mRNA_P-littoralis_Contig88.91.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig88.91.1
Unique NamemRNA_P-littoralis_Contig88.91.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A6H5KTG8_9PHAE (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KTG8_9PHAE)

HSP 1 Score: 698 bits (1802), Expect = 5.860e-243
Identity = 347/470 (73.83%), Postives = 388/470 (82.55%), Query Frame = 2 
Query:  149 MIVRPQQGPF--ASTALASVALLVIFPAALISAAVPAAPVVVTNYKQLVGTIGSNNNYGTGERFYREGLVLVHKGD-GCEPDFDGLGLTVFGNHPDMYSLVSVDVDHADKELLSKLGVTAANLDDRTVCPALTVIPRRSTVADPAIKHPEADGNGNYHLSTVDTQQVSVGIVNDMDITLDIHYQWFDQPTLPTHVRTLKPGTENWMLTYKTTTMVALSKETGQEMGRQLVRGNSLFTVANRDCTVETCGTSEGAETPSEKEWQDTWKYQDQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNLKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKPKDPEKWSVFI 1549
            M VRP+Q      + ALAS ALL+    +  S  V  APVVVT+YKQLVGTIGSNN+Y TGERF REG+VLVHKGD  C PDFD LGL+VFG+HPDMYSLVSVD DHADKELL KLGV  A L +   CP+L+++PRRSTV  PA+  P  D  G+YHL+ V TQQVSVGIVN+MD  LDIHYQW+++P  PTH+RTL PGTENWML+YKTT ++AL+KET +E+ R LV+G+ LFTVA R CT ETCGTSEG ETP +   ++  K  DQ R+ NNR QP  LPRFT+VGFKK TVPDDVWD+VKTYYEENK +PKKE+WSK NVFTNNVEAPSYMVNLPENG LK  IF GLRPILEEW GVELVQTACYGVRVYTNTSWL+NHVDTKATHAVSVIM VDQ+VEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHG +YANAFVHYKPKDPEKWS FI
Sbjct:    1 MSVRPRQSSLNPVAVALASAALLL----STSSPVVSGAPVVVTDYKQLVGTIGSNNDYDTGERFAREGMVLVHKGDESCAPDFDTLGLSVFGDHPDMYSLVSVDADHADKELLDKLGVDPATLSEPKKCPSLSIVPRRSTVEAPAVILPTLDKRGSYHLNAVKTQQVSVGIVNEMDFDLDIHYQWWNEPVKPTHIRTLAPGTENWMLSYKTTLVLALNKETQEEVSRYLVKGHGLFTVAERSCTAETCGTSEGTETPQDVASRNARKQMDQGRLVNNRKQPEGLPRFTEVGFKKTTVPDDVWDLVKTYYEENKESPKKEKWSKNNVFTNNVEAPSYMVNLPENGKLKEQIFGGLRPILEEWSGVELVQTACYGVRVYTNTSWLANHVDTKATHAVSVIMQVDQDVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGNYYANAFVHYKPKDPEKWSKFI 466
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BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A835YWU1_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YWU1_9STRA)

HSP 1 Score: 441 bits (1135), Expect = 9.450e-143
Identity = 231/461 (50.11%), Postives = 308/461 (66.81%), Query Frame = 2 
Query:  173 PFASTALASVALLVIFPAALISAAVPAAPVVVT---NYKQLVGTIGSNNNYGTGERFYREGLVLVHKGDGCEPDFDGLGLTVFGN-HPDMYSLVSVDVDHADKELLSKLGVTAANLDDRTVCPALTVIPRRSTVADPAIKHPEADGNGNYHLS--TVDTQQVSVGIVNDMDITLDIHYQWFDQPTLPTHVRTLKPGTENWMLTYKTTTMVALSKETGQEMGRQLVRGNSLFTVANRDCTVETCGTSEGAETPSEKEWQDTWKYQDQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNLKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKPKDPEKW 1537
            P ++ A+   ALLVI      S A P    V+T   +Y+ L+   G+ ++  TG+RF RE ++L+++G  C  DF   GL  +G   P+  +LV+ DV+  D+  L K G+      D   CP   VI +RS + +P  +   +D +  + ++   + +Q+V +G VND D  + + + W D    P H+R L+PG E+WM TY++T +VA + + G+E+ R  VR + LFTVA+R+C +E CG  E  E   ++E     +  ++ R+ NN  QP  LPRFTDVGFKK+ VPDDVWDM+ TYY +NK  PK E+W K NV+TNN+EAPSYMVNLPE G LK  IF GLRPILEEW GVELV T+CYG+R YT  SWL+NHVDT+ATH +S I+NVDQEV +DWPL I+DHAGND+NITM PRD+VLYESATCVHGRPSTF G+FYAN F+HYKP DP KW
Sbjct:    7 PLSTVAVCLAALLVIRS----SCAAPLDAAVITEVDSYQGLLDVAGTVDDTDTGKRFEREVMMLLYEGGKCTADFKKHGLDEYGRLQPEDVALVAADVNKVDQVFLEKFGIVDDG--DDMPCPTAVVIRQRSPLQNPTFEVVGSDPDDPFAIADGVLKSQEVHIGSVNDYDFPIKVMFVWRDGKERP-HLRRLEPGRESWMKTYRSTELVARALDDGRELQRMRVRWHGLFTVAHRNCNIENCGIVERKEVELDEEEIRAREQNEKFRVRNNVQQPVGLPRFTDVGFKKIRVPDDVWDMLVTYYRQNKQNPKIERWGKGNVYTNNLEAPSYMVNLPETGPLKPAIFNGLRPILEEWSGVELVSTSCYGIRAYTRGSWLANHVDTRATHTISAIINVDQEVNKDWPLNIFDHAGNDHNITMAPRDMVLYESATCVHGRPSTFDGQFYANMFIHYKPTDPSKW 460
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A7S2UT49_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UT49_9STRA)

HSP 1 Score: 242 bits (617), Expect = 4.920e-67
Identity = 112/212 (52.83%), Postives = 149/212 (70.28%), Query Frame = 2 
Query:  917 KEWQDTWKYQ---DQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNLKRDIFEGLRPILEEWCGV-ELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKPKDPEKWS 1540
            K W   ++ Q   D+ R+ +N+  P+ +P FT+VGF+KV  P DVW+M++TYY  NK     E W   N +TN+ E+P+YM++LPENG +K +IF  L+P LEEW GV EL  TACYG+RVY   + L  HVD  +THA+SVI+NVDQ+VEE W L IYDH+G+ +N+TM P D+VLYESA+C HGRP    G +Y N FVHY+PKDP  W+
Sbjct:  265 KNWDHVYRRQNATDRERIRHNKEHPSIVPHFTEVGFEKVRTPPDVWEMIQTYYHANKEHTALEVWDDSNTYTNHFESPTYMIHLPENGRMKPEIFRRLQPYLEEWSGVDELEGTACYGIRVYQEGAELRGHVDRISTHAISVIINVDQDVEEPWYLHIYDHSGSAHNVTMAPGDMVLYESASCQHGRPFPLKGNYYTNTFVHYRPKDPALWA 476
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A7S2THP0_9EUKA (Hypothetical protein n=1 Tax=Lotharella oceanica TaxID=641309 RepID=A0A7S2THP0_9EUKA)

HSP 1 Score: 234 bits (598), Expect = 9.770e-66
Identity = 127/308 (41.23%), Postives = 181/308 (58.77%), Query Frame = 2 
Query:  635 QVSVGIVNDMDITLDIHYQWFDQPTLPTHVRTLKPGTENWMLTYKTTTMVALSKETGQEMGRQLVRGNSLFTVANRDCTVETCGTSEGAETPSEK--------EWQDTWKYQDQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPE---NGNLKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKPKD 1525
            +  +G  +D D  LDI   W +       V  + P  ++W+ +Y     V   +  G+++G   V+  S F+VA        C    G E   E+        + Q  W  Q++ R   NR+QP  L  FT++GF+K  +PDDVW+++++YYE NK++   E+W   N + N+ E+  +M+ LPE       KR IFEGLRP LEEW G EL  T  YG+RVY N ++L NHVD  ATH VS IM++  + +  WPL IYDH GN++NIT+ P ++VLYESATCVHGRPS F G++Y NAF H++PK+
Sbjct:   29 EAHIGFGSDCDSDLDIF--WVNPQGEEVSVTKVAPQGQSWIGSYLNHKFVY--RLNGKKVGEATVKSKSQFSVAQ---CGHPCHEHYGEEPCLERLDGRIRRAQLQPVWDSQNEDRRQTNRIQPQNLKNFTELGFEKRKIPDDVWELLRSYYENNKDSIVLEKWPSTNPYINHWESVPFMIWLPELHTGDETKRKIFEGLRPHLEEWSGTELEHTDLYGMRVYKNNTFLENHVDRVATHVVSAIMHIADKQDIPWPLNIYDHYGNEHNITISPGEMVLYESATCVHGRPSLFQGEYYVNAFAHFRPKN 329
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A7R9UF35_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UF35_9STRA)

HSP 1 Score: 193 bits (490), Expect = 6.440e-51
Identity = 92/203 (45.32%), Postives = 132/203 (65.02%), Query Frame = 2 
Query:  947 DQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGN----------LKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKPKD 1525
            D  R+  N  QP     FTDVGF+K+ VP+D+W  ++ Y++ +    K E+W K N++ N+ E P+YMVNL ++            LK+ I++G +PI+E+W G EL  T+ YG+RVY N + L++H D +     S I+NVDQ+V+E WPL IYDH+G  +N+TM P D+VLYES  CVHGRP    G++YAN FVH++P D
Sbjct:  143 DDQRIKMNVNQPKTQNHFTDVGFRKMRVPEDIWKEIQNYWKWSPKKEKDEEWPKGNIYVNHWEVPTYMVNLEDHSEDPKGSLTGWQLKKRIWDGTKPIIEKWTGKELKSTSLYGIRVYHNGAILASHCD-RLPLVSSAIINVDQDVDEPWPLEIYDHSGKAHNVTMAPGDMVLYESHVCVHGRPFPLKGRYYANLFVHFEPMD 344
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: W7TBS5_9STRA (Uncharacterized protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TBS5_9STRA)

HSP 1 Score: 182 bits (462), Expect = 4.480e-46
Identity = 134/425 (31.53%), Postives = 206/425 (48.47%), Query Frame = 2 
Query:  347 LVLVHKGDGCEPDFDGLGLTVFGNHPDMYSLVSVDVDHADKELLSKLGVTAANLDDRTVCPALTVIPRRSTVADP--AIKHPEADGNGNY---HLSTVDTQQVSVGIVNDMDITLDIHYQWFDQPTLPTHVRTLKPGTENWMLTYKTTTMVALSKETGQEMGRQLVR------------GNSLFTVANRDC-TVETCGTSEGAETPSE-------------KEWQDTWKYQD---QSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNLKRDIFEGLRPILEEWCG-VELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYK 1516
            L+L      CE    GLG       P  YS++   V+    E++         + + + C     +PR     +    IK  +     N+   HL+      +++ ++ND+   + I ++   +   P  + ++  G  + + T++T  +  +S + G E  RQ +R             + L   AN+ C   + CG       P+              +E  + W+ +D   + R+  N VQP   PR+T +GFKK  +PD V+ ++   Y   ++    E W K +  TN  EAPS MV L +    K DIF G+ P L +W G V+L  T+CYG+R+Y N SWL  HVDT  TH +S IMNVDQ+VEEDW L   DH  N + +T++P D + YESA+ +HGRP    GK +ANAFVH+K
Sbjct:   51 LLLGFSSSACEQSVRGLGF------PSEYSVLGEHVETG--EVMLDRNTELPGVYNISSCNEYVYVPRGGRTREDYDVIKAVDKLQLHNWLFTHLA------LTMEVINDLPFDVSIKWEDTGRSQAPQDLISIPRGRTSSINTFETHHLRFVSHQPGSEP-RQFLRVRVDGSTNTLRLSDFLTEEANQQCLNPQDCGAKTVTTLPNVNNQHGSTDDVQLVEEDMNIWRGRDVENKGRVVRNEVQPKTKPRYTALGFKKTRIPDAVYQVLLNRYHSGEHI--LEPWPKSDCHTNFFEAPSTMVYLSDAE--KADIFSGMMPNLSKWAGGVKLHPTSCYGIRIYHNGSWLREHVDTGDTHIISAIMNVDQDVEEDWLLTFIDHNDNRHFVTLEPGDALYYESASGLHGRPIPLKGKLFANAFVHFK 456
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A7R9W969_9STRA (Hypothetical protein n=2 Tax=Pseudictyota dubia TaxID=2749911 RepID=A0A7R9W969_9STRA)

HSP 1 Score: 177 bits (450), Expect = 8.740e-45
Identity = 86/197 (43.65%), Postives = 129/197 (65.48%), Query Frame = 2 
Query:  947 DQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENG------NLKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKP 1519
            ++ R+A +  QP ++  +TD GFKKV  P+++  +++ Y+ ENK   K EQWS    +TN+ EAP+YMV++ + G      +LK  ++   RP +EEW G+EL  T+ YG+RVYT  + L+ HVD +     S I+NV Q+V+EDWPL +Y   G  YN+TMKP D+VLYES + +HGR     G++YAN F+H++P
Sbjct:   67 EKDRLAMSIRQPQSVMNYTDTGFKKVRAPEELRKLLENYWNENKEKKKVEQWSTGYTYTNHWEAPTYMVSIEDGGLRGGGNSLKHKLWNAARPTIEEWTGMELAPTSLYGIRVYTEGAILAPHVD-RIPLISSAIINVAQDVDEDWPLEVYGRDGMAYNVTMKPGDMVLYESHSLIHGRVFPLKGRYYANIFIHFEP 262
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: B5YN86_THAPS (Predicted protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B5YN86_THAPS)

HSP 1 Score: 176 bits (447), Expect = 2.300e-44
Identity = 87/198 (43.94%), Postives = 132/198 (66.67%), Query Frame = 2 
Query:  947 DQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNL-------KRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKP 1519
            ++ R A +  QPA++  +TDVGFKKV  P +V++++  Y++ N    ++E+W   N + N  +AP+YMVN+ EN NL       K+ I++G++P+LEEW G+EL Q++ YG+R YT  + LS H D     + S I+NV Q+VEEDWPL +Y   G  YN+TM P D+VLYES + +HGRP    G+++AN F+H++P
Sbjct:   78 EEDRYAMSLRQPASMQNYTDVGFKKVRAPAEVFNLLSNYWDTNLRRRQQEKWPTGNTYVNYWKAPTYMVNV-ENTNLRSGGQLLKQKIWDGVKPVLEEWTGMELEQSSMYGIRQYTRGAILSPHADRMPLIS-SCIINVAQDVEEDWPLEVYGRDGLAYNVTMSPGDMVLYESHSLIHGRPFPLQGEYFANIFIHFRP 273
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: B8CFM4_THAPS (Uncharacterized protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CFM4_THAPS)

HSP 1 Score: 182 bits (461), Expect = 2.950e-44
Identity = 84/199 (42.21%), Postives = 131/199 (65.83%), Query Frame = 2 
Query:  947 DQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTP--KKEQWSKYNVFTNNVEAPSYMVNLPEN------GNLKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKP 1519
            ++ R+  +  QPA++  +T++GFKK+  P++VW  +K ++EENK     K E W K N +TN+ +AP+YMV++ +        NLKR ++   + ++ EW G EL + + YG+RVYT  S L+ HVD +     S I+NVDQ+V+E WP+ +Y H G  YN+TM+P D+VLYES + +HGRP    G++YAN F+H++P
Sbjct:  284 EEDRVEMSLRQPASMQNYTELGFKKIRAPEEVWQRIKKFWEENKGRENWKDENWPKGNTYTNHWKAPTYMVSVEDTRLRGAGSNLKRKVWNAAKGVISEWTGQELTECSMYGIRVYTEGSILATHVD-RMPLVSSAILNVDQDVDEPWPIEVYAHDGKAYNVTMEPGDMVLYESHSVLHGRPFPLKGRYYANIFIHFEP 481
[Close]
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Match: A0A7S1D171_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1D171_CYCTE)

HSP 1 Score: 178 bits (452), Expect = 3.070e-44
Identity = 84/200 (42.00%), Postives = 131/200 (65.50%), Query Frame = 2 
Query:  938 KYQDQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWDMVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGN------LKRDIFEGLRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQEVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYANAFVHYKP 1519
            K  ++ R+A +  QP ++  +TD+GFKK+  P+ V+ ++K ++++NK+  K EQW   N +TNN  +P+YMV++ ++        LK+ I++  R  +EEW G EL Q + YG+RVY   S L+ HVD +     S I+NVDQ+V+E WP+ +Y H G   N+TM+P D+VLYES + +HGRP    G+FYAN F+H++P
Sbjct:  144 KQNERERVAMSLRQPQSMQNYTDIGFKKIKAPEKVFKLIKEFWDKNKDNRKLEQWGTGNTYTNNWASPTYMVSVEDSSLRGGGVVLKQHIWDAARETIEEWTGQELTQCSLYGIRVYEEGSLLATHVD-RLPLVSSAIINVDQDVDEPWPIEVYGHDGKATNVTMEPGDMVLYESHSVLHGRPFPLKGRFYANIFIHFEP 342
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig88.91.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KTG8_9PHAE5.860e-24373.83Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A835YWU1_9STRA9.450e-14350.11Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A7S2UT49_9STRA4.920e-6752.83Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A7S2THP0_9EUKA9.770e-6641.23Hypothetical protein n=1 Tax=Lotharella oceanica T... [more]
A0A7R9UF35_9STRA6.440e-5145.32Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]
W7TBS5_9STRA4.480e-4631.53Uncharacterized protein n=2 Tax=Monodopsidaceae Ta... [more]
A0A7R9W969_9STRA8.740e-4543.65Hypothetical protein n=2 Tax=Pseudictyota dubia Ta... [more]
B5YN86_THAPS2.300e-4443.94Predicted protein n=1 Tax=Thalassiosira pseudonana... [more]
B8CFM4_THAPS2.950e-4442.21Uncharacterized protein n=1 Tax=Thalassiosira pseu... [more]
A0A7S1D171_CYCTE3.070e-4442.00Hypothetical protein n=1 Tax=Cyclophora tenuis Tax... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig88contigP-littoralis_Contig88:380630..401728 -
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.D8LR21
PFAMsAnk_2
Model size2782
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorysignal peptide
Exons9
Evalue6.35e-227
EggNOG OGs2DE90@1|root,2S5PQ@2759|Eukaryota
Cds size1407
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig88.91.1prot_P-littoralis_Contig88.91.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig88 381857..401580 -


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

Feature NameUnique NameSpeciesTypePosition
1680791766.310259-UTR-P-littoralis_Contig88:380629..3818561680791766.310259-UTR-P-littoralis_Contig88:380629..381856Pylaiella littoralis U1_48UTRP-littoralis_Contig88 380630..381856 -
1680791766.4346282-UTR-P-littoralis_Contig88:401580..4017281680791766.4346282-UTR-P-littoralis_Contig88:401580..401728Pylaiella littoralis U1_48UTRP-littoralis_Contig88 401581..401728 -


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

Feature NameUnique NameSpeciesTypePosition
1680791766.3239465-CDS-P-littoralis_Contig88:381856..3820631680791766.3239465-CDS-P-littoralis_Contig88:381856..382063Pylaiella littoralis U1_48CDSP-littoralis_Contig88 381857..382063 -
1680791766.3374584-CDS-P-littoralis_Contig88:382697..3828171680791766.3374584-CDS-P-littoralis_Contig88:382697..382817Pylaiella littoralis U1_48CDSP-littoralis_Contig88 382698..382817 -
1680791766.3504248-CDS-P-littoralis_Contig88:384135..3842861680791766.3504248-CDS-P-littoralis_Contig88:384135..384286Pylaiella littoralis U1_48CDSP-littoralis_Contig88 384136..384286 -
1680791766.3595912-CDS-P-littoralis_Contig88:384632..3847991680791766.3595912-CDS-P-littoralis_Contig88:384632..384799Pylaiella littoralis U1_48CDSP-littoralis_Contig88 384633..384799 -
1680791766.36883-CDS-P-littoralis_Contig88:386057..3862381680791766.36883-CDS-P-littoralis_Contig88:386057..386238Pylaiella littoralis U1_48CDSP-littoralis_Contig88 386058..386238 -
1680791766.3839312-CDS-P-littoralis_Contig88:388150..3882791680791766.3839312-CDS-P-littoralis_Contig88:388150..388279Pylaiella littoralis U1_48CDSP-littoralis_Contig88 388151..388279 -
1680791766.398549-CDS-P-littoralis_Contig88:389427..3895581680791766.398549-CDS-P-littoralis_Contig88:389427..389558Pylaiella littoralis U1_48CDSP-littoralis_Contig88 389428..389558 -
1680791766.4085593-CDS-P-littoralis_Contig88:390009..3901391680791766.4085593-CDS-P-littoralis_Contig88:390009..390139Pylaiella littoralis U1_48CDSP-littoralis_Contig88 390010..390139 -
1680791766.4197984-CDS-P-littoralis_Contig88:401389..4015801680791766.4197984-CDS-P-littoralis_Contig88:401389..401580Pylaiella littoralis U1_48CDSP-littoralis_Contig88 401390..401580 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig88.91.1

>prot_P-littoralis_Contig88.91.1 ID=prot_P-littoralis_Contig88.91.1|Name=mRNA_P-littoralis_Contig88.91.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=469bp
MIVRPQQGPFASTALASVALLVIFPAALISAAVPAAPVVVTNYKQLVGTI
GSNNNYGTGERFYREGLVLVHKGDGCEPDFDGLGLTVFGNHPDMYSLVSV
DVDHADKELLSKLGVTAANLDDRTVCPALTVIPRRSTVADPAIKHPEADG
NGNYHLSTVDTQQVSVGIVNDMDITLDIHYQWFDQPTLPTHVRTLKPGTE
NWMLTYKTTTMVALSKETGQEMGRQLVRGNSLFTVANRDCTVETCGTSEG
AETPSEKEWQDTWKYQDQSRMANNRVQPAALPRFTDVGFKKVTVPDDVWD
MVKTYYEENKNTPKKEQWSKYNVFTNNVEAPSYMVNLPENGNLKRDIFEG
LRPILEEWCGVELVQTACYGVRVYTNTSWLSNHVDTKATHAVSVIMNVDQ
EVEEDWPLMIYDHAGNDYNITMKPRDLVLYESATCVHGRPSTFHGKFYAN
AFVHYKPKDPEKWSVFIK*
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mRNA from alignment at P-littoralis_Contig88:380630..401728-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig88.91.1 ID=mRNA_P-littoralis_Contig88.91.1|Name=mRNA_P-littoralis_Contig88.91.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=21099bp|location=Sequence derived from alignment at P-littoralis_Contig88:380630..401728- (Pylaiella littoralis U1_48)
CCACTCTAAGCAGCAGGTGAGTATCCTAACCCTGGGGATTCCGAGATTCT
CGACCGCGAGTACAGCAGCAGTATCGCGAGAGCCAGTGGCATATCGGCAC
ACCCAGCCAGGCACCGCAGCAACACATTTAAACACACCCGTTGACGCGAT
GATCGTCCGACCGCAGCAAGGGCCTTTTGCATCCACGGCTTTGGCCTCGG
TGGCCCTGCTGGTCATCTTCCCAGCAGCTCTGATTTCCGCCGCAGTCCCC
GCAGCCCCTGTGGTGGTGACAAATTACAAACAGCTCGTTGGAACTATCGG
CTCCAACAACAACTACGGCACTGGCGAACGCTTTTATAGGTGCGTGCAGC
AGTGTATCGAGATCGGGTGTGAAGTACGAAGCTTGGCACACACTCTTGAT
GTTAGGTCAGGTAGCGGTTAACGATCTAGAGCTTTTCTGTTGTTCTAGGG
GGTGTTTTTGGCGTCGGCGGGGTGGTCTGCCCCTGTGGCCTTGAGTGAGT
GTCAGGGGCTCCTTTGAGCCCAGCAAGTAGTCAATCAAGAATGTCCTCTC
AAAGTCCTCTCAAAGATCAAGAATTGCTCCGCTCGCTCTCCGATGATGTG
AGTTTTGGGTGAATGGTGAACGGACAAGGTGCACGGTCTCTCCCCACCAG
TTGCTACGGCTCCCCTTTTCGACAGCGCCGTCGCCACTATGAAGCAGTAC
TTCTTTGATCTGTTCTCGCCATGCGGAGACAGCACGAAAGACGAAATACA
GCATCATCAGCGATCAGCAAGTTGGTCAGGGGTGTACAAGTACAACGAAC
TTGAAGAGAAAAATACTCTGTATCTATGATATGAACGTACTCCGGGAAGT
ATCTCACATGGTACGAAGAAACAACTTGTTGACATCCTTCTGCTCTACAG
GGTAAGTTTACCAGCCATAGACAGTAGAGCTGCAGCGATGAAGGCTGTTG
ACCTCCAAATCCGCCTCCAATAAAAAACGAAGTTTGTCTTGTTGAGGTTG
ATACGCCGAGGGAGGCTGCAACGGCAGATATGAAATTATTTTATCACAGC
AGTACATATAGAGTACTTCGTGTGATGCAGCAGTGCTGCTTGTATGAATG
ATATCTGATATGCATACGATATCAATTTTAGATACTAGAGTAGACTTGTC
CCACATGTCGTATTTTTCATTTTTGTATTTTTACCCTGTTTCAACTGCCC
CGATCTCCATAGCTCTATTTACTTCGAAGCACATCCGATACTGCTGTACG
TGATTTGGTGTAAATGGATATCAAAGCCTCGGTCTGCCCACAGAAAGACT
GGGCGCCACAGCATTTGGGTACGTTCAGCACATTAGAGCACGAGCCGTGT
CACACAGCAAGCAGGAGGAGGGTCAGCAGCATTCGTCACACATCAGTTAC
TCCCATTATTTTTTTGCTTCCATTGCTCCGCTTTTTCCTTCCTGTGAGCC
TGTGAGGGGGGTGCTTGCCTCATTTTGTAAACTCGAAACATACGTGTTTG
TATGTAGGATTTGACGGGATGAGGTGGCCGTTTTCACACTACCGCAGAAG
CGTCCCACGACATCAACGAATCATGCCTGCCGAGGAGCTCTTGCGCGAAA
ACCTCCGGGTTTCTTGTGCATTTTGTGTCGCGAGAAGAGTTTTGCCTCCC
CTTTCCCTCGTGTCGACTATTTTCAACCTTTTTCGAGTCGAATGTTGTGA
CTTCGCACCTGCAATATGTATTCGCTTTCTTCCTATCATACTCCGGAGTA
TAGTACAACATATATCACCGGTCGTGGTTCAGTTGATAATCCACGTAACC
TTCTGACATACACGCGTGAGTTCGAATCCCAGTGCAGTAACACGATCTGG
GGCTTTTTCTCGCATTGCGCGTGAAAGTGGAAAGCGATCAATTCGTGTGT
AAACAAAATTCGACCGTGCTATCGACGAGGGAAAGGGAGTGCTGTCCCCT
TTCTCGCGATAAAACCTCAACCAAAGAGGCAAGCACCGCAAAGGGAAGTG
GAGAAATAAACAACAAAACAAAAAAATCTCCTGTGTTGACTTTCCCGCTG
TGTGACCCCGGTTGGAGCGTCTACCTACCCGAAAGGTGTAGAGTGGCGTC
CAATGAAAGGGATGACAATGCGCACATAGTATCAGGGTGAGAAAAACCCG
ACCGGAGTACTGCTACTGCTGTAACTATGTACCGGTATGATATTTTAGTC
TGAATCTTGAAAAGCTTGTTGGAGCTTAAAGTACAGAGTAGTCGAATGAT
ACTCCGTATTTACCAATCGACATTTACAGCAGCACACGAGAGCAGTGCAT
CATGAACAACACCGAAATTACAGAGGAGCTTCCTAATGAATGTCACTGGT
GACTGAATACAGGGCACATGCGGGTATACTACACGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGATTCTCAC
ATTTGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACAT
ATCGTGCTCGGAGGAAGAATTTTTTTTTTAAATAAATGGACTATGATCAC
CCACAGTCAAATCGGATATGGGACCGTTGGGGTAACATCTGTGGTGGCCA
GAGTACCAAACAAAATACAGAAAAAGAATAACAGGTTCGGAAGAAAAACA
AATTTGGAAACAGTACGACGAAGAAAAAATAACCACGACAAACCTCAACC
ATTACCATATACTCCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCC
AGGACAGACCAAGGCAGAGGCAAAGGCAAACCAGGGCGATGGTCTAGTAA
CAAACAATATGATCAATAGACGAAAGACAAAAAAAAAAAAAAGGTACAGG
GAGGGCACAAAGACTGAGGGAGTGCACTCGTACACAAACACAACAAACAG
GCCGTCAAACAAAGAGGAAGCAGGGGAACGGAAAGGGAAAAGAAAAAAAA
TAGGCAAAGAGGAATAAATACATACATGGAGAGTGCAGAGGGAAGACCGG
AAGTACCGGAAGTCGGGGGGGGGGGGGGGAGGTGATAAAAATAAAATAAA
AGGCATGCAATCAATCGCAAACATGGCTTGCCACGAGGTCTGCCTGTTCA
CGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTGCTACTGGCACCACCGT
ACCCAGTTGTTTCTGCCCCACATATTTGGCAGCAGCTACACCACCATTCC
GCCCGACAGGTTTTCCACTCCGCAGCTTCGCTTTGGGCAGCTTCTTCTTG
TGCTGTGCAACTCCGACCCCACTACCCCGCTGCCCTTGTGCCCCCCCGTA
CTCCTCCTCTCGGTTATCCCCGCCATCCGTTCTCCCTCTTTTGGCCAAGG
CCTGCCCCTCAGCCGCGTCCCTCTCCCTTTTCCGTCGACGTGTCTCTGAT
AAGTCTCCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCTC
GTCGATCCTGTCGTACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACC
CCTCCTTTTTGTCGACCACGATGTCGAACGCTTCGAGGTCCTCCTGCATT
CGCCTCAGCCAGTCAAACTCTTGCCCCCCCAGATACCTCGTTCCCCCCTG
CAATTCTCCCAAAAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCG
CAACGAATCCTGCGAAGCACAGTCGCCGCTTGCGCACGGTGGCCTCAATG
CTCTCGTCGCAACCCGCGGTGATCAGGGCTTCGGCGTAGGAGAGGGGTCG
GTCTGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAGGAGGAAGAAGT
GGTGGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCGTATGCATTGTT
GATTCTCACATTTAGCTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAG
TGCTGAGCCCTCGGGAGATCCAAAAAACAGAAAGAAACTATAATGAGGGA
ATACCCAAGAAAGAGCGAAGAAGATACACCTTCCAACGAACGTGGTGTCA
TTACTGAACTACAGCAGGATAGCAGTACCAACAGCAAACGTACTTCCAGC
GTCGTTCATTTGACTACAACATCGTGTTCAGTCTCCTTCTGCCCCACTTA
TAACTGATAACCTGCTGCTACAAGCAGTCAAGCAGTTAGTTGGTGTGGAG
TGCTGCCTGCAACGGTACAAGTAGCCCCGGCAATCGGAGAAGACAGAAAA
AGAAAAAACACAAGAACAATCGCGTATCATCAGATGTTGTCGAGGATGGT
GTCTCCATGCCGTCCTTCCGACGCTGTATATATACAGTTGGCGCCCGCAA
GTAAGAAATTGAGGCTCAGATTTCCGTAAAAAATAAGAAATTTCGGCTAA
GAAACACAGCTCAGTCCGGGCCGCCAAGTAAGAAACACCCCAAGAAGAAA
CTGAGGGCAGGACCGCTCCAAACCATGAGAAACGACGTGCTGTAGAGAGG
GTGAGGAAAATAAGAAACGGCCGTTAGCCCGGTGCCCCCCCCCCTACCCC
ATTGTGGGTGTATTTTGGTGTATGGGTGTGAGTGGCTGTCTTGTACATAT
GCGAACCCCTCTTTTGGACCGCACCCTCTGGCATGGTGCATGCTTTGGCC
TCTGGTCGCCTTCTTTGACACATGATCGGGGCGTGATGGCCTTTCCCGCC
ACCTCGATCAGCAGCTTCAATGAGTTGTTGGGCATCAAAGATCAGCTGAC
GAGCGGCCGAGTCGCTCTCATCAAACAGCACCTCCTCAACAAGAAGCCCC
TGCCTTCAACAGAAACGATACATTACAAGAAACGAGCATATCCTGCAAGG
GCCCAAAAATAAGAAACGGTGAAAAGGAAAATCAGCGCCATATGCTGGGA
GTGTGGCCAAAAATAGGAAATTGAGCCTCGATCCATATCTTACGTTTCTT
ACTTGCGGGCGCCAACTGATGGGACATCATATGATACTCGAAGTATGATA
TCATCATTCGTACATACCCCGCATTATATATCACCGGTCGCCCCGGTGGT
TCAGTTGGTTACACCCGCAACCTTCTGACATTCACGCGTGCGTTCGAATC
CCAGTGCAGTAACACGATCTGGGGCTTTTTCTCACAATGCGCGTGAAAGT
GGAAAGCGATCGATTCGTGAGTAAACAAAATTCGATCGTGTACCATCGAC
GAGGGAAAGGGATTGCTGTCCCTTTCTCGCGATACAAGCTCAACCAAAAA
GGCAAGCACCGCAGAGGGAATTGGAGAAAAAAAAAATCTCCTGTGTTGAC
TTTCCCCCTGTGTGACCCCGGGTTGGAGCGTCTACCTACCCGAAAGGTGT
AGAGCGGCGTCCAATGAAAGGGACAACACACACATGTAGAAGTACTTCTA
CTTTTACGTATCATGTCCAGTCTGTTTCCTCCTGCCGGGTACATTCGATG
ACACGCTACAAACGCTATGCACAGCAGCAGTTGTTGTTCTTGTTCTTGTT
CTTGTTGATGTCTTCACATTAAAAACCGTTCCGATCTCTCCTCAGTACCT
CCTGATGTCCGTACGCTGCTTTGTCGTGCGGGAGACGAGCGTGCACCGGC
GGAAATACATTTGGAAGTTGACAAATACAACTTCGAAGTTATTACTCCGG
ATGATGTGTACCAAGGACTTTTACGTACAAGTAATTCCCCGACCACAACA
CTCAATTCAAGTTTTATATTTGTACCGAAAGGTGTACAGCAGTCTAAAGA
CTGCCGCCCATTTTTTTTAGTTATTACGAAGTACTTGTATATAATACAAT
CGATATAGCCACAAGTATTAGAGAACAGACCGGGCTTTGTGCAACACGTG
ACGTACAGGTTAGGCTGAGTCTTTATCACAAAATCAAATCCGAGCTTCGA
ATCCAAATCTGGAGAAATGACTGAAAGATCCAGCCCAGATCTGGTTTCGT
TTGCCCAATTGTCTTATCCGGAAACTGCAGAAATCGAAATAAAATCCCAC
CAACTAGCACTCAGCGGTCAGCTCAACCTCATTGAACAGCCTTCGTGTTG
ACATCCCACATTGTTGCTGGTCATGCTGCTGCTGTTGATGCAGCAGCGGC
GGGCACGGGAGTGTGCGAAGTAATTAATAATGCTGTTGTTGAGCGGAGGG
TGCTTGCTGCTGCTGCTGTGCTGTTTGTTTTTGACCGCCGGCATCGTCTT
GCTCCGACATTGTAGAGCGTAGTCTCTTCTTGAATCTGCTGGTGGTATTC
GGCAGTCTTGCTGTCTTGTGTGTTTTTTTTTGGCTCTTCCAGCCTTAGGC
CCGTTCTTAACCGGTTGAAACTAGCATCGAGGAGTAAAAATTGCCGTTCA
GCATGGACTAACAAAAGGCAGGAACGATCATACCGCTGTGTAATATACTC
GTGTAATACGACTACTTGTACGAAAAAAGGTCGTTTTTCCAGAAGACCGG
TCGCCCCGTGGTTCAGTTGGTAACCTTCGTAACCTCCTGTCATTCACGCG
TGAGGTCGAATCCCAGTGCAGTAACACGATCTTGGGCTTTTTCTCACATT
GCGCGTGAAAGTGGAAAGCAATCAATTCGTGAGTGAACAAAATTCGATCG
TACCATCGACGAGGGAAAGGAATTGCTCTCCCCTTTCTCGCGATGAAAGC
TCAACCAAAACAAGGAAGCACCGCAGAGGGAAGGGGAGAAAAAAATATCT
CCTGTGTTGACTTCCCGCTGTGTGACCGCGGTTGGGCTGCGTCTACCTAC
CCGAAGGGTGTAGAGCGGCGTCCAATGAAAGGGATGACAACATACACAAC
ACACACACTGTACGCTTCCAATGAAAGGGATGACAACATACACACTGTAC
TATTTCTCGCGAAATAAAATTAAGGCAAGTTTGTTGATTCTCACATTAGC
TCATCGCCAAAATTAGCAAGTACCGCAGTGGGAAGTGGAGAAAAAAAAAC
TCCTGTGATGACTTCCCACTGTGTGACCCCGGAAACGTCTACCTCAGTGT
TGGAGATCGAGCCCAAGAACAGTCTCATACGATCTTTTTTGATCGAGAAA
GAAAAAACGCGATACTCGAACTTTTTTCGATCCTGAAGAAAATGTCGGAT
ACCGATACCGATCCGCGGATCGATCCTTGAGGACCGATCCTGGCCCCCGA
CTCCATCGATGTCGGTCTGGATTTTCTGGCGATGATAGTTGTCAGGTTAC
TACTATACTTTATGCAAGTGGCTCCGAAAAGCGAGCGCAGCGAGCGGGCG
AAGACAGCGGTGAGCGATATAGACGAAACTTGTAGCAAACGCGAGGGAGC
TCAAAGGAGGTAAAAGGAGAGATCCAACTTGTCTACGCCGGCATCCTCCT
TCTCCTCCTGATGTTTCTCACGAAGGGTCAGCTGAGATTCGAGCATGATG
ACTGCCGCGCATCATCAGCGGCAGCCCTGACTCCAAAAACCTCTAGGCTC
ATGGCGTTGTTGGTTGAAGGATAAGCTTGATGCGCAGCCGGGAAAGGCAG
GCGAGGTTTATTCACTTTGTGCGGTGTGTGGTGTCTAGTGTGGTTGGGTG
GTTGGTGCCAGATGAGGTATGGGGTGGAGCTTGGAAAGTGGAGAGAGGTG
GAGAGCAGTGTGGGCAGTGGATGAACTATTAAATAGCTAGGGGGGGTGCC
AAAGGAGGCCCCGTGAATGAAATTATCGAGTATCGCGATAACGACACGCG
ATGCTCGATTCCGATACAGTATCTGAGTATCGAGCTCTAAATTCCCGATA
CTGATCCGGCCGGATCGGTTTCAATACCTCGATCTTTTTCTCAAATTCGA
TCTCGATCTCCAACACTGGTCTACCTACCCGAAAAGTGTATTCGTAGTAG
CGTCCAATTAATGGGATGACAACACACACAACGTTGTACCAACAGAGCTG
TGAGAAGAGATCGGGACGGTCTTCAATGTCTAGCCAACACTACGGAGACA
GAGACTGCAGTAGTGAGCGGGTCGCCTGGTGATTTGGTCGGTAGTGGGTA
CCCTGCTTGTCCTCTCTGACAACGAGATCGTGAGTCCGAATCCAGGTCGG
GATTTCACCACTACTTTGATGTGATGCTGCTGAATCACTTACTGCTGCTG
TACATTCCGTACCCAAAACCTTAAGGCCAAACTACTGTGTGTTCGGCACG
AAAAACATTATTGAAAAAAAGGAGGGGTTTCGAGGAATATTGGCGTGATG
CAACAGGAAACCAAGTGACTTGAACATAGTGGCGGGGATTTGCACAAGCG
CAGCTTTGTTTGGGGGGGGTCTTCTGATACTACCGGAAAAAATGTATTTT
CATTAGCTTTTTGCGCCGCAGATTGAAAGACGGAGTGTGCTCAATCTTAG
ACCCTAAGAGGTTATTGGCGTACGAGATCTCCCGGTAAGCCAGTTAAACT
CGCGTCCAATCCGTTTGTTGGTCGGGGGTGTCATAATACACACGCAGAGA
ACGGTGGCATCGCGCAAGCGCACCCGCAGATCTCCCGTTCTGGTGTAATT
TCGGACTGCTGCAGGCATCTAGATACAGTGCGCACGAATACCTCAAGGAG
TCTCTACCTGCGTGCTGCTGCTGTCAAGGCATGGGACGCCACTCACACAC
CACATCAGTAGGCTGTGGCAATTTGAAGCAGTGTGGTTACTTGTGACCAG
TTTGCTCCATAGCTGATCACAGTTGTTTCCGCGGGGTTTTGCGCAAAATC
CATGGGGCAAAATGGTGCTCAAAACGTTAATTTGGAGCACCTCAATCTCG
CGCTACGAAGCATTTACAGAGGTTGGGCACGATTCTAATCCACACAGGAG
TTCATGCCGCTGTGAGATCTCTAAAACCTAAATAATTGTGTGCATCTCGT
GAGGCTGAATGGGGGAGGGTGGAGGTGCATATGGAGCGTACAGCAGTCAA
GGGATGGCACCGCCCAGGATTTTTGCGCCAGGAGTTTGACATGTGGGGAA
ACAAAAATACAAAAATACCACCACCTAGCTCGAGGAGATGATACCCGGCG
CCCCCATTAGTGTTGCCTGAAAGAGCGAGTATTTCGTGCAAATATTTTAC
TTCGAAGTATGAAATTTGAACGTGGAACATCTGTCTTTGCATTCCGAGTA
CTCTGTACCCCAAAACCTCCAAAAGGGCGAGTATTTCGTGCAAATACTTG
TATACGTACGAGTATACCATAGGTACGAAGTCTGAAAATTGAATTTTTAT
ATTTTTGAGGCGAGAAATCAACGAGGAAAAGGAATGGTGGAACCCTTCCC
TACGTCGCGATAATACCCAGGTGTGGTATCATATGTATGATACCTCACAA
CAATAGAGAAAGGGGTGGTTGAAAAAAACAACTCCCTGTGGTGACCCACC
TCTCCTGTGAGACCCCGGGCCGGCTGTTACGCCCAACTCAAACTCCAAAA
GTTTTTTAAGTTTTCCCGGCGTCCAGAATCTAGATCGGATATGGCAAACT
CGCACTCACACATACTTGTACACACAAGGAGGGAGGGGTCCCCTCCGTAA
TGCTTTGAAAAAAAAAGGGTGTTGGTATGATCCGCACGCCATACTCACTT
GCATAGCAGGAGATTGATCAACAACCGGCTTTTTTTACTTGGTCGGGGCA
AGTCGTCGCCGTACTTTTCGTTTAACCCGACGGCACAGCAGTTAACGCCC
GCATTTCTCTGGGCTTTACATGAGAGAAACATTCTTACAGCATAGTAGTA
GGATAGTAGGTTTCCTTGAAGCTTAGTACATGTAGATGTCTACGCACTTT
GTTCCGCATACTTGTATCCATATGCGCTGTTCTCGACAACGGAAACGCAC
GTTGACGCGAAATCTCGAAAGTCGATGGATCTCACGCAGAAGAAGCGATC
GACGCGGCTACCGGTACCAAATCTCGCACGAGGCAATTCCTAGGTGCCGT
TCAGTGGCATCGAGCGTAGGGGTCCACAGCGTACATCGACGTCCTCCTCA
TTGATCGGCATCTTTTTTGCTATCATATATGCAGCAGACAACAGTATCCG
TATGACATGGAAGTGCCAAACGAACAGATTTGTACTTCGGAAAGTAATGT
GTATGTGTCATATCACAGATACGAACGGAGTTACGCAGAGTATACCGGCA
TGTGCCCACGTGTTATCGGAGAACTGCACGCCGAAGAGAGAAACGAATCT
ATTACATATTTCTCCTTACAACCTGTTTCATCAATGCAAGGGACGTTAAA
ACGGGGCGTTGCATATTCTTCGTATAATATTCGGCATGTTTTTGTTTCTT
TTCGTAGCGCTTGTAATATCGCGGGGTATATATCGGGGGTATATCGGGGT
ATCCCTAGCCAAGTTTGAGCAAGCGTTGCTGTAGCATTTGCGTAAGAAAA
AGTCTCTCCCCTCTCCTCCCATCTGTCGGTTTCCGCATTTTTTTCCAAAC
GTGACGCAAGCGTTCCATTTATATACTATCTATCATACAGGTTATTCGAA
GTGCACGATACTCTTTTACTTGTTCATCTCGAGTCGTGTTCCATCGAGGC
TTGTCCCATTATCATTCGCAGCCCATGATAGTACTTGCGACGTACGAAGT
ATTTTATACTGGTACGTACTATAAGTCGCGTAAGTTAGCACATCCCCTGG
ACCGATTTCCAAATCTCAATTACTCCTTCGACGAGGGTGCCAGCTTCAAA
CCATTCCTTTTTTCGAAAGCTCTCGACGAGATCGTTCCAACGCCGCCCTT
TCCGGTATCCACACTCGTTCCGCTGTGGAGCAATTGTGTGCTTTGAAAAT
CGGCCCGGAGGGTGTGCGATCTATGGTATGTAATACAGCGTGCAAAAGTG
GTTTATCATGAGTACGTCGTTCTTCGATCACTACCTTCTACTCAAGTATG
TCAAGCGTGGGGTCCGTATGAAAAGTCATCGTGGGTGCACTCCTCGCCTC
TCGACGTTTGTTTAGTGTTCACACTAGAAGTATATACTTCCAATTATATA
ACAAGAACACGCCGCAAGGGAGAGAATTCATTATTACAATCGAAGCATGG
TATATGCTTATGCACTGTCGGGAAGGTAGCTTTCGTGTTTCCGGGCCCTT
ACCATCCTGGGTTCAGTCTGGAACGTTTGACCGCCGTTGTCCCTCCAACC
TTAAAATACCAGTCACATACGGTATGAACAACACAGCAAAGGGAGTTTAG
TACTGCTTGCTCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCCTCC
TGTAGCAGCGGTGCTCTGTTTATTGTTCTGGCGAGGTATGGGCACGAGGC
GTGAGAACTGGTCGGCACTTGTGGTGGAGTTTGAGGAACGTGTCGTGCGT
GGCGGCACAGCGGCATGTGTGCCACTGCTGCTGTGTACGGATGAGAGCCT
GCCCTCACCTCATCAGTCACCGCACCTTGCTGTGCTTCTTAATACAGCAC
AGCAGTAGCGTAGGACAAAAAGCATCTATTTGTCAGCTTGCCGTAGCACA
AATGCACACAAAAGGCTCGCGTTCACACACAAACACACACGTTTCTGTGT
TTTTGCACACCTTTCACGAAGATAACCCCCCCCCAATAATGTGCGTCGTC
TCGCTATCCATGGCATGGTTGGCACGGAACAATGCCGTGCGGTCGACGGC
GATGGCTGCCTGCCCGATACCACGACACGATCACGACAGGGAAGGGCTGG
TGCTGGTCCACAAGGGAGATGGCTGCGAGCCGGACTTCGACGGGCTCGGA
CTGACCGTCTTCGGCAACCACCCGGACATGTACTCGCTCGTATCTGTGGA
CGTTGACCACGCCGACAAGGTAAAATACAGCAAGAGACGGAGACAGAGAC
AGAAAGAGAAAGGAGAAAAACGATATTTTTACACGTGAGGTTGTTGATTC
AGACCGTAGTGTTTGCGTTGAGTGTCTTTTGGGCTGTGTCTCCACGATCT
ACGAGGTTTTTTTATACTCCTAGATCGGAGTGTATGTACAGCACATGCAT
GCGACTTCCTTTTTTTCTTCGATAAAGGCGCGCGCGCGCGCGGCACGCAA
CAACAAAAACACACGACAAACGGTCGCGTACCAACCGCTCACATTCGCAC
CCGCTGTGTTGCTTCTGTCTGTTTTGTTTATTCGTATGTTGTTTGTTCGT
CTGTTTGCCCGCGCCGTGTCTCCCGTCTTTTTTGTTTTTTTCCTTTCTTT
TCCTCTGTCTGTTGCTTCTCTGGGGCTCCCGCTTGTGTGATTTTTGTTGC
TTGGTTGGTTGCTGTCGTAGGAGCTTCTGAGCAAGCTGGGCGTTACGGCT
GCGAATCTAGACGACCGGACCGTGTGCCCTGCGCTCACGGTCATCCCAAG
GCGTTCCACCGTCGCAGATCCGGCGATCAAGCACCCGGAGGCCGACGGGA
AGTGAGTCTTTCTTGTATTCCTTCCTTTCCCTCGCTCCGATTTCTCCTGC
TCCAATTGTTGGTCAGGCCAGTCGCTACTCCCACCAACAGAGGCCGACGG
ACGTCGAGTTTTCGTTTGATCATTTTCCGTTACTCCCGTCCGTTTTTCTG
TCGCTGCTCCTGCAATAAACTCTGCCGAACGAAGGCCGGTCGACGGAAAA
AAAAAAGCGAGTATTTTATACAGACTGGTTCACGGAAGAAGCAGGAAATT
TGGTCCCCGGTATTTTCTCACGCGGTTTTTTCGACTTAGACCCTGAAATT
TTGCACACATGTACCATGGGTCACTGCGCAATTTTCGATGAGTTGCCCTT
TTTTTTTTTCTTTCTTTCACCAGATATTTGGGATCCCAGGTCTAAGGGGC
TTTTGAGTCAACTTGGTCGCCTGGGACCCCAGATTTCTGGTGAAAGAAAA
AAAAACAAAAAGGAGGCCAATTCATCCGAAGTTGCGCAGTGATCCATAGT
ACATGTGTGCGAAATTTCAGGGTCTAACTCGAGAAAACCGCGTGAGAAAA
TACAGTGGCGTTAAGTTTACTACTGCATAAACCTTAATTACTTGAATTTA
GTACCAAATCGGCTATTTAGGGATTTTACAGCGATAAGTATACAAAAACT
AGGTAAGTTCGTGGACTTGAGAAAAAAAAATCGTGAGTACCTTGCTTAAG
ACCCAGAAAGACCATACGTGGTCGAAAAAAGTATACACCTCGAATTGATC
ATATGGCACTCAGTGTTGAAAACCTGGTTTCTATTGCACTTAGGGGGTTG
GGTGTTAAACTACGTCATTCAGTGTAAATGATACATTTTTGCCCCTAGCG
CCACCTCTAGAGCTTGAAACGAAAATCCAAGAATGTCACGGTCTCATGTT
CATGGCGGTTGGGTTTGATACCAAAAGTTGTCCAGATTGGGTAATTAATG
CGTTCGGAATTGTATGGGGACAAAGTTTGGGGATTTCACCGTGAACCAGC
TCGTATCTAAATTGGATTGATTTACTTTTTTTTTCCTTCTATGCCGTTGT
CGTAGGTGATTCCCTCGCTCTCTCTCTTCTCCCTCCCTGACTCAATTTTG
TTTCGCGCGCGCGCTCGCGTGTGTGTCTGTTTTCTATCCCACATCGCAGC
GGAAACTACCACCTCTCCACCGTCGATACCCAGCAGGTCTCCGTGGGTAT
CGTGAACGACATGGACATCACGCTGGACATTCATTACCAGTGGTTCGACC
AGCCGACTCTACCCACGCACGTCAGGACGTGAGTAGCGCTTGCCATCACT
TCACTGCTGCGATCGATGATGTTAGTATCATTCCCGTGTTGACAGCGGCA
GGCTAGCTACGTTTGTGTGTGTGGCCGGGTTTCCAGCAGTCTTGAGGAGA
GGGGTCGACCCTTTTTCGTGACCCGAACATTGAGCAAAACGGCCCCGGCG
ACAGGTTGTTGGGTTTTTTGGCGACAGCCGCAGCACTCCCCACTCCAACC
CGCACCTTACGGCAACCATCACCACCACCACCACCACCACCACCACCACC
ACCACCAATCGTTCCCTCACCCCGCTCGCCCCGTAACCTTGGACCTCCTT
GCCTAGTCCTCGCAGAAACGACATTCTCCATAGACACTAAACACCCGATG
GCCTCACACAAGCGATGTTATTAAACAGCGGGGAATATGGAAGGTCTGTT
GGTGCCATATGGATTTGCATCTCTCTGGGAATACAGGGACACGTATGATA
CATATATCAAGTGCAGATCAGGAGGCCCGCTGCACAAATACGACATCCCA
CGATTTACGAACTCTGGACACAAGATAAATTCAAGTGAATTGCGACCATG
ACCGGATATTCGTGGGATCAGGAAATGTTCCACGATGGCCTGCCTCGTCC
CGCCCTGTAACCTAGCCCTGGCTAAGCCTCGCCCTGCCATCGCTTGACAG
CCCTCGTCACATATCATAGCAACGAGAGAAAACATGAGCCCCGCCAACGG
CAACGGGTTGTAAAAGTTACCGCGTCACGGGACCTTACTTTGTAGCGAGT
AGAGGCCTTCCATCGTGGCGTATGAACGAAGTGGACGGATTTTTTTTCCG
TGGGGATGGTGGTTTCTGTCTATGTCACGCACACCCCTAACACGAAAAGG
TTAAGGTTCCAAGCATACCTTCTTCCTCCAAGGTAGAGGAGACGCAAGAG
AAGCAAGCAGCTTCGTCCACTGGCGAACCTTGACAAGGTAAGCAACCGGC
CCCCGCCTCTCATCGCGAGATGTCGGGGGCGCTGCCGCCGGGCAAGGGGC
TGGCCCGACCAGCAGCCATACACCTCCGGCTCGCGAACAGGGGTGAGACT
ACTGTTCATGCCAGCTCCTTCCTCGGCGGCAGCGCCCCCGCCATCCCGCG
GCAAGAGGCGGGGGCCGGTTGCTTATCTTGTGAAGGTTCGCCAGTGGACG
AAGCTGCTTGCTTCTCTTGCGTCTCCTCTACCTTGGGGGAAGGCGGTATG
CTTGAAACCTTTTCGTGTTGGGGGTGTGCGTGACACAGACAGAAACCACC
ATCCCCACGCAAAAAAAATTCCGTCCACTTCGTTCATACGCCACTTTTGA
AGGCCTCTACTCGCTACAAAGTAAGGTCCCGTGACGTGGTAACTTTTACA
ACCCGTTAACTGTTGGCGGGGCTAAGGTTTTCTCTCGTTGCTATGACGTT
TGACGAGGACTGTCAAGCGATGGCAGGGCGAGGCTCAGCCAGGGCTAGGT
TTGAGAGTGAGCCATCTATCATATGTGTCCCTGTACCCAAGGAAAAGATG
CAAATCCATAGGATCGACAGAAAACAGGCGATCGAGATACCGTAATAATT
TCACAGATATTCATCGATCGGGTTCCGGTTGCCCCTATTACAGAAGACTT
TTCTCGTCACGAATACACGGACAAAATATATAGAAAAGGGAGGGGGGGGG
GGGGGAGGGAGAGGTAGTGCGGAGATGATTACCTTCATGAAGGGCGTACA
CTGGTACGCCTCCCACGAAATTCTGCCGGAGACGACAGATACCTCTCATT
ACTCAGCAACACACACACATAAAAGAGCATCCAGATCACAAGAGCAACCA
AATCGATCGATGGATACGACCAAAACGGCCCGATCGAAACGGACGTGCGC
GCAACGCACGAATCCACCGATGGTGGTGCTGCTGCTGCAGGCTCAAGCCC
GGGACGGAGAACTGGATGCTGACCTACAAGACCACGACCATGGTCGCCCT
CAGCAAGGAGACCGGGCAGGAGATGGGGAGGCAACTCGTGAGGGGGAACT
CGCTATTCACGGTCGCGAACAGGGACTGCACCGTCGAGACCTGCGGAACT
TCAGAGGGGGCGGAGACGCCGGTGAGGCTTGGAAAAAAAAATGAGCAAGT
AGACTACTACTTGGAAAGATGTCTTCACTTGGATGGTTTCTTACTCCGCA
CCGGTGTATACTTGTGTAGTACTTCGTGTGACATAAAGACACACCAAAAT
ATATTTCGGTTTTCATTACAGTAGTTCGAAGTTTTATCTTTTCCTCTGAA
GCTTTTGCCCCGCACCGGTGTATACAGTATGTGCGGGGTGAAGAAGAATC
ATGCGTTTCATCATCAAAAACCGTACCATGGTACAGAGTAGATCACCCCG
TCGATCATTCGTCGTTGTTCAGCACTACGGTGGTGCACCGGCAGCGAGAT
CACATCAGTGTCTCGCTGGTCTACGGCTTCAACATGAAATTTTCCCCTCT
CCTCCCGCTTTCGTGCACAGCCGAGCGACCAAATCTGCATATCATCTAGA
CGAGGTTTACTTTAAAGCAGAGATAGCGGTGAAGGCACGAGGCGCAGGTA
CCGGGGGGGGGGCAGGGGGTCTTGGCTTGTTTTCCCATCATTTGGTGGGT
CTCTGACCAACACATCGCATCCCGTTCGAGAGGAGTCATCAAATAGGTCT
AGTACTGGTTTGGTTTGGTCTGGTCTCTAGCCTCGGTGCTGTTTGTCATT
TTTTTTTCTTGCGTCCTGCTCTTTCCGATTCATGGTGAGAGTGTGTGGTG
TTGTGTCGGTTCGATCGTTGTGAGGCCGCATCGCCTCGTCTCCTTTCGAA
AAATTCTCGTGTGTTTCTCCTCAGTCTCATGCGTGCTGCGTGCGTATAAA
AAACGATACAGGACCGTAGTTGGACCCGTGATTCCCGCCACCGGCGGTAG
CAGATCATGCGTCCGGGGGGGGGGGGGCTAGGCTAGGTTTAGGGAGGTCT
ATGATGCAGGCAGAGGTGGTCGAAAATGTGTCCAGATACATGTGATGTAA
TGGGCAGTGGACGACTTGAACAGTTGTTTGACCCTTTCGGCCACCCGTGC
ATGGATCATCGACCATTTGGTCTTTTTTTTTTTGCCTCGATCTTCCACAG
CTGTACAGTAGTACGTACGCGAAGTATGCATTGGGTGTCACTTGCGATGA
TACGAATCTTGGAAGAGAATAACAACGCGGAAAGGTGGGGGTGGGGAAGG
GAGGGGGATTGTGGGCGCCTGCCCTCTCTGCATTTTCATAAGGACATGAT
GGCAAATTAAAAATTATGCTACAGCAGTAAAAAAAGTTGCTTTTACTGGT
AACGGCGAACTAACTAAAATGCCGCGCAGAGCGAGAAGGAATGGCAAGAC
ACCTGGAAGTACCAAGACCAATCGCGGATGGCAAACAACAGGGTGCAGCC
GGCAGCGCTTCCTCGGTTCACTGACGTCGGGTTCAAGAAGGTCACCGTCC
CTGACGACGTGTGGGACATGGTCAAGACGTACTACGAGGAGAACAAGTGA
GTGTGACTTGACTTGACTTTACTCGATTTTCGTTTGTGTGTGTGTGGAAG
AGAAGGAGAGAGCGGGGAGGGGCCGAGGGGGAGACGGAAGAGGGGGGAGG
GGGGGGGAGGGGGGACGGTGGTTGTGTGATTGTGGTTTCAAGCGTCAGCC
CGCGAACAAGGCTTTTTTGCGTGTTGGGGTGTGTGGAATGTCGTTCGTCG
TCTCAATAGGCGCATGTACTCGAGAGAACAAATTATGACCCGGTGCCTGT
GCGAATTGAGAGAGAAGAGAGAAAGACAGATACACGGAGGACAAACCTGA
GAGGTGTTTTTCGATTTCTTTGGGACTCTGCTCTGCCCGCAGGAACACGC
CCAAGAAGGAGCAGTGGTCGAAGTACAACGTCTTCACCAACAACGTGGAG
GCGCCGAGCTACATGGTCAACCTGCCCGAGAACGGCAACCTGAAGAGGGA
CATATTCGAAGGGCTCCGGCCCATCCTCGAGGAGTGGTGTGGGGTGAGAC
GCCTCAGAAAGCAACCAACCTGATGTGCATGCGAAGGGCTATGTACTTCG
AAGTATCATACAGCAGTTTCGAAGTTTTATGCGAAGTACTACGTAGCTTC
GTGTGCGCGGTCTGGGGTGAGACGTCTCGAAAAGCAACCAACCTGAGGTA
CAAAGCCATGTACAGTTCGAAGTTTTACACGAGAGGTCTGGGGTGAGACG
TGGCACCAACATCTGATGCGTGGGATGCACCTTCTAGGTGTCGAATCGTG
TGCTGCTGATGCCTGTGTGATGCGCTTGGTGGAGAACGGATCGGTTTCTA
TGGTGGTGGTTGTGCACGTAGACGACATGTTTTCTATCGGACGCATTAGT
AGATGTGACCAGTTTGGTGTGGACCTCAACCGGTATGACGCCTCAAAAAG
TAACCAACCTGATGTTGACATCGTAATATGCACAGTTCGAAGTTTTATAC
TGTACATCTTTTGAGAGACGCGATTGACATCTGATTCGCTCCCATTTTTT
AAAAACCCCGGTGTACGTACTATACACCCTTTGAGGGAGGGACGTGTGGT
CGGCTGCGAGACGCTGTTGACGTCGGATTCGCTCCCATGTAGCATAGTTT
CGAGCACTTGTGTGTGTGCTACCTAAAAAGGCAGTGTGTTTGAAGTATTT
TGAGCAATCTTGGAACTGTAGATGTAGAGTACACAGTAGTTGGGTGCTCG
TTTGGGTGTGAAATGATCATACACGTGGAGGAATATCGGGAAACACTTGG
TGTGTGGATGGATGAAAACGAAGGAGCAAGGTGAGATTTAAGTTTACTCA
CCCCGGTTTGGTTGGGTTGGATTGGAACGGATTGCTTGGGGAGGAAAGGT
GTCAGACACGCATATTTATGCTGCTGGAGGTGGGGTTCGGGGGTGGGGGA
TAGGTCAACCATGAGAAAGACGCAAGAGAAGCAATGGGGCCGAGCGGGGG
GTCTCGCGAATGGTCCCATGTACCAGCGCGAGCTGGTTCATACACGATTG
CAAAACTCACACCACGCTCTTGCTCTAAGGTAGCATCTCCATCTTGCGTT
CCATTTCACAGTTTCTTTTCGAGAAGTAGAGGATACGTTCCATCCATCAT
TTCGTGTAAGATACGAGGGGAAGCATGCTTTTCCGACAGACAGACAGACA
AGACATATCGAGTGCACCGAAGCCACCCTCTCCCCCCTCGACAGGTTATT
GGTTTATTTTCGTCGTGTTCCGTGCTGCTTGTTCTGCTGCTGCTGCTGCT
ACTTTTGTGTGTGCGTGCGTCGCATTACTGTTGTTGTTGCGGGTTCTGTT
GTTCTCAAAAGGTGGAGTTGGTCCAGACGGCATGCTACGGGGTGCGCGTG
TACACCAACACGAGCTGGCTGTCGAACCACGTGGACACGAAGGCCACCCA
CGCCGTGTCCGTCATCATGAACGTAGACCAGGTGAGAACAGGAGGTCCTA
TGTATCCGCCGAGCTACTATTAAAAAACTTGAGATCAGCACGAGAATCTG
GTCGTCCGTCAAGCCCAAACAAACAGCAGTTTCACGGGCGCAGGCGGTGT
TCTGTGTCAAGCTCGATCGTATTGGGTTTGGCCTCGTGTACAACGGAGAC
GGCGGGGGGTTGAAACGTCTGTACTGCTGTAGTGGTCATTTGTCTCCCTT
TATGATACGCCATTCGGTCTGACGCTGACACGTACTTCGAAGTATCACAT
ACATCCCTTGGAGATTTGACTGGCTCTGGGTACATGTTTTTCGGAGACGA
AACAATTATTTGTTAGGCCAACAACTTCTGCTTTTTCGTTCACCTTTTTC
ATTTTTTGTTAAGCGTGGACAATCGCGCTCACGATTTGCTTCTGTGAACC
CCGACGCGCTTTGAATATATATTAAAAAAAAATGTATGTTGATCAACATC
ATCACCATTAGATGGGGATCATCATCGTCATTAGATTGTGGTCATTCTAA
TAATAACAATATCGAAAACAGAATACGTGAATTCGTAATAACGATTTGAA
TAATCTCGTATGTAGCAATAATAATAAAAAAATCGTGATGAGAATGAAAA
TAATTTGACGAACAGGAAGTGGAGGAGGATTGGCCTTTGATGATCTACGA
CCACGCGGGCAACGACTACAACATCACCATGAAGCCGCGAGACCTGGTGC
TTTACGAGAGCGCCACGTGCGTCCACGGCCGCCCGTCCACCTTCCACGGA
AAGTTCTACGCCAACGCCTTCGTCCACTACAAACCCAAGGACCCCGAGAA
GTGGAGCGTTTTCATCAAGTAAAACAAGCACATCAGCTGGTCGACTAATA
AGAAGAGAGGGAAAAATGTTGTTCCCTTACGAAGAATGTACTGTACCTCA
GAGAATTGAGGCAACCGACACGACAAATAGGAAGTGAGCAGTGTGGGGCG
GAGGTAGATTGGGTGATGACTGCAATGCTGTTTGCGCGGCAAGCCTTTCG
CTGTGTCGTGGGGGGGAGGAGCGGGAGGGCCGACTGGACTGATACTGATG
GCCGCGTCGGCTTTTTGACACATTCATGCCTGGTTAATCGTGTATTTTGA
AGCTCGGCTCCGCCGTGGTTTGGCGAGTTATGGCAGTACGTGTGGACGTG
ATGATACACCTTCTGTGACTTGTTTCACTTTTACGTTTTCGTTTCACGTT
TGTTGATGAGGGGGCGGGTCGGGGCGTTTCTCGCGCCGTCTAGGGTACAG
CTATACGTTTTCATTCGTGTGTGTGCTTGCATGCTGCTGCTGCTAGCTAC
TGCTTTTGCTGCCGGCGTAGACTATTGCACGACCCGACCGGGGAGCCAGC
AGGAGCCATTGTGTGCTCGCCCCCCTCCCCTCCCGTCTGGTTTGATGTCA
GGAACTGCGTTTGTTGTGCCATGCGGGCACGAATTGGTGAGTTCATTGCG
AGTTCTGTCCGGAGGGTCCCTCATTATCTCTTTTCGTGGTGCGTGCGTCC
CTCGCGGTGCTGGTTGCTGACCCGCGCACGGAACGATTTAGCGTCCTTAA
TACAAGTACAGAGTATCGAGATATGCACTTACCCGGGAATACTTCTCGAC
TCTTCCTGGCACAGCTCACTGACGTAAAGAGCTTAAAATAAAAAGATTAT
TATCAGACTTATTATCATTATTTTTTTCATATATACATTATATATATATT
TATGCGTTCCGACCCTTACGTAGAGACTGAACTTTGATCTGAAGGGATGC
CTGTTATTTTCCTGTTGTTTTTCAGCTTTTTTCTTGCAGTCGCCGGTTCA
TATTTGTATTTATTTCCGAACGTGTCCCTTTTCCTATTTCAGATACTTCG
CAGCAGCGCTTCTGTTGTAGGATAGGTCGCTTTTGTCATCAAAAGCGATA
TGGTGTATAGAAGAACACATAGCTGTGTGTATTTCCTTTGGTCCCTTCGT
TGGAGAATGACAGCAGTACATGATTTTTTTCATTTCTGAATTTTTGTCAC
CATCCAAAGGTGTGCATGCAATTAGTTTGGTTTTCTCGTTCCTCGGAAG
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Coding sequence (CDS) from alignment at P-littoralis_Contig88:380630..401728-

>mRNA_P-littoralis_Contig88.91.1 ID=mRNA_P-littoralis_Contig88.91.1|Name=mRNA_P-littoralis_Contig88.91.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1407bp|location=Sequence derived from alignment at P-littoralis_Contig88:380630..401728- (Pylaiella littoralis U1_48)
ATGATCGTCCGACCGCAGCAAGGGCCTTTTGCATCCACGGCTTTGGCCTC
GGTGGCCCTGCTGGTCATCTTCCCAGCAGCTCTGATTTCCGCCGCAGTCC
CCGCAGCCCCTGTGGTGGTGACAAATTACAAACAGCTCGTTGGAACTATC
GGCTCCAACAACAACTACGGCACTGGCGAACGCTTTTATAGGGAAGGGCT
GGTGCTGGTCCACAAGGGAGATGGCTGCGAGCCGGACTTCGACGGGCTCG
GACTGACCGTCTTCGGCAACCACCCGGACATGTACTCGCTCGTATCTGTG
GACGTTGACCACGCCGACAAGGAGCTTCTGAGCAAGCTGGGCGTTACGGC
TGCGAATCTAGACGACCGGACCGTGTGCCCTGCGCTCACGGTCATCCCAA
GGCGTTCCACCGTCGCAGATCCGGCGATCAAGCACCCGGAGGCCGACGGG
AACGGAAACTACCACCTCTCCACCGTCGATACCCAGCAGGTCTCCGTGGG
TATCGTGAACGACATGGACATCACGCTGGACATTCATTACCAGTGGTTCG
ACCAGCCGACTCTACCCACGCACGTCAGGACGCTCAAGCCCGGGACGGAG
AACTGGATGCTGACCTACAAGACCACGACCATGGTCGCCCTCAGCAAGGA
GACCGGGCAGGAGATGGGGAGGCAACTCGTGAGGGGGAACTCGCTATTCA
CGGTCGCGAACAGGGACTGCACCGTCGAGACCTGCGGAACTTCAGAGGGG
GCGGAGACGCCGAGCGAGAAGGAATGGCAAGACACCTGGAAGTACCAAGA
CCAATCGCGGATGGCAAACAACAGGGTGCAGCCGGCAGCGCTTCCTCGGT
TCACTGACGTCGGGTTCAAGAAGGTCACCGTCCCTGACGACGTGTGGGAC
ATGGTCAAGACGTACTACGAGGAGAACAAGAACACGCCCAAGAAGGAGCA
GTGGTCGAAGTACAACGTCTTCACCAACAACGTGGAGGCGCCGAGCTACA
TGGTCAACCTGCCCGAGAACGGCAACCTGAAGAGGGACATATTCGAAGGG
CTCCGGCCCATCCTCGAGGAGTGGTGTGGGGTGGAGTTGGTCCAGACGGC
ATGCTACGGGGTGCGCGTGTACACCAACACGAGCTGGCTGTCGAACCACG
TGGACACGAAGGCCACCCACGCCGTGTCCGTCATCATGAACGTAGACCAG
GAAGTGGAGGAGGATTGGCCTTTGATGATCTACGACCACGCGGGCAACGA
CTACAACATCACCATGAAGCCGCGAGACCTGGTGCTTTACGAGAGCGCCA
CGTGCGTCCACGGCCGCCCGTCCACCTTCCACGGAAAGTTCTACGCCAAC
GCCTTCGTCCACTACAAACCCAAGGACCCCGAGAAGTGGAGCGTTTTCAT
CAAGTAA
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