mRNA_P-littoralis_Contig68.34.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig68.34.2
Unique NamemRNA_P-littoralis_Contig68.34.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A6H5K946_9PHAE (Lipase_3 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5K946_9PHAE)

HSP 1 Score: 469 bits (1208), Expect = 7.670e-151
Identity = 262/439 (59.68%), Postives = 294/439 (66.97%), Query Frame = 3 
Query:  654 LQWEEVHELAQLSNMTHKDPQLVAKWFDCHQYTGALVVRDLPQVSNHYFVHVGHLPGEEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTPLASESLTAAAAVKLLSKSGAGVVGGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-------VEQVDDNMDTGSGGEIAADEEGGMRRGRSALN----------GDRVVSSPKYAHFGSQVVLLRRKRCIECHREERLAASEGGPSFYSALKKWLTAVASSAPVSLRREKRDDEGAEGQXXXXQGACDHCPSRGTTYYDPKGEDGCLFDSPWLRLSHPNYIHRMNNYEDEIYGRLEHH 1919
            LQWEEVH+LAQLSNMTHKDP+LVA+WFDCHQYTGALV R LPQVSNHYFVHVGHLPGEEHRRVHHVAIRGTVS ADL IDLK+R VFDEECGC+FHAGFKEVADAV++DLEAFLEPGAEVK+ GHSLGGAAAVIVAAKL LRG+ V KVMTFGAPMVTDAAGAAILRDLLPV+RVTHERDPVPLTPL S SL++ AAVKLL K G G  GG                                                    VE   +  +   G  + A+E GG   G               G RV  S  Y+HFGS VVLLRRK+C+EC REE  A +       S L++++ ++  S PV L  ++R               C H PSRGTTYYDPKGEDGCLFDSPWLRLSHPNY HRM +YE+E+  RL+HH
Sbjct:    3 LQWEEVHQLAQLSNMTHKDPRLVARWFDCHQYTGALVDRHLPQVSNHYFVHVGHLPGEEHRRVHHVAIRGTVSLADLGIDLKTRQVFDEECGCMFHAGFKEVADAVVEDLEAFLEPGAEVKLTGHSLGGAAAVIVAAKLMLRGHNVVKVMTFGAPMVTDAAGAAILRDLLPVVRVTHERDPVPLTPLESGSLSSVAAVKLLPKPGKGGGGGRQGDGDQKNPATVLQDSKADEDRVLQNQELEEWETAGLEEAGGMAWFEGGVVVEAGVEGGEIVDGSRMVAEEGGGSSGGSEETGVGTEDAPGDEGLRVKPSQAYSHFGSHVVLLRRKKCLECFREETAATA-------STLERFMYSM--SVPVPLGDDRRKGR-----------PCQHNPSRGTTYYDPKGEDGCLFDSPWLRLSHPNYTHRMIHYENEVADRLQHH 421
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A7S1QBS3_ALECA (Hypothetical protein (Fragment) n=1 Tax=Alexandrium catenella TaxID=2925 RepID=A0A7S1QBS3_ALECA)

HSP 1 Score: 115 bits (287), Expect = 1.340e-24
Identity = 58/129 (44.96%), Postives = 79/129 (61.24%), Query Frame = 3 
Query:  834 RRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTPLAS 1220
            RR  H+ IRG+    DL  DL+    +DEECGC  H GF + A  +++D+   L+PG ++ + GHS+GGA AVIV  KL  RG+ V +V+TFGAP     +G    RD L V+RV H  DP+P  P+ S
Sbjct:   34 RREQHLFIRGSHLVEDLVTDLRIGKTWDEECGCYIHTGFLKKASVLLEDVAPLLDPGHDLVLVGHSMGGAMAVIVGMKLVARGFSVDRVVTFGAPKAVTRSGCDAWRDRLRVVRVVHHHDPIPTLPMLS 162
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A7S4UP58_9DINO (Hypothetical protein n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4UP58_9DINO)

HSP 1 Score: 103 bits (257), Expect = 1.560e-19
Identity = 69/201 (34.33%), Postives = 103/201 (51.24%), Query Frame = 3 
Query:  660 WEEVHELAQLSNMTHK---DPQLVAKWFDCHQYTGALVVRDLPQVSNHYFVHVGHLPGEEHR--------------RVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            W E+  LA+ S++      D   + +W     + GA+ +R+ P   +  +     +   E R              R+  + +RGT    D   ++     +DEE GC  H GF+  AD V++ LE  L+  A++ ++GHSLGGA A IV  +L+ RGY V +V+TFGAP VTD AGA        VLR+++  DPVPL P
Sbjct:   69 WVELRSLAERSSLMRGGRIDLAGIRRWHIERGFPGAITLREWPAGRDEKYSRFTGVSDRERRECYYLYYEITGRGERLQQIFLRGTCVPEDCVFNVLVAKDWDEELGCHLHHGFRRRADEVLESLEPLLDREAKITLSGHSLGGAVATIVGMRLQARGYDVQEVVTFGAPKVTDRAGARGHAFRGRVLRISNMLDPVPLLP 269
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A2D4S7D9_9GAMM (Lipase n=1 Tax=Bermanella sp. TaxID=2024825 RepID=A0A2D4S7D9_9GAMM)

HSP 1 Score: 96.7 bits (239), Expect = 4.230e-18
Identity = 67/189 (35.45%), Postives = 99/189 (52.38%), Query Frame = 3 
Query:  660 WEEVHELAQLSNMTHK----DPQLVAKWFDC-HQYTGALVVRDLPQVSNHYFVHVGHLPGEEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            +E + + AQLSN+ +      P L A   +  HQ      V D  +VS  YF+ +       H  V  + +RGT +  +  +DL+     DE  G   H GF   A  ++ ++  FL+P   V+  GHSLGGAAAV++A  L  +G+ +G ++TFG P VT+  GA     L P+LRV  ++D VPL P
Sbjct:   22 FEVIEQSAQLSNLAYTADDIQPPLSAMGHNLIHQ-----AVLDGVEVS--YFLSL-------HEDVQFITVRGTANLQNAMVDLEINLKQDENLGIFVHQGFAHAAQGIMNNVTQFLDPSKPVRTTGHSLGGAAAVLLAMYLDKQGFELGDIITFGQPKVTNVGGAGAFSHL-PLLRVVTKKDIVPLVP 195
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A533ZFF0_9BACT (Lipase family protein n=2 Tax=Nitrospirae bacterium TaxID=2026887 RepID=A0A533ZFF0_9BACT)

HSP 1 Score: 95.1 bits (235), Expect = 1.580e-17
Identity = 52/129 (40.31%), Postives = 76/129 (58.91%), Query Frame = 3 
Query:  825 EEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            ++ ++V  V +RGT +  ++ +D+    + D       H GF + A  V Q ++  L+P  E+++ GHSLGGA AVIV   LK  G  +G+ MTFG P VT+  GA   R  LP+LR  H++DPVPL P
Sbjct:   92 DDTKKVQWVVVRGTSNLLNVKLDVDYNKIVDSRAHVPLHKGFADAALQVYQFVKPLLKPDYEIRVTGHSLGGATAVIVLMLLKEDGLTLGQAMTFGQPKVTNRDGARKYR-ALPLLRFVHDKDPVPLLP 219
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A532EIJ5_9BACT (Lipase family protein n=1 Tax=Nitrospira sp. TaxID=70125 RepID=A0A532EIJ5_9BACT)

HSP 1 Score: 93.6 bits (231), Expect = 1.020e-16
Identity = 54/129 (41.86%), Postives = 75/129 (58.14%), Query Frame = 3 
Query:  825 EEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            ++ R++  VA+RGT S  ++ +D+    V D       H GF + A  V    +  L PG EV++ GHSLGGAAA IV    K  G ++G+ MTFG P VT+ AG    R L P+LR  +++DPVPL P
Sbjct:  130 DDARKIQWVAVRGTWSLENVKLDVDYNKVVDGRLKIPLHKGFADTALQVYAFAKPLLPPGYEVRVTGHSLGGAAASIVLMLFKEDGVKLGQAMTFGQPKVTNRAGVEKYRGL-PLLRFVNDKDPVPLLP 257
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A1W9IZA4_9BACT (Lipase_3 domain-containing protein n=1 Tax=Nitrospira sp. ST-bin5 TaxID=1978765 RepID=A0A1W9IZA4_9BACT)

HSP 1 Score: 92.0 bits (227), Expect = 1.380e-16
Identity = 52/129 (40.31%), Postives = 74/129 (57.36%), Query Frame = 3 
Query:  825 EEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            +E +++H V +RGT +  ++ +D+    V D       H GF + A  V    +  L  G EV++ GHSLGGAAA IV    K  G ++G+ MTFG P VT+ AG    R L P+LR  +++DPVPL P
Sbjct:   78 DEAKKIHWVVVRGTSNLDNVKLDVDYNKVVDGRLQIPLHKGFADTALQVYAFAKPLLRTGYEVRVTGHSLGGAAAAIVVMLFKEDGVKLGQAMTFGQPKVTNRAGVDKYRGL-PLLRFVNDKDPVPLLP 205
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A849RL84_9BACT (Lipase family protein n=2 Tax=Nitrospira sp. TaxID=70125 RepID=A0A849RL84_9BACT)

HSP 1 Score: 91.3 bits (225), Expect = 3.440e-16
Identity = 51/129 (39.53%), Postives = 74/129 (57.36%), Query Frame = 3 
Query:  825 EEHRRVHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPVLRVTHERDPVPLTP 1211
            ++ +++  VA+RGT +  ++ +D+    V D       H GF + A  V    +  L PG EV++ GHSLGGAAA IV    K  G ++G+ MTFG P VT+ AG    R   P+LR  +++DPVPL P
Sbjct:   95 DDAKKIQWVAVRGTSTLENVKLDVDYNKVVDGRLQIPLHKGFADTALQVYAFAKPLLRPGYEVRVTGHSLGGAAAAIVLMLFKEDGVKLGQAMTFGQPKVTNRAGVEKYRGF-PLLRFVNDKDPVPLLP 222
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A7S2NXV6_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2NXV6_9STRA)

HSP 1 Score: 93.2 bits (230), Expect = 7.180e-16
Identity = 54/130 (41.54%), Postives = 78/130 (60.00%), Query Frame = 3 
Query:  840 VHHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEVK----IAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLP--VLRVTHERDPVPLTP 1211
            V  +  RGT    D+   +KS +++D E GC  H GF+E A+ +++D+E  L    +++    ++GHSLGGA A+IVA KL+ RGY V KV T GAP + DA     L  +LP  VLRV ++RD +   P
Sbjct:  250 VQQIFCRGTTLRDDVGQCIKSIYLYDSELGCNIHLGFREHAERLLRDVEPLLMRSNDIRGTIELSGHSLGGAVALIVALKLRKRGYNVTKVTTVGAPKLCDAEAVKTLEPMLPPDVLRVEYDRDIITFLP 379
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BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Match: A0A7S0C4Y0_9STRA (Hypothetical protein (Fragment) n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A7S0C4Y0_9STRA)

HSP 1 Score: 89.0 bits (219), Expect = 7.960e-16
Identity = 66/192 (34.38%), Postives = 99/192 (51.56%), Query Frame = 3 
Query:  720 VAKWFDCHQYTGALVVRDLPQ-VSNHYFVH-VGHL-----PGEEHRRV---------------HHVAIRGTVSFADLSIDLKSRHVFDEECGCVFHAGFKEVAD----AVIQDLEAFLEPGAEVKIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLLPV--LRVTHERDPVPLTP 1211
            + KW   H + G LV+R+L + + +  F H +  L     P + H+R                  +  RGT   AD+  +L  ++ +D E GC  HAGF+  AD    AV+  L +  +  + +++ GHSLGGA A+I+AAKL+ RGY V +  T G P V D +   +L  LLPV   R+ ++RD VP  P
Sbjct:   36 IRKWHIEHGFRGGLVLRELREDLYDDSFRHNITGLNKHANPNQIHQRECYYLYYEVRDNGQVKQQIFCRGTTLRADVLTNLNMKYKYDPELGCRLHAGFRNYADRLLHAVLPLLVSTTDKRSTIEVCGHSLGGAVALIMAAKLRKRGYTVVRATTIGLPKVCDRSAVPVLTLLLPVDISRIENDRDVVPNVP 227
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig68.34.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K946_9PHAE7.670e-15159.68Lipase_3 domain-containing protein n=2 Tax=Ectocar... [more]
A0A7S1QBS3_ALECA1.340e-2444.96Hypothetical protein (Fragment) n=1 Tax=Alexandriu... [more]
A0A7S4UP58_9DINO1.560e-1934.33Hypothetical protein n=1 Tax=Alexandrium monilatum... [more]
A0A2D4S7D9_9GAMM4.230e-1835.45Lipase n=1 Tax=Bermanella sp. TaxID=2024825 RepID=... [more]
A0A533ZFF0_9BACT1.580e-1740.31Lipase family protein n=2 Tax=Nitrospirae bacteriu... [more]
A0A532EIJ5_9BACT1.020e-1641.86Lipase family protein n=1 Tax=Nitrospira sp. TaxID... [more]
A0A1W9IZA4_9BACT1.380e-1640.31Lipase_3 domain-containing protein n=1 Tax=Nitrosp... [more]
A0A849RL84_9BACT3.440e-1639.53Lipase family protein n=2 Tax=Nitrospira sp. TaxID... [more]
A0A7S2NXV6_9STRA7.180e-1641.54Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
A0A7S0C4Y0_9STRA7.960e-1634.38Hypothetical protein (Fragment) n=1 Tax=Proboscia ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig68contigP-littoralis_Contig68:160511..173190 -
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.D7FY67
PFAMsLipase_3
Model size3682
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorymitochondrion
Exons7
Evalue2.41e-174
EggNOG OGsKOG4569@1|root,KOG4569@2759|Eukaryota
Descriptionphospholipase A1 activity
Cds size1905
COG categoryG
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig68.34.2prot_P-littoralis_Contig68.34.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig68 162025..172927 -


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

Feature NameUnique NameSpeciesTypePosition
1680791411.8042617-UTR-P-littoralis_Contig68:160510..1620241680791411.8042617-UTR-P-littoralis_Contig68:160510..162024Pylaiella littoralis U1_48UTRP-littoralis_Contig68 160511..162024 -
1680791411.8995845-UTR-P-littoralis_Contig68:172927..1731901680791411.8995845-UTR-P-littoralis_Contig68:172927..173190Pylaiella littoralis U1_48UTRP-littoralis_Contig68 172928..173190 -


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

Feature NameUnique NameSpeciesTypePosition
1680791411.8152592-CDS-P-littoralis_Contig68:162024..1623741680791411.8152592-CDS-P-littoralis_Contig68:162024..162374Pylaiella littoralis U1_48CDSP-littoralis_Contig68 162025..162374 -
1680791411.828115-CDS-P-littoralis_Contig68:163000..1632531680791411.828115-CDS-P-littoralis_Contig68:163000..163253Pylaiella littoralis U1_48CDSP-littoralis_Contig68 163001..163253 -
1680791411.8423088-CDS-P-littoralis_Contig68:163769..1642371680791411.8423088-CDS-P-littoralis_Contig68:163769..164237Pylaiella littoralis U1_48CDSP-littoralis_Contig68 163770..164237 -
1680791411.8549504-CDS-P-littoralis_Contig68:165201..1653901680791411.8549504-CDS-P-littoralis_Contig68:165201..165390Pylaiella littoralis U1_48CDSP-littoralis_Contig68 165202..165390 -
1680791411.8652616-CDS-P-littoralis_Contig68:166275..1664011680791411.8652616-CDS-P-littoralis_Contig68:166275..166401Pylaiella littoralis U1_48CDSP-littoralis_Contig68 166276..166401 -
1680791411.876522-CDS-P-littoralis_Contig68:166591..1667201680791411.876522-CDS-P-littoralis_Contig68:166591..166720Pylaiella littoralis U1_48CDSP-littoralis_Contig68 166592..166720 -
1680791411.886626-CDS-P-littoralis_Contig68:172537..1729271680791411.886626-CDS-P-littoralis_Contig68:172537..172927Pylaiella littoralis U1_48CDSP-littoralis_Contig68 172538..172927 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig68.34.2

>prot_P-littoralis_Contig68.34.2 ID=prot_P-littoralis_Contig68.34.2|Name=mRNA_P-littoralis_Contig68.34.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=635bp
MGSRVAFHPPLRVCRGKLAARPSTPTQQRGGTTAYRSTRTPRWRPYPPAP
LVGNSRLSFSCRKRMSHSSSVRHTADATTASNSGSSSSSSTMGGKRRGMI
ALGAVASLAAVAALVREALLPESFSEWDDELQWEEVHELAQLSNMTHKDP
QLVAKWFDCHQYTGALVVRDLPQVSNHYFVHVGHLPGEEHRRVHHVAIRG
TVSFADLSIDLKSRHVFDEECGCVFHAGFKEVADAVIQDLEAFLEPGAEV
KIAGHSLGGAAAVIVAAKLKLRGYRVGKVMTFGAPMVTDAAGAAILRDLL
PVLRVTHERDPVPLTPLASESLTAAAAVKLLSKSGAGVVGGGRGQSQGQG
QGQGQGQGQAAVVEVEVEWEEEEEEGGEMEEEEEEEVEQVDDNMDTGSGG
EIAADEEGGMRRGRSALNGDRVVSSPKYAHFGSQVVLLRRKRCIECHREE
RLAASEGGPSFYSALKKWLTAVASSAPVSLRREKRDDEGAEGQQQQQQGA
CDHCPSRGTTYYDPKGEDGCLFDSPWLRLSHPNYIHRMNNYEDEIYGRLE
HHRMRRNNSSTAGGSPSSTRPSEFSNSSNGGSSSSSSSSSSSRGSSAVTI
LGEAPVVVGSRSSTEELAGATSGAANTVRQCDVR*
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mRNA from alignment at P-littoralis_Contig68:160511..173190-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig68.34.2 ID=mRNA_P-littoralis_Contig68.34.2|Name=mRNA_P-littoralis_Contig68.34.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=12680bp|location=Sequence derived from alignment at P-littoralis_Contig68:160511..173190- (Pylaiella littoralis U1_48)
CCGGACGTTGTAGAAAGGGGAAGTGCACACGCGTGCATACGTACTCCGAG
TATGTCTCCGAGTATGTACGGAGTATACTAGTACACGTCTCTCGGCGGGC
AAACGCTGCTTCTGGAAGCAAGTGCTTCAATTGTACTGCTGAACTCCGGG
ACATCGTGGTCCTCGACTCTTCCTCAGCAACTTCTTACAGTAAGCGGCCG
TTTCTCACGGTATTGTATACTCGGAGTAGGATATATTGATAGTCAAGAAG
GGCAGCAGTTACGATGGGGAGCCGGGTGGCATTTCACCCGCCTCTCCGCG
TCTGCCGCGGCAAGCTAGCAGCCAGGCCATCAACGCCTACCCAGCAGCGG
GGAGGCACAACCGCCTACCGCTCTACTCGCACCCCTCGGTGGCGCCCGTA
CCCGCCTGCACCACTGGTGGGCAACAGCAGGTTGAGTTTTTCGTGCAGGA
AACGAATGTCCCATTCGAGCAGCGTTAGACACACCGCCGATGCCACCACA
GCAAGCAACAGCGGCAGCAGCAGCAGCAGCAGCACGATGGGAGGGAAGCG
GAGAGGAATGATAGCACTCGGAGCAGTGGCTTCGCTCGCGGCCGTTGCCG
CTCTTGTAAGGGAGGCGCTGCTGCCCGAGAGCTTTTCAGAATGGGACGAT
GAGGTGAAAAGCTACTATCATACGAAGTACAGGAACTTGTTTTCAGCCGT
GACACTCCGAAGTACTCTTTGTATGATACAGCAGTATCACAGCAGTGTAC
GATATGATCTGATTATTACTCCGGAGTAATAGACAAGTAAACAAAATATG
TGACTTTGTTTCGTGACGTGTTACTTGGAAAAATTAAAGATTAACACGGA
CCTGTTCAGGTACGTACATGTCATGATCATCACCAGGCACTGCTGCGTTG
ACCTTCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTCTGAACC
GCAGGGTGCAGACTAGTGTGCCAGAGAATTTGGGATGACAACACACACTG
CTGCTTTGAGACCGCTTTCAGGCCCGCTCTTACGGTAGATGGGCAATCGG
AATTCTTGGGAAATCAGGCTTGGGCAAACTTATCGGAAAATCGGACAATC
TGGACGGCGATTGGAAATCAGCGGGGGTTGTCGGAGGACGCAGGCTGTTT
GAGCTAATTTTGAGAAAATTCTGCGGATGGTACAGGGCAGCAAGCGTGAT
CGTCAGCACGGCCAGGATCGTACGTAGCTCGAGTACGTGCACCTGGCTCG
TGTGTTTGTGTGTTCGTGTGTGTGCATTTATGCTTTGAGTTGGCTATGAA
CCACTGCGGCGCAACCTCATGGCCGCGCGCGCGACGGATTCCAACTTGGA
AGCCGAGGTCGTTTGGCTTTTGGCTTGGAATCCATCCTATCCAAGCGACT
CAATTGGAATCCGGAGAACTGGAAAATGGTTTCTATTTTCCCATCATATT
CCAACCGAAGACAACCCCCATTTTGCAATTCCGAATTGTTGGATTCTCCA
TTCCAATAGAGAGTTTGCGCAAAAGGATTTATTATTTCAAATACCCTTTC
TCGGTTCCCCCGAGGTTTCCCCGAGAGGCTCCGTGACTGTAACAGAAAGG
ATTTCTTTTCTCACATTCCGGAAAATCCCGGGATGAAGGGATATTTGGAA
AGAATATTTGGTCTGCCAGGCGAGCCCATGTCGGCACATCACGTGATTGG
CCAAATCACCCCGGCCTCTCCGCAACAGTGTTCTATTAGAGAAGATGACG
ATACACCACTACGTTTCAGTTGATAACACCGATCACTGCGCCGTGATTTC
TGAAGGCAGCGAGCTCAAAAAGGGTTCCCAAAAACCCTGCAATCACTGTG
CCAACATCTTCGCCGCTGATTCATGTGGTGGAAGCGTGCCAGCCGTGCAA
AACATAGCATCTGAGGAGCGACTCTTTGAAAGTACGTGGCGATTGTGGGC
TGGCTGCGTCCGCAGCAGAGGCAACATACTGTAGATAGTCTACAGCTGTC
GCGGGACACAGACATTAGAACACCGGCAGTCACAGCAGTCACGCTCTCGC
TCTCTACACCACGTATCAAGGCGAAAACTTCTTTGCTGTCTCCTCTGTAT
GCTACTCTCCGTCCGCAGGAGGTTGGGTTGGAAGTGGGTTCATTCAACCG
GTGGAGAGAAGTATCGCTCGAGGTTTACACCTAGCACGCTGAAAATGCAA
ACGACCTCTTTTTTTGGCACTTGAAAATGGAACATATCATACAGCAGTCA
GCTGCTCTGTACTCAGTGAAAGTACAGTAGTATACGAGTATATAGTTGAC
ACACACCAATCATGCCTTCTTCCACAACTACAGCCTCTCTGCCGAACTTG
CCCCATCCCTGCTGCCCGTGACCCCTGAGTTTGCATTCACTTCGGTTGAC
CCGGCACCCTTCCCCACTACTTGAACCAAAGACTCGTTGTCTTGGCTATC
CTACAGCAGCAGCACATCATCAGCCGTGTGTGTGGGCGTGTGTGTCTGGA
TTGTTGCTCTGCATTAGCATACGAGAGTGTGGGTGTTCTGTCAAAAGGGA
ATTCCTTTTGCGCAAACTCATTTTCAAATTTTATTTAAAAGGAATTCTTA
TTCACCGCGCTTTTTTTTTTTTTTTTCAAGAAAGGATATTTGAGATAATA
TATCCTTTTGCGCAAACTCTCTAATTCCTCGTGTGAAACCCTTGGATTCC
TGTTCGAGTCTACCATGTACCGGGGGTTTTGGATTCCTGTTCGGGTCTAA
TATGTACCGGTCGCCCCGGTGGTCTAGGTTCCCTCGTCAACCTTCTAGTT
GTAAGGTCGTAGGTTCCATTCTCTCTGAGAGCGTTTCTTGCGACTTTACA
GTGGAAAGCGAATTACTCGTGAGTAAACAGAGGGGAGGGATTGCTGAATC
CGACGCGCATTAAAAACAAAAACCGAAGGTACGTACCGCAGGAGGAAGTT
GTGGGCAATAAAACAGAATAAAAAAACAAAAAAACTCGTGTGTGACCTTA
CTTCTGTGTGCCCCCGCCTGATGCACCCACTTCATACCGAAAGATGTAGA
CTGCTGCCCAAAATAAATGGAATGACAACACGCACACACATTTCGGGACG
AGATACGGACAGTTTCTGGACTGCTTTACCACATATCTTCGACCACCGAT
AGCACAGCCCTAGCAGAAGATCTGAGTGCCAACACACACGTCGCCTCTAC
ATGATGCCTTCTACTAAAATCATTCGCGAGCCCGGCTCGAGGCTTTTAAC
GGACAGCCGATTTCTGAATTGACTGATTTTGAAACACAGCGAAGGAGCAC
TTGACAATCACACGCTGGGTACCTCACACCAGTAGCAAGGCGTCGGGAAA
GGAAAAAACTGTTGGTTATCGCACACAGTGGCGGCAGGGGCCTCTCTTTT
CATGCGTATCACACTTTTTCCCTCTAGTCTCCTTCATACGTATCAGCATA
ATTTTTCGACAACTCCCACAAACTAGTCAAAAAGCTTATTTGGCTCAACC
TCCCATTAGGTTTGTTGTGCTAGGACTACAAAATTGCTGATATATCTGTG
GAGGACACCCGGTGTAGCAACTGTGTGTGTGTCGATACGTTCAGATATGC
TGCTTGGGCTGAGACATCGAAAGTCGCAGCGATGGCTCAAACAGTGCGCA
AACTGGACCCAAACTGGACCAAAACCAAAGGCTTGCCACTGCTGTACTCG
CCGCCATAGACTCTAAGCTGAACTGCGCGTCTACCGGTGCCACTAACTAC
CTCGGATGGCCTGCAGTTGAGGAGGTTGGGGTCCGTGGCGGCAAGCACAG
CAAGCAGTGACAAGCCTTTGGTGTCGGTCCAGTTTGTGGACTCTTTGACC
CACTGCCGAGGCCTTCGATATCTCTGCCAGATCTCCGCACCAGCATGTCT
GAACACACGTAGCTGCTACATGGTGTCCTCTGCTGATATCACCACATCAA
TTTGCAGTTACACCACAACAGACCCAGTACGAGATTAAGCCCAATCAAGT
GTTTTGACTTGATTAATGACTAAAAAATATTCTCGATCCAACGTAAGGCG
GTTCCCTAGGGATTTTTGTGCCAGGCTTGTCCCTGGGGCCTAAATTCACA
CCGTAAGCCTTGTTTGAGCGCCCTCTCGTGCTCACTTTCTTGTGATGGAA
TTAGAGCGCAGGGAGATTATCATCTTGGATTTAGAACCGGCGAAACGAAT
ACCGAGTTCTGAATAACATTCGTGTCGCGATAACACCCCGACCGCCATCT
TCCAACGGTTGTCTCGGCCCCGAACCCTCCTGTTCTACCGGTCTGATGGC
CCTATTTCGTGACGTTTTGGGTTACCTTTGCAGAATTCCACAATCCGTTA
TACGTTGACAGATAGTTTCTTCAATGAAGAGTATTCCGCTGATTTGGAAA
GGCACAAACGGAATCAACTTGGCCAGCTTTTGCATCCCGCAGGGCTAGCT
TTTTCAGTCGACAAAATCAACCTCGTTTCCTCGTTTGGAGTTCGACGAGT
CGGAACAGGGAGTTGATGAGATAGTCTGAAGCCGCGGCCAAGTCACGATG
GGAACTTTTGGGTGTGAAAGTACTGACAACACACAGGCACGCTATGATAG
CACCGACTTCGAAGTACTTGCTAATGACTCGCCAGGGGCACACACTCATA
CCCACACACTCTCACATACCCGTAAAAAAAAAACATACACACACACACAC
GCACACACATTTTATTTTTCATCCTAGCACGTTGTGTGTACCACGGGCTA
GACTCTGGTGGCGAGCTTATGTGAGAATCAACAACAACAACAACAACAAC
ACGCACGCCGAGATAGCTGACGTGATCCTGGATTCCCCATGCATATCGAT
CGCTTCATTCGGAATGCAGACCAGCTGCAAACGTCAACCGGTCACGTAAC
GTTAAAACAACTCACGTGCGTCGGTCTTTTTCGCAGAAAAGCTACAGTCA
GTAACGAGGACGGTCCACATTGGGCCTCCAATCCGGATGTCATAGTTTTC
GTTCATACCCGGCCTGACCCCGGGATAACACTTACTGGAAATTGGGATTG
CGTCTGATTTGATCAAGGCATTAACTTTATCCTCGGGGCTGACTTTTACC
TTCAAAAAGTAGAAATGAATAACGTGCTTGTATTTTTTGGAATTATTCGA
CCAATCGAAATATTGTAGGGAAAAGTTGGTAAGAGAAGGTGAAGGCGGTG
TTGCAATCTACACAGCTATCTATATACAAGTACGCGTTCGAACGCTAGTT
TAGTCACTGCTGAGCAAGTACGCGTTCGAACCTGACGTCACTGCTGTGCA
GACGAATTGGTAAGTCGCGTTTTTTTTTTTTTGTGGTGTTTTCATCGCCG
TCCGGGCGGGGGGGCCCGTGCGAGTACCTACAATTTTTCTTGGGGTAATG
CGCTCGGTTGATTTGAAGTGTTTTTGTTCACAACACGCACATACGCACAC
GCACTCACGCAACGTCCAGTAGTGTAACAGCTGCTACTGGCACACCAGAG
GGGCGCACCCACACACCTACACCACACCACACACCGTCGCACCCCGCTTT
GATCAACGCCAGCAAACCCAGCAAGCACACCAAAGTTTCCTGGTCCGCGC
AGTCGCGCCGGCTCGGCGCCTACCGTGGCTTTCCGGCGAACGCATTGGAA
GACCGTGCGTGTGGGTGGGTGCGGGTGCCTTCTACCCTTTTTGTCTATGT
TCTTATTGTCGGCGATAAATTGCGGCGAAACCTGAGTCGTTTCGTTGTGG
TTGCGATGTCCATGGATGATACTTCGTACGTGTCGCTTCGTTCAGAACGT
GAACCAGCTGCACATGCCCGACCAACAGATATCGTTCAAACGACGTCGGC
ATTTTTTTTTTTTTCGCCGAAAAGCTGATACGGCTGTGTGAAGGACTGTC
CAAACTGGACCTTCAATCGGTGTTGTCGCGGCTCACGTCAAGGCCCGGCC
CGAGGAATGAACGACGTGTACCAATCGATCCGAAACGTTTTTTGTCGCCT
CTGTCGGAAGAGCGGCGCAATCACGACCGCCCCATAGTCTTTCCACGAAC
GTGTTACGTACGCTGCCTATTGGTCCTTTCTTTTTACTTTCGCTCTCCTT
GCTCGTCCGTCCGATGTACGCATCGTGATCTCCGATGACAGTTCTGTCTC
TCGCTCTTTCTATCTCTATCTCCCTATCTCCCTCTCCCTCTCTCTCTCCC
TCTCTCTCTCGATGTTTGTATCTGTCTTTTCTCTCTCCCTCTCTTCCTCT
CTTTCTTCCTCTATTTTTCTCTTTCTCTTCCTCTGTCTGTCTCTGTCTCT
ACATGATACCTTTATCTATCTTCCTCTCCCTCACTCTCTCCGTCTCTCCT
TCGGCCACTCTGATACAAACAGGATCGAAATAGCGGGGGGGCCCCCCCCT
CTTGTCATTCAGCAGCCGGTTCAAATCTTCTTGCTTCTTCCTTTTTTTCC
TTTTTTTTTTTTTTTCACAGCTGCAGTGGGAGGAGGTACACGAGCTGGCT
CAGCTGTCCAACATGACCCACAAGGACCCGCAGCTCGTCGCGAAGTGGTT
CGACTGCCACCAGTACACCGGCGCCCTGGTCGTACGAGACCTGCCGCAGG
TTTGATTGATACCAGTACGTATCGCATGCACACATGTACGAAGTACAGTT
TTATGTATGTCACGTGCATACAAACGTCTCTACCGCCTGACCGGTTCCCA
ATTGGGAGGCACCCTCCTCACATATCACCCCCCCACACACACACACACCG
CTCACGCCCCTCCCCGCGATAACGCCACCTCATGGGTAGGTTTCCAACCA
CTACTTCGTTCACGTCGGACACCTGCCGGGGGAGGAGCACCGCAGGGTGC
ACCACGTGGCCATCCGAGGAACGGTGTCTTTCGCAGACCTCAGCATCGAT
CTCAAGTCTCGCCACGTGAGTTCGTTGGCTTAGGTCACGAGAGTTTTTTA
CCCATGTTATCATGGGAAGGAACAAGTTCGAGTTCGACCTCGAGGTTCAT
ACATAGATCTCTCGCTCCAAAACCAAAGCATGATCACATCATACACGGCA
TACCTCTCTGGTACCGCGTACACTCTTGTTTTGTTTTTGGTGCGTTTGGC
TTCCCCCCCAAAAAAAACAAGACAAGCCAAAAATAAAACAAATACTTTGA
AGACATCTATTTAGAGGGTTACGGAGGAACTATATTTGCCAACGCCAAGA
CCACTGTACTCGGGTCGTACTTTTGATTGACTTGTCCCGAGGATCCTCTT
ACAGTGGACGACGTGGGTCTGATATCCTCTGCTCGCTGTTTCCAATTGCG
GGCTTGGATGCCACTCCTGCATGTCCCTGCCGGCGGACAGTACCCCTACA
GCAAACAACCGCCACGTTTACCAGCAGGCATCACGCCTTGCACCTTTCGT
AACTCAACACGTCGGCGCTTGGTCTGGAAAATGTTCGACGAATCATTTAT
CAAAGCCAGGAAACAATGACGCGCTGATTTTTTCCAAGCAAGACAACCGT
AGCCTAAGTCGGCTCCTGCCTTTAACCCCCAGGGGCTGACGGGCGGGAGT
CCCAGAGCAGATTTTCTCTGCTATTGACCAGTGGGTTACACAGCACGAAA
ATGACAACTTCCATAAACAAGTTTGTCTGGCCTTAAGATATGTCTGGATC
TATTCCTGTTTCTGCCTTTTTTAGGTGTCTGGACCCACTTCCAAATGAAG
GCGAGTACGATGATATATGTACGTAGGGAATAAATAAATTGAAATGAAGT
CGCAAATTTTAGGCAGGCAGCGTCAACTCACTCCCCGCCCCCCTTCGCAG
GTTTTCGACGAAGAGTGCGGGTGCGTGTTTCACGCGGGGTTCAAAGAAGT
CGCAGACGCGGTTATACAAGACTTGGAGGCGTTTTTAGAGCCCGGGGCCG
AGGTCAAGATCGCGGGTCACAGCCTCGGCGGCGCCGCTGCGGTGATCGTG
GCCGCCAAGCTTAAGCTGAGGGGATACCGCGTCGGAAAGGTAAAGGTGGA
CGGTGTACGAGCGAGTTACTTATGTTTTGCGTTTCCGTACATCCAAAGGA
GGTAGATGGATATCACAAGTCTGCCTGCCTATTGTTCGTCCTCTAGCAAC
GACAACGATTGTACTGTACAGGAGAAGAAGGCGATGGCGTTTTGCGGCCG
AATCTATCATACCCGTATCTTTATTTTGTTGAGAAAAAAGTGAAGCATGC
TCGTCTCGCTCGCTGCCTGTCGCCTCGCAACATCGATCAGATATCATACT
TTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTGATGATTTTCGCATTGCTC
ACCGCCAAAGTCTAGCCCGTGGTCACGAACCAGACACATATCGTGCTACT
ACTGTGGGAGGAAGACTAAAAACAGAAGGAAATACAGCAGTACAACACGA
CAGAACGATTTGCGCTCGGCCCGTGCTCCCGCGACAAAACGATCGCGAAA
GGGTGGCGACTTTTGAGGTCGACTACTTCTCTGTTTCGCCGAGTAACAAG
AACGTCATCGTCTCGCTGCCTGTCGACTCACAGCAGCGATCAATACCGTA
CAACCATGGTACTCGGTATAGAACTAATATCATGCGTATCTTGACCTCGC
GCGACGCGAACGACAACGATAAACAAAAAAACAAAAAAACAGCAGTGCGT
GATGGATGGCATTTCGGGGCTCACGACTCTCACGATAGTGACCGAATCTG
TCTCCAAAATGTCCAACGGGTAACAAAAAAGAGTTTTTTTTTTCTCTCTC
TCTCGCTTCTCCCCCTACCAAAGACAACTGCACAGTTGTACTCAGTCAAG
GGTCGGAGAGCGTTTTTGTCCCTTTTATCCTGTCCCCTTGCAGCAATCGA
TTTCGAAACGAAACAAAAGGTGTTCGTATATCATGTCTTCTTGACCCATC
TGCTCTCTCAACCCATCATACCTCTCCATCACGATCGGAATATTATGTTC
CAGGTGATGACGTTCGGGGCTCCGATGGTGACCGACGCGGCCGGAGCCGC
GATTCTGCGGGACCTCCTGCCGGTCCTGAGAGTCACCCATGAGAGGGACC
CCGTGCCGCTCACGCCGCTGGCTTCGGAATCACTCACCGCGGCTGCAGCC
GTCAAGCTTTTGTCGAAATCGGGCGCCGGCGTTGTGGGGGGCGGCCGGGG
CCAGAGCCAAGGGCAAGGCCAAGGGCAAGGCCAAGGGCAAGGCCAGGCAG
CAGTGGTAGAGGTGGAGGTGGAGTGGGAGGAGGAGGAGGAGGAGGGGGGC
GAGATGGAGGAGGAGGAGGAGGAGGAGGTGGAGCAGGTTGATGACAACAT
GGACACAGGCAGCGGTGGAGAAATTGCTGCAGATGAGGAGGGGGGGATGA
GGAGGGGGAGGAGTGCCTTGAACGGCGACCGCGTGGTATCCTCTCCGAAG
TACGCGCACTTCGGGAGCCAGGTGGGCTGCTTGGGTGGGCGAGTGTGACC
CACTCGGGAGGGGAGCATGGAAGATTGGAACATCGATAGATTGGCACGTA
CCGCCTAGACCGCCGCGTGGCAGCCAGGTGGCTTGCTTGGGTTGGGGCGA
GTGTGAACCGCTCGGGAGGGGAGCATGGAGGATCGGAAGAGCGATAGATG
TATGATATATGATTGGCACGTACCGCCGAGACCGTCGCGTGGTTGTCTTT
CTCGAGTTGCCTGTCGACCTGCCTGCCTGCCTCCCATGCCTGCCATACCT
CCCATGCTTCTCATGCCTTCCTTTCCTCCCGTGCCTCCCATGCCTTCTAT
GCCTCCCATGCCTCCCATGCCTTCCATGCCTCCCATACCTTCCATGCCTC
CCATGCCTCCCATGCCTTCCATGCCTTCCATGCCTGCCATGCCTTCCATG
CCTTCCATGCCTCCCCTCGAGAGCACGCATCGTCAGAGCATAAAAAAGAA
ACCCTCGTGTGGACCGCACGATCGAACGAATGAACAGGTCGTGCTCCTGC
GACGAAAGAGATGCATCGAGTGCCACCGGGAGGAGAGACTGGCCGCCTCG
GAAGGCGGCCCCTCCTTCTACTCCGCCCTGAAGAAATGGCTCACTGCTGT
GGCGTCTTCCGCTCCCGTGTCCCTGCGACGAGAGAAAAGGGACGACGAAG
GCGCCGAAGGGCAGCAGCAGCAGCAGCAGGGGGCGTGCGATCACTGCCCG
TCCCGAGGAACCACGTACTACGACCCCAAGGGGGAAGACGGTGAGGAGCG
GAGTGATTGCGCATTCAGGGGAAGGCGGGAGGAAAGGTTTCCTGTGTGTC
CTGGGCCTGCGGTGTGGGGTGGAGTGGGGGGGGTCTCTGTGTGTGCTGGA
CAGGGGCGGGGTGGGGGAGGTGCAGTCGTTTCCGCGGCGATGCAACAGGG
CAAAGAGGCGCTCGGGTGGCGGGGGGGGGGGGATTCGGCGTGCAGCGGAG
GAAAACGGGGAGTCCGTGTTTCTCCGTTCGAATCTAGCTAAGCCTTGCGT
CGGTCAGGCGCTACGTCTCCTGCTTAATTCGCGGTTGCCCCTATTTGCAC
CGGCCAGTTGCGTGATGTTTCTGTACCCCCCTATGGCACCGTCTGATTGG
TCAACACAGGACCGCGTGTGTTATTCCAACGAAGGCGTGTATTTCCGACC
AAAAGCGCAACTGGGTGGGGTGGGTTCGGGAGAGGTGGAAATATGCAGGT
TTGAGCGTCACGACGGGTGCAGAAACATTATGCAACTGGCAGGTGCAAAT
ACTGTAGGGGCTCCCTCATCTGACCCATATTTTGCTTTGTTTTTACCACG
CTATTATATGTATGCACCTCGATGTTTTCTCTTGCGTGTGTTGCGTGCAA
TGCACGCAACGGACAGGCTGCCTGTTCGACAGCCCCTGGCTGCGACTGTC
GCACCCCAACTACATACACCGGATGAACAATTACGAGGACGAGATCTACG
GTCGGCTGGAGCACCACCGAATGCGGCGCAACAACTCGAGCACAGCAGGG
GGCTCTCCTTCATCCACCCGTCCTTCCGAATTTAGCAACAGTAGCAACGG
CGGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGGGGTAGCAGTG
CGGTGACGATATTGGGAGAGGCTCCGGTTGTTGTGGGGAGCCGGTCATCC
ACGGAGGAGTTGGCAGGTGCAACCTCCGGGGCGGCAAACACCGTACGGCA
ATGTGACGTTAGATAGGTATACTCGCCGCCAAACATATGGCGGCAAACAC
CGTACGGCAATGTGATGTTGGATAGGTATACTCGCCGCCAAACATACACG
TAACACGTAGCACGTAACGCCCTGGGATTTTTGTTGTTGTTTGTTTTTAC
TTTTCTTTTCGGAGTGCTTTGATAGGCAGAGAGGGAAAGGATGTACGAAG
AGCCTGTTGTGTGAGTACAACGGCAGGCGTACGCTCTTCTTGGTGTTGGT
TGGCCCAGCTCTTCGTCACTCGGAAACAGACTCAAGCGTGTCTCCTACAA
GAATGACTTCAGTGCAAACAAAGTATCAAGTATGCTGGTAACAGCATACG
AAGTACTCCGGAGTATGTTGCTGTCGATTGTCTCGTTTTACCTCCCGAGG
AATGTCCAGCCAGGAGAGGAATACGGGAAATAGCTCAGGCGTTTCTCGTA
CCGTGCCAGTACGAAGGTGTGGCTGCCTCTCACGGAGTGTGTCTGTTGGC
CGTGGCGATGTCGGAGGTTTAAGTAAACCAATGAGCAGTTGTGATAATAC
AGGAGCAGAGTGGTTGTGGCGTACGATATCATTCCACAACGTGGGTATGA
TTTGAATCTCCACCTTCCCACACCCCGAGGGGGATGGCATGTTTTCTTCG
CGATCGTCGGGAAGGATCACGCACACCGCCGAGGGTGCGGTCTAAAATCT
CCCCGCCCCATCGATACCTCCACGACAGGGGAGAGCGCCTGCCTCCCGTT
GTCGGGAGAGGGGTTGTCGAAACAGGGGGGGGGGTGGCTGCCTGCGATCG
GGAAGAAGTCGTAGCCGAAGTCCTTTTTTTTTTTTTCGAAAACATATACT
TTTTCTCGTCCCCCTCGGCGCGGGTACCCTTCCCTTTATTGGTACTGTAT
TTCGGCCGTGGCAATTTGTTCTTTCCCCTGGTGCGATCTCTCCGACGATT
TGGTGGGTTTTTTTTTTTTGGCCAGGCATCTTATTCCCCGTGTTTTTCTG
CGTACCTACCGTAGCATTCGTATTTATCATAGGGGCCCCGTGATAACGGG
GCACCGGTACTACGGTAACCCCTATCCGCACCTGCCAGGTATACATTTTT
AATCGTGCACCTGCCGGGTCTGATTGGCCAGTTACGCGCCGCGTGTGTTT
TTCCAACACCAAGGCGTGTTTTTTTTATCAAACGCGCCGAGGAGTGGTGC
CGAGGCTCCTTGAGGACTCGGGTCGGCTTAGGGTCAGGGATATGGTTGGG
GTTGCGGTTGGGGTTGGGTTGGGTCGGGAGAGGTGTAAAATTGAAGTAGA
GCCTTGGTCAAAGTTGAAACAATCGCAGGTCACGGGGTGGACGGTTACAA
ATGTACCTGGCAGGTGTAGATAGAGGTCACCCGGTACTACTGCTGTGGCA
CCGCGCGCGCTTGCTCTCCCCGTTCGAAAATATAGAGTAGTCCTATCATA
TCAAATGAGGTGGATCCAGCGAGGCGAGCAATTATGCACTGGTGAAGAGA
GGCGGGGGGAGAGATAAGAAGAGAGAGGAA
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Coding sequence (CDS) from alignment at P-littoralis_Contig68:160511..173190-

>mRNA_P-littoralis_Contig68.34.2 ID=mRNA_P-littoralis_Contig68.34.2|Name=mRNA_P-littoralis_Contig68.34.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1905bp|location=Sequence derived from alignment at P-littoralis_Contig68:160511..173190- (Pylaiella littoralis U1_48)
ATGGGGAGCCGGGTGGCATTTCACCCGCCTCTCCGCGTCTGCCGCGGCAA
GCTAGCAGCCAGGCCATCAACGCCTACCCAGCAGCGGGGAGGCACAACCG
CCTACCGCTCTACTCGCACCCCTCGGTGGCGCCCGTACCCGCCTGCACCA
CTGGTGGGCAACAGCAGGTTGAGTTTTTCGTGCAGGAAACGAATGTCCCA
TTCGAGCAGCGTTAGACACACCGCCGATGCCACCACAGCAAGCAACAGCG
GCAGCAGCAGCAGCAGCAGCACGATGGGAGGGAAGCGGAGAGGAATGATA
GCACTCGGAGCAGTGGCTTCGCTCGCGGCCGTTGCCGCTCTTGTAAGGGA
GGCGCTGCTGCCCGAGAGCTTTTCAGAATGGGACGATGAGCTGCAGTGGG
AGGAGGTACACGAGCTGGCTCAGCTGTCCAACATGACCCACAAGGACCCG
CAGCTCGTCGCGAAGTGGTTCGACTGCCACCAGTACACCGGCGCCCTGGT
CGTACGAGACCTGCCGCAGGTTTCCAACCACTACTTCGTTCACGTCGGAC
ACCTGCCGGGGGAGGAGCACCGCAGGGTGCACCACGTGGCCATCCGAGGA
ACGGTGTCTTTCGCAGACCTCAGCATCGATCTCAAGTCTCGCCACGTTTT
CGACGAAGAGTGCGGGTGCGTGTTTCACGCGGGGTTCAAAGAAGTCGCAG
ACGCGGTTATACAAGACTTGGAGGCGTTTTTAGAGCCCGGGGCCGAGGTC
AAGATCGCGGGTCACAGCCTCGGCGGCGCCGCTGCGGTGATCGTGGCCGC
CAAGCTTAAGCTGAGGGGATACCGCGTCGGAAAGGTGATGACGTTCGGGG
CTCCGATGGTGACCGACGCGGCCGGAGCCGCGATTCTGCGGGACCTCCTG
CCGGTCCTGAGAGTCACCCATGAGAGGGACCCCGTGCCGCTCACGCCGCT
GGCTTCGGAATCACTCACCGCGGCTGCAGCCGTCAAGCTTTTGTCGAAAT
CGGGCGCCGGCGTTGTGGGGGGCGGCCGGGGCCAGAGCCAAGGGCAAGGC
CAAGGGCAAGGCCAAGGGCAAGGCCAGGCAGCAGTGGTAGAGGTGGAGGT
GGAGTGGGAGGAGGAGGAGGAGGAGGGGGGCGAGATGGAGGAGGAGGAGG
AGGAGGAGGTGGAGCAGGTTGATGACAACATGGACACAGGCAGCGGTGGA
GAAATTGCTGCAGATGAGGAGGGGGGGATGAGGAGGGGGAGGAGTGCCTT
GAACGGCGACCGCGTGGTATCCTCTCCGAAGTACGCGCACTTCGGGAGCC
AGGTCGTGCTCCTGCGACGAAAGAGATGCATCGAGTGCCACCGGGAGGAG
AGACTGGCCGCCTCGGAAGGCGGCCCCTCCTTCTACTCCGCCCTGAAGAA
ATGGCTCACTGCTGTGGCGTCTTCCGCTCCCGTGTCCCTGCGACGAGAGA
AAAGGGACGACGAAGGCGCCGAAGGGCAGCAGCAGCAGCAGCAGGGGGCG
TGCGATCACTGCCCGTCCCGAGGAACCACGTACTACGACCCCAAGGGGGA
AGACGGCTGCCTGTTCGACAGCCCCTGGCTGCGACTGTCGCACCCCAACT
ACATACACCGGATGAACAATTACGAGGACGAGATCTACGGTCGGCTGGAG
CACCACCGAATGCGGCGCAACAACTCGAGCACAGCAGGGGGCTCTCCTTC
ATCCACCCGTCCTTCCGAATTTAGCAACAGTAGCAACGGCGGCAGCAGCA
GCAGCAGCAGCAGCAGCAGCAGCAGCAGGGGTAGCAGTGCGGTGACGATA
TTGGGAGAGGCTCCGGTTGTTGTGGGGAGCCGGTCATCCACGGAGGAGTT
GGCAGGTGCAACCTCCGGGGCGGCAAACACCGTACGGCAATGTGACGTTA
GATAG
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