mRNA_P-littoralis_Contig750.28.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig750.28.1
Unique Name	mRNA_P-littoralis_Contig750.28.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A6H5KY10_9PHAE (Cyclic nucleotide-binding domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KY10_9PHAE)

HSP 1 Score: 610 bits (1573), Expect = 4.240e-210
Identity = 306/412 (74.27%), Postives = 350/412 (84.95%), Query Frame = 3

Query:  258 KGKGLANLLPHHLSPRWNEKRDISVFGSHVCWMSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVRRECDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDTHDPAVKYRQLLTGVLVDGIVTATEKDGLAEMRRGMNVDEAVHAAGLKAAGWTTQEFDQGYPNELSNRTYEALAREVLQDGSVSDKGRTKLRIHRQKNGIDSLHHMHVLEKLGWSLDQLEEGTLGDCPSFSVTPPVAPTAGSDAEP 1493
            KG+G+   LPHHLSPRWNE+ DI VFG+H+C +SLSEAAGHLSFV LG+GFLETELLPLRVYAAAGVSASI FQYYRPQPLWIPISWNF FLAIN+GM G++LKE  DA +Q D +TAA+YD TFRESGLTAVDFMK+  ISED RH AGD LAEQDVTQ++L+L++EGEL VSK GNDIA V+AGEFAGEMSFLRHVRREC+G  AG P VC+C AVANV VK GGA+V SW+FDELR LLA NPNMSV FHAALA+AM SKLVDTH+PAVKYRQLLTGVLVDG+VT  EKD L +MR+ M+VDEA H A LKAAGW+TQEFDQGY ++ S RTYEALA+EVL+DG+V+DKGRTKLRIHRQ NG+DSLHHM VL+KLGWSLDQLEEGT     + S   P++ TA +  +P
Sbjct:   64 KGEGIKAFLPHHLSPRWNERHDICVFGTHLCRLSLSEAAGHLSFVCLGIGFLETELLPLRVYAAAGVSASIVFQYYRPQPLWIPISWNFVFLAINIGMAGVLLKEERDATRQ-DQETAALYDKTFRESGLTAVDFMKIRGISEDWRHPAGDVLAEQDVTQKRLYLVMEGELQVSKGGNDIAPVKAGEFAGEMSFLRHVRRECEGS-AGTPEVCDCVAVANVKVKHGGAKVTSWQFDELRDLLAHNPNMSVRFHAALARAMVSKLVDTHNPAVKYRQLLTGVLVDGVVTTMEKDELEKMRQDMSVDEATHTAELKAAGWSTQEFDQGYQDDFSTRTYEALAKEVLRDGTVNDKGRTKLRIHRQNNGVDSLHHMRVLKKLGWSLDQLEEGT-----TASHRTPLSTTAPAGTQP 468

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: D7FUU0_ECTSI (Cyclic nucleotide-binding domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FUU0_ECTSI)

HSP 1 Score: 506 bits (1304), Expect = 5.180e-171
Identity = 265/363 (73.00%), Postives = 296/363 (81.54%), Query Frame = 3

Query:  354 MSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMS------FLRHVRRECDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDTHDPAVKYRQLLTGVLVDGIVTATEKDGLAEMRRGMNVDEAVHAAGLKAAGWTTQEFDQGYPNELSNRTYEALAREVLQDGSVSDKGRTKLRIHRQKNGIDSLHHMHVLEKLGWSLDQLEEGT 1424
            MSLSEAAGHLSFV LG+GFLETELLPLRVYAAAGVSASI FQYYRPQPLWIPISWNF FLAINVGM G++LKE+ DA +Q D +TAA+YD TFRESGLTAVDFMK+  ISED RH AGD LAEQDVTQ +L+L++EGEL VSK GNDIA V+AGEFAGE +      FL+         P  +P          V VK GGA+V SW+FDELR LLA NPNMSV FHAALA+AM SKLVDTHDPAVKYRQLLTGVLVDG+VT  EKD L +MR+ MNVDEA H A LK AGW+TQEFDQGY ++ S+RTYEALA+EVL+DG+V+DKGR KLRIHRQ NGIDSLHHM VL+KLGWSLDQLEEGT
Sbjct:    1 MSLSEAAGHLSFVCLGIGFLETELLPLRVYAAAGVSASIVFQYYRPQPLWIPISWNFVFLAINVGMAGVLLKEKRDATRQ-DQETAALYDKTFRESGLTAVDFMKIRGISEDSRHTAGDVLAEQDVTQRRLYLVMEGELQVSKGGNDIAPVKAGEFAGEKARFGCRIFLQWETVVEVSRPKVSP---------KVKVKHGGAKVTSWQFDELRDLLAHNPNMSVRFHAALARAMVSKLVDTHDPAVKYRQLLTGVLVDGVVTTMEKDELEKMRQDMNVDEATHTAELKTAGWSTQEFDQGYQDDFSSRTYEALAKEVLRDGTVNDKGRAKLRIHRQNNGIDSLHHMRVLKKLGWSLDQLEEGT 353

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A835ZD23_9STRA (Cyclic nucleotide-binding domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZD23_9STRA)

HSP 1 Score: 195 bits (495), Expect = 2.510e-50
Identity = 126/406 (31.03%), Postives = 195/406 (48.03%), Query Frame = 3

Query:  363 SEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGND-IATVRAGEFAGEMSFLR---------------------------------HVRRECDGPPAGAPAVCN-------------CAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDTHDP---AVKYRQLLTGVLVDGIVTATEKDGLAEMRRGMNVDEAVHAAGLKAAGWTTQEFDQGYPNEL---SNRTYEALAREVLQDGSVSDKGRTKLRIHRQKNGIDSLHHMHVLEKLGWSLDQLEEG 1421
            S   GH SF+ L +G++E+++L LRV++A G+  S+ FQYYRPQPLWIPISWN  FL IN GM+ L++ ER  A +    +   ++D  F + GL+AV+F+ ++ ++E E   AG  LA  +  Q+K++L+++G   V     D I  +   +F G M+FLR                                 H   E DG       +               C  +  V   T    V +W F  LR  L  +P         ++  +  KL  + DP    V+YRQLL   L  G +  TEK  L   R   ++  A H A L   GWT  +++ GY  +    S   YE + ++ L+ G++++ GR +LR +R ++ I+   H+  + KLGW+ +Q E G
Sbjct:   29 SNLCGHGSFLMLALGYMESDVLLLRVFSAGGIVLSVLFQYYRPQPLWIPISWNTIFLLINGGMIALLVNERRQATRLDSTEERELFDQMFAKLGLSAVEFLHLIRLAERETLPAGTTLATFNEPQDKVYLIIDGTAEVQGGDGDLIGHISNFQFVGSMAFLRFLNEVQEHERDRNRERQVVSSLLAALANELDPEHWEIEPDGTVVATATMAVDPHMPHSLHPFSWCVCMYAVRATTE-CHVYAWDFHLLRAYLKRHPLEGNAMQVTISADLTRKLDQSRDPHIRQVEYRQLLLTALSGGELLPTEKRKLQRFRENHDITLAEHDAMLAQLGWTKPDYETGYQQKAITASFAAYERMLQQELRGGTLNEDGRARLRRYRSQSNINPQQHLLAIAKLGWTYEQYEMG 433

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: D8LD28_ECTSI (Cyclic nucleotide-binding domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LD28_ECTSI)

HSP 1 Score: 134 bits (337), Expect = 3.670e-29
Identity = 74/182 (40.66%), Postives = 106/182 (58.24%), Query Frame = 3

Query:  312 EKRDISVFGSHVCWMSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQ-QQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVR 854
            E+R +   G      + S   GHLSFV L + +LET++L LR  AA+G+  SI FQ+YR QPLWIPI WN  FL INV M+GL+LKE+S+A     D + A  +   F    LT VDF+++M ++E    A G  L+E+   QE++ L+VEG   V      +  +   +F G M+F R ++
Sbjct:   28 ERRPLQFMGCQTT-TTASNQCGHLSFVILALAYLETDVLALRASAASGIGLSILFQFYRAQPLWIPIGWNGVFLLINVSMIGLLLKEKSEAAHIGDDPEQARTFQEVFAPVELTPVDFVRLMDLAERRLVAKGTHLSEEGQPQEEVFLIVEGAAEVEAESAAVGHLEQKQFVGSMAFNRFMQ 208

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A7S3HEK0_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HEK0_9STRA)

HSP 1 Score: 133 bits (335), Expect = 1.210e-28
Identity = 67/163 (41.10%), Postives = 104/163 (63.80%), Query Frame = 3

Query:  354 MSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFL 842
            MSLS+ AGH SF+ L + +LET+ L LR++AA+GVS SI FQYYR +PLWIPI WN  FL INV M+GL+ K+  +A      +T  ++++TF + G+T VDF+ +   +E      G+ +  + +   ++  +  G+L V++ G  + T++  +F G MSFL
Sbjct:   75 MSLSDLAGHSSFILLALSYLETDFLLLRMFAASGVSLSIIFQYYREKPLWIPIRWNTLFLVINVVMIGLLWKKEHEAHTIP-SETKHLFESTFMKKGMTPVDFLHLCKAAERIEVKKGEVIISEKLKNSRVFHVRSGKLSVTQNGTLVRTIQPDQFVGSMSFL 236

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A7S0SYZ3_9STRA (Hypothetical protein n=1 Tax=Chromulina nebulosa TaxID=96789 RepID=A0A7S0SYZ3_9STRA)

HSP 1 Score: 125 bits (315), Expect = 1.300e-27
Identity = 92/336 (27.38%), Postives = 147/336 (43.75%), Query Frame = 3

Query:  549 MVGLILKERSDA-----EQQQDGDTAAIYDTTFRESG-LTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLR---------------------------------HVRRECDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDT--HDPAVKYRQLLTGVLVDGIVTATEKDGLAEMRRGMNVDEAVHAAGLKAAGWTTQEFDQGYPN---ELSNRTYEALAREVL-QDGSVSDKGRTKLRIHRQKNGIDSLHHMHVLEKLGWSLDQLEEG 1421
            MV L++KE S+A     EQQ+      +Y   F   G +  VDF+ +MS+++ +    G+ L  Q      +HL+  G L V    N +  +   +F G MS+L                                  H   E  G    A  +C    +           V +W F EL  LL   PN+   F  +++  +  K+  T   +P ++Y+++LT +L+DG VT  +K  L E R   N+    H A LK   WT  +FD G+ +   ++  + YE L    + +   +++  + KLR  RQKN + +  H+ +L K GWSLD+ E G
Sbjct:    1 MVILLIKEESEAMNIPPEQQE------LYRNVFLAHGSMKPVDFLHLMSLAKRKTIHKGEKLVSQGSFHHSIHLVQSGSLSVEHDSNIVGKINKNQFVGAMSYLTWEESVDDHSLEDHTHKYWNVFEHIPLTLTSATTHSSNESSGQKGHADVICEDECI-----------VYTWSFQELHELLELQPNIGFVFEKSVSADLNKKMTITWKEEPKIRYKEILTAILLDGDVTEKKKKFLTEFRNSHNITINEHEALLKELDWTVMDFDNGFKSGSTKIVIQEYEKLLSSCINKQTKINESIKIKLRDFRQKNKLSAEVHLKLLAKYGWSLDEYESG 319

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A096PB10_OSTTA (RmlC-like jelly roll fold n=2 Tax=Ostreococcus tauri TaxID=70448 RepID=A0A096PB10_OSTTA)

HSP 1 Score: 123 bits (308), Expect = 1.490e-26
Identity = 80/243 (32.92%), Postives = 120/243 (49.38%), Query Frame = 3

Query:  357 SLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVRRECDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDTHDPAVKYRQ 1085
            S+ E  GH+SF+ LG  +L ++L+ LR  A  G+SA++ FQY+R  PLW+PI WN  F+AIN   V  +  +  DAE+    +  A+Y+  F  S +   DF  ++S         G  +  +      + ++V G+  V   G  + T+ AG F GEMS +R V    +G      ++   AA A V +    ARV  W    LR LL  + N+    HAA    +A KL+ T   + K  Q
Sbjct:  135 SVREVFGHVSFLLLGYSYLTSDLMQLRALAVGGLSAAMVFQYFRADPLWLPIRWNALFVAINAIWVAKMWFDERDAERWCTAEERALYERHF--SHMALADFRTLVSRGRWMDLDVGTEVTTEGKPNVSVCVIVRGDADVFIGGKRVNTIPAGNFIGEMSLMRSVEHGKNGKVNKEGSIQARAASATVRI-VNRARVFQWDDGVLRRLLREDDNVKSGVHAAFGVGLAEKLLTTRVMSTKMIQ 374

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A7S2ICB7_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2ICB7_9STRA)

HSP 1 Score: 118 bits (295), Expect = 6.920e-25
Identity = 72/251 (28.69%), Postives = 118/251 (47.01%), Query Frame = 3

Query:  354 MSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVRRECDGPPAGAPAVCNCAAVANVNVKTGG----------------ARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVDT 1058
            MS +  AGH +F   G+ +   +++ LR+ A  G+S S+ FQYYRPQPL IP+ WN  FLA+N  MV  + KER +AE       A   D  F++ G   V+F ++  +++ E   AG  L        KL+++ +G   + + G  + ++   +  GE+ F+ ++  +            N   VA V+V+  G                  V  W F+EL   L+  P +S    A ++  +  KL D+
Sbjct:  103 MSAAVLAGHSAFFLTGLAYATKDVMHLRLLAMGGISLSMVFQYYRPQPLSIPLRWNALFLAVNAAMVAALYKERKEAENMGPEFEALFSDGDFQKRGFGRVEFYRLFQLAKREELKAGHYLKIAGQEMRKLYIITKGSATIERNGVKLQSISQYDTCGELEFISYIDDDE-----------NTDTVATVSVQIDGIYADDKKDDNDGSGDGGTVYVWDFEELAPFLSNQPRVSNALLAYISHELREKLTDS 342

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A835YLU4_9STRA (Cyclic nucleotide-binding domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YLU4_9STRA)

HSP 1 Score: 120 bits (301), Expect = 1.360e-24
Identity = 57/136 (41.91%), Postives = 88/136 (64.71%), Query Frame = 3

Query:  357 SLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGLILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEG 764
            + S   GH SF+ L +G++E++++ LRV++A G+  S+ FQYYRPQPLWIPISWN  FL IN GM+  ++ ER  A+   D +  A+Y+  F + GL+AV+ M VM ++E +   AG  +A      +K +L+ +G
Sbjct:   75 NFSNICGHGSFLMLALGYMESDVMMLRVFSAGGIVLSVLFQYYRPQPLWIPISWNTLFLLINGGMIAALISERRKADHLDDAEERAVYEEMFCKLGLSAVELMHVMRLAEQQILPAGTTIAACGQPLDKPYLITDG 210

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BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Match: A0A6A7G877_9CRUS (Penicillin-resistant dd-carboxypeptidase n=1 Tax=Hirondellea gigas TaxID=1518452 RepID=A0A6A7G877_9CRUS)

HSP 1 Score: 115 bits (288), Expect = 8.370e-24
Identity = 96/364 (26.37%), Postives = 165/364 (45.33%), Query Frame = 3

Query:  261 GKGLANLLPHHL-SPRWNE--KRDISVFGSHVCWMSLSEAAGHLSFVFLGMGFLETELLPLRVYAAAGVSASIAFQYYRP--QPLWIPISWNFFFLAINVGMVGLIL------KERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGDALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVRRECDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVCFHAALAKAMASKLVD------THDPA-----------VKYRQLLTGVLVDGIVTATEKDGLAEMRRGMNVDEAVHAAGLKAAGWTTQEFDQGYPNELSNRTYE 1268
            GK  ++  PH   SPR+ +   ++ +++G   C  SL   A H+SF+ L + +  +++L LR  A       + +  + P  +PLW+P  WNF F  IN   +GLIL      K  S AE Q       +YDT F  +GL+ VD+MK+++  +  +   GD L  +  +  +++L+  G   V      +  +   +F GEM     +R              +  + A+V + T     + W    L  LL  NP+++  F AA++  +A K ++      + D A            +Y  +LT +L DG     E++ L   R    ++++ H+  LK  GWT +EF+ G    +  +  E
Sbjct:   54 GKRFSSKTPHLAESPRYRQWMMKERTIWGVTQCPSSL---AAHISFILLAISYGFSDMLHLRCLAVLSGIFMMFYNRWHPHGRPLWLPFRWNFMFCVINAVHIGLILDLERRSKNISRAEAQ-------LYDTVFFATGLSQVDYMKLLNRGKFVKFKVGDKLTVEGTSNNRVYLIAHGGAKVIVNDKLVYELSEHQFVGEMGIAVGLRIST-----------SLKSAASVEI-TKPTECLIWTRGALIDLLEENPDIAKGFQAAVSLDLARKALNGRGKPSSEDGADQPHTMNSRNFAQYVAILTAILSDGKTLPHERNILKRFRYLHLIEDSEHSRLLKERGWTDEEFENGAKESILKQEQE 395

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig750.28.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 23


Match Name	E-value	Identity	Description
A0A6H5KY10_9PHAE	4.240e-210	74.27	Cyclic nucleotide-binding domain-containing protei...	[more]
D7FUU0_ECTSI	5.180e-171	73.00	Cyclic nucleotide-binding domain-containing protei...	[more]
A0A835ZD23_9STRA	2.510e-50	31.03	Cyclic nucleotide-binding domain-containing protei...	[more]
D8LD28_ECTSI	3.670e-29	40.66	Cyclic nucleotide-binding domain-containing protei...	[more]
A0A7S3HEK0_9STRA	1.210e-28	41.10	Hypothetical protein n=1 Tax=Spumella elongata Tax...	[more]
A0A7S0SYZ3_9STRA	1.300e-27	27.38	Hypothetical protein n=1 Tax=Chromulina nebulosa T...	[more]
A0A096PB10_OSTTA	1.490e-26	32.92	RmlC-like jelly roll fold n=2 Tax=Ostreococcus tau...	[more]
A0A7S2ICB7_9STRA	6.920e-25	28.69	Hypothetical protein n=1 Tax=Helicotheca tamesis T...	[more]
A0A835YLU4_9STRA	1.360e-24	41.91	Cyclic nucleotide-binding domain-containing protei...	[more]
A0A6A7G877_9CRUS	8.370e-24	26.37	Penicillin-resistant dd-carboxypeptidase n=1 Tax=H...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig750	contig	P-littoralis_Contig750:88592..107173 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FUU0
PFAMs	Popeye,cNMP_binding
Model size	2405
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	mitochondrion
Exons	9
Evalue	1.38e-176
EggNOG OGs	2DQI1@1\|root,2S6BX@2759\|Eukaryota
Ec32 ortholog description	Cyclic nucleotide-binding domain
Ec32 ortholog	Ec-06_001100.1
Description	Cyclic nucleotide-monophosphate binding domain
Cds size	1422
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig750.28.1	prot_P-littoralis_Contig750.28.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig750 88702..106300 +

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


Feature Name	Unique Name	Species	Type	Position
1680791554.611545-UTR-P-littoralis_Contig750:88591..88701	1680791554.611545-UTR-P-littoralis_Contig750:88591..88701	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig750 88592..88701 +
1680791554.7541487-UTR-P-littoralis_Contig750:106300..107173	1680791554.7541487-UTR-P-littoralis_Contig750:106300..107173	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig750 106301..107173 +

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


Feature Name	Unique Name	Species	Type	Position
1680791554.625741-CDS-P-littoralis_Contig750:88701..88778	1680791554.625741-CDS-P-littoralis_Contig750:88701..88778	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 88702..88778 +
1680791554.6379611-CDS-P-littoralis_Contig750:95455..95721	1680791554.6379611-CDS-P-littoralis_Contig750:95455..95721	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 95456..95721 +
1680791554.650836-CDS-P-littoralis_Contig750:96024..96197	1680791554.650836-CDS-P-littoralis_Contig750:96024..96197	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 96025..96197 +
1680791554.669813-CDS-P-littoralis_Contig750:98425..98504	1680791554.669813-CDS-P-littoralis_Contig750:98425..98504	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 98426..98504 +
1680791554.6856773-CDS-P-littoralis_Contig750:99012..99137	1680791554.6856773-CDS-P-littoralis_Contig750:99012..99137	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 99013..99137 +
1680791554.702651-CDS-P-littoralis_Contig750:100054..100141	1680791554.702651-CDS-P-littoralis_Contig750:100054..100141	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 100055..100141 +
1680791554.7173293-CDS-P-littoralis_Contig750:100552..100729	1680791554.7173293-CDS-P-littoralis_Contig750:100552..100729	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 100553..100729 +
1680791554.7287917-CDS-P-littoralis_Contig750:103733..103873	1680791554.7287917-CDS-P-littoralis_Contig750:103733..103873	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 103734..103873 +
1680791554.7386675-CDS-P-littoralis_Contig750:106002..106300	1680791554.7386675-CDS-P-littoralis_Contig750:106002..106300	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig750 106003..106300 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig750:88592..107173+
coding sequence from alignment at P-littoralis_Contig750:88592..107173+

protein sequence of mRNA_P-littoralis_Contig750.28.1

>prot_P-littoralis_Contig750.28.1 ID=prot_P-littoralis_Contig750.28.1|Name=mRNA_P-littoralis_Contig750.28.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=474bp
MLAQGTLWRGRPQLLLSARAMPRSTRPSGTTPPAPATVSDSTAAAAGRRK
GKGLANLLPHHLSPRWNEKRDISVFGSHVCWMSLSEAAGHLSFVFLGMGF
LETELLPLRVYAAAGVSASIAFQYYRPQPLWIPISWNFFFLAINVGMVGL
ILKERSDAEQQQDGDTAAIYDTTFRESGLTAVDFMKVMSISEDERHAAGD
ALAEQDVTQEKLHLLVEGELLVSKAGNDIATVRAGEFAGEMSFLRHVRRE
CDGPPAGAPAVCNCAAVANVNVKTGGARVISWRFDELRHLLATNPNMSVC
FHAALAKAMASKLVDTHDPAVKYRQLLTGVLVDGIVTATEKDGLAEMRRG
MNVDEAVHAAGLKAAGWTTQEFDQGYPNELSNRTYEALAREVLQDGSVSD
KGRTKLRIHRQKNGIDSLHHMHVLEKLGWSLDQLEEGTLGDCPSFSVTPP
VAPTAGSDAEPPPPPPTDNKVPD*

mRNA from alignment at P-littoralis_Contig750:88592..107173+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig750.28.1 ID=mRNA_P-littoralis_Contig750.28.1|Name=mRNA_P-littoralis_Contig750.28.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18582bp|location=Sequence derived from alignment at P-littoralis_Contig750:88592..107173+ (Pylaiella littoralis U1_48)
AGCAGTTTCGCCGCATCAGCGGCAGTAGTAACGACCCCCGCTCTGCAGTG
TGCACAGCAGTAGTGTCTCCTGCTCGCTTCACGTCTGTGTGGACCTGAAC
CGCTACGGACATGTTGGCTCAGGGTACTCTGTGGCGTGGTAGGCCGCAAC
TGTTATTGTCAGCACGGGCAATGCCTCGGAGTACCAGGTGAGTGTTTGAT
GGGAACAATAATAATTCTGAACTTGAGCAGGAGTTGCCCTGATTCTCGCA
CACTCGTTCCTGTACTGCTACTACTATTATACCATCCACACTCTGCTGTG
CCAATCACGTCTTTCAGCTGTTGCCAATCACGTATTTCAGCTGTTGTGTG
TTGTCATCCCATATTCTCTGGCACACTAGTCTGCACCCTGCGGTTCAAAC
TACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGG
AGGAGTAACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTCTCG
TGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCGAAGCCAAATCGGCTT
TTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCGG
GAATCGAACCCCCATTCCTCTGCATCTAGTGGTTAACCAGGGGACCACTA
GTCCATCGGGGTGCAAGATGTATGCAGTTCAACAGCTAGCTCGGTGATGA
GTACTTTTGTGGTTTGTTTGAGTAGTAGCGTTGCGTATCGTATCGATCCA
AACGATATGTCGTACAGTATCGATCGATCGTATCGGTATCTATCGTCTTT
CGAGAATATTTTCCAATTACGATATGCCGATCATCCGATATCGATACCGA
CACTTTGATCAATAGTCATGGAACCCTCAACGGTTGCCCAAGGAACCCCT
ACAGTTGCACGACACACTCTGGAGCTCGTATAGCTATTACGCGGTACCCG
GATGTGGAACATGAATGAATATCCTCACAAACCACTTTCGAGTGCAAGCT
CGAAATATTTTGCAGTAGGTGGTGCTACGAAATAATGTGGTAATTTTGGG
CCTTCAGAGGGAAAATCGGGCATCAGAATCGAGTTTTTTTTTTTGTTCCA
GCCCGGTCTACTTGAATTTTTGGAATCATGAACACGTCTGTGAATGCGTC
GCACTTCCGGGAAACAGCACGCATTGGCTTCTCCATCTGGCAAGGCTTTG
ATGAACGAGACGAATTGGTTGTAGCAGGCGGTTGTGCCGCCCTCCGTGTA
GGCGGTAGCGTCAACCGCGGGAAGGACAGACATGGTTGCGTTCTCTACGA
GAGCCTTCACCAGGCAGCAGCAGCAGCAGCAGCAATGGGTACGCTAAAGA
GGCCGAAGGCCTCGATATCCAGGGGATTAGAGAATTACAGATACAGGAGA
ACCTTCAACCAGGAAAAATCGGGCATTTTTTCCAGGGAAGTGAATGATAG
TTCAAGTACTTGAAATAGACAGTACGAGCAAACACACCGGAACCAGGGAT
CCAACATGCTACCTCTGTTGGCTCGTTATGGCGGCCGGGCTATCCTTGTA
CTATCTAAACCTAACCCATCGAGCCTGTCGCGGGCCTTTGCCGCAGCCCC
TGCGTATTTTTAGCTCGTGCCATGGCTGCTGTGCTGCTGCAATTCTCGAG
GCGATTTGCAGGAGCTCATTTTTTTTGGAGGCAATGCGCGGCGAGGTTGC
ACGAAACGGAACCCTTTTGCCCCACAAAAAAAAAAGCAGATTTCTCGACT
AGCCACCTGCGTGAGCAGCCTAGTCCCAGAGGAGTTAAGCCAATATACCT
GGTACATGTTTTTTGCCTTCGGCATACCGTACAGTATAAAGGTACCTAAA
AAATATACCGCAACTGGTTTATTTCGCCTGCGGCGAAAATATGTGCGCCC
AAAAAATTTCGTTGCGGCAAGCCGCAACAGAACATACGCCGGTGTTGCGC
TATCGCCCAATTCCTGGCAAAACGTTGCAGGGCCGCAACAGCGCAACCGC
TATCGAGAACACTGGTTTGTCGTGTGTTCCTAGTTCCTACCGTGTGTCGA
GCAATGGCTGGCGCGTAATGGTGTAATGGTGTAGCGAGGAGCAAGGGAGC
GAAGAACGAGAACCTACGAAGCGACTTCGAGTAGCAAGTAGCGGTAGCAG
CTGCAGGGAACCTTCTTTTCTTCGCACCAGGTAATACTTTGATGACGGGA
CCTCGATTTTTAGGAGGATGTCTTTAATTTATTTGCGATGTGCCGCGGGT
TGAAAATATTACTGGAACGTTTGCTACAACTTCCAATTCATGCTGTATAT
TTATTTTTACCCACTGGTATTGTGCATTTTCACTCAAATCATTGCCTGTA
CACAGCCGGTTGCGGAGGCCCATTTGAAGGCGATTCTGATGGGAAATGAA
GCAAAAATGCCTTATTTTTTTTTGCCTCCAGCGGGGCCCCCTCACCAGCC
GGGGGGGGGCGATAATACGTATTACTGCTCCTACCGCCATCCTCTGTGAC
AGTGGTGTTGCTGTTGTACTTTGAAGTATCTAAATCTGCGGCCGTAAATA
CCTCAGAGCAGAGCCTATATCTGACAGACGGGATTCCCTACCTACTGCGT
CCCTCCCGAGAGAGATGGATTTACTGTCTGTTGACTTATCACGTGATAGT
ATGGCGGGATTCGTTGGATGATAACCCAACGCCGTGATGATCTGGGAGTG
GTCCGGAAAGCGATGGCGACAGTCGACTCACATCTCGGACCACAAAACCG
AGCGGTACAGGAAATGTTCGCTGCAAGGCTGCAAGGAGTGGGTGACGTTT
GAATCGATGTGGTGGTCCCTGATGCCAGCGGCGAGAAGTTCGGTTCCCCT
CTCGGTTATCCTCTCCCTCAGGAAGTTGCCCAGCGTGAAGTCGAATTTCT
CTCCGTTGTCCCCATTGCTCTCGTGGACCCAAGCCGCCATCAAAAAATTC
CTTGTCCCCCCGTCCAGGACAAAGTCGATGTCGTTGCAATCAAATATTGA
AGCCAATGATGGTATGGTACGAAGGCCAAACGTATCCCGAAAGTCCGGCC
TGTTACCAAAATGTATTCCTTGTAGCTTTGCAGGGAATATTTTCCGTACC
GCTCGGTTTTGTGGTCCAAGGCGTTAGTCGACTGTCGCCGTCGCCTCCCA
GACCTCTCCCAGATCGTTACGGCGTTGGGCAACATCCAACAAGTCCCGCC
GTACTATCATATCACGTCTCTACCCCCAACATCGGACTCGGAGACAGAGC
GCCGGCGACCCTCTCGTGCGATCATTGCCTCGTTGTAGCCGGCGTGTTCG
TTCATGCTGCCGCCATTGCTGCGATCCATGCTGCTGTCCATCTTGGTCTT
GACTTGCTTGGAATGAAGAGCGTCAGAGCTGCGATAAGATGGGGTGTGAT
TCCTTCGACCTCTCCTTCAGCTGCCCTTGTGCTTGATCTCCGTTGCGATA
TCAGTCTCTTCAGATCTGATCGCTTAAAATTCGTGCACATTGTTCCCCCT
TCGTCGGTAACGGATCTTTGGATCTTCTCGAAGTATATACTTTTAAGATT
GTGATTTTTTTTATCTGCTGAAGGACCGAGAGGAACTGTTACTTTGACAA
ATGTTTCGTGGCTATGATATGTCAGCCAGCATGGCCTTGCTTGCGTTGTG
GTGATTGGCAATCCGGTTCCTTTTGATTTAGTTCGCGAAGGAAGAAGAAG
CGAAGAGCGATGTGCTATTCCTGGAGCTGAACACAGAGCTCCCTGCGACG
CTCAGAGCTGCCGCGCTGTCGCGATTGATGGGCATTAACTTGAATGCCTT
GAATCCCATCTCTGCCAGAAAGTTGCACAGGTGCGATACACGGCCTCCCT
TGCTCCGTAGCTGAGTACCCGAAGCCCGCTCTCCACCGTGGACTGTGTAC
ATCGTGAGGGACTGTGTCTTAGCCCCTAATCTGATGATCCCGTTCCTAGA
AATAACAGGTATCCGGTCGTAGACTTGCGGTTGTCAGGATTGGCACCAAA
CGATGCGTCGGTGTACCCTTCCGTATTGAAATCTCCCCGCGTACACGATG
GGAAGGTCAGGTGTGCCCCAAAGGTAGACAAGCATAGGCTTTGCCGCCGT
CATGTGAACTTCGGCGGGCTTACTGCATGCCCTGGTCAGTCGGTTTAGCA
CGGGCCGTGTCGTGTGCACTGGGCGAGGTCGAGCAGGCTGGCTGTGATGG
ACTGGAATAGCTTCGTCCCCGCGGATCCAAGTTTGTCTGCGGGCTGTTCG
ACTGAAAGCTCCGGTCCATATCCAGGTTTGCTGACAGCGTGGAATCCCCT
GCATTCCGAACCTCTTGAGGATGCTGTTGACGTAGCTTTTCTGTGTGATG
GTGAGTGAGTGTCCCTTCATCATAGCCACGTCTTACCTCTATGCCGAGGA
TGAGACTAACCTCGCCCGTGCCCTTCATCTCGAACCTGTCCTGAAGCTCC
TTCCTTTTCTGTGCGACCAGCGCCGCGTCTTGCCCACTGATAAAGATTTC
ATCGACGTACAGAGTCAATATCACCAGCGTGTCGGCGCTCCCATGCGTAT
AGACGCACGGATCGGACTGCGTCGGCCTGAACCCGATGAATATCAACACC
CCGTCGATCGTGTCGTACCACCGCAGCACAGGTGACTGCTCGAGTCCTTA
CAAGCTCCGTCCAAGTTTTTCGACCACTATCTCGCCCGTCTCTGGGTCTG
TCACGTGCTGCCCTGGACGCAAACGTCCTCGTCGATCGATCTCGGATTGC
AGGAATGCGACCGCGACGTCCGTTTGCCAAACTGGCCATCCGTGCTCGCA
CGCCATGGCGATGAGAGTGCGGACGCTTCCGATGTGGCATCCCGGCGCGT
AGCTCCTGCCATGCTCTTGGTCTACCCCGGCCTCTTGGACATGACACTGG
ACGACGAGTCGCGCCTTGGACCGGCCGTCGACCTTTTGCTTGCGGAGGAG
AACGGATGCTATCCTTGTAAGTGTTAGGGATTTCGATGGCCTCATGATCC
CCCTCCGAGAGCCCTTCGTGTAACGGAGCGCGTGTGGCGTAGACGAACGC
CTGTGGAACAGTAATGGAGGGGTCTCCGTCAGAATGGGCAAAAGCCGGAG
TGTCAGCGACGGCGGCGTGGTAGCTTTACTGGCCATCTCGAGGAATCGGG
TTGAGTCGAGGGCGCTAGGGTCCGTTCGCGGGGCGGGGCCGGTTGTCGTG
CAGCTCGGCTGACTTGGGAGCGGCAGACCGTAGGTGGTGTCAGTGGTGTC
CGGCTTCTTTGTGTCCCGGCACGGGTGATTTCGAATCGACGTGCGTGTTC
AGTGCTGGGTGTTGAAGGCAGCGTTCAGTGCTGGGTGCGGAAGACAGCGG
TGCTGGTGTCGTCGCAGGTGCGACCCCAGGCGTAACGGGAGGTGTGGTTC
CAGATATAGTGGAGGTTGCGACCCCAGGCCTAGCCGAGGAGGGGCCCGGG
TTGGAGTCATTGCCATCGCCGTTGCCTTCGACGAAGTTTTGCGCGCGGAG
CTCCTCCGAAAACTTCCAAAGCTTCGTTCCTCCGTGCGTGGAGCCCCTCC
GAAATCTCGGTTCTCTGTTCGAGGTGGCGAATCTCTTGCCGCATCAGGTC
TGGATCGGTCGCGCGGTCGATGTGTGAGTCTTGGTGCGTGCAGGCTGCGA
ATGAGCCTTCTCTGGCCTTGGGTCCGTCCAGAACCAACGTGAATCAGATG
ACATCTCCCTCGGAGGTATGCGGAGTAGCCGTCGTCGAAAGCTTACGGAG
GGAGACTGTATGTATGCAGGCGTCTCGATAAAGGTGACATTCCGGCTTTT
TCCACGACGGTTCCTTTTGAAGGAGTTGTAGATCCTGTAGGCCCCGCTGT
CCTTTTGTCACGAGATCTCCCATAATGATTGGCGTGAAAGTGTGGCACTT
TTGCTGTGGTGGCAGATCTCCACCGCGTAGGTCTACCTTGCCTGCGGCAG
ATCTCCACCGCGTAGGTCTACCTTGCCTGCGGTCTTCTTTTGAGTTTATC
AGCCTCACAGAGTTTGGTCACCGGCCCGTACCCTCTCGAAAAGTGGTGTT
GATGCTGATACCGACCCTACTGTTGCTCCCCCCAGGCTCACTTTCCTACG
CTTGTGAGGACCACACAGCCGTCTACCCAGAAATAGCTCACGAGGTTAAT
ATGTTTGCAGCAGTGTTGCTCGGCGCAGTACTCCATGTACTCGAGGCTTT
CTTGACCACCCCTCTCACCCTCTCCGAGTGGTGTTGAGGTCGGCGTCTTG
CTCCACCTGCCCTCTCGAAGTTGTGTCGAGGTAGATGTGCCGTACTGCTG
TTGCTCTTTCCAAGTTAGAGCGCTGCCCGGAACAGGGTGCCCATTTATTG
ATTTTGTGCCAGTAGGCGCGCTCTCGGACAACTCTCTACATGACGCAAGA
TTGATATTTCCGACGTCAGCCTTGTTGGTGCTGATGCTCTTGTTGCCGTG
GCGATATCGACCCGCGATGATTGTCGGAGGTGGGACAGCTCACGCGAGGT
TACGATCGTACCAGGTGGAGCCTTCTCTCTCTCTCTCTCTCTGTCCCAGG
TAGAATTCAGGACAGTATTCAGCCGTTCGAGAATAATATTCGCGCTGCGG
TTTGCAGTTTGGCCCAGCTATCATTCATGGCGCTTCTTGTCCATGGAGAC
GGTGTCTTGTCTCCCAAAATACCTCCAGCACAGCATCGCTACAATAATCA
ACCCGCAATTCACAGACAGCAAAAGAGAACTCAACCCCGTGGGTGGTATT
TTCTCTGTATGTATGATATACGATGGCGTTTTTCTATCACAGGCTGTTTT
TCCATACAAGGTGAAGACCTGTGTGATTTACTCTGTAGTAACGTTAATTT
CGTGTGACACGCAGGCCCAGCGGCACCACCCCGCCGGCGCCGGCCACCGT
CAGCGACAGCACTGCCGCGGCGGCGGGCAGGCGCAAGGGCAAGGGTTTGG
CGAATCTACTTCCGCATCACCTCTCTCCTCGATGGAACGAGAAGCGCGAC
ATCTCCGTTTTCGGATCTCACGTTTGCTGGATGTCCCTCAGCGAGGCAGC
GGGGCACCTGTCCTTCGTTTTTCTTGGAATGGGCTTCTTGGAGACGGAGT
TGCTGCCGCTGCGAGTCTACGCCGCCGCAGGTACGGTGCGGCAGGTGATG
CTTGATGGTGGTGGTGGTGGTGGTGGTGGTTTCCAAAGCCACAGGTCCTA
CTGCTGTACGCCAATGCCGTTCGGACGGGCGGTATTAAATGGTGGTGGTG
GTGGTGGTGGTGGTATTCAGAATCACAGGCTTGTACCTGATGGTCGATCT
CACAGAAAGGCCCACCCACCAGAGCCGCGGTGGCTCGGCGGGAGGTGTGT
CCGATTCCGAGTGACGTACGAACAGCAGCACCCTCTTTGCTTCGGTATGC
TTTTTTTCGATGTTTTTGTTTTATTTTGCGCAGGGGTGTCCGCCAGCATC
GCCTTTCAGTACTACCGACCTCAGCCTCTCTGGATCCCGATATCCTGGAA
CTTCTTTTTCCTCGCTATCAACGTCGGGATGGTGGGGCTGATCCTGAAAG
AAAGGAGCGACGCCGAGCAGCAGCAGGATGGAGACACGGCCGCCATCTAC
GACACGGTGAATATAAATGATACCCGGTACGGCGTCCTCCGGTCAATGTA
GCTGTATACAACATGGTGATCACGACGAGGCGTGGTGTGGGTTTGAACGT
AGTGTCTGACGGAGGCGTCATTGCGGTCTGTTTGTTAGGTAGCCCGAGGA
TGGGTTCGACTCCGATTGCGCTCTGGTACCGGATTTTCTCTCTTGTGTGG
CACGGCGAAGCTGTCGCAGAGTTTGCGGAGCAAGTTTTTCGTGCTTTGCC
CAGCTTATTGTGGTTGTTGTTGGTTGTTGGTTGTTGGTTGTTGATACTGG
TTGTGGAAACTGGTGGCGGTTGCGGCAGTTGTCGTTGTCAGTGATGATGG
TATTGTTGTTGTGTTGGTGGTGTTGCCTTTACGTAAAAACAACGCCCTGT
GCTCCACCAGTATCTAGGTGAGGGACGAGATTCCGTGAGGTCATGTTGGG
TTGTTCTTTTGGGGAATGCTGCACAGCAGTATTGGTTGTGAAAACGCTGC
TGTAGTGTTGCGAAGGAGAGCCTGAGTCTTGGGGGTCAGAAAATGTGTGT
GTGTCGCCGTTGTCGGTTGTGTGTAAGCGACGGGGAGAGAAAGATGAGCG
GTCCCGGCGACAGAGAGACACAATGTGGCTCGACAGGAGTCACTTCACGT
CCGACGACAACAACATCCAAAGAGTAGCGAAAAACCATATCATACCCTGT
TGTCTTGTTATTGTTTTGCAAGGTTGTGTTCGGTAAGGTACATACCGAGG
CGTACCAGCGATAATGTACCTCCGGTATACTGGTACCGAGAAGTTCGGTA
CCTTCGGTATGATCTCCATACCGGTACCGAGGACTTCGGTACGTTCGGTA
CGAGGTCCATACCGGTACCGGGAAGTTCGGTACGTTCGGTACGCAGTTCG
TACCGGTACCGGTGGTGCCGGTACAACAATCCGTACCGGTACCGAGATGT
TCGGTATGTTCGGTATGATCTCCATACCGGTACCGAGAAGTTCGGTACGT
TCGGTACGAGGTCCATATCGGTACCGGGAAGTTCGGTACGTTCGGTACGT
CATCCGTACCGGTACTGAGCATACCGGTAGTTCGGTACGATGTTCATACC
TGTACCGAGCGTATTCCAGTACCGAGAATACCGGTACCGGGATGATCGGG
AAGTTAGGCATGGTATTTACCCGATACCGCCACACACTCACAGCACCAGC
AGCACAGCCGTACCCTCTTCGCTCGGTACACTGGTGCGTGCCAGCCGCCT
CATGAGCGCCGCATCAACCCCCGCCAACCACGATGCCCCCGCTGCTGGCG
GGGGGGGCAACAACGAGGCACCCGCCGCTGGCGACCAAAGCTCATCATCG
CCAGTGCCGGCGCCAGCACCTTCGGAGGCAGGAGTTGTTGTCGTGGATGG
TGGAGGAGGCACGGGCGTGCCAGACTTCCTCAACAACACGGAGGCGCCGA
CAGCCGATGGCATGTCCGCTGGCATGTCCGCTGGCATGGAGGAGGAATAG
GTTGTCGTTTCAACTCTCTGTGTTCGACTTTCAATGGGGAGAGTCTCGGA
TTTACTCCGTATAATATGAATACTATAATATTAATGCTGTTTTAATATTA
ATAGATGTTTTTTTGTTTGGTTTCAATGTTGCACGCACACATACAAATAT
TTTTGTTTTTCCACGTCATGCATTTTGAAATTGACATTTTGGGCGGGCAA
TATGAGAGACGCTCCGCGCACACACACCACCGGTATCGCCGGTATCACCG
GTACCGGTACCGGTATGGGCTTCCATACCATACCGAGAAGTTCGGTACCT
TCGGTATGATCTCCATACCGGTACCGAGGACTTCGGTACGTTCGGTACAA
GGTCTATACCGCTACCGGGAAGTTCGGTACGTTCGGTACGCAGATCGTAC
CGGTACCGGTGGTGCCGGTACAACAATCCGTACCGGTACCGAGATGTTCG
GTATGTTCGGTATGATCTCCATACCGGTACCGAGAAGTTCGGTATGTTCG
GTACGTCGTCCATACCGGTACCGAGAAGTTCGGTACGTTCGGTACGATGT
CCGTACCGGTACCGAGCATACCGGTACCTTACCGAACACAACCTTGTTGT
TTTGTGTCCTTACTCTTGTTGCGAGGATGAACACATTTTATGTAGCGAGC
CTTGAATAACCAGTCACCTTCCTTCGTGCCGTTGGTTTCATTTTTGTTGT
TGTTGTTGTCGCTCGGCCCCCCTTGCCGGAACAGACCTTTCGTGAGTCGG
GACTGACCGCGGTGGACTTCATGAAAGTCATGAGTATCTCGGAGGACGAA
AGACATGCCGCGGGTGAGCATAGCAAGTCAATCGAGAAAAAGTCGTACAG
CAGGTACATACCTGGTTGGCGTTCGTTCGGAGATGACGAACACGTGCATG
ATATCCCCGTCCGTTCCCCCAGCACTGCAGCACCTGCTTTGCTTCCTGCT
GGCCTGCGCCGCCACCACCGCCATCTCACTCGTGTGTACCCCCGTTATGA
TAGCCTTGCGTGTCCGCGCACGCGAATGCGTGACTGATAAATCGGTTTGG
TGCGGCGACAGAAGAAGCCGCGAAGAAGAGGAGGAACGACGCAACTGCCA
CGTGTCACCACCCCCGTCGTCCAAGCGCACACCTTTGTCTTACCTTTCTG
TTGTGTCTGGCCTTGTTCTTCCTCTCTCTCTCTCTCTCTCTCTCTCTCTT
GATTTCTCTCTTTGGGGCAGTCTACCGGCGTCTCAAGCCTCTCTGCCTGC
CCCCCCCCTCTGCCCTCTTAACACCCTCTCTCTCATACCTCTCGTTTTGT
TGCACGGTGTCGAGAGAACAGGCGATGCGCTGGCCGAACAAGACGTGACG
CAAGAAAAGCTGCACCTGCTCGTGGAGGGGGAGTTGCTCGTGTCCAAGGC
CGGCAACGACATCGCCACCGTCCGGGCTGGTGAATTCGCAGGAGAGGTGT
GTGTTTGTGTATCCGTGTGTGTGTTTGGGTGTTTGGGTGTGGTATGTGTG
TGTTTGGGTGCGTTTTGTGCGTGCAAGGAAGAAAAAAACGGGTGGGGTCC
GTTCGACAAGTTCTTTTGGTTGGTGTGTTGAGATGCCGCGTTACATGCTT
GATTGAATTTGGAGATATTTTTTTTTGTTTCTGTTTTTGTTTGCGGGAGA
TCGTTTTTTTTTTTACTTCCCAAGGGATTGACTGACTCTGTTTTGATACT
TCCATGAGATTTAGCTCCTTTCGGTTTCAGGAGATCCTTCCGTGTCATCG
GGCCGTTGTATGGATGAATCGAGTCGGTTCGGGGAAAAATCTCGACGCGA
ATGACTCGGGATTCGGGTGATTGGAATTGGAGTTCCTGGAGTTCCTGTCG
AACAGGCATTCTCGGTTGGACTGAACAAAAATATCTGAGGTGGCTGATGC
GATATTCGTCCACACCCTGAAGTACGCTGGGAAAGTACCGGTCTCCGCTG
CAGCGTGCAACGTTTATGACAGCGACGATGTGTCCATGGCCTGTCAGTGT
TGTGAGCTTCATTTTGTTCTCGGAGCCGGGGGCGGGGAAAATTCTGCGGG
CGGGGGCTAAAAAACACCACTGTTTTCCTTTTCTGTCACCTCCCCCGGGA
TTTACACCGGAAGGGAAGCGTGACGCTGCTGCTGATGCTGCTGCAGCCTT
TTGCCGTTATTCCCCTTGCCGGTCTTTCTGCCGTCACGCCCATCGACACT
TCCTTGTCTCCGCCGTGTCCCGCTCACCTCGCCTTGCCTTGTCTTGTCTT
GCCTTGTCTTGTCTTGCCTTGCCTTGTCTTGTCTCGTCTTGTCTTGCCTT
GCCTCGCCTCTCCTTGCCCGTGGTGTGGTATGGTATGATGCCATGATGCG
ATGATGCGTTTAGATGAGCTTTCTTCGGCACGTTCGACGGGAGTGCGATG
GTCCGCCCGCGGGGGCACCTGCGGTGTGTAACTGTGCCGCCGTGGCAAAT
GTGAGTCCCGTTGAATTCTGCGCTCGAAGCGTTTCTAACAGGGCAGCATT
GGAAAAGGGGAGGGGGAGGGGGGGGGGGCACGGTGGCTCTGGAAGTGCTT
TAGTCGAGGGGGCGTCGGGTCACTGCGGTAATCTTGTGAATCAACCGGGG
GCGCTGAAGGCCCCGTGTGCTCTTGGGTTTCCCAGAGATTCTGCATGCCT
TTTTGGTTTTGATTGTAAAGCTCTCTTTGTTCCTACGTGTGAGATAAGCC
TGCAACTATTTCCATGACGAGTCGTCTTTACGTGGAACACAAAGAGACGA
CTGTACTCTACGGGATGCGTTCAAATACCAACACACGTACCATATGCATT
TACATCAACGTTTGAAGTATCAGCACTTTTTCCCACCCCTCCTCTTGATC
GAGCGCCTTAGGTGAACGTCAAGACCGGGGGAGCCAGGGTGATCTCGTGG
CGCTTCGACGAGCTGAGACACCTCTTGGCGACCAACCCCAACATGTCCGT
CTGTTTCCACGCCGCGCTGGCGAAGGCAATGGCGTCCAAGCTAGTGGACA
CCCACGACCCCGCCGTCAAGTACCGACAGCTGCTCACTGTGAGTTAGTGC
AGCGCCGCCATATTTTGCGCGTGTGTCACCTCTCCACTTTGTTTCCATAC
CCCGTGTGTATACGTTTTATCACCATGCATCTTGTGGCTGTGGGTCTTTT
CTTATATTTGCTCCAGCTGTGTTTCGGGCGTCGCGTGTGTTGTGTTGTTG
TTTGTCTTTTATCTCGTTGTTGCACCATCTGCATGTGTCACCACGTGTTT
TGTGATATGATACGTGATAGCAAAGTCATCTCCTTGTTTTTTTGTTTTCA
TGTGTGGGACCATGTGTGACCCCGGCTGAACGTCAAGGATATCTCCCGAG
AGGTTTATAGACAGGCGCCAGAATAAATGGGACGCGCACACACACACATC
TGTGTGTCCCCACGTGCTTTCTAATGGTGTATGTGTCGTCTCTCCTCATC
TGTCCCATCTTAAGTCGCCACGTCTTCTCTGACGGTAGGCTCGTCTTCTC
TGACGGTGGGCTCATTTGTCGTGTTTCTCTCTGCCCCCCTCCCCCCCTTC
CCCTCCGCCACCCCGCACTCCGCTTGTCGGGTCTATATTACATAAGATAA
TTGCCCTCTGCAAGGGCGATTCCAGTTTTTAATTTTTGGACGAAGCGAAA
TCGCGAGACCATAGACACATTTTGTGTGAGTCCGTGAAAGGCGCAAGAAA
AAAAATTAGACAAGGAGAGAAGAAGGACAGCAGTCATCACATGAAATAAA
AAACAAGAAGACCCTTCGTTCCAAACAAGACAAAGAAGACAAGGAAAGAA
GAACAGGACAGGTAGGAGAAGAAATAATAAACAATCGAGGGAATCGAAGC
CGTTGGCGATCGATGGAAATCCTGAAGTGTACTAATTCGAACGGCGTTTG
CGAACAACAGCTGCGAGGGCTTTTAGGAAGGCCGGGCTGAGACCTGAATC
GCACACAAAGCTATAAGTCTAATAGAATAGAACGCAGTACAAAATGCCGC
AAAACTGTCTAACCAGTAGGCAAAATGTGATACATTTGAATAAGCTGAAG
AACCAACTTCAAGAATAAACATCTTTATAAAAACATTTTCAATACGTAAT
CATTTTTGATCCAGCACTAGCTCAGAAATGAGCCTCATTTCTGATCTACT
CCGCATATCAAAAATGATTATTGAAAACGTTTGAGCCTCCGGCGCAAGCC
ATCACACAACACAAGCACCCACAGCAGCAGCAGCAGTACTGCCACATCAC
TACTGCTGCTGCTGCTGCTACATTATCGCGGGCAGTCGGCGTGTTTCTTC
CTCGTCGTCGCCCGCCAGCAGCGTGGCCCTTCATCCCATGCCGGCAGCAG
CAGAGAGCGACTGATTGCCACTCGTACTCTGCTGTGCAGATAGATGCCCT
CCATATGAATCATCAGCTGTAGTCTATACTTGTTCTTGCTACGAATAGCC
TCCCAAAAAAAGCTTGAAATAAATAGGTCTGGGTGTACTCCGAGTAGTTG
AGCGGGAGGGACAACACCTTGTTGTCTAGATGTATGGTTTACGCGCGGTG
CTGCTCTGTTCTGGCTGTGACCCAGCGCGTCGTGCTCCATCCCGAGAGGG
TGCTGCGCTCGCTCCAAAATTTTGAAATGTGCTACTGCTGTATACTACCC
AAACGGCTCTTCTTGGGATCCTACATATACGATATTGTACTGCTGTACGA
AAAATACGTTTTCGATTTTGATAGCTTGTTTACACATAAGATCTGATGTT
GATACCACCCTGTGGGAAATGAGTCATCAAAATACGGATCCCACCAGAGC
CCCGGAAAAGATACAATATCGACAGAAGAGTCTGTTCCGAGGACCCTGTG
AGCCGAACATATCGGTTGGAACAGAGTTGGAACAGAGAACGGACGATGAG
AACAAAGCGCCGCATACACAGCAGCAGTCTATATATTGTACAGAGAACGG
ACGAGGAGAAGAAAGTGCCGCACACACAGCAGTCTATATACTACATACAC
TTGGGAACGGCGTAGTACGTCGTTAAATGCTCGAGAGTTGGACGACTCAG
GGTTCGATTTGGTGGCCAAGACTTGGCAGGTACCACGACAGCTGTATTTC
CGGGCACTTCTTCTTCAGCAGACAGAATTTTATTTGAGCCAAACAATATC
GGTTGGAACAGAGAACGGACGAGAAGAAGAAAGCGCCGCACACACAGCAG
TCTATATCATCGTTGGCGCTGGCTCACACACTTTAATGCGTATCAAAAAC
ACCCGAAAAAAATGCTCGAGAGTTGGACGACTCAGGGTTCGATTTGGGGG
CCAATACTTGGCAGGTACCACGACAGCTGTATATCCGGGAACTTCAGCAG
ACAGAATTTCATTTGGTTGAGGCTGGGCGTAGCAGTCGCCGAAGGCACGC
ACAAACGAGGGAGATTGTACCACTCTTTGAGAGGTACCAAACAAGATCCA
AACATGACAAAAACCTATACTGTAGGCCCTATTGATTTGTCACAAAAATG
AAGTCTTTATTCCCTATTGATTTGTCACAAAAATCCATACTGTAAACGCT
ATCGAAAAAGTCGCAAGAATGAACTCTTTATTCCCTATTGATTTGTCACA
AAAATCCATACTGTAAACGCTATCGAAAAAGTCGCAAAAATGAACTCTTT
ATTCCCTATTGATTTGGTCGCACGTTTTGTATAGTCGATTTGGAGATACC
CGGAGACAGAACCCAGTTTCAAAAACTGGAATGGGTGGACGTCTGACGCC
ATTCATTCACTGGTGCTGACTCTCTCACCCCCGAAAAACACAAAAAATAG
CCGGCGATTCTTCCCTGGTGCTGACTCTCTCTCTCTCTCTCTCTCTCTCT
CTCTGTCTTTGTGTGTCTACTCGTTCGTCTATTGGTGCGCGGATTGTTCC
GACTCTTGTATTTTTCTTTTTGTTCCCCATCGTTGTCGATTTGCGTGCCT
TGTATATACCATACCCACACAATTTCCTCTTTCCGCATGGTTTGCAATCA
ATGTATGTTCCCTTGTACCGACGACTCGCGGTGGACGGGCAGGGGGTACT
AGTGGACGGCATCGTGACCGCCACGGAGAAGGACGGGTTGGCCGAGATGC
GACGAGGTATGAACGTGGACGAGGCGGTTCACGCAGCGGGGCTCAAAGCT
GCAGGGTGGACCACGCAGGAATTCGATCAAGGGTAAGGATGGCGTGGGCC
CGAGGGGGGTAGCGATGCACCGTGCCCCAGGCATTCGTTGAAGCTTCGAA
ATTTTGAAATGAAATTTTCAATTTTCATGTTTTTTCATCTCAAACGTAAG
GTACTTGGTAGAGACAGAGACGTGCGTATCACTTTATCATTGTATCATTA
TGGGTTCTTACTGGCGTTTTCCCTGGAGAAGCACTCGCCGTTCTGACAGA
ACTATAGGGTATTGTGGTGAGCCGTCACAGAACTCACAGAACTTTCGAGT
TCTGTAAGCGAGCTGTCACAGAAAAGTTCGGTAGGGTACTGGGTCTGTCA
CAGAACTCACAGAAAAGTTCGGTAGGGTGCTGGTTCTGTCACAGAACTCA
CAGAACTATAGGGTACTGTGGTGCGCCGTCACAGAACTTACAGGACTTTC
GAGTTCTGTAAGCGAGCTGTCACAGAAAGTTCGGTAGGGTACTGGGTCTG
TCACTAAACTCACAGAAGTACAGGGTAGTGTGGCGCAACTGTCACAGAAC
TCACAGAACTATAGCGTATTGCGGCGCGACCTTCACAGAACTCACAGAAC
TCGTTTGTGGGGTAGTCGAAGACGGTACCTACCCGCGGTACCCGCGTGAA
TTTTAATTTGTACTTGCACACTTTTGTGCCTTGACCAAGATTCAAGATAA
ATTGAAACGTGCGCGCGTACGCACGGACCCTCGACCCCAATCCTGAACTT
TCCAGGTGAACCGCGGAAGACGGTCGGCTTAGAAATCCAACTCCTGCCAA
AAAAAAAAAGCGCAAGAAAAATGCAACGTTTCCCAGCTTTTTCTTGCTTG
TCCGTCAACAATCCTGCCCTCCCCACTTCCCAGAGGAAACAAAACTAAAC
GACGAAAGTAAGATCAACACTTGATCTTGAACATCACTCAGTAGCAGGGA
ATTTGAAGTGAAAGGAATCATAATTATACAATGATTATAATTATAATTAT
CGGTGCGCCCCCACGACTACCACGCGCCAACAACACCCCGGTCTACCTCC
ACCACCTCCCCCTTCTTGTTGTAGACGGGCGCCGGTAGGATGACGGGTAC
GCCCCCGCGCTATCGCCCGTAACAACCTCTACCTCGGGTGAATCTCCCTG
CCCCGCGCCAGCGCTACCTTCGCCTACACCTGCCTCCGCCGCGTGCGAGC
CCGCCTGAGTCTCGCTCGCGGCTTCTGGCGTAGATGAACTGCTGGGGTCC
ACAGCGCTCATGTTACCTCTCAAACCGATACCGTGCGTTGTTTGTGGGAT
GTGTGGCATGTGTGACAGATCTGCAGGGGCCGCCGGTCTGTGTGTGTGTT
CGTGAGGGTAGAGGGTACGCTTCAAGTTTGGTTCGTAGAGGTGACGTCAG
CCCACCGGGGTAATCACACTTGTGGAGGGTAGTTCCACAAATGTTTACCC
GTACCGCGGGTATTGTTGACCCGGGTGTACAGAACCAGAGGGTACGTTCG
GTAGGGTACTGGGTCTGTCACAGAACCCACAGAAAAGTTCGGTAGGGTAC
TGGATCTGTCACAGAACTCACAGAACTATAGGGTATTGTGGTGAGCCGTC
ACAGAACTCACAGAACTTTCGAGTTCTGTAAGTGAGCTGTCACAGAAAAG
TTCGGTAGGGTACTGGGTCTGTCACAGAACTCACAGAAAAGTTCGGTAGG
GTGCTGGGTCTGTCACAGAACTCACAGAACTATAGGGTACTGTGGCGCGA
CCTTCACAGAACTCACAGAACTCGTCTGTGGGGTAGTTACCGAGGGTACC
TACCCCCGGTGTGGATCTGTGGGTACCCTACAGAACCTACCCTTGCTAGT
TTCGACAAGGAACCACATTTATGATGCAATGAGTCGAATAAGAGATGCGT
GCCAACAAAAGACACGCGAAATGCTCCACTGCTGTGAGTGTACAGCGGCA
TTGTAGCAACGTTTATAGATACGATTCTGTTGGCTTCATCATGCATAGTC
GCCCTTTCTTTACGCCCTGTTAGGGCCTGCCCGTCACATACATTTTTTTT
TCTGACCGTGGGCCTCCGACTGCTGCAAAACATGATACGTCAATCATACC
CATTGTAAGGCTGCAACTTCTCCCGGCGTCGCCTTTTTTTTTGTGAATTT
TTGAACGGAAGCTACCCCAACGAACTGTCAAACCGGACGTACGAGGCGCT
AGCGCGGGAGGTGTTGCAGGACGGAAGCGTGTCCGATAAGGGGCGGACAA
AATTGCGGATACACCGGCAGAAAAATGGGATAGACTCGCTGCACCACATG
CACGTCCTCGAAAAGCTGGGCTGGAGTCTCGACCAACTGGAAGAGGGGAC
GTTAGGCGACTGTCCCTCCTTTTCGGTAACGCCGCCAGTTGCACCGACAG
CAGGGTCAGACGCCGAACCACCACCGCCGCCTCCAACCGATAACAAAGTG
CCGGATTAGTGGCACGCCCGCCGTGCGATATGTCTTGTTTCTCGGTGCTG
CTTTAAGGGGGACTCTGTCGAGAGGTGTCGTCCGCGGGATCACATGAGGT
CTAGACAAGACTGCCGGGTGCGGTGCCCGGAATGGCGTCAACACCGTACA
CAGCAGGCTACAAGGAGTATGATAGGCGGATCGTTTAGTCAAGCGATAAT
AGTGATTTTATCTGTGCCTGGTTTGTGACCACGGGCTAGACTTTGGTGGT
GAGCTAAATGTGAGAATCAACAACAAAAGTGCAGCAAGCGGAGAGGTGAC
TAGAAAAAAATGAGTGCAGCTGAGAAAGGCTTTGCTCCAGCGTGTGCTTG
TACAGTGGAAGGAAGTTGTACGGTCTTCCTAGAGCCCGTTGTAATGGAAG
TGATTGTGGTGTTATGAATTTCAAGTGTCGCGGCTGCGCGGAGCTTTGCT
GGAGATCTATCCATTTCCTGGTCCGTGAAGCTGTTTAAAGGAGGAGTGAT
TTGACCGTGGTGCTGAAAAGACTTGAGCTTTTGGTTTTGAGATATTTTCT
ACAAGTTGCACATATAACCTCGATGCTTCGGATGCATCCATTCATCAAGC
AGGTCGTGTGCGCAACCCAATCATATTATGCTTTGGGCTCCTTATCGGAA
TGGGGTGCGCAGTTTTTTTTCGAACGCATGGTATGTGACCTCATACGAAG
TACATACAGCAAAGTGTGCTCGATTGTGACGCGAACGAAGAGTAAGGTTT
GACGGAAGTGACAGCAGTGGTCAACTTTTTCCCATCACACTTTCGGAGTG
GGTGGGTGTTTTCCATGAAAAAGTAGCTGTACACTTCAAGCTCGGGCGTC
AAATCTGGATTTCTCTCAAACGTGTGTTCAGG

Coding sequence (CDS) from alignment at P-littoralis_Contig750:88592..107173+

>mRNA_P-littoralis_Contig750.28.1 ID=mRNA_P-littoralis_Contig750.28.1|Name=mRNA_P-littoralis_Contig750.28.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1422bp|location=Sequence derived from alignment at P-littoralis_Contig750:88592..107173+ (Pylaiella littoralis U1_48)
ATGTTGGCTCAGGGTACTCTGTGGCGTGGTAGGCCGCAACTGTTATTGTC
AGCACGGGCAATGCCTCGGAGTACCAGGCCCAGCGGCACCACCCCGCCGG
CGCCGGCCACCGTCAGCGACAGCACTGCCGCGGCGGCGGGCAGGCGCAAG
GGCAAGGGTTTGGCGAATCTACTTCCGCATCACCTCTCTCCTCGATGGAA
CGAGAAGCGCGACATCTCCGTTTTCGGATCTCACGTTTGCTGGATGTCCC
TCAGCGAGGCAGCGGGGCACCTGTCCTTCGTTTTTCTTGGAATGGGCTTC
TTGGAGACGGAGTTGCTGCCGCTGCGAGTCTACGCCGCCGCAGGGGTGTC
CGCCAGCATCGCCTTTCAGTACTACCGACCTCAGCCTCTCTGGATCCCGA
TATCCTGGAACTTCTTTTTCCTCGCTATCAACGTCGGGATGGTGGGGCTG
ATCCTGAAAGAAAGGAGCGACGCCGAGCAGCAGCAGGATGGAGACACGGC
CGCCATCTACGACACGACCTTTCGTGAGTCGGGACTGACCGCGGTGGACT
TCATGAAAGTCATGAGTATCTCGGAGGACGAAAGACATGCCGCGGGCGAT
GCGCTGGCCGAACAAGACGTGACGCAAGAAAAGCTGCACCTGCTCGTGGA
GGGGGAGTTGCTCGTGTCCAAGGCCGGCAACGACATCGCCACCGTCCGGG
CTGGTGAATTCGCAGGAGAGATGAGCTTTCTTCGGCACGTTCGACGGGAG
TGCGATGGTCCGCCCGCGGGGGCACCTGCGGTGTGTAACTGTGCCGCCGT
GGCAAATGTGAACGTCAAGACCGGGGGAGCCAGGGTGATCTCGTGGCGCT
TCGACGAGCTGAGACACCTCTTGGCGACCAACCCCAACATGTCCGTCTGT
TTCCACGCCGCGCTGGCGAAGGCAATGGCGTCCAAGCTAGTGGACACCCA
CGACCCCGCCGTCAAGTACCGACAGCTGCTCACTGGGGTACTAGTGGACG
GCATCGTGACCGCCACGGAGAAGGACGGGTTGGCCGAGATGCGACGAGGT
ATGAACGTGGACGAGGCGGTTCACGCAGCGGGGCTCAAAGCTGCAGGGTG
GACCACGCAGGAATTCGATCAAGGCTACCCCAACGAACTGTCAAACCGGA
CGTACGAGGCGCTAGCGCGGGAGGTGTTGCAGGACGGAAGCGTGTCCGAT
AAGGGGCGGACAAAATTGCGGATACACCGGCAGAAAAATGGGATAGACTC
GCTGCACCACATGCACGTCCTCGAAAAGCTGGGCTGGAGTCTCGACCAAC
TGGAAGAGGGGACGTTAGGCGACTGTCCCTCCTTTTCGGTAACGCCGCCA
GTTGCACCGACAGCAGGGTCAGACGCCGAACCACCACCGCCGCCTCCAAC
CGATAACAAAGTGCCGGATTAG