mRNA_P-littoralis_Contig153.115.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig153.115.1
Unique NamemRNA_P-littoralis_Contig153.115.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: D7G8Q2_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G8Q2_ECTSI)

HSP 1 Score: 585 bits (1509), Expect = 4.070e-200
Identity = 306/384 (79.69%), Postives = 333/384 (86.72%), Query Frame = 1 
Query:   85 FVMANDSVATTLGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSVVPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFTKGGPLRREAVVEGIPEVHVPADAMVE-PASSLSEPAA---PSAQDSIESSTAAA--VSTVSVRVYHS-PEAPVPSAPGAGSDVNGPESNGTVDSSSKKDPERASESR 1215
            + MA+ SVA TLGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAG+LLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERR+GV+P+ V+PPESLR LRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVL+LDIEGDVSQRAWNYVNDSLRTDLSLRFRSEV+ACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMG+ICNTILALYHRPKVAFLEPLC+ SVF +GGPLR +AVV+ I EV+ PAD + E PA++ SE      P  +DS+  S   A  V   SV V ++ PEAP PS      DV+ P+SNG  + S+ K  ER S+SR
Sbjct:   41 YDMADGSVARTLGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGVLLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRIGVDPAIVIPPESLRVLRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLELDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVIACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGEICNTILALYHRPKVAFLEPLCDNSVFRRGGPLRIDAVVQNIQEVYAPADGVEETPAAAPSETQPGDEPCTRDSVSVSAVVAEPVCNNSVSVANNTPEAPGPS------DVHEPDSNGAEEPSTNKSQERESDSR 418
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BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: A0A835YUR3_9STRA (Cyclin-like protein (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YUR3_9STRA)

HSP 1 Score: 357 bits (917), Expect = 1.100e-113
Identity = 173/269 (64.31%), Postives = 215/269 (79.93%), Query Frame = 1 
Query:  139 EAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEE--DPRQPRAVVLVFHRMFERRMGVEPSSVVPPESLRA-LRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFTKGGPLRR 936
            E WH  ++LP +IL NPPS +H VDWETE+ HR WGCEL+QEAGILLRLPQVVMCT Q LLQRF+YRK LTKFDAFSVAMGC+LLA K+EE     + R VV+VFHRM+ RR G+    +    ++ A L+ EM+RVE +VLK+LGFGFYNIMDHPHKFILYY+RVL  ++E   +QR W+Y+ND+LRTDL LR+R+EV+ACAAIYMA+R+L ++LP +PPWW LFNA++ E+G+ICN ILALY +PKV +LEPL   SVF  GG +RR
Sbjct:    1 EPWHSVVLLPEEILANPPSKDHGVDWETETQHRAWGCELIQEAGILLRLPQVVMCTGQTLLQRFYYRKSLTKFDAFSVAMGCVLLAAKLEEAIGHTRVRDVVMVFHRMYLRRRGLPLEFLELGGTVYAELKTEMIRVERYVLKDLGFGFYNIMDHPHKFILYYVRVLGWELEA--TQRVWSYLNDALRTDLCLRYRAEVIACAAIYMAARALRLRLPQSPPWWRLFNAELPEIGQICNAILALYKKPKVVWLEPLHSGSVFAPGGAVRR 267
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BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: A0A7S4D4U7_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4D4U7_HETAK)

HSP 1 Score: 308 bits (789), Expect = 9.910e-95
Identity = 151/278 (54.32%), Postives = 198/278 (71.22%), Query Frame = 1 
Query:   94 ANDSVATTLGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSVVP--PESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFTKG 921
            AN  V  T  +    E WH    LP +ILDN PS +  V WE E   R+WGCEL+QEAG+LLRLPQVVM T QNLLQRFFYR+ L +FDAF+VAMGC+ L+ K+EE P++ R ++ VFH + + R G EP + +    ++    + E++++E HVLKELGF FYNIMDHPHKFILYY++VLD      ++QRAW+YVNDSLRTDL LR  + V+ACAAIYMA+R L + LP +PPWW LF+A ++++  IC+ ILALY   K  ++EPL E +VF +G
Sbjct:   18 ANGEVKGTPEEEKAPEPWHMVQTLPAEILDNSPSKKDGVPWEQEYKFRVWGCELVQEAGVLLRLPQVVMATGQNLLQRFFYRRSLKRFDAFTVAMGCLFLSCKVEEKPKRLREILFVFHHISQVRRG-EPITPLELGAQTYMQWKSELIKMERHVLKELGFSFYNIMDHPHKFILYYIKVLDGS--SALAQRAWSYVNDSLRTDLCLRHGAAVIACAAIYMAARVLRVPLPRSPPWWELFSAQLRDVAAICDAILALYEMEKTPWMEPLSEANVFKRG 292
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BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: W7U1X8_9STRA (Ania-6a type cyclin n=3 Tax=Monodopsidaceae TaxID=425072 RepID=W7U1X8_9STRA)

HSP 1 Score: 280 bits (717), Expect = 1.920e-81
Identity = 147/286 (51.40%), Postives = 184/286 (64.34%), Query Frame = 1 
Query:  118 LGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTK-------------------FDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSV-VPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPK-------VAFLEPL 894
            L  +  D  WH  ++LPR +L   PS    V    E  HRI+GCEL+QEAGILLR PQVVM TAQ L  RFFYR+ LT                    FDAF+VAMGC+ LA K+EE PR PR V+ VFH M  RR G+ PS + V       LR+ +L +E +VLKELGFGFY+IMDHPHKFILYY++ LD      ++QRAWNY+NDSLR D  +RFR+E++AC A+YMASR LG+KLPD+PPW+ LF A ++EM  + N IL+LY           + +LEPL
Sbjct:   33 LEDVSVDGEWHEVVLLPRHVLRESPSRRLGVPEAVERRHRIFGCELIQEAGILLRQPQVVMATAQTLFHRFFYRRALTSERAQDVPEPGPGKSPRVFLFDAFTVAMGCVFLASKLEEKPRAPRDVLFVFHHMCRRRRGLGPSLLEVTSVRYHDLREALLMIEKYVLKELGFGFYSIMDHPHKFILYYIKTLDGT--PTLAQRAWNYLNDSLRLDCCVRFRAELIACTALYMASRDLGVKLPDDPPWFALFGASLEEMRHVGNVILSLYREKDEEGEEAPLRWLEPL 316
[Close]
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: F0YGC1_AURAN (Uncharacterized protein (Fragment) n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0YGC1_AURAN)

HSP 1 Score: 250 bits (639), Expect = 1.470e-74
Identity = 124/238 (52.10%), Postives = 166/238 (69.75%), Query Frame = 1 
Query:  160 ILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSVVPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNP--PWWVLFNADMQEMGKICNTILALYHR 867
            +LP D+L+N PS    V    E + R+WGCEL+QEAGILLRLPQVVMCT QN+ QRF+YR  L +FDAF  AMGC  LA KIEE P++ R  ++VFH ++  R     +  +        + E+++VE H+LKELGF FY I+DH HKFIL+Y+++LD D  G+++Q AW+Y+ND LRTD +LR+RSEV+ACAAIYMA+R L  KLPD+P  PWW +F     ++  +   +LALY R
Sbjct:    2 LLPADMLENSPSKRDGVSAADEYAQRVWGCELIQEAGILLRLPQVVMCTGQNIFQRFYYRVSLKRFDAFLSAMGCFFLACKIEEKPKRLRECLMVFHFVYRVRTKSSATLELGGVRYNGWKHELVKVERHILKELGFSFY-IIDHSHKFILFYVKLLDCD--GELAQEAWSYLNDCLRTDAALRYRSEVLACAAIYMAARRLQHKLPDDPAAPWWEVFRVGKADLDAVVAAVLALYVR 236
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BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: A0A3F2S4S2_9STRA (Uncharacterized protein n=3 Tax=Phytophthora kernoviae TaxID=325452 RepID=A0A3F2S4S2_9STRA)

HSP 1 Score: 249 bits (637), Expect = 4.370e-73
Identity = 129/299 (43.14%), Postives = 194/299 (64.88%), Query Frame = 1 
Query:  157 IILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMG---VEPSSVVPPE--SLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFTKGG-PLRREAVVEGIPEVHVPADAMVEPASSLSEPAAPSAQ 1035
            ++LP  +L   PS +  +D  TE  HR +GCEL+QEAG+LLRLPQVVM TAQ L QRF+YRK L +FDAF VA+ C+ LA K+EE P++ + V+ VF+ M  RR     V    +V  +  +    R  ++ VE  VL ++GF  YN+ +HPHK++LYY++VLD      ++QRAW Y+NDSLR+DL +R+ ++V+AC+AI++ASR  G+ LP+NPPW+ LF  + Q++  +   I+ LY + K+ +LEPL E + F     P+  + +VE + +   P +  +EP   +S P  PS++
Sbjct:    9 VVLPASVLTRSPSSQDGIDPSTEHQHRFFGCELIQEAGVLLRLPQVVMATAQTLFQRFYYRKSLRQFDAFRVAISCLFLAAKVEERPKRIKDVLTVFYAMLRRRKWKRTVVSQQLVDLDGATYSQWRMWLIMVERQVLIDMGFSVYNVTEHPHKYVLYYVKVLDGS--SQLAQRAWGYINDSLRSDLCVRYSAQVIACSAIFLASRYQGVALPENPPWYSLFGVNKQQLYAVSVAIMELYKQEKIEWLEPLTETNPFAVDDHPVEEQLIVESVVKTGAPNE-KIEPGKEIS-PQEPSSE 303
[Close]
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: A0A8K1CU74_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CU74_PYTOL)

HSP 1 Score: 253 bits (647), Expect = 5.760e-71
Identity = 138/306 (45.10%), Postives = 193/306 (63.07%), Query Frame = 1 
Query:  157 IILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMG---------VEPSSVVPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFT-------KGGPLRREAVVEGIPEVHVPADAMVE---PASSLSEP 1017
            ++LP  IL   PS +  V    E  HR WGCEL++EAGILLRLPQVVM TAQ +LQRF+YRK L  FDAF VA+GC+ LA K+EE P++ R VV VF+ ++ RR           +EP S    +S     D ++ VE  +L +LGF  Y IM+HPHK+ILYY+++LD      ++Q+AW Y+NDSLR DL +R+R+EV+ACAAI++ASR L +KLP +PPW+ LF+ D   + +    I+ LY R K+ +L+PL E + F        +   +R+ A V+ +PE  V +  + +   P SS S P
Sbjct:    9 VVLPEAILARSPSQQDGVSAHEERDHRFWGCELIEEAGILLRLPQVVMVTAQTMLQRFYYRKSLRDFDAFRVAIGCLFLAAKVEEQPKRMREVVSVFYAIYRRRKWGKTRMTQQLLEPES----DSYYLWCDWLIMVERQILIDLGFSLYTIMEHPHKYILYYIKILDGS--KALAQKAWGYLNDSLRVDLCVRYRAEVIACAAIFLASRMLQVKLPMSPPWFELFDVDETALLQASTVIMELYTRKKIVWLDPLTEVNPFAIDDLPDAEPQAVRQSAAVDNVPEKPVDSTRLDDHKPPTSSTSSP 308
[Close]
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: W2R3U0_PHYPN (Uncharacterized protein (Fragment) n=11 Tax=Phytophthora TaxID=4783 RepID=W2R3U0_PHYPN)

HSP 1 Score: 245 bits (625), Expect = 1.780e-70
Identity = 128/277 (46.21%), Postives = 186/277 (67.15%), Query Frame = 1 
Query:  157 IILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSV------VPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVF-TKGGPLRREA-VVEGIPE 963
            ++LP   L   PS E ++  + E  HR +GCEL+QEAG+LLRLPQVVM TAQ LLQRF+YRK L +FDAF VA+ C+ LA K+EE P++ + VV VF+ MF RR   + S+V      +   +    R  ++ VE  VL +LGF  Y++ +HPHK++LYY++VLD      ++Q+AW Y+NDSLRTDL +R++++V+ACAAI++ASR  G+ LP+NPPW++LF+ D  ++  +   I+ LY + K+ +LEPL E + F     P+  E  VVE + E
Sbjct:   10 VVLPASSLARSPSLEDDIKPDIERLHRSFGCELIQEAGVLLRLPQVVMATAQTLLQRFYYRKSLRQFDAFRVAVSCLFLAAKVEEKPKRIKDVVGVFYAMFRRRKW-QRSTVSQQLVDLDGATFSQWRMWLIMVERQVLIDLGFSIYSVTEHPHKYVLYYVKVLDGS--SALAQQAWGYINDSLRTDLCVRYKAQVIACAAIFLASRFQGVALPENPPWYLLFDVDKTQLYAVSVVIMELYKQEKIQWLEPLTETNPFEVDDHPMEEEEEVVEQVQE 283
[Close]
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: A0A225WJ87_9STRA (Cyclin-L1 n=1 Tax=Phytophthora megakarya TaxID=4795 RepID=A0A225WJ87_9STRA)

HSP 1 Score: 241 bits (616), Expect = 3.500e-70
Identity = 125/285 (43.86%), Postives = 183/285 (64.21%), Query Frame = 1 
Query:  157 IILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSV-----VPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVFTKGG-PLRREAVVEGIPEVHVPADAMVE 993
            ++LP   L   PS E  +  +TE  HR +GCEL+QEAG+LLRLPQVV+ TAQ LL RF+YRK L +FDAF VA+ C+ LA K+EE P++ + V+ VF+ M  RR     +       V   +    R  ++ VE  VL +LGF  YN+ +HPHK++LYY++VLD      ++Q+AW Y+NDSLRTDL +R++++V+ACAAI++ASR  G+ LP+NPPW+ LF+ +  ++  +   I+ LY + KV +LEPL E + F     P+  + V    P   +P D+ +E
Sbjct:    8 VVLPASSLQRSPSLEDGISSDTERLHRSFGCELIQEAGVLLRLPQVVLATAQTLLHRFYYRKSLRQFDAFRVAVSCLFLAAKVEEKPKRIKDVLGVFYAMLRRRKWRRTTVTQQLVDVDGATFSQWRMWLIMVERQVLIDLGFSVYNVTEHPHKYVLYYVKVLDGS--STLAQQAWGYINDSLRTDLCVRYKAQVIACAAIFLASRFQGVALPENPPWYSLFDVEKTQLYAVSVAIMQLYKQEKVEWLEPLTETNPFAVDDHPVEEDEV----PAQQIPVDSKME 286
[Close]
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Match: F0WDA4_9STRA (CyclinL1 putative n=1 Tax=Albugo laibachii Nc14 TaxID=890382 RepID=F0WDA4_9STRA)

HSP 1 Score: 241 bits (615), Expect = 1.150e-69
Identity = 117/256 (45.70%), Postives = 165/256 (64.45%), Query Frame = 1 
Query:  160 ILPRDILDNPPSGEHEVDWETESSHRIWGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCMLLAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSV-----VPPESLRALRDEMLRVELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSLRTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKICNTILALYHRPKVAFLEPLCERSVF 912
            +LP +IL NPPS    +  + E  HR WGCEL+QEAG LL+LPQVVM TAQ +L RF+YRK L  FDAF V+  C+ LA K+EE P +   ++ VF+ +++RR   E +       +  ++    RD M+ +E  +L +LGF  YN+M+H HK++LYY+++LD   E  ++Q+AW Y NDSLR DL  RF +  + C ++++A R L IKLPDNPPWW+LF    +EM  I   IL LY R  + +L+PL E + F
Sbjct:   13 LLPEEILRNPPSQRDGISSQVERDHRFWGCELIQEAGTLLKLPQVVMVTAQTILHRFYYRKSLRDFDAFRVSFACLFLAAKVEEVPTRISEILTVFYAIYKRRRWKETNIENQLLDLDGDTYCQWRDWMILLERQLLIDLGFSIYNVMEHAHKYVLYYIKILDGTKE--LAQKAWGYANDSLRVDLMTRFSAAAIGCGSLFLAGRVLQIKLPDNPPWWLLFEVSQEEMVTIAREILQLYTRNAIEWLDPLTEINPF 266
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig153.115.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G8Q2_ECTSI4.070e-20079.69Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A835YUR3_9STRA1.100e-11364.31Cyclin-like protein (Fragment) n=1 Tax=Tribonema m... [more]
A0A7S4D4U7_HETAK9.910e-9554.32Hypothetical protein (Fragment) n=1 Tax=Heterosigm... [more]
W7U1X8_9STRA1.920e-8151.40Ania-6a type cyclin n=3 Tax=Monodopsidaceae TaxID=... [more]
F0YGC1_AURAN1.470e-7452.10Uncharacterized protein (Fragment) n=1 Tax=Aureoco... [more]
A0A3F2S4S2_9STRA4.370e-7343.14Uncharacterized protein n=3 Tax=Phytophthora kerno... [more]
A0A8K1CU74_PYTOL5.760e-7145.10Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
W2R3U0_PHYPN1.780e-7046.21Uncharacterized protein (Fragment) n=11 Tax=Phytop... [more]
A0A225WJ87_9STRA3.500e-7043.86Cyclin-L1 n=1 Tax=Phytophthora megakarya TaxID=479... [more]
F0WDA4_9STRA1.150e-6945.70CyclinL1 putative n=1 Tax=Albugo laibachii Nc14 Ta... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig153contigP-littoralis_Contig153:444269..468715 +
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.D7G8Q2
PFAMsCyclin_N
Model size2239
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons2
Evalue3.67e-204
EggNOG OGsCOG5333@1|root,KOG0835@2759|Eukaryota
Ec32 ortholog descriptionCyclin-like
Ec32 orthologEc-22_002580.1
Descriptionpositive regulation of phosphorylation of RNA polymerase II C-terminal domain
Cds size1485
COG categoryDKL
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789734.3421636-UTR-P-littoralis_Contig153:444268..4443581680789734.3421636-UTR-P-littoralis_Contig153:444268..444358Pylaiella littoralis U1_48UTRP-littoralis_Contig153 444269..444358 +
1680789734.3812118-UTR-P-littoralis_Contig153:468051..4687151680789734.3812118-UTR-P-littoralis_Contig153:468051..468715Pylaiella littoralis U1_48UTRP-littoralis_Contig153 468052..468715 +


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

Feature NameUnique NameSpeciesTypePosition
1680789734.3576493-CDS-P-littoralis_Contig153:444358..4445491680789734.3576493-CDS-P-littoralis_Contig153:444358..444549Pylaiella littoralis U1_48CDSP-littoralis_Contig153 444359..444549 +
1680789734.3678243-CDS-P-littoralis_Contig153:466757..4680511680789734.3678243-CDS-P-littoralis_Contig153:466757..468051Pylaiella littoralis U1_48CDSP-littoralis_Contig153 466758..468051 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig153.115.1prot_P-littoralis_Contig153.115.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig153 444359..468051 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig153.115.1

>prot_P-littoralis_Contig153.115.1 ID=prot_P-littoralis_Contig153.115.1|Name=mRNA_P-littoralis_Contig153.115.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=495bp
MANDSVATTLGQIPDDEAWHRTIILPRDILDNPPSGEHEVDWETESSHRI
WGCELLQEAGILLRLPQVVMCTAQNLLQRFFYRKPLTKFDAFSVAMGCML
LAMKIEEDPRQPRAVVLVFHRMFERRMGVEPSSVVPPESLRALRDEMLRV
ELHVLKELGFGFYNIMDHPHKFILYYLRVLDLDIEGDVSQRAWNYVNDSL
RTDLSLRFRSEVVACAAIYMASRSLGIKLPDNPPWWVLFNADMQEMGKIC
NTILALYHRPKVAFLEPLCERSVFTKGGPLRREAVVEGIPEVHVPADAMV
EPASSLSEPAAPSAQDSIESSTAAAVSTVSVRVYHSPEAPVPSAPGAGSD
VNGPESNGTVDSSSKKDPERASESRSRSPGSRSAQSSRSHSTSLSAPGMD
REDEGADREANGRAPERAQDRERDRKRSRESRRSRSRSRSRSRRERRGDS
REMGRDRTRERVWERGRGRDWGRGRDREKERGGDRRHDGRRSRR*
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mRNA from alignment at P-littoralis_Contig153:444269..468715+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig153.115.1 ID=mRNA_P-littoralis_Contig153.115.1|Name=mRNA_P-littoralis_Contig153.115.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=24447bp|location=Sequence derived from alignment at P-littoralis_Contig153:444269..468715+ (Pylaiella littoralis U1_48)
CTACGACAAACGCACAAACCGAGGTGCTGTGTGTCATCAACGAAAGCGGG
GGCTCTTGCGGTTGCCAGATTATAAGCATAACAGTTTGTTATGGCCAACG
ATTCGGTGGCCACGACCTTAGGTCAAATTCCCGACGATGAAGCGTGGCAC
AGAACCATTATTCTCCCCCGTGATATCTTGGATAACCCACCATCGGGGGA
GCACGAGGTGGACTGGGAAACAGAGTCCTCCCACCGCATTTGGGGTTGCG
AGCTTTTGCAGGAAGCTGGGATCCTGTTAAGGTGCGTCTTGTCCATTTTG
GGGGTGGAAGGGTGTTCCGTGTTCTTGACTTTTGATTTCGGTGTCATTGC
GTCACATTATCACTGTGATGTGGTACATGTGTTGGTCTCTACGCACGTGT
TGGTCCCGTGTTGTCTGTTTGTTGTCATCCCTTTAATTGGACGCCACTCT
ACACCTTTCGGGTAGGTCGACACTCCAACTGGGGTTACACAGGGGAAAGT
CAACACAGGAGTTTTTTTTTTGTTTTTTTCGTTTCTCCACGTCCCTCTGC
GGTGCTTGCCTTGTTTCGGTTGAGCTTTTATCGCGAGAAAGGGGACAGCG
ATCCCTTTCCCTCGTCGATGGTACGATCGAATTTTGTTTACTCACGAATT
AATCGCTCTCCACTTTCACGCGCATTGTGAGAAGAAAACCCAGATGTTGG
TCCCTGTTAAGGCGGTTTCTTGTAGGGCCGGATTTTTTTTCATACTTTTA
TAGATTCCGATTTTTTTTTGAGATCAGGCTTCTTAGGCTGAATCTTATGG
CACACCGGTTTTGAGCCACAGGTTTTCAAACCTCGTTGAAAAAAAAATTG
ATCCACCTTATGGACACAGATTTTGGGCAAAACGAGGTTTTAAAACCTGT
GAACGAAAATCGGGGAGCCAGTCCCACCGGTTTTGGGCCCAAATCTCGTG
TGTCTCCACGCACGAGATCTGGCCCACGAGATTTGAGTTTTGACGATTCT
ACCAACATAGCGGGGTCGCACCGCATCGATCCCCGAGCTACTGCTGCTGT
TTTTATTCTTTGTTCAGTTGTTGTTGTTGTTGATTGCATTCGTGACAAGC
GCACAGCACCAAACCCAAACCGCAACCAAACCCCACACCCGACCCGTGAT
GGAGGACGCTGAAAACAACAAGAGCATAGGTGTTCTCTCCGTGTCAGTGT
CAGCGACCAACATCTATGTGGTGTGCGGTGCGCGGTGCGGCCTGTTCTCT
GTTAAATCATGTCCCTGACGCAAAACGCTTCTGGAAGACGCTGAAAACCA
GGGTTGAAATCGACACGCTAGATTATCAAAAACGGTGTGTCCCACAAGAC
ACACAGTCAGCCTGTGGGCCCACCGATTTTGGCCCAACGAGATTTAAAAA
CCTGTGTCTCAAAATCGGTGTGCCATAAGATTCAGCCTTAGGCTACATCT
TATGTGTCAGAACCGTTCATTTATTTTTATTTTATTTGGCTGTTTTGAAC
ATTGGACCAAAACGGAGCGCATCTTATGTGATCAGAAACAGCCATTTTAG
ACAGCGACTTTTCGAATAAATTTTTCCGATAGCTCCAAACGATCAGAAAA
AGCATTTTTTCTGATAGCCTGCAGCTATCGAAAACCCGTTATTTTTTTTG
GGTCAAGGCATTTGAACAACCCAAGTTACAGTCAGCCTTCCACAATGAGA
TGACCTGAAAACTTTGGTTTGGTAGCCCATCGATTCCTCGCGGCCCCTGA
TGACCGACGCAGGAGAAGGACCATACATTAACCTCACGGCCGATGGCTTT
AGTATTGCTGTGGGTTCTTTCGTTCGAGAGCGATGGACCAAAAACCAAAA
CGGATCGGACGAGAGCTGGCAGCTAGCTGATGCTGCTGCTGTCCTCTGAA
CTCTTCAACTAGGAGCAGTTTTTTTTGCCGCCACACCAGTTTGGTTCATT
GTTGATTGCTCTCGAACGAATGAAGCCACAGCAATGGTAAAACCATGCCT
CGCGAGCTGTGAACATGGTCTCTCTCCTCCGGTGGTCCTCTGAAGGAGCG
AGGCATCGATAGGCTGGCGTAGAAGGATTGCAGGAATTGATGGCCAGTGG
AATAAAGAAGAAACCACCACCTCCACCTGCTGCTGGTGAGCTGCATCGAT
TTTTTTTCGTTTCTTCACACGTCATCGATGATGCCTGCAACCTTTTTTCG
CTAGTCTATCGATACCTCGCGGTCTTATACAACCACGGGAGAAAAAGGAC
CATACACCCAGCTCGCGAGGCATGTCCTTACCAGTACTGTGGCTTCATTC
GTTCGAGAGTGGTGGACGAAAGAGCGAACCGGTTACAGCAGTGCAATATG
AAAGTCAAGTTATCTACCATCAAACCGCCCCAGCCGAACAGGAGAGACTT
TTTTTCGGAAGTTAAAAAAAATAAAACCACCTGCTGTTCGGTTTTGACAC
GTAATATCGGGTCCTTCAACAGAGCCTGTTGGAAACGCAAGTATTCGAAC
GGTCCAAAAGGAATAATGACGTTTTTGACACATAAGATGTAGCCTTAGGC
TGGGTCTTATCCGGAAATCAAAATCAAAATTAGAATTCAAAGCTCATATT
AGAGCTGGAAAATCCAAAGAACACATCCTGTGATTGGGTGAAATGAGGAG
GAGTCAGCTTCCGCCCTGCAGCACAAGAGACGGCTCTTTCCATCTAACTT
ATACATTCCGAATCCTGATTATGAATTCAAATAAATGATTTCGCATTTAA
TTGAATTCAAAGTTGGCGAAACGTAACACACAAAATTGAGATATTGCTCA
TATGAAGTTTTCTCTCTCTTTGTGTGTGGACAAAACAAACGATATTAATC
ATAACAGAGCATCAGAGGAGGAGAGCTGCTGCTACTACTTCCTGTGTTGT
TGCAGCTGCTGCTCCTGCTGCTGCTGCTACTACTGCTTGCTGCTGTCCAT
ACGTGTGTCCACCATCCTTCTGTGTACGCTTGCCGTGTCATCATTCATAC
CATCGTGTTCATCAGCAACCAAAACCAACCGTATGTAGCAGCAGCATCAT
CAGCACAGCAGCAGCAGCACGAGGAGGGGTATCAAAGCTTCCTCTGAGAG
ACCAGTTTGCATCTTCGCTCGTAACTCCCCAATGAATGAAGTCACAGTGA
TGACAAACCCATCTTCCGTGAGCTGTGCGTATGGCTCCCCTCGTGTGGTA
ATCGTTTGGGTGAGGATCACACTGGCATGTTCGCAAAATGGTCATTGCTC
GTGGTTGCGGCATGTTGTGTTGTAAAAAGAACCCGAGCTGTCATCTCCTT
TCTCTACTGCTGTACAACTACCATACATACAGCAGTATATAATAATGCTG
CTGTACAGCAGACCGGCTGATACATCTTTCTCAATTTGTTTCGCATGAGT
TGGCCTTGAGCAAACCTACGTTGCGAATGTACGGATGTCACCCTAACCCA
AGCGATCACGACACGAGGGGGATCATATACACAGCTCACGGAAGATGCCT
TCGTCATTGCTGTGTGTTCATTCGTTCGAAAGTTACGAGCAGCGATGCAA
ACGGGTTTCAGCGCAAAAAACACCACCATGCGGTTCTTCGATGCAGATAT
ATACTTTGGAGCGGACTCTTCAACCACCTACTTAAAAAAATGATCACCGA
AAATCCGAACACCCATTACCTATAAGAACAGCGAATCGGCAGCCGTTGGC
CGGAAAAAGTTCGTTCGGATTCTATCAAAAAATGAAAAAAAAATCCGGCC
CTGCAAGAAACCACCTAAAGGAAAATTGCGATTTTTTTTTTTATGCACTC
GGAATACAATCATGGAATCACAGCCCCAGTGGTTCCTCCGCGCTGAATTC
TCGGCAATTCGTCAAACACCTCTTGATACAGTGCAGATCCCTCATTCAGC
AGGCCTGGAATAGAATGTCTAGTCTGTTCACCACAGTCTGGCAAAGTACC
AGAGTTGTCGATGCCTTATGGCACCAGGACCTTCGCGCCAAAGTTTGTGC
AGGTATGGTTCCAGTCCAAAAATCCTGCTGAGTCATGCTGCTTTAGTACA
GCAGTACAATACAGCGCAGGACAGCATGTTTACGTAATACAAATGACTTC
CGTTCAGCAGATGATATGATAGCGTTGCGCGACGATGTGCTAGCTGTACC
CAGTGCACAGAGTAGCATTCACACACCAGGGTTGTTATATGATATCATGT
ATGATTTGACACAGGATTATAGCGGAAGAAAGGGATTTTTTTCTGCCCCG
ATTTGATTGTATTGCACTCCTCGTTTTCTACTGCTGTAGTGCCGATCCCT
AGTCCGGCACCCTTCCAAGTCCATCTACCCATGTGATTTCCCACACTGCC
AGAGTATGGCTGCATTTGGTTCAGTACAGCTCCCCGACCTTCGGCACAAA
GATGGCCCTTTGCCAGCATACGCTCTCGCGGGTGCAACTGCCACGCTGGT
GGCGTGACCTCGCACATGCACTGGCAGCACGACGAGTGTCAGCCCCACCG
TCAGTCTTAGCGCCCGTAACATTCTGATGGGCCAAGACTGTGGCTCTCCC
TGGCCCTCCCGCGCCTTTCGCGCTGATCTCTGCTCTCAGGGCAGAGCTAT
GTGGTAGTGACTAGGTTGGCCTCCGTCTACGAAGTGCCGGCCTTGCGGGG
GGGCTGAATAGTTCTATATTCCCGTCAGAGAAGAACGCCTCGCATTTTGA
AGATTTTTTTTTCATTTCTACAGGGTAAACTCGGCCATCACAAGTTTCTG
GTACGTACAGGTATTAGAGAGTTTGCCAAATAGAATATCTTATCTCAAAT
TTACTTTCTTGGTTTCCCCGAGGTTGCCCCGAGAGGCGCCGTGACTGCAC
CAAAAATAATTTCTTTTCTCAAATTCCGGAAATTCCCGGCAACAAAGGAT
ATTCGAAAAGAACATTTGATATGCCAAGCGAGCCCGTGTCGGCACATCGT
GTGATTGGCCAAATCACCCCGGCACCACCCGGATGGTGTGATGTGCGAGA
AGATGGCGATACACCACTGCGCTTCAGCCGACAGTACCGACCACTGCGCC
GTGATTTCTCAAGGTGGCGAGCTCAAAGAGAGTTCCGCGCAACCCTGTAG
TCACTGTGTCAACACCTTTGCCGCTGGTTTATGTGGTGGAAGTGTGCCAG
CCATGCAAAACATATCGTCTGAGCAGCGACTCTTTGAAAGTAGCAAGTGT
GGGCTGGCGTGCGTCCCCAGAGGCACACAGCAGCAGTTGAACGCGACAGA
CATCAGAACATCACAGCAGTCACGCTCTCGCTCTCTACACCACGTATCAA
GGTGAACACTTCTTGGGTGTCTCCTTTATATAGTGCTCTCCGCCCGCAGG
AAGTTGGGTTGGAGGTGGGCTCATTCAATAGATGGAGAGAAGCAGAAGCA
TCGCTCGGGGTCAAGCCGGCCACGCTGGAAATGCAAACGACCTTTTTTTG
CACATGAAAATAGACGGGCCAAAATAGAACAGCAGCAGTTGACACGCAGC
AGTGATGCCTTCCTCCGCAACACAGCCTCTCTGCCGAACTTGTCCCATCC
CTGCTGTCCATGACCCCTGACTTTGCATTTACTTCGCCTGACCCGGCACC
ATTCGCCACCATTTGAACGAAAGACTCTTTGTGTTGTATCCCCTACAGCA
GCAGCACATCATCAGCCGTGTGTGTGTGTGTGTGTTTGTGTTGCTCTACA
CTCTCACAGTGAAGTGTAGGTGTCTATGTCAGGAAGGAGATCATTTTCCG
CAAACTCATTCTCAAATTTTCGTTGAAGGGAATTCTTATTCACCGCGCTT
ATTTTTTTTTTTTCCAAGAAAGGAAATTTGAGATAAGATGTTCTATTTCG
CAAACTCTCTATCGTAGTAGTATTCACAGGCGCTCCGGACGCGTGGGCCT
GATGGTACACCTGTCCTCCGTGCAGGGCGGAAAGAGGAAGAGATGGGGTA
AAAATCGAGGAAAAATACATGTAGAAAGGTTGAAGTAAGGCTACTTCTTT
GTTGATCGGAATCCCCTCATCAGAATCCCCCTTTATTGAAGTCGATTCAG
TCGATCAGAATACGTTCATTGGAAAATTTTGGGCTGTCCATCACCAGAGC
CTCTCACGGTGAGTCGGGTGTTGAAAAACTTTTGTTGCAAGCCCATCGAT
GCCTCGTTCCTGAGATGACCAACGGAGGAGAGGTACTAGAGGCACAAGTC
ACGGGCGATGGCTTTATTGTTGCTGTGGGTTCATTTGTTCGAGAGCGATG
GACGAAACACAAAAGTGTGGGGAGGCGGAGAGAGCTGGCAGATGTGTACG
TATGGAATTCTTCAACGCAGGTGCCGCAGCAGCAGCAGCAGCAGCAGCAG
CAGCAGCAGGAAACAGCAAGCAAGGTATTTTGTGCCGGTACACCAATTTG
GTTTTTCATCCATCACTCTAGAACCAATTGAGCCACAGCAATACCAAAGC
TATTGCCCGTGAGAGCTGTGTGTGTGGTCCTTCTCCTCCGTTGATCGTCT
GAGGCCGGAAGGCATCAAATTGCTTACAGCAGAAGCGTTGCAGAAATCGA
TGAGTTGTGACAAAAATTGAGAAAGAAAGGCCGTTGATGCAGCGAGTCCA
GCAGCCAGACAGACGGTGATTTCGTCTTTTTTTCACATGTGATCGATTTC
GGGAACGCTTCTGTTGCTAGCCTGTTGATGCCTTGCGGTCCCAGATGACC
ACCGGAGGAGAAGGACCAGACACACAGCTCACCGGCGATGACTTTAGTAT
TGCTGTGACTCAATTGGTTCGAGAGTCATGGATCACAAACCAAACTCGTG
TACAGCTGTAGCGGCGCAAAATACCTTGCTGCTTCCTGCTGCTACTGCTG
CGGGCTTTCTTGTCTTTTCCTTCTTTCCTTTTTTTTTCACACGTCATCGA
TGCCTGCAAACTTTTTTTGTGAGTCTGTCTATGACTCGCGGCTTCAAACA
ACCATCGGAGGAGCACGACTATACACACAGCTCACAGGGCATTGCTTTGT
TATCGTGTGGCTTCACTTCTTCGGTACAGCCTGCTGACGAAATGATGTGA
ACCGTCTGCCCGTCTCAAACATCGAACAGCCGCACAAGGGAGATGCATTT
TCGGAAGATATTTAATCAATAAATGACCCATAAAAAGAAAAAGCTACCTG
CGGTTTCTTGTAAGAAGCGGTGATTTCAAAGATCCTGTTGTATTTGTTCT
CATTGAATAAGGCGAATTCTGATGAGGGCGTTTCCGATCTACAAGTAGCT
TTGAACGGCTTTTTTCTTTTTCCAACCCCCCCGGAAAAAGTACCTGCAGT
AGGCTGTGTTCATCACACAGAAGATAAGGAGGAGATCGCCATGATCAAGA
AAACAAAGGAAAACAAAATCTACTGCGGGTGACTGAAAAAAAAATCGGGC
GAGGGAGGAGACTCTGTGACTCAGTCTTCAACATTGCGACACCGTCTACC
GCCACCCCCCTAGTACGCACGCGTGGTATGTCTAACTGCTGTGTGCTGGA
CTTCAGCTTCAGCAGGAGAATGCAGCTTCAGCAGCAGGAGTGTGCCGTTG
TACAAGTACTGCTGCTGCTGCACTGGCGGGCGTTGTTGTCCTGCCTCTCT
GTTGCACAGCAGCAGCAGAGTCATGCTCACTCGTAGCAGACACCAGCAGT
AGCAATCTCTCACTCCCTGCCTCGCTTTACCTCCCTCCCCCCCTCTCTCC
CGGCATGACACCAGTATACCAGCAGAACAGCAGCTAAGCGGCTGTTGTGT
GAGATGTGCTCTTTGGTTGATGACGTGCTCTCTACTTTTTAGAGTTCCTG
ACATACGTGCCTCTTCATTTATTACGGAAAAGGGCGAATTCGGCGAAGAA
ATAAACACACATCGCCGCTGCCATCTCGATGGACTCAGCACCAGATGAGC
AGGAGGCAGTTGCGAGGGCTCTGGCTAAATTAGCTCTGTCGCCCACACCC
GTGGGTGCGTGAATTGGTTCGGTATTCGTGCCGTGATCAACAAAAAGGTT
GCCGAAAAAACGGCGTCAGACACACGGACACACGGACAGCCTCGGCCATG
AATTCACCCCCCCCCCCTGACTTTTATTTATTTTATTTTCTTGCGTGTGT
GATCATGATGTGGGTGCGAGGCTTGGGGGGTGGGGGAATCTAAACATCTT
TTTTTCAAAAACTAAAGAGCTCGCTAAGGCTACATCTCATGTGTCAAAAA
TGCCATTATTCTTTTTGGGCCGTTCGAATAATAACGTTCCCAACAAGCTG
TGCTGAAGGACCCGATATTACGTGTCAAATACCGAACAGCAGGTGTTTTT
TTTTTAACTTCCGAAAGAAAAAAGTCTCTCCTAATCGGCTGGGGCGGTTT
GATGTAGCCAACTTGACTCTCATTTTGCACTGCTGTAACCGGTTTGCTCT
TTCGTTCACCACTCTCGAACGATTGGAGCCACAGTAGTAATGGGAAGGAC
ATGCCTCGCGAGCTGGGTAAATGGTCCTTCTTCTCCCGTAGTTATATACG
ACCGCGAGGTATCGATAGACTAGCGAAAAAAGGTTGAAGGCATTATCGAT
TATGTGTTAAAAAACGAGAAAAAAATCGATGCAGCTCACCAGAGCAAGTG
GTGGTGATTTCTTCTTTATTCCACTGGCCATCAATTCCTGCAATCCTTTT
ACGCTAGCCTATCGATGCCTCGCTGCGTCAGAGGACCACCCGAGGAGAGA
GACCATGTCCACAGCTCGCGAGGCATGGCTTTACCATTGCTGTGGCTTCA
TTCGTTCGAGAGCAATCAACAATAAACCAAACTGGTGTGGCGGCAAAAAA
AACTGCTCCTGGTTGAAGAGTTCAGAGGACAGCAGCAGCATCAGCTAGCT
GCCAGCTCTCGTCAGATCCATTTTGATTTTTGGTCCATCGCTCTCGAACG
AAAGAACCCACAGCAATACTAAAGCCATCGGCCGTGAGGTTTATGTATGG
TCCTTCTCCTGCGTCGGTCATCAGAGGCCGCGAGGAATCCATGGGCTACC
AAAACAAAGTTTGTAGGTTATCTCATCATGCAAGGCCGACTTAAACGTGG
GGTGTTCAAATGCCATGACCCAAAAAAAATAACAGGTTTCCGATAGCTGC
AGGCTATCAGAAAAAATGCTTTTTCTGATCGTTTGGAGCTATCGAAAAAA
ATTATTAAAAAAGTCGCTTTCTAAAATGGCTGTTTCTGATCACATAAGAT
GCGTCGTTTTGGGCCAATGTTCAAAACAGCCAAATAAAATAAAAATAAAT
GAACGGTTCTGACACATAAGATGTAGCAACTTGCAGAGTATTTTTTACTA
ACTTGTGATTTAGATGGAGGGCGGGAAGAGGGGATCAGGTGGGCTCGAAG
GCGTGAGGCATATACTACCAAGAGTGCTGTGTGTGCGTGTTCATCCCATC
TATTCTGGGCACCGGTCTTCACCTTTCGGTACGATGCGGGTGCACCAGCC
GGGGTCACACACGAGCTTTTTGGTTTTCCATTTTGCGAAAGTGTTTAAAA
CGGTTTACGTATATACTACGAAAGACTGCTGTATGTGCGTGTTCATCCCA
TCGATTCTGAGAACCAGTCTACACCTTTCGGTATGAAGTGGGTGCACCAA
CCGGGGTCACACAGGAAGAGGGTCACACAAGAGCTTTTTCGTTTTTCATT
TTGTTTCACCGCGCACACCTTTCCTCCTGCGGGACTTGCGTTTGGTTTTT
CATGCGAATCGGGTTCATTCAGTAATCCCTTCCCTCTGTTTTTACTCACC
AACGAATCGCTTTCCACAGCAGCAGTAGAGTTGAAAGAAAACGTTCTCAG
AGAGAATCGGACCTGTAACCTTACTATCAGTAGGTTGACGAGGGAACCAC
TAGGAGACCACCGGGGCGACCGGCTGACTGCGCCATCATGTTTTGTATTA
TCATATGTGTCCAGACATTTTTTTTTGGACTTGACACATTCTTCGAAGTA
CTCCTATATGACACATGACGATACTAAACGATACTTGCTTCTGTAGCTTT
CTTTGCGGGCCGCCACACACAGCATTTTTACATTTTACTTGCAGCAGCAC
TTGAAGTTTACACGCCATTTTACAGGAGAGACCAGTTCGCAGACCTTTCA
TCACTTCCTTCGCACTTGCGAGTTGCGTACCTTTTTTTGACATTTTTTTG
CAAGGACCTTTTCATTTCTTTTTTGAAATTCTGCAGACTTTTCTCTCACT
GGATTACTGGATGAACCCGCGTGCCATATCCTGCTGTTTGTGGGCGGCCA
CAGGGTAACGTCAGTGTAGCAAGTATCAGCGCCGGGAATTTTCCCGTGAA
TGTCGCGAGCGCGCATTTTGGCATGCGTTGGCGCTTGACGCGCCTGTGCC
TCGGTCTTCAGAGAGAGGCAGTCTCAGCGCCGGGAATTTTCCCGAAAAAT
GAAGCGAGCGGGCATTTGGGCACACCTTCACGGGGCTGGATCTCGGCTCG
CCCGTCGAGTCTCGAGCCCGCGACAGGCGCGTCGGGCCGGAAAAATTTTG
CTCGTCCAGGGTGCGAATTGTTTTTGGGAAAACGACACAACAGGGTGCAC
CCTGGTCGTTTTGCGACTCAACAGGGTGCATGATTTTCCCGAGCGTGAAA
CGAACCAAGCTGATTGGTCAAAACCTCGAAATCACCCTGTTGAGCCGGAA
AAGTGTCCGGGTGCACCCCGCGGAGGCGACTTTTCTTCAAAACTACACCC
TGGTTTTTGAAAAGCACCCTGTTGTGTCGGTAAATTAGACCTCCACCGGA
TATTCCTCCGGCAGGAATCAATTTCCGCACTCGCCAAAGGGCACCAAATA
TGAGATCTTCCACCGCCAAGCATACAATGGTGAACACCATGAACGGCACG
ACGGACTTACCGCATACATACCCCTCCACATCGACTCGTCAGGCTCTAAA
CATACCATGGCACACTGCTGTACCAACAGAGCCGTTGCCAGCAAACAAAC
TGCAAATCCGCCGACAACAAACAGAGCAGAAGACACCAGCCCGAAACACA
ACACATTTTTTGTTGGCCCTGCTGCAAATACTCGTATATATAGAGGCCCA
TAAATAAAGTACACAGGAAGAGGAAGAACGCAGAAGGAAGACAAAAAGCC
ACACAACCACACAAAGGAGGTATGGAAAGGGCGGCCAGTGGGGTGACAGG
ACACGCACGCGACTCGCAGCAGTGCAGATACAACAAGTAGACGTCGGAAG
CCGAGGGCAACACACAATATCGATGCCCTGAAAAAAGGGGGAACCACACA
CACACACCTTTTACCTACATTGTCCCTTTACTATACAAGGACACACGGAA
GGCGCAACACCACCCTTCTGTATTTTCCCCAAACCTCGGAATGGAGTTCC
ACCCCGACCAATGTCAGTCATTTTCCGGTTACTGTCCCGGTTCGGTAGAG
AACACAACAAGCAGTAGGATGTAGAAACAGGTAGTACAACGCGTGTGGGT
TGTGTTTGCTGCCATCCAGTTTGAGGCTTGAAGCACGAAGCAAACGCCGA
CGGGTACTGAACCATCTCGCACACGGTACATACACCGGGTGCGGAAAGTG
ATTCCTGCCGGAGAAATATCCGGTGGAGAGGTCTAATTTACCGACACAAC
AGGGTGCTTTTCAAAAATCAGGGTGTAGTTCTGAAGAAAAGTCGCTTCGG
CGGGGTGCACCCGGGCACTTTTCGTGCTGAACAGGGTGATTTCGAGGTTT
GACCAATCAGCTTGGTTCGTTTCACGCTCGGGAAAATCATGCACCCTGTT
GAGTCGCAAAACGACCAGGGTGCACCCCTGTTGTGTCGTTTTCCCAAAAA
AAAACTCAATAAATTTTTTTTGCAGCGGCTGCCTGAAAAAGCGTCATAAT
GTCTCTATTTTAAGGGGGTGGCGAATCTCCCCGCTGCACTCTCAGCGCTC
TGAAATCATCAGCTCGCTGTGTGTGAAAATAAAAATAAATAAAAAGATCC
AAGTAATTTCTATACCTGTGTACTGACCAAAATAGTTCGTGCAGGCTTTG
GCGCAATTCGGCTTAACGACCACCCAAATTTAAATTTTGGTTGGGGCTCT
GGAGCCCCAATCAAACTTTTAGTGGTCGTGAACCCAAATACTCGTGGATC
GGGGTTGAGAAGCAGTGTGCGTTGAAGAGTCGCTTGTCAAATATCTGCGT
TCAGCCGTATGCGTTTCTGTTTGTTGGCATACATGTACTGTGGCTGCAGT
GCTGCTGCTGCAGCAGAACAGCTGTGGTGTTCCGCCAGCACAACGAACAC
AAAACGCCTCCCATCAATTTTCACGAAAACGGGACACCGATCACTGCGCG
CCTCTGACAACATTGCTGTGCGCACAGGATACGGGCTGCGGTGAACCCAG
CAGCGATGTTAAGATGCTACTCACCTCATCAGGTCAAGCCCTTGTTCGTA
ACGATCTGTGCTGAACTGGTTCCAAATTGTTGCAAAATGTGGCCATTATC
TGGATACACAACACACAAGACACCATAAACCTCGAAAATTAAATAAAGTC
ACCCCTGTCTCAGTTGTTTTTGTTTTTTGTGTATTCGCACATACCATCAG
TCGCCCCGGTGGTTCAGTTTTTAACCCCACGTAACCTTCTGACATTCACG
CGTGAGTTCGAATCCCAGTGCAGTAACACGATTTGGGTTTTCTTCTCACA
ATGCGCGTGAAAGTGGAAAGCGATTCATTTGTGAGTAAACAAAAGTTCGA
TCGTACCATCGACGAGGGAAAGGGATTGCTGTTCCCTTTCTCGCGATAAA
AGCTCAACCACAAACAAGGCAAGCACCGCAGAGGGAAGTGGAGAACAAAA
AAAAAAAAAACTCCTGTGTTGACTTCGCCCTGTGTGACCCCAGTTGGAGC
GTCGACCTACCCGAAAGGTGCAGAGTGGCGTCCAATGAAAGGGATGACAA
CACACACACGCACGCACGCACCGGTTGCCCCGGTGGTACAGTTGACTTTC
TCCGAAAGCCTCTGACACTTGAGTTCGAATCCCGGTGCAGCAACACGATC
CGGGATTTTTTTCATGTCAACCGTGAGGGTGGAAAGCGATCAATTCGGAG
TAAACAAAATCCGAAGTGGCGACGAGGGAACGGAATCGCTGCACCCTTTC
TCGCGATAAAAAGTTAAGGCAAGTACCGCAGTGGGAAGTGGAGAAAAAAA
AAAACTCCTGTGTTGACTTCCTGCTGTGTGACCCCCGGTTGGAGCGTCTA
CCTACCCGAAAGGTGTAGAGTGGCGTCCAATTAAAGGGATGGCAACACAC
ACACCCACCCACACATACACTCACAGATACACATCACGACAAGTCGGTAT
GAATTGGAAGCAGTTCGACGAAAGGAAGTTTCACTTCGCTTCGCTCGCGG
CCTGCCTCTCCATACTATGTAGGACCATATGATGTGCCACACAGCACACA
TACATCCGTCCGAACACATTCTGCGCCAGGATGGGTAAGCACCAATTACT
GCTGTGCTCATCACGTACATACAAACATCCGTTTTTGGACGCCGAACGGA
AACCGGTAGAGCAGTGGACTATACGGGAGCGGTGCGTAGGGCACAGAAAG
TGCAGACTTCAATCATGAGCAATCATCCTGTTGTGTAAAAAGCAGCAGCA
GCAGCAGCAGTATTTTTCTATTCTTCCGGTCTACAGCAGCAAGCAGCAGT
GCAGCAGTACATGTTCTGTGAACACTCTCTCCCCAACCGCCTCGATTCAC
TTCTTCGCACCTAGCACCACACACACACACCCGGACACACGCCGAAGTGG
AAGGGGACCACCACAAATCGCTGCTCATCATACACTTGAGACGCCGAAAG
CGAACCGTCGGTAGTGCACAGAGCCGCGGACCATGCGCTCCAGCGCGAGC
GGTGCGTAGGGCACATGATACATCGAGAAGTATCATCTTTTTCAGTGGTC
TTCTCGGTAACGACTTTTGATGTCGTGACTATTCACCGCGGTAGTCAGCA
AACGCGGTAATCCACGGGTTTTTTTCACGGTAATCAACTGCCTCAGTAAC
TGCTACCGCGGCACGCAACGACCGCGGTAATGCGCGGTAATTTTTCCACG
GTATTTGACCACCGCGGTACTTGTCACCACGGTAGTTGACCACCACGGTA
ATCGTTTCCGCGATAATCAGCCGACGCGGTTATGTAAATACTTCGAAGTA
CAGTATATTGTACCAGCGTATGATGCGGCAAAGCTACTACGTTCACAGCA
AGAACACGATAACGGAAAAACGGCCGGAATAATCCCATTTTTATATTTTA
TTTTTTATATTTCATGTGTTTTTGTATAAAAAAGTACTTCGTGCAATACT
CCGAAGTACAAACCTGCGCACTCGTACAATACATCAATCATCACATGGTA
GGCCCGATGTACATGGATCATACGTTCACGAAAACTACTTCCTGGTCAAA
GACAGGCACTGTTAGCAGCCAAAGCAAACGGTCAAAAACAAGATCCGAGT
CCCGCGTGTCAACTAATTTTTTCATCACCACGAGTTCACTACTCTCAATC
AAACCAAAACTTACTACAAAGCCGTGATGGAGCCCATCCCCGTCCCAGAA
ACTGCGCTTTTCACGTGGACACTGTCCACACAGCAACTTCTGCAAAACGG
CAGGTTCAACACACAAGCATGTTACTTCGTATGATGGTATATACAAGAGA
TAAAAAAAAGGAAGAAAAAGACCAAAAGACAAGTCGAACATACAAGAAAA
GACCGACGGAAAAGATTCGAACCCCCTCCAATGTACTGCTTTCGAAGTGC
GGTAACGGATGATGTGGTTCTGTGCGGTAACTGGGACTCTGAAAATGTCG
CGGTAATTGTTACCGCGGTACCCACAAATCGCGGTATTTTGCGATATTTT
CACAGTAATTTTGCCCGCGTGAATGGGACAATTTTTTTCACGGTAATGGG
AATGGGACATTTGTTTCGTTGCGGTAACTGATTGTATGGAAATGGGACAA
TTCAAAAAGCGCGGTAACGCCAAAAGTCCATTACCGCGGTAATCACTGCA
GTAATTACTGCAGTAATTACTGCACGGGAAATCTGCCGAGAGGTCCCTTG
ATCTTTTCGAGGGACAAAATAATTCCTGCTGTGCCGCCGGTATCACATGC
AACAAAAACACTGAAACACGACCCGATCCCCAGCAACCCCGTGACCAACG
ACACGAGACACGTGTGACAGATGTCCCAATATACACGAACACTCGACAAC
AAATTGCGCAAGAGAAAGGGAAACAAACATGCGTGTATGTTTGTGAGTCA
CGGCAACCGAGCAAAAATTACTCTCTCTTCTTTCGATCCGACTGTTGGCG
GTATTTTCGCGTGCGGTGCAATGGGGTGCCTGTGCACTTTATCGAGTAAT
ATTGACTTCTACTACTACTACTACTTCTGTTCTGCTGTATTGGTAGATCC
TGCCAACGTACGGCAGCGAGATGAAGAGATTCGGGAGATGAAAGAGTCTC
GAATATATTTTTAGTATCGATCTGTCATCCGTGTGTTCCCAAGATCCGAT
TTTTCATTTTTCGCATTTTTCGGGTAGCCCGAGTTTTATACCGCAAGCCG
AAACAGGGAAAACAGTACAGCAGTAGCGCCAATAGGTAGGAGATGTTTCT
CGTACCTATAAATCGATTTTCGTACTCATGTCATCTGAAAGGTGTAGACT
TGTAGACCGGCTCCAAGAATAGGTGGGACGAAAAGACACTCACACACACA
TATACATACACCCTACACTGAATTACTTCCAAGTAAACAACGAGAGACTC
TCCGTATGTATGAAATTTATCTGAAACCTCGATGCGTGACTGTCGTAGAA
TTACAGTAGTAGACCCGACAAAGCGACGCCCTGAGTAGCGAAATGCCCTG
AATACCGACACCAAAATCGCTTGGCATCAATACGCCCCGATGAAGCGACA
TTTCATCGTTGCGATATCGGACTCATCCCGATTAGCGATGGTGGATTTCT
CGTGCTTCAATTGCTCCCAATTGTGATCAAAGGATAAAAAAAGTGCAATG
TTCTAAGCTGCAACAGCGACCTGGCACCTTCCCAATACACAACCAACCAG
GCTACAGGTATCCACTTCTCCTGACGATTAGGGTTAGGATTCTGTCAGGT
TGGGTCGTGGAGTCGGTGGTGAGTGTTTAGACGAAAGGGTGCCGTGCAGT
ATTCAGAGTGAGGGTATCGATCAGCGTGTCTACCTCCACAGATGACAAAA
TACTCAACACGCAGCTATTGCAGGTGCATCCCTCATTTGTTCTCTAATTC
GCGCGCTACGGTATGTCGCTCCATTATAGTCACGATATGTCGCCATATCG
GGCTATACGCATTGCAGCGCAAATACTTCGTTTGTCTTTATGCCTTCTGC
CCACGCCGCAAAACCAGCGCGGCAGGCAGACGTCGGGATATTCCGTGGAC
ATGATGGGTGGGTAGAGCTCCTAAGGTGTTTGAGCAGAGCATATTAGCGG
TACTGAGTCCCTGGTCGGTTGTTTGTTTGAGTTGCAACACAAATGATATG
TGGGTGGTAAAATTTTGGTACCTGGAGTGAAATGTCACACGGCGGCATGT
GAAATAACATTTTTGAATTGGCACCGCGGGAATAAAAGACGCGTTGCTGC
ATTCCGCCTGCGTGACCCCGGCTGGTGCGTCCACCTGCAGCCCAAAATAG
ATGAGATGAACACGCACACAAACTCACATTTTGAGTATTTCTGAAAACAC
CCTTCAAATTAGAAGACCTCTAAACGAATGCATGACTGCTCCAGGGGAAG
CATGGCAAAAGGAAGACACCATGTCGCAGTTGCGTGCGTATCGGCACGTG
CAGATCTGCTGCTGGTGCAGGAATATCGAAGGGCAGTGCAGTCAAAAAGT
CCGCAAGCTTGCGGAAAGGATTGACGGAACTCCTGTGCTCGCTGCCGCAG
ACCCTAACTCCGGGTCATCCGAGGTGGTTAGTGGCACCAGCCACGCTGTA
GACAGGTCAAGATGTTCGGGTATGTGGCAGCTAGTACAGCAGTGACAGGC
CTTTAGTTTCGGTCCAGTTTGCGGACTTTTGACCCACTACTGCGGTCTTC
GAATCTCCGCACCAGCAGCAGATGTGAACACACCGATACGCAAAAAGCTG
GTACATTGTGTCTTGTACTGATCTCAACACTACAGTCGGGACTTCTTGCA
CAACAGACTATATTCGAGCCTTGTCTTTTTGAATCCGTTTTGACTTGATT
TTAGTACAGTGGAAGTTTTGTCTTGACTTACGTAGGGGAAAGAAAATATG
GAGGTGAACAGGCTTGCACCCACCGCCGCTGCGCGTGAGACTGGACGTGC
TTTTCCTGCCCAACGCTTTCCTTCTGGTTTGATCGACCTTCTGTGTGATT
GCTGGGTGCTCTTTCGGTGTATGTCACAGCAGATACACACAGCTTGCGGG
CGATAGCTTTAGTATGTTGCTGTGGTCTCATTACGCCGAGAGCGACGAAT
AAAACCTAAAGTGGTGGCTACGCAATATCCTGCCGCTGCTGCTGCTGTCG
TGGCTGTGTTCAAAAGCTCAGAGCAGCTGCCGGCTCTCTCTCGAGATCCC
ACCGTTTTTTTCTAGTCCGTCACTTTCTGACGAATGGAGCCATAGCAATC
CCAAAGATGTCGTCCGTGACCTGTGTGCGTAGCCCCTCTCGTGTAATCCA
TTGAGGCCGCGAGCCATCGATAGGTTGGCAAAAAAAAATTGCAAGTCGCG
TTATCGTGGGGTGACGTGGTGTTCGAATGATCGTAAATAAACGCTTACAA
TATATATATGTAAACACCGCCGACCCGGTCAACAAAAAAAAAATCCTGAT
CGATTGAGTCGGCCAAAAAATTCCCGTGAACTTCGGATCAGAGACGATGC
TTTTATCGAACCGTACGATGGCGACCAAGCTTTCAAGATGGGAAAGGGCT
TTTCCAATTTTGGTTTTGAGAATCGCAAGAAGTGGTCAAACCCTCGGGTT
TGGCATGTTGTGCAGCAGGTCTGCGTTCCAACAGTGCGATGTACACAGAT
ACCCCAAGGAAATGACTCGTTCTTCGCCGCATTTGCTCGCCTACCAGATC
CGCGCCTACTTTTCAACGCAAAAACAAGGTAGACGGTACCCGCAAGTACA
TGCCGCAATGCGTCCGCCAGAAGCCGCGCTAGGCGCCGAGTTAGTGCGCT
CAGGCGCACCAGGAAGCTTAAGTGCTTGCTGGAGTTGCTGGCGTGCTGGT
TTTATTCGCAGTGTGAGCGTGTGGGTGTGTGAGTGTTTCCCTTCGGTGTG
TCTATAGCAGCACTTGCTACACAGTGGCGTGCGTGTTGTGACGATACACT
CAATCAACCGCGTGCACGACCCAAAGATTAAAACGTAGGTACTCACGCGA
CCTCGCGAAGATACAACACTAAGAAACAACCCAATCCAGTACGACAGTCA
TTCAGGTTTCGAAGTTGGCTGTGTAGATCATGACTCGGCCTTCACCAATC
TTTACCAGCTCCCTATTCCACTGCGTCGAACTCCGAAAACTCTCCCGAGA
GTTATTTTCGAAGGTAACTCAGTACTCTCTTTGGGGTGCAATAGCGACGT
GGATGAATGTTGCGCGTTGATCATTCAAGGACAATACCAATTGCAACTGG
CTTTCCAATCCGGGTGTTACAATTTTTATGTAGGCCTGGCCTAAGAAGTT
GCCTTCAATGCGGCCAGCCTAGGTTGATGGAATACCCAACAGTTTTTCGA
CGATTCTCAAGCGCCATTTCGAAAAAGGTTTTTAGGTAAATTGAAGTCTG
GTTTGGAGGTAGGTTGTGGTAGCGCAAAGAATTAAGACAAGCAAGCCTTC
GTTCGCTGAGAATCAACCAGGCGCCCGCGCATTTGACTCGAACGCACGCG
CGTCGAATTTCAAAATGGAAAAACAGCCCCGTTGACGAAACGACTCAGTA
CTGGCGTGTCAAGAGACTTTTTTTCGATCAAGCCTTACAGACTGTGTGCT
CAATTGCTGTGAGCTTCTTCGCACCAAGCTTGATAATCGCAGGCGCGGTG
AGTGTCGAATACGCTTTGTTGTAACCTTTTCTAACCATATGAATTTCCAG
CTGGCCCGCTCGGAAAAACGTGATTTTCTAAACGAGCCAACTGGGATTTC
CATGGTTGGAAAAAATTGTCTTCCTTGTTTGTATTGGACGGTCGCGCCTA
TGCTCAACAGACGTTGTGCGAAGCTCACAGCAATGGAGCATTCAGCCTCA
AAGGGTTTAGCTGTCAAGGGTCTCATGTGACAGACGCGAGTACTGACTCG
TGGCGTGAACTTGGCTGATTTTCCAATCTTAAATCCGATGCGCGCGCCTG
ATCGGTTATCAGCATTTTGTTTTCCCTTAGACCGTATTTAATGGAGACAG
AAAACTTCATCAAAATGCAATCTTCGGTCAGGATTCGGCGACGAGCATTT
TTTTCACTTCTTTATGGATACAAATCCTTCTGAAAAGGCGGCCGAAGATT
TCCCAAACAGACGATTCCGGCCCTTTTTGGGAAATGTTTGGTGAACATTT
CCCAAACTCGGCAGTCTTGGAAATCCTGAAGCGGCGGGAATTCAAAGTCG
GTCCGCTTATTGTCCCGACACCCGACACACCAACACCAAGCGCAAACACG
ACCTTCACATGACACACACGGCTTAGAGCTTGGCATACATCAGCCACACT
ACCCACGGTGACACACTCGTGCAAGCACGACAGAGAGGGCTCAAAGAAAC
CCTTGAAATCACCGTGACAAACACTTTGTTTGGCTTTGGGTTGGTGACGG
GCACACGTAGACCCGCCGGACTGTAAATGGGAGCGGCTCTTCATATAGGT
CACGTGGCACGTGGTGTGGTTATCTCTCTGTGAACGGCTCTCTCTGCTCT
CGGTTGGGAAGACAGAACACACGCACGTGACTCGATCTCATACAATTAAC
GAGCCGTTGCTCATTTTTTTTGCATGTCTGGCACGCTTCCACCACCAACC
AGCGGTCATCGTGTTGATACGGTGACAAGAGGGTTGCTACGAGCTCTCTG
TGGCCTCTCGACGTTCAGATTCCATGGTGCAGTGGTTATTTTTGTCCGTA
ACATTCGTTGACACAACCAGCCGCGGACCAACACCACAAGAAATAATAAA
AAAGAGAACAAAAAAAATAAAATAAAAAGGGAAAACAAATGTTCAGTGAC
CACAAGCCGCGGTACGAAATGTTTGGGAAACGAACGTTCGGCTCCAAAAT
GCTGACGAGCATTGTGACAAGATTGCATTTTTACGAATTTTGCCGTCTCC
AATAAAAACGATCTTACCGTAGAGATCATTGTCGTCCCGCCTCTATATGG
CATTTCCACCCCCTCCCACCACCTTTTCAGCCTTGAACCATGTAACCTTT
GATTTTTCCTCCGGGGTAATTTTTTGCCGGTTCGTTCCTCCCGTTTTTTT
TATTTTGTTCTTGCGATTTTGGCATCACTGCGAATGAAAAGCGCCGGCTC
TTCGAGGCCGGCAAGCTATTTTTTGATATTCTCAGGTAGTCGTCACTGAG
GCCGATCCGAACGCACACCCGGGCCTGGATTGCTTGGATAGCAGTGACTG
CAGTAGCAGTGGTGCGTGATGAACGAAGACCACGCGATCAATTCAGATCA
CTTGTTTGTCCGGAGAACAGATGGTTTTAAATATTTTATTCATTTCCGCC
GTTGAGAAAAGAGAAGGAGAGTGCCACGATGTGGTTCACTCAGCACACAT
CACACCACACAGAAAACAAACTATCTACTGACGGCTGTAAGTGTGTTTGA
TGTGCGTGCATTTATTTTTTGTGGGCGAACCCCCCGGGGTAAAGTTCGGA
AAACAAAACATTGGCCTTTCTCCCCGGGGTGACGTCATCGAAAGAAAAAG
ATCCCCCCCAAGACTCAATTTGGTCCCGGGGGGTTCGTTTTCGGAAAAGA
AAACGTACCCGCCGGGGGTACGACAAAGATCTCTGCGGTATATCCCAAGA
TTAGGTCTCCCAAGAGTGTTTCATGTGACGTGTAGCCTGGAATTCAAGGC
GCCGCTGTCAAACGCGCAATTCAACATCCTCATTTGCTCTCTTCGCGCTT
TCCCTTTTTAGCAGCGAAAGGTTTACTCTACACCAACTCTCCTCTACACC
AGGGCTCTCTATTATTTTCCGTGCAGCGTTCGACAGTCTTTCCATCCCCC
GGTCTCGCTCCCCCCAGTTCTCTATCCAAATAAACTTTCAAAATAGTACA
CCGACACGTTGGCTTCAGCGGCAGCGAAAATGACGTACTGGTGTGCGCAT
TGCTGCAGCGCACTCACCCTTCCTCATGCGATAGTGCCTCGTTTGGGAAG
TGCAACCTTTTTCCTTTTTGTCGCCCTCTGACATCTGATGCAATTGCCTT
TGGCCTTTTGCACGTGGGGGCACCCGGTGCGATGAGCAAGATATCGTTGA
GGATGGGGTTGTCAAACGCCAGCAGCGGCCAAGTGCCCGCTCGCACGGGG
CTGCCGGCCTCCTGTTTCGCTTCTCTGGACCCTTGCGCCATCCTTGCTAT
ACGACTAAAATGTGATGAAGTATCAAGATGATGAAGAGCTGCTGTCGTGA
AATTAATTTTTTATTTGTACCCCCGCTTTTAGGACCTTCGAGGGTCGTAT
TCTCAAAAATACAAACAAAATCAAACCCGAATTTGTGTAGTAAGACCACG
CCCCTTCAATTTCAGGCCCACCACATCGGCATGACACGAGTATCGTTCGA
CTTGGCAGCCATATGGCGCTGTCGGTCGTAAAAATACTTACGTGTCCCCT
TAAGTTCGACCTTTATGTACGTCGGCACGTGGAAGATGGCAGCAAAACTT
GTGGGAGCGCACTCAGAGAAGCCGCTTCGGCAGATGGCCATAAAATTAGG
GCTGTCTGTAAAAGAGTATTTTTTGAGATTTTTTTTGACCGATTGTTGAT
CGATTTTTGGGTTTTCAAAAACATCGAAATATAATCGGGCTGATTTTCCG
ATAACGATTTCGTTTGAAATGGGAACGATCAATTGAGTGAACCCGCAGCG
ATTCCCAGCCCTACATGGAAAACATCATCGGTCCTCCCAGCATATGAAAA
TATTTTGCGTCTCGTACAAACATTCTGTTTCTTGAACCCATTCCTACTGA
CATCTCTCAACTCCCGCGCTTGGCTGGGTGTTGTAACCCTCTCGTGGTTG
TCGGACCATGTGTAGCTTTTTTTCAACCGGTGACGCACCGTCAACAAGTT
CTGCAGATACCACCAAGGATATGGAGTTTTCATTGCCGCCAAACAACGCA
GTGCACTCAAAAAGCTGACCTTCGTTGAGGTTGAGACCGTTAGATGTTGA
TAGCCGCTATCAACAGGTTACACCCACGATGCGACACTCCTCGGCTGCAC
GGGGCTTCCGTTTGACGAAGCCTTTCACGTTGGTTTTGACTTAGCCAGAT
TGTCTGCCGATTGTTTGTTCGGAAGTGACACTTGTTGAACAAGCCGCCGG
CGAATAATCCGTTCCTTTTTTCGTGTTCTTGTTGTGCAGGTTACCTCAGG
TCGTGATGTGCACTGCGCAGAACTTGCTGCAGCGGTTTTTTTACCGCAAG
CCGCTGACAAAGTTCGACGCGTTCAGCGTAGCGATGGGTTGCATGCTTTT
AGCAATGAAGATCGAAGAAGACCCACGCCAGCCTCGTGCGGTGGTGCTGG
TATTTCACCGCATGTTTGAACGGCGGATGGGCGTGGAACCCTCGAGCGTG
GTTCCTCCTGAGTCGCTCAGGGCTCTGCGGGACGAAATGCTGCGTGTCGA
GCTCCATGTTCTGAAGGAGCTTGGTTTCGGATTCTACAACATCATGGACC
ACCCTCACAAGTTCATTCTCTACTACCTGAGAGTACTCGATTTGGACATC
GAAGGAGACGTTTCTCAACGTGCTTGGAACTACGTGAACGACTCGCTTCG
CACAGATCTATCGCTGCGTTTCCGCTCCGAAGTAGTAGCATGCGCGGCAA
TCTATATGGCCTCACGCTCACTCGGAATCAAGCTGCCTGACAATCCGCCA
TGGTGGGTTCTCTTCAACGCAGACATGCAAGAAATGGGCAAGATCTGCAA
CACTATCTTGGCCCTCTACCATCGACCAAAAGTGGCGTTCTTGGAACCGC
TCTGTGAGAGAAGCGTTTTCACGAAAGGAGGCCCTCTGCGAAGAGAAGCT
GTTGTTGAGGGTATTCCAGAGGTGCACGTGCCAGCAGACGCGATGGTGGA
ACCCGCCTCATCTCTATCCGAACCAGCGGCTCCCAGCGCACAGGACTCCA
TCGAATCATCAACAGCAGCAGCAGTCAGTACAGTTTCTGTACGTGTTTAT
CACAGCCCTGAAGCACCGGTTCCCTCTGCACCAGGTGCGGGTAGTGACGT
AAACGGTCCTGAGAGCAATGGCACGGTTGACTCGTCTAGTAAGAAAGACC
CGGAGAGAGCAAGCGAAAGTAGAAGCCGGAGTCCTGGCAGCAGGTCTGCA
CAAAGCTCCAGGAGTCACAGCACAAGCCTTAGTGCACCAGGGATGGACCG
TGAAGATGAGGGTGCTGACCGAGAAGCAAACGGGCGGGCACCGGAAAGAG
CGCAGGACCGCGAGAGGGATCGAAAGCGCTCTAGGGAATCCAGGCGAAGC
CGGAGTCGCAGCCGGAGTCGTAGTCGCAGAGAGCGAAGAGGTGACAGCAG
AGAGATGGGCAGAGATCGGACGAGGGAGAGAGTGTGGGAGAGGGGGCGGG
GCAGGGACTGGGGAAGGGGCAGAGACCGAGAAAAAGAAAGAGGTGGGGAC
AGGCGGCACGACGGCAGGAGGAGTAGGAGGTAGTGAGTCCTCAAACAACC
TCCCAAAATATCAGCGAAGGTTGGCCTACAGCTACCGGATTGCACGTTGA
GCCGACACATTCGTTTTGTGCAGCAGGCCGGTTTCATTGCTGTTGCCGTC
TCTTGGGATGGTGAAACGGAATTGTGATTTCGTCGTGTCTTCTACTTTTC
TCCCACCCACTCCAGTTCCAGCGTTGTTTTTTATCGGGTCCAGCTCTCCC
TTTCGCGCTTGTGTCGAATGTCATTCACGCTAGGCGCTCTCCGCGGGCAT
CTTTGGCTGGAAGCCTTGGAGGGAAAAACAGGATAGTAGTAGACCGGAAT
TCGAACTCGTGATCTCACCGCTGGGGTGGTGAGGCTTACACTCTACAGTT
TTGCTTACTCAAGTGTCTCTTGGCAACTGACCTAACCAGTGTGTAGCAAA
GCTAGGAGGCTGCAAAATATGCAAACCAAATACAAATAGACTATATTTGG
CTAAACGGCAGGTGTTCCTGTTGTTGTTGGCAGGTCTCCTTCCTGCGGCT
CTACTGTCTGGGGGAGACATATTATGCGAACCAATCTCACATCACACCTT
CGGAGATTTCCATCATTCAGATACGAAATCTCCATCATTCACGGAAGTCC
CAACAGCCCCGTCAACCGTTACGTCTGTCTGACACCGCACGTCTCAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig153:444269..468715+

>mRNA_P-littoralis_Contig153.115.1 ID=mRNA_P-littoralis_Contig153.115.1|Name=mRNA_P-littoralis_Contig153.115.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1485bp|location=Sequence derived from alignment at P-littoralis_Contig153:444269..468715+ (Pylaiella littoralis U1_48)
ATGGCCAACGATTCGGTGGCCACGACCTTAGGTCAAATTCCCGACGATGA
AGCGTGGCACAGAACCATTATTCTCCCCCGTGATATCTTGGATAACCCAC
CATCGGGGGAGCACGAGGTGGACTGGGAAACAGAGTCCTCCCACCGCATT
TGGGGTTGCGAGCTTTTGCAGGAAGCTGGGATCCTGTTAAGGTTACCTCA
GGTCGTGATGTGCACTGCGCAGAACTTGCTGCAGCGGTTTTTTTACCGCA
AGCCGCTGACAAAGTTCGACGCGTTCAGCGTAGCGATGGGTTGCATGCTT
TTAGCAATGAAGATCGAAGAAGACCCACGCCAGCCTCGTGCGGTGGTGCT
GGTATTTCACCGCATGTTTGAACGGCGGATGGGCGTGGAACCCTCGAGCG
TGGTTCCTCCTGAGTCGCTCAGGGCTCTGCGGGACGAAATGCTGCGTGTC
GAGCTCCATGTTCTGAAGGAGCTTGGTTTCGGATTCTACAACATCATGGA
CCACCCTCACAAGTTCATTCTCTACTACCTGAGAGTACTCGATTTGGACA
TCGAAGGAGACGTTTCTCAACGTGCTTGGAACTACGTGAACGACTCGCTT
CGCACAGATCTATCGCTGCGTTTCCGCTCCGAAGTAGTAGCATGCGCGGC
AATCTATATGGCCTCACGCTCACTCGGAATCAAGCTGCCTGACAATCCGC
CATGGTGGGTTCTCTTCAACGCAGACATGCAAGAAATGGGCAAGATCTGC
AACACTATCTTGGCCCTCTACCATCGACCAAAAGTGGCGTTCTTGGAACC
GCTCTGTGAGAGAAGCGTTTTCACGAAAGGAGGCCCTCTGCGAAGAGAAG
CTGTTGTTGAGGGTATTCCAGAGGTGCACGTGCCAGCAGACGCGATGGTG
GAACCCGCCTCATCTCTATCCGAACCAGCGGCTCCCAGCGCACAGGACTC
CATCGAATCATCAACAGCAGCAGCAGTCAGTACAGTTTCTGTACGTGTTT
ATCACAGCCCTGAAGCACCGGTTCCCTCTGCACCAGGTGCGGGTAGTGAC
GTAAACGGTCCTGAGAGCAATGGCACGGTTGACTCGTCTAGTAAGAAAGA
CCCGGAGAGAGCAAGCGAAAGTAGAAGCCGGAGTCCTGGCAGCAGGTCTG
CACAAAGCTCCAGGAGTCACAGCACAAGCCTTAGTGCACCAGGGATGGAC
CGTGAAGATGAGGGTGCTGACCGAGAAGCAAACGGGCGGGCACCGGAAAG
AGCGCAGGACCGCGAGAGGGATCGAAAGCGCTCTAGGGAATCCAGGCGAA
GCCGGAGTCGCAGCCGGAGTCGTAGTCGCAGAGAGCGAAGAGGTGACAGC
AGAGAGATGGGCAGAGATCGGACGAGGGAGAGAGTGTGGGAGAGGGGGCG
GGGCAGGGACTGGGGAAGGGGCAGAGACCGAGAAAAAGAAAGAGGTGGGG
ACAGGCGGCACGACGGCAGGAGGAGTAGGAGGTAG
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