mRNA_P-littoralis_Contig117.107.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig117.107.2
Unique NamemRNA_P-littoralis_Contig117.107.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: D7FYX5_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FYX5_ECTSI)

HSP 1 Score: 490 bits (1261), Expect = 2.570e-165
Identity = 274/365 (75.07%), Postives = 299/365 (81.92%), Query Frame = 2 
Query:  107 MRISIQCATVASLIALGLLS-ESQTFALAFCNGGSAAVLRSSARAGNMMPSSWSGRHRSMRTARVGRHRKV-ALMMSEMEEDYPSDTGDDRFSAGAGVAERERVAFADKDTPEVAQLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGG-GLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKGMKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNEQGQVFVFARADDGELR 1192
            M +S +C+ +A+ +AL  +S E Q F   F   G                S+ S RH S    R+ R +   AL+MSE+ EDYPSDTGDDRF+ GAG AE+ER+AF +KDTPEVAQLKLDLLRIAALTGRGQLAT AER RVEDVIWELEMRTP+E+TATS ALLGRWALVYASEDATRSSPFFWAFRKATEG+K PFGG G G   DGS VA+TIFA+TDSLP KSVGEAVQTITEKEIKSEVEIFAGASAGSDKR G EGPNTFPSFRSVMTTTSEITDA G   KL+VAKTQVRKSALGRLLKPLFNLD+IEF+TD+LLTPLKEGSTEV MTTTYLDGLLRVSRNEQGQVFVFAR DDGELR
Sbjct:    1 MGVSRRCSALAAFVALAAVSSECQAFINCFLRAGERTP------PSEATTSTTSFRHSSSGWCRMARAKDCGALLMSEVAEDYPSDTGDDRFAGGAGTAEQERLAFTEKDTPEVAQLKLDLLRIAALTGRGQLATPAERGRVEDVIWELEMRTPVEDTATSTALLGRWALVYASEDATRSSPFFWAFRKATEGIKPPFGGGGDGDSFDGSTVAATIFAITDSLPGKSVGEAVQTITEKEIKSEVEIFAGASAGSDKR-GKEGPNTFPSFRSVMTTTSEITDAAGTETKLRVAKTQVRKSALGRLLKPLFNLDNIEFQTDNLLTPLKEGSTEVSMTTTYLDGLLRVSRNEQGQVFVFAREDDGELR 358
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A0G4FU97_VITBC (PAP_fibrillin domain-containing protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4FU97_VITBC)

HSP 1 Score: 122 bits (305), Expect = 3.180e-27
Identity = 94/260 (36.15%), Postives = 138/260 (53.08%), Query Frame = 2 
Query:  413 AFADKDTPEVAQLKLDLLRIAALTGRGQLATK-AERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEIT-----DAKGKGMKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNEQ-GQVFVFAR 1171
            A +  ++  +  LK++LL  AA +GRGQ A + A R   + ++ +LE   P    ATS  L G W LVYASED TRSSPFFWAFRKA EG++ P    G   L     A ++F +TD LP KS+GE+ Q I    + ++   F      +  R G      F    S MTT   +      +A+   + + + KT+V  S + RLL P  +  D  +++ S L  +K+GS+ V    ++LD  LR+ RN++ G VF + R
Sbjct:   20 AVSAPESNPLEDLKIELLESAAASGRGQFALEGASRATFDSILADLEALNPTPAPATSPLLKGTWRLVYASEDVTRSSPFFWAFRKALEGIRDPLRTFGSDQL-----AESLFGLTDRLPFKSIGESRQRIEGSPMPNQ--RFRPERLTNQVRVG-----VFGLGESKMTTECSVAPQEGPEARDDVLNVTIEKTKVLDSTISRLL-PFLD-GDSAYESKSSLENIKQGSSVVEKRISFLDEDLRIVRNDRDGHVFAYWR 265
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A7S0TMF4_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S0TMF4_HEMAN)

HSP 1 Score: 120 bits (300), Expect = 3.560e-26
Identity = 99/298 (33.22%), Postives = 143/298 (47.99%), Query Frame = 2 
Query:  314 VALMMSEMEEDYPSDTGDDRFSAGAGVAERERVAFADKDTPEVAQLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFR----------SVMTTTSEITDAKGKGMKLKVAKTQVRKSALGRL--LKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNEQGQVFVFAR 1171
            V L M++ + +   D+ D+       +A+ +R   +     EV       L++ AL+ RGQ AT AER  ++  I  L   T       S  L G W LVYASE  TRSSPFFWAFRKAT+    P        L    ++  +FA+TD +P  S+G A QTI+                G++ R GS   +   S R            +TT+S + D     ++L V  T+V+ S  G +  L P F  + ++F +   L  +K GS+ V MT  Y+   +RV+RNE+GQVFV  R
Sbjct:   43 VGLRMADQQIEESEDSVDENSEDEPILAKVDRAPASQGSEAEV-------LKLCALSNRGQGATLAERDDIDAAISRL---TASSSGCDSSLLNGDWRLVYASEAVTRSSPFFWAFRKATKSTMQPLP------LLPPSLSEALFAITDGIPFASIGRATQTIS--------------GMGAEGRGGSLVSSVEVSLRVFDALLPPNVGYVTTSSRLLDMGEGKVRLTVETTEVKDSTWGEIPVLGPAF--EGVKFPSGEALEGVKPGSSSVDMTVEYVSDEMRVTRNEEGQVFVHVR 308
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A7S4FYH2_9EUGL (Hypothetical protein n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S4FYH2_9EUGL)

HSP 1 Score: 117 bits (292), Expect = 1.740e-25
Identity = 88/245 (35.92%), Postives = 130/245 (53.06%), Query Frame = 2 
Query:  461 LLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPS--KSVGEAVQTIT------EKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKGMKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNEQGQVFVFAR 1171
            LL +AA   RGQ     +  +++++I +LE+    +   T+  L G+W LV+ASED TRSSPFFWAFR+A                     A  ++A+TDS+P   K +G AVQ I+      E  ++S V I A              P T     SVM TTS I D     + LKV +T+VR++ L     PL++   + F +   L   ++G++EV+MTT Y+D L+R+S+N+QGQ FV+ R
Sbjct:   63 LLEMAARADRGQTENPQDNTQIKEIIDKLELAMIGQ--GTTARLDGKWELVWASEDVTRSSPFFWAFRQAYPDN-----------------ADQVYAITDSIPGQLKEIGRAVQNISGAEGPGEGSLESRVVIRAL-------------PGTPLPLESVMITTSAIVDRNRSQVTLKVDETKVRETTL-----PLWD-KTLPFPSGVALELARQGASEVVMTTLYIDELIRISKNDQGQTFVWTR 269
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A813JGD2_POLGL (Hypothetical protein (Fragment) n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813JGD2_POLGL)

HSP 1 Score: 103 bits (257), Expect = 1.330e-20
Identity = 87/251 (34.66%), Postives = 123/251 (49.00%), Query Frame = 2 
Query:  446 QLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALL-GRWALVYASEDATRSSPFFWAFRKATEGLKVP-------FGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKGMKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNE-QGQVFVFAR 1171
            +++L LL  AA T RGQ  +   R     ++  +E   P    A+   LL G W L+YASED TRSSPFFW +RK  +G++ P       FG           ++ +IFA TD +P ++VGEA Q+I +  + S V I                   F   ++VMTT+     A  +G +L V  T     A+G  L P    D   F +++LL      S  ++M  TYLD  LR+ RN+  GQVFV+AR
Sbjct:   80 EVRLQLLASAAATCRGQCGSPLAREGALQLVKAMEALNPTAAPASDTGLLEGDWRLIYASEDVTRSSPFFWGWRKMLKGIRDPTPVSLQLFGT--------EEISESIFAFTDGIPIRTVGEATQSIKDGRLISRVTI-----------------QVFGFGQTVMTTSCRFMPANSEGSELAV--TVETTQAMGSTL-PF--ADTTVFPSEALLGE----SARIIMHLTYLDDDLRIMRNDADGQVFVYAR 296
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A7S2JMT5_9DINO (Hypothetical protein (Fragment) n=1 Tax=Brandtodinium nutricula TaxID=1333877 RepID=A0A7S2JMT5_9DINO)

HSP 1 Score: 95.5 bits (236), Expect = 8.830e-18
Identity = 86/263 (32.70%), Postives = 124/263 (47.15%), Query Frame = 2 
Query:  380 AGAGVAERERVAFADKDTPEVAQLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVP-------FGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTS--EITDAKGKGMKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRN 1141
            +G  V E E     ++     A L+++LL +AA T RGQ   +  R R   ++  LE   P  E A S  L G W LV+A+ED TR SPFFWA R+   G++ P       FGG         ++ +T+ A TD +P K+VG A Q +   E+ ++V +                   FP+  S MTTT   E   A    +++ V KTQV  ++L   +     LD + F +  LL      + EV M  +YLD  LRV R+
Sbjct:   72 SGGEVGEAEAAGALERAAARSA-LQMELLELAAATARGQTGDEEVRRRCCRLVARLESANPTLEPARSALLEGDWRLVFATEDPTRCSPFFWALRQQMRGVEDPNPLSRLMFGG-------DDLLENTL-AFTDGVPIKTVGLATQRLRHGELVNQVVV-----------------GVFPTGESKMTTTCRYEADGADAGVLRVIVEKTQVLGASLAASV-----LDQLSFPSGQLLG----DNAEVAMRVSYLDERLRVVRD 299
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: C1DZD4_MICCC (PAP_fibrillin domain-containing protein n=3 Tax=Micromonas TaxID=38832 RepID=C1DZD4_MICCC)

HSP 1 Score: 95.9 bits (237), Expect = 1.310e-17
Identity = 89/265 (33.58%), Postives = 126/265 (47.55%), Query Frame = 2 
Query:  422 DKDTPEVAQLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSV----GEAVQTIT--EKEIKSEVE--IFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKGMKLKVAK--TQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSR--NEQGQVFVFARADD 1180
            D D  E ++L   LL +AA + RGQ A++  +  +ED+I ELE   P EE A    + G WALVYAS +A RSSPFFW F+K   G              G  +AS +F  T  LP        G   QT++   +E+ SEVE  IF    A +   SG+           V++T +      G G  L V    T+VR S +G  +     LD I   T  L++ +  G+ E   T TY+D  +R+ R   +  Q+FV+ +  D
Sbjct:  121 DPDAEERSRLIRKLLGLAAASSRGQQASRDAKATMEDIITELEFMNPTEEPARK--INGEWALVYASVEAFRSSPFFWGFQKMLPG--------------GEDLASQLFKFTAGLPVAGTRGPFGVISQTVSLESEEMVSEVEMRIFDPFFAVASGVSGT-----------VVSTANVTVKPDGAGDVLLVTPRTTRVRNSNVGGAI-----LDQIVVPTSELMSSVAGGAVEAEATVTYVDDAVRIVRVGKDLDQIFVYTKMAD 353
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A813CNS8_9DINO (Hypothetical protein n=1 Tax=Symbiodinium sp. KB8 TaxID=230985 RepID=A0A813CNS8_9DINO)

HSP 1 Score: 93.2 bits (230), Expect = 4.440e-17
Identity = 80/245 (32.65%), Postives = 120/245 (48.98%), Query Frame = 2 
Query:  446 QLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAGSDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKG-MKLKVAKTQVRKSALGRLLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNE-QGQVFVFARA 1174
            +++L LL  AA T RGQ  ++A+R     ++  +E   P  E  T   L G+W L++ASED TRSSPFFW +R+  EG+  P   +     +   ++ +IFA TD +P K++GEA QT+   +I + V +                   +    +VMTTT     A+    + L V  TQ   + L     PL   D + F +++ L      +  +    TYLD  LR+ RNE   QVFV+ RA
Sbjct:   84 EVRLRLLAAAASTCRGQCGSEADRQGALQLVKAMEALNPTPEP-TKGLLEGKWRLIFASEDVTRSSPFFWGWRRMLEGIPDP-SPLSRALFNTEELSESIFAFTDGIPLKNIGEATQTLYNGQIVNRVAV-----------------EIWGLGTTVMTTTCRYMPAEDPSELLLTVETTQAVDNTL-----PL--ADQVVFPSETFLG----DNARLRARVTYLDEDLRIFRNELDDQVFVYVRA 298
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A7S4B2D0_CHRCT (Hypothetical protein (Fragment) n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4B2D0_CHRCT)

HSP 1 Score: 92.4 bits (228), Expect = 1.950e-16
Identity = 52/112 (46.43%), Postives = 68/112 (60.71%), Query Frame = 2 
Query:  461 LLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQ 796
            LLR+ ALT RGQ  ++++R R+  ++ +LE   P    +   AL GRW LVYASE   RSSPFFWAFR+A+  L  P G   GG   G   A+ +FA+TD+LP   VG   Q
Sbjct:   89 LLRLCALTDRGQRCSESDRRRLSALMSKLEAEAP---QSDGTALNGRWRLVYASEAVYRSSPFFWAFRQASAQLSTPVGVPSGGVRAGDPFAAAVFAITDALPFYDVGAVTQ 197
[Close]
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Match: A0A7S4B2D4_CHRCT (Hypothetical protein n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4B2D4_CHRCT)

HSP 1 Score: 92.4 bits (228), Expect = 2.290e-16
Identity = 52/112 (46.43%), Postives = 68/112 (60.71%), Query Frame = 2 
Query:  461 LLRIAALTGRGQLATKAERCRVEDVIWELEMRTPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVGGGGLDGSVVASTIFAVTDSLPSKSVGEAVQ 796
            LLR+ ALT RGQ  ++++R R+  ++ +LE   P    +   AL GRW LVYASE   RSSPFFWAFR+A+  L  P G   GG   G   A+ +FA+TD+LP   VG   Q
Sbjct:   89 LLRLCALTDRGQRCSESDRRRLSALMSKLEAEAP---QSDGTALNGRWRLVYASEAVYRSSPFFWAFRQASAQLSTPVGVPSGGVRAGDPFAAAVFAITDALPFYDVGAVTQ 197
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig117.107.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FYX5_ECTSI2.570e-16575.07Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A0G4FU97_VITBC3.180e-2736.15PAP_fibrillin domain-containing protein n=1 Tax=Vi... [more]
A0A7S0TMF4_HEMAN3.560e-2633.22Hypothetical protein n=1 Tax=Hemiselmis andersenii... [more]
A0A7S4FYH2_9EUGL1.740e-2535.92Hypothetical protein n=1 Tax=Eutreptiella gymnasti... [more]
A0A813JGD2_POLGL1.330e-2034.66Hypothetical protein (Fragment) n=1 Tax=Polarella ... [more]
A0A7S2JMT5_9DINO8.830e-1832.70Hypothetical protein (Fragment) n=1 Tax=Brandtodin... [more]
C1DZD4_MICCC1.310e-1733.58PAP_fibrillin domain-containing protein n=3 Tax=Mi... [more]
A0A813CNS8_9DINO4.440e-1732.65Hypothetical protein n=1 Tax=Symbiodinium sp. KB8 ... [more]
A0A7S4B2D0_CHRCT1.950e-1646.43Hypothetical protein (Fragment) n=1 Tax=Chrysotila... [more]
A0A7S4B2D4_CHRCT2.290e-1646.43Hypothetical protein n=1 Tax=Chrysotila carterae T... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig117contigP-littoralis_Contig117:352083..378769 -
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.D7FYX5
PFAMsPAP_fibrillin
Model size2281
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorychloroplast
Exons7
Evalue2.45e-171
EggNOG OGs2E0FT@1|root,2S7WB@2759|Eukaryota
Ec32 ortholog descriptionPlastid lipid-associated protein/fibrillin conserved domain
Ec32 orthologEc-19_002850.1
Cds size1089
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig117.107.2prot_P-littoralis_Contig117.107.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig117 353169..378663 -


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

Feature NameUnique NameSpeciesTypePosition
1680789489.5125988-UTR-P-littoralis_Contig117:352082..3531681680789489.5125988-UTR-P-littoralis_Contig117:352082..353168Pylaiella littoralis U1_48UTRP-littoralis_Contig117 352083..353168 -
1680789489.6022592-UTR-P-littoralis_Contig117:378663..3787691680789489.6022592-UTR-P-littoralis_Contig117:378663..378769Pylaiella littoralis U1_48UTRP-littoralis_Contig117 378664..378769 -


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

Feature NameUnique NameSpeciesTypePosition
1680789489.5260634-CDS-P-littoralis_Contig117:353168..3532731680789489.5260634-CDS-P-littoralis_Contig117:353168..353273Pylaiella littoralis U1_48CDSP-littoralis_Contig117 353169..353273 -
1680789489.5378263-CDS-P-littoralis_Contig117:354124..3542321680789489.5378263-CDS-P-littoralis_Contig117:354124..354232Pylaiella littoralis U1_48CDSP-littoralis_Contig117 354125..354232 -
1680789489.5497808-CDS-P-littoralis_Contig117:354873..3550231680789489.5497808-CDS-P-littoralis_Contig117:354873..355023Pylaiella littoralis U1_48CDSP-littoralis_Contig117 354874..355023 -
1680789489.5604742-CDS-P-littoralis_Contig117:355926..3560951680789489.5604742-CDS-P-littoralis_Contig117:355926..356095Pylaiella littoralis U1_48CDSP-littoralis_Contig117 355927..356095 -
1680789489.5693762-CDS-P-littoralis_Contig117:356883..3570571680789489.5693762-CDS-P-littoralis_Contig117:356883..357057Pylaiella littoralis U1_48CDSP-littoralis_Contig117 356884..357057 -
1680789489.5780485-CDS-P-littoralis_Contig117:359484..3595871680789489.5780485-CDS-P-littoralis_Contig117:359484..359587Pylaiella littoralis U1_48CDSP-littoralis_Contig117 359485..359587 -
1680789489.5869322-CDS-P-littoralis_Contig117:378383..3786631680789489.5869322-CDS-P-littoralis_Contig117:378383..378663Pylaiella littoralis U1_48CDSP-littoralis_Contig117 378384..378663 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig117.107.2

>prot_P-littoralis_Contig117.107.2 ID=prot_P-littoralis_Contig117.107.2|Name=mRNA_P-littoralis_Contig117.107.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=363bp
MRISIQCATVASLIALGLLSESQTFALAFCNGGSAAVLRSSARAGNMMPS
SWSGRHRSMRTARVGRHRKVALMMSEMEEDYPSDTGDDRFSAGAGVAERE
RVAFADKDTPEVAQLKLDLLRIAALTGRGQLATKAERCRVEDVIWELEMR
TPIEETATSEALLGRWALVYASEDATRSSPFFWAFRKATEGLKVPFGGVG
GGGLDGSVVASTIFAVTDSLPSKSVGEAVQTITEKEIKSEVEIFAGASAG
SDKRSGSEGPNTFPSFRSVMTTTSEITDAKGKGMKLKVAKTQVRKSALGR
LLKPLFNLDDIEFKTDSLLTPLKEGSTEVLMTTTYLDGLLRVSRNEQGQV
FVFARADDGELR*
back to top

mRNA from alignment at P-littoralis_Contig117:352083..378769-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig117.107.2 ID=mRNA_P-littoralis_Contig117.107.2|Name=mRNA_P-littoralis_Contig117.107.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=26687bp|location=Sequence derived from alignment at P-littoralis_Contig117:352083..378769- (Pylaiella littoralis U1_48)
GGGGTACAGCAGTATACCCTTTTCCAGCTCGTTAGTTCAGCGTACGTTAC
AAACAGGCTCTGCAGCAGTCTACGAGCAGCATTCGACAAGAAAGGGTGTG
GTGATAATGAGAATCTCTATCCAGTGTGCCACAGTAGCGAGCTTGATAGC
CCTCGGACTGTTGTCAGAATCTCAGACCTTCGCTTTGGCCTTTTGCAATG
GAGGGAGCGCGGCGGTCCTTCGCAGCAGCGCAAGGGCAGGAAACATGATG
CCTTCAAGTTGGTCCGGAAGGCACCGCAGCATGAGGACAGCACGAGTTGG
CAGGCACCGAAAAGTGGCCTTGATGATGTCCGAGATGGAAGAGGACTATC
CCTCTGATACAGGAGACGACCGATTTTCTGCTGGAGGTAAGCTGGGTGGT
ATAGGCAAAGCAGCGGAAGCGCAGAAGGCTGACATGTGTGTCTTGTTTAC
TTGCCGAGCAGATGCACCTGCTGTTCCGTTGTTCTTGCTCTAAGCATTTC
CCAGGTGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCAAACTAC
AGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGGAGG
AGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTCGCG
AGCAGGGGTCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGCTTTT
ACTGACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCGGGA
ATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGACCACTAGTC
CACCGGGGCGACCGGTGCCGGTCCATGGTGGCATAGCATTCTCCAGCTCA
CATCCTCGGCGGTGGAATACTGCTGTTGTGACTGAATGGGCCCGGTAAAG
CTATTCGCGATGTGCCTGAGAGCTCTTGAGCAGGATAGTTCCGTGCATGA
TGTTATGATTCGGCAATGAACCTGTACACTGCTGCTGTAGCCGACATCAA
ACACCTCTGACAGCAGGGCCTGACGAACTTCCGCAGCTCTGCAAGTACCG
TACTTGTATACTACAGATGCGTATGATAGAGGACAAGTATTCGTGCAGAG
TACCTGCCATGCATCCTGTCGTTGATCCCTCAAGTACAGTACCGGCCCGC
TAATAAGAAACCAGTAAATCTGGCTCAGGTTGACTTCTTATGTTGGGTTG
AAAGTCGAGCATGACACTTTCTTATGTATTGTATAGGATTGAGTGTAGCA
CTCGCCGCCCAGGCTGGGCACTTTCTTAATTTTCTGAAAATCTCAGGCTG
ACTTTCTTCAAAGGAGCTTTCTTATTAGCGGGCCGGTACTGCTGTAGGTG
TTGGATATCTCATCGGTTTCAACGATGTATCGTATCGTATCCATTGTATC
GTATCATACGAACTACTTCGAAGTAGTCGCTTCGGAAATCATGTGCGAAG
TACCGATACGATAATACTCGGAGTATTCAAATACACAAGACACAGACACC
CACTTACTTGGAGCATGATTTAGCGGCACCTATTTGCCAAGAGATGTTGT
TGCCGCTTTTCACGGCTTGTTGCCTCTATTCACGGCGTGTCGCTATTAGG
CGGCACTAAACCGCTACGATATTATATCCGGTAAAAGTGCCACGCACGTG
ATAACCAACAGCAGTACTTCTTCGTACAATTACCTCCCGACCGTGTCATG
CGTGTCCCACTGCGGTACTGCTCTGTAGTACAGCAGTACAGCATCCGTAC
TCGCCGAATGCATCTGCACACGATGCATGTTGGCAAACAGCATGTACAGC
AGCAGTACTGCGGTAGTATATATTTCAGCCTACAAAACCATTTCATTGTT
TTCTTCCGGCGGATTCAGTTCAAAACCCTTCTTGTCCGCACTTCTGTACC
AGACGCGAAGAGCAACTCAGTATCATACGAGTATACTGCCGTACTACTGT
AGTGTTGCAGTGAACAGGTGTGTTCCCACACGCCTGATGTACGTAGCATC
CGATATATCGAGAGTATGCCGTTATATCGGGGTGCAGTCGTGCCACGAGA
TTTTAGTACCGCCATATAGGGCGTTTCGCTATTCCAAGGCGCCGCTATAT
CGGGACCCCTACTGTACGTACGATCACGATACGGCGGTAGAATCACAATG
TCAACACCCGCACGGGGCCCCCATCCCCTCCCCTCGCCAGATGCCTTCGT
TTGCGGGACAGATCCCACGAGCCATCTATTGATGAGAGATGAAAGGCCTC
TTTTTCTGTTTTCCTCGAGCCACGAGCCATTGACATCAAAATCTCACAAG
TTGAGGGTCACAGCAAGAGCCACGAAATCGCGCCGCACCCACTACGCACA
CATGAGGCACGCCATCCTATCGGAGAAGGATGAGTGCTGCAGGCCGCCCT
GCACGGGCGAAGACACTCAAAAGAAATTTTGGCGCCAAGACTGGGCCACG
GGAGTGCCATCGTACTCCTCGCCCACGAAATTTGGGTCCTGATTTTCGAC
GTAGTTACCCACGGGAGACTTCTAGCAGCAGCGGCGGCGGAAGCAGCAAA
ATAATAAGCATGGCGATATTGAGAGAGAAAGACATTTCGTGCCCGCAGTT
TTGCATTCTATGCGGCGATATTGAGGGAGAAAGACATTTCGACCAACACC
ACCTGCATTATTTGCGTTTTGTGTACGACGCCCTCTGCGTAGTTCACTTT
GTGCTCACCATGGGCTTGTGTTTCTGGACAATAGTGGAAGTATGCTGTGT
AGGCTGTGTCCATATTTACCGAGGAAACGTAACAGCACAAAGGTTCGCCG
AGGACACCCACGGATGGCGTTTATTTGTGGTGTGTGGCGCCTTTTCATTG
GATGAGAATACCGTTTGGTTTCTGGTGGAAGAAAGAGGGGCGAACGAGAA
AGACGGTGATGCGCGTTTGTTCCCTGCACCCAGAACTCAAACAATTAACA
TAAAAATATAAAAGTACAAGATCCCCTTTCAGAGTGAGCTAATGAATGAG
GGTATAAAGAGTGCGATAGGGGGTGATTCAAGACTAAGGGCGTGTATTAG
ATAAAAAAATGCGACTGGAACTTGGAACTTGGAACTGCGAATGAATTCCT
TTCTCATTGGCCAACAATAATTACAAAATTTCCTGGAAAATCCTGCCGCC
GTCGGAGTTCCCGTTTTCCAGTTCCAAGCCCTGAAATAATTTTCATCATC
TAGTTCCTTAAAATTGCCCAGTAGCCCACATGGAACGGGCTGGTTGAGGG
CAATAATTCTCGCAGAAATTTATACAGCAGCGACCATGACGTACGCATAG
ATGGCTTGGGTTGACAACACTCGAAGCTACACAAAGCCACACGGCAGAGC
ACATAGAGAGCAGTCCTAACCGCGACCACACCGCTGAGAGATTCGAGTGT
TTAGAGATGAGTGAAGTTAACGGGAGCAGTGATGCGTCAGATGTGACGCA
GCAGCAGCAAGTTCAGCACGTACGTCACACATTATGACTTCACAGTCCCG
GGCTCTTCACCTTAGTTCATGTTCCCAAGTTCCAAGTTCCAGCATAATAC
GGAGTAGTTTTTTTCATCCAAGACAGAACGACTGGAACTTGGAACGTGGA
ATCCTGATGAATTCCCAGTTCCAAGTTCCAAGTTCCAATCGCAGTTTTTT
ATCTAATACACGCCCTAAGCCGAAGACACATTTATTTTGCGGAAGCGCCT
GCTGTGGTGTGTCGGAGAGACAAATAAAAAACGGGACTACTTACTGCCTG
TAACGGTTCACGGTTCAACCCCCCCCACCTCGTTAAGCTGGGTTTTTTTA
CACCCGCCCCCCACCCCTCCTAGAAAATCCACACCACCGACGACCCCCAA
TTTTATTTTATTTTTTGACCCAGCTTTGCAGCACAACATCAACCCCAACG
ATAGGGATAACTCCGCGCGGAGGGAAGTGGTGCCTCTCAAAATTACGCTC
GTGATCGACAGTGGCATGTACATCATCAGGGGATGCCTCCTGCAGAGAAG
TGGCAATGTCTGTGTATGGCGGAGCGCGGAGAGCCGGATCGATTATGGGA
TACACACGCTCGTCTCGCCGCAAAACATACGAACTTTTCATTTCTCCAGG
GCACCGCTTTTTAACGGAAGGCCAAAAAAAACGAAATAGCGAAAACGAAA
ACGAAAACGAAATTGGGCTCTGATTGGTTGGGAAAAAAAAACGAAAGAGG
CGTGTTTTCGTTTCAACGTCCTCCAGAGAGGCGTTCCTTCGTTTTCGATT
TCGCAAAAATAAAGTATTTCGGACCTTTTTTTTTGCGAAAACGAAAACAG
AATGCATGGAGTTTGGTAATAACCTGGGAGGCTTGCCCATGAGCCTCCCA
GGCAGCGAACTCCTTCACAGAGACTGCGACTGCGGTACACGGCGGTGCAA
CAGGCACCAAGCCGAACAGAGCGAGGCCCAATCCACACACTACAGTACAG
CAGCGCAGCAGACAGCGCCAAGCCGTCATACCCGCCAGTCAGTGCAACAG
ACAGCACACGGCCGTCTACGATACCCACACGCTGACACGATGCATTCCAC
CGCGCCTTGTTTGAAATTGGGCACCGCGCGCTCTGGGTTTACATCATTTT
TGGCGTTATCTCCTCTATTCCGCTGCTCCAGCTCCTCGCACAGAAACGCG
ATACCGAAATGGAGTTTTTTATTTTTTTTTCCTGGAGAACGAAGTTATTT
CGTTTTTGTTTCCGCTATTTCGTTTTTTTTTGGCCTTCCGTTAACCTAAG
GCTACTTTTTATGTGACAAATATCAAAATATCAATTCTGATTCGTTTTCG
ATATTGACAATTCCCACAGGGTGGTATCAACATCAGATCTTATGTGTAAA
CAATTTATCAAAATCGAAAACGTGTTTTTCGTACAGCAGTACGTATCGTA
TACTCGGAGTATGTAGGATCCCAAGAAGAGCCGTTTGGCTAGTACTCCGG
AGTATACAGCAGTAGTAGCACATTTCAAAATTTTGGAGCGAGCGCAGCAC
CCTCTCGGGATGGAGCACGACGCGCTGGGTCACAGCCAGAACAGAGCAGC
ACCGCGCGTAAACCATACATCTAGACAACAAGGTGTTGTCCCTCCCGCTC
AACTACTCCGAGTACACCCAGACCTATTTATTTCAAGCTTTTTTTGGAAG
GCTATTCGTAGCAAGAACAAGTAAGTATAGACTACTGCTGATGATTCATA
TGCAGGGCATCTATCTGCACAGCAGTGTACGAGTGCTTGTAGGTGAATTG
TAATCAGTCGCTCTCTGCTGCTGCCGCCATGGGATGAAGGGCCACGCTGC
TGGCGGGCGACGACGAGGAAGTAACACGCTGACCGCCCGCGATAATGTAG
CAGCAGCAGCAGCAGTAGTGATGTGGCAGTACTGCTGCTGCTGCTGTGGG
TGCTTGTGTTGTGTGATGGCTTGCGTCGGAGGCTCAAACGTTTTCAATAA
TCATTTTTGATATGCGGAGTAGATCAGAAATGAGGCTCATTTCTGAGCTG
GTGCTGGATCAAATGATTATTGAAAATGTTTTATCGAAAATGGCCCATTT
CTGATCACATAACATGCCGGATCTGTGCCAAATATCGAAAACGAATCACT
TTTGATATTCAGATTCGACACATAAAAAGTAGCCTAAGAGCGGATTTTGG
GGACATTTTATGTAAAGTAAGTTTTGCATTCCCTGCCGGGACTGTACGTG
AGCCGGCCAATGACAGAGAGCCACGATTGCCCCGCTGTCTGCTGGACCTG
CCTGCCCTTGCAGCGTGCGGTAGACAGCAGACAACAGGACAAACACCAAA
AATACACTACACTTCCTGTCTCCGAAGCAACTTTTCTTTGGCCCACGACC
TTCAGACGGTAGATCATCATAATACTTGTTGCACGCTTGATTTGGTGATT
AACAGTCTGGCTGGCAGAGGCTGCGGTGAGTCTTGGTGGCTTCAATCAAT
GCTGCTGGGCAACTGCAACAGCAGCGCAGCATTCAACGCGCACGCGGCTT
GGGCTACTCTCGAAAGCAACCTGCCCCTTTTATTTGTAGATGGCTGCGTG
ATCCACGGCGTTAGATGCTGCCGTGTCGGCCCTGCCGTGTCGGGCTCTCC
GGGGAAAGCTGGCTGTGCCATAGGACGGTGATGGGTGTATGTGTGTGTTG
TGTGCACCCAAAAGACCAACCGTCACTTCACACTCGAACGCTTCTTTCTG
TGCCCCGTTTACGGCTAGAGTTTTTTTTGATTGATTAATCCGTATCAAAT
GTCTCCAAAATTTTGGAGACATTTGATACGGATTAAAGTACAGTACTGGG
CCCTCTATCGTGCCGGTTTAACAGTGCCGGTGCCCGGTATAGTGCCGGTA
AAATCTATGGACACAGCCAACGCCCTCAATAGCGCCGAACCGGCACTATT
GAGGTCTGCCCCGCTATAGTGCCGGTTCTTGGGCCGGTTCACTACACACA
CACAACCAGCAGACAGACGGCAGACGCCACACAGAAAATAGAGTACACGT
GCTGCTGCAGGCCCGCAGAGCTGTACGCAGAGGCGCACCATGCCTTGTGC
GGAAGGTGAACTTTGCCTTCAACAAGACAAAACGCCGCGAGCCCCTGATG
GCCGCGGCTGCAAGGGAGGATGTGGCGGCCGGCTCCACGGCAATAGACCA
CTTGCAATAACGTTTTTCTTTCCCTCAAAATTGCTCTGGGGGGGGCCCTT
TTGGTCTTTTCAAACCTATATAAAACGTTGAGCCCCTTTTGAAAAAAGAG
ACACCTCAACACGAACACACAACACGGGCGGAACAAAGCCCCACGCCACG
CCCCTCTGAGGGGGGAGAGCCTCACGGGCAAGGCATCACACCTAGGCCGA
CGCTTTAGTTCACAGTCGCTGCTGCAACCTGATGACTGGGCTGGTGGGAC
CAGATAGACAGCGTTGCACGGGGTGCGGTCTCAGAAAAAAAATGCGGCTA
GATCGTACAGCAGTACAGAGAAGAGCTGTTGTCGTGCTCCTTGTTAGATT
TGTTGTTGTTGCAGCCAGCACAACAACACAACAGAGCGCGGCGTGCGAAG
GGATGACGGAGCTTCGGTCGGCAGAGAGTGCCGCATTTCCCCAGCCCCGG
CAGCATGATGCGTGACAGGTCATTATCGCTGCAGCCCGTGGGCGACCGGT
GCTGGCTTGTAGAAATTGGTACGATGTGAGCGGCGAGATTCCCTGCTGAT
GTCCAGATGCTTGGATGCTTGGATGCTTGTCTGCGCTGCTGATGATGCTG
ATCGGGAGATGTCCGAGGGGACGGAGAGGACGAGACAGCAGGCACGGGCG
CTTGGGTGGGGAGGCGGCGAGGGGCAGTACCAGGAGGGGGGGAGGCATAC
CAGATGAACGCCACAGCTGTCATTTTTGATGCTCACCAGCAGGTGCAGTT
CAAGAGCTATTCCATGGACATGAAATACGGTAGAAGGTGACTGTCTTTGT
GCCTCCTCGTAGTCTTGTTTGAACTCGGGAGTGAACCGCTCGATGATGAC
TCTGACATTACATCACTACTGCAGCTGCTGCTTTCGCGGTATGTATCAGA
CACACACGCCCCCATGTCACTTGTGTTGCTCTCTCTTGTCCAGAACAATG
GATAGCAGTGTTGTTATGCGTTGAATACCACTGAGAGTAGAATGCAAAGC
GTGCAAGACCCAAGCAGTCCAAGCCCCTGCACCCCTTTTCGAAAGTTGCG
CAAGCAAACACCGTACGCTTTCAAAAGCTACTGGTAGAGCATTACAGCAT
ACTTCGAAGTATACAGCGGTACTGCTGCTGTGTACCTGTACCAGGGATGA
AATCGGTACCCTCGACGTTTCCAGCTACATTGGGAGCAGCACAGCCGTTG
ACACAACAATCCCATTTGAAGAGAGATTAGCCAGCACCCGCACAGCGTGT
GAGACACGGCACTTCGATTGCGACTGCTGTTGCCACCTCTGGGTGGTTAC
CTTTACTGAGATGTACGAACAGGGATGAAAAGTTGCAACGGATTGGCCGT
CAGATTCTGACTTCGAATTACAGAGTATGTCAGCGAGGGACAAGAGCAGG
CAGATTATTTTCCGCGAGTCATACGCTACATATCCCACCGCAGCGAGTAG
CCGATGTGTACAGCAGCATCTGCGGCACAGATTGTAAACTTGTAGGTATC
TCCTACATGCACACATAAGATCGGCCATCGCACATCAAATTGCCACAAAA
ATACTCCATCTACTACTGCAGTAAGTTGACTGTTTACAAGTTCTATTTCA
ACTTTGTACTTCTGAGTAGATAAAGAATGTGCTCAGCATGTACCGAAAAA
GAAGCCGGCCGAGTTTCACGTGTTGATTGCGGTGTTCCAACGATACTTGC
CTTGGCTCCCCATCCCCCCGCCGCCGCGGTTGGCGCAGGTGAAGCCTCGC
CGGTGGAGAAGCAAAGCAAGACGGATCTCACGCCACCAAGACCACAACGA
ATACTTGGCTCCAGCTCGGCTTGCAGTAACCCACGGTGGGTGGTGCGTTA
AGGGCATGACTGGACGTTGATTGTTGTACACTTCGTATGTCAAGATAGAC
AAGCTGCGTGTACGAAGGTTTGTTTCTAATCGATATCCTGGGACTTTGGG
CCCGTGTTATTTTTATCCGTAAAATAGTGCGTACCACACGCCCTCGGGAT
TGGTGGGGTTTGTTAGCCATCCTGTGTTTTTTGGGGACAGGAGTGATATC
ATAGACTGCGTGTATATTTTCGTTGCTTTTGCATTTCGGCGGGTTCACGA
ATCAAACGCGTGCATAGTGCAAATCGCGTGGGCCGCTTATTCTATTACTT
CGAAGCATTTGTCATGCGGATCGCAGGGTCGCAAGGAGTTGATGGCGGCG
GTCGCACATTATGAGAACGTTGTCTGGGACTCACTTCTGGATTACCGTTG
CCTGATGTTGAACGACTACTCGTACACGAAATATTCAGGTTGTCTAGAAC
GCCGGACGATACCGCCCCCCCTTCGGATGTTTGCCTGCTTGTTGGGTATA
ATGCGTCACGGGTGGTATCCAGTGATATGCCATAAGTCTGCGGTGCAACA
CCAACAATGTGATGTATCTTGCGCGGCGTTTCAGTCGAAGAATCATTCTC
ACCCGTTTCACCGACCAACCCCTTATCGCGCCTGCATTACCAGGAAATCG
AGGCAGCTGTCGTCCATACCATTGCTCGAACCGGCCACCCATGAGCGCCA
TCAAGGCGATTCCCCTAGGCAGTGGGAGTATTGTACAGCAATTTGCTTCG
GTTTTTGTTTCTCAGCTTCTCGGTGTTTAACGTTGATAAGGGCCATTCAA
CGAGGTGGCCAGACTGTGTGCTGTGAGGTAGAATATGTTATAAATTGTGC
GATATTTGTGTGATGTCGCGTGTGTGACATCGCACAGCAGTGGTAAACGA
GACAAGAAGGAATGTCTGGAAAATTCGAAATTTCGATTTTTTTATTGATT
TGTTCTCCACGCCTTCTCCGGTGCTGGCAATAAGGGTTTGGACGTCCCTT
TCCCTCGTCGAAAGGCACTGCTGTACAGCTATGGCCAACTTTCTTTGCCC
GCGACATGCATATTGACGATGACGTGACATACAGCAGTGCCAGTCCATAA
TTTATTAATGGAATGCCTTCGTTCAAACACGGTAGTCTATAAATTTTTCT
TGATTCAGATTTCCAGCCTTACGGAATACCAGGTATACGTTAAGCGGCCG
GCGCCACATTAATTTTTTTGAAATACTGCTGCATGTATTCACCAACTCTG
TAGCATGTTTTCAATAGAGGATAAGAAAATCGGTGGTTTTTTTTTTTCTG
TCGACTTCTTGTCAAGAGATTACGGCCAGATAATTCTCTGTCGAATACAT
CAGTTCTTTGGTTGCAGAAAAAAGACTCGCTCTTCACACCAGATCCGCAC
ATAAAAGCCTCGTGTGTTCACTCTCAATTGTTCGTTGGAAAAAACCACAG
CAGGTAGGTGCAGTTTGTAACTAATACTAGGAGTTCGAAAAAGCCCGTGT
GTGACCTTTCTTCTTCTGTGCGACCCCGGCTGATGCACCCACCTCATACC
AAAAGGTGCAGACTGGTTCCCAAAACGGATGACAACACTACTACTGCGCT
GCTGTTGTACGCACAAGTAAAACGCATCGCCCTCTCCTCCCGACATGATT
TTATTCTTGCATGTCGTAATTCGATCTTGCATCCCTTTCCACGGGCAAAA
ATGCCGAAGGGCAGAAAAACAGACGACACAAAAATAAAAACTTCGAAGTA
CAACGTGGTAACTCAGTCCACAACATCAAAACAAAATGAAGTGAGGGATG
AGAAATAATACCGCAACAACAGCAGCAGCGCATGCGAACACCAACCTTTA
CCACAGTAATACAAACCGCCTAGACCCAACCCCCCTTTTGGAGTCACTCT
CTTGTCGACCGGCTAGTTCTCTATGCATGCGTGCGGGCTTCCCTCTGATG
ATGTACAGCCAGCCGCTGTGGGGAACAACAGCGGACGTATGTGTGGAAAA
AAAGTGGTTGTTGCGTCGCTCATCATAATATCATGTACTTGTCGCTCATC
ATGTAGTCTACATGTACTCGTTGTGCACAGCGTAGTTAATGTCGGCACAT
CTAAGAAAGATGAGAGAGTCACAATTGCTGTAGAAACCTCCTGGGAGTAT
GATAAAGCAGCTGTAAAACACGGCTGAATTTTGTCTCCTGTATGTGCACG
AAGTGGATTGACGTGCGCGGCTGCTGTTTTGGTCGTTAGAAAAATGAAAA
ACAGAAGAAATGCGAAGTTATACAGGGGAGATCACAGAACATCCGTGAGG
AGGGACACACCTGCTCTCGTCGTTGAGCTACACAATGGAGCACCCCCTTT
GCAACAGAGAACATTATACGCACAGAGACCAGAGAACGTCAAATCGAGAA
ACAAATGCCCACTACAGGAGGCAGCACTTGGTACAACAAGAGTCGACCGG
ATAGCAGTACCGGAAAAAACACCCAACAGCCCGGTGAATAACGAAAAAAA
TACCCAACAGCCCGGCGTCACACCCGCAGGTATACCGACCAGTAGAGGCA
GTTGTGTGGGCAGCGACGGAAATGTGAGTCCCCTCGCTCTGTACTTCTAC
GCTCGGGAAACCTGCACTACTGCTGCTGTGAGAGTATGTTCCAGTGAGCG
CTTCTTCCATGGATTTGTCCCCCAAGTATCTGTGTTCACAGCAGTCGGGC
CACTTCTATGTTCAGCAGCACACTCGGGCCATTCCCGCAATTAAGGTTTC
TGGGCAACTGCGAAAATAAGTCCCTTCGCTCTGTGCTCTCGTGCTCTCCA
TTCTCGACAAACCACTGCTGCTCTGCATGTGAATTGATACATTGAAAAGT
TCTTCGTCTATCATCCAAGAGAAGAGTTATGTGTTAGCATTCGGAATACG
CGCTTGATCGACTACGTACACGCTTGCTCTGCTGCTGTGTGTGGTGGTCG
TTTCGGAAACTGCCTGCGAAAAAGTATTACCAAAAATAAACAAAGCACGC
CGCCCTCTCCCGCCATCACTCTTGTGTATGTATGCCTTCATTCGAAAGAT
AAAATATAGGGATATATCATGATAACGCCAATACGAAGGACTGAAGTATT
TGCGAAAGCCAGCCTTCACGAATGAACCAACCATCGTTTCAGAGTTCTCT
GTAGTATTGATTATCAGTGTTTGTTGTTCAGCAACGAGAGACACGACGAC
ACCTAGTCGCGTTTTTTTTTTGGAAGTTCGTCGCACACACCCAGGTACCC
TGACGAAAAGCAACAAGCACACTTGAGTAACGACCAGAAAAAATAACGAT
GTTTCTCACGTTAACTTCCGAGCAACAAGAAAGACGGCAACTAAGGCTTT
GTTCGAGAGCTCTCCACATGTTTGTGCGTGTGTTTGTCGCCATCCCATCT
GATCAGGATACCGGTCTACACCTACTTGTCGGTGTATGTTTGGCGGATCA
GCTAGAGGGTCACATAGAACTTTTCAGACCAACGCATACGACAAATGCGT
GTTAATTTTGAGCATACCACGACATGGTAGACAGGCGGAAGACGATAAAA
AATAATAGGAGGCGCAAGAAACCCTGGTCTCCTTTTATTACACAAAAATT
GGTGTATACCGTAATCATGCGAGTCATCGCACCCCCGTGTTAGCTTTTTT
TGCATTCCGTATTGCTCCACAACCAGGAGAGTACCACTGCCGAAAAAGGT
GGTTTAGGAAAGATCTCGTCGAGAGCTTTCGTATGACGGGGTCGTTTGGT
GTTCGCGCTCTCCTGGTTATGGAGCAATACGGAATGCAAAAAAGCTAACA
CGGGGGTGCGATGACTCGCATGATTACGGTACTGGGACAAGTACTCGTAG
CCATAAAACCAATGACATTCACGAAGATTTATTAATAGTACTCCTGTTGG
TGTACTTGTACACCAATTGTGTGTGCGCTGAACGGACAACAACGTGGTTT
TCGGCGTTGGGTCACGATGCCACCCGGTGAAGTTTCATATTGCACTACTT
GCCGGTGCCTCCATTATAAGCTCAATGAAAATAAGCAATGACCCGAATTT
AAGCAAACACACATCAGTCAAATGACCTCATGGGTCCAGGCTATCGCAGG
ATAACGCCGGAACATCCAAGTCTTTCTACCATCCCCGAGAAGGAAAATTA
CGGGACATGATCTGATGTCCTTGCGCGACTCCCCTGCCCATTCACTGCTA
TTACTGATGATGTCCGTGCGACACACCAGCAGTAGCTTAGATCGGTTTAT
TCGATCTGGGCTGCGTACGCCATGCTTGTCCTCGTATATTTTCCACTCTT
CCTATCGGGCTGACCGGGCTGCTTCGTTGAACCTGCGCAGGAAGCATTAT
CAGGGTAGCGATGTGATCCGGTGCCCCGTAATTCAAACATGAGCGACAGC
AACACAAAGAAAGACAGAAAGCCTAAATATTCAAAACTACTAAGAGTGCG
TTGTATCGCTGACACAATGAAGAGGTTTGTGCCGGCTACAGAGAAACCAA
CCAACCTTGAGGTACCTCTCGTAAGCTGAAAAATTTATTGGAAACGTCAA
GAATATAAATCTGGGAAATGCGGAAGGGATCCTGAGCCGCACTCTTGCAA
GTGATCACAGGGTCGTTCGTTCCGAGGATGTTATCCAATACACATGCACA
TTTTCACAAAGGGGACTACACTTTGGACACGGGCTGTCTGACGATGTTTC
TGCCTGCCTGATTCTGCTGTTTGGGGGTGCGACGTCTCTCACACCGTCAG
TACATTCTATCGATTTCTTAGTTGGACTGCTGTGGATGCGACATTCTCAA
CGGGAAAACGGTCAGTCTGTTCTATTTTTGACTAAAACGCACATTTAAAC
TTTCCAGCAGTTCACACCCCCGCTTCTCGATCTCCCGTGAGGAGGTGAAG
AGTGTCAGCCTAAGAGTTTCACAATCTGGAAATGAAACAATGTGTCGATG
GCTCTACTATTGACTGCTCATGTGTGTGCGGTCGTCCGCGAAACATGAAA
TATAACAACGTGCTTGCGCAGAGCAAATTTTGCCAGCTGACGACTGTTCG
GGGTATCATAAAGTCCCTCCTTTCAAATTTTGGTTGTTTTTTTCTTCAAC
ATGGACTCTGTTTAAAGATTTGGCACATAAATTTGGCACCCTAGCGACCA
GGGTTGCTGGTTGTTCCACGTCGCTTGGGCGGGCTGTTTGAAGTCCAACA
CGCAGCAGTACAGAGTTGCAGAGTGGTATGATATGTACACAACACTATGA
TAGGTGCGCTCGTTATATGCTGTACCGAGACGCCCTTGTACGAGTATAGA
CGGTGAGAACATCGCTACAAGAGGGCCTTTCGGATAAGTGAATCTCAAAC
GTCCCTACAGCGCCATGACCACGAAAAGGAGAATATACAACGGCAAACAA
GGTAGGCGCAGAGAAGTAGTACCGCAGAGGCAACACACATACTTAGCGCG
CAGTACAGCGGCACCCGTAGTGCACACACAAGCACACTCACAGCACGGCC
GCAGTAGTGCAGCGCACACACAACAAATAATGCAATCACGCGCATGTTTG
CTTTCGCTCTCTCTTTCTCTTTCTCTGCTGCTCGCACGCACGGGGAACGC
ACATAACTATAGTACTTGTACTGCGTTGGTTTATGTTGTTTCCAAAAATA
TCTGACAAATGTGGACGTTGGTTGTGTACCGGTAGTAGGGTTTCTGGGTA
AAGTTCTGTAGGCGTTCCTTCAGGTGCAGAAAAATCATGCACCTGGCATG
CGCAGATAAGGCTACCGATACACACATATGCTCAAATTTTTCGGGTGCTG
TGTGCTGGAAGCGTTCAAAATACGGCCGTTACAAATCGATTAGAAACACA
CTTTCTTGTGCGCAGCTTGTCTGTCATATCATACGAAGTATGCAATAAAC
GTCCAGTCATGCCACTTAAAGGACCCTATTCAACCCCACTAAATTTCAAA
AGCACATCCAGTCTTCATCTAGTACAAAGATAGAAATCGACCTTCCCGCG
TGAATTAAGCCGGGTTTTATATGGATATCAGTAGAATACATAATGTAGAG
GCGACGTGCGTGTTGGCAACCTCAGAGCTTTTGACGGGGCTTAGATATCG
GTGGTCGAAGGTATGTGGTGCAGCACCCCAAAAACCGTCCGCATCACAGC
CCGAAACCAAACATCTTACATGATATTTCACTGCTGTACTCGCCACCATG
GGCCCCGATCTCCTGAACTGAGTGTTGTCCTAGGCAGCAAGTGGTATAAG
CTACTGCTGCTGTAGACCCAAAATCCTGGCCCATGGGGGTGAGTAAAGCA
GTGGAAGATCATGCAAGGTGTCTGATCTCGGGCCGAGATTGGACAGAATC
CCGACTGCTGTACAACATATTTCCAACCACCGATAACACAGCCACAGTAG
AAAATCTGAGTTAGCCAACACATAAGTCGCTTCTACGTGATTTCCCCTAC
TGATACCATTCGAAACCCCGGCTTAATTCACACCACAGGTCTCATTCGAG
CGCCTCTCGTGTTCACTAGTTTGTCTTGAATTTAGACTGGGGAGGTTATC
ATCTTGGATATTCGATTAGGCGAAATTATCACGGAGTTCTGAATCACAAG
ATTTGTGTCGCGATAACGCCCCATCCACCACCTTCCAGCCGTTGTTTCGG
CCCCCAACCCTTTTCTACTGGTCTGATGGCCCTGCTTCGAGACGTTTAGA
GTGCTCTTTGCAGGATTCCAAAATTCAGCAAAATTGGATCAAATTAAATA
GGGTTCCCTAACGCACCACCCACCGTGGGTTACTGCAAGCCGCGTTGGAG
CCAAGTATTCGTTGTGGTCTTGGTGGCGTGAGATCCGTCTTGCTTTGCTT
CTCCACCGGCGAGGCTTCACCTGCGCCAACCGCGGCGGCGGGGGGATGGG
GAGCCAAGGCAAGTATCGTTGGAACACCGCAATCAACACGTGAAACTCGG
CCGGCTTCTTTTTCGGTACATGCTGAGCACATTCTTTATCTACTCAGAAG
TACAAAGTTGAATTAGAACTTGTTCACATGTCAACTTACTGCAGTAGTAG
ATGGAGTATTTTTGTGGCAATTTGATGTGCGATGGCCGGTCTTATGTGTG
CATGTAGGAGATACCTACAAGTTTACAATCTGTGCCGCAGATGCTGCTGT
ACACATCGGCTACTCGCTGCGGTGGGATATGTAGCGTATGACTCGCGGAA
AATAATCTGCCTGCTCTTGTCCCTCGCTGACATACTCTGTAATTCGAAGT
CAGAATCTGACGGCCAATCCGTTGCAACTTTTCATCCCTGTTCGTACATC
TCAGTAAAGGTAACCACCCAGAGGTGGCAACAGCAGTCGCAATCGAAGTG
CCGTGTCTCACACGCTGTGCGGGTGCTGGCTAATCTCTCTTCAAATGGGA
TTGTTATGTCAACGGCTGTGCTGCTCCCAATGTAGCTGGAAACGTCGAGG
GTACCGATTTCATCCCTGGTACAGGTACACAGCAGCAGTACCGCTGTATA
CTTCGAAGTATGCTGTACTGCTCTACCAGTAGCTATTTACCTGAAAGCGT
ACGGTGTTTGCTTGCGCAACTTTCGAAAAGGGGTGCAGGGGCTTGGACTG
CTTGGGTCTTGCACGCTTTGCATTCTACTCTCAGTACTATTCAACGCATA
ACAACACTGCTATCCATCGTTCTGGACAAGAGAGCAACACAAGTGACATG
GGGGCGTGTGTGTCTGATACATACCGCGAAAGCAGCAGCTGCAGTAGTGA
TGTAATGTCAGAGTCATCATCGAGCGGTCGACTCCCGAGTTCAAACAAGA
GTACAGGAGGCACAAAGGCAGTCACCTTCTACCGTATTTCATGTCCATGG
AATAGCTCTTGAACTGCACCTGCTGGTGAGCATCAAAAATGACAGCTGTG
GCGTTCATCTGGTATGCCTCCCCCTCCTGGTACTGCCCCTCGCCGCCTCC
CCACCCAAGCGCCTGTGCCTGCTGTCTCGTCCTCTCCGTCCCCTCGGACA
TCTCCCGATCAGCATCATCAGCAGCGCAGACAAGCATCCAAGCATCCAAG
CATCTGGACATCAGCAGGGAATCTCGCCGCTCACATCGTACCAATTTCTA
CAAGCCAGCACCGGTCGCCCACGGGCTGCAGCGATAATGACCTGTCACGC
ATCATGCTGCCGGGGCTGGGGAAATGCGGCACTCTCTGCCGACCGAAGCT
CCGTCATCCCTTCGCACGCCGCGCTCTGTTGTGTTGTTGTGCTGGCTGCA
ACAACAACAAATCTAACAAGGAGCACGACAACAGCTCTTCTCTGTACTGC
TGTACGATCTAGCCGCATTTTTTTTCTGAGACCGCACCCCGTGCAACGCT
GTCTATCTGGTCCCACCAGCCCAGTCATCAGGTTGCAGCAGCGACTGTGA
ACTAAAGCGTCGGCCTAGGTGGGATGCCTTGCCCGTGAGGCTCTCCCCCC
TCAGAGGGGCGTGGCGTGGGGCTTTGTTCCGCCCGTGTTGTGTGTTCGTG
TTGAGGTGTCTCTTTTTTCAAAAGGGGCTCAACGTTTTATATAGGTTTGA
ACACACCAAAAGGGCCCCCCCCAGAGCAATTTTGAGGCCAAGAAAAACGT
TATTGCAAGTGGTGGCACTATAGAGGCACTATTCCGAATAGTGCCGGTGC
CCGGTATAGTGCCGGTCAAATCTCAGGACACACCCCGGCACTATCGAGGG
CCCAGTACTGTATTATGCTTGGTCAGAGGGACTCTATCCAGCTTCGGCCA
ACCGGGGGCCCGCTTTTGAAATGTTTTTTTTTTTTCGGGAAACGTTTTTT
TTTTTCTATGCGTGAAATTTGTTTGCGTTCTCATGCCACGAGATCACAAC
CGTAAGCCTCAACCAGCCAATCCGACACTCTTACTCAGACATGTGCAGAT
AGATATGGAGCTCCGGCGCGGAAGCACTGAAAGCAACATTTGTCTTTATC
TATCTGGTTGTCTCACTATCGCAAAGTAAAAACAGGTCTCACACAGCAGT
CACCCGTCCGTATGTAGCGCGCGTTTGACTTTTCTTTTTCGCTCTGACTG
GTTGTCACAGCAGTGTAGCATCAGGTACGCGATGCTGGACATCGAGCGCG
GCAAAAGTGAGATGCGAGGCGATCTGGGCTTGCTTGCTATGTACACACGT
GTGCATGGATATACTACTGCTGTGCTTTATGTACACGTACGTTGCGTGCG
TCCATATATGTAGTCTAGCCGCCTGCGTTGCTTGGCATTGGGAGACTACT
GTCTTGTGTGTCCAAAAAGTGGGGTACTGGGCGAAACCAAGCTTGCTACA
CATAGTACACGCGCGAGACCTGTGCTGCCTCCACACATACATTACATGCG
AGACCTGTTCGTGATTGCTTAGTACAGAAGTAGTAGTCTGGCTGAGAGCT
GAAAGCTGTTGTTACTTTCTGACGTGCGCTTGGGCTGTTTTCTTTCAAAA
GTTCAGCAGCTGGCTGAAAGCTGAAAGCTGTTTACTCTTCTTCTTCTTGC
TGACGTGCGCTTGGGCTGTTTACTTTTTCCAGCAGCTGCTCGATACTATA
GCCCTACTGTATGTACACAGAACAGCCCGGCAGCTTCCGCCAGCTGACGT
TTTGCAGTTGGGCTGTTGGCTGAACAGCTCGCAAAATACAGTCGGCTGTC
AATCTCGGCCGTTCTCAGCCCAAGGAAAGCAAAGAAAATGCTAAGAAGGA
TTTACAAAAGCTTATATGTTCTTACTTCGTACTGAGCTATGATACTTTCG
GAGCCTTTTCCAATGCAATTTTTATGGGAAATGACGCGGTAATGCACCAT
TTTTTTTCTTCGGCGGCGGCGCCTTCAGCATATCCCTCTCGCCAGCCGGA
GGGGGAGGGGGGGTTGATCGGCGCTCTCACGCCTTCGCGCGTCCGCTCGC
TGGGCTCGCCATGAAACGTCTCCCTCCGCTCGCCTGTGACGGCTCGCTTC
GCTCGCCATCATCATCGTCATCGTTTCCGTTTTCGACATATATATTTTCG
ATAATCGTATCGTTCTGTTCATGAAACGATATCCGTCATTGCCGCAAGTT
CTTTTTGTTGTGCAGGAAGTCGCCATTCCAAATTCTTCGGTACGTATCCT
CAGAGAGTTCTTCCTCTTCATGTTGCAATAACTTCTGAACTTAAGAGCCA
CTCAGCCCGGCCGACCAGACTAGGATAGACCAGTGGCTGTACCTGCCCTC
GCACACCAGAGAAAGCGCCCCCGATTCACTTGCCTCCTTTTTTTTTGGAG
AACTTGTAGGACACCCCCCCCCACCCCCCCCCACCCCCGTCTTATACCTC
TTTTTGCCTGTGTTGGTCACCATGCGCGCCACGGCACATGATTTGTCGTT
TGCTATCGCAGGAGAATGAAGAAATCCACCGCCAACACTCAAGACACACC
GCCGTATACCTGGTACATCAAACTCCGCACATGTTGCATGGCGCAAACAA
TTTGCACCATTTGATATTTGGAAGCACGTGACCCGGCGCTTCCCTCGACG
AGTTCATGGAAGAGCCATTTTTTCTTCCCGTATGGTACATATGATGGGAT
TTATCGTGTCGTGATTCTATTTGACCAAGCTCTCTCCATTCCGACCCTGA
ATCCTGACGTTTTCCGTCCTGTTGTCGTGTGTGTGCTGTACCACTGCCCG
CTGTACGACATGGTACGGGCTGTATCAAGCAGCTGGGGTGGCCGAGAGAG
AACGGGTAGCCTTCGCCGACAAGGACACCCCCGAGGTTGCACAGCTCAAG
CTCGATCTGCTGCGCATCGCCGCCCTCACTGGCAGGTATGTTAGAGCGGG
GATTGACGGAAGGCCAAAAAAAACGAAATAGCGGAAACAAAAACGAAATA
ACTTCTTTCTTCAGAAAAATAAAATAAAAAAACTAGAGCTGTGCATCGGG
AACGATATCACGATATAAATCGTCCGATTTATATCGACATCTACATCGAA
AAATCGCACCGATATGCGGGCCGATATATGACAGGGGCTCCGTGAATCGA
AAATGTGGGTATGTGTAGTAATACGGAGTCCCCACACACTCAGGAGAGAA
CAGAGAACAGCACAGCGGACCCGAAAGCCTACAACATTGCACGTCATGAG
TGACCAACCAGCCGCGGACCAGGGTGGAGGGTCCGCCACGACACCGGCTG
CAGCTGAGCCATTGGTGGTGGAGGAGGCAGCAGGAGCAAAAGAAGTAGCA
GAGAAGGTTGATAGACTAAAGACGTGGCCCACGCTGCTGCATCTTGCATC
TTCTTGAATCCTGTTTCGTTTCGTGTTTCGCTTTTCACGTATTCAGATCG
GGTGCGTCCTTTCGTCCGTATGGCCGTCGCATAGCTTTCACCCGTAGCCA
TTCGGGCTACGACCTACTGAGTTGTGGACTCGATTTGTAAGTTTTAATTT
TTCGTCGCCAATGCTCTGCGGAGGAAAAGGGCAACACGGTGGAATGCAGT
GGAATGTTTTCTGGCCGCCTGGAGACTCTCAGTATCCAGATGAGTAGAGA
GAAGATAGCCAGAAGATAGGGCAGGTACCACGAGGCAGTCTGCTCTGGCA
TACGTACTCTTGTCCGTTATTTTGAACGACATAAAGTCAACATTTTTCTT
CGTTGTTGTTTAGCTGTTGTTTTTGCTTTTTACACTGTCTTTTCGAATCT
AACGCCTTTTTTTAGCTACCTTTATTGAATCTGGAAACCAAGCGTTTTTT
CCGCAGTATTTTCGTCTATTCTAAAGGGAAATGAAAGGAAAATGCGCTAA
ATTTTCTGCCTCCGGCGGCGCCTCCAGCGGGGCCCCCTCACCAGCCGGGG
GGGTCCGGGAGGGCTCGCACAGGCGAACCTCCAGCGCCTTCGCGCGTCGG
CTCGCCTGTGCTCGCGGGGCTCGCTGCGCTCGCCGATGTTTACGCCGCTA
CATCGGGGAAAACATCGTTATATCGGCTTCGCCGAATACCGATGTAAATT
ATATCGTTTTTTCCTCCCGATGCACAGCTCTAAAAAAAAAACATTTGGGT
ATTATCTCGTTTCTGCTGCGAGGAGCTGGAGCAGCGGAATAGAGGAGATA
ACGCCAAAAATGATGTAAACCCAGAACGCGCGGGGCCCAATTTCACATAA
CGCGATGGAATGCATCGTGTCAGCGTGTGGGGATCGTAGACGGCCGCGTG
CTGTCTGTTGCACCGACTGGCGGGTATGACGGCTTGGTGCTGTCTGCTGC
GCTGCTGTTTTGTGTGGATTGGGCCTCGCTCTGTTCGGCTTGGTGCCTGT
TGCACCGCCGTGTACCGCAGTCGCAGTCTCTGTGAAGGAGTTCGCTGCCT
GGGAGGCTCATAGGCAAGCCTCCCAGGTTACCAAACTCCATGCATTCGTT
TCGTTTTCGCAAAAAAAAAGGTCCGAAATACTTTATTTTTGCGAAATCGA
AAACGAAGGAACGCCTCCCCGGAGGACGTGAAACGAAAACACGCCTCTTT
CGGTTTTTTTTCCCGACCAAGCTGAGCCCGATTTCGTTTTCGTTTTCGCT
ATTTCGTTTTTTTTGGCCTTCCGTTAATACGGGCTCTTACCTGGTGTATC
AGCGGTGACCTACCAACAGCAGTGAGCGCACAAAACAGAACGTACTGTAC
GTAGCACCCTGTTCGTTTTACTTCTCATTTTTGGTGCACGCAGAACTGCC
GCTCTTTGTGTCTGATGGTACACGCAGCACTGCTGCTGTCGGCGTCGATT
CGCGTTCATCACACGGTATTACGCAGCACACCATGAGTTTATCCAGCGTA
GTATTACGTGCCCCCAGTACATGAACGTTGTGCGCGGCAGTGCTGCAGCT
ACTAATTCCCGTTTCTTTTTCTCGACTCGGACCTGTGGAAACCCGCAGTG
GATTCGGGATATCGGTCTACGTTCCACGGCAAATATTATTTTGGCGCTTT
CATACGGAACACCTTAGCGACGCAAGAGCAGGGTGATACCATTCACTGCT
GATGTGCCATTCGTTCAGCTTCCGGTTGATTTCTCCACCCACTTGTCTGT
GCAGCCCACCAACCTCCTCACCAGCTGCAAACCAAACACTCAAGGCATAT
GCCAGCATTAACAGCGAAGGTCTCATGGGAACAAGCAGTTCATGTGATGG
GAACAAAGCACGGGCGTATCATCTGTGCACGCTCGGTCCTGAGAAAGAAA
TGGCACCACCGTTGTTGCATGCATGTCATACACGCACGCGTCGGTGAACA
CGAAATAAAAAGGGGCCAGTTAGCGACGAAGGCAGAGCGCTGCCGCGTGG
AGGACGTGATCTGGGAGCTGGAGATGCGAACGCCTATCGAGGAAACGGCC
ACGAGCGAGGCGCTGCTGGGGCGTTGGGCCCTGGTCTACGCGTCCGAGGA
TGCCACTCGATCCAGCCCTTTCTTTTGGGCGTTCAGGTTTGTGGTGTGTC
TTGGTGGTGATTTGTTGTGTTGTGTGCTACATGTACTTCGAAGTATATGA
TGTTTGGGTTGTGCCTAGCTCGGTTCTGTTCGGTGGCCGCTGTGCTCTGC
TTCGCTTTGCGTTGCTTCGCGGTGTTTTCTTGTGCTTCTGTGCTGTGGTG
TCATTCGGGCTCCTCGTGAGTGTGTGTGTTTGTGTGAAGTACATGCGTGT
GTGCTCGTACCATTGCGCAACTGCGACTGAGTGTTTTCAAGATTCTTCAA
GTTATCTCCTCCTTGGCTGCATGCCCGGCAGAGGAGCTTATTTCACTCCA
ATCACACTCCTCCACTCCGTGTGTGGGTTGTGCGTACCTTGTCGCGGGGA
AGCGTTGGACGCTCTTGGAGCGTCACAACAGACTTGTCTACTTTTTTGGG
TGACGTTGAAAGGTGACGTACAGTAAAAAACAAGACTTGTTTCTGTTTTT
CCTCTCCATACGCCGTGTTTGTGCGGGTGTGTGCACGCATGGATGCATCT
GTGTGTGTGTTGTGTGTTGTCTGCCCGGGTCCATGTGTGCACAGGTAACC
TTGTCCTCCATTCTTCTCGTCAAGTCTTTCGAATGCTTGCTTTAAACTTT
CGCGTTGTATCTGCACTACTTCGTGCAGAGAATAGAGAGTATCGCATCTC
TTAAACCATTCTGAAAACACATGTCGTACCAGGTCGTGTCGGGTGTATTT
ACCCCCCCCCCCGCTCGCTGCGTTCGCCGGGCGTTCGCTTTTTGTCATCA
TTGTTCGTTTATTTTCTATCGCAGGAAAGCGACGGAGGGTTTGAAGGTTC
CCTTCGGAGGCGTAGGCGGCGGTGGGCTGGACGGCTCGGTGGTGGCGTCG
ACTATTTTTGCTGTGACCGACAGCCTCCCCAGCAAGAGCGTGGGAGAGGC
GGTGCAAACGATCACTGAGAAAGAGATCAAGTCGGAGGTGGAGGTGAGAA
CAACGGGTTTGTACTTTCTTCTACACAGACAGGTGGACCGAGGTTTCCAA
AGAAGTCAAAGATCGAAGAGAGCAAGAGACCCGAAAACGTGAGGCCTGGC
CTGCATGTTGCACGGCTGGACGCGGCACCTACGTAACGTAGCGTGACGCA
GCGTATCGCCCCCTGGGCCAATCTTGAAGCTTGATTTCTCCGAACTATCA
TACCTGTAAAAACGAGCGCTACAGCCGTAAAACACCAGACGGCCCATTTT
AGTGCCAGTTTGTTTTTCTTCAATCTCCTGTCTTTTGCATTTTTCTGTTT
GCTGCGCAAAAACTGTCTACGAGATCTCTGCAATGCCACCCTGCTGTCGC
TTTATGCAGCTTTCTGGAGGTGACGTGGTGGAGATGTCTATCACAGCTTT
GAAGACTGGGCCGGTGTGGTAGGGGGGGGGGGGGGGGTGATGTATCTCGT
CAACTACGGTAATAGGCCAGTCAAGCAGCAGGCCCTCCCACAAGCAAGCT
ATATGCCCAAGAACACCAAGAAGAAACCGAAGCTTCATTTAACAATGAAA
AAAATGACATACGCTTCCTGTTACACGGTCAGCAAGTAAGTTACCCAGAC
AGGCAGCGTCCCAAAAGTGCAGCACAGGCCTTAAATGTATGTATCCAGAA
AGATGTAGTGCAAAGTTTTTTATAGGCCTTTTTTATATCGTGCGCAGATA
TTTTCAGGTTCCAAAAGGTGCAGCATAGGCCACCATACATTTGTATCCCG
ATACATGTAATATACGTTTTTTTGTATCGTGGTCAGATTTTTGCAGGTTC
CGAGAGGTGCAGCACAGGCCACTACTCCGGAGTATATATTTGTACCCCGA
TGCATGTACTATGCTCCGTAGTAACATTTTTTTATATCGTGCGCAGATTT
TTGCAGGGGCTAGCGCGGGATCGGACAAGAGGAGCGGGTCCGAGGGTCCG
AACACGTTTCCGTCTTTCCGCAGCGTGATGACAACGACGTCGGAGATTAC
GGATGCGAAGGGGAAGGGAATGAAGCTGAAGGTGGCCAAGACTCAGGTCG
GTGGTTGCTGTGGGCTCCTGTCGTGCTGTTGGTGGATGCTGCTGCTGGTG
GTATCGGTTTTGGTGTTGGCTTTTGATGTGGGGTATCATGCTGCTGCTGC
TGCTGCTGCTGCTGCTGCTGTTGCGTTCTCTTTTTTCTTGCGGTTGTCGT
TTTCTATCGTGGTGTTGCTGTTGCTGGATGTTTTCGGGTGTTGATGGTGC
TGTCGCTGTTGCTGTCCGTGCTGCTGTCACTGTGTCTGTTTTCTGTCTGG
CTTGTGTCTGTTTGTGTGTCTAGTATGTGTATTTTGCACTTGTGTCGGCT
GCTAGTCGTGTTCTACCGCTGCCGCCTGTGGTGATGGTGATGATGATGAT
GATGATGGTGATGGTGGTGGTGATCCTGCCTTCCGTTTCTGATTCGAGCA
CCCCCAAGAACAGGCAGCACTCTCACGGCATATAAACATCCCCTTTTTTC
CTCACGTTGTCGAGCATTTTTCTTGATTCAACTACAACTACAACTACAAC
TACAATTCCATCCACTCTTTTTTACCCACACGTACTATGCATCCAAGCAC
GGAGAACAGTCACTTTTTTTCGTTCTTCTGTGTGTGGTGCCCTGATCACA
CGACCGGTCGATTCCGATTTCAATCATCCGGTCCCAGGTGCGCAAGAGCG
CCCTCGGTCGATTACTAAAGCCGCTCTTCAACCTGGACGACATTGAGTTC
AAGACGGACAGCCTTCTCACTCCGCTCAAGGAGGGGTCCACGGAGGTGAA
AAAAAAAAAAAGGAACGGATTTCGTTCAATCTTGCCGTGCCGTCTGAGTA
GTCGTGATGTCTTGGCGCCGCACACCGCTCACGCACTGGAAACGATTTCA
GGGCTCATGAGTGCGTACCGCACGTGCTCCGGCACTACAACATAGCGCCG
TCGATCGTTGTGGTGACAGCTGCTGTGGTCGATGAGGTCTCTCCACCTCT
TGCCGTGGAGATGCGCTTTTCCCTACTAAATGCTGTAGAGATGCGCTCTT
CTTGTTGCTGTGCTGTGGAGATACCCTCTTCTCGCTGCTGCCGAGATATG
CTTTTCTTATTGCTGTGGAGATAACGCACTTCTGCGGAGATATGCTCTTC
TTGTTGCTGTGGAGATACGCACTTCTCTGCTGTGGAGATGCGCTCTCCTT
GTTGCTGTGGAAACGCGCCTTTCTCGTTGCTGTGGGAATGCGCTCTCCCT
CTCGCCGTGGAGATGCGCTCGTGTTGCCGTGGCGATAAAGAGATATGACA
TCGGTCCAGGGGAATCGCATGGCATATTCTGCACCTTGTTTAAGATCACG
TGTGTAACAAGGACAAGACAAGGACACATGCACAAGCAACCCCGACTTCA
TTCTGCGCCCCCTGTTTGCTATCATCGCATTGCTCGAACGCCCTCGAAAA
CAGACTTGCGCAAGAAGGTGCACCATGTGGTCCGTACCGGCCACTTTTTT
GTAGGAGACACAGCAGTGCAGGTACTGGTAAAATTGACCTTTCCATCCCT
CCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCACCCCCGCTCCCTGACTGT
GTGTTCGTGCGCGTGTACTGTGTGTCGTGCTGTTTCGAATCTGAAGGTGT
TGATGACGACAACGTACTTGGACGGTCTCCTCCGCGTGAGCCGCAACGAG
CAAGGCCAGGTGTTTGTGTTTGCCAGAGCGGATGACGGGGAGTTGCGATG
AGAGTCATCGGGCGTTTTTTGCGTCTTTTTTATTTTTTTCGTCTTACTTC
ATGGTTTCTGATCACGAAGGAAAGGCTCATGATAGCTTGGAGGTAAAAAA
AAAAAAGTCGTTCTTGGTTTCTGGCCTCTTTGTTTCTCATCGCGAGAAAG
GTGCAGGCAGACTCTCATCAATTGTTTGGTTCGCGTGGACGAAGCATACA
GTAGGGGAGCTGCCAAACCCTTGGCGGTTCGGTTTGGCAGGGCCGACGAC
GGGCTGAGACGCTATGATAGTCCAGGCGTTTTTGTGTAGGTTTAAAAAAA
GTTGGAGTTACAGTTACAGTTACAGTGTTGGTGGTATGATTTGTTTCTCC
TACTCACGTGTGCATATGAACCCTACATACCATTCATTATGACAGCAGCA
GTGGATGGACTCTCCTATGTTTTGTGGAGTGACAGAGTAGTCAGCTGTCT
TCGGCAGGGTGGGCGTTGGGAAATTGCGGTGATACTAATCGCGTTTTTTT
GGGTACCGTTTGACCGGATTTTTTTTGTGTATTTTGAAGCTGTAAAATGG
AGTTACATTATTTTTGAGACCTTTTGGTTTAGTTTGTGTTTGTTTACGGA
GAACGAGGCGGGCGGACGAAGGGGGAAGAGCTGCGACGAGAGCAAGATAA
GCATACTTAAATTTTGTATAGAGATTAGAGAGAGGGAAAGAGCGACGTTC
GCTTGCCGTGGTTAATTGCCTTGTTGGGGAACATGAGACTGGAAATGAGC
TGCGGCGGGGCAAGATATTAAAAGTTTCGCCATGATGTATGATATGCATA
TCATATCTAGGTAGATGACGAAAGCGCGAACAGATGCAGCACACGGCCGA
TTATATCGACGCCGACGACAATATGAAAACGAGAGGGTACCCCGAGCGTT
GTGTAAAATATTGAAAAGCAGTCCACGAGCGCAGCGAATTGTACCTTCGG
TGTCGAACTGCTTCGATTTCGTACCGACCAGGTCGCGATGTTGCAGGTGT
GAGTGTTTGTGCCAAGAAAGAAAAGACAAAAAAAGTGTCACAGGGTGCCC
TTGATTGATTTGCGGAGTGTCCGGCGCTTTGTCTGTG
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig117:352083..378769-

>mRNA_P-littoralis_Contig117.107.2 ID=mRNA_P-littoralis_Contig117.107.2|Name=mRNA_P-littoralis_Contig117.107.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1089bp|location=Sequence derived from alignment at P-littoralis_Contig117:352083..378769- (Pylaiella littoralis U1_48)
ATGAGAATCTCTATCCAGTGTGCCACAGTAGCGAGCTTGATAGCCCTCGG
ACTGTTGTCAGAATCTCAGACCTTCGCTTTGGCCTTTTGCAATGGAGGGA
GCGCGGCGGTCCTTCGCAGCAGCGCAAGGGCAGGAAACATGATGCCTTCA
AGTTGGTCCGGAAGGCACCGCAGCATGAGGACAGCACGAGTTGGCAGGCA
CCGAAAAGTGGCCTTGATGATGTCCGAGATGGAAGAGGACTATCCCTCTG
ATACAGGAGACGACCGATTTTCTGCTGGAGCTGGGGTGGCCGAGAGAGAA
CGGGTAGCCTTCGCCGACAAGGACACCCCCGAGGTTGCACAGCTCAAGCT
CGATCTGCTGCGCATCGCCGCCCTCACTGGCAGGGGCCAGTTAGCGACGA
AGGCAGAGCGCTGCCGCGTGGAGGACGTGATCTGGGAGCTGGAGATGCGA
ACGCCTATCGAGGAAACGGCCACGAGCGAGGCGCTGCTGGGGCGTTGGGC
CCTGGTCTACGCGTCCGAGGATGCCACTCGATCCAGCCCTTTCTTTTGGG
CGTTCAGGAAAGCGACGGAGGGTTTGAAGGTTCCCTTCGGAGGCGTAGGC
GGCGGTGGGCTGGACGGCTCGGTGGTGGCGTCGACTATTTTTGCTGTGAC
CGACAGCCTCCCCAGCAAGAGCGTGGGAGAGGCGGTGCAAACGATCACTG
AGAAAGAGATCAAGTCGGAGGTGGAGATTTTTGCAGGGGCTAGCGCGGGA
TCGGACAAGAGGAGCGGGTCCGAGGGTCCGAACACGTTTCCGTCTTTCCG
CAGCGTGATGACAACGACGTCGGAGATTACGGATGCGAAGGGGAAGGGAA
TGAAGCTGAAGGTGGCCAAGACTCAGGTGCGCAAGAGCGCCCTCGGTCGA
TTACTAAAGCCGCTCTTCAACCTGGACGACATTGAGTTCAAGACGGACAG
CCTTCTCACTCCGCTCAAGGAGGGGTCCACGGAGGTGTTGATGACGACAA
CGTACTTGGACGGTCTCCTCCGCGTGAGCCGCAACGAGCAAGGCCAGGTG
TTTGTGTTTGCCAGAGCGGATGACGGGGAGTTGCGATGA
back to top