mRNA_P-littoralis_Contig644.31.3 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig644.31.3
Unique Name	mRNA_P-littoralis_Contig644.31.3
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: D8LD78_ECTSI (Acyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LD78_ECTSI)

HSP 1 Score: 532 bits (1370), Expect = 1.060e-183
Identity = 255/315 (80.95%), Postives = 286/315 (90.79%), Query Frame = 2

Query:  350 RMYTPTTTGTPLERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSRTAAAVAFFPYAVSVVLPKKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIALIEKDKRVIFAAQPHGVVSVAGICSAINQAPLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRTSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELIIET 1294
            + YTPTT+GT LERL GALA+STF+ CYFYAVLWLP VG+L+F VSRTAAA A  PYAVS VLP K  PWLL+TWFFRCALKYHDF+EV E   EEI+LIEKDK++IFAAQPHGV+S+ GICSAIN AP  TPPT  A+VI+RIPIMKHVFG+FGLVGASS+SL SALRRTSVVLYVGGIAELFLS PAEERL+VGKRKGFIKLAM+TGSEV+PCYYFGNTTCLEI+RHP+LT VSRKLGASITILWGRWGLPIPMP K+MCV GKP+GIPKKEFPS+EDVDKYHA+Y++EVKR+FDTYK RLPDYKDK++IIET
Sbjct:    2 KTYTPTTSGTFLERLAGALAVSTFSTCYFYAVLWLPTVGLLFFFVSRTAAAAALVPYAVSAVLPTKALPWLLNTWFFRCALKYHDFDEVEETSQEEISLIEKDKKIIFAAQPHGVMSITGICSAINMAPRPTPPTCTADVIRRIPIMKHVFGVFGLVGASSRSLKSALRRTSVVLYVGGIAELFLSNPAEERLYVGKRKGFIKLAMQTGSEVIPCYYFGNTTCLEILRHPVLTSVSRKLGASITILWGRWGLPIPMPGKSMCVVGKPIGIPKKEFPSEEDVDKYHAVYVKEVKRIFDTYKTRLPDYKDKKIIIET 316

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A835YX01_9STRA (Acyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YX01_9STRA)

HSP 1 Score: 333 bits (853), Expect = 1.800e-105
Identity = 165/312 (52.88%), Postives = 226/312 (72.44%), Query Frame = 2

Query:  365 TTTGTPLERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSR---TAAAVAFFPYAVSVVLPKKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIALIEKDKRVIFAAQPHGVVSVAGICSAINQAPLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRTSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELIIE 1291
            TT GT  ERL G +A+  F+ CY+Y+VL+   + V+  L ++   T   +   P  +S++LP +  P LL+T FF+CALKYH+FEE++E   EE+  + K +  I AAQPHGV+SVAGIC AIN+AP   PP+  A+V+ RIP+MK VFG F L+ AS +SLT AL++ SVV+YVGG+AELFLS P+EERLF+ KR GF+KLAM+TGS+V+P Y FGNT+ L + R   L  +SR LG SIT+LWGRWGLP+PMP K MCV G+P+G+P+ + P+ E V ++H  Y  EV RLF+ YK+++PDY+ K LI++
Sbjct:   27 TTAGTRFERLCGMMAIGIFSTCYYYSVLY--PLFVVIMLTAKGFTTTTLLLALPVLLSILLPSRQLPHLLATKFFKCALKYHEFEEIQETTDEELHELSKTRNFIMAAQPHGVMSVAGICYAINRAPGEIPPSAVASVLLRIPLMKQVFGSFNLIDASRKSLTKALKKQSVVIYVGGMAELFLSHPSEERLFIAKRTGFLKLAMQTGSDVIPWYLFGNTSTLVVARGSFLMALSRTLGVSITLLWGRWGLPLPMPRKIMCVMGRPMGLPQIDDPTPEQVKEWHDKYCAEVVRLFNKYKEKVPDYRHKHLILD 336

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S2W5Y2_9STRA (Acyltransferase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2W5Y2_9STRA)

HSP 1 Score: 260 bits (664), Expect = 2.150e-77
Identity = 148/331 (44.71%), Postives = 201/331 (60.73%), Query Frame = 2

Query:  338 SSMARMYTPTTTGTPLERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSRTAAAVAFF----PYAVSVVLPKKGCPWLLSTWFFRCALKYHDFEEVREMPFEE-IALIEKDKRVIFAAQPHGVVSVAGICSAI-------NQAPLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSAL--RRTSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELII 1288
            S +  +YT     + LER  G LA S F+  Y+ A +++    VL F   R   A++ +    P  +S  LP    P  L +W  R   KY  + EV E    E I    K K +I A QPHGV S  G+CSA+           +A  PT  A+V+   P++KHV G+FGL+ AS +SL   L  ++ +VVLYVGGIAELFL +P EE++    RKGFIK+AM+ G+++VP Y  GNTT L+++RHP+L+ +SRKLGA+IT+ WGRWGLP+P+P   + V G P+ IPK   PSDED+ K    Y+ EVKRLFDTYK   PDYK+K+L +
Sbjct:   16 SRVKALYTAPEHVSTLERWAGFLAASVFSLVYYIAPVYMIVAPVLLF---RQPTAMSTWLILAPAIISAALPSGHSPAFLKSWLMRQMPKYFQYSEVLESTDRELIDYSAKRKPLILAVQPHGVFSYGGVCSALIDYGASERAEVVARFPTAVASVVMGFPVLKHVLGVFGLLDASKKSLMKQLSGKKGNVVLYVGGIAELFLCSPTEEKVLA--RKGFIKVAMQAGADIVPVYLLGNTTVLQVVRHPILSFISRKLGATITLFWGRWGLPLPLPRPVVYVRGAPIDIPKISDPSDEDIQKAFDRYMSEVKRLFDTYKHLNPDYKNKDLAV 341

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S3ZS57_9STRA (Acyltransferase n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZS57_9STRA)

HSP 1 Score: 256 bits (653), Expect = 7.400e-76
Identity = 142/324 (43.83%), Postives = 197/324 (60.80%), Query Frame = 2

Query:  374 GTPLERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSRTAAAVAFF---PYAVSVVLPKKGCP----WLLSTWFFRCALKYHDFEEVREMPFEEIA-LIEKDKRVIFAAQPHGVVSVAGICSAIN--QAP------LATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRT--SVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELIIE 1291
            GTP +R +G +A S F+A Y  A ++L   GV      R  +   +    P   S ++P K  P    WLL T F  C   Y ++EE  E+  +E+  L E+ KRVI    PHGV     +C+  +  QA       +   PT  ANVI+ +PI+K V G+FG + AS   L S L+R   SVVLYVGG+ ELF ++P +E +F+ +RKGF+KLA++TG+++VP Y FGNTT LE ++ P+L K+SRK G S T+ WGRW LP+P   K     G+PLG+P  E P+D DV+KYHA+Y+Q++  LFD YKK  PDY DK+L +E
Sbjct:   15 GTPTQRRLGFVAASIFSATYVIAPVYLLITGVTLVRAKRPLSRDVWLLTLPLIASALIPAKILPKFGRWLLQTKFMACVPYYFEYEEYHEITDQEVLKLHEEGKRVIGCMHPHGVFPFVSVCAVTSTLQAKDGFGDGILDLPTAVANVIRTMPILKDVVGVFGCIDASGSYLKSRLQRRKGSVVLYVGGMVELFYASPKKETVFLKQRKGFVKLALRTGADLVPVYLFGNTTSLEALKWPILAKISRKTGVSFTLFWGRWFLPLPKKVKLTYARGRPLGLPHIENPTDADVEKYHALYVQKLVELFDRYKKFNPDYADKQLAVE 338

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A1Z5JRS2_FISSO (Acyltransferase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5JRS2_FISSO)

HSP 1 Score: 248 bits (633), Expect = 4.830e-73
Identity = 143/313 (45.69%), Postives = 192/313 (61.34%), Query Frame = 2

Query:  383 LERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSRTAAA-VAFFPYAVSVVLPKKGCPWLLSTWFFRCALKYHDFEEVREM-PF---EEIALIEKDKRVIFAAQPHGVVSVAGICSAINQAPL--ATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRTS----VVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELII 1288
            L   VG L  STF+  YF A  ++     L      +A   V   P  VS ++     P++L   + R  + Y D+EE+ E  P    EEI L  K K  +   QPHG +S  GI SA+   P    T PT  A+ +   PI+KHV G+FG++ AS +S+  AL+R      VVLYVGG+AELFLS    E+L++ KRKGFIKLA++ G +VVP Y FGNTT L +++   L  +SRKL  S+T +WG+WGLPIP   K + V+G+PLG+PK E P+ +D+DK+HA Y  EVKRLFDTYK R+P+YKDK+L I
Sbjct:   20 LRWFVGMLMASTFSMVYFVAPFYMLTAAALLLAAPTSAFTWVYIMPILVSALVKPLPMPFVLR--WLRPMVDYFDYEEIVESSPINVREEILL--KGKNYLCVFQPHGALSFTGIVSAVTAEPAFQGTMPTAVADAVLLTPIVKHVLGIFGIISASKRSMQRALKRPGPEGCVVLYVGGMAELFLSCENNEKLYLMKRKGFIKLALQEGVDVVPIYLFGNTTVLSVLKKGALAMISRKLQVSLTYIWGKWGLPIPRDCKLLYVSGQPLGMPKIENPTQQDIDKWHAKYCSEVKRLFDTYKDRVPEYKDKQLEI 328

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S4FD25_CHRCT (Acyltransferase n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4FD25_CHRCT)

HSP 1 Score: 249 bits (636), Expect = 5.190e-73
Identity = 145/318 (45.60%), Postives = 193/318 (60.69%), Query Frame = 2

Query:  377 TPLERLVGALAMSTFTACYFYAVLWLPA-VGVLYFLVSRTAAAVAFFPYAVSVV----LPKKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIALI-EKDKRVIFAAQPHGVVSVAGICSAINQ-------APLATP-PTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSAL--RRTSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKEL 1282
            T  ER VG LA S FT  Y  A ++L A VG+L F+      AV   P  VS++    +P    P +L +W  R   KY  +EE  E    E+    +  KR I  A PHGV S  G+C  I         A LAT  PT AA+V++  P++K + G+FG++ AS+  L S L  RR S VLYVGGIAELF S+   E +++ KRKGFIKLA++TG +V+P Y+FGNTT L +++   L  +SRKLG S+T+ WGRWGLP+P P K +   G+PLG+P+ + P+D DV+++HA Y   VK LFD YK R PDY  KEL
Sbjct:   45 TAFERAVGFLAASPFTLIYILAPVYLLATVGILLFMPWGYTHAVMLTPIVVSMLTPAWVPVALSPHILGSWACRQIPKYFSYEEYHETTDAELKEAHDAGKRFILVAHPHGVFSFCGVCGFIASVSSNNGVANLATEVPTAAASVLRFFPLLKDLLGVFGVIDASAAVLKSRLSRRRGSFVLYVGGIAELFASSSQREAVYLNKRKGFIKLALRTGGDVIPAYFFGNTTVLSVLKAGPLAALSRKLGVSVTLFWGRWGLPVPKPVKLVYARGRPLGLPQIDEPTDADVEQWHAKYCDAVKTLFDNYKVRNPDYAHKEL 362

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A6V4FAM1_9EUKA (Acyltransferase n=1 Tax=Prymnesium polylepis TaxID=72548 RepID=A0A6V4FAM1_9EUKA)

HSP 1 Score: 235 bits (600), Expect = 4.620e-68
Identity = 140/326 (42.94%), Postives = 194/326 (59.51%), Query Frame = 2

Query:  377 TPLERLVGALAMSTFTACYFYAVLWLPAVGVLY----FLVSRTAAAVAFFPYAVSVVLP----KKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIALIEKDKRVIFAAQPHGVVSVAGICSAI-----------NQAPLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRR--TSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELIIE 1291
            T LER VG LA S F+  Y  A L++    VL     F +S  A A    P  +S++LP     +  P++LS++  R   KY ++EE  E    E+      K  I AA PHGV S  G+C A+            + P   P T AA+V++  P++K V G+FG++ A  + L+  L +  +SVV+YVGG+AELF S+P  E +F+ KRKGFIK+ ++TG++V+P Y FGNTT L  +    L  +SRKLG S+T+ WGR+GLP+P P K +   G+PLG+P    P+D DVDK+HA Y + V+ LFD YK R PDYK KEL IE
Sbjct:   22 TALERCVGFLAASVFSLVYVVAPLYVLGALVLVVCAPFAMSTWAVAA---PLIISLMLPGSLPSRYGPYVLSSYAARQIPKYFEYEEYHEATDAELKA--SGKNYICAAHPHGVFSFVGVCGAVASLNDEKEGFGKELPRVVP-TAAASVLKVFPLLKDVLGVFGVIDAGGKVLSKHLSKPKSSVVIYVGGMAELFRSSPKREAVFLKKRKGFIKMGLRTGADVLPLYLFGNTTVLSALTSGPLASLSRKLGVSVTLFWGRFGLPVPKPVKLVYARGRPLGLPHIPEPTDADVDKWHAEYCKRVQELFDAYKGRNPDYKHKELSIE 341

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S0PXT3_9EUKA (Acyltransferase n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0PXT3_9EUKA)

HSP 1 Score: 231 bits (588), Expect = 2.230e-66
Identity = 141/336 (41.96%), Postives = 190/336 (56.55%), Query Frame = 2

Query:  344 MARMYTPTTT---GTPLERLVGALAMSTFTACYFYAVLW-LPAVGVLYFLVSRTAAAVAFFPYAVSVVLPK----KGCPWLLSTWFFRCALKYHDFEEVREMPFEEI-ALIEKDKRVIFAAQPHGVVSVAGICSAINQA----------PLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRT--SVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKELII 1288
            MA +  PT +    T  ER +G LA   FT  Y  A L+ L A+ +L          +   P  VS+ LP     +  P+++  W  R   KY  +EE  E   +E+ A   + KR +  A PHGV S  G+C  I             P+  P T AA+VI   P +K V G+FG++ AS   L   L R   SVVLYVGGIAELF S+PA E +++ KRKGFIKLA++TG++V+P Y+FGNTT L ++    L  +SR +G S+T+ WGR+ LP+P P K +   G+PLG+P  E P+D DVD++HA Y   VK LFD YK + PDY  KEL I
Sbjct:    1 MAALNAPTRSFVQSTSFERTIGFLAACPFTLVYVLAPLYVLAALTLLLLFPLNPRTWLLLAPLIVSLALPPWVAVQLSPYIMGNWASRQIPKYFAYEEYHEATDQELQAAHAEGKRFLLVAHPHGVFSFCGVCGFIASMCASDGIGASLPIEVP-TAAASVICFFPFLKDVLGVFGVIDASGSVLNRRLSRNRGSVVLYVGGIAELFASSPAREAVYLKKRKGFIKLALRTGADVLPVYFFGNTTVLSVLTAGPLAMLSRNIGVSVTLFWGRFFLPVPKPVKLVYARGRPLGLPHIEKPTDADVDEWHAKYCAAVKELFDAYKGKNPDYAQKELEI 335

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BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S3TR42_9SPIT (Acyltransferase n=1 Tax=Strombidinopsis acuminata TaxID=141414 RepID=A0A7S3TR42_9SPIT)

HSP 1 Score: 229 bits (585), Expect = 6.280e-66
Identity = 137/319 (42.95%), Postives = 185/319 (57.99%), Query Frame = 2

Query:  377 TPLERLVGALAMSTFTACYFYAVLW-LPAVGVLYFLVSRTAAAVAFFPYAVSVVLP----KKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIALIEKD-KRVIFAAQPHGVVSVAGICSAINQAP--------LATP-PTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRRT--SVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDTYKKRLPDYKDKEL 1282
            T  ER VG LA + F   YF A L+ L A+ +L        + +A  P  +S++ P    +   P+LL +W  R   KY  +EE  EM   E+       KR I  A PHGV S  G+C AI            LAT  PT AA VI+  P++K + G+FG++ A+   L   L R   S VLYVGGIAELF ++   E  ++ +RKGFIKLAM+TG++VVP Y+FGNT  L ++    L  +SRKLG S+T+ WG WGLPIP P K +   G+PLG+P  E P+D DV+++H  Y+ ++K+LFD YK   P Y DKEL
Sbjct:   16 TAFERFVGGLAATPFIVIYFVAPLYSLSALTLLVVQPFSPTSYLALLPILISMLTPAAVSRFASPYLLCSWACRQIPKYFSYEEYHEMTDAELMDGHASGKRFILVAHPHGVFSYTGVCGAIATMSSTNGIGRKLATEVPTAAATVIRTFPLLKDLLGVFGVIDAAGPVLKKRLSRNRGSFVLYVGGIAELFETSAKRECCYLLQRKGFIKLAMRTGADVVPAYFFGNTAVLSVLSTGPLATLSRKLGMSVTLTWGLWGLPIPKPVKLIYTRGRPLGLPHIENPTDADVEEWHNKYVAQLKKLFDDYKHTHPLYADKEL 334

[Close]

BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Match: A0A7S2CLT2_9STRA (Acyltransferase n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2CLT2_9STRA)

HSP 1 Score: 229 bits (584), Expect = 1.020e-65
Identity = 140/329 (42.55%), Postives = 193/329 (58.66%), Query Frame = 2

Query:  341 SMARMYTPTTTGTPLERLVGALAMSTFTACYFYAVLW-LPAVGVLYFLVSRTAAAVAFFPYAVSVVLPKKGCPW-LLSTWFFRCALKYHDFEEVREMPFEEIALIEKDKRVIFAAQPHGVVSVAGICSA-------INQAPLATPPTGAANVIQRIPIMKHVFGLFGLVGASSQSLTSALRR-TSVVLYVGGIAELFLSTPAEERLFVGKRKGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWGRWGLPIPMPAKTMCVTGKPLGIPKKEFPSDED--VDKYHAIYIQEVKRLFDTYKKRLPDYKDKELIIE 1291
            ++ ++Y P    T  ER VG +A S F+  Y+ A  + L A+  +    +     V   P  +S  LP  G    +LS+W FR   KY D+ E+ E   EE A  +  K +I A QPHGV S  G+CSA       I    +   PT  A V+  +PI+KH+ G+FGLV A  QSL + +++  S VLYVGGIAELFLS+P +E   +  R+GFIKLA++ G++V+P Y FGNTT L++  HP L KVSRK GA++T+ WG  GLP+P P     V GKPL +P +  PS  D  V+ Y   Y +EVKR+F+ YKK  PDY  K+L ++
Sbjct:   17 NVKKIYGPPNNCTAFERTVGLMAASIFSLTYYIAPFYVLFALARILLYTTSLWTYVYLAPIMISASLPNFGMSRRILSSWVFRQIPKYFDYVEILEYSDEETA--KHAKPLILAVQPHGVFSYGGVCSAVVDYSSKIRMEIVHMFPTAVAAVLLSLPILKHILGVFGLVDAGKQSLVNRIKKGKSTVLYVGGIAELFLSSPEKEA--IKSRRGFIKLAIQQGADVIPLYLFGNTTVLKVFTHPTLEKVSRKAGATLTLFWGICGLPLPFPKAVTYVRGKPLVLPHETDPSKVDGLVEVYLKKYEEEVKRIFEAYKKVNPDYAGKKLEVK 341

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot

BLAST of mRNA_P-littoralis_Contig644.31.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LD78_ECTSI	1.060e-183	80.95	Acyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepI...	[more]
A0A835YX01_9STRA	1.800e-105	52.88	Acyltransferase n=1 Tax=Tribonema minus TaxID=3033...	[more]
A0A7S2W5Y2_9STRA	2.150e-77	44.71	Acyltransferase n=1 Tax=Rhizochromulina marina Tax...	[more]
A0A7S3ZS57_9STRA	7.400e-76	43.83	Acyltransferase n=1 Tax=Pelagomonas calceolata Tax...	[more]
A0A1Z5JRS2_FISSO	4.830e-73	45.69	Acyltransferase n=1 Tax=Fistulifera solaris TaxID=...	[more]
A0A7S4FD25_CHRCT	5.190e-73	45.60	Acyltransferase n=1 Tax=Chrysotila carterae TaxID=...	[more]
A0A6V4FAM1_9EUKA	4.620e-68	42.94	Acyltransferase n=1 Tax=Prymnesium polylepis TaxID...	[more]
A0A7S0PXT3_9EUKA	2.230e-66	41.96	Acyltransferase n=1 Tax=Coccolithus braarudii TaxI...	[more]
A0A7S3TR42_9SPIT	6.280e-66	42.95	Acyltransferase n=1 Tax=Strombidinopsis acuminata ...	[more]
A0A7S2CLT2_9STRA	1.020e-65	42.55	Acyltransferase n=1 Tax=Dictyocha speculum TaxID=3...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig644	contig	P-littoralis_Contig644:101505..117716 -

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.D8LD78
PFAMs	DAGAT
Model size	2015
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	signal anchor
Exons	9
Evalue	4.11e-190
EggNOG OGs	KOG0831@1\|root,KOG0831@2759\|Eukaryota
Ec32 ortholog description	mono-or diacylglycerol acyltransferase type 2
Ec32 ortholog	Ec-05_001450.1
Description	2-acylglycerol O-acyltransferase activity
Cds size	954
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig644.31.3	prot_P-littoralis_Contig644.31.3	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig644 102223..112702 -

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


Feature Name	Unique Name	Species	Type	Position
1680791344.5727148-UTR-P-littoralis_Contig644:101504..102222	1680791344.5727148-UTR-P-littoralis_Contig644:101504..102222	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig644 101505..102222 -
1680791344.6805336-UTR-P-littoralis_Contig644:112702..112967	1680791344.6805336-UTR-P-littoralis_Contig644:112702..112967	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig644 112703..112967 -
1680791344.6935997-UTR-P-littoralis_Contig644:117638..117716	1680791344.6935997-UTR-P-littoralis_Contig644:117638..117716	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig644 117639..117716 -

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


Feature Name	Unique Name	Species	Type	Position
1680791344.5846858-CDS-P-littoralis_Contig644:102222..102322	1680791344.5846858-CDS-P-littoralis_Contig644:102222..102322	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 102223..102322 -
1680791344.6018176-CDS-P-littoralis_Contig644:104327..104398	1680791344.6018176-CDS-P-littoralis_Contig644:104327..104398	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 104328..104398 -
1680791344.6123185-CDS-P-littoralis_Contig644:105408..105510	1680791344.6123185-CDS-P-littoralis_Contig644:105408..105510	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 105409..105510 -
1680791344.6231918-CDS-P-littoralis_Contig644:106221..106353	1680791344.6231918-CDS-P-littoralis_Contig644:106221..106353	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 106222..106353 -
1680791344.6352491-CDS-P-littoralis_Contig644:107347..107509	1680791344.6352491-CDS-P-littoralis_Contig644:107347..107509	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 107348..107509 -
1680791344.6451113-CDS-P-littoralis_Contig644:110508..110625	1680791344.6451113-CDS-P-littoralis_Contig644:110508..110625	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 110509..110625 -
1680791344.6547585-CDS-P-littoralis_Contig644:112011..112164	1680791344.6547585-CDS-P-littoralis_Contig644:112011..112164	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 112012..112164 -
1680791344.6676257-CDS-P-littoralis_Contig644:112585..112702	1680791344.6676257-CDS-P-littoralis_Contig644:112585..112702	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig644 112586..112702 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig644:101505..117716-
coding sequence from alignment at P-littoralis_Contig644:101505..117716-

protein sequence of mRNA_P-littoralis_Contig644.31.3

>prot_P-littoralis_Contig644.31.3 ID=prot_P-littoralis_Contig644.31.3|Name=mRNA_P-littoralis_Contig644.31.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=318bp
MARMYTPTTTGTPLERLVGALAMSTFTACYFYAVLWLPAVGVLYFLVSRT
AAAVAFFPYAVSVVLPKKGCPWLLSTWFFRCALKYHDFEEVREMPFEEIA
LIEKDKRVIFAAQPHGVVSVAGICSAINQAPLATPPTGAANVIQRIPIMK
HVFGLFGLVGASSQSLTSALRRTSVVLYVGGIAELFLSTPAEERLFVGKR
KGFIKLAMKTGSEVVPCYYFGNTTCLEIIRHPLLTKVSRKLGASITILWG
RWGLPIPMPAKTMCVTGKPLGIPKKEFPSDEDVDKYHAIYIQEVKRLFDT
YKKRLPDYKDKELIIET*

mRNA from alignment at P-littoralis_Contig644:101505..117716-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig644.31.3 ID=mRNA_P-littoralis_Contig644.31.3|Name=mRNA_P-littoralis_Contig644.31.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=16212bp|location=Sequence derived from alignment at P-littoralis_Contig644:101505..117716- (Pylaiella littoralis U1_48)
CTACAGCAGTAGCCAAGCAGCAAACACCACCAGCAGCTAGCTGCGGTTCA
TCGTTGCTGAATCGACGGAGAAGAAGTGGTGAGTTAAGTTCGCTGATTTC
GACCTCCATCACTCCCGTTTGTTGTCGTGTATTTTGTGCTGCCTGTTGTG
GGCACAGCAGCTACTTGGAGAGCACTGCCGTTGTTTTTTTTGTTCCAAGA
CGTTCACTTTGTTGCTCCTTCTTTCGTATTGCGCACATTATGTATCACAT
GCTGTCGTCATCCCTTCATGATAAGCACACCCCACGTCCCGAGCCCACTC
TCTCATCAAGGGTAGGGTGCGCAGCGGGATGTATGTTGGCCACAGGGAGG
AGAAGTACTCTGGCATAGTACTCTAGCAGTACAGAAGTACTCTGGCATTG
GCACCCATTTCTAGAAGATATCCATCACAGATTGGCTACAGCAGGATTGC
GATCATTACTTGTATCATGTTGACATGTGGGTGTTGTTTCCGGGTCTGCA
GCCTAAAGTATACGTCAATCGCCCCGATGGTCCAGCTGGTTACCCACGTA
GCTTTCTGACATTCACGCGTGAGTTCGAATCCCAGTGCAGCAGTGACACG
ATCGGGGGATTTTTCTCACATGGCGCGTGGGAGTGGAAAGCGATCGATTG
GTGAGTAAACAAAAATTCGACCGTACTATCGACGAGGGAAAGGGATTGCT
CTCCCCTTTCTCGCGATAAAAGCTCAACCAACAATGCAAGCACCTCAGAG
GGTAGTGGAGAAAAAAAAAAAAACTCCCGTGTTGATCCCAGTTGGAGCGT
CTACCTACCCGAAAGGTGTAGCGTGGCGTCCAATTAAAGGGATGACAACA
CACACACACACACACACAACAGTCTCCGGAAAGAAATCCGCCGTTTGTCT
TGTGTGACGTGCTCATAAAAGAGCCCGGCCAAAAAAAAACGAAATATTTG
TAGCGAAAACGAAAGCGAAAGAAGTGTGTTTTCGTTTCAACGTCCTCCGG
GAAGGCGTTCCTTCGATTTCGATTTCGCAACAATAAAGTATTTCGGACCT
TTTTTTTTTTGCGAAAACGAAACGAAATGCATGGAGTTTGGTAACTTGGG
AGGCTTGCCCACGAGCCTCCCGGGCAGCGAACTCCTTCACACAGACTGCG
ACTGCGGTGCACGGCGGTGCAACAGGCACCAAGCGAACAGAGCGAGGCCC
AATCCACACACACTACTGTACAGCAGCGCAGCAGACAGCCCCAAGCCGTC
ACACCCGCCAGTGCAACAGACAGCACACGGCCGTCTACGATACACACGCT
GACACGATGCATTCCACCGCCTTATTCGAAATTGGGTCCCGCGCGCACTG
GGTTACATCATTTTTGGCGTTATCTCCTTTATTCCGCTGCTCCAGCTCCT
GGCAGCAGAAACGCGATAATACCGAAATGTAGCTTTTTTTTTTTCCTGAA
GAACGAAGTTATTTCGTTTTTGTTTCCGCCATTTCGTTTTTTTTGGCCTT
CCGTTAATCCCCGCTCTAACCTCCCGCCGTGCTCACGGGTTCCGATCATT
CCCTTCTTGTGGATTTTGGACTTGTTCTCCACAGCAACAATCTATTTTAC
GAAGTACTTCGTACTTTTTGTCATATGGTATGATTTTACTTACACAAAGC
AGTGAAGACAACTCTCATTTAAAACGCTGAATATTACAGCTAGTACATAC
CTCATAAAACAAGAGGAAATAAAAGCCGTTCATATACGTACCGTATTCTA
CACAAGATACCACACCCCGTGTTAAGCTTTTTGCATTCCGTATAGCTCCA
CAACCAGGAGGGTGCCACTGCCGAAAAGGGTGGTTTTGGAAAGATCTCGT
CGAGAGCTTTCGTATGACGGGCTGTTTGGTGTTCGCACCCTCCTGGTTGT
GGAGCAATACGGAATGCAAAAAACCTAACACGGGGTGTGGCATTTTGTGT
AGAATACGGTACAACAGCAGTACCGGTGGGTACAGTAGAACTTCGTACTT
CGAAAGTCTGCCGTTATGACCACGTGCAAACGAAGGAGTATTGTACGTGT
ACAACGGGATGATCCGTTACACGGCAGCGGTGGGGTGTCTTCGTTTTTTT
TTAGACATAATCTCCGTGTATCAGAGTAGGTGAGCAACGGAGCACGACAA
AGAAGTCCACTTTTCGTACAGCAGTACGAATATAATACTCGTTGCATGAT
CTTCGTGTTTCTCCAAGGGTACAGTAAAATGGACACCCCGGTATTGGTTG
ACTTATGTTGAAAAACAGGGGAAGAAGCATCCGACAACCCACACAACTTA
CACCAGTAGGAAGTCTTTGCGAAAGAAAAAAGCCGTTGATTATCGCATAC
CACCCGGCGGCCAGGGTTTCTCGTTATGTGCAAATCACGTGTCCCCCTCC
AACCCCCTTCCCTGCGAGCAATTTTAATTTATCACGTTTCACAATCAAGT
CAAAACAGCTTGTTCGGGTTAGGCCACGTTGAGTTCTGTTGTAGAAGGAG
TCCGGACCAAATAGGCGATTTTCAACAGAGGACACTCTGCAGCAGCGACT
TGTTCGTTGGCACGTTCAGATCTGCTGTTGGGGCTGAGATATCGAAGGCC
GCGGCAGTGTGCTCCGGAGGTCCGCAAGCTGGGCCGTCACCAAATACACT
TCCACTGCTGTACTCGCCGCCACAGCCCCCCTTTAACTGCGGGTATGTCA
TACAGCACTAGCTCACACCACCAGCTGCCTCGGATGACCCGAAGTTCACA
AGAATAGTGCCCACGTCGGTGAGTTCAGCCGCATCCAAAAGTTTGGTGTC
GGTCCACTGCGGAGTTCTAGTTTTTGAGCTACCGCTGTAGACCCCCCATG
CCTCCTCTCCAGCAGCAGATCTGAGTATGCTCGCATGCGCGTCGCCTCTT
CATGGTGTCCTCTACCGAATCCGCCTCCTATGTCGGAACTCCTACGGCCG
GAAAGTGTTTTTTTGTGTTTCAGGTCTTTATTTTATTGGGTTTGGTGAGA
AAAATGTAGCCGCCCTTATCCCTCCACCCTGAGTTCACCTGATGAAGCAC
CGCTGCAGCCCCCCCCCCAGAGGCGATCAGGCTCAACAGGACAAATCGGG
GGTGGCCTTGTGTATCACACGATACAGCATGTGGTGAGTTATGTACTGGA
GTGCACTATCTTTTTCTGTCAGCATGTTTTTCTTAGGAGGAAGACTGCTG
TCAACGGTGGACAGCAGCGAAAGTAGCGAGTCGTGATGGTCCAACCAAAA
CGCGGTTTTTAGTTTTTTTTCACATTTTTCGTGCTGAATCAATCATCGAC
TGTCCGTCTTTCGAACCGTATCTGGTCACATGTTATTCTCCTTACCATCC
ATCAATGTGCCAATTATAAATTCCTTTTCTTTTTCCGGGGCCACTTCGAG
AGTGCCTCGTGACCCCGACGAAATATATCTAGAGTTTGTCCGATTCTGAG
CTCTAAACATTTGTTGAAAGCAACGGATAATTGAAAAATATTTGGCTAGT
TACCGTAAGTTGTTTAATGCGATCGCCAAGCGAGGCTGTCGGCACACAAT
ATACTGGCAGGTGCCAACAAAGCTTGAACAAGCACACCTCCTGGTTGCCT
AAAATATACCTAAAGCCAGCGCAATTCTTCTTGCTCTGGAGCCCCGAACT
TGGCCCCCTAGCTCGTTGTCGCAACACTGCTATCTGCTCGATTCTGCCGC
CGATATGCGAACCCCCCCTGGTTGCCTTCAAAAGATACCGCTGCTGTACA
GCAGTCAGGGCAATATGTGCTACCTTCGATGCCCCGAGCGCAACACCTGG
GGCTTGTCGTGCGCCGCTCTACGAACTGCTGCCGTTGCACTGCTGCCGTT
CCGTAAAGGGGGATCGCCACCTGAAGAATCTCTGCGAGAACAGTGTTGAA
TCACCCTCTTGGGTGTTGCGCTGACTAATCGAGCTTTGGAAATAGAAATT
CGGTCGTCGAAGGGGCCCCGTGGTATGTTGTGCGGCCCCGTGCTACACGA
TATACGGTGGTGTTGATCTTAGAATCGCACCGGTGCCTGAGCTGTAACGT
TTCGTCCCATGGTATGATATGCATGTTGTGCGGCCCGATGATTCACGGTG
GTTTTGATTCCATCTTCACACCGGCGCCCGAGCTGCAATTATTTTTATTA
TTTTTGTTCATCATTTACATGTTATTTATGTTATTTATATTATTATTATT
ATTTTCATCAGGACGACCCCTTAATATTTTTAAATGTTTTCGTACTGTCC
GCGGAATGTATGCCAGTATTTCTGGAATCGCCGAGACTGCTGTCACTCAC
CGGCCCAGCGTTCGACGTCCTCTTTTGCAGCCTTGGCGTTGGTCCGACCA
AACTACTGTATGTGCCGACAAGTTTGGGTCTCGGGGCGGGCGAGATCATT
TTTTGGCGGGTCGACCTTAGGCGCATGCGCGCGCCCGCTCCCCCGCACTC
TTTCCTCTCTCCCGCCCATTCAGGCTTCTTTCATACGAAGTATGCGGCAG
TGTGACGAGATATTTGACGCTTCTACATTCGAGTGCGTGTGGCATGAGAT
GTAGAAGCGCTCATGTGCGTGGGAGGCAGCAGCCCACCCGCCAGCCTCCC
AACAGTAGTAGCAGCCACTTTTACTTTATCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTTGATCCCACGACAACACGACA
ATGCAACCGCCGTTTGTTGTTGCCTGGTCTCTCGCTGCGCGTCCCGTAGG
CAGGCACGATCCATCTTACCCCGACGAAGCCCGCCTTTCGTCGTAAAACA
GCCTACGATACCTACCTTTTCTTCGTGCACACACAGCATCAGCAGCCTCT
GCTGCTGCTGCTGCCGTACCCGGAGCTCGCCACCGCCACCGCCATCGCGA
TTCGATTCGGGTGGGAGGTGGGAAGGTCGACGGGACGGGAAGAAAACGGT
ATCGGCGGTCGAGGTACTGCTGCTGTACCGTAACCCCCCCCCTCCACCAT
CCCCCTGCTCAAGCATGGCGAGGATGTACACGCCAACGACGACGGGGACA
CCCCTCGAGCGCCTCGTGGGCGCGCTCGCCATGTCCACGTTCACCGCCTG
CTACTTCTACGCGGTTCTCTGGCTTCCGGCGGTGCGTGCTTAAGTGCGTG
TACGCGCGCTGTCAGCGTTTTTTGCACTGTGTGTTGTACAACACGGCATG
CCTGTTTTCTACCAGTATGTGACAGGTGGGTTCTGGCGGAGTATCTTTGT
CTTCTTGCAGCATAATTGTGTTTCCAATACTCCCCCCGACCCCCGACCCC
CCCCCCCCCAAAAAAAAGAGTGGAAAAGTGCTCGAAAGTTGTTGGTGAAA
AGCTACTCTATTACGAAGTAGACGGCGCGGATTGTTCTTGCTCCGTGGCG
AAAGGGATGCTGCGTGTTCAAGAACAAGAACCGCTGGCTGCTTCACCTAT
AATCATATCGCTGTTGTATGATAAACAAGAAATGAGCACGGTGACACCCC
CCCCCCCCCTCCATCCACACGCACGCCTCTTTACAAATCCCATTTCTGTC
AGGTGGGCGTGCTGTATTTCCTCGTCTCTAGGACCGCGGCCGCCGTGGCC
TTCTTTCCGTACGCCGTGTCCGTTGTGCTCCCGAAGAAGGGCTGCCCGTG
GCTGCTCAGCACGTGGTTTTTTCGCTGCGCACTCAAGTACCATGACTTCG
AAGAGGTACTTGTACGATTCGCATGATACGGGCCAGGATAAAAAAGGGCA
CAAAAGTTCGGGGGGCTTGTGTTGGACGAGCAGGACGATGACTCATGCTG
TGTGTGCTTTTTTGTACTCTTGTATGCTTGTGTTGTTTTTTTTTAGTTTG
ACGATCGAAGAAATAGAAGGCCGTGGTGTAGAAAAATAGTGCTCGAGGAC
TCCGGAGAGGTGAGTGCGGGTTGTGAGGACTGTGGAGAGACTGAGGAGAG
AAAAGTTGAGTGTAGAACATCATATCATCATATGTATCACGACTAGAGGA
ATGAAGACAAGAAAAGGCTGGTGAAGGATATTGCCATCAACTACGGCAAG
AAAATGCTGGTGGAGAATATGACCCCATCACTTTGGGGAAGCCATAATCA
TGATATACAACACTGTTGGGGAGCCTATTGCCATCAACCAAGGCAAGAAA
AAGCTGGTGGAGAATATGACCCCATCACTTTGGGGGAGCCATAATCATGA
TATATAACACTGCTGGGGAGCCTATTGCCATCAACCAAGGCAAGAAAAAG
CTGGTGGAGAATATGACCCATCACTTTGGGGGAGCCATAATCATGATATA
TAACACTGCTGGGGAGCCTAGGCAAACAAACGCGGTGCAGAGTATTACCG
TGACTGCTGCTGTAGGGGAACCAAGGACAAGGGGAACCAAGGGGGACCAA
GGGGAACCAAGGGGAACCAAGGGGAACCAAGGGGAATCAAGGGGAACCAA
GGGGAACCAAGGGGAACCAAGGGGAACCAAGGGGAACCAAGGGGAACCAA
GGGGAACCAAGGGGGACCAAGGGAAACCAAGGGGAACCAAGGGGGACCAA
GGGGAACCAAGGGGAACCAAGGGGAACCAAGAGGAACCAAGGGGAACCAA
GGGGAACTAAGGCAAGAAAAGGTTGGCGCAGAAAAGTATCACGGCATGTT
CGAACAGGCGGGTATGGGGAGAGGTGACGGCAAGAATGACGGGGCGCCGT
TGAAAGAGAAGCCTGATTGCTCGGTTGTAACAATAGTAGTAGCAAAATAC
CGTCACAAAATGAACACCAAAAATAAGAATCAAGAATAAAATGACCCAAC
TATGATACGAAGCATGATAAAAACTTCGTAATAAAAAGCACAAAAATAAT
GGTAAAAAGCCACACGGCACGGTGTGATACCGATATCATACTTGCACGAT
CCGATCGCTCAACTGTCATCAGACGGTTGTGCCACAAAGTTAAAGTTCGT
ATATGCGTGTTGCGTACGGTACGGCGGTACGTGTTGAAACTCTTCTCCTG
ACGGATATGATACCCCATTACGTTACCCCCCCTCTTCTGATGTGATGGAT
GTATGACTGGGTGGGTGGGTGGGTGAATGATGGCTCCACAGGTGCGCGAG
ATGCCCTTCGAGGAAATCGCCCTCATCGAGAAGGACAAGCGCGTCATTTT
CGCCGCGCAGCCTCACGGCGTCGTCTCGGTCGCGGGCATCTGCAGCGCCA
TCAACCAGGTGAGTCGACCCCCGGCTCCGCTCCAGAGGACGGACGCTCCT
GGGTTCGTTTCAGGAATGACGCGTCCGGGGCGCGCGTGGAAGTGTCGTTG
TTATGTCAGTTGGTGATGAGCACTACTGTACGTACAAAGGTGCACTCCCT
CTGACCGGGAATATGGAAGCCCGGTTCGTACACAACGCAAGATAGGGATG
ACAATGCCGCGAGTACGTTCCTCGCTCAGGGATCCCTTCTTTTTTTTTTC
GTATAAGGCGGTTTCTTATGAGATTGAAAATGCCGATCGATTTTGCCCTA
CTTTCGATCGAGAGCCAAAATCCATGTCTTACGGAGACGAAAATGGCCCA
TTTTCGATCTGAGATTTCCGACGAGACATTTTCGATCAGAATCCTGTCGG
AAATCTGACATATTTTCGACGCGGTCAACCGATCGGTTTTTGCGATCGGA
AATCTTGTGCTTGGGTCTTCTCTCTTTATGTGGTATGATAAAGTCATGTG
GTGGGCGATCATCAGCACACACACAACACACACACGCACACAAACACATA
TTTGCAAATACCAAGCACGCCGAGCCACCAACCAAAGCAAGGAGAGTAAC
AACAGCAGAGGAGGAGAGGTACTGCTGCTGCTGCTGCTACTACTTGGCTG
CTGTTCATGTAGCACTACTTGCCGGGTGTCACAGGTGTCACTTGCTGGTC
CTTTTCCCCTGGCACCGGTTTGCTTTTTCACCCACCACTATACTACTACT
ACCTCGAACAAATGCAGCGACAGCTAGCTTGGACACGGGAATCTGCTGAG
CTTTGTGCATGATCCCTCTCATGTGATGATTGTTTGGGCCCACGAGGCAT
CGGTAGGCTCGCAGACAAGTCCGCTCGTAGTGACAATCACGTGGTGTTGG
AAACGACCAGACAGAGAAAAGAGGAAGAAAACGCTGTTCTGTTGTTTGTA
CTGCTGTACAGCAGCACTGACTGACCGGCAGGGCTTTCTGGAACTTTTCC
ACATCTGGTTTTAGACAATCAAACTTTTTTTTGTGGACGTACCGATGTAA
CCCTAACCGAATTGATCACCAGACGACAGGGACCATGCACACAGCTCACG
GCAGATGCCTTCGGCATTGCTGTGGCTGCATCCGTTCGGGAGTGGTGGAT
GAAAAAGCAAACCGGTGTCAGAGGCGGAAAATACCTCCTCGGCCGCGCGG
AGCAACGGCAACTGTTCCTTGTACTTTTTTCGCGAATTTTTGACGCATGG
GACATCAACAAATCAACCTTGTTGCGAGCCGAGCCGACCCTCCAGGGCTT
GAACGATCACCACATGATGAGAAGAACCATAGACACAGCTCACGGGAGAG
GGCTTTGAGATTGCTGTGGCCTCGTTCATTCGAGAATTACCAGCTAGAGT
GTAAACTGGTCTCGCAGGAGAAAAAACACCCTTCGCTGCTGCTGTACTGC
TGCTGCTGTACTGCTGCTGCTTGCTGGCAGTCCTAAAAAAAATTGTCGGA
AAAATCGATCACCGTATAAAAAGAGAGAATCGAACATCTTCAGCAGAAAA
ATGCTCGATCGAACATCGGGCAAAATCGATCGGCATTTTCAACCTTACAA
GAAACCGCCTACTGCTGTACGGTAAGCACTCTTGTTTTCGGGGAGGCAAA
AAAAAAATTCCGTTTGTTTTTTACTCCTCCGAGCTGTCTTTTTTTCTGTC
ACCCTAGGTAAGAAAGACTTTTGACACGGTCAACACCTGAGTAAATAAAA
GGCAATCGAAAAGGTGAGTCTAGAGGCAGCTCCCAAAACCAAAACCAAAA
AAAAAAATTAAAACGTTTTTTCTCGCGCGTGCGAAAAAAAAGAACGACAC
CGCTCTTTTCCCCCTCTTTTCCTTGTTGTCGATTTTCTCGGGAGATCAAC
GTCGGCGCCATTGATTTTCCTAAGGGTGTGTAAGGAATGAACCCCAAACC
AAAAATCCCATCTTTCTTTTTTTTTTTCCATGCCACCGATCGTGTCGAAA
CACTTCGCTAAAAAGTACCAGGTACTTGTTATAAGCGAAATATTCAACCA
CCTAAACCGCGTACCGGGCTTTTTTTTTCCGGATCTCCGAACCGGGCTTG
TGTGGGAATATCATAGATTACCGGTTATTTCATCTTCTGCGGCACACCTT
GGTTATGGTGGGACGGGAAATTTCCCGCGAAAGCGGGGAGCTTCCTTGCA
AAGGCTGTCCTGAAAACGGGAACGACTGCTGTGCTGTCTGTACGCATGTG
CTAAAAAAAAAAATACTGAAGTATATTTACGGAGTATATTCATATATATC
GGAGTGAGAGAAACCGTGTGACCGCGGTATAAGGAGCGGGGCTCCCCTCT
GCTTCTAGAAAGGGGTCCAAGAGTGGTCAACAATGATCTGACGACTTGAG
ATTTTTGCCAGGAACGAGCTCCCCTCAAGAAACTATAATGCTTGTTGTGG
AGACATGCAGTACACGACGAGCGCCCCAAGTCTTGGTGTCGTGGAGCCTC
TGTTAGGTGCGCGTTTCGAAAAGGGAGTGCATCAACGATGCTCCTACTCT
GTAATACTTGAAAAGATTTCTGCCACTAATAAGTATCTACCCCCCTCAAC
AAATTATGTGAGAGAAATCGCAAGAAATCGACGAGTGCCCAAGCGTTGGT
GGGGTAGTGGTGACACTGTTCGAAAGCGGAACGGTGCTCTGTTGTCGGTA
AGGTTTAGAGTGGTCATCAACGGCCAAGCAACCACAGGTGAGTAATGTAC
GGACCCAACCCGCGCTCCCACGCGCGGACTCATTCCAACCCTCACCCCCT
CCACCCCCCCCTCCCAAGGCCAACATGCATTCAAGAAGTCCTCAGAGGAG
AGGCGGAGGAATTATAAGTTGGCAATTTCTGTCCTCTATCCCACGTGTTT
ACTTAATCAACAGCTGCGCACTGTATATGATAATAGTCTGCTGCATTTTT
AACGATTTTTTTTTTTTTGCTTGCTTGTTCGCGTCATGCACCGTCCGCGG
CCTGCAGGCGCCGCTGGCGACCCCCCCCACGGGCGCCGCGAACGTGATCC
AGCGGATACCGATCATGAAGCACGTGTTCGGCCTGTTCGGGCTGGTCGGA
GCGTCCAGCCAAAGCCTGACCTCTGCTCTCCGCAGGACGAGCGTCGTGCT
CTACGTGGGGGGCATAGCGGTGAGTGTTCTGACTCCGTCGTCGTCGGTGC
CGGCCCGCCACATGGCGGGCAAAAAAATCGTCACAGAAGTTCGAGCTCTG
CTGTGAGTCGTGCGTGTGTGTGTATGTGTGTTTGTTTGGTACTGAAGGAC
CTGCTTCTGCCGCTGTGGGAGCTGCGTTTGTTTGTATTGTTGGATGTCTC
ACTTCGTGTGTGTGCTGTTGTCTGTTCTTGTTTTTGGTCCCGAGGCTATC
AGAGAGAACCCGAACGCTAAAACTTTGCAGACCTGCGTCTGTGTATGATA
TGATAACACAAGATTCGTTCGAAAAATCCCGGCCAAGGTTTCGCTGGACA
AATATCAATACGAAGACCCCGACGTCAAAGTCGAGCGGCGCCATACTGGA
ACCCTGTAGTACCGAGTACGTCCGGAAGGTTTGGACACTTTTGGAAACTG
TTACCATATGTGTTTGTCCGCCTGAATACCAAACGATATCATACGTTTCG
ACAAACACACGTATAAACCTCGGCCAACGTCGAACGAACACACCAACCTC
AGCCAACCTCAGCCATATATCAAGACACATCGCACGCAAAGGGCAGGCAA
CCCGCGATGTGTCTCAGCCAATACCGAACAATATACGCTTTGAAGAATTT
TAGAGAAGATACTTCTACGCTAGCGCCGCAATTGTCGGCACCGACCCTCC
TCTTGCGGTGGAGTAACGAAGTGGAAGCTTTCATAGTCACTCCAGGGGGG
TGTGGTATCTAGCGTCACCTACGGTAGTTGTCTCCAGGTGCAACGAACGT
TTGTATCCGTTCCTCCTCGAAAAACAAAACCACGCGAGAGCTGTTCCTGT
GGTGCTTGTCTCCGGATGCGAAGAACGTTTTGTATCCGTTCCCTCTCGTG
GAATAAAAAATAAAACCACGCAGGAGCTGTTCCTTGTGGTATTTGTCTCC
GGATGCAACGAACATTTGTGTCCATCCGGTCCAACCCGAAAAATGAAAAA
CGGAACCACGCAGGAGCTGTTCCTGTCCACCCCCGCGGAGGAGCGACTGT
TCGTGGGAAAACGAAAGGGCTTCATCAAGCTGGCCATGAAAACGGGCAGC
GAGGTCGTCCCCTGCTATTACTTCGGGAACACCACCTGTCTAGAGGTACT
TATTTTGTCAAAGATTTGAAGTCTATGATAGCTGCCCCAGAGGATGGCGG
ACCATGTGTTTGGTTTGAGGTTGGAAACCCCAGGTGCTCGAGAGGATGGC
GGACTGCCCCCCCACCCCCCCCCTGCTCTGCGGCCTAATGTACGCCGAAT
TTAGTCACAACAGAACCTGAATTATTTCCATGTTCCTGGAAAATTCTCGT
CTTATCTCGGCAATGCCCTCCCTTTTGACCCTTGCTGTTGTTGTTGTTGC
TGTTGTTGTTGTTGTTGTTGTTGTCGTCGTCGCTGCTGCTGGTGGTGTTG
TTGTTGGTGGTGGTGGTGGTGGTGGTGGTGGTAGTGGTGGTGGTGGTTCT
CACATCTGCTCATCACCAAGATGTAGCCCGTGGTCACAAAAGTGATTACT
CTTTACGTTGGAAGGTCCGAAAAATCACACAGGAGGTAAAAGAGGAAGAG
CGCACACTGGCGAAGGGCACGCCCTCTCGAGATGGTGCGCAGTAAAGCAT
GTCGCCGCGGTTCCCGCCCGTCAAAGACACGCTTTGCTGCTCGCGTGTTT
TGCTTGCTCGCTCGCCCACACGCTGCTGTAGCTCTCTCGTGTTCGTTTTG
TTGCTTCTGTGTTTGTCTTGACATCTGATTTGAGTTGCCCTCCAACGTGT
ACGGCGCGTGCGCGTGTACGACCTCCCTTTGCCGCCTCCGCCCGTCGCGG
CGCCAGATCATCCGGCACCCGCTTTTGACCAAGGTGAGCCGCAAGCTTGG
GGCCAGCATCACCATCCTCTGGGGGCGGTGGGGCCTGCCCATCCCAATGC
CTGCAAAGGTGAGCACACACGCCGCGCGCACGCAGACACACAAGGCATAC
CATACACACGTATGATCCACGAAGCACCCACACGCACGCACGCCTATGTT
TATATTCGACAAGCACACACACGTGTTTTCACTTTCGACACACACGTTTG
GCACATCCGGTCGCGCGTACAAGAGTAGAGACACGGACATCTTTTCCCGC
GCTCCTCGGGTTCGATTTTGAACCGCATTTCGTTGCAGGAACCCATCAAC
ATCAATCGCCAGCACAAACGTTTGCACACACGCCAGCACACGCATGTGCG
ACACATCGGCTCGCGTTCAAACTCTGTGCCTCCCGTTTTTGGCGGCGCTT
TTTTTTTTTACTTTGTATTTTACGTGAGAGCTTGTGCCGCGCCCTCGCCC
CCAAGGCTTTGTCTCTGAAACCTCTGAGTAGAGTGCCATAACTTCGATTC
GGGGCGGCATCAGAAAAGTTCCCCCTTCCCCCCCCGGGTCCCGATTCTCG
TTTCGGGGTCTTACACTCACTTGCCTCCCGCTTTTTCAGGGATTTTCAAA
GCCAATATGTCATCAACAGTATTTTCAGATGGCGACAACGTGCCGAATGA
ACTTGGGCACGGTTTTTCGTCATCCTCTGCGGCGGCTTGGGTTTGCTTCT
TTGTTTGCCGGTCAGCGAAGAAGTCGGATCGAGTACGCAGAACGCACGAA
TCGATGTGCCTGCCGCGGTGTTCTCAAGAGGGCGGTGGCGAGGGCGTAGT
CGGAGATCACGCGCACCAACCCGTCGTCGACTACGATGAAGCAGCGGACA
TCACAGTCCCGCTCCTTTCCTTCTCCCCTCCCTTTGCCCATCTCCCATCC
CCTCCCCTCTCTCTGTTTCTCTCTCCCCTGGCCTGCCCAATATATTTTCA
TTCTCTTTCCTCTCGCCTATCCTGTGTCCTCCCCTCCCTTCCGCCTTTCC
CCCCCCTCATTTTCCGCTTTCTTCGTGTGTTTTTCTTAACATCGTTACGT
CGTTTTGTGTGTGCGAAGACAATGTGCGTAACCGGCAAGCCACTCGGAAT
ACCGAAAAAGGAGTTCCCTTCGGACGAGGATGTGGACAAGTGAGTGAGAA
TAAACGCCTCAGATTGGAAAACCCTCAAGAGCGTACACGAACAAGTTATT
TTGCAGATTTGCCTTGTTTGAAAGCTTGCCTATTTGATGTTTAGAACGTG
CTTTGCAAAAAGCCTTGACTTCATCAAATCTTAAGCAAGGAAACGCCCCA
GAAGCCCCTTCAGATACGCAGGAGTAGCCAGATCGTTGTATACGAAGCAC
AATCTAAAGTTCGTGTGACCAAAACGCCTCAGGAACCCGTAGGAAATTGG
TTGAATCGTAGTGCATGGCAGCGGTGCGAAGTCAGTATTGTCACATGCCG
CAGAAAAAGATCAACCCTGATTCTCTCCGTAAAGAAAAGCCTCATAAAGT
TGAAAATCCTCTACATGTGCCCGAATTAGTTTTTTTTACCACGCTCGTTT
TACATGGAAGCATGCCTCGTCCCATGTGAGCGTGTATGCACCGGGGAGGT
TCTAGATACCGGGCATATTTATTGTAAAGGATCATCGCCGGTATCTAGGA
TAGGGAACCGTCGGCTCGTAGACAATTCAAGCAAAGCACAAAGTACTATG
ATTAGCATACAAAGTACCAAGTGTCGTAGGATTTCGCTTTGACAAGGCGC
TGAGGCGCGCCGACAGGTAAAAAATCCGCCCCTTGCAAGCACGTTTTTTT
GTTCCTCTCCTGCGTATCAAACACAAAATGTCAAACGGAAGATTCTCGCC
CCGACTGAATTTCCAAGCGTTCTTGTTCCTGTTTGCATTTAGTTTCCCTC
AACGAACTACATACCGGTAGGTCCTCGAAATATGCTCGCTCCAAGCTGCC
GTCCGTTTCTTTGTGTGTGACAGGCGCTTTGTTCTGAATCACGCCGTGAG
TTTGTTTTCTGAAAGTGCTGAAAAAGAAGCACGACGAAAGTTTGACCCTT
ATTTTATGCCCGCCAACACAACAGGAATGTTGAAGAGAGCTTAATTATAG
AAATCTTGAAGACAGCTGACATCACCGTTCCTTCGCGTGTGACAGGCCCT
TGTTTGTAAATGTATGTGTGCGTGTGTTTTATTTTCGAGAGTTCACGCGA
CGGAATGTGAATGTGAGCTGACTGCTTGCTGTCTTCGACTGGACCATAGT
TTCCGTATTTCATGCGAACAACCTCCAGCTTGCAACGGGTTGTGATACCC
CGCTTCTTGGAACGGACCTGGTGCAAGCCAAGCCACGGCGGACGTTTTCG
TTGTGGCCACTCATCGACCAGCGTCTGGGGTAGATGAGATTACGACGTAC
ACACACACGAACGCACACGCATACGAACACGCACACGAACACGCACACGA
ACACGCACACTCATCTACTTCGTATTTATTTAACGAAGCTCCCTAACACT
CACTAACACTCACTTGTAGTGTTAATGAGGCGCATCGTGTGCATCTGTCG
GGGGGTTCCGAGGTCGGATATACGGGTTCCATCCGTTCAGCAGGCACCGC
GCCAAAGCTCTGTACCCGCCAGTTTCTTGCAATAATACGCCGAGAAGCAA
CACTTGACCGTAATATACTTGCGTGATGTCGATGTTTTTTGTAGTCGGCA
ACTCCTGTTGTGTCACCTTCCTTTTACGTGCGTGACCCGGTTGATGCGCC
CGCACATATCGAATGGTGAAGATCGGCGTCCGCACCACACACACACACAC
ACTAACCCCGGTTCGATTCCCGGTGAATGTGTTCCTTTGCTACTTTGAAA
GCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGACGAGGGTAGG
GACCGCGGACCCCTGCTCGCGAGAAAAAATCTCACGCATGTACCGCAGAA
GGAAGGTGGGGGTAACTACTCCTGTGTTGACCTTCCTCCTGTGTGACCCC
GTCGATGGGCCTAGCCTGTAGTTTGCAGACTAGTGTGCCAGAGAATATGG
GATGACAACACACAACTTTGTGTATTGCCTTGTTGATGTTTGTTGTTGCT
GTTGTTGCTGTTGTTGCTGCTGCTGCTGTTTTTGTTGTGATCAGGTACCA
CGCGATCTACATCCAAGAGGTGAAGCGGCTCTTCGACACGTACAAGAAAC
GCCTCCCAGACTACAAGGACAAGGAACTTATCATCGAAACTTAAACTGAT
TGGAGTACGTTTGTTTTGTTTTGTGCTCCATTAAGCGGTCAGTTGCAGGC
AGCCCTCTCGCACAAAAAAAAATCTCTACGGTAAAAAAGAATCGACACCA
AAATTTTGAAAGCCCGAAGTTTTTTCTCAAAATCATGAAAATGGTACATC
TAAGAAACCTAAATTGCCACGCGCGCTTTGCAAGTCCTATATGGTACAGT
AGGTGATGACCAATCTCCGCAGCACGCGAAAGAGTGAGGCTTGGGCAAGT
TCGTTTTTCTTGTGAGAGGACCGGTACGGCGGTTTACAATTTGTGCTGTT
TGAAACAGTTTTTTTGGGGGGGAGAGGTGTCGTTTTTGTGTAACATGAGC
TTAGCAAAAAAATCGGGTGCTTTATATGACACGAGACATGACATGATATT
ATGTAAGTACTGCTGTAGTTCGGTGGTGTCGTTGGTGTTGGCCGTCTGTG
TCGCCCCAACTGTCGTGAATTAGATTGTCCATCTCCTCTTCTCGCCTCTT
CTCTCTTTTGTCATCCGCTCTGCCATATGCTTTGGGGTGCATGCCTGTTG
AGGCGGATTTCAACTCCACCTCTCGACAACACTTTCGGGTTGTCTCTGTC
CGTCCATTGTGATCTCAACGTCCAACCTATTATGGAAAAAATGGTTCTGA
TACGGAATACGTGTGTACTGAGTGTCACGGTCTCAACAACACCAATAAAA
AGCTCTGTGAAA

Coding sequence (CDS) from alignment at P-littoralis_Contig644:101505..117716-

>mRNA_P-littoralis_Contig644.31.3 ID=mRNA_P-littoralis_Contig644.31.3|Name=mRNA_P-littoralis_Contig644.31.3|organism=Pylaiella littoralis U1_48|type=CDS|length=954bp|location=Sequence derived from alignment at P-littoralis_Contig644:101505..117716- (Pylaiella littoralis U1_48)
ATGGCGAGGATGTACACGCCAACGACGACGGGGACACCCCTCGAGCGCCT
CGTGGGCGCGCTCGCCATGTCCACGTTCACCGCCTGCTACTTCTACGCGG
TTCTCTGGCTTCCGGCGGTGGGCGTGCTGTATTTCCTCGTCTCTAGGACC
GCGGCCGCCGTGGCCTTCTTTCCGTACGCCGTGTCCGTTGTGCTCCCGAA
GAAGGGCTGCCCGTGGCTGCTCAGCACGTGGTTTTTTCGCTGCGCACTCA
AGTACCATGACTTCGAAGAGGTGCGCGAGATGCCCTTCGAGGAAATCGCC
CTCATCGAGAAGGACAAGCGCGTCATTTTCGCCGCGCAGCCTCACGGCGT
CGTCTCGGTCGCGGGCATCTGCAGCGCCATCAACCAGGCGCCGCTGGCGA
CCCCCCCCACGGGCGCCGCGAACGTGATCCAGCGGATACCGATCATGAAG
CACGTGTTCGGCCTGTTCGGGCTGGTCGGAGCGTCCAGCCAAAGCCTGAC
CTCTGCTCTCCGCAGGACGAGCGTCGTGCTCTACGTGGGGGGCATAGCGG
AGCTGTTCCTGTCCACCCCCGCGGAGGAGCGACTGTTCGTGGGAAAACGA
AAGGGCTTCATCAAGCTGGCCATGAAAACGGGCAGCGAGGTCGTCCCCTG
CTATTACTTCGGGAACACCACCTGTCTAGAGATCATCCGGCACCCGCTTT
TGACCAAGGTGAGCCGCAAGCTTGGGGCCAGCATCACCATCCTCTGGGGG
CGGTGGGGCCTGCCCATCCCAATGCCTGCAAAGACAATGTGCGTAACCGG
CAAGCCACTCGGAATACCGAAAAAGGAGTTCCCTTCGGACGAGGATGTGG
ACAAGTACCACGCGATCTACATCCAAGAGGTGAAGCGGCTCTTCGACACG
TACAAGAAACGCCTCCCAGACTACAAGGACAAGGAACTTATCATCGAAAC
TTAA