mRNA_P-littoralis_Contig125.37.11 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig125.37.11
Unique NamemRNA_P-littoralis_Contig125.37.11
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: D8LCZ2_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LCZ2_ECTSI)

HSP 1 Score: 552 bits (1422), Expect = 2.740e-179
Identity = 294/422 (69.67%), Postives = 335/422 (79.38%), Query Frame = 1 
Query:  475 MADKKSLFAGRTGDKTSKQSTAANERRSGGAXXXXXXXXXXXXXXXXGSERRQPLPVGKGGIVKGVAATQQNRDVQVKEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPGDDEDDGPDLIPARETPSGTISDAEARVQALKEKYG 1740
            MADKKSLFAGRTGDKT+K S+A  ++RSG                    E + P   GK G  KGVAATQQ RDVQVKEA +YLKQANKMLTKT+TRWNPDFF AAPLFEKAGACYRAAGEDGKATAM++QAG+CQCHDSV+A+ASAA+DFREAALITERQG                            R +EA+A Y++CAEAW+H DEPGRAA+YFGRSAKLVKD+DEDAAAER++ ASKVMVP GSDSRS+FTRVVG+ EV+VQAI FLAS  RLE+S+EV+SRY+IIL+AEG+EHSLGRMYLTYC+LALALGD+VRAD AFR+ HLQST YLRSEECRVEEELL AFKD RPDLL + Q DRTL RLET IVR+AKSL VPGD++D+  D+IPARETPSGTI  A+AR QALKEKYG
Sbjct:    1 MADKKSLFAGRTGDKTAKLSSAP-KKRSGNVMPAASGS----------GEEKAPPSFGKSGFGKGVAATQQRRDVQVKEAEEYLKQANKMLTKTLTRWNPDFFSAAPLFEKAGACYRAAGEDGKATAMFMQAGDCQCHDSVMAHASAAKDFREAALITERQG----------------------------RREEAAAFYMRCAEAWMHADEPGRAAEYFGRSAKLVKDSDEDAAAERFVTASKVMVPNGSDSRSNFTRVVGSVEVLVQAIIFLASTNRLEQSMEVLSRYVIILEAEGMEHSLGRMYLTYCILALALGDYVRADMAFRNVHLQSTAYLRSEECRVEEELLIAFKDSRPDLLMEAQKDRTLHRLETAIVRIAKSLRVPGDEDDEDEDIIPARETPSGTIGAAQARAQALKEKYG 383
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A836CBL3_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CBL3_9STRA)

HSP 1 Score: 216 bits (550), Expect = 1.840e-56
Identity = 145/387 (37.47%), Postives = 205/387 (52.97%), Query Frame = 1 
Query:  712 ANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRND-EASALYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDS-RSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRV----------------------------------EEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPGDDE-------------DDGPDLIPARETPSGTISDAEARVQAL 1725
            A++    A K++TKT  +W  DFF AAPLFE+A A YRA G++  A   Y QAGECQ  D   A+  AARD+REAA +       L C                       R D +A  ++   A +W++G EPG+A +Y G++A++++  DED AAE Y  A+  M+P G +   +DF ++VGA E +  A+ FL  A RL++++ V+ RY I L++E   H+L R++LT  V+ LA GD+V ADAA+RD HLQ +EYLR+ EC+V                                  EE+LLTAFK+Y  DLL + Q  R L RL+   VRLA++L++ G  +               GP L        G +SDA AR+ AL
Sbjct:   79 ADEARAAAAKLITKTWKQWTCDFFAAAPLFERAAAAYRACGQEEAALMAYAQAGECQ--DENAAWPLAARDYREAAQLA------LTC-----------------------RADAKAVEMFKAAATSWMNGAEPGKAGEYLGKAAQVLEGIDEDRAAEEYKAAADAMIPEGVNPYTTDFIKIVGARETLDAALRFLLGARRLDDALHVLRRYCIFLESERATHTLHRLFLTEAVVLLARGDYVAADAAYRDAHLQDSEYLRAPECKVRHWRKLAAFEVGVVXXXXXXXXXXXXXXXXXXXXEEDLLTAFKNYDADLLAETQRSRALLRLDAPAVRLAQALTIDGMGDMTANVASAAAAAASKGPQL--------GNLSDARARIAAL 426
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A8K1CI65_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CI65_PYTOL)

HSP 1 Score: 107 bits (268), Expect = 8.510e-21
Identity = 93/322 (28.88%), Postives = 146/322 (45.34%), Query Frame = 1 
Query:  706 KEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQ------------CHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPG 1635
            KEA++++KQANK++ KTM RW PD+  AAPL EKA   YRAAG+  +A A Y QA   Q            C +         ++ R A    ++    L                         +N EA+  Y      +    E G+AAD   + A + +D       E Y+ A  +M   G   +  F     A ++  +  T+L      +ES+ ++ R + I       +++ + YLT  VL L LGD   AD  +  + LQS  +L S+EC + E+L+ AFK+   +LL++    +    L+  I +LA+ LS+ G
Sbjct:   10 KEADEHMKQANKLMEKTMFRWQPDYLAAAPLIEKAADAYRAAGDYERAKAAYAQAALVQNKSRSPFRAAQNCENGAKIVVQQIKETRAAGPQKDKYLAELK------------------------KNYEAACGY------YSDMGELGKAADALVKGAVVCEDNGVADVKELYLRACSLMEAQG---KPHF-----AVDIFKKTFTYLVKKELYKESLSLLKRQVAIYTEIDQRNNIHKCYLTEIVLLLTLGDVAAADQQYMAQ-LQSDSFLSSDECALTEDLVRAFKNGNEELLQETIRKQGFSFLDNQIGKLARKLSIYG 292
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A2D4CDE9_PYTIN (Gammasoluble NSF attachment protein putative n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4CDE9_PYTIN)

HSP 1 Score: 107 bits (267), Expect = 1.450e-20
Identity = 101/313 (32.27%), Postives = 152/313 (48.56%), Query Frame = 1 
Query:  706 KEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTD---EDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPG 1635
            KEA + +KQA K + KTM RW+PD+  AAP  EKA   +RAAG+  +A  ++ QA E Q  +   +   AA++    A I  +Q +           D     S     +     DE    Y      +    E G+AAD   + A   +D     ED     Y+ A  +M    + S+  F     A +V  + + FLA     +ES+ ++SR I I +      ++ + YL+  +L L LGD   AD A+   HLQS EYL+S+EC +EE+L+ AFK+   +LL++    +    L+  I RLA+ LSV G
Sbjct:   10 KEAEEQMKQAAKYMEKTMFRWHPDYLAAAPCLEKAADAFRAAGDLXRAKKVFSQAAEVQNKNK--SPXRAAQNXENCAKIVAQQIK-----------DSRASGSDKQRLV-----DELKRAYEAACGYYSDMGELGKAADALLKGAAACEDNGGALEDVKT-MYLRACSLME---AQSKPHF-----AVDVFRKTLGFLAKNALYKESLSLLSRQIAIFREIEQAANVHKCYLSETILWLTLGDVSAADQAYM-AHLQSDEYLKSDECALEEDLVRAFKNGNEELLQQTIRKQGFSFLDNQIGRLARKLSVYG 294
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A7S1U2H6_9STRA (Hypothetical protein (Fragment) n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U2H6_9STRA)

HSP 1 Score: 102 bits (255), Expect = 1.050e-19
Identity = 94/343 (27.41%), Postives = 156/343 (45.48%), Query Frame = 1 
Query:  634 PLPV---GKGGIVKGVAATQQNRDVQVKEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVHGDEPGR---AADYFGRSAKLVKDTDEDAAAERYIIASKVMVPT---GSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPG 1635
            P PV    +G +++        R  +  EA+   K+  K L  T+TRW PD F A   FE+A   Y+AA E  +A   Y+ A   Q +     + +A + F  AA +TE  G                              +EA+ LY + A   V  D  GR     +Y  ++A  +  T    A +    A +V VP+   G+D    +     A + +  A  F    G+L+E++ +  R+ ++      + +  +  L+  V+ LA   F  A + F ++HLQ ++YLRS++C VEE+LLT FK++ P+ L + +  R L+ L   +VR   +L++ G
Sbjct:   16 PAPVVTRKRGDVLRSSGLPPAQRAEKKAEADKEYKRGMKYLQTTLTRWKPDHFSAVTYFERAARFYKAADEHDEARNTYLTA--AQSYKESEDFGNAVKAFANAADLTEALG----------------------------NEEEAAKLYREAAFCAV--DSGGRFDHPEEYLMKAALAMAGTSISKAVDIAKEAVEVAVPSSALGADG-GGYQPTTKALDCIRNAYAFFCEYGKLDEAMALGPRFEVVCSWAQQDLTWRQFKLSCTVITLATAGFESAWSLF-EKHLQDSDYLRSDQCAVEEKLLTTFKNFDPEALEEAKRARQLQALNPFVVRSLATLTLEG 324
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BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A7S2SP16_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SP16_9STRA)

HSP 1 Score: 85.1 bits (209), Expect = 1.270e-13
Identity = 87/323 (26.93%), Postives = 142/323 (43.96%), Query Frame = 1 
Query:  703 VKEANDYLKQANKMLTKTMTR--WNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLS-----VPGDDEDD 1650
            +++A   +  A K++TK M    W PD++ AA   EKAG   +     G+A   +   G+    D   A A AA   R+AA    RQG V                            D A+A++ + +EA V       AAD    +AK     D + A E    A  +++P  +          G +EV  +++  L +AG + E +    R +++L+   +E  L + +LT  ++ L  G    A   F   HL +  YLR++EC+  E+L+TA +    D L++ Q    +  L   + R+A+SL+     V GD E+D
Sbjct:   38 LEDARKLMDGAKKLVTKPMFSLFWTPDYYNAAKECEKAGNRLKMNHVLGEAREAFQLCGKYYLQDGYPALAFAA--LRKAADAASRQGDV----------------------------DRAAAMFREASEAAVQVPSIQNAADMLMAAAKEYASRDMNKALECLEGACNLILPDPTHIAQIDLGPTG-HEVFQESVDMLIAAGMVTEVMSFFERLLLVLEKNEMEQKLFKAFLTETIILLHNGQSSGAYNRFM-AHLDNAAYLRTQECKAAEDLVTAMRRGNADALKEAQSINCITFLPGPVARIAQSLTIGSGGVGGDFEED 328
[Close]
BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A7S2CZT6_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2CZT6_9STRA)

HSP 1 Score: 82.0 bits (201), Expect = 1.800e-13
Identity = 56/196 (28.57%), Postives = 101/196 (51.53%), Query Frame = 1 
Query: 1066 LYLKCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDD--RTLRRLETVIVRLAKSLSVPGDDED 1647
            LY K A A+V   E  RA D     AK ++ T ++ AA    +++  ++     +  D T     +E+  + + +  S  R+  +++++ R I +L+   I + L + YLT+ +L L+ GD V+A+  F   HL  +EYLR+ +C+VEEEL+   K+   D   +      RT  + E +++  +  + V  D+ED
Sbjct:   12 LYRKMAAAFVEVGEISRAVDSLELGAKALQKTGDNEAATAEFLSACDLILDDEANIHDATLGPRDHEIFKRTVEWFISTDRIPAALDLMGRCIAVLRKNDITNDLHKAYLTHAILELSRGDTVKANELFM-RHLGDSEYLRTNQCKVEEELVLGLKNDDADSFERGLSGLKRTFLQHEVMVIAQSLKMDVLPDEED 206
[Close]
BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A024G2A8_9STRA (Uncharacterized protein n=1 Tax=Albugo candida TaxID=65357 RepID=A0A024G2A8_9STRA)

HSP 1 Score: 83.6 bits (205), Expect = 4.060e-13
Identity = 88/323 (27.24%), Postives = 139/323 (43.03%), Query Frame = 1 
Query:  706 KEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASA-----------LYLKCAEAWVHGDEPGRAADYFGRSAKLV--KDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPG 1635
            KEA++ +K A K LTK+M RW PD+  AAP  EKA   YR+A E   A   Y++A   Q  +           FR AA  TE   +V+   +                      N   S             Y   +  +V   E G+AAD   + A     K+   +     Y  A  ++   G   +  F     A E   + I +L   G L ++ ++V R + + Q      ++ + +L+Y +L LA GD   AD  +  + LQ   +L S+EC V E+L+ AFK    +LL+     +T+  ++  I +LA++L + G
Sbjct:    6 KEADEQIKLAEKHLTKSMFRWQPDYMLAAPCLEKAADAYRSAKEYDLAKRTYLRAASVQEKNK--------SSFR-AAQNTENAAKVIMQMLK--------------------ENPSISVESSRHVMEVKDCYEVVSNHFVEMGELGKAADALVKGASFCEEKNLSTEIIKNMYTNACSLLETQG---KPHF-----AIETFRKTIGYLVRIGELSDATKLVQRQVSLFQEIDQISNVYKCHLSYVILQLARGDVAAADTYYMAQ-LQDDGFLHSDECAVTEDLVRAFKLGNAELLQTTLKKQTIHFIDHQIGKLARTLKLYG 290
[Close]
BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: A0A7S2FT43_9STRA (Hypothetical protein n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2FT43_9STRA)

HSP 1 Score: 82.8 bits (203), Expect = 8.460e-13
Identity = 84/322 (26.09%), Postives = 137/322 (42.55%), Query Frame = 1 
Query:  709 EANDYLKQANKMLTKTMTR--WNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLKCAEAWVH--GDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALAL-GDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPGD---DEDD 1650
            +A     +A K++ K      W P+F  AA L++KA   Y+ AG   +A  M+V+A      +    +  A   + +AA +  + G                                A  LY +  E+++    D  GRA     + A+ ++    D AA  Y+ A   +V  GS +        G +E+  +A  +  S GR ++++++  R I  L+   +  SL + YL+  VL L L GD + A   F + HL   EYL ++EC+ EEEL+ A K      L +V++    R L   +  +     V  D   DEDD
Sbjct:   32 DAEGLKAEAEKLMVKPRFSVFWEPNFTKAAQLYDKAANKYQGAGFLKEAVDMFVEAAALDSREQY--HGKAQAHYAKAADLAAKDG----------------------------DPHRACQLYHQVFESYLELDADHLGRACAALIKGAQALQVAHPDEAAVEYMGACDQLVRPGSTADLQPIGATG-HEIYQEATEWYLSTGRYKDALDISDRLISCLKKNNVRASLAKTYLSVVVLQLHLSGDAIAAHQTFMN-HLSDGEYLMTQECKAEEELVIAMKSNDAKGLAEVKESSCFRFLNRAVKDMVSKFEVNDDELADEDD 321
[Close]
BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Match: F0WX97_9STRA (Gammasoluble NSF attachment protein putative n=1 Tax=Albugo laibachii Nc14 TaxID=890382 RepID=F0WX97_9STRA)

HSP 1 Score: 79.0 bits (193), Expect = 1.330e-11
Identity = 86/317 (27.13%), Postives = 143/317 (45.11%), Query Frame = 1 
Query:  706 KEANDYLKQANKMLTKTMTRWNPDFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARDFREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYLK-CAEA----WVHGDEPGRAADYFGRSAKLVKD--TDEDAAAERYIIASKVMVPTGSDSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEHSLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLTAFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPG 1635
            +EA + +K A K LTKTM RW PD+  AAP  EKA   YR+A E   A   +++A   Q  +         R    AA  TE   +V+   +        P +S                + +K C EA    +V   E G+AAD   + A   ++     +     YI A  ++   G   +  F     A E   + I +L     L E+ +++ R + + QA     ++ + +L+Y +L LA GD   AD  ++ + LQ   +L S+EC V ++L+ AF+    +LL      +T+  ++  I ++A++L + G
Sbjct:    6 REAEEQIKLAEKHLTKTMFRWQPDYMLAAPCLEKAADAYRSAKEYDLAKRTFLRAANVQEKN---------RSSFRAAQNTENAAKVVIQML-----KENPSTS---------VESNRHVMEVKDCYEAVSNHFVEMGELGKAADALVKGASFCEERKVSSEIIKIMYINACSLLETQG---KPHF-----AIETFRKTIGYLVRIEDLSEATKLLQRQVSLFQAIDQTANVYKCHLSYVILQLARGDVAAADTYYQTQ-LQDDGFLHSDECAVTDDLVRAFQLGNGELLETTLKKQTIHFIDHQIGKVARTLKLYG 290
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig125.37.11 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 24
Match NameE-valueIdentityDescription
D8LCZ2_ECTSI2.740e-17969.67Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A836CBL3_9STRA1.840e-5637.47Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A8K1CI65_PYTOL8.510e-2128.88Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
A0A2D4CDE9_PYTIN1.450e-2032.27Gammasoluble NSF attachment protein putative n=1 T... [more]
A0A7S1U2H6_9STRA1.050e-1927.41Hypothetical protein (Fragment) n=1 Tax=Phaeomonas... [more]
A0A7S2SP16_9STRA1.270e-1326.93Hypothetical protein n=1 Tax=Rhizochromulina marin... [more]
A0A7S2CZT6_9STRA1.800e-1328.57Hypothetical protein n=1 Tax=Dictyocha speculum Ta... [more]
A0A024G2A8_9STRA4.060e-1327.24Uncharacterized protein n=1 Tax=Albugo candida Tax... [more]
A0A7S2FT43_9STRA8.460e-1326.09Hypothetical protein n=1 Tax=Florenciella parvula ... [more]
F0WX97_9STRA1.330e-1127.13Gammasoluble NSF attachment protein putative n=1 T... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig125contigP-littoralis_Contig125:178083..201666 -
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.D8LCZ2
PFAMsSNAP
Model size3936
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons9
Evalue1.25e-188
EggNOG OGs2CYY4@1|root,2S769@2759|Eukaryota
Ec32 ortholog descriptionTetratricopeptide-like helical domain
Ec32 orthologEc-01_001620.2
Cds size1905
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig125.37.11prot_P-littoralis_Contig125.37.11Pylaiella littoralis U1_48polypeptideP-littoralis_Contig125 179640..201192 -


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

Feature NameUnique NameSpeciesTypePosition
1680789547.156779-UTR-P-littoralis_Contig125:178082..1796391680789547.156779-UTR-P-littoralis_Contig125:178082..179639Pylaiella littoralis U1_48UTRP-littoralis_Contig125 178083..179639 -
1680789547.2768772-UTR-P-littoralis_Contig125:201192..2016661680789547.2768772-UTR-P-littoralis_Contig125:201192..201666Pylaiella littoralis U1_48UTRP-littoralis_Contig125 201193..201666 -


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

Feature NameUnique NameSpeciesTypePosition
1680789547.1759233-CDS-P-littoralis_Contig125:179639..1803611680789547.1759233-CDS-P-littoralis_Contig125:179639..180361Pylaiella littoralis U1_48CDSP-littoralis_Contig125 179640..180361 -
1680789547.1863585-CDS-P-littoralis_Contig125:181353..1815321680789547.1863585-CDS-P-littoralis_Contig125:181353..181532Pylaiella littoralis U1_48CDSP-littoralis_Contig125 181354..181532 -
1680789547.198517-CDS-P-littoralis_Contig125:181836..1819881680789547.198517-CDS-P-littoralis_Contig125:181836..181988Pylaiella littoralis U1_48CDSP-littoralis_Contig125 181837..181988 -
1680789547.213418-CDS-P-littoralis_Contig125:185468..1855911680789547.213418-CDS-P-littoralis_Contig125:185468..185591Pylaiella littoralis U1_48CDSP-littoralis_Contig125 185469..185591 -
1680789547.222441-CDS-P-littoralis_Contig125:186977..1872181680789547.222441-CDS-P-littoralis_Contig125:186977..187218Pylaiella littoralis U1_48CDSP-littoralis_Contig125 186978..187218 -
1680789547.2307668-CDS-P-littoralis_Contig125:188228..1883831680789547.2307668-CDS-P-littoralis_Contig125:188228..188383Pylaiella littoralis U1_48CDSP-littoralis_Contig125 188229..188383 -
1680789547.2390974-CDS-P-littoralis_Contig125:190523..1906281680789547.2390974-CDS-P-littoralis_Contig125:190523..190628Pylaiella littoralis U1_48CDSP-littoralis_Contig125 190524..190628 -
1680789547.24806-CDS-P-littoralis_Contig125:199202..1992871680789547.24806-CDS-P-littoralis_Contig125:199202..199287Pylaiella littoralis U1_48CDSP-littoralis_Contig125 199203..199287 -
1680789547.264937-CDS-P-littoralis_Contig125:201049..2011921680789547.264937-CDS-P-littoralis_Contig125:201049..201192Pylaiella littoralis U1_48CDSP-littoralis_Contig125 201050..201192 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig125.37.11

>prot_P-littoralis_Contig125.37.11 ID=prot_P-littoralis_Contig125.37.11|Name=mRNA_P-littoralis_Contig125.37.11|organism=Pylaiella littoralis U1_48|type=polypeptide|length=635bp
MADKKSLFAGRTGDKTSKQSTAANERRSGGAAAGASARREVAAAAGSGSE
RRQPLPVGKGGIVKGVAATQQNRDVQVKEANDYLKQANKMLTKTMTRWNP
DFFGAAPLFEKAGACYRAAGEDGKATAMYVQAGECQCHDSVLAYASAARD
FREAALITERQGRVLFCFVVFVFFDCFPFSSFLFLYIYFFRNDEASALYL
KCAEAWVHGDEPGRAADYFGRSAKLVKDTDEDAAAERYIIASKVMVPTGS
DSRSDFTRVVGANEVMVQAITFLASAGRLEESIEVVSRYIIILQAEGIEH
SLGRMYLTYCVLALALGDFVRADAAFRDEHLQSTEYLRSEECRVEEELLT
AFKDYRPDLLRKVQDDRTLRRLETVIVRLAKSLSVPGDDEDDGPDLIPAR
ETPSGTISDAEARVQALKEKYGGGGGGGAPAVTAEEASARSPLPPTRPIP
TAIATTPSSCPPTPPPRNPKSTSEERSPTTSVNQRRPRAAAAGTVTPSSS
SSSPSPSPPQASDDPDRNALFSAPRKAKAAAPPPATSAANTAGSSSAAAA
AAASTPVGKFPEESSVGGAGDAEVDLGLGDLEASLGVGESAGFGGDDDDD
LEAMIEAARKEAEALALGGEGEAEESDEDDIDLT*
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mRNA from alignment at P-littoralis_Contig125:178083..201666-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig125.37.11 ID=mRNA_P-littoralis_Contig125.37.11|Name=mRNA_P-littoralis_Contig125.37.11|organism=Pylaiella littoralis U1_48|type=mRNA|length=23584bp|location=Sequence derived from alignment at P-littoralis_Contig125:178083..201666- (Pylaiella littoralis U1_48)
GGGATAGATCGCGTCTGTCCCCGTTTACTAATCGCGCCGCACCTCGAATA
TCGAATCCCGAAAGGAAAGGAGACCAGACCAGTCAGCACAATCGATACAG
TACCCAGAGTCTGGAGACACACACAATACACAACAGCAAGGACGTGCTGC
TGTCAATGTGGCACCCACAGAAGGAACGCAGGAAAACAGGGAAGAATCTG
CGCACCCTCCTTGTTTGGAAATCTTGCTGAACGACTCGTCTCTATCTCTC
TCTGCCTGAGGCGGCGCATCATCAAGGTCCTTGAAGACAGCGACGGAGGG
GAGGTGATTCCGTCTCTGTTGTGCTCTCCGCCGTTCTCTGGCGGCACTCG
GCAAGAGAGAGAGGAGTGCAACAAGCAGAGAGATAGATAGGGGGAGAGGG
AGGCTTCGACAGGGAGCAGAGAACATCGTCTACCGGCCGAAGATATCGAA
CAGAAGAGACACGCGGGCAAGAAGATGGCGGATAAGAAGTCGCTCTTTGC
GGGCAGGACCGGCGACAAGACCTCCAAGCAGTCCACTGCTGCTAACGAGA
GACGGAGCGGTGGCGCAGCAGCAGGAGCGTCCGCGAGGCGCGAGGTCGCA
GCAGCTGCAGGCTCTGGGTAAGCAGCGAAGCAGCTAGCCGGCGTTTGAAT
GACATGTCACGACCGCGCCGTCATCACTGCAAAAGATACGCAACACAGCC
ACGCTACATACTAGTGCTGTGGGGTTGACGAGGGGAACGTTCAAAACCAT
TCTTTCGAAGTATAATCACATGTGACACGCATGATATTATGTGAGATATG
TTCATTTTGTTCAAGTACATGAACGGTCGAGTAACACACCATCTGATCCT
CGTCCGGAGCAGAGAAGCAGCACCTGCACAGACAGCAGTACCAGCACTTC
GTTGTACGACACATTCGATCGAGGAGGTATATGATAAGATGCGGTTCGCG
CAGGACAAATCTTCGAATTGAATTCTGCCGTTGCCGCTCCTCCTGGTGCT
GTAAGTCCTTGACGAATTCGAGGGCATATCATCATATACTTATACTTCGA
AGCATGCGGTATGTACCGGCAACGACGACGTCGCCCGCAGGACGAGGACA
CCGGGCACCGGCTTATTTTGATGCACATTCATGCACATTCTCTCACGCGA
GAACAACTACTAAATGCAACTTCAAGTCGTTTGGGTGCCGCGGAAAAATT
AAATATTCCAAGCCTGCTGGACGATACAAATCTGCATTTGTTCGAGGTAT
CATACCGAGACAAAATCATAAAATGCCGACTTCGAAAGTGTGTCACACAA
GACGACTACCATTGTCTTGTTGAGCCTGATAACCTCAGGGGAGCTGCAAC
GGTATGCCATCTGCTGAGTTGTAGAAACACAAGTAGATGTATTTACTTAC
TCTGCGTTCGTTGCTAATCTTGCTGGATCCTCGTGTAGGGAGAGGCGAAC
ACACTGATGTCTTGGTAAGAAAAAAAAAAAAGTATCAACTACCTTAACCT
TCGTGTTGAATGAATACGGTATGAAACTAAAAACTAAAAATCATTTCGTA
CGAACACCGACGAAATGAGAGCACACCGATATTTACGTATCTAGACCGTA
CATCACCACGTAATGTATCGTGTGTCACACAAGATGACTCCCAAATTGTC
TTGTTGAGCCTGATACCCTCAGGGGAGCTGCAACGATAGGTCATCTGTTG
AGTTATAGAAACACAAGTAGATGTACAGCAGTATAACTCTCGGTGTTCGT
TGCTAAATCTCGCTGGATCCCCGTCTCGAGAGAGGCGAACACATTGATTG
ATGTCTTTGTGAAAGAAACAAAAATCATTAAACATTTCTTTGGAATCTTG
AGAGGAATCAATCGTTTTGCCGCCCTCGCCGCCCTCATGAAAAAATGTAT
CGATATGATAACTTATCCTTCTGGTCGAGGACCATGTGTCCTCAGGTATG
CACATACTTCAAAGACACCAGTATACCGTAGACATGCTGTGTGCCCGAAG
CGGCAGCATAACCGGTATGGATCGTACGATCTCTTGCCGTAGGTTAAAAG
TGTGGCATACGTCGCTGGTGTTGTTCCCTCCCTGCACTCAGCATTTTTCA
GTTGCATTTTTCATGGTGATCACACCCGAGTTTTACGCAACAGCAGTACA
GAGAGGAATGCCCCGAAACACGCGGTTCGTGTTGGTTGATGCCGGCAACG
GACCATCGAGACCACCTCCATTCTACGCCTACAAAGCCATGATACAGCAG
GGCACGCAGGCCCGACCAAAAGATTCGATTTGATTTCGTGCCATGCAAAG
CAGCAGGAGGAGCCGTTAAATATCATAACTACCTACGTACCTGAACCTCA
CGACATGTTTTCCTGTTTTCGTTGCGCAGCAGCGAGAGGAGGCAGCCTCT
ACCGGTCGGAAAGGGCGGTATCGTCAAGGGGGTTGCAGCCACGCAGCAAA
ACCGCGACGTCCAGGTGAAGCAAATGAAACGAATCTTAAATCTTGCCATA
CGTGCGTGGTGTTGGGCGGCACAGCCAGCTGAACCAGGCAAATGAATTGC
TAAACAGCAAACAGAATATTACATCACTGCTGTGTAGGCACTGCGAGAAC
CTAGAAAATTTCAGTAGTGACGTCTCTGTCCGACTCTGTTCAACTTTGGA
TTCTCCTTCTTTTTATGTATGAGACAGGGAGAGAGAGAGAGAGAGGGAGA
GAGAGGGAGAGAGAGGGAGAGAGAAGGTGCAACATCCTACGGACAGGATA
TTTCGAGTTTGAACACGACACCAGTATGTAGTCAACGTCGCATCCGATCC
GAGGTCACGCACAGCAGGGATCACCTGTCCCTGAACCCTATTCGCAGTAA
CCCAACCTCCCCCAACCACCGATTTTCTGAAAAACTGGTTTATAAAACGT
CCGAGAGGAATCGAGGACCCACCCATTATTATATTGATCTCTCTCGTCCT
ATCTTGTACTTCGAGGTATGATATATGCGGAGGAGATACATAATATCTGA
TAGCGTGTTACAGCAGGATCATGCTGTTATCCATTCTGTTTGATATGTGT
GAAATCAATCAATCGCGTGCCTGCTCTTTGCTCTTCTTACCTCCCCTGCA
GCTATAGGCTCTTTTTAACACACGCTTTCGAACGAAGTACAGCAGTACAT
GCAGCGATCTTCTGCCAGAGAGGGCAAGGGTTGCACACAGTCAGTCTCAT
CTCATATATACCATACTCGTGAATACTGCAAGACCACCTTCTATTACACC
ACGATACGGACGGCACAGCAGTACAGTAGCAATACGTGAGCATTCAAAAA
GCACTTGGGTCTCTGCTCTCACAGTCTGGGCCGCTTTTCGTCTTAAGTTT
TATTCTGCTGGTTGTTGGTTTGACAAAAAGTTTCGGTGTGATGCATGGAG
CTGGACGCACGAGCAATGAGCAGGTCGGTCCTGATCTATGTGAGAACCTA
ACGATACTCCCGTACGCGTAGTACTGCGGTGCTGCTGTACCGTTGGAAAT
GCCTTTACGCACTCTTTTTTCTTTTTCATATTATACAGAATGCTCTAGGA
GACCAGGAGGACACAAAGCATACATACGTGCTCTGCTACCTCTCGCTGCT
GTCCCTGCGCTAGTCGAGGGTCCGCAGGTTTTTCCCCCAACCCGTTGGAA
GTTGAGTTGTGGGGCCACACAAGTTGAATCATGTCATTTTGTTTTGTGTC
GTGTTTTATGTTATGATGGTCTAAGATATGATGTGGATATGCAAAGAGAG
GCGGACACATTGGTGTCTTCGTCTTCGCAAGAAACGAGAGAGAGAGAGAG
AGAGAGAGAGACAGAGAGACAGAGAGACAGAGAACCGTTTTCCGTCTTAC
CCGCTCTTCCGTTATCTTATCCTAGTGTAAATATATATATATATAATTTC
GAATCATATCTCAAACAGCCCTAGTTGGTTGGTCGCGTGCAACAAGAGAG
CTGCCGCCGATATCATACCGCTGAGCGACAAGAGGCAACCGAGGAGATCT
GCATAGATATGCCCAGCGAAGCCAGCCGGCATCAGAGCTACAAAACCCCA
TCCATCACCGGAAACACGATGAAGAGGTCGCGGTCGATACGAGGAAAAGG
AAGCGGCAGCATCCCCGTCAAACCAACATCTGCGCTGGTGAAATAAACAT
TAATTGACGACGTTCTCGAAGTGAATGACGCTTTTCGAAGTATAATGCTG
TATGATATGTATGTGTACGGACTTCGAATTTGAAGAATATTGAATATTTC
GTTTCCGACCCTGTGGGAATAATAAGCGAAGCTTGTTCGTTGCTGTCTTC
TGTCATCAAGATACTTTACGCACGGACGGTGCCAGGTCTTGTTGCTGTTC
TTGTTTTTGATGATAAATGATGCTCACATCGGCTCACCGCCAACCTTGCG
CCCCGCGGTCGCAATCCAGGCGCACGCCGTGGAAGGATGAACGATGGCAA
ACAGGGAATGTGAAGTAGAGAAGATGCTGTGATCACATCGTGCAAGATGC
ACAAGACAGAAAATAACAAGGGTGCTGTGTCAACAGTAGTCCAGTGACCG
CCTAAGAACGATATATTATATATTTACCGGTATGCATATGCATTGATACT
TGCATATGTAATCGTTGATACATGTGCTACCGGTTTGTCCAGGGATACGT
AGCTTTTTATTTACTTCGTAGTGATTTTCGATTGCCATCATATCATATGA
TGATATGATACGAGCATCATACCTGCGGGTGCTTGCTTCTCCTCCGATCG
GAATATCTGTCGGGGCATTATCAAGCGGGATCGATATAATACCGGCCTTA
GATGAGGCACCGCCCTTGCATAGATAGGGCACCGCCGTTGGATTGGGCAC
CGCCCGTTGTGACTCTGTTTTCCGCTCGGTGACAGACACGTGCGTATGAT
GCCATGATCATCTTAGCATGTTTATCTGCGTGCATCATACGGACCATTTC
GACGTCTCATGATTTGTAGGTATGATACGATACAAGCATCGTATTATATG
AGTTGTATACTATGATATGTAGCTCAGATCAGATCAACAGCAGTACCGGT
ATGTAGCGAAGGGAGTTAGTTGTTCACCCGCATTTCACCCACAATACCAA
CGTTTCCTGCCCCGTTCATCTTCTCGTAATACTCTGGACTGCTCTCCGAG
AAAAAGCAAAAGAACATCGAAGAAAAAAACACCCACCACCTCGTCAGCGA
TGGCACTCAGAAGCGGGGCGTGCTTACTTCTGTCATGAAGACGCGGTCTT
TTTGTTGTTGTCGCACCCGAAGGTAACTGACTGTGCGGCAGCCATTTTTT
CCTCCCCCGTGCACCCTCGCGGGCGCTCAGTTTTTGTCAACCACCCCGAA
GTCAGGTTCTTATTTGTTGTAGGCTTTTGACAATCCGGCAGAGCAGCCTC
GTGAAAAAACTAGAAATCGTAAGTGCAAAAAATATATATACTCCCGAGTA
TATATATCCACCCTGTCTAAAAGCTCGCTCGCTCGCTCCTCGTTCTGTGC
GTATTCATAATACGATGATGTGGTTATGAGATGCAGTAGTACGTATGAGA
GCAGTGAGTGTTGTTGTTGTACTGCTGTATATAGGACCTTGATGTTTTGG
GCACGTGCGTCTGTATGTACAGCAGCATGGGTTGTTGTTGTTGTTGGTGG
TGTTGGTGTTGATTCTCACGTTAGCTCACTACCACCACCGCAGTCTAGCC
CGTGGTCACAAACTAGGCACATTCCGTGCTAGGAGGAAAATAAAAGACGG
CGGAAATAAACTATGGTCACCCAATCATAATCAGATACTGTAGGGTACCG
TTGGGGTACCATCTGTGGAGGCCAAAATGGTGGTGGGTGGTTGGTGGGGG
GGGGGGGATGAGTGGGTCGGAGAGTGAGCGGGTGTTCAATAATTTTGTTT
CGGCAGGAACCAGGATCATTCGCATCATCTTCTGCATGTTTGCCACCACA
GCACCACAGCAGAGGTGTGATCCGTGCGGCCTTAATCTACAGTGTTTTGC
CAACGAGCAGCATGGTGATACTGTGTGCATCGATCACTGATGTTGATGCG
TTGCACCGCACGGGATAACAAAAATTGTCAAATGTGAGAGACAAAATCCA
CATAAAAACCTTTTTACCCCCCCCCCCTCTGTGAAAAATCAGGGTAGGAT
TTGTTTTAGACAAAAGCTCTATAAAAGCAAGTGTGAGCGCGTCGGCATTC
TTTCGGCGACGCGTTCGCTTGCTTATAGAATGCGCTTTGAAATTTAGCGA
GGTAAAAGCTAAGATATTGGGAGTATCATATCGTGATATTCCAAGTGACG
AATGAAAAAATGGCGACCCAAAATGGCGACATTTGGCTGCCTAGGGGTAA
AAGAGGGCTGACCGTTGTTACATCCACCTCAGGCGGGACTCGGCGCTCTG
CGGAATGTGTTGAGCTCTTTACAGAGAGGGCTTGGAGTGTCAAGTCAATC
TCGAGACGGTCCGTTGTACTTTGTAGGAGAGGGGCTCGGGTTCCAAATGA
AAAAAAAAAATAGATGCGGCCGGAGAGAACGCAAGCACCTTTATTTTTCG
ACTTTTTCATCCATGGGCGGGGGGGGTGCCTACCTTGAACATCATGGATT
ACCCAAATCAACACAAGTAACGCCAAGGACTGCATACAGCGCACATATAG
TAGGCTGTGAATACTCACCGCATGATTGTAACGTGCGTCACACAAGACGA
CCACGAAGAAGGTAGTCTTGTTGAGCCTGAGAACCTCAGGAGAGTTGCGA
CGGTACATTATACGATGCGTCATAGAAACACAGGTAGATATGTCATTTTT
TTTGTGTTCGCTGTTAGTCTACTCCAGATCCTCGTTTGGGGAGAGACGGA
CACACTGATGTGTTCGCAAGAAAATAAAACAAACAATGATGATGCCGGCC
GGAACGTAAGCACACCTGGCGACTTCGTCATCCACGGGGGGTGTGTGCGT
TTGTTGCGTTCATTTCTCGCCCGCCAACGACTTGTCTGGCCTATCTTTAA
TGGAACTTCACGCAACCCTGACAATAAGAAAAATGCTCGTGTGTGTTGAC
CTTCCTCCTGCTGTGCGACCCCGGCTGGTGTGCCCAGCTCATACCGCAAC
ACACAAGGCACACACTGGCGTCCGGAATGAGTGACATCGACAACATACAT
ACACGCACGCACACGACCCTCCGGTAAAAGCGGTTCACGACGCCGTTTTT
TTCAGCAGATGCGCAGAGAGCAGGGCATTTGTTTTGCACCATTTGAGTAC
TGCTTGTATGGGTTTTTGAAGACGATCTCTTTTGATGTGGTGGGGTCCAT
TGTCACTTGGAAAGACTCTGTCCTTAGATGTGTTGTTTCGTGGAGAGCGG
TCAGAGTGCACGTGAAGGTTGCTGCAAGGTGCTGTCCTCAACACCAACGA
GGACAGAAGGTGGAAAAGAAATGCGGTGTATGCTCGAGCTTTGATTGCTG
GCACAACAGCACTTGCTGCGGCTTTCTGTGTGTCACGTGCTGGCTCGGTG
CTCTCATCGAAGAAGAATGAATGATCACGTTGAAATAAAGCACATCCAAA
GAAAGCAAGCACAGAATTGCTGCTTACCGTTCTAGCTGCTGAAACACAGC
ACACAGCCGTATGCAGCAGCAGCAGGGTGGTAAATAGTTGTGCTAGTAGG
TGGCAGTAGTAGCTGTGTAGTATATAAAAGTCGTCGTAGTCGTAGCAGTG
TGATTTGCGGGGGGGGGGGGTCGTGACGGCACATCCAATCCCTTCCATGC
GTGAGAGAGGTTCAACTCCATTCATTGCGAAAGAGGCCAACGTTGCTGCT
CGCTGCTCTCGCGCGGGAGTAAACTCTTATTTCTCGACCAGTGTGTTAGG
AGAACCAGGTTTATTTTGATTCACCCTTGCGTCACTCCTTAAAGCCTCTC
ACTGCAAAGAAAATAAAAAAAAGTGCCCCTCTGAAAAATCGCCCTCACCG
TTGCTCCTGCAAACCGCAGGATATGATATATCGTAGATGTACTCCGTATT
TCTACGTAGCGTCTAACAGGTTCGTTGTTGGACCAGCATGATGCCACCGA
AAACGTGTTTCGATATTCCCCTGGACGAGTACTCGCTGTGACATGACAGG
TCGCCGTTCACTCTTCTCCATGATACAAGCAAGGGCATCAGTTCGCTCGT
CCCGCCCGAGGCGGATTTATATTGCAACCAAGTGCGTGTGTACTGCTGTA
TGGCCTTCGCCGTGCGTGGTGGCACAAAAAACCGTACGTACGTACCAGAC
GAAGAGTACGGACAGCATTGTAACAGTACGGATAGCATTGTGATATTGTT
TGGAAGCGCGGAAGGTTTTTTTTTCTTGTTTTTTCGTTTTTTCCTTGGAC
GTCAAATCCGGGCTGCGCGGCGAAAGCCGCCCTTGGGTAGGGTCGTCTGT
CTCCGTCAAGGTTGGGGTGGGTCGATAACCCAAGCCCCTCCGTTTGTCTG
CGAAATAGGCGTATCGTCTACTGCTGTACATGGCAACTACGCTGGTTGAT
GATGATGGAACTCCTTCCTGCGTTTTTTTCAGTAGCGTGGTCGAACAGAG
AGAGAGACACAGAGAGAGAAAGAGATTTAGATAGTCCGGCTGTATATTAC
CTGTTGTACACAGAATAGTGTGCCTTTTTTGTTTTCGGTGGAACTCCCTC
CTGCGTTTTTTTCAGCAGCGTGGTCGGAGATGTACAAATATTTACAGAGA
GTGAGTGCGGTTATTTTCTGGACGCTGCGCTTGCTTTCTAGATGATACGT
AGTCCAAGGAAAAGAAAGTGTGGCATGGTGCTTGCCCTCTGTCGAATTTT
TGCCCCATCTTTTTTTTTCTCATCGCCGACAGTCTGATGATGGGTTCATG
TTACCCCCCGCTCCGGGACAGCGAAACAGTTGTATCTGGTATCGTGTTTT
ATACGGAGTACTTCGTATCTTTTTTTGCCCGGTACCTGTGTGTGTTACCG
CGGGTCCTTGCTCCCGCACAAAGACAACAAGAGGTACAGTACAGCAACAG
CGGTAGTGAAGAGGTGCAACAGCAGCCGCAACAAAGAGGTACGTACAACA
GCAGCGGCAAAAAGGGGTATTACACAACAGCAGCAGTTACCTTTTTTTCC
GTCCAGCGCTCTACCAGCATGTACTACCGGCCTTTCGTGCAGGAGGCACG
CCCGATAGCAGTACAGTAGCGAAACTCTTTGGAGCAAAGAGGAAGAAGAC
TTCAAGGAAGAGAGAGCAAAGAGAGCCATGATATTGGGCTCGTGGTGATG
CTCGCAGCAAGCAGTGTCTTCCCACGTTGTCACGTCAACAGATTTGTAGC
CATTAGCCAACGGGCTGGTTGGTTGATGTGACGTAGGTAAATGCAAGTGC
ATGAAATAATGTTTTGTGCTTGTCTGCAGTCTACTCTAGGTCCTTCGCAG
ACCTAGCGAGAGACGACAAACACACACACTGATTTGTGTGTGAGGAAAAC
AAAAGGGCATGATACGAGGAAGGATTTTTTGTCATGTTTTTGTCCCGAAG
GTTTGACGTCCGTCTGCATCCCATCCTAGGTGGTGTTGTTGAGTTCGTTG
AGCGCCTTTGGCGTAGAGCTGCTTCCTGTCGCAGTGTTGCAATTGCACGA
CTTTTTTGTAAATCACAACAACCACAGCAGTCGTGACGGTCTTGGAACAA
CAAACAGTACGCGCTGGCAGTGCTTCCTGTGGAATTGCTGCATTTGCAAG
ATTTGTCGGAAGTTACAGTCGTCACATGAACGTTGAACAAGAAGAGTAGG
TACTGGCTGGAACGTTTGTTTGCGCCTTGCCCTTTCGGCAATAGAAACAA
CTTTGAGTGCCTGGTGGGATGTGTTGTCAGCATCTTTCTCCAGTCGAGCT
GGGACTCCTTGGTTTCTTTATTTGTGACACACATAATTTCGTCTCCCTCT
TGTCGTTTTGTGCCGGCACGTGGTAGTTGTCGCGGAGATATCTGTATTAC
TGCTTCGTAGAGGTATGGTGAAACCATTATTTTTTAAAAAGGGAACGCAA
CGACATCAGCAACCGACGCAAAAAAACACCAGTTTGGAGTTTTAACTTTG
ATGAGGTTTTCCACCTAATCTTGTGTCGACCAGGCTCTTGACGTTGCAGT
GTCCTTCAACTGAAGTGCGTTGACCGCACTACGTATTTATGAACGTGATT
TCGTGATTTCGGTTCCTTGGTAATTTCTGCATTTTGATTTCCACTGTTTG
ATTTTCGAGTGCTCCGAGTGCAGTCAGTATCTTTGAATTGCTTGGGCCGC
ACACAGCAGTAGCAGTACTACCGTCGGTTGTCGAGAATTCATTTCGGACC
AGAGAGTTGCTTCTAACGTGACGTTTCTGTAGATTTTCCGGAACCGCGCA
CCTTTGGCTTGAATATTTGCGTCTTATCCTCTCGACCGTACTCCGCTCAC
CTTTTTCAACATCTGGTTCACTCAACCACAGCAGTAATTGTGTTGCACCC
ACGTGACGCCGCTCTATCTCTATCTCTTTCTATGATACAAATCACGCGAG
TACTATATTCGAAGTAAATACACATATTCTCTCTTTCTCTCCCCCTCTCT
CTTTCAATCTATCCCCCTCTTCTTTTTTCGCTATGAGTGTTTAAGTCACA
TTTTTTTTTTTTTTCAATCAAAGTATCAGTATTGTTTTCTTCGTACATAC
GATATGCATATTTTATTTCATGTCACATTTTTTTTTTCTAAGTTCGAATC
CCAGTGCAGTAACACGATCTGGGGCTTTTTCTCACATTCCGCGTGAAAGT
GGAAAGCGATCAATTCGTGAGTAGACAAAATTCGATCGTACCATCGACGA
GGGAAAGGGATGGCTGTCCCCTTTCTCGCGATAAAAGCTCAACCAAAAAG
GCAAGCACCGCAGAGGGAAGTGGAGAAAAAAAAAAAAAAAACTCCTGTGT
TGACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCTACCTACCCGAAAGGT
GCAGAGTGGCGTCCAATGAAAGGGATGACAACACACACACATTGTAGCAT
AATGTTGTTCTCTTCCGCGCTATCCTACGTTGCGACAGGTCAAGGAGGCC
AACGACTACCTGAAGCAGGCCAACAAGATGCTGACCAAGACCATGACGCG
TTGGAACCCTGACTTCTTCGGCGCAGCCCCTCTCTTCGAGAAGGTGCGTC
CGATGACACCCGGAGAAATACGCATCCGTGATGAACTATTCTACCATACT
TCGCACGTTTTTTTTTTTCTTCTCACGGAGACATTAATGTGTTCGCCTCT
CGCTAGTCTCTAAACGAGTGTTTCGAGCAATATTTTACGTCTACTTGAAT
TGATTGTGTTTCTTCAGATCACCAGATGACATACCGTTGCAGCTCCCCTG
AGGGTGTCGGGCTCAGCGAGACAGTTTCGGGAGTCGTCTTGTGTGACAGG
AGGTACATAATGTGGTGAGCATGTACGGTCTGCATGTTTGCCGTCGGTTC
GTCTGTATCGTTCGTGTTGCCGCAAGTGAATTGATTCTTAGTTTACTAAT
GTATTATTACAATAATAGTGGCCGATTATGGAGGTGCCTTTTATCCCGGA
TGTATCACAAGATATATTCTACGTATGTACGATGCTACGTTCGGTGTGAG
CTTTTACTCAGCTCTTGTTTCAACGTTTTGAAAGAATGTACTGATATCAT
ATCATGCGTTTACTTTTATTTCTGAGCAGCACATTGATGTGTTTGCCTCT
GTCAAGACGAGGATCCGGAGCGCAGATCATGTACAGTAGAAACTAATGTT
TTGGAATATTTGTGTGATGGTGCAGAGAAGTTGTTACTTCGAAGTACGTC
GCACTATTCATGTTCCGGTGAACACTACATGTTAATTTTGAAGTATCGCG
ACCTTCTCTATGTTGGCTCGTACACGGGGGAGATAGTCGACCTCCACAAA
GGAAATAATTGCCGACAGCACGCACATGCACTGGTGTCTGTGCGTTGGAT
AATCACCACATGATGCATCGTGTGTCACTGTCACACAAGACTGCCTTGAC
GAGTTGAGGCTGACGTCCTCAGGGCATCTAGCGACAACGGTGCCTTTTCT
GATGAGTTTTAGAAGCTCACGAAGAAAGGTGGACTCTTTTTGTTCGTTGT
TATATAGTCTTGTCCAGATCTTCGTGTGGCGATAAACGGATACGCTGACG
GTGTGTCCGTATCATAGTGAAAAGCAAATCTTCCAACAGGTCTGTCAACA
ACAGCAGTCACGAACCTTCCATACAGGTTATGAATCATAATACTTAAAAG
AGAGCCCACGTGCACAGCTCCAAGAGATAATCCGAAGTGCTGATTGATAA
CATTTCTCCACCCATAAATGATTCTGTCCTGATGCTTAAATAATACTTCG
AAGTATGACTTTAAAGGCTTGGTGATTTCCCTCGGCTCTCCCACGACTCT
TGGAGGCTCCGTTGCCGCCGCCGCGCCTCATACCCCTTCGAACCCCCGAA
TATGCATGCGTTGCATACAGCAGTAGTACGAGAGCGCCCCCCCTTTGTTG
GTGGTGTTGCTTTCGCGAACCCGTGCCAAACCCACCTCCGAATACTTGTA
TGCATGCATCACGCACCGCACTCAGTACAAAATAAGTACTGTATGCCCTT
TCTCTGTCTAGGTGATGTTGCTTTGGCGAAGCCCTACTGAAATCACTGAA
CTGGCATGCATCAGGCACACAGCAGTAAAATTGCGCATCTCTTTTTATCT
TGGTGATGTTTCGTCACTCCCTTGCTTCCTTTTCCTTCTTGTGTGTGTGT
GTGTGTTTCGTGTATGATATTTCATAGCATGCATGTATGTGTTGGAGAAC
AAATCAAACAACAGAAGGACCGCGCCAGACAGACGTTTCTATTGTTGGTA
CTGTATGAGACGTGTTGTTGTGTGTGTTGTCTTCACATTTGAAGACCGTC
CCGATCTCTGTTCTACCTTGTAGTGTCCGTGCTGCCTTGGCCCACTCACC
CGATGGCGGACGCTTTTTGTAGTCACGGGGTATCATTAACACCTGCCCAA
GAGAAGGGCAAAGGTTGTAAAAAAAATAAATAATACGCTGGAAAATTCCA
GCTGTCCAATACAGGCACACTGGCGGCAGTGAGGCAAGTCCGACAAAATG
CAACGGACCCTGATATTTTTGAAAAGTATTGTGTTGTTTTGTTTTGTTTT
TAATTTGTTTTACTCGATTTACTTTTTTGTTTTACTTTGTTTGACTCTGC
TTTCTTGTGCTGCGTATCATGCTTAATTTTGTTTTGCCTTGTTTTACTTC
GTATCTTCTTCTTCTTCTTGTGTTCTTTTATAGGCCGGAGCTTGCTACCG
CGCTGCAGGAGAGGACGGGAAGGCAACCGCGATGTACGTCCAGGCGGGGG
AGTGCCAGTGCCACGACTCCGTTCTGGCCTACGCCTCCGCCGCCAGGGAC
TTCAGGGAGGCCGCGCTCATCACGGAGAGGCAGGGCCGGTACGACGACGA
CGGCAGACAAAAATAGGGGAGAGGGGAGGGGGGGGGTGTTTGCTCGGTTG
TCGCTTGCCTGAAGGGTACAGCACTCCTTATCAGACTTTGGTACCTTTAG
GATTGACCTCGCATCCATCCATCCATCCCTTGAGAGACCGAGCACCGTCC
GTTCCTACTACTACAAGGGGCCACCGCCCACGACACCCCAACACCAACAC
CAACACCAACATTTTGGGCGCTCATCCCTTGTACAGCAGTACGCGGTTGT
CGCTTGCCTCAAAGGGGTACGTTCACGATTGACCGTGCATCCATTCATCC
CTTGAGAGGCCGAGCACCGTCCGTTCCCACTACTGCAAGGGGCCACCGCC
CACGACACGCCAACACCAACACCAACATTTGGGCGCTCATTCCTTGTATA
CGTGGTTGTCTCTAGCCTCGAGGGTAACGACGTTTACGATTGACCTCGCA
TCCATCCATCCCTTAGCGACCGAGCATCGTCCGTTCCTACTACTATAAGG
GGCCACCGCTCACGACACGCTAAAACACCAACACCAACATCTGGGCGCTC
ACTCCTTGTACTATGATACCGGTAGTACGCGTTTGCCCAGATGACATCCT
ACACATGCGTCTTATCTTGCCGCCTTATTCTTTATGATGTGCACACCATT
TCTTGCGGTATATTTCATGATGCTGTGCGCACATGTCTCGCCATACCCTA
CAGCAGTGATACACATCATTCGCACATATTTCTCGATGTATCTCCCTTAC
ACATGCACATCTTGCGTGCCCAGGCAGCAGGAATATACCTCGTAATGCAT
ATTTCATCCCCCTTCCTTTATGGCGCTACAGTATGGTGTGGCCACCGTTT
TTTATCACCTATCACCGAGGGGGGAGCGGCCCCACCCACTCCCGAATTTA
TTTCTTTTTCTTTTTTTCTTTGGAGTGTTTTCGTTTTTTTTTTCTTCGTT
TTTTTATTATTTGAGTGTTTTCTTCTCTTTTCTTTTCTTTCTCTCGAGTG
TTTTGTTTTGTTTTGTCGTCTTTGTATTCTTCGACTGCTTTCCTTTCTCT
TCCTTTCTCTTCCTGTATATATATTTTTTCAGGAATGACGAAGCCTCGGC
GCTGTACCTCAAGTGTGCGGAGGCGTGGGTGCACGGGGACGAGCCGGGGA
GAGCCGCAGACTACTTCGGCCGGTCGGCGAAGCTGGTCAAGGACACCGAC
GAGGACGCTGCGGCGGAGCGTTACATCATCGCGTCCAAGGTATGTATCAC
GTGACATGACATGACATGACATGGACGCTACTCAACACTTGCTGCTTGTC
TGTTTGTGTTTTGTCTGTTTGTTTGTCTGTTTGTTTGCACACTACATAAC
CGGTCGCCCCGGTGGTCTAGTGGTTCCCGCACCTACTAGTTGTAAGGTTG
TAGGTTCGATTCTCTCTGAGAGCGTGTCTTGCGACTTTACAGCGGAAAGC
GAATTACTCGTGAGTAAACAGAGGGGAAGGATTGCTGTACCCGACTCGCA
CTAAAAATCAAAGGCACGTGCCGCAGGAAGAAGGTTTGGGGAATGGAAAC
GAAATAAAAAACAAAAGAGCTCGTGTGTGTGAACTTCCTCCTGTGTGACC
CCAGCTAATGCACCCCCTACTCACCGAAAGGCGTAGACTGCTGCCCAGAA
TAAACGGGATGACGACACACACATTCGTACTCTCAACACTTGCTGGTTGT
CTGTTTTTTTTTTGTTTTTGGTCGTTTTTTTATTCGTTTGTTTGCCTGTC
GTTTTTTTTTTTTTATGATCTGAAGACAACTACGACAGGGACAAACAAGT
TCGGTTACGTTTAGGCTCCTGAGCATATCGTAGCGTTCACTGGTAATTAG
GTAGCGTCGAGTGCACTTCCGCTTGTGTGCGCTTTTTTTTTTTCTCAATG
ATTTTTCTATTTTTGGTTTCCGACCCGCTTACCTTTTAGCCCGATACCTT
AGGAGCTCGCCAAGTCGCGATGAAACCATACGATGAAGAGATGCACATCA
TGGTGCTGATGGGGTCCCGCTACAGCAGCAGAACAGCTTTTGGTTCTCTC
GGCCGCCTTTACTGTATGGTATTGCGATTGTTTCAATCCAACGCAGTGCC
TGTACGAAGCAACCAGCAGTGACTGCTGCTGCTGCTGCTGCTGCTGCTGC
TGCTGCTGAGGCTGAGGCTGAGGCTGCTGTTGTTGTTGTTGTTGCGACGA
AAATCAATCCTAGTACGTTTACAAGTCCGGTCAGAAGGGCAGCTTTTCAG
CAATGCCCACTTCCGGTCGTCCTTGCGATCCAGAGTAAAACATACTTCGA
AGTATCAATTTTCAAAGTCTTGACTATTTACACAGTAGTTGAGCAGCTCT
AGCACATGGTTGTAGTGAAATTAGACTTGAAAGTCCGACTTCAGCGCAAG
TGCGTACCGAGGAGCATCTATCATGCAGCGCTGAGACTGACTAACGCTGT
CGTTGCGACAATGAAATCGTTTTTTCGAATGCCTGCCTACCAAGTGGAAC
GCCTCTGGTCACCGGGCGCCGTTGCACGAAAATTTGTCACTTTGTGTACT
ACACGTCTTCACGTTTTCAACCATTCCGAAAGCTGTCGGTGCGATAATGA
AACCAACGTAAAATCGATTCACCAGGTTATGGTGCCCACCGGATCCGACT
CGCGGAGCGACTTCACGAGAGTGGTGGGCGCCAACGAGGTCATGGTGCAG
GCGATCACTTTCTTGGCCTCCGCTGGACGTCTCGAGGAGAGCATAGAGGT
GCGTGCTGCCGTTTCTGCCCGGTCGGAATTATATAACAAGCGCAACGGCT
GTTGTTGTCGGCCCCCGGCCCATCGACCACACGTTTTGATTATTTTAATT
TTTACTGTTAATTTTTTTTTGTCATCCTTTTATATCCATGCTGACGGCAG
TCTTTCGCCTTTTTGTGTGTTTGTGATACATAAGCGTGCCAGACGGGTCA
CGCGTAACGGTTTCTCTCGCTGAAGCGCCCCCCCCCCCCCCCCCCCCCCC
CCACCTCCCTCCTGCGGTGCCCCGCCAGGTCACACAGAATAATTTCTCTC
GCTGAGCCCCCCCCCTTCTTCCTGCGGTGCCCCGCCGATTCGTACAGAAA
ATAATCTTCTCGCTTGAGCACCCCCCCTCGATCCCAAACTTCCTCCTGTG
GTGCTTGCCTTCGATTTCTAAGAGCCCGAATTAACGGGGAAGTAAAGAAA
ACGAAATTGCGAAAACGAAAACGAAATAACTTCGTTCTTCTATAAAAAAA
AACAACTAATTGTTAGGTATGAACCGAACGAGCATCATTTTTTTTTCACG
CTGCTGCAGCGGACCTGGTATCAGGGTGGAGAAGAAGAGGGGATACAGCA
GTACACGAGAGGACACCGCTTGCGATAACTTTTGATATTTCTTGGATGGC
TGATCACTTGTTTCCCGTCACGCTCGATACTCACCGACCCCAAGCCTTGG
GTGTTCCCGATGGACATTAGACCCATCTCTCTAGTTTTCCGGCGAGATAT
CGGTGGAAACGTGAACTTGGCTGCTTGCGAACTCGCCTGAAAAAGCGGCT
CAAAGCAAAAGCGGGTCGTTGTGCACGAGTTGAAAACTTTTTTCGCGTCA
CGCTTGACACCCCACTGCCCCAAACCTTGGACATTTCCAATTCACGCCAA
ACCCACCTCTCTAGACATGCAGATAGCAGGGAATTTCGTCGCTTGTGTCG
CGAGTTATCAGTCAACATGTGAACTTGTCTGCTGAACAAAAGTCTACCGG
AGATGCCTCGCAGAGCTGAAGCGTCCCCGCCTACAAGCCTAGGAGACGGT
ATTTCGTTTTCGTTTTTGCAAAAAAAAAAAGTCCAAAACAGTTTATTTTC
GCGAAGAAAAAACGGAAATACCGCCTGCTCGGTGTGTGCTGAATCGGAGA
CACGCCTCTTTCAAATAAAACAACGCCTGTTTCTCTTTTTTCCTCGGACC
AATCAGAGCCCAATTTCGTTTTCTTTTTCGCAGTTTCGTTTTTTTCAATT
CCCCTTTAATTCGGGCTCTAACGCGAGACGGGTTCGGCCATCCCGCCCTC
GAAGTGATCGCTCCTGAAAAGATGTGCCGCGACCATAGCAGTGTGTGCAA
AAAAAAAATGAAGCACAAGCATACATACGAAGTTTGAGTGTCATACATAC
GTAAAACGCGCATGCTGCAGTACGGGCTACCGGGTACCATGGTTACGTGC
TTCATTCTTCAAAGTGAAGATTTTTTGTGTTGTTAGTCCCTCGTGCAGCT
CGCCGTGTCAGACCTTTGCTTGAGGGTCCTGTTATGTGGATCTATCTCCA
CGTGGGGAGCGAACAGGGTAAAACAAACGATAGGTGTACATGCCAAAATA
TAATATGCACGATAGCCTGATCTGCCCCATGTTCCTGTCAAGGCCGCTTA
TTATGTCTCAACGCTGCTTCTCACAGCTTCTCTCTCGGCGGTGTTGGTTG
TGCGTGCCGTCGAGCAGACCTTTTTTTTATTGTTGGGGGGGGGGGCAATG
GTGAAAAATCAAAGGAAGGAACTTTTCACCTTAGACGTGACTCAAGGGGG
TTTTAACATGTGTTGAGAGTTTCTTGCAGATATCATAGGGGTCTATGAAA
ACGATAACTACAAACAGTATCACGACCAGGGAGAGACAAAAAAAAAAAAA
ACGGGCCTGTCGAACGGCTCTCAACCATGGGCAATCAACCATGGGCAAGA
GGAAAGGGTCCGAAAGTGCAGCAGTTTATTGGGTGTACGGAGATGTCATT
ATTTCACATGATACGAAGTACTCATCATCTGTGGAGGCGGCTCTGTGGCC
GGGGGCTAGTGGCCCCCCGCACATTGCCCAGTTCGGTCCAAAACCGCAAG
GCGTCTCTCGCAACACACGTGTAAGGGCGCTACACTGCTGAGCGCACTAC
ACTGCCACCCCTGCCTGTCTATCAGCATTACTCCAGGGAAGTAGGTTTGC
TGTCGGGTCCCTGGCCAGACAGGTCCATACCATAATAGTACGGCGAGGGG
AAAAGAATAAGCACACACACACGCAGACCTTCAAGCACGTAATCTCAAGT
GTTCGTTGCCGTCTTATATTTCACACACATGCGTATGATACGCCCTGTAT
TGATAGTTTTGCATGTTTCAGTCCTCGTAGAAGCATGTCTGCTTTCACCG
GACGTTTGTCTGTGGAAAACCGTCCTTTTGTATGTAGTATTTTTTTCTGT
TATCGTGAAACTACTTTTTTTAATTTTGTAATAGAAGCATCGTTGAGCCC
GTCGGAAAAGGCATCGAATGTCCGATCAACTTGAGACGAGACTCACAGGG
GGCATAGCATGATTGAGTCTTTGATTCCTCGCAAGACACTGAGAGTATTG
GTGCTACACAGCAGTCCGCCCGGATTATAGAACAAAAAACACCTGAAGAG
AATGTCTTCGAATTCCTCACACTGAGAGGTTTTGTTCCACCCACAGCAGC
AGTAGTTTGCCCGAACAATGTGTGTGTGTTGTCATCCCTTTAATTGGACG
CCACTCTACACCTTTCGGGTAGGTAGACGCTCCAACCGGGGTCACACAGT
AGGAAGTCTACACAGGAGTTTTTTTCTTTTATTTATTTTCTTTTTATTTC
TTCGCTTCCCACTGCGGTACTTGCCTTCATTTTTTCTCGCGAGAAAAGGT
ACAGCCATCCCTTTCCCTCGTCGACACTTCGAATTTTGAACAATGGACAG
AAAAAATTAGCACCTAAAGAATCGAATATACTTCGTATGTGGTCGCTCCC
CTGCACACAGCTTCACCAGATCGTCCAGCATCAATTCGACGACCATTTCG
TTCGTGTCGTATTGTGCGCATCCGTTCTTGCTTGTTTGTTTTGTGTGCTC
GGCCGCGTCCCCGTCTGTCGCCCCGTCCAACCATTAACAAACTTTCGCCG
TGAGTGCTGTCTGCTACAGTTTTGGTATTTTTATGGCGATGACTATGATA
TGGTTATGACTATTGTGATTTTCGAAGTAAGATGATTTTATAACTACTGT
TACGAATTATCATTTTTGCCATTTATGACTTCTCATTTTATCACTTTCTT
TTTTTTTTGTCGTTATCATCTTTTACTATTACTACTTTAATTGATGTTAT
TTTTGCTATTATACTATTGATATCATTATTTTATTATCATTATTTCATTA
ATATTTTTGTTATTATGTAAGTTGGCTGCTGCTGTGCTCGTTGCTTTGTG
CTGCCACCACCGTCATGAAACCCCACAGGTCGTGTCTCGATACATCATCA
TCCTTCAGGCTGAGGGCATCGAGCACTCTCTGGGCCGCATGTACCTGACG
TACTGCGTGCTGGCTTTGGCTCTGGGGGACTTCGTCAGGGCGGACGCTGC
CTTCAGGGACGAGCATCTGCAGAGTACAGAGTGAGTCTTTCCACACCATT
CGCGCGCGCACGCACACACACACACACACACACACACACACACACGAACA
CGTACACGCACAGGCAAACGCAGTATTCCTCGCTGAGTTAGCGCGACTCG
CGTTTGGCATGAAGCATCGGAGGTATTTACCTCATCATCCGAGTTATGGT
ACACCACAACGTGATGCGCTCCAACAGTATACGAAGCACGAGGAACTATC
CTGGTCCTGTCTTCGTACATGGATTAATAGCACGCGTGCCGCTAGACCTT
CCACACCAACACCAACACCAACACCACCTTCCAGGTACCTCCGTTCGGAA
GAGTGCCGAGTCGAGGAAGAACTGCTGACGGCGTTCAAGGACTACCGGCC
GGACTTGCTGAGGAAAGTGCAGGACGATCGCACCCTTCGCCGCCTGGAAA
CCGTCATCGTCCGCCTCGCGAAGTCTCTCAGCGTACCCGGTGACGACGAA
GACGACGGGCCAGGTGTGTATGTGTGTGTGTGACATGAAAAGAGACGTGT
GCGTGTTTTGTATCCAAGAGTGAAGGAGACTTGTGTGATTTTTGTGCGTT
TTGTGATGTCTTTTTGGGGTTGGCGTTGGGGTTGGGTTTGGGTTTGGGTT
TGGGTTTTAAGTTTGGGTGGACTTGGGTCGGTTTTTCGATGTCCTGAATC
ACTGCTGTGTTCTGTGGCGTGTCTCGTGTCGTGGGATGGCGTGTCGTGCC
GTACCATTTAGGTGCGGGAGTACTTTGGGCGGAGCTGGAGTTTGATACGC
ATACGTACAAGTAGTTAGACCGCGGCATTTCTGTTTGCTTTTCGACTCCG
TGCCTCTTGTCGAGTTGCGTTGCGGGACACGGATTGTGTATATTTTACCG
TGCTTGCGGATGTGTTTTTGATGTCGATCGAAGAAATACCGGTCGGTCGT
GGTCGTTCCGATGAAGATGCGAATCCCGTAACCCTTACCGTCAGGGTGGT
ATGTTGGCATGTGGCCATGCACTCGACTTCCGGTGTTTTATTAAATTTCG
CGATGCCGCGTGCTTTTCATTGGGATGTCCCTGGGCTGGGTTTGCAGACA
GCCTCAAAAGAGTCGCGATTCATATGACACATTAGAAGGACGGCGTCCGT
CGTCCTTCATTCACAGTTTGCTACTACCACCACCGCCACGTCCTCCGTGG
GATTGCCTTCCTGCACTGTGTGGATGCATCGATCGGTGGTTTTTGCTTTT
TCGGCGTGAGAACCTGTGTCGGTGCTCCTGCTGTTGTGTCTGTCTGTCCC
GTGCGACAACAACGTACTACTGTAGCGCGATGACGACCCGATCGTGACCG
AAATGCGCATTCCGCGTCCTCCTCCGCCCGTCGCGTCCGCCCCGTTCTTA
CCTCGCCCCGGCCGCTCCGTCCGTCGACGCACCCTGTACTTGTGCGTGTG
TATGTATCATGCACCTGTTTGGTGTGTTCGTTTCTCTGCGTTTCCGTTTG
TTTAGACTTGATTCCCGCTCGCGAAACGCCTTCCGGAACGATCAGCGACG
CCGAAGCCCGCGTCCAAGCGCTCAAGGAAAAGTACGGCGGCGGTGGCGGT
GGCGGCGCGCCAGCCGTAACGGCAGAAGAAGCGTCAGCACGGTCTCCCCT
GCCCCCAACCCGACCAATCCCAACCGCAATCGCAACCACCCCGTCCTCTT
GTCCTCCCACCCCCCCCCCCCGAAACCCGAAGTCTACTTCTGAGGAGAGG
TCACCCACGACGAGCGTGAACCAACGCCGCCCCAGAGCGGCTGCAGCAGG
GACAGTAACACCATCGTCATCATCATCATCACCATCACCATCACCACCGC
AGGCAAGCGATGACCCCGACAGAAACGCTCTGTTCAGCGCCCCCCGAAAG
GCCAAGGCGGCGGCGCCGCCTCCGGCAACATCAGCAGCAAACACGGCGGG
ATCATCATCGGCGGCGGCGGCGGCGGCGGCCTCTACGCCCGTGGGAAAAT
TCCCGGAGGAAAGTTCTGTGGGTGGGGCGGGCGACGCCGAGGTTGACCTT
GGTTTGGGCGACCTAGAGGCTAGCCTGGGTGTCGGCGAGTCTGCGGGATT
CGGTGGCGATGATGATGATGATTTGGAAGCTATGATTGAAGCCGCCAGGA
AAGAAGCGGAGGCGCTGGCGCTGGGGGGTGAGGGGGAAGCAGAGGAGAGC
GACGAGGATGACATCGATTTGACTTGAGTACTGCTGTGGGGACACACGTT
TGTTCGTACAGCAAGTACGTGTTGACATACGGCTATGGTGTGATACTATG
CTCGGGAGAGGTCTGATTTGCCCTTGACCGCAGGATCAGTTGACTCGGGC
TCCCTTTTAGGGGCAAGCAAGAATCTTTGACGTGGACCGCCACGGGGCTC
GTGGGTGGGTAGCGTTCCCTTGAATGGGACTGACTCATTTTTATTACGTC
AGAGCGTGCCCAGTGCCTGTAGTAGAAGGAGTTTGTTGTGTGATTTTAAC
TGTCTGTGTTGGGTGTGTTGGTTTCCTTTTTTTTTTTTGTATGTACACTC
GGTATGGCAGTTTTGAGCCACACCGATGAAGTAAGGAGGGTACGGTAGGT
AGCGTTCAATGGATTTCGACGACCTTGTATTGTAAACGATCCTTTTTTTT
TTAAGATTTTGTGCGTCGCATGTGCTTGCTCCGTCGGAGTCGCCTGAATT
CTACCAAGGCGACCCGGTGTTGTTTCATGTAGTTGTTCACGAGGAGAACC
GTTTCGTTTCACCCTTGGAACGTGCCCTCGAGTTTCCTCTGCGTACACAG
CCCCCGTTCGCGTGTTTGCTCTAATAAGGCACGTGCAAATTATTCCCATC
CGTATCTAAACAATCAATTACGATACAATTTGGTACAATGTTGATCCGGC
TTCTTACGAAGTGCTCATTAAAAGCATTCCAAGTACCTGGGTTCCAATTG
TGTTACGGTTTCTCTGTGTTGTTGTGAGTACCCCCGGTTGGCGCGCCCAA
CCAACGCCGAAAGGTGTGCAGGCTGGCGTCGAGAATCGATGGGTAGGCAA
CACACGCACAGACACACCCTAGATCCTCGCGTTTTTCGTGTACAGCGTAG
GATAGAACCGTAGTAGCACCCTGGACACAGTGGTTCGTTGCAGGTGGTAC
TGCTGGCAAAAGTTTTGGCTGGGTTTCATTCCCTCCACGAGTCTGTCCGC
GTACAGCATGCATCTCTTTCACTGCCTTCCAAGTTTGTTGGGTGATATCG
GGGAAGAAGGGACAGAGAACACCTCGACTACCACTGCTGCTGTCTGTGCT
AGAGAAGGAGACAGACGATTGAATGCACGAATGAGTGAGTGGTGTTTGTT
TTCCTGAGCCTCCCAGCGCGTTTCTCTTTGTGCGTGTCAAGTGAGTGATG
ATACCGCCGTATTTCTTTACCGTACCGCGTGTGCGCATGATGTGAGTATG
GGCTAAACATAGGGTGGGTACGCCCCAGTTGAAAAAGAGAAATAATACAC
TCCAATATGTCTTTTTCTTACTTGTGATGGACTATTTTTTACGCTCTGTA
TACGAGTATTAAAAACCTGTTACACCGTGTCGTCGTGTGGAAATAAACGA
CAAAAAAGGTGGTTCGAGTCTTCTCCAACTTTGTTTTTCACCTTGCTTGA
TAGATGAAGGGGGGCAGGGCGCCAAAGATGAAGCCACTCAAAAAATGAGG
AGAGTTGCCCGAACAAGAACTCAGCTCCGGAGCTAGTTTTTTTTGTTTTT
TTACGTGTTGTAGTTCAAGAGATTCACAATCACC
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Coding sequence (CDS) from alignment at P-littoralis_Contig125:178083..201666-

>mRNA_P-littoralis_Contig125.37.11 ID=mRNA_P-littoralis_Contig125.37.11|Name=mRNA_P-littoralis_Contig125.37.11|organism=Pylaiella littoralis U1_48|type=CDS|length=1905bp|location=Sequence derived from alignment at P-littoralis_Contig125:178083..201666- (Pylaiella littoralis U1_48)
ATGGCGGATAAGAAGTCGCTCTTTGCGGGCAGGACCGGCGACAAGACCTC
CAAGCAGTCCACTGCTGCTAACGAGAGACGGAGCGGTGGCGCAGCAGCAG
GAGCGTCCGCGAGGCGCGAGGTCGCAGCAGCTGCAGGCTCTGGCAGCGAG
AGGAGGCAGCCTCTACCGGTCGGAAAGGGCGGTATCGTCAAGGGGGTTGC
AGCCACGCAGCAAAACCGCGACGTCCAGGTCAAGGAGGCCAACGACTACC
TGAAGCAGGCCAACAAGATGCTGACCAAGACCATGACGCGTTGGAACCCT
GACTTCTTCGGCGCAGCCCCTCTCTTCGAGAAGGCCGGAGCTTGCTACCG
CGCTGCAGGAGAGGACGGGAAGGCAACCGCGATGTACGTCCAGGCGGGGG
AGTGCCAGTGCCACGACTCCGTTCTGGCCTACGCCTCCGCCGCCAGGGAC
TTCAGGGAGGCCGCGCTCATCACGGAGAGGCAGGGCCGTGTTTTGTTTTG
TTTTGTCGTCTTTGTATTCTTCGACTGCTTTCCTTTCTCTTCCTTTCTCT
TCCTGTATATATATTTTTTCAGGAATGACGAAGCCTCGGCGCTGTACCTC
AAGTGTGCGGAGGCGTGGGTGCACGGGGACGAGCCGGGGAGAGCCGCAGA
CTACTTCGGCCGGTCGGCGAAGCTGGTCAAGGACACCGACGAGGACGCTG
CGGCGGAGCGTTACATCATCGCGTCCAAGGTTATGGTGCCCACCGGATCC
GACTCGCGGAGCGACTTCACGAGAGTGGTGGGCGCCAACGAGGTCATGGT
GCAGGCGATCACTTTCTTGGCCTCCGCTGGACGTCTCGAGGAGAGCATAG
AGGTCGTGTCTCGATACATCATCATCCTTCAGGCTGAGGGCATCGAGCAC
TCTCTGGGCCGCATGTACCTGACGTACTGCGTGCTGGCTTTGGCTCTGGG
GGACTTCGTCAGGGCGGACGCTGCCTTCAGGGACGAGCATCTGCAGAGTA
CAGAGTACCTCCGTTCGGAAGAGTGCCGAGTCGAGGAAGAACTGCTGACG
GCGTTCAAGGACTACCGGCCGGACTTGCTGAGGAAAGTGCAGGACGATCG
CACCCTTCGCCGCCTGGAAACCGTCATCGTCCGCCTCGCGAAGTCTCTCA
GCGTACCCGGTGACGACGAAGACGACGGGCCAGACTTGATTCCCGCTCGC
GAAACGCCTTCCGGAACGATCAGCGACGCCGAAGCCCGCGTCCAAGCGCT
CAAGGAAAAGTACGGCGGCGGTGGCGGTGGCGGCGCGCCAGCCGTAACGG
CAGAAGAAGCGTCAGCACGGTCTCCCCTGCCCCCAACCCGACCAATCCCA
ACCGCAATCGCAACCACCCCGTCCTCTTGTCCTCCCACCCCCCCCCCCCG
AAACCCGAAGTCTACTTCTGAGGAGAGGTCACCCACGACGAGCGTGAACC
AACGCCGCCCCAGAGCGGCTGCAGCAGGGACAGTAACACCATCGTCATCA
TCATCATCACCATCACCATCACCACCGCAGGCAAGCGATGACCCCGACAG
AAACGCTCTGTTCAGCGCCCCCCGAAAGGCCAAGGCGGCGGCGCCGCCTC
CGGCAACATCAGCAGCAAACACGGCGGGATCATCATCGGCGGCGGCGGCG
GCGGCGGCCTCTACGCCCGTGGGAAAATTCCCGGAGGAAAGTTCTGTGGG
TGGGGCGGGCGACGCCGAGGTTGACCTTGGTTTGGGCGACCTAGAGGCTA
GCCTGGGTGTCGGCGAGTCTGCGGGATTCGGTGGCGATGATGATGATGAT
TTGGAAGCTATGATTGAAGCCGCCAGGAAAGAAGCGGAGGCGCTGGCGCT
GGGGGGTGAGGGGGAAGCAGAGGAGAGCGACGAGGATGACATCGATTTGA
CTTGA
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