mRNA_P-littoralis_Contig117.3.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig117.3.1
Unique NamemRNA_P-littoralis_Contig117.3.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: D7FYW6_ECTSI (Nudix hydrolase domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FYW6_ECTSI)

HSP 1 Score: 397 bits (1021), Expect = 2.130e-128
Identity = 195/235 (82.98%), Postives = 212/235 (90.21%), Query Frame = 2 
Query:  410 MVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQNAESDRVLLRELNNIMEAHLA 1114
            M+L HTTD+YDGVTVD ASLP + EEF SVL+ SL+AWRS GKKGVWLKVPADRTELVPVS+DLGFELHHAEK YIMLN WLPS+ +QLP NASHQVGVGALVLN  GDVLVVRE++GPLRGTGIWKFPTGLIDAGEDLPDAAAREV EETG++TEFDSVLAFRHGH+GLFGKSDLFFVVRMRL PGAD S L+PQESEIEECQWMPR LFA+Q+AES  VLL+EL  IME HLA
Sbjct:    1 MLLEHTTDIYDGVTVDGASLPATTEEFKSVLEASLEAWRSTGKKGVWLKVPADRTELVPVSIDLGFELHHAEKAYIMLNMWLPSTASQLPANASHQVGVGALVLNEDGDVLVVRERNGPLRGTGIWKFPTGLIDAGEDLPDAAAREVREETGLDTEFDSVLAFRHGHRGLFGKSDLFFVVRMRLTPGADSSALQPQESEIEECQWMPRKLFAKQSAESGTVLLQELTTIMEGHLA 235
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A2P6TQS8_CHLSO (Nudix hydrolase 8 n=1 Tax=Chlorella sorokiniana TaxID=3076 RepID=A0A2P6TQS8_CHLSO)

HSP 1 Score: 253 bits (645), Expect = 8.660e-71
Identity = 122/231 (52.81%), Postives = 162/231 (70.13%), Query Frame = 2 
Query:  395 LPGSTMVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQNAESDRVLLREL 1087
            +PG   + GH  D YDG+ +D  +LP ++EEFT+ +  S+ AW++ G +G+WLK+P  R   V  ++D GFE HHAE DY+ML +WLP + N+LPPNASHQVGVGA VLN Q +VLVV+E++GPLRG G+WK PTGL+ AGED+ +AA REVLEETGV   FD VLA R  H   FGKSD+FF V ++L+PG  P  LR QE E+   +WMP   +   +  + R LLR++
Sbjct:   10 IPGR--LAGHE-DAYDGLILDPEALPSTVEEFTAAMDESIPAWQAHGYRGIWLKLPLSRAHFVGHAVDRGFEFHHAETDYLMLTRWLPDTENKLPPNASHQVGVGAFVLNEQREVLVVQERNGPLRGKGVWKMPTGLVQAGEDISEAAEREVLEETGVRARFDCVLAMRQAHGFAFGKSDMFFCVALKLEPG--PQELRMQEDELVGVRWMPLAEYLAIDFHASRPLLRQI 235
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A5J4Y3E2_9CHLO (Nudix hydrolase 2-like n=1 Tax=Trebouxia sp. A1-2 TaxID=2608996 RepID=A0A5J4Y3E2_9CHLO)

HSP 1 Score: 236 bits (603), Expect = 8.020e-67
Identity = 113/229 (49.34%), Postives = 159/229 (69.43%), Query Frame = 2 
Query:  401 GSTMVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQNAESDRVLLREL 1087
            G+ M+LG   D Y+G  V    LP + +EF S L+ SL+ W+  GKKG+W+ VPAD+++L+PV++  GF  HHAEK Y+ML +WLP++ + LPPNASHQVG+GA V+N + +VLVV+E+ GPL+G+G+WK PTGL+  GED+ +AA REVLEETG+E  F++VLA R  H+  FGKSD+FF V   LKP  D   L  Q +E++  +WMP   +A     + + L  +L
Sbjct:   73 GAQMLLGRA-DAYEGFIVSADDLPSTSDEFDSRLQQSLQDWQKSGKKGIWITVPADKSQLIPVAVQHGFTFHHAEKGYVMLTRWLPTTEDTLPPNASHQVGIGAFVVNSKKEVLVVQERFGPLKGSGVWKMPTGLVLVGEDITEAAEREVLEETGLEATFEAVLAIRQSHKAAFGKSDMFFAVA--LKPVDDSQKLVAQATEVDGVKWMPLEEYASNPFSATKPLYNKL 298
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: E1Z7H0_CHLVA (Nudix hydrolase domain-containing protein (Fragment) n=1 Tax=Chlorella variabilis TaxID=554065 RepID=E1Z7H0_CHLVA)

HSP 1 Score: 231 bits (588), Expect = 4.980e-66
Identity = 107/208 (51.44%), Postives = 145/208 (69.71%), Query Frame = 2 
Query:  404 STMVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWM 1027
            + ++ GH  D YDG   D+ S+P +  EF   L  SL  W+  G +G+WLK+PA +  ++  ++D GFE HHAEK+Y+ML +WLPSS N+LPPNASHQVG+GA V+N + +VLVV+E+ GPLRG G+WK PTGL+  GED+ +AA REVLEETG+   FD+VLA R  H   FGKSD+FFVV ++++ G     L  QE E+   +WM
Sbjct:    2 AALISGHE-DAYDGFICDEQSVPAAPGEFGVALDASLAVWQQKGYRGIWLKMPAAKAHVIGHAVDRGFEFHHAEKEYVMLTRWLPSSENKLPPNASHQVGMGAFVMNERREVLVVQERSGPLRGQGVWKMPTGLVQQGEDISEAAEREVLEETGIRARFDAVLAMRQAHGFAFGKSDMFFVVALKMEAGPQARELCMQEDELVGVRWM 208
[Close]
BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A061R3E1_9CHLO (Nudix hydrolase 2-like n=1 Tax=Tetraselmis sp. GSL018 TaxID=582737 RepID=A0A061R3E1_9CHLO)

HSP 1 Score: 231 bits (588), Expect = 2.010e-65
Identity = 116/211 (54.98%), Postives = 142/211 (67.30%), Query Frame = 2 
Query:  416 LGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQ 1048
            L  T D Y GV V  + LP   + F + L++SLK WR  G KGVWLK+P +   LVP +++ GF  HHAE DY+ML  WL  S + LPPNASHQVGVGA VLN +G+VL V+E +GPL+G G WK PTG++  GEDL + A REVLEETG++ EF +VLA R  H   FGKSDLFFV  MR KPG  P  L+P E+EIE   W+P   F Q
Sbjct:   12 LSATGDSYGGVVVHSSGLPKEPQIFKTSLQSSLKVWRRNGTKGVWLKLPIEYAALVPEAVEQGFIYHHAEADYVMLCHWLQDSPSTLPPNASHQVGVGAFVLNDRGEVLAVQEGNGPLKGKGAWKMPTGIVSTGEDLHEGACREVLEETGIDAEFQAVLAVRQAHGFGFGKSDLFFVCAMRPKPG--PQELKPCETEIETAAWIPLEEFLQ 220
[Close]
BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A2P6VEC6_9CHLO (Nudix hydrolase 8 n=1 Tax=Micractinium conductrix TaxID=554055 RepID=A0A2P6VEC6_9CHLO)

HSP 1 Score: 231 bits (590), Expect = 2.560e-65
Identity = 119/247 (48.18%), Postives = 160/247 (64.78%), Query Frame = 2 
Query:  374 DQQEERELPGSTMVLGHTTDVYDGVTVDKASLPD-SIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSST-NQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQNAESDRVLLRELNNIMEAH 1108
            D   +   P + ++ GH  D YDG+ VD    P  +  EF   L+ SL AWR  G +G+WLK+P  R   V  ++D GF+ HHAE+DY+ML  WLP+   N+LPPNASHQVGVGA VLN + +VLVV+EK GPLRG G+WK PTGL+  GED+ +AA REVLEETGV   FD+VLA R  H   +GKSD+FFVV ++L+PG  P  L+ QE E+   +WMP   +  +   + R L ++++    A+
Sbjct:    7 DAAPQPAAPQAGLLQGHE-DNYDGLIVDDFEAPPGTAAEFADALQGSLAAWRDKGYRGIWLKLPTTRAHYVGHAVDAGFDFHHAEQDYVMLTTWLPTDCENKLPPNASHQVGVGAFVLNERREVLVVQEKSGPLRGKGVWKMPTGLVQQGEDVTEAAEREVLEETGVRARFDAVLAMRQAHGFAWGKSDMFFVVALKLEPG--PQVLQMQEDELVGVRWMPLEEYFAEPFTAARPLFKQIHAACRAY 250
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A7S3VTM7_DUNTE (Hypothetical protein n=1 Tax=Dunaliella tertiolecta TaxID=3047 RepID=A0A7S3VTM7_DUNTE)

HSP 1 Score: 229 bits (583), Expect = 2.260e-64
Identity = 111/219 (50.68%), Postives = 147/219 (67.12%), Query Frame = 2 
Query:  395 LPGSTMVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQ 1051
            +P   ++L +  D Y GV VD   LP  +  F + L+ SL+AW+  GK+G+WLKVP      VP +++LGF  HHAE +YIML  W+ S  + +PPNASHQVG+GA V+N    +L+V+EK+GPL+G G+WK PTGL+DAGED+  AA REV EETG+ T FDSVLA R  H    GKSDLF +V +  +PG   S + P ESE+E C+WMP   +A Q
Sbjct:   39 VPQPELMLEYANDAYGGVIVDTKGLPSDVHHFKAALRDSLQAWQQDGKRGIWLKVPLLLATHVPPAVELGFRPHHAEPEYIMLVNWVGSGVSTIPPNASHQVGIGACVINEHRQILMVQEKNGPLKGKGVWKIPTGLVDAGEDIHTAAEREVQEETGIRTTFDSVLAVRQAHGFGAGKSDLFVMVGLIPEPGQ--SKVTPCESELEACKWMPLEEYADQ 255
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A1Y1IAP3_KLENI (Nudix hydrolase homolog n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1IAP3_KLENI)

HSP 1 Score: 228 bits (580), Expect = 2.860e-64
Identity = 117/231 (50.65%), Postives = 149/231 (64.50%), Query Frame = 2 
Query:  413 VLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQNAESDRVLLRELNNIMEA 1105
            VLG   D YDG+ V+   LP ++EEF S L+ S+  W++ GKKG+WLK+P    +LVP ++  GF  HHA+  Y ML  WLP   + LP NASHQVGVGA +LN  G+VL V+EK+GPLRGTGIWK PTGL + GED+  AA REV EETG++ EF  VL FR  H    GKSDLFFV  +R    A    + PQESEI + +W+    F +Q   +DR L R + +I  A
Sbjct:   17 VLGAIEDRYDGMIVEADLLPSTVEEFRSRLEASILHWKAQGKKGIWLKLPLSHVDLVPTAIKAGFGYHHADPGYCMLTLWLPEVPSTLPANASHQVGVGAFLLNDAGEVLAVQEKNGPLRGTGIWKLPTGLANHGEDICAAAVREVKEETGIDAEFQEVLCFRQAHGIAHGKSDLFFVCALR----ALSHDITPQESEIADAKWLSLKSFREQPFFADRPLFRTMMDICAA 243
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A7R9Y4Y8_MICPS (Hypothetical protein (Fragment) n=2 Tax=Micromonas pusilla TaxID=38833 RepID=A0A7R9Y4Y8_MICPS)

HSP 1 Score: 229 bits (584), Expect = 6.020e-64
Identity = 111/228 (48.68%), Postives = 148/228 (64.91%), Query Frame = 2 
Query:  362 TPKQDQQEERELPGSTMVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSL-DLGFELHHAEKDYIMLNKWLPSSTNQL-PPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTG---IWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMP 1030
            +P +   +      +   L H+ D Y GV VD  +LPD+ + F + L +S+  W++ G +GVWLK+PA R ELV V++ D GFE HHAEK + ML +WLP+  + L PPNASHQVGVGA V N  GDVL+V+E+ GP         WK PTGL+D GED+P AA REV+EETGV  EF+++L  RHGH   FGKSDLFF+V ++L  GA+ + +  QE E+    W P
Sbjct:   52 SPSEKDDDAMAAAATQTTLAHSVDRYGGVIVDADALPDTADAFAAALASSIARWKATGVRGVWLKIPAKRAELVGVAVHDGGFEFHHAEKTHAMLTRWLPTDEDDLLPPNASHQVGVGAFVTNGAGDVLLVQERRGPAAAASRPNFWKLPTGLVDCGEDIPSAAIREVMEETGVAVEFEAILGIRHGHDVAFGKSDLFFLVALKLADGAEDAAITIQEQELAAAAWKP 279
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BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Match: A0A7S3HM02_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HM02_9STRA)

HSP 1 Score: 229 bits (583), Expect = 8.080e-64
Identity = 108/213 (50.70%), Postives = 150/213 (70.42%), Query Frame = 2 
Query:  413 VLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKVPADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVGALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEETGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEIEECQWMPRTLFAQQ 1051
            VL HT D YDGV +   +LP  +  F ++L +S++ W+   ++GVWLKVP +++ LV  +++ GF  HHAEKDY+M+N WL    N++P NASHQVGVG +V+N+ G +L+V+EK+GPLRGTG+WK PTGL D GEDL +AA REV EETG+ETEF S++  R  H  LFGKSDLFFV  ++ K     +T+  Q +EI  C+W+   ++ QQ
Sbjct:   51 VLNHTVDRYDGVIISSKALPTDVVSFQTILGSSIQFWKENRRRGVWLKVPIEKSVLVAPAVEAGFVFHHAEKDYVMMNHWLSEDENRMPLNASHQVGVGCIVINN-GKLLMVQEKNGPLRGTGVWKMPTGLSDPGEDLYEAAVREVFEETGIETEFVSIINIRQSHTALFGKSDLFFVCLLKPKN----TTITMQPAEIAACEWVNAEVYLQQ 258
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig117.3.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FYW6_ECTSI2.130e-12882.98Nudix hydrolase domain-containing protein n=1 Tax=... [more]
A0A2P6TQS8_CHLSO8.660e-7152.81Nudix hydrolase 8 n=1 Tax=Chlorella sorokiniana Ta... [more]
A0A5J4Y3E2_9CHLO8.020e-6749.34Nudix hydrolase 2-like n=1 Tax=Trebouxia sp. A1-2 ... [more]
E1Z7H0_CHLVA4.980e-6651.44Nudix hydrolase domain-containing protein (Fragmen... [more]
A0A061R3E1_9CHLO2.010e-6554.98Nudix hydrolase 2-like n=1 Tax=Tetraselmis sp. GSL... [more]
A0A2P6VEC6_9CHLO2.560e-6548.18Nudix hydrolase 8 n=1 Tax=Micractinium conductrix ... [more]
A0A7S3VTM7_DUNTE2.260e-6450.68Hypothetical protein n=1 Tax=Dunaliella tertiolect... [more]
A0A1Y1IAP3_KLENI2.860e-6450.65Nudix hydrolase homolog n=1 Tax=Klebsormidium nite... [more]
A0A7R9Y4Y8_MICPS6.020e-6448.68Hypothetical protein (Fragment) n=2 Tax=Micromonas... [more]
A0A7S3HM02_9STRA8.080e-6450.70Hypothetical protein n=1 Tax=Spumella elongata Tax... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig117contigP-littoralis_Contig117:27784..48594 +
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.D7FYW6
PFAMsNUDIX
Model size2782
Max annot lvl2759|Eukaryota
KEGG rclassRC00005
KEGG koko:K13648
KEGG ReactionR05191
KEGG Pathwayko00520,map00520
Hectar predicted targeting categoryother localisation
GOsGO:0000166,GO:0003674,GO:0003824,GO:0004551,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005829,GO:0005886,GO:0006950,GO:0006979,GO:0008150,GO:0009605,GO:0009607,GO:0009611,GO:0009966,GO:0009967,GO:0010646,GO:0010647,GO:0016020,GO:0016462,GO:0016787,GO:0016817,GO:0016818,GO:0023051,GO:0023056,GO:0035529,GO:0036094,GO:0043207,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044424,GO:0044444,GO:0044464,GO:0047631,GO:0048037,GO:0048518,GO:0048522,GO:0048583,GO:0048584,GO:0050662,GO:0050789,GO:0050794,GO:0050896,GO:0051287,GO:0051704,GO:0051707,GO:0065007,GO:0071944,GO:0080151,GO:0097159,GO:1901265,GO:1901363,GO:2000031,GO:2001023,GO:2001025,GO:2001038,GO:2001040
Exons8
Evalue1.1e-137
EggNOG OGsKOG0648@1|root,KOG0648@2759|Eukaryota
Ec32 ortholog descriptionNUDIX hydrolase domain
Ec32 orthologEc-19_002730.1
EC2.4.1.43
Description8-hydroxy-dADP phosphatase activity
Cds size903
COG categoryL
CAZyGT8
BRITEko00000,ko00001,ko01000,ko01003
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig117.3.1prot_P-littoralis_Contig117.3.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig117 41537..47124 +


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

Feature NameUnique NameSpeciesTypePosition
1680789487.0133164-UTR-P-littoralis_Contig117:27783..278661680789487.0133164-UTR-P-littoralis_Contig117:27783..27866Pylaiella littoralis U1_48UTRP-littoralis_Contig117 27784..27866 +
1680789487.027209-UTR-P-littoralis_Contig117:39894..400771680789487.027209-UTR-P-littoralis_Contig117:39894..40077Pylaiella littoralis U1_48UTRP-littoralis_Contig117 39895..40077 +
1680789487.0384781-UTR-P-littoralis_Contig117:41393..415361680789487.0384781-UTR-P-littoralis_Contig117:41393..41536Pylaiella littoralis U1_48UTRP-littoralis_Contig117 41394..41536 +
1680789487.1241262-UTR-P-littoralis_Contig117:47124..485941680789487.1241262-UTR-P-littoralis_Contig117:47124..48594Pylaiella littoralis U1_48UTRP-littoralis_Contig117 47125..48594 +


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

Feature NameUnique NameSpeciesTypePosition
1680789487.0510361-CDS-P-littoralis_Contig117:41536..416831680789487.0510361-CDS-P-littoralis_Contig117:41536..41683Pylaiella littoralis U1_48CDSP-littoralis_Contig117 41537..41683 +
1680789487.0682862-CDS-P-littoralis_Contig117:43480..435721680789487.0682862-CDS-P-littoralis_Contig117:43480..43572Pylaiella littoralis U1_48CDSP-littoralis_Contig117 43481..43572 +
1680789487.079776-CDS-P-littoralis_Contig117:43813..439261680789487.079776-CDS-P-littoralis_Contig117:43813..43926Pylaiella littoralis U1_48CDSP-littoralis_Contig117 43814..43926 +
1680789487.0890052-CDS-P-littoralis_Contig117:44394..444331680789487.0890052-CDS-P-littoralis_Contig117:44394..44433Pylaiella littoralis U1_48CDSP-littoralis_Contig117 44395..44433 +
1680789487.1030066-CDS-P-littoralis_Contig117:45152..453491680789487.1030066-CDS-P-littoralis_Contig117:45152..45349Pylaiella littoralis U1_48CDSP-littoralis_Contig117 45153..45349 +
1680789487.113553-CDS-P-littoralis_Contig117:46809..471241680789487.113553-CDS-P-littoralis_Contig117:46809..47124Pylaiella littoralis U1_48CDSP-littoralis_Contig117 46810..47124 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig117.3.1

>prot_P-littoralis_Contig117.3.1 ID=prot_P-littoralis_Contig117.3.1|Name=mRNA_P-littoralis_Contig117.3.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=301bp
MVLGHTTDVYDGVTVDKASLPDSIEEFTSVLKTSLKAWRSVGKKGVWLKV
PADRTELVPVSLDLGFELHHAEKDYIMLNKWLPSSTNQLPPNASHQVGVG
ALVLNHQGDVLVVREKHGPLRGTGIWKFPTGLIDAGEDLPDAAAREVLEE
TGVETEFDSVLAFRHGHQGLFGKSDLFFVVRMRLKPGADPSTLRPQESEI
EECQWMPRTLFAQQNAESDRVLLRELNNIMEAHLASGCVTAEKSRTETAA
EDFSEREQGQEQPSCGEEGEGRRFAAAFKAKMLRSSRQIGGKSMLYHGTL
*
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mRNA from alignment at P-littoralis_Contig117:27784..48594+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig117.3.1 ID=mRNA_P-littoralis_Contig117.3.1|Name=mRNA_P-littoralis_Contig117.3.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=20811bp|location=Sequence derived from alignment at P-littoralis_Contig117:27784..48594+ (Pylaiella littoralis U1_48)
TCCTTTGCTACTTGCTGCGGTTGGAGTGGGGTCGTGCGCGGACAGTTTCA
GTCCTCTGGGAATCTTTGCTAGAGGAGAAAGAGGTGTGGCACGGTTTTGG
ATGTACCAGTTGGAATCGAAAGTATTGATGACCCCAACCAACCTAAGCAA
CCGAGCTTTGCCGCAGGCAGCGAGACCAACCCGCCTGATGATACATGACT
AACATGTAGGTTAGTCTAATTCATCTTCAATTTTGTCTCTTTAGAAAGTA
GTACCTGTGGTATACGAAGTATATTTACTCGTATTTAGATGAACTTCTCT
AGGTTTTATCGGTCAATGTCGCCGTGTGGTTGTTCCATCTCCCACCCCAT
TCAAGGTTCAAATCTACCGCGTGATGCAAAAGCACGAAGCCTGCTACTGC
CGCCTCAAGTCATACTCTGCACAACTCTCTGAGCACTTGATGAAAGTACA
AACCCCATTAACGATGAAGGTCAGCCGTTTTCATAGAGTAGAGTACACGT
GGATGACGTCTCGATGATACGAGACGAAATAAACACGGTGCCCGTGGTGT
GGGTGTTTAGCCTCGTGCTTGGGTGGTGGTCGTGAATGCTTGTTGCGGCC
CCATGGGCTGTGTGTCACTCTTTGGGATCCGCGCGCACGGGGGATTCGAG
GGTCGTTTGAATATGTTGTTGTTGATTCTCACATTAGCTCACTACCGCCG
CAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAA
AAAATAAAAAAATAAAATATATGGACTATGATCACCCACAGTCAGATCAG
ACGTGGTACCGTTGGGGTACCATCTGTTGTGGCCAGGATACCAAACAAAT
ACAGAAAAAATAATAACAGGCTCGAAAGAAAAACAAAAATTGGAAACAGT
CCGACAAACAAAAAATAACCAAGACAAACCTCAACCATAACCATATACTT
CGAAGTACTTCGTGCATCGAACCAGGGCCCAGGGCCATGACAGACCAAAG
CAGGCGCAAACCAGGGCGATGGCCCAGTAACTACATGATCAACAGACGAA
AGACAAAAATAAAATAAAAAAGGAGATACAGGGAGGGCACAAAGACTGAG
GGAGTGCATTCGTACACAAACATAACAAACAGGCCGCCGCCAAACAAAGA
GGAAGCAGGGGAACGAAAAGGGAAAAGAAGTTTGAATATATATATATATG
GTTATGGTTGAGGTTTGTCTTGGTTATTTTTTTTGTTTGTCGGACTGTTT
CCAATTTTTGTTTTTCTTTCGAGCCTGTTATTATTTTTTCTGTATTTGTT
TGGTATCCCGGCCACCACAGATGGTACCCCAACGGTACCACGTCTGATCT
GACTGTGGGTGATCATGGTCCATATATTTTATTTTTTATTTTTTTCCTCC
TAGCACGATATGTGCCTGGTTTGTGACCACGGGCTAGACTGCGGCGGTAG
TGAGCTAATGTGAGAATCAACAATGTATATATACGAAAAGGATCAACAAG
TTCGAAGCAGATGGGTGTGAAAAGTCAAAAGCATGCTGTTGTGGTTAGGA
GACGAATGCGGCAGCAACCGTTGTGTCTCGGAAGTAGTCCACAGATGACA
GTAGTGACCCACGCCAGGCCTTGTCAAAACTGTAACTCAGGCTGTCGGTA
GCCTCTGGTTTGGGACCAACAGATCAGCCAAAAATTCGCGGAACATGAGC
TGTAATTTCGTGTTGCACACACTACTGAAGGACGGAGAATTATGCTCAAA
ACATTTTACATAAATATTACTCGGAGTACTTCGAAGTACTTGAAGTACTT
AACCCTTTTACCCCCCTGTGAAAAATCATGGAACAATTTTTTTTAACAAA
AGCTCTCTGAAAGCAAGTGAACGCGTCGCCAAAAAAATGGCGACGCGTTC
TTTTGCTTATAGAATGCGTTTGAGAATTGAGCGGTCAGCGAGGTAAAAGT
TTAGCTATTGGGAGTCACGTGATATTCCAAGTGACCAATAACAAAATGGC
GACCCAAAATGGCGACATTTGGCTACCTAGGGGTAAGAGGGTTAAGTACA
CATTCGTACTCCGGAGTACGAAGTAGGTAAAATATGAAACACACACATCA
CGCACAACAAATACACCCTACCCTGGTGGAGGTCATGTAACCCAAAATGC
CAACCTTCACTTGAGCAGTTTCATGTCATGCGGATGATCAGTGCCTTCGC
CTAGGTATAATTAAAGCAGACTCTGAAGGTATTCCGTGTTTTTAGGAGAT
GCGAGCTGTGTGTGGAGGTATTGTAGGACGCGCCTGCACAAAATTTCTGT
CATTTTCCGTGACCAAACGTTGAGCAACCACTTTCTGCCAACGTCTCTGC
ACTCCAGGAACATTCTATCAGGGCGTGTCTTGGAAAAAAAAACGAGGCGT
GGAACGTGGAACGTGGAACCTAGAATATTTCTCTGATTGGCCAACCTCAG
GGTGGCTCTTGTCCCCGCGGAATGCCCAAATCTAAAATCTAAAACCTAAA
ATCGAAATTAGATTTCGATTTTAGAAATGGGGTTGGGTCCACGCAGCCGC
AGCTGCGTTCATCTAAAATCTAAAAAGCGGAGGTACAATAAAAAAAATAA
AAGGAAGAGGAACGACCAGTAAGTCAGAGGACAGGCGGCTGTGGAATAGC
GTGCAGTTGCGATTGTTAAGCTGGTGCGGGAGCTGCTATGCCTCCAACGC
AGTGCACGATAGTGCCCTTAATCGGCCTGACTCAGGCGCGTTAGTTGTCC
TTAGTTTGAGATCGATAACCGAAAAAACCATGAAGAAATGTGTGTTTGAT
TGCGTGTTGCTCACCAGCATACCCTACATACCCCTACTTGACGCTTTTCA
GAGAGTCAACGAAGCCCACGCATTCAGCCGTTGTTGTACATGTTCTCTGC
AGCGACACCAGCTATGTTAGTCGGATGAGCTCGTCAGCATCTCGGCAGAC
TCCCCTCGGATAGAGTTCCCTTCTTTGCAGTTGGCATTACCATCTTCGTG
TGGAGGTACCGTTTGTGTACAGCAGGCAGCTACAAGAAGTTGTGTTGTGA
GTAAAAGCATACCGGTGTTTGTTGAGATCGAAATGCACAGCAGCACCACG
TATGTATACTAGTATTTGAGTCGTGAGCAACAACAGAACAAGCGAGGCGC
TGCTGTCTGCACACTTCTGCACACTTGAGTGGTGCTTTCCGGAATATTAT
CGGAATCCGCTGAAACAAAGTGAAGTGTATTATACGGGACACCAGCCTTC
TGCCGAGGTAACACATACGTACAACGGGGGGATACAAGTAGGGCTGTCAC
CAACTAAACAAAGACACATCGATATGCACCGATGTGCTCCCAGAAAGCAC
AGCAAACACATCTCTGGTCGTCTTCTAGGTCTATTCGATTTCTGAGCCGC
ATTTTAGATTATGAACTCGGATTTTTTCGATTTTACCCTTTCCTTTAGCT
TTCGGAATAATAAGGGCGAAATCGGAAATCTGCTGGATACGCCGCATGTG
CGGAGGGAATTTTGGCCAACCAGCAGTTTTTTAGATTTCGATTTTCGATT
TCGATTGGGTTTATTTCGGGGACAAGAGCCACCCTCAGGCCCATTTATAT
GGTAGAGTCGAAAACTGGAATCCAAGGGTTTCACATACCGTAGTTCGATG
TTCGACTTTTTGGGTCCTTTGTAAGGTCCTCTATTAACGATAGTCGGAAA
ATCATTATTGGAATAAATCATTATCATAGAAGGTCTCTGATTGACCAAGC
TTTTATTACCTTCCGACGACGCCAGTGATTTTCCGAAAAACCCTTTGAGA
CCAAAGAAGTCCAAAAATACTTAATTGGAAGAAAATCATTTATCATTATT
GGGGGTCTTAACCCGATCGAAGGCTTTTTCTGAACGATGTGCCTCGCGTA
CGAGGCTGGCCAGACCAAATACTACCGAGGCAACCAACAGAGGTGCCACA
GAACATAGCATACAGGTTTGCCGTTGCACCAGGCAAGCCAACGTTAGCAC
CACACATGACAGCGCAACAAACAAAAACACCAGTTTGCATGATTGATGAT
GACGACCCACATTTCATTTTGCACAACACACCATCAGCACACACGACGCA
GACAGGCAGGTCACAGGTCACGAGCACGAAGCCGCCTCTCACAGCCCATG
GCAGACAGACACATGACACAGCAGCAGTCTTGAGTGCATGAGCCAACACA
CATACACACACACCGCACACGTCTACAAACGGGGTGTCTGTCAGCATCAA
GGCTTGGTGCACAGAGCCCACGACCTTGCCTTGCATGCGAGAGGACGCAC
ATGATACGTCCAAGTACTGCTGTACTGCTGTACGGAGTACTTCGTACAGC
AGTATATTTGATTGTTCTGTTTTACCCGTCGTGTCGTCATCATCAGAGGT
TTGCATTCTTCTGGCGTTTACAGACCTTCAAGAGCCTTTTCAGCTCTTTC
GTTAATATGGCTCGAAGGGTTTTTCGGGAAATCATACTATGAAAATGATT
TCAATAATGATTTTCCGACTTTCGTTAACACAGGGCCTAATTGCAGAAAA
GGCGAGTAAAAAAATCCCACACGCACACACACACACGGTTTGTGACCACG
GGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACACGCAAGTGC
TCCCAAATAGACCGGGCTGTCATATATATCGGTACGCAGCTGCTGCTGCT
GCTGCTGCTGCTACGGCTGCTGTGTGGTTGCGACAGGAAGCCACGCCCGT
GTGACTGCGTTTCACCTGGCCCCGCTTGCGCACGCGGGGCCCTGAGATTA
GTCGAAACCTCGCTGTCGCTCGGTATAGACACTTTCGTTTTGGGGCTATG
CTCTGCGGTCGTCTCTCTCTCGGTCGCCCTCTCTCTCTTGTCCTGAGAGG
AAGCGATAGACGCGGGTCTTCTATTCTAGTTACCAATTAATTTATTTCGT
CAAAAGCCCACGGGACTGCTGTAGGTTCGATGTTAAGTTTTCGAGTTTTT
GTGAAAGATGTTGAAGTTTTAGGCGGAATCGCCCCTGTAAGATCCGGCGT
AGACAAACTCGAACACCCTAACATCCGTTGTTTTATTTTATTTTCACGGC
CAATCACATGATTACGCCGCTTGTTCGATGTTTGATGTTCGAGTCAAAAA
AAATTACGTACAAGTGGGCCTCACCCACCCTGAGTTGTTATTGTTGATTC
TCACATTAGCTCACTACCGCCGCAGCCTAGCCCGTGGTCACAAACCAGGC
ACTTATCGTGCTAGGAGGAAAAATGAAAATAAAATATACTCCGTATGGAC
TATGATCACCCACAGTCAAATCAGATATGGTACCGTTGGGGTACCGTCTG
TGGTGGCCAGAATACCAAACAAATACAGAAAAAAAAAATTATAGGCTCGA
AAGAAAAACAAAAATTGGAAACAGTCCGACAAACAAAAAATAACCAAGAC
AAACCTCAACCATAACCATATACGGAGTACTTCGAAGTACTTCGTATATC
GAACCAGGGCCCAGGGCCATGACAGACCAAGGCAAACGCAAACCAGGGCG
ATGGTCCAGTAACTACATGATCAACAGACGAAAGACAAAAAATAAAATAA
AAAAGCAGAAGATACAGGGACCGCCCTGAGTGCTGCTCTCTGGATCCTTT
TTTTCACTCCGGGCTTGCAACTTTCTACGGAGGTATGTATGATATAATAT
CACTCATCATACTTCGAAGTATGACATAAACTCTCTTGGTCTACATGCTA
TGCTTCGACCAACGAAGCGAAGGCATGTTGATGTACAGCAGTAGTACTGT
TATGTGCTCCCAGAATGCACTTCAAGCAAACGGGTCTCAGGTCTCTCTTG
CGTCACGGCCTGTTAGTGCGATGTATAATAATGTGTTGTCATCCCATGTT
CTCTGGCACACTGGTCTGCAAACTACAGGCTAGGCCCATCGACGGGGTCA
CACAGGAGGAAGGTCAACACAGGAGGAGTTACCCCCACCTTCCTTCTGCG
GTACATGCGTGAGATTTTTTCTCGCGAGCAGGGGTCCGCGGTCCCTACCC
TCGTCGGCGAAGCCGAATCTGATTTTACTAACTTTATCAACTTCTGTAAC
TCCGTGTTTCACCCCCATACAAGGAGTACAGCACTGTCTTTTTTTTATTT
CGTCGACGTCATTCGCTCTCGGACTGGTCCAATCATGATACAGAGGTAAA
TTACTGCTGTAGCTCGATCTCAAACCACAAACATTGCGAGCACGACAACG
CTCCGCGTTCACCAATCAGTTGCGATCGACGTCAACCAGCTTCGAAGAGC
CGTGCCGTATCTTTAAATCTTGCCGATAGTCGTAGAACTGCAATGCGTGC
AGTTCGATAAACAGCATTCCAGCAGCACTGTGTCCCTTTGAGATGTATTG
ACGGTCTACAATGGTCAAGATATCAAGACTTCCAACCTGATGCATATCAC
GCCTAGAAGGTCTGCATTTGTATGTGCGTCACATGACGGGGCTGCGTTGA
ACACCGGTAGAGGGAGAGGGTTAACTGTCACGTGAAAATGTAAAAAAAGA
AATTGCGGGTAGGTTAAGTTTGTTGTTGGTTCTCACATTCGGGTGTTTGC
GCAGACCGGACTATATTAAGGTTTCCGTTTGGTCTTTTGTGTACATTTTT
GTAGTAGGCAAAAAGGGAGCTTTAGGAAAAGACCCAAGTTGGTCTTTGAA
AGACCCACTTTGGTCTTTTCCTCCGGCCTTTTGTGTTAGAAGACCTGAGC
AAAAAGCGCTTAAGTTAGTTTTTGCTCAGGTCTTTCTATGGAACAGTTTG
ATTGGTAGGATGCCCCAGATGCCCCCTGACGCCAGGGCCCATGGTTGGGT
TTATGCGGGACCACAGCAGTACTGCTGCTGCAGAAATACAACACCCCGGC
CACGTAACAGACTTCGCTCTCAGCGAAGACCTCACGTGGTACGTAACAAA
CACGCAAAACCTCTCGTGTCAGTCTACCGCCGAAAGATATAAAAGTGATC
AGCTCAGAGAAATGCAGAAGAGCTAGCTGCACAGGCACGCATTCATTCAT
GGGTTAGAGAGGGAGTCCAAAAGTACGTGTGCGGAGAGTGTCAGCAGCAT
CTCGAAGGAAAAAAATAAAAATAAAGGGCGAACGGACCACTTCGAAACCT
GAGTGAAACCTGAGTCGAGTCAGGTCTCCGCAAACACCCGATTGGCTCAT
CACCAAAATCTAGCCCGTGGTCACAAAAAGTGCTGAGCCCTAGGAAGATC
CAAAAAACAGAAAGAAACTACAAGGGAATACCCAAGAATGACCGAAGAAG
ATACACCTTCCTATGATACGCGGTGTGCATCACCGAACTACAGCAGTCAC
AGCAGTACCAACATCAAACATACGTCCAGCGTCGTTCATTTGACGACAGC
ATTGTGTTCAGTCTCCTCCCGCCCCGCTTTTAACTAATAACCGCCTGCTA
CAAGCAGTCAGTAGGTAGCTGCAGACTACAGCAGTTAGTTGCTGTCTGAA
GTGCTGCCTGCAACGTACAAGTAGCCCCGGCAATCAATCGGAGAAGACAG
AAAAAGAAAAGAAACACAAAAACACATGTATCATCAGATGTTGTCGAGGA
TGGTGTCTCCATGCCATCCTTCTGACGCTGGTGATGGTGTCGCCCTAAAC
ATGTCCTCCTTTGCCCCTGTGTCCCGTGTCCTGTGTCGGTTTGTCTGTTT
CCCACACGCCAAAATCCAAAATCCATTTTGATCTCTTCTCACCACCTTCT
AAAGGTATTCCCTGAGGATAAGGTTGATTTTATTTCATTTCCGATCGACC
AATCGAGCAGGGAACATTAAACCCCCCCGATGTTTTGCTCTTTGTACACA
ACACGTGACGACATCATGAGTGTTTCCGAGGCCGAGCACAGATTGACGTT
GTCACGTTTTTTGTTCCAAAAGCAAAATTATGTACTGCCAATTTTTGGGT
TTTGCCCCTCGGTCGAAATAGGGGAGAATCGATCTGAAAAATGAAAAATG
AGTGTTGTAAGAAAATCCCGCATCGACAATTGTGGACGTGGACGATTTCC
TCGATCACAGGCTGCCCACCTACCCATAGGGGGTGTATGATCTGCGGGTG
ATTCCATTACAATTTGGCGGTTTCGTGGAAGATTGAAGATGGCGATCAAA
TTTCCCTATTTTCTACCCTTAATTTATTTTGTATTTTTCAGGGGTCCTCT
CGGTAACGACTTTTGATGTCGTGACAATTTACCGCGGTAGTCAGCACAAC
ACGCGGTAATCCACGGGTTTTTTGTTCGGTAATTGACTCTCTCGGTAACT
GCTACCGCGGCACTCAACGACCGCGGTAATTTTTCCATGGTAATTGGCCA
CCGGGGTAATCATTACCGCGGCACTCGACCCCTGCGGTAATTTTGCGGTA
TTATTCTACGGTAATTGATCACCACGGCAATTGTTGCCGCGGTAGTCAGC
CACCGGGGTTATGTACATACAGTACTTCGCATGGTACCAGCGTACGATGC
GGCGAAGCGAGTACGTTCACACAGCAAAAACGATAACCGAAAGACGGCCG
CAGTATCCCCATTTTTATATTTCATGTATATTTTACTTCGTACATACGAA
GTACTCCGGAGGATATTGTATCAAATACGTCGTGTAAATACTTCGAAGTA
CAAAACTAACTGCGCATAAAACACCAGTCATCGAGTGGTAGGCCCGAAAT
TTGGATGATACGTTCACAAAAACTACTCCCAGGTCAAAGGTCAAAGGTCA
AAGACAGACATTACAGTAGCAGCCAAAGCGAACTATCGAAAACAAGATCC
GCGTCCTGCGTGTCAACTACTACTCTCAACCAAACAAACCAAACCTACCA
CACCAAAGCCGTGAAAGAGCCCACCCCCATCCCAGAAACTACTATTTTCA
CGTGGACACATGTATGTCCACTCAGTAACGTCTGCAAAACAGCAGTTTCA
ACACACCCACATTGTACTTCGTACTTGTATATAATTTTTTGTCTTTCGTC
TGTTGATCGTACAGTTACTCGACCATCGCCCTGGTTTGCCTTTGCCTTGG
TCTGTCATGGCCCCGGGCCCTGGCTCGATGTACGAAGTACTTCGAGGGTT
GTTTGTTGTTTGTTGTTGATTCTCACATTAGCTTACTACCGCCGCAGTCT
AGCCCGAGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAAATAAAA
AATATATATATGGACTATGATCACCCAGTCAAATCAGATATGGTACCGTT
GGGGTACCATCTGTGGTGGCCAGAATACCAAACAAATACCGAAACAAATA
CAGAAAAAAATAACAGGCTCGAAAGAAAAGCAAAAATTGGGAACAGTCCG
ACAAACAAAAAATAACCAAGACAAACCTCAACCATAACCATATACTTCGA
AGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAGACGAAGGCAA
GTATATGGTTATGGTCGAGGTTTGTCTTGGTTATTTTTTGTTTGTCGTAC
TGTTTCCAATTTTTGTGTTTCTTTCGAACCTGTTATTTTTTTTTCTGTAT
TTTGTTTGGTACTTTGGCCACAACAGATGGTACCCCAACGGTACCATATC
TGATTTGACTGTGAGTGATCATAGTCCATTTATTTTTTTCCTCCTAGCAC
GATATGTGCCTGGTTAATGACCACGGGCTAGACTGCGGCGGTAGTGAGCT
AATGTGAGAATCAACAATATATCATCGTAAACAGCACACAACAGAATCAT
AGCCTCAAGTCAACGGTCGAGCCCGCGGCTGCTGCCTATACTCGCCCAAC
TCTTTCCTTGCACCGATCTGCCGCTGCTTTCTTCGCTTCGACGGCATCCT
GGAGAGCCTTGATCTCCGGGATGAATAGCCTGTTGAGGAGCAGGAACATC
AGTCGCTCGACCTTGGCGGGTGCGGTCGAGCTGCGCAGGTGGCCGATAAG
GAAGGCAAGGGCTGAGAAGTTCCTCTCCGCCTGGCAGTTGGTAGACTCAA
CCCCGTTGTAAAGCCGAGCGATGAGCGCCAAAAACGGCATTCCTGTCCTT
CAAAGCTTCCAAAACTCTAGAAGGGAAAGTCGGTCTCCTCGGGTTGCACG
TCTTCCGCCACGTACAGCCGCAGCTCATTTTCAATGAGCGCCGCCCGCCT
CACGGCAGCCGACGGCGATGCAGACTGCTGCTGGTGGCGTCTTTCTTACG
CTGAGCGAGGCGTTTGAGTTTCCTCTCCACTGGGTACGACTGCTTCGGCT
TCTTGAGCGCAGGCGGTTCGATCCGTCGTCGTTGCTGCCACTACCGCCAG
CCCCGCTGCTACCCCCGGTCGCTGACGGAGCTGGCCGATCAGACGGGTCC
ACGAAGGTCTTAGCGACGTCCTTGACGTCAGTGATGGCGGAGGTCTTGGG
AGGTTCGCCGCCGTCGATGACGTGGTCGTCACAACAATATTTGCGGCGCG
GATCCACAAGTGCGCAAATGCGCTCGACGGGCATCCTGGCTATTCCAATC
TCTTTCTTGGTCAACTTCGAGAGCAGGACTCTCCGCACTTTTTGAGCCTC
CTCGGTGAGGTCTTCCTCGGCCATCTCTTCCGTCTCCACGTCCACACCGT
TGGAGGCGTGTGGCGTCTTGAGTGACGCGTGGTTGTGAGCCACCCAAGCA
ATACGAGTTATACTGTAAAATACTGTAAATAAAAATCGAAAAAAGAAAAA
AGGACATAAAAAAAGGAAGAAAAAGAAAAAAGACCCAAAAACAAGTACTT
CTCTGTATCATAAGTATAGTCCGTTATGTTGGGAAAGACCGTTAACGGTG
TCCGATCTGTTTTCCGTTTTTTTTTTTAATTCTAAGGTTTCCCCACTGTT
TTTCAAGTTATGTTTTTCAAGTTATGAAAAACACTGTTAGAAAAAGCCCC
GCCTGTTTTTCAAGTTGAGAAACATGCCGCTGCGTGCCGGTTCGTAATTG
CCCGCCCAGGCCGTTGTCATATACGAGTACGGAGTATTTTTTTTCGCACG
CCATCACCGCCAAAGCAGTGTTGCACATCAGGACATTGCAAAGAACCAGA
TTCACAGAGAGAGTAACTTTTGTAGCTTTCGATTCCCCTCTCTGGACAAA
AACACGCGCCACGTATAACGCGTGTAGACAGCTCTTTTATGTAAGGTCGT
CGGTACCTAGCTATCTGCTGTGATGGCAAGCCTCCAAATGTCCATACCAG
CAACGTGAGCTTGTCTGAGAGAACAAAAAAAATGTAAAGTGCAACACATC
GGAACTGTTTCTCACCTCCTCCTCCAAGCAGACATCTTTCCGGGTAACCC
GAGACACGGCACGACCCTTCTCATTCTCCCAAGCCCCACAAAGCACTACA
AACATTATTAGTAGCAGTAGTGCTGCTGATCACAGAAACGCGGCGAACCG
TCCCTGAGAGAATGTGCGTGTGTGTGCTGTCGCAAAGCTGCCTGCTTGCT
GCTACTGATCTGATCTGATCTGTGCTGCTACTGCTGCTGCTGTGTGCGGC
TTCTTCTTCTATTCCGCTTCTTCTCTGATCTGGTGATGATGTACAGAGTT
GCACAAACATCGTATCACACCCTACAGCACAAGCAGCAGCAGCAGTTAGC
AGCAGCACGGCAGCAGCCGCATCCGACCTTTCATATGGTGGTCGTGTTCT
TCGGCTGTTGGGGCGAGCACGTCTCATACGAAGAGGTGCTGACAGATGGC
TTGACACTCCGACTGCTGCTGCTGTAGCTGTGGTGATATCAAAGCGAAGA
GGAGTTATTTTTGCGCTCTCTCTCTGTGGGTGTATTGGGACAACATGTGT
AAGAACAGCAGCAGCACCCACTACTGTTTGTCCTTGAAACTACCAAGAAC
TACTAGATATTCAAACACACAGCGAACGACCAACCGGCACAAAGGCATCA
TCCTTAACATGAAAAACACGAAACCACAAAAGTTTTTCAGACTTTTCCCG
ATTTTTTTCAAGTTATGAAAGTCACGTTATGGCGGCGGGGGATTGCTCTA
ACGATCGAATGATGTCTTGGGCCGAACATTACGGCATCGGATTTTCCAGA
CAGATTTTGGAATCCATGCGACATTTATGCATCGATTTTCCCCCTCATCA
TGAAATGACAGACCCCCCACACGACGTCACCACACCGTCGTACAACTTTT
CACGTACTTCGAAGTACATACACACTACACACGAGAGAGGAGGGCTTGCA
CTCGCACACCTCAGGCTACTGGTGACTGGCAACCACGTGAGAGGGATGTG
AGCGGCAGGAGCGGCAGCAATAGCCCTAGGCACCGGAAATACCAGTTGAG
ACTAAACACACTGTATTCCAACCCGGAATCGGATCTTCCCGCTCTCACGA
AGTATCGTGGAGCTGACTCAGCACGAGTTTCTTCGGTCAAGAACGGACCT
TACAGAAGACGTCTTACGCGTTGGACAAAACAACACCTTCTTCTGGCTCC
TATGGAAACAACCTACACTAAATGTCAACCAGTTACTGATTGTTGCTGCT
TGCAAAAACAACCAAACATTGTTTACCATTCCCTGTTGCAGCACGTAGAG
CAGCGATACTCTTTTACTCCTGCGCGGGAAACATACAGGCGCAGCAGACC
GACTCATTTGACAAGAAAGTTGTACGCGCGACAAACTTGCGTCAAATACG
AAAGTGGTGTCTTTGTCTATCCGTTTCATATGCCGGATTTCGGTGGTGGG
CGCCCGCTTTTTTCCGCTTGAAATTTCCGTGTATGAAAACGGGGCCACGG
CCAAGGAGCAGCACCTCGACTATGCGGAGAGCATATTCGTACAGTATCCG
TTTTGTGCAGACCGTGAACCTCTCTTCGTCGATTACCCCAGAAATATCCA
AGGAGCTAACATTTCGACTTTGCGGAGAGCATTTTAGTATCCGTTTTGTG
CAGATGGTGAATCCCTTTTGTCGATTACCCCAGAAACATCCTTTCGACCG
GACCCTTGGTGAAGACGTTCCCCAACATTCCTTTTTGCGGAGGAGACGAC
AAACGTTGAACCCCGGTGGCCGAAAACCTCTGAATTTTTTTTCCTGTGGT
TAGCAACGATCACACAAGTACCGTTGGGTTCCACGTTTCACGCGCAGTTT
TTTCACCGAAGATGCGCTCTTCAAGTACGAGGTGTTCAACGTTGAACGTG
AAACCATAATTCCTGGCTCCGTGTTCCATGCGCTGTGTCTACCACTGCAG
CTGCTGTTGCCACTCTCCCTAAATATTTGAACATGTTCAGGCCGCACCAG
CTTCCTCACACACATGCTACACTGTACCGTCGTCGGAAAGTTGCGAATCT
CGACCAATCGGAGACCAATTTTGGGTTCGATTTTTGTTTTTCCGATTTTG
ACCCCGAAGTATCGTGAACATACGGCCTTACAAAACCGTCAGCGTATTCG
TCCCTCGCTAGACGAGGATTCGAGGTATATAGACCAGCAATGAGCACAAC
GAGTGGTCGTCTCTTGAAAGAACTTGAATCTCTTTTCACCATGTGCATGA
TACGTCCGATAAACTGCAAAGTGATACCGAGCTACTGTTCCGGTACCGGG
TTCAGATAGTTTTATCCGTCGCGCATACTGGTTTTGTGTTTCGTTTCTGT
GCACAAGCAGAATCATCACTACCGACGCGCAGCAAGGCGGGCACTTCCCT
CGAATCATCGTCGGCAACTCCGCCCAGCGTTCTAGGACAGCCTTCGCGCT
GCCTGACACCCAAACAGGATCAACAAGAAGAACGGGAGTTGCCAGGCTCA
ACGATGGTGCTTGGGCACACGACCGACGTCTACGACGGCGTCACCGTGGA
TAAGGCCAGCCTTCCTGACAGCATCGAGGAGTTCACCTCCGTGCTGAAAA
CCTCGCTGAAGGCGTGGAGATCCGTCGGCAAGAAGGGTGTGTGGCTGAAG
GTGACTATCCGGTTGGCATCACATCAGTACACACCGTAACACCCACAGAC
AGCAGGAGTCAGAATGATCAGTCGGAAACCTTGAGTGCGACTGTTGAGAG
GAAAGTCGAAGGCACAACATGGCGAGAACCCCAGGAAACACGATTAGATA
GTGAGCTCGTACACGACAATTCCGTAGCCTCCTTTCTTCCTTGGATCCTG
GTCACTGTGGATGCGCGGTGTGCGTTCCCAACGGTTTGGTGGCGATGCGC
TGGCCAGGGAGGATAAGACGCCGTAACTGGTGAGGCGTGGTACGAAGTGC
GGTCAGTCAACATCCCTTTTTTTTTATCGACACGTATTTTCTGGAAAAGT
TTATATTTCATGGGAATAAAGACACCCGTTACCGTAACGTTCTCGCCACC
AGGGGATCGATTTGGATTTCCGTTGCTGTTTTATTCGGAGGATGACACAC
GGGGCCCCCATTCACCGATCATTTTTAGGACTCCACGGCAGACTCTGAAC
GTCTCGTTTCCGGACAACGCTCGTGCGCCGAAAATGTCATTGCTGTAGAG
TTACCGAACATGGGAGTCTCTATCGGGGAATAGATACTGCTGAGCTGCGG
AGATGATCCCGTGATTTTTTACAGCCTGCGAAGGTGACTTGACTGCCTCT
ATCGAAAGCCGCCATGTGCGTTCGTGCTGCAAGCACAAGACAACAGTACG
CACACACGCACACCGGACTCTCTTCTGCCGATGGCCATTTCCGCAAAACC
TATAGATTATATCCCCGCCTGGGTCATAAAAGAAATTGCAAAGTTTTTGG
GTGTGTGTGTTTTGTGTTTGCAGTCATGGTCGTTCTGATCTCTCTTTTTA
GTACTCAAAACACATTTTGTGTCGGTACCGCTGACTGGTCTGGCAGGAAG
CTTTTTAAGCCAAAGGCTTCATACCCCCCGAAAGGTTGTTTGGGACGCGG
GGGAGTTTTAGCTTCCCAAATCTTGTGAGCGCTCAACAACTGAAATTCCC
AAAAGGAATTCGACTCCGATAGGCAAAACACCTGCCACAAAAACTTTGGT
CAAAAGAACAACAGTCTCGGTCACAACGAACTGAAATCATAATCAGATGC
CAAGCACCGAACTCAAGATATCCAAGAGGTTGCCATTCCCGTGGACAGCT
GTGAGGAGGGTCAACGCGTCAGAGAAAAACGAAAGCACAAAATAAGACAA
CAAACATCCCATAATCTTGTTATTTAAATCGCGAAACGCGCTGCAATATC
ATACGGAGTAATAAAGCCGCAGCGACAGGGGGGGTCGCGATGAGGCGTGC
AACGGCAAGTAGACGTGTGAGAGCTATCCCAGCAGTCGGCCGATCTGGTA
CCTGCGGTGCTACTAGTTCCATATGTTCCTCTTGCTCTCCTCTTGTTCTG
TCGTAATACGGAGTACTTCGTATGATATAATCCGGATCTTTTTACGCTTG
CTTCCCCGGAATTTCGCAGTCCCTTTTTCATCGGTCCTCTCGTCTGTTGC
GCTGGATTATTGCCTCTTTTCACCGTGTGACAAACGCGCCGGGGTCAACT
CGAGAGAAGCAAGGCGAGGCTTTCGTATCGATCGTGCTGACAAACCGTGG
TGTTGTGATATTAACGTCACGAGATCGTCGTCGGAAAAAGTCTTCAGTAA
TAGCAAAGGTGAAGCACCAGCCTTCTCTGGGCACAACCTGCACTGTTTTG
ATTGGCCTACGCGCACCGAGAACCACGGTCTGTTGTGCCCTGTCTGAAGG
CTCCGTTCGTCGTTGTGGTGGTGATGGGGCTTTGGCACACCGTGCAGGTG
CCGGCGGACCGGACGGAGCTCGTTCCAGTTTCGCTAGACCTAGGCTTCGA
GCTCCATCACGCGGAAAAAGACTACATCATGCTTAACAAGTGAGTGCTAA
GGATATGGAGGTATCCCTCTCGGCGTGTAAGCATACCGCTCGTACGTACG
TGGAAAGCCCAGGGGGCTCACGGGCTTAATAAAATCGTACTTCATGTGTG
TTTGTGCGTACCTGTGTGTCTGTATACAGAACAACCGTCAGTTTTGGTCG
AGAGAAGTACCAATCCGTCAGCCGTGGTTTGTGCGTTGTACGCGGAACAA
GTCTGAGCTTTTGATGTATCTTTGCTGCAGGTGGCTGCCTTCCTCGACGA
ATCAACTCCCACCGAACGCCAGTCATCAGGTTGGGGTGGGTGCGCTGGTG
CTCAACCACCAAGGAGACGTGCTCGTGGTGCGAGAAAAGCACGGTGAGAT
ACGCATGCCCACATCCCGCTCACTTTCTCGCAAACATTGCCTTGCGCATA
CAGCAGTACTGCTGTATTTGGGGAAACACACATCCGAAGAAGGGGTGTTT
CTTTCACATGGCGTTTCGGTACTTCGGTGATTTCCTCGCAACTAGTGGCA
GGTATGGCTGACGCACGCCTCGTACTTGAGTTGGTGTCAGAGGTTACAAA
AGGTTGCACCGTGCACAGGAAGGCCAGTGCTGTGCATCGAGCTATGATAT
GCGTTTTCTTCAGCTTGGAAACCCCTCCCCGGCTCATGAGCTCTCGGCTC
TTAGCAATTTTAGAGTCCCAAGTTCGTGCAGCAAACTCCCGCTCCCCTTC
CGCCTCATCTCCCCTTTGCTCGTCCCGTGCCGTTGCGCATGGACTTGTTT
CGTCATTGTCATTGGCCGGTATGCTCTTCTGCTGCTGCTGGGCTCTGAAC
TGGATTTCCAGGCCCCCTCCGCGGTACTGGTATATGGAAGTTCCCAACCG
GTGAGGGCTCCTGCTGATGGCGCTGTTGCTGCTGTTGTTGTTGTTGTTGT
TGCTGTTGTCTCCTCTGAAAACCGATCTAACCGCCTTTACCCAGTTGAAG
GGCGTCCCCATTTCCCCCCCACCGATCCTCATCTTGCTTGTGCAGAGGCG
CTCATCGTATGTTGTTCTTGGTGTTGTACCACCACCCAAGCGCGGGGCTC
ACGCTGTCCTTATACTTCGAAGTATCACTTCAAGCACGTTTCGTTCGCGT
CTTATTCTGCTGTACTACTTTGCTCCAACCCCAGCACTACCGAATGTTGA
GGTACGGGTGTTTTTTGGTGTAAGGTTGACATTCAGGATGGGCATGAACG
GGTCTTGTGAACACTGCTGCTTGTACGCCCACGTGCTTCCGTGCCCCGTC
TGGATCTTACCCGAAGCGCTGTGTTGGTTGTAGTATCACCAGGCTATGTC
AATCTTGACGAACCTCCTTCTTCCGTGCATGCTGATGGTGAGTGTAACCC
CTTCCCGTCCCGTTTCTGCGGCGAAGGATCGATGGGTCGAATGCCCGAGA
AACCAAGCTCCGAGACAGGCCGCCCTCCCTCGCCAGCGTCGAATAATTAC
CAGAGCTTCCAACGACACCTTTGTTTGCATCTGTACACGCGAGCACACAG
ACACATACACGTACCGGTACGCACACCCAATCCGATTCCTCTCGTCGTAT
CTTTTGCCTTTCTGCGAAGGTCTGATTGATGCCGGCGAGGACCTACCGGA
CGCGGCGGCTAGGGAGGTGCTGGAGGAAACCGGAGTGGAGACGGAGTTCG
ATTCCGTGCTGGCGTTTCGGCACGGGCATCAGGGGCTGTTCGGAAAAAGT
GACCTATTTTTCGTCGTCCGAATGCGGTTGAAACCCGGCGCAGACCCGTC
CACTCTTCGTCCACAGGTATGTCGGTTGCCGACTGGCGGGCTGCTGTATC
ATCAGTAAGGTTTGTGGTCTCCGCGGTTGTGGCACCGCGATGACTACGTA
TGATCGTGTCCATTTTTCGCTGCGTTTGTGCACACTTACTCAGCTTATCG
TTCGCGTGTGCGCGGCGCGCATGTACAAGGATTTCTCTAATGTCTATCTA
CAAGAAAAACAATTGCGCCGAGAAACGAAGTTCCATTTTGCAAAAAACTT
GAAATGATCTGGCGAACAGTGCACTACTTTCGCGGGGTTAAAGATGTTGG
CGAGATTTGGATACCCTCCACTTCGCACCACACGCGTCACTTGACGCCCT
TCTGCTGCTACCGTAGAAAGAGCCACCACAGCTGTCATCCGGCGTCGTAG
CAGTAGGAGCTGCCGGGTCTGGGCAGGGAACAAGTGCAAATTCACGGGCC
ATGAAAACAGGGACGGGGCAAACCAGGCGCGATCTATCTCAGATAGCAGC
GGCGCCAACTCACCCACATGCCGACGCTGCTGTCACCAAGCAGTACACAT
ACACACCTGCTGCTTAGACCCAGCACAATGGGTTCTCCGGCTGTCGAAGT
ATTCGCAGGAGCCGGATCAGGATGGAGGAATGCGAACTAGGGGGTCTTGG
CAAGATGGGGCAACTAGGAGATGATGCTTTGTTGTTGTGTCGTCGTGCAG
ACCTCTAGCGCCAACGCCTCGCTTCGCCTCGTACTCTGCTTGCCGTTGGT
TGACCACGTGCCGCAAGCCGCCGGCATACTTTTTCATGGTTCGGAGAGCG
CCCGGTTGATTCGACCGGTATCGACACTGCCCCGTTGGCAGATCGGGTGC
TTTGCAATACTCTTTGCTTTCCAAAATAAAGGGAATCTGAAATCATTTTT
TTAGTCCGTTGCAGCCACGGACACTTTCGGCGCAACCCGAGAGGAGAAGC
TAAAAACCAAAATCCTTTCGTTCAAAGTCCTCATCTTTCGGGGGTTGCTG
TCTTCTTGTAACCGGGGCTAGACGTGTCGAAGGTCTTCACACGAGAGGTT
GAAAGCTGAAACGCCCAGTGCACTTTTTTTTCTTCTTATCCTTTGACGCG
CACCGCGGAGCAAAAGCTGTACCTAGTTGAGAACGCAGTACGTATATCTA
TCCAATCGAACAAAGACGAACGATGGGCCGGGGAAACCTAGACGTACGTG
TTATGCGCGAGATCCGAGGCATGTCTTTGTCTCGAAGCTCGTGTTGTTCT
CCTCCCCCCCTGATTTCTTTGAAGTAAAAAACAAGCATCGTCCTGTCGTC
ACTTTCGAGCGTACTACGTAGTTCTAGCTTCCCGAAGTTGTCAAAACCTT
GCTCGATAGTTGCACCGAGCCAAAGGACACAACCAAGCTCTTTCGTGTCA
TTCTTTTCAAGCACTGTCGCCAAAGCCTGCCGCAAACGAACGCGTTATTT
TCGTTGACATGAATAAATGATCGCAGGAATCGGAGATAGAGGAGTGTCAG
TGGATGCCCCGCACACTGTTCGCTCAGCAAAACGCCGAGTCCGACAGGGT
GCTGCTGCGAGAATTGAACAATATCATGGAGGCTCACCTTGCTTCGGGGT
GTGTAACAGCAGAAAAGTCCCGGACGGAAACGGCGGCGGAGGACTTCAGC
GAGAGGGAGCAGGGACAGGAGCAACCAAGTTGTGGCGAGGAGGGGGAGGG
GCGTAGATTTGCTGCTGCTTTCAAGGCGAAGATGCTCCGATCTTCGCGAC
AAATCGGCGGAAAGAGCATGCTGTACCATGGCACGTTGTAGGGAAAAGAA
CAAAAGAGAATGCAAAAATTGATTGCGGTGGCATGCCTTCATCCGACGGC
GCTCTGTGCGAATAAAGCTCCGACAGCGATGGCAGTACTGGTGGTGTACA
GGTTGCCTCTATCATACGCTACTACATAGCACCACTGCGCACGACGAAAG
TCTTCCAAAGGATGATTCATCTATAACCTCCCTACGGTCGGCGTCAAATA
CCTGGGGTGGCTCTTCCTTCTGATGATGCATGTTGTGAACTCTGGATGGC
ACGAACGAACGTTTCCGAGGGCCATATGATCGCCTGTTGTGTCCGCCTTC
TCGTGTGCAGAGAGGGTCGATCAGGGAATCGTTTTCGACATGAAAATATC
GTCGTGCACATGCTTTCCTTACGGCAAAAGTTGGCTTGAAATTAGTCAGA
AGGACGCGCGTTTCCCACTCCTGCCTTTATTTAGTTATTTGTCCCATGTT
TCGTTGGTCACAATATATGTGACGATGGTCTTTTTTTAATCACTTGTTTT
ATGTTTTGTTGGTTGCAACATGTGTGACGGAGAGTGTCTGGCCTAACTCG
CTTGTCACACAGCGCTTTGTTCGGTCATAAGAACTGGATCTGGCAGCGGT
GGCGGTAGTATACGAGCCGCCTCTGCCACACGCCGCGGATGGCGAAAGTC
TTCCAAAGGAGGTTGATTTATATCCTCCCTACGGTCGGCTTAAAATTCCC
GGGGTTGCATTTCTTCCAGACTGTTCATATTGTGAACTCTGGATGGCACA
AACAAACGTCATCCGCCGAGGGCCGAATGATCGCCTGTTTGTGTCCGCCT
TCGTTTGTGGAGAGGGCCGATCAGGGAATCGTTTGCGAAAAGAAGAAGAC
AAGATTGTCGTGCATGTGATTTCCTGACGGTAAAAGTTGGCTTGATTCCG
GCCAGAGGAACGCGCGATCGCGTGTGTCTCACTCCTGTCTTGATTTACCT
TTTTTGTCTTACGTTGAGTTGTTTGCAATATAGAAGTATGCGATAAAATA
ATGTCGGGCCTAAATTGCTTCCGCTTGTGGGTTAACGGGCGCGTTCAGCC
AGGGTGTCGTTACGGTGTTGGGATTCCCTCCACACACATGCTACTGCTGT
TCACTCGTGGCGCCTGTTGTTCGACAGAGGGTCTAGAATACCCACTGGTG
CTTTCGTTGACATTCTTGTTTCCATTGCCGCGTGAAGCGCTTTGTTCGAT
CGCAGGCTTGTCATCTGTGGCAGCGGTGGCGGTCATGTACAAGCTGCCTC
TGCCATACGCTACTACACACCACTCCGCGTACGAATGAGTCCTCGAAAGA
ATGATCGGCTGTTCGACAGATGGTATAGAACAACGAAGCGTACTTTTCTT
GACGAACATATGTTTATATTTGACAGCGCTTCGTGGGTTCATGGCTGTCG
GAGCGGTGGCGTTAGTGGCCCAGCTGCCACACGCTACCACACATCGCTGC
GTTCAAACAAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig117:27784..48594+

>mRNA_P-littoralis_Contig117.3.1 ID=mRNA_P-littoralis_Contig117.3.1|Name=mRNA_P-littoralis_Contig117.3.1|organism=Pylaiella littoralis U1_48|type=CDS|length=903bp|location=Sequence derived from alignment at P-littoralis_Contig117:27784..48594+ (Pylaiella littoralis U1_48)
ATGGTGCTTGGGCACACGACCGACGTCTACGACGGCGTCACCGTGGATAA
GGCCAGCCTTCCTGACAGCATCGAGGAGTTCACCTCCGTGCTGAAAACCT
CGCTGAAGGCGTGGAGATCCGTCGGCAAGAAGGGTGTGTGGCTGAAGGTG
CCGGCGGACCGGACGGAGCTCGTTCCAGTTTCGCTAGACCTAGGCTTCGA
GCTCCATCACGCGGAAAAAGACTACATCATGCTTAACAAGTGGCTGCCTT
CCTCGACGAATCAACTCCCACCGAACGCCAGTCATCAGGTTGGGGTGGGT
GCGCTGGTGCTCAACCACCAAGGAGACGTGCTCGTGGTGCGAGAAAAGCA
CGGCCCCCTCCGCGGTACTGGTATATGGAAGTTCCCAACCGGTCTGATTG
ATGCCGGCGAGGACCTACCGGACGCGGCGGCTAGGGAGGTGCTGGAGGAA
ACCGGAGTGGAGACGGAGTTCGATTCCGTGCTGGCGTTTCGGCACGGGCA
TCAGGGGCTGTTCGGAAAAAGTGACCTATTTTTCGTCGTCCGAATGCGGT
TGAAACCCGGCGCAGACCCGTCCACTCTTCGTCCACAGGAATCGGAGATA
GAGGAGTGTCAGTGGATGCCCCGCACACTGTTCGCTCAGCAAAACGCCGA
GTCCGACAGGGTGCTGCTGCGAGAATTGAACAATATCATGGAGGCTCACC
TTGCTTCGGGGTGTGTAACAGCAGAAAAGTCCCGGACGGAAACGGCGGCG
GAGGACTTCAGCGAGAGGGAGCAGGGACAGGAGCAACCAAGTTGTGGCGA
GGAGGGGGAGGGGCGTAGATTTGCTGCTGCTTTCAAGGCGAAGATGCTCC
GATCTTCGCGACAAATCGGCGGAAAGAGCATGCTGTACCATGGCACGTTG
TAG
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