GO:0000278,GO:0000723,GO:0000731,GO:0000785,GO:0000790,GO:0000819,GO:0003674,GO:0003676,GO:0003677,GO:0003682,GO:0003824,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005657,GO:0005663,GO:0005694,GO:0006139,GO:0006259,GO:0006260,GO:0006261,GO:0006271,GO:0006272,GO:0006275,GO:0006281,GO:0006283,GO:0006289,GO:0006296,GO:0006297,GO:0006298,GO:0006301,GO:0006508,GO:0006511,GO:0006725,GO:0006807,GO:0006950,GO:0006974,GO:0006996,GO:0007049,GO:0007059,GO:0007062,GO:0007093,GO:0007346,GO:0008150,GO:0008152,GO:0009056,GO:0009057,GO:0009058,GO:0009059,GO:0009314,GO:0009411,GO:0009416,GO:0009628,GO:0009889,GO:0009891,GO:0009893,GO:0009987,GO:0010389,GO:0010556,GO:0010557,GO:0010564,GO:0010604,GO:0010948,GO:0010972,GO:0016043,GO:0016070,GO:0016462,GO:0016787,GO:0016817,GO:0016818,GO:0016887,GO:0017076,GO:0017111,GO:0018130,GO:0019219,GO:0019222,GO:0019438,GO:0019538,GO:0019725,GO:0019899,GO:0019941,GO:0019985,GO:0022402,GO:0022616,GO:0030163,GO:0030894,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031389,GO:0031390,GO:0031391,GO:0031570,GO:0031625,GO:0031974,GO:0031981,GO:0032182,GO:0032200,GO:0032201,GO:0032991,GO:0032993,GO:0033260,GO:0033314,GO:0033554,GO:0033683,GO:0034641,GO:0034644,GO:0034645,GO:0034654,GO:0036094,GO:0042276,GO:0042592,GO:0042623,GO:0042769,GO:0043085,GO:0043130,GO:0043170,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043596,GO:0043599,GO:0043601,GO:0043632,GO:0044093,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044271,GO:0044389,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044446,GO:0044454,GO:0044464,GO:0044774,GO:0044786,GO:0044818,GO:0045786,GO:0045930,GO:0045935,GO:0046483,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0050789,GO:0050790,GO:0050794,GO:0050896,GO:0051052,GO:0051054,GO:0051171,GO:0051173,GO:0051276,GO:0051338,GO:0051347,GO:0051603,GO:0051606,GO:0051716,GO:0051726,GO:0060249,GO:0060255,GO:0061860,GO:0065007,GO:0065008,GO:0065009,GO:0070013,GO:0070914,GO:0070987,GO:0071214,GO:0071478,GO:0071482,GO:0071704,GO:0071840,GO:0071897,GO:0080090,GO:0090304,GO:0090305,GO:0090329,GO:0090618,GO:0097159,GO:0098813,GO:0104004,GO:1900262,GO:1900264,GO:1901265,GO:1901360,GO:1901362,GO:1901363,GO:1901564,GO:1901565,GO:1901575,GO:1901576,GO:1901987,GO:1901988,GO:1901990,GO:1901991,GO:1902296,GO:1902319,GO:1902494,GO:1902749,GO:1902750,GO:1902969,GO:1902983,GO:1903047,GO:1903460,GO:1904949,GO:2000112,GO:2000278,GO:2000573
Exons9
Evalue5.11e-213
EggNOG OGsCOG0470@1|root,KOG0989@2759|Eukaryota
DescriptionDNA replication
Cds size1077
COG categoryL
BRITEko00000,ko00001,ko00002,ko03032,ko03036,ko03400
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig16.68.3prot_P-littoralis_Contig16.68.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig16 232099..256952 -


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

Feature NameUnique NameSpeciesTypePosition
1680789765.6666813-UTR-P-littoralis_Contig16:231464..2320981680789765.6666813-UTR-P-littoralis_Contig16:231464..232098Pylaiella littoralis U1_48UTRP-littoralis_Contig16 231465..232098 -
1680789765.789828-UTR-P-littoralis_Contig16:256952..2571331680789765.789828-UTR-P-littoralis_Contig16:256952..257133Pylaiella littoralis U1_48UTRP-littoralis_Contig16 256953..257133 -


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

Feature NameUnique NameSpeciesTypePosition
1680789765.6847782-CDS-P-littoralis_Contig16:232098..2322571680789765.6847782-CDS-P-littoralis_Contig16:232098..232257Pylaiella littoralis U1_48CDSP-littoralis_Contig16 232099..232257 -
1680789765.6990628-CDS-P-littoralis_Contig16:232686..2327491680789765.6990628-CDS-P-littoralis_Contig16:232686..232749Pylaiella littoralis U1_48CDSP-littoralis_Contig16 232687..232749 -
1680789765.7127025-CDS-P-littoralis_Contig16:233398..2335001680789765.7127025-CDS-P-littoralis_Contig16:233398..233500Pylaiella littoralis U1_48CDSP-littoralis_Contig16 233399..233500 -
1680789765.7242136-CDS-P-littoralis_Contig16:233838..2339521680789765.7242136-CDS-P-littoralis_Contig16:233838..233952Pylaiella littoralis U1_48CDSP-littoralis_Contig16 233839..233952 -
1680789765.73368-CDS-P-littoralis_Contig16:234864..2350051680789765.73368-CDS-P-littoralis_Contig16:234864..235005Pylaiella littoralis U1_48CDSP-littoralis_Contig16 234865..235005 -
1680789765.7473166-CDS-P-littoralis_Contig16:235658..2358441680789765.7473166-CDS-P-littoralis_Contig16:235658..235844Pylaiella littoralis U1_48CDSP-littoralis_Contig16 235659..235844 -
1680789765.757018-CDS-P-littoralis_Contig16:237243..2372921680789765.757018-CDS-P-littoralis_Contig16:237243..237292Pylaiella littoralis U1_48CDSP-littoralis_Contig16 237244..237292 -
1680789765.769358-CDS-P-littoralis_Contig16:239875..2400091680789765.769358-CDS-P-littoralis_Contig16:239875..240009Pylaiella littoralis U1_48CDSP-littoralis_Contig16 239876..240009 -
1680789765.7791243-CDS-P-littoralis_Contig16:256823..2569521680789765.7791243-CDS-P-littoralis_Contig16:256823..256952Pylaiella littoralis U1_48CDSP-littoralis_Contig16 256824..256952 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig16.68.3

>prot_P-littoralis_Contig16.68.3 ID=prot_P-littoralis_Contig16.68.3|Name=mRNA_P-littoralis_Contig16.68.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=359bp
MADENFAMGGADDAKPAPAPARLQPWVEKYRPKTVDDVAHQDEVTSTLKG
AIATGVLPHLLFYGPPGTGKTSTVLALARTLFGPDTYKDRILELNASDER
GIKVSYQTYNVCIKILTRVKQVAVGRATHQAGYPCPPFKVIILDEADTMT
PDAQSALRRTMETYSTVTRFCLICNYVTRIIEPLASRCAKFRFSALGQGA
MLDRLRYISTEEAVNISESGLQAIVDLSGGDMRKAVTAMQSASQFYAGTE
VVTPEVLVDIAGKIPAEVKDALWLAIKSGSYPNIVAAVDDFMSSGYPLST
LLEDMQEATVADAGIPDHKKADICRRIAEADRCLIDGCNEELQLLDLASV
ATRGCSSQ*
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mRNA from alignment at P-littoralis_Contig16:231465..257133-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig16.68.3 ID=mRNA_P-littoralis_Contig16.68.3|Name=mRNA_P-littoralis_Contig16.68.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=25669bp|location=Sequence derived from alignment at P-littoralis_Contig16:231465..257133- (Pylaiella littoralis U1_48)
GCAGCGACGTGATCTTTTGCGCGGTGTCTTTGAAGCAACAGGGCCGGCAA
CGCACGTAAACTTTCGCTCCAAGGAAGGTACATAGAGGCGTAGCACTGTG
TGCTCGGACCTTTCTACCCGCCAGTCCGCCTCCCGGCCGGAAGAAGGACA
GACGTACAAAGAGAGAGGGAGAAACAGCGGTATGGCGGACGAAAACTTTG
CGATGGGGGGAGCAGATGATGCCAAGCCCGCGCCCGCTCCGGCGAGGCTG
CAGCCGTGGGTGGAGAAGTACAGGCCCAAGACGGTGGATGACGTGGCACA
CCAGGATGAGGTGGGTTGCTTTCGAGAGGTGCATAGGTCATCTGGAGAAG
ACTACTCTGTACGCTGTACGCGGAACACTGACTGCTTTCTTCTTTGTGTC
ATACGCTGCAGATTTGAAACTCGGAAGGCACAGCGCCCGTCCTTGGACCT
TGGGTAGCAGTGGGTGCACGGCGCGTGTGTGACACCACCAGTGTCTGACA
CCACCAGCAAAGCTCATGCACTCAGACAGAGGGCAGAGTTTCGCCTCGTT
TTTCTCGTCGCCGGCTCATGTTGCCCTTCTTGCCGACGGAGGTCGATGGA
GGAAGAGGAGGGCGACTAGAAGGGTGGGGAACAAGAGCCAAAGCAGCTGT
GGATTTCAAACATTCAAATTCGCTCGTTCTCAGCAATCTAAATACTCCGT
ATATAAAGCAGAGTGTTTATTGTTGTTGTTGATTTTTTTTTTTTTCGTGT
GTGTTGTCATCCGTTTAATTGGACGCCACTCCTCTTCACCTTTCGGGTAT
GATAGGTCGACGCTCCAACTAGGGTCACACAGGGGGAAGTCAACACAGGA
TTTTTTTTTTTTTTTCTCCACTTCCTTCTGCGGTGCTTGGGTTGAGCTTT
TATCGCGAGAAAGGGGACAGCAATCCCTTTCCCTCGTCGATGGAACGATC
GAATTTTTGTTTACTCACGAATTGATCGCTTTCCACTTTCACGCGCATTG
TGAGAAAAAACCCAAGATCGTGTTACTGCACTTGGGTTCGAACTCACGGG
GGAATGTCAGAAGTGTGTTTGCGAAATAAGAAATATGATTCAAAAATCTT
TTTTGAGGTTCCCCCGAGAGGCTCCGTGATTGCAACGAAATCCGGGTTTG
AAGCCAAATCAGCAAAATATCGCCGAAGAAAGGATATTTGAGAAAGGATA
CCGTAGGTGACAGTAGATAACACACCCCTGTGATAACATATTTCAGTTCA
AAAAACCTATCACAGGGTGTGGTATCTACAGGGGGGTGTGCTATCTTCTG
TCACCGTGTGATAAAGTGCCCAATATTTCAGCTCGCTCTCAGGGGGTGTG
ATAAAAGGGAGTGTGTTAAATGAGGGGTGTGATAACTACTATTGCTACCA
GATTGCAGCTGCTAAACAACTCCTGCGAGGGATGTGATAAAACCAGGGGG
TGTGATAAAGGGGTGTGATATCTCAAATGCAAACAAGGTGCTGCTGTGTA
AGAACTCCTACAAGGGGTGTGATAAAACCAGGGTGTGTGATACAAAGGGG
TCTGATATCTCAATTCCCAACAGATGCTGCTGTGAAACAAATCCTTCAAG
GGGTGCGATAGCTCTATGCCGCCGAGCGAGAGGGCGCAGGCAGGCCAGCG
CGCGTCGTTGTGCGAGTCTCAGCACGCTCTGCTGTGCGGGCCTCAGCAGG
CTTTGCTGTGCGGGCCTCAGCAGGCTTTGCTGTGCGGGCCTCAGTAGACT
CTGTTGTGTGGCTTTTCGCAGCAGCTCGTGCGGAGGCAGGCGCTACTGCT
GCTGGCGTCTGGCCATCCGTGGGCTTGGCGGCGGGGTCTCCAAAAATGAC
GCAATCCCGCGTGAAGGCGCCGTTGCAGATGCAGCCGGCGCCGTCTGAGC
CGTGATGTTTCCAGGAGGGTTGTCCACCTCCATATGGTCTGGAGGTATCT
GCATACCTGCCCAGCTGGGTATGACTGAAAGCTCCGTGTGTGTCTGTGTT
GGTTACCACACCCGTTGCGTGTGAACACGGGGGCTCCGTGTTTCGGGGGT
GTGGTATGTGGCACGCCGAAAAATTATCTCTGCGGGGTGTGGTATCTTCT
GTCACCGTGTGATACTGGGCCGTGTTTTTTCGTGCCAAAAAAAAATATCA
CAGGGTGTGGTTTCTAGTTGGGGGTGTCGTATCTTCTGTACGTGTGTTAT
CTACTGTCACCTACGGTAGTTGATCTGCCAAGTAGGTCATGCCGCCTCAC
AACGCGATTGGTCAAGTCTATCCGGCATCACCCGAGAGGTGGCTCTTTAG
CTGTGCCCTTGCTTTGCGAATCTAGGCAACCCTCGGGTGGTAGAGCAGCG
ATTCGATCGATCAGAAAACAACGCTTTTTGGAAAAGTTTGGGCCTCCCTC
ACACAACAGCCTCTCTCTCACGATGAGTCGGGTGACTTAAACAACTACAG
CAGAACTAGTATTTTTGCAAGCCTATCGATACCTCGCGGCCCCAGACGAC
CTACGGAGGAGAGGGACCAGACACAAAGCTCAAGGGCAATTGCTTTGTTG
TTGCCGGGAGTTCATTCGTCGTTCGAGAGCAATGGACGAAACTTTAAAGT
GTGGGACGAGGGTATGGATGGAATTAATTATTCAGCGGAGGAGGAGTGAG
CCGCAGCAGCAGTAGCAGCAGGTATTTTGTATTTTGGGCCGCTACATGAG
TTTAGTTTTTCATCCATCACTCTCGAACCAATTGAGCCACAGCAATACTA
AAGCCATCGCCCGTGAGTTATGCCTCTGGTCCTTGTCCTCCGGTTGTCAT
CTAAGGCCGCAAGGCATCAAGTGGCTCGCAATAGAAGCGTTGCAGAAACC
GATGAGTTGTGAAAAAATTGAGAAGAAAGAGAGGCCGTTGAGTCCAGCAA
ATACGTACTCCTGTACAGCAGTACAGACAGACAGACGGCGGTGACTTCTT
CTCTTTTTTCACAAGTGATCGGTTTCTGCAACGGCTACATTGCTAGCCTA
TTGATGCCTTGCGGCCCCAGATTACCAACGGAGGAGGGGGACAAGACACA
CAGCTCACGGCCGATGGCTTTGGTATTTCTGTGGCTCAATTGGTTCGATA
GTTATGGAAGAGAAACCAAACTGGTGTACCTGCGCAAAATACCTTGCTTC
TTCCTGCAGCTGCTGCGGGCTTTCTGCTCTTTTCCTATTTTTTTTCACAC
CTCATCGACGCCTGCAGTCTTTTTTTGTGAGCCTGTTGATACCTCGCGGC
CTCAAACGACAATCGGAGATGCACGACCATACACACAGCTTACGGGGGAT
GGCTTTGACATTGTTGTGGCTTCATTCATTCGAGAGTGATCAACAAATAC
GCTACAGCAGTAGCCTGTTGAACCGTCTGTCAATCATCAAACAACAGAGG
GTAACAAAAAATAAGTCACCACGGAAAAAAAAAAATCAACTGCGGTTCCT
TTTATAAAAAGCGGTGCTTTCGAAAATCCTGTTGGAATTCTTATTATTAT
GGTTGTTGGGCTGCTGCAGTATCTCCGGTCGCCGGCGCTGCGGCGTGAGA
GTTTGCATTAATTTACTCCACTTGCAGCCGCGCCGTCCACTACGACGACA
CCCAGTTGACTCATGTTGTGTACAAAGGCGTAAGGTGTGCGTGTATGCTC
TGATGACAGCAGAGAGATTGTTGTTGCGTAGAGGTGTACCGGTCTTATGC
GGTAGCCTGGAGCACGGAAGGCAGTCCACGGAAGGAGGTGGTACTGTTGT
TGTGATTAAGAGGGGTACCCCCGTCTTTTTATCATATTGAATCGCCATAA
AAGAAATCTTTTTTCGCATACTCTTTCCAGAATTTTCTTTGTTTGGGGGT
TTGAAATCACAGGACTTTTTTTTTTATTATTCAGAGAGGACATTTGCCAA
TCATATTTCTTATTTCGCAAACACTCTAATGATGTACCTGGTACAATCAT
ATGTATGTGATACAAAGTGCTTCGTCATGACACTTCGAAGCACCCTTTAC
TGCAAAACCGGGCGCAAAAACCTATCCTTGTCATGTAGATCGAGAACTCA
TGATACAAACACACACACACATACGCGTAAAGCCTTACAGGCTGGTTCAC
GGAAGAAACCCCAAACATAGTCAACATCATTTTCTCACGCGGTTTTTTCG
AGTCAGACCCTGAAATTTTGCAAGCATGTTCTACAGTGCTGCACGCCGGG
TGTGCTTCCAGAATTAGGAATATCTTGTAAAATTTGCACACACGACTGCT
GTACGAGACTCCGGTGGTCAGTTCGCTGACTCTGAGACAGCACGTGCGTA
AGGTATGTCCAGAGCCCTCCTATGACCCTTTGAACATCGAATTCCATGCA
CCACAGCAGTAGAACTTGTCGACACAAGGATACCCACTCGGTTCGAAAAA
GTATCAGCATCGAGAATCCTTGCGGCGCAACCTCAACAGACACCACCGTG
ATGCAAAGTTATGACGAGAACGCGCCGATGACACCATGAACGCGCGCGTA
ATTCAGCCCACAGACGATGTGTGTGAAGAGGGGTAGGATACAAGTTGGTG
GGGTGTGAAATATAGTACGAGTGTAGAGTGAGGTCGGGCCAAAGGTGAAA
ACAAGTTTTACACCAATCGCGTGCGCGCTTAAGTTTTAACACCCGGGCAT
CAAACCATGACACTGCATCTGTCGGCTTAGTGTTCTGTGGTTCTGGCGCA
CTTTGAATTTTGCTGTCCCGAGCAGTACAGCATAAGCACGCGTAATCGGC
GTGTGCTGTCTTTTTGAACTGATACTTCGTATGTGTTCATTTCGTGTTGC
ACCGCAAAATAAGAACACTGGAAGGAAGGCAAATTTTCCTTGTCTCTCTC
CTCCCCTTCGTCTGTCGTACCTTGTATGATCGACTTCCGAACGATCATAC
TTCGTATATGAGAGTGACCGCCCTCCTTTTGTGCACACCGAGTCATATTT
GGATGATTGTAGGGAAAAAACATGATAACAAATGAAGGTGGTTCAGGGTC
AACAAATTGGACTTTTTAGTGCGGGAAGCGAAAAGCACGTCACTACCGTA
ACGTACGCATCCCGCAAATAAGTCAATTGAATCGTACATCTGCAACAATC
ACAGGGCTTTAGTGCAGTAATAGCAGTACAACAACAGTTTACGCGCCCGC
ACACAGAAGAGTTATAGGTATGAGTCGACGCACCAAGTCTTATTTCAGGC
GCAATAACGGGCATGACCAGGCATCTAAAATATCGAGAAACAGGAAAGAT
GAAGAACACCCACCTGATAGGTTTAGTCGACCATATCTATCTGGTATCGT
TTTTTCCTGGCCGACAGATTGTGATGGTTTCGGAGAACAACATAGTTTAG
CTGTTCTGGGCTCTAGAAAATTGTTTTTTTCCTCGTCGCGCGAGAGCTCC
ACACGACAAACAACGACCACAACTAACTCTCAACCGCGCTCGATCGTGAG
ACGCAAATACTTGCCCCTCTCACCCACCACATATCAGAACAAAAATAAGC
ACGACCGCGACATGAAAACCATCGGTAAAGTCTACTAATACAACGATAAA
GCCACAGCCCCTGAAAAGGGAGATACAAGCCCCGTCTTGCGAATACTTTT
GGGGTCGACGTCAAAGTGAGATTTCAAATCGAAGACATTCGGGAGGCGAT
GTCGCGACCGCACTCCCCCCTCACCCCCTTTCCGCTCCTGCCCTCCGCCC
TGTTCCCTCTCTTCCCCTCGGAACTAGTTACCAACAATCCGCGTGTCCAA
CAAACCCCAACCCCGTGACTCCAGGCCGTGGTCCTTGACATCTCCGAAGG
AGGTCTGCCGTGGGAACACCGTGGTCGGCGACCCCCCATCCTACATTGAC
GCCGCGCCAACAACTCCAGAAAGGCCTGTTCAGTAGACAAGAACGGCGAG
AAACACGAGTTCAAGGATCAATCAAAGTAAACGCGTGAATATCAAGGGGG
TTAAAAAAAAGGAAACCACGTGTGCATCGGCGACAAAACCTAGACTTGAT
AAATAAACACGCACACACACATACACACACCTGTAGTGGTACCCTGTTCT
CCTTACACCCACTCGTTTTCGACCCTAGCCGTTGTGTCAGCTTCTTCTCC
GCTTTCCTCTTCCGACCCCAACTACGATCCTAAATCTGACCCTCCCTCCG
ACGAGCAGACTGATTCCTCTTCGTTGTCACTGGTGTCGCAAGACCTGTCC
GAATCTCAACCTGGAATGCCTTCGTAGTCGCTGCCGGAGATATCCTCCAC
GGACTTGGTGTGGTCCACACCCTTCTCCACCTTCGGGCTTCTATTCTCAT
CTCCCGCAGCCCCATACGCCGTAGCCGTGGCACCATTGGTGTTTGAGGCT
GAGAAAAGAGCCATGGCAGATGCGACCGCTGAGCAACAAGGAGGGCCGGG
CGGTGCCTCTGGAACAGATGCGCCGGGACCAGGTGTAGATGCACTGGATG
GAGACGACCCCCCCAGGTAGCAACGGCCCTTGCAGCCGCAGGCGAGCGAC
CACTTCTTCCCTTTGCAGCTGCACCCGTTGCAGTGATGTTTGGCGGCTAG
GTCCGGCGAGCAACCGCACTTTAACGTTTTCGTCTTCCTGTCTGGGTCGA
CGTAAGAGTGCTCAGACAGCCACACAACGCAATTCTGCGCCGTAAGTTCT
TCCTCCTCGCCCCCCTTCCCTCTCGGCTTCGACTGGACTCCCCACCCGTT
ACCGTTGTAGACTCTCTCTGGCATCGTCTCTTGCAGGCCATCCTGCCAGT
AGCCAAGCACGGAGTTGGCTCTCTCGCTCTGCAGGCGCATTGAATCGAAT
CCCGGGCAGATGGCGGTAATCCTCTTACCGCCGAGCCGGAGGATAACGAG
ACGAACTACGTCGACGTAGTCATGGACGTCGTCCCGGACGTCGCGAAGAG
TATTTCCCGGTGTTCTACCACCACGGAGAATTTTGGTATCGTTATTGAGA
AAACAAATGGTGGCAGGAGCTTGATGCATTTGTCAATACGCACACTCCAC
ATCTCGTCCCCTTGCACGAACAACGAACGCTTGAACACGCCCTCGGCCCG
CACGACTCGACTCCTGCGTCCGGTGTAACCCATCCGCAGTCATCCAACCC
GCACGTTGTTTCTCGGCTCACCTTCTTCTCAACCGTGTCCTACCTGACTG
GGGTACATTTCCTTCTGTCCGCCTTCACTTCTTTGGGCGTAGCTGATTGA
AGCTTGTTGGGCGTAGATGATTTGAAGGTTACCACCTTGACTCTGCCGCC
GAAAAAGGATACCGCTTCGGCCCGCGGCCGGTGAGTGTTGGACGTCGTGG
TCGTTGGCCGTTTCCCGATCTCTGCGGGCCGCTACCTGTTCTCGTGCCTC
TTCCTGTTGCCTCCTATACTCCTCGTCCTCGATCTTCCCCATGAAACTGG
CTTGCAACGACGCCTCCGCCAGTCTCAAAGAGGGCTTCTTTCTGCGCTTC
CGGCCCGACACTGTCCTTCCTCCCCGTGCCCAGGGCACGGCTACCGGAGT
CCCCCGCGATGCGTTTTTCATTTCCGCGGCGGGGCGTGTGAACCTGTGTC
ACTCTGGTTGTTGCAACCCGTGTTCCGCGTTGATACTCTGCCCGTGGGTG
TGGTTGGACGGCGGGGTGGGGCCGACGTCGGCACCGACGGTGTCGGCGTC
GCGCCCGGGAGAGGGCCAACAACACCCCCTAACCTTCGTGCTCTCCTGCG
TTTCATCTCGCAGTAGACTAAACACGCCCTTTTATGTTACATACCATAGA
TGTGTCCCTGAACACACACATTTTGGGCGTCGAAAAAAAAAAATGAATCT
CTTGTTCCTGGCTGCAGCACGACCTACGCCGCAGACGTTTGCTCTCTATC
ACGCCGGGCCGGTTTGGATACTACACAGGTATTGAGCGACTTGCGAACTG
AATACTTCGTGGAATATTACGATTCTGAATGGTTGCAAATGCCGGGTAAT
TCACCCTTTTGCTGTATAGATGGGAACCACTGCTGAGTGATCACATGATA
TCAGCACTGTAGAATAATCAGTCCTTACAGCAGTGTGTGTGTGTGTGTGT
TGTCATCCCATATTCTCTGGCACACTAGTCTGCACCTTGCGGTTCAAACT
ACAGACTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACACGA
GGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTCG
CGAGCAGGGGTCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGCTT
TTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCGG
GAATCGAACCCCCGTTCCTCTGCATCTAATATTTGCATATAAACACGGCC
GCGTCGACACGCGACCCAAACACTGGATACTTCGAAAATTTAATTTTTAC
TGCTGTATTCATACTGGTTGCCCTTTGGAACACCAATTGCCTAAAACCAG
GTGGCTGTAAAGGAGCTGGTTATCTCATGGGCAGTTTGACAGAGTTTTGG
GGTAAAAACTAGTGCGACCAACATCAGTTGGGGCGCACTGCTACACACAC
ACATGTGCACCTCGTCGTAACCGTCCGCCGCCCCCGGTTTTCGACAGCAA
ATTTGAACTTTGATCAAGTCAAGCTTACGTTTTATCAGCCCAAATTGTGT
GAAACCTTTTGCAATGGATGGCAAGCAAACATGGGTCAATAGTTTGACGG
AGTTTTTGTGTACAAGATCTGTGCGACCAACGGCAGTTGGGGCGCACTGC
TGTACCCACACATGCGCACCTCGCCGCAACCGTCCGCCGCACCCAGATTT
TGCCAGCAAATTTGAGCTTTGACCAAGTCAATCTTACGTTTTAGGGAACC
AAATTGCATGAAACTTTTTGCAATGGATAGCAAATGGACATGAGTCAATG
AAATCAATTTCGCACATCTATCCCGAGCTCGTATCGTGTAGAGCGGGGTG
TGTGTTTGATGCGACCTGCGTGATTCGCGACCTTGATCCTGGTGGGGCCC
TACAGGGAAAATTCCGAATTTCAGTGCCTATCTCGAGCAATCGTCCGAAA
AACACGGCCACACAGCGACCCCGTAGCTATGAAACACATCTTCGTCGAAT
TCTTCACGTAAACGCTGGTGTGCTGCCCTTTATCACCAGCGCTGTGCAGC
TATCTGCTTGCTGTGCTTTGCCAAGACAATATGGGGGTTTCCTCAATTCC
CGTTTTCCCGCTGGAGGCATTCCTGCAAACACTTTTTTTTTTTTTGCGAC
GGCGTGCTACACTGTCTATGGGTCCCTACGCAATTTCGTACGACCGAGGT
TTTTCGGGTAATTATCGTCATTTCGGACCCCAAAAATCTGGTGAATAAAA
ACATAAATAAAAATACCTCGGTCGTACGAAGTTGCGTAGGGACCCATAGG
ACATGCTTGCAAAATTCAGGGTCTTACTCGTAAAAACCGCGTTAGAAAAT
GAGCTTCAGTAGTAAAAAGTCCTACATATGATACGAGTTACTTGAATTTA
GTATGGAGTCGGGTCTTTTTGGGCAATTTCTAGCCGTTATCAGCCAAACT
TGTCACTTTGTATTTTTGAGAAGAAACAACATGTGGACACCTTCCTTATA
ACCACGAGAGATCATGCATGTTCGAAAACAGTATATATCTCGAATTCATT
GTATATGGCATTTAGTGTTGACTGCCTGATTTTGGGGAGGGTGTTTAATC
ACGTCATTCCGTGAAACAAAAATCCGACAATGTCACGACCTGCCCCTATT
GACGGCGGTCAGTATGGTACCAGGTTTGTGTATTTCGGGTTCTTGTTGCG
TAATGTATCGTATGTTGACTATATTTGGGGTTTCTTCCGTGAACCAGCCT
GCAAGGTATCCTTCTCATGAAGTAATAATACGAAGAACACCGATGAACCA
GATGCTTTCTGCTATATATGCGCCCCCCACGGCATCAAAAGTCACGAGCC
TTCGTCCGTATTCGACCACGTATTTACTGCTGTACAGAGAATGGTGTTCT
GAGTTCAGGACGAAAAACAAATCGATTTTCCGGGGCGTTTACAACTTTCC
ACACTCATCGTACCATACCTCCATCTCAGATCGCAGAAGACACAACACCC
CCCTTGGATTTCCTGGTTAGAATTAGGGTAAGGGCTAGGGTTAGTGTTGT
ATGCGTTGGGTAGTTCCTTCCTTATCAGACCGTTTGAGAAGTTTTTATTT
TGTCTTCGATGCTTCCGCCAAAAAGCGACATATGATACAGCATGAGAGAA
GGCCGCATAAGATGGCACACCCCCTAGACTGATTTTCAAAGCACAATTAC
TCCGCAGCGGAAAGAGTGTGGGTGTCGGAAAGGGCGTCTCTGGAACCACC
TCGTCGAGAGCTTTCCGAAAACATACCGTTTGGTGCTGGCACCCTCGTCG
GTGTGGAGCAATTTAGGTTTGAAAATCGGTACAGCGGGTGGGTGTGTTAT
CTCATGCGACCCACGGTACTGCTGTGAAGCATTTTGTGCAAAACAACTTA
GCTCAGCAATTCCTGTACTTTTATCCTCTGTGTTTCCTGAACCAATCCGC
GAAGGGGGTCCTTGCAAAAGCCGTGCACATTTTTGCTGCCACACAACTAT
CGAAAAAACAGGCTGTGCAACCATTTGCTGCCGGACAACGATCGGTAGAA
GAAGCTCGTGCAACCCTACTTTTTCTGCGGACACCTGGTGTTGGGTAGTT
TCAGTTTCGGCTCCGCGGAAGAAGACAAGAGAAGAGGCCGCCGAAGGGGC
GTTTGCTCTGCACCCGCCGAAGACAGCCCCTACCGTATACGTATGCAGGA
CGGTACTGTATCCGCATTTGTGCAGTACAAAAATCGCCTCTTAGAACCCA
TCAACAAGAAACCTTCTGGAACCCGAAACCGACCAACATACCAAAATGAA
AAAGTGTGCGCAGTTTGTTCAAGGGGCTCAGACAAGAGCAGTAGGTTTTC
GAAACTTGACAGTATACGTAGATGCAAGTACGAAACGGCAGACAAGAGCA
ACAGCAGCCGTCACGTACTGCAATCTGTCTCTACAGAGAGCAAACGGTAG
GAAGGTAGAGAGACTGACTGCTGTAGCCAATATATCGAGCGATAGCGGCA
TTCTAGTCATTCCGCCAAGCTACATACTTTCGTATCATACATACACCACA
AGCATCCAACCAATCCGTCAAGGTACAGCATCCTAGCCAATCCGCCAAGA
TACAGCATCCTACGTAGCCGATCCGTCAAGGGTACAGCATCCTAGCCAAT
CCGCCAAGGGTGCATCATCATCCTCGCCAGTCCACCAAGCTACAGCATCG
TAGATGTTCTTCTGGTCTGGGGTTGGGACTGGACAACACAAACAACACAA
CCCACATCCGTGCTGTTCCGCCCACTGCTAACATGCTGAGCATATCATAC
CTGCTCGCTTTCTTGTAGCGGATCCAGTCTCCACGCCTACTTTTTTTTTT
TTTCTGCTCGTCCCCACACGGGGAGTTTACTTGGGAAGTACTGCTACAGT
CCAAACCAGAAAGCCCCAGAGCGTTGCGTTCGCTCGCTCAAGTACGAACC
CGCCGGGACGATTATTTTGGATTATTTTAGTTATATCTTGCAAACACCTG
GTATTTTATTTTGGGCAGACGCCAGAAAGCGGTATACCGCCTGGTTTCCG
CGCCACCATGCGGTATACCAACATACACCTTGGCATTTGAGCCCCGTTCG
CATCGCTGATTGGCCAATTAAGCCCCGTACCGCTTACTGGCATCAGGCCT
TGGCGGTATACCGTTCCGAGGCTTCTCAGGTCGATTCGTACCGTTATTTG
GCATGGAGTGTACCGACTTCTGGCGCGGGTCTGGCGGGGCCGCAGCACCC
CCGGCGGAATATTTCTGAGACCGTTCGTGCCGAAAAGAATTTACAAGAAA
TTTCGAGAAGGGACGGGAAATTTCATTCCACAACCAACGCAGCCACGTCA
TATCTTCCGTCGTGTCACGGACATATCAATTTAGATCTTCTCAGCACGCT
GTCTGCACAGCAGACACCTCTCCGTCCTCTCGGCCACTGGTGTACAAGAG
ATAGATGCAGCTGCACGTTACACGCATTGCACGGCTATCATCGTGCACAG
TGATGGCACGGCTCTCTCGATATCTCTATCCTGCATGAAAGGCTGACAGT
CCTGCCGGCAGCGAAGCTATGACCGCACGGTGACCGTACACACCCAACAC
CCAACACATCACACCCACCGCTCCCCACGTCGCGATGGCGACAACCAAAC
CACCGCAAAAAGTTGTAGGCTTCATCACGACGAAAGATAATGTTTGTGTA
CGCGAGCTCCTAGCGATGTTTCGTTGCCAAGGGGCGCTCCATTGTGGCCA
GCAAAGGCGGCATTCGGCAGCGCATGTACTGTGGTGATCAATCGAAGCAG
GGTTGCACGGCCCACATTTGGTGGACCAAACATGTCCAGGGCGAGTGGAA
GGCATCGTTCCGCAGGACTGTCAGCCTTTCATGCAGGATAGAGATATCGA
GAGAGCCGTGCCATCACTGTGCACGATGATAGCTGTGCAATGCGTGTAAC
GTGCAGCTGCATCTATCGTTTGTACACCAGTGGCCGAGAGGACGGAGAGG
TGTCTGCTGTGCAGACAGCGTGCTGAGAAGATCTAAATTGATATGTCCGT
GACATGACGGAAGCCATGTTGCTGCGTTGGTTGGTTGTGGAATGAAATTT
CCCGTCCCTTCTCGAAATTTCTTGTAAATTCTTTTCGGCACGAACGGTCT
CAGAAATATTCCGCCGGGGGTGTTGCGGCCCCGCCAGACCCGCGCCAGAA
GTCGGTACACCGCATGCCAAATAACGGTACGAATCGACCCGAGAAGCCCC
GGAACGGTATACCGCCAAGGCCTGATGCCAGTAAGCGGTACGGGGCTTAA
TTGGCCAATCAGCGATGCGAACGGGGCTCAAATGCCAAGGTGTATGTTGG
TACAGGCTGGTTCAGGGAAAAAAAACGAATTAAGTCCACACCAATTCGCA
AACGCGATAAACACTCGATTCTCACATATTTGGTATCATAAGTGACCCCC
ATGACCAGCGGAAGAGGGTGGCATTGCTCGATGTTTTTGTAAGGCTTTAG
CGATAGCGCTAGGGGCGAAAAGGTGATTGGACCAATGAGATGGCTTCAAA
GTGTTCGATAATAGTCAGGCTTTTATCAAACGGGGCGAAAAAACGTATTC
CGCCGCATATTTTTTTAATTATTTTTTTCCGTTGTACCAAGCGGCTGCTG
CTGCTATGTCCCTACCGCACTGCTGTACACCAATACACACAAGCTCCGTG
TGTAGCTCGGGACATACACGATTGATCCACTGCAGTCTGTGGATGTCAAT
ACTCTAGCCGAGCGCAAACGCAAAAGTGAGTGACTGCAGAGTCTATCAGC
ATAACATAACCAAACGCTGGAGGATAAGGTGCCTGTACCACGCACAATCC
AGTTGTTGGTGCACGGTACGTGTGTGTATAACGGTGCATGTACGTAGGCG
AGACCCTGACAAACAGGTGTAACGGGCAAAAAGACATACGAAGTACATGG
TAGTGTAAAATAAAAATAAACTTCTCGATGTCGGGCGCAACAACGAACAT
GCTTCGCCATTACCTGCGGGTCTGTGTTGTCCAATACCGAGGTAGCCTCT
GTCAGGGAGACCCTATAAAACCGGTTTGTGTACTTTCACTTGCATTCTTT
CGTCAACCAATCCGTCGTCAAGCGGTCTGTGGCAGGTGTTCACGAACAAC
GGTCCGTGTTCATAATTTTCCGCCCCAAGATTCGATGAACTTACGTAGTT
ACTACCGTCTGACTCGCTACGTGGTGGTTTTGGAGGGAGACCCTGTCGGC
GGGACCCCAGAAAACCCGCCCGATTTCAGTTTTTTATATATATATTTTTT
TTGTTTTTTTGAGCAATGGTCTATGGGGGTGCTCACAATGTATCGTCGTC
AAATTCAACAAACTGACGTAGTTCGCTCAACTATCGTTTGACTTGCGTCT
ACGTGGCGATTTTGGAGAAGGACCCTGTCGGCGGGACCCCAGAAAACCAG
CCCGATTACTTTTTCTTTTTTTTCTACATTTTCCGTCGAACAATAACCTG
TGGGAGGTGCTCACAAAAATTTGTCCCTTAAATCGATAAACTGACTCTGT
TACTAAAAAAACAGCTTGTTTGTGGACGAAAAAGCTCAAATCCAAATAGA
ACCCAAGTAATTAGGAGAATATTTAGCGAATTTGACGACAGTTTATTACA
TAAGTAAAAAACCTCACACGGTTTTTTCGAGTTATTACCTGATATTTTGC
ACACATGCACGTTGGGTTTGTGCGCAAAATCGTAAAGGCGTTTTTTTTTT
TTATTCGCGAGATGTCCGGGATCCCGTTTGGCCAAATTGGTCGAAATCTG
ACAAAAAAACTGGGATCAGGTACATCTCGCGAAAAAAAAGAAAAACGCCT
TTGGAAAGTTTCGCAATCACTCAAAGTACATGTGTGCAAAATTTCAGGGC
CTAACTCGAAAAACCGCGTGATATTCAGTTGTGGACTAAATTTGGTTCGT
TCTACTCGAACCAGCTCGTATACCGCTTAGTGGCGCGGAAACCAGGCGGT
ATACCGCTTTCTGGCGTCTGCGCTTTTATTTATTTCTTGCAGAGAGATCA
ATGTTATCGCCTCACAGTAGACGAGGATCTGGAGTAGATTTGCGACATCT
ACTTGTGTGTGTACCTCCTTTTTTTTTTAACAAAACGTTGTGTTCGTTGC
TACTCTTACTCCAGATCCTCGTCTGGAGAGAGACGGACACGTTGATGTCT
TATGTGTAGTTTTGTGTAAGATAAGTAAGAGAGAAGAAATGAGAAGAAGA
TAGAAGAAAATAACAACACGCTCCCGGGGTCGTCCGCTCCGGATTGTGCG
ACTTTTTTTTCGTTTCCATAGCGCCCCGGGGCGTTCGATTTCTGAGTGGG
GGCGTTCGCTCCGTTCCTCAGACGGTACGGTACGGTACGGGATGGTACGG
TACGGTACGGTACGGTACGGTACGGTACGGTACGGTACGGTACGGTACGG
TACGGTACGGTACGGTACGGTATGGTACGGTACGTTTTTGTACGAGAACG
TGAGCAATCGGTAGCTGCTGTGTGATATGCGTACGGAGCATCATGGTGTC
ATACAAGGCCGGTCGGTGCTGCTTCCTGTGAAATACTTCATTAACACTCA
TCCAGCAAGGGCATCGAGCTGATTCATTTTTTGGGGGCTGTTGGAACACG
AAACACATGTACAAATTTTGGCGACATTTTCGGAGTGGACATGTGGACAG
GCAACAGCAGTAGTAACGAGTGTTCCTGCCTCAAGGCGTTAAACCTGGCA
GCCACTGGTGGAGTTTAGAGAGTTGGTTTGGGTAGATCGTAGGTCACTTT
TGCAGGCCCATTGTCAGCGCTGCAGTGTTGATCCCGAAATTCTGCGAAAA
CATTTGGGTAGGTATATCCACCAGGCCCCCCCACACCCTCCCGAAATTTA
GATTTCAGTCGACTTGGTCGATTCTACGAGAGAGCGCAACCTTGGCGGGA
AGTTTGTTCCCCGAGAGATGTAGACGCGCAACGGAGGCACCGAAAAACGG
CTTGCTTTCGGTTGCAGTGGCGCAGCATTCCTGCAGCTCCAAGCAATAAC
ATGATGGGCATAGAAACTACTGGCGACGGTAAAATACGAGTCTCCTGTCG
ACATCGTAGCAAAACGCGGTCCGCGTGAGGACTGCCACCGGGTACAGAAG
TCGTATGACCCTAAATTGGTATTGCCAGCACAAGCACGCAAGCAGATTGT
GGAGGGGCTCCGAGTTCCGTCACGTGGGTGGTACCCATCGCCGACTTGAG
TCGAAAGTAAAAACAAAAACAAAAAATACCCAGAGCAGCGCATTTCGTGT
CACGTCGAGTTCGAAAATCGATCGGTTGCGCCGGAACGGAACGGGGGGTT
GGTGATTTTCTGGTACCGGCAGTCTAGAGGCCCCCATGAGAGGCCCCCAT
GTGCGGTACGGTGTAAAGTTCGCCCAGTCCCCCGTGTGCCCTTTCGTGTG
TTGGTGTGTGTGAGCGTTTGTGTATTTTCTCTCGGCGTTGTTCACACAAC
AAAAGTTGACAAATATAAAAAAAAAACGCTGCATATCTTGCAGCACCTAC
GTTTCGGCATGTTTGTTGTCCGGGTGTCTGCATGTCTGTTCACCTGATGT
CTTTCGGTCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCT
TGCTTGCTTGCTCATTGATTTGTTTGCTTCCATCTGCCATGTTGTCAGGA
ACCAGGTCTGCGCCAAATGTCAAGTGTGATGTTCCGCACAAATGTTTCAG
GCGATTGACGGTATTCTCTGTTGACTCTAGCACGCTCCGCGTACTGTCTT
CGTCTCACCTGGTCAGGTCCTTGACTATAGCTAGACGGCAGCAGTGACTT
CGCTTCATACGCTCCTGACACACCAGTACAGCAGTATATCGATCCAAGCT
CAGGCCACGTTTCACGTCAGATCTCCTTCAGGACTCGCGATAACACGAGC
TTACGCTCCAGAGTAACAGTACCACAGGCTCACAAAAGAACAAGGGCAAG
GCATAGATAGCACTTCAAGGCTTTCGGTTCCTCCGTCCACATGCGTTCTC
TAAACACACAAGAGTCCTTTCGGTCCCGGGGACGGGGCTGGAAGCACCTC
GTCCCCGGGAGATTTCCACGGGCTGCTTGGGCGTGACCGATCACGACGTT
CCCATAGGTAGCGTCGTCTGCGCCCTGAACGAAATAGGTCGTTCGGTTCC
CAGGATCGTCTCATTGTACTTTTTCAGCGCACGGACGCGCCGCCGCCTCA
CAAAACACAACAGTAAAAAAGAAAAGTCGTTTTGCCTTCACCTTTTTGTA
CCGTCCGTTGTGTTTGTCCGAAAAAAAAAATCAAACGTGCGTGATCCACC
ACACGTGTTGTTACGAGTCGAGCAAGGCAAAAAAAAGGTTTATTTGCTGG
CCTCGCTCTACCATGACCGTCTGTTTTTTGCGTGTGACGCAGTCGGGAAC
AAAGGCCTCCCCCCGCTGATGGGAACACACACTCACACGCATCGACAAAC
CTCATCTCATTTTATTTTTAACAGGTTACGAGCACCTTGAAAGGCGCCAT
CGCAACGGGCGTGCTGCCGCACCTGCTGTTCTACGGCCCCCCAGGAACGG
GGAAGACTTCGACGGTGCTGGCACTAGCGAGAACGCTTTTCGGCCCGGAC
ACTTACAAGTGAGGCGGCGAGCGGGGAGGTTGCGTCCATGGGGGGGAAGG
GGGGGACAGTTACAATGAAGTGCGATTTTATTTTGCAATCTGGATTGTGT
ACATACCGTATCATGTATGACTTAAAAAAAAATTCGATACTGATGTTGGG
ACCATGTACCGCGGTACACTCCGCCACCGCGGTCATTTCGCGGTATTTTT
TCCACGGTGCTCGCCTGCCGCGGTGATCGGTACCGCGGTACATGACAACC
GCGGCAATGCGCGGTAACGTCTTCCGCGCCCGGTAGTTTGCCATCACGGG
AATTTTGTCACTGGAATCAACCACCGCGGTAATTGGCGGCATTTTTTCCA
CGGTAATTGGCCACCACGGTAAAATGTCAACCGCGACAATCAGACACCAC
GGGAATGAACGGTATACACATCGTTTTTTTTTTTTGCATTCCAGCGTATG
GTGTGGCGAAGCGAAACTGTCCACAGAACGCGAGAGTCGAAAATCGGCCG
AAACCGCGCTTGGTACGTGGGTAGTATACCTCGAAGCGTATCATATTTAA
AAAAAAAGGCCCAAAAGGCACCTTCACAATGAAAGCACAACACAAGAACT
CAGCTGCTCTCTGTATGTCAACTTCTTCGAGAAAGACCTCGTCCTGCCTA
CTTCATCACCACACCCGCCACATCGACTACTACTGCGATACTCATCTTCA
CACCGAACCAACAAAGCTCACCACACCGAAGGCGTTTGAAAGCCCGTAAA
GCCCGTAAGCTGTTGTCGCAATGCGGACATGAGTCCTCCGCAGCAGCTTC
TGCCAAACAGCAGAAAGTTAAGACACGTCCACAACGTACACACAGATTTA
CAGGCTCCAAAGCAGTGATCTGCTTCGAAGCTCTCATACATTCCGTAGTA
GTGCGGGAAGTAAAGGAAAAGATAAAAGTGAAAAAAAAAAAAAAACGTAT
GGTATGAAATATCATGCTATGTAGGACGAAAAGAGCAGGTGGAGGGCATC
GAACCCGCCGCTGCACGCCGCTGTTCGTAGCGGTGCGCAGCACGCACTCC
ATCGAAGGCACCCCTACTACTGCCGCCGTGGTAGACTGGAACGGCAACAC
GGTCTCGTGGTGCCGCAACATCGATTTGTGCGGTATTTGGTATATCGGGC
TTCGAACGTGTTGCGGTGATTACTGCCGCCGTGACGAGAAATCGCAGGAC
CCACCATTTTTGCGCGGTATTTTTGTTCATGGGAATGGGACAACACACTT
GGATGGTACAGCAGTCGAGGTCCCGATTTACCGGTTTACCGGTTTACCGG
CTTCCCGTTTTTTCCGGTTTGCCCTGTATACCGGCACTTTTTTTTCTGTC
ACCACTTCAGCCCGGTTTACCGGCAGAATGCCGGTAAACCGGGGTCGCTA
GGTATATTTCGGTTTCTGGCGCAGCTCGGGCTGCTTGTGTCCACACTTTC
ACACGACATGCATGCTGATGTCAATGCAGGGCACTCTGGCGCATTGGTTG
GTACTTCGAAGTAGTCCACAAGTACTGCTGTTGTCGCAGACCACGGCGGC
GATATAGCCCACACACGGACATGCTTACAAGGTACTTCGTGTACATGCAC
TGCATGTGCGGGTATGGACCCTTTTTATTTCGAGGTGTACCCCGGTACAC
CGATATACCGGCATATACCGGTATATCGGTTTATCGGTTTTCCCTGTTTA
CCGGTTGATGTTGGGCTTGATTTACTAGGTGCCGGTAAACCGGGACCTCG
ACTGTATCGGGAAGTGGGACAAATATCCCGATAACCCGAAATTACAGCGG
TTGTTTTACGCGGTAATCCTACCGAGACACCGCTTGAAAATTTCAGCTGC
GCCACGATCGAGAAAGCGGTACACAACAGTAGTTAGCAGTACGGTAAGTT
CAAATGAACCGTAATCAACGATGAAGTTGTTGTTTTGTCGTGCTGCTGCT
GCGCCGCTGCCATCATCTTGGGGGCGTGAGACAGACAGACCGACACACCA
CCCCCCCCCCTGGGATTGACTCATATAAGCCCCAATCACCGACAATCCGT
ATCGCATGGTTTCCGCGGAAGAAACACAACAAAACGCTAAACGCTAAAAT
ATATATATATGTGGCATTCGTCTTCATCGGGGGCGGGGGGCGGGGATAGA
AAACGAGTGTTTCATTCGATTGTCCTACGTATCTGTCGCCAAGCAAGATT
CTACTACAGTAACATGATTGTAAATTCGTGCATGCGTGTGTCTTTTCCCT
CCGTTTTTTTTCGTCGTCGTCGTCGTTTTTTTTTGCCTCATTCGGATGAT
GCTGCTGTTGTCGCCTTGCTTTTTCGCATGCCGCTGTCGTTTTTTGCTCT
GTCGGATGATGCTGTTGCTATTGCTGTTGCTGCTGATGCTGATGCTGTTG
CTGTTGTTGCTGTTGTTGTTGCTGCTGCTGCTGCTGTTGCTGTTGCTGTT
ATTGTTATTGTTGCTGATGCTGCCGTTGTTGTTATTGTTGCTGCTGATGC
TGCTGTTGTTGTTATTGTTGCTGCTGATGCTGCTGTTGCTGTTGCTGTTG
CTGCGCTGCTGTCGTCGGATCGGGGTTTGGGGGCTCGTCAGAGATCGAAT
CCTGGAACTGAACGCGTCGGATGAGCGAGGGATCAAGGTCGTACGAGAGA
AGATCAAGACATTCGCACAGGCAAGAAGATGAAGCGAAGCAAGAGCAGCA
CAACACAAAATCAAAAACAAAACTGAACACAAAACAAAACGGAAAAAGGA
ATGGAAAAATAGTCGAACAAACAAACAAACGAGCGCACAAATCAAACGCA
CTGCACGACGCAAAAACATGAAGCAAGAAAAATACCGCATGACGACAAGT
AGACTAGAACAAAGGACATGGACCTGAGGCACGGAACGAGCGTCTTGCAG
GAAAGCGAGAGGAGATGCAGCGCAATTTACTCCGGCCGTAGGTGCTTGAT
GCGGTGGCGGTCGTGTCGTGTCATGTCATGCTATGTCATGTCATGTCATG
TCGTGCCCTACGTCATGCCCCATGTCATGCCATGTCGGGTCATGTCGGGT
CATGTCAGGTCATGTCGGGTCATGCCATGCCCTACGTCATGTCATGGCAT
GGCATGTCATGCCCCATATGATGTGATGTGATGTGATGTGGTGTGGTGTG
ATGTCATGTCATGCCCTATGTAATGTCGAGTCATGCCACGCCATGTCATG
TCATGCCCTATGTCGTGTTATGCCTATACCATTTTATACGATGATGCCAC
TATTTGCGCTTCGCCGCTTGCTTTTTATGGCCGTGGTTTTGATACGCGAT
GGTGCCGCCATTCATTCATTAAACGAAAGTGAGAATCAAATGAAATCAAA
CTAGGTGAAGTTGTGATACGATAAATGAAGTTCAGGTCCATTCCCTCGAA
ATTGATTGAATTGAGTTTTATCATGATACGAAACGAAATGAAATCAACAA
GTGAATCAAAATCAAAATGACATGAGAATGAGAACGGTTGGAAAAAAGAC
CGGGGTCCATGGCGCATCGTGTGGTATCATGTCATGTGACGCGTGGAATG
CACGACCTGACGGCGCGTCGATTTTGTAGCCTCGACGCAGGGAGCCAGAC
CTGCATCGTTCATTCAGCAGTACTGTAGGAGGGTGGTGTTTCGGGGGGGC
ATTGCAGAAATACTGAAATCATATTGTACTAAGGTGACGAACAAATGAAT
CCTTGCCGTCTCTCGTTTTGTCAATAAAACGCAAGATGAAACCCCCGCGT
CTGCTCCTTTCGCGATGCCTGGCTGCTCCTCACCACCCTGTGTTATGCAC
CAACTGGCGGGAGGTCCATTCGGTGGAGGGTTATCGCACTCGTCGAAGAA
AGCACTAAAGTACATGAAGTAGGAAGTATGTTAAAAAAAAAAAAAACACG
TGGCGTCTCGTGTAATCATCGTTTACAGCCGTCTCTCGATCCCCCCGTGG
ATGAACGGACGAAGAGATTACAAAAAAAAAAGAGACAAAAACGCCTCCTC
TGATGTATCACTATCATGTGACATCATATCATACCATAGTCATATCAAAC
GTATAATGTGTGTATCAAAATCCTGACCCGCGTTAAACAGGTGGCGGTGG
GGCGAGCGACGCACCAGGCGGGGTACCCGTGCCCGCCGTTCAAGGTGATC
ATCCTGGACGAGGCGGACACGATGACGCCCGACGCGCAGTCCGCGCTCCG
TCGCACGATGGAAACCTACTCCACGGTGAGCAAGCAAGATGGGATGATAG
GTTGTATTGCAGGGTAGGGGGGGGGCACGGGGAAGGGGGGGGGGGGGGTC
GCATGAAAAATATCATATCATATGAGTATTTGTTTTGTCCCACTGTATTA
GTTCCAGTGTTTTTGGTTGGGCACACAAGAGGCAGGCAGTGAGCACCCAA
CGCGACCTACAACATGTATGTACTTGAGAGAGACACCAGAAACCAGATAG
CGAAAGAAGACTGGGGGGGGGATAGTCGGTAGAAGGAGAAGGGCCCAATT
CAACAAGGGCCCGATTCAACACGCACGAGCAGCAACGTTTGGGGCACACG
GGATGTGTATGTTGTGACGAAAGCGCCACCTGCTGCGATATCTCCCGTAT
GACGCGAAAAAATGTCTACATCATGCACGTGTATGTTGCTCTTCGCACAC
GTGTTTTTTTTTTTTTTTCTGTGCGTGTGACCGCCGTGTGCACGCATGCA
CTATCAGAAGACAGATTCGCCCCCCCCCCCTTCTTATTTTCAGCTGAATT
GTCCAGTTTTCTATTTTTTTCACCGACTTTCGCCCCCTTCCCTCCCTCCC
CCCCCCCCCACCCTGTCCTTGTACTCCCCGCACGGGCTCGTTTCCTCTTG
GCTTCGGCCGCTCCCCGTATCCACGCAGGTGACGCGTTTTTGCCTGATCT
GCAACTACGTGACGCGAATAATTGAGCCGCTTGCGTCGAGGTGCGCCAAG
TTCCGGTTCAGCGCGCTTGGGCAGGGGGCAATGCTGGATCGCCTCCGGTA
CATTTCGACGGAGGAGGCGGTGAGTGTTGGGGCGCTTATTTGATTCGCTC
GCTTGTCGCCCTCCATCGTGTACAAATTATCGATTTGCCATCGCTGTTGT
TGTTGTCGTTTTTGTTGTTGTTACAACAACAACGACTACAACAACAGTAC
AATTTTATCATCATCACCAATATTGTTTTTTTGGTTTCAAAGGACTGGCT
GTATGGTAATATGATGCTTCCTTTTTTGAACTTATTGACCGGGCGTCGAC
GGAATGTACGGACCAACGGGTTTTTTCGGCAATTTTTCGTTTCCATCTCC
ATCACTCCCTCTCTGGTAGCCGTTTTTTTAAGCTATTGCTCTGGGACCTT
GCAGAAGTACTGATCCACGTCATACGTGGCGGAATTTTACGGTGTTGAAA
GAAAAAAAAGTCATTTTTTGTCGACCATCTTCATGTGCGACCCCGGCTGA
TGAGCCTGACTCAAGGCGTACCGGTAGAGGCTGGCGTCCAGAATGGATGA
GATGAGAACACACACAAGCACAAGCACAACCACAAGCACAACCACAACCA
CAGGCACTCACACAAACACAGACACAGACACAATCACCGTCACAAGCACA
AGCACGACCACAACACACAACGCACAAACACGCACAAAGTCGTGCCAACA
ACCACCATCATCGTTTCACTCCGCCACTCTTGGTGCTACACACTGCTGAC
TTACGTCACCATGCACGGTGCTCAATTGGTGGTGGTGTGTTTTATTTTTC
CTATTTTTATCGTCTCTTGTGTCTCCAATCAACAAACCAAACAACCCACC
AACCTGATCAGCCAACCTCGTCAACCAACCTTAAGTCAACCATGATGGAC
CGAGCAACCAACGGCGGCGGCGGTTTTTATCGCGTTCACACCTACTTGGT
GTTCATCGACACGCGCGCACCTCGTCCGCAGGTGAACATCAGCGAGAGCG
GTCTCCAGGCCATCGTAGACCTCTCCGGCGGGGACATGAGGAAGGCCGTC
ACGGCGATGCAGTCGGCGTCGCAGTTTTACGCAGGCACAGAGGTAGTGTG
AATCAAATGTTGCTCGCCGCTGTTGTTTTTCTTATATTCTATGCGTTGTT
TTTTGTCGCTGGTCGGTGTTCGCTGCTGCTGCAGCTGCTGATGCTACTGT
GGTCGTCTCTGTTGTTGGTGTTTGCTGTTGCGGTCGTCGAAGCATGTTGT
TCGTGGTGGTGGTGCTGCTGTTGTCGTTGTTTCTGTCACTTGTTGTTTGT
TGCTGCATGCTGTTGTCCGGCTCCGAATTTTACGCTGTTTCACAAACGTT
TCAAGTTGTATGTAATTTGTGTGTAATTAGCGCCCACCCCTTCCCCCCTA
TTCGCCCTCGGTCTCTTCCCTCCCTTCCCTTAGGTAACACCCGAGGTTCT
TGTTGACATCGCGGGAAAAATCCCTGCGGAAGTGAAGGACGCGCTCTGGC
TGGCCATCAAGTCCGGCTCTTACCCCAATATAGTGGTGAGTCGATCCTGC
ATGTTTTTTTCGATACTCCTCGCGTTTGTTGGATGAAGGAGGTGGGGAAT
GGATGGGTGTACAAGAGAGAGAGAGAGAGAGAGAGAGACGCGGCCATCAA
CTTCCGGTTCCTTAGTATACTCCTCCCTCAGTATGCTAGCACGGTATGTG
CCTAGGTTGTTACCACGGGCTAGATTTAGACTTCGGGGGTGAGCAAATCA
CACCCATATAAACCCGCACACCCATATAAACCCGGAAGCACCTCTTTCGT
TTCGTTTTGTTTTGCTTTGTTTGTGAAGTGTTATCCCCAACACGGCATGA
CCAAAATGACCGGTCGTCGAATCCAGCTATTTTTCTAGTTACAAGTAAAT
GATACCCGCAGACCACGCGACGACTCCTGCGCGATATAACTCGCATGTAA
TAACTCTTTGATGTACATGCATAGGGTTTCTACCGTTTTCAAACGTTTTG
GTTCTTGGTTTTTTAACCCCTGCTCCCTACTCCGATACGTAATCCCGCCC
GCAGAGGAGTATATGAAAGTCGCGCCCAAAATCACCCCCCCCCCTCCGAT
ACCGCCAATGACACCGCCCCCCCCCCCTGCCCCACGCGCCGTGCCCCTTA
ATGTACTCCTTGGCGTGATGCCGTCCTTTTTTAGGCGGCGGTGGACGACT
TCATGAGCTCGGGCTACCCGCTAAGCACGCTGCTCGAGGACATGCAGGTG
AATGACGTGCGCTTGTAGACGGGAGGGGGACAGGCGGGGGCAGATGAAGA
CGTGTACGGGGGGAGAAACCGGGCACAGGGAATGACGAGATGAAAGGAAG
AGACGGATGGAGAGAGAGAGAGAGAGAGAGAGAGGGAAGGGAAGGGGAGA
TATAGAAGAAAATTTGTGCTGAATGCTTTTCGCGTGCGTGTTATCTGCTT
GCTTGGTGCTGAAGATGAGGGCGATGCTGATATCGTACCACATGGCCAGG
AAACAGGCTTTCTACATATCGCGTCGATCAAGGCACGGCCCGACCGAAGC
TCAACAACCCAGCCCACCTCAAACTCAACTCAACTCAACTCAACTCAACC
CAACCCAACCTTCTCTCTCCGCACTGTTTTGATTGTTTGCTTGAATGATG
CGTGCACGCGCTATGCTATCATGCAGGAGGCAACCGTGGCGGACGCCGGC
ATCCCCGACCACAAGAAGGCGGACATCTGCAGGCGCATCGCGGAGGCCGA
CCGCTGCCTCATCGACGGGTGCAACGAGGAGCTGCAGCTGCTGGACCTCG
CCTCTGTGGCCACTCGAGGTTGCTCTTCGCAGTAGGAATTTATGATGGAA
CGAAAAATGGTACGGAGTATTATTATACCATGCGTTAGTTTTACGTGGAT
GTATGTATGATATCACACATGCATACCTACTCTGCATGCGGGCACGAAGT
GTCTTTTTCTCACACGAGCGTAGGTAGGTAGGTATGCATGTGTGGCAACG
TGTAAAAGTTAAAAGTTGTAGCATTTGTTTTCTGACTGTTTTGACTCTCT
GTTCGTTGTATGCTTTGTTGTTGAGTCGGTGATAATCTGGTGGTGAATTT
GAGCATGGTAGGTTACGAATGAATGAACGTTTGTGCGTCTTTGACGACGC
CAAAGTAAAAAGAACTTCTGTGACTGGATTACTTGTTTGTTTACAGCAGT
AGTCCCGTATCATTGTTCAACTAGTCCACATTCTTACAAAACCGTATCAA
ATGTTCCAAAAAACGTACTTTGTATGATAGAAGTAGGATATCTGAGACGT
TTCAACGAGTGGAAATTTGTTTCAGAGCTGGGAACGAGCGGGGCATGAAC
ATTTCAGACAATAAAGTCGGGGGCAAAAGTGTTTCAAAAAAAGTATGATA
TCTCCAAAGCCTCTGATTTTGTTCAGTGCCAAGACGGTTGAAGTCCAAGC
ACTGTCAGCGCGGTACAGA
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Coding sequence (CDS) from alignment at P-littoralis_Contig16:231465..257133-

>mRNA_P-littoralis_Contig16.68.3 ID=mRNA_P-littoralis_Contig16.68.3|Name=mRNA_P-littoralis_Contig16.68.3|organism=Pylaiella littoralis U1_48|type=CDS|length=1077bp|location=Sequence derived from alignment at P-littoralis_Contig16:231465..257133- (Pylaiella littoralis U1_48)
ATGGCGGACGAAAACTTTGCGATGGGGGGAGCAGATGATGCCAAGCCCGC
GCCCGCTCCGGCGAGGCTGCAGCCGTGGGTGGAGAAGTACAGGCCCAAGA
CGGTGGATGACGTGGCACACCAGGATGAGGTTACGAGCACCTTGAAAGGC
GCCATCGCAACGGGCGTGCTGCCGCACCTGCTGTTCTACGGCCCCCCAGG
AACGGGGAAGACTTCGACGGTGCTGGCACTAGCGAGAACGCTTTTCGGCC
CGGACACTTACAAAGATCGAATCCTGGAACTGAACGCGTCGGATGAGCGA
GGGATCAAGGTCTCATATCAAACGTATAATGTGTGTATCAAAATCCTGAC
CCGCGTTAAACAGGTGGCGGTGGGGCGAGCGACGCACCAGGCGGGGTACC
CGTGCCCGCCGTTCAAGGTGATCATCCTGGACGAGGCGGACACGATGACG
CCCGACGCGCAGTCCGCGCTCCGTCGCACGATGGAAACCTACTCCACGGT
GACGCGTTTTTGCCTGATCTGCAACTACGTGACGCGAATAATTGAGCCGC
TTGCGTCGAGGTGCGCCAAGTTCCGGTTCAGCGCGCTTGGGCAGGGGGCA
ATGCTGGATCGCCTCCGGTACATTTCGACGGAGGAGGCGGTGAACATCAG
CGAGAGCGGTCTCCAGGCCATCGTAGACCTCTCCGGCGGGGACATGAGGA
AGGCCGTCACGGCGATGCAGTCGGCGTCGCAGTTTTACGCAGGCACAGAG
GTAGTAACACCCGAGGTTCTTGTTGACATCGCGGGAAAAATCCCTGCGGA
AGTGAAGGACGCGCTCTGGCTGGCCATCAAGTCCGGCTCTTACCCCAATA
TAGTGGCGGCGGTGGACGACTTCATGAGCTCGGGCTACCCGCTAAGCACG
CTGCTCGAGGACATGCAGGAGGCAACCGTGGCGGACGCCGGCATCCCCGA
CCACAAGAAGGCGGACATCTGCAGGCGCATCGCGGAGGCCGACCGCTGCC
TCATCGACGGGTGCAACGAGGAGCTGCAGCTGCTGGACCTCGCCTCTGTG
GCCACTCGAGGTTGCTCTTCGCAGTAG
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