mRNA_P-littoralis_Contig88.49.4 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig88.49.4
Unique Name	mRNA_P-littoralis_Contig88.49.4
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: D8LP29_ECTSI (Glycosyltransferase, family GT49 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LP29_ECTSI)

HSP 1 Score: 456 bits (1174), Expect = 2.110e-151
Identity = 217/262 (82.82%), Postives = 241/262 (91.98%), Query Frame = 3

Query: 1134 MVISATAAHSPEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKERMENARNAIVFSAFSRRRFCEEEECIKYANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGS-KQGKGDKVMDKVFEIFMKELRLKYGSEENIMTSLCRDRSPK 1916
            MVISATAA SPEELDPVWYPVNRLRNVAV+AV+TSHFLM DID+WPDVNAY ALHMRYRLE ER+E+AR+AIVFSAFSRRRFCEEE+C++YANDVPETI+DLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLR+P+ R +E I+CFKSHRFEPYLVVRKT LLPKFDERFLGYGKNKIQWINHLRYSGFSF+VMPVNFVIHAPHPKS AK+SWEKTG  KQGKG+K+MD+ FE FM ELR + G EE+ +TSLC+   P+
Sbjct:    1 MVISATAAQSPEELDPVWYPVNRLRNVAVKAVKTSHFLMTDIDIWPDVNAYSALHMRYRLETERVEDARSAIVFSAFSRRRFCEEEDCLQYANDVPETIADLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRQPNQRTMEHILCFKSHRFEPYLVVRKTALLPKFDERFLGYGKNKIQWINHLRYSGFSFYVMPVNFVIHAPHPKSVAKTSWEKTGGGKQGKGNKLMDQTFETFMDELRAEKGPEEDTITSLCQKDRPR 262

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S4D647_HETAK (Hypothetical protein n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4D647_HETAK)

HSP 1 Score: 219 bits (557), Expect = 8.920e-59
Identity = 124/309 (40.13%), Postives = 172/309 (55.66%), Query Frame = 3

Query:  987 GQFDVTLVSQTSQSRFWMLPFLCERWPGPISIAILEEDREALPVELCRRMVISATAAHSPEELDPVW--YPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKER--MENARNAIVFSAFSRRRFCEEEE-CIKYANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKELRLKYGSEENIMTSLC 1898
            G  D TL +QT+  R W+L   C RW GP+   +      A  V+L R            E  +     YPVN+LRN+A+R V+TSHF++LDID  P    Y  L      E+ +  +E+A+NAIV  AF+ R  C  +E C K   +VP T  +L  CL T  C  FD  N +G  T     W+    K     L  I CFKS+R+EPY ++RK  +LP +DERF+GYGKNKIQ + HLRY+G++F V+  +FV+HAPHPKS ++ +WEK+  +     K MD +F  F+  L+       N++T LC
Sbjct:  167 GPIDFTLATQTTVDRAWLLGEWCRRWEGPLVAVVGGSRVNATAVDLLRAEEACGDRLTIVENYNAKGKQYPVNKLRNIAIRQVKTSHFILLDIDFMPSKGMYITLLKMASQEQSKTVLESAKNAIVVPAFTLRSECGSQEVCSKRLKEVPATSLELSKCLGTRKCWIFDYHNPAGHSTTDYNKWQ----KQEESSLREISCFKSNRYEPYFILRKHPVLPLYDERFVGYGKNKIQHVLHLRYAGYTFRVLGKHFVVHAPHPKSNSRRAWEKSNHR-----KNMDGLFAKFLHRLQ---EESNNVVTHLC 463

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S2UWU4_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UWU4_9STRA)

HSP 1 Score: 202 bits (515), Expect = 1.090e-53
Identity = 110/292 (37.67%), Postives = 166/292 (56.85%), Query Frame = 3

Query:  996 DVTLVSQTSQSRFWMLPFLCERWPGPISIAIL----EEDREALPVELCRRMVISATAAHSPEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKERMENARNAIVFSAFSRRRFCEEEE-CIKYANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKELR 1856
            D TL+SQ S  R +++   CERW GP+ + +          A+   +  +   +    H  +  +   YPVN LRN A+R VQTSHF + DID+ PD N Y  L     +  +  ++  NA+V  AF+ R+ C  ++ C + +  VP+ ++ LK C     C  FD  N  G G+     W           L  I CF+S+R+EPY+V++K+  LP FDERF+GYGKNKIQ + HLRYSG+ F+V+P +F+IH+PHPKS A+  W+ T  +Q      MD +F++F+K+++
Sbjct:  120 DFTLISQMSWDRSYVIERHCERWKGPMVMVVYIPTSSYPNAAIDDAVRAQCPHTKFLYHKAKREEQ--YPVNMLRNKAIREVQTSHFFLTDIDLLPDRNLYARLLALAEVHADMFKDPLNAMVVPAFTYRQECGSKQVCGQLSRQVPDDLTTLKNCFAMKRCNIFDHQNPRGHGSTGYKEWNYQ----EQTELREIPCFRSNRYEPYVVLKKSGGLPLFDERFVGYGKNKIQHVVHLRYSGYRFYVVPGSFIIHSPHPKSYARRKWQYTDKRQ-----QMDYLFKMFLKKVK 400

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S3K145_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A7S3K145_9STRA)

HSP 1 Score: 205 bits (522), Expect = 1.720e-52
Identity = 128/351 (36.47%), Postives = 179/351 (51.00%), Query Frame = 3

Query:  996 DVTLVSQTSQSRFWMLPFLCERWPGPISIAILEEDREALP--VELCRRMVISATAAHSPEEL--DPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRY---------------RLEKERMENARNAIVFSAFSR--RRFCEEE-------------ECIKYANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGS--------------KQGKGDKVMDKVFEIFMKELRLKYGS--EENIMTSLC 1898
            + TLV+Q +  R WML F+C RW GPI IA+  +  + +P   + C    +      + +E+  D   YPVNRLRN+A++ VQTSHFL+ DID+WPD   Y+ LH                  +  K  + +   AIV  AF+R  +  C                EC + A  +P +   LK C+    C  FD  NQ G GT     W   LR+ S + L  I CF S+R+EPY+V+ K+ LLP F+E+F GYGKNKIQ + HLRY+GF F V+P +F++H PH KS A+ +WE+  +               Q      MD+++  F+  L   YGS  E    T LC
Sbjct:  147 NFTLVTQATTERLWMLKFICRRWSGPIVIAVYSQQGKEIPNLEKFCPGGQVHYQIISAAKEIFSDATKYPVNRLRNLALKHVQTSHFLLHDIDLWPDSTLYKRLHALISDNTDXXXXXXASFLQSTKSLLLDPLRAIVIPAFAREVKTECSSSTGTQDSTASYRMRECYREAERMPTSFQRLKQCIIQKECHIFDRYNQDGHGTTDYRAW---LRQDSSQ-LRHIQCFLSNRYEPYVVLHKSPLLPAFEEKFTGYGKNKIQNLVHLRYAGFHFSVLPKSFLVHFPHHKSAARMAWEQKSTTNPXXXXXXXXXXXNQAAHRATMDRLYRRFLDTLIAVYGSPGERPETTKLC 493

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S4A3V8_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4A3V8_9STRA)

HSP 1 Score: 199 bits (507), Expect = 5.170e-52
Identity = 116/317 (36.59%), Postives = 166/317 (52.37%), Query Frame = 3

Query:  996 DVTLVSQTSQSRFWMLPFLCERWPGPISIAILEEDREALPVELCR------RMVISATAAHSPEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKER--MENARNAIVFSAFSR--RRFCEEEE--------------CIKYANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKV-MDKVFEIFMKELRLKYGS 1871
            D TLV+Q S  R WML  +C+RW GPI I++     E +  E  +        +I+    H     D   YPVN+LRN+A+  V+TSHFL  DID+WPD N    L     + +      + R AIV +AF+R  +  C                  C + A+ +P++   LK C+    C  FD  N  G GT     W         + L+P+ CF S+R+EPY+V+RK+ LLP ++ERF GYGKNKI+ I HLRY+G+ F V+  +F+ H PH KS A+  WE+T    G   +  MD ++  F+ +L   YG+
Sbjct:  142 DFTLVTQASAERLWMLDHICQRWHGPIVISVYAPITEKIQTERDKCYPNQVEYIITTVKLHIYS--DHSSYPVNKLRNMAISRVRTSHFLHADIDLWPDANLLPRLKRLSSMARHNHTFADPRQAIVIAAFAREVKTDCASSTAKAQRDKYRVDLKLCHREADQIPDSFETLKKCIMAKDCHIFDRYNHDGHGTTDYRSWLHGF--DGGKSLKPVSCFGSNRYEPYVVLRKSPLLPMYEERFTGYGKNKIEQIVHLRYAGWRFQVLGRSFLTHFPHHKSAARVEWEETQDADGNTHRDRMDHLYREFLAQLMYAYGA 454

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S0J5T3_9EUKA (Hypothetical protein n=1 Tax=Calcidiscus leptoporus TaxID=127549 RepID=A0A7S0J5T3_9EUKA)

HSP 1 Score: 193 bits (491), Expect = 5.040e-50
Identity = 121/315 (38.41%), Postives = 168/315 (53.33%), Query Frame = 3

Query:  996 DVTLVSQTSQSRFWMLPFLCERWPGPISIAILEEDREALPVELCRRMVISATAAHSPEELD---PVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAY-QALHMRYRLEKERMENARNAIVFSAFSRRRFCEEEECIKY------ANDVPETISDLKPCLETNT---CGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKELRLKYGSEENIMTSLCR 1901
            DVT VSQTS+ R WM+  L +RW G ISIA+     + + +   R   I      S  E+       YP+N LRNVA++AV+TSHFL+ DID+WP V++Y + L     L  E       A+V  AF       ++E  +       A ++PET   L+ C        C  F ++  +   T+Y  +WR+  R   +R    I CF S R+EPYLV+   +  P FDERFLGYGKNKIQWI HLR SGFSF V+P  FVIH PHP S ++ +W    SK+       D++F  F+++  L       + T +C+
Sbjct:  153 DVTFVSQTSEDRVWMVEHLVKRWGGAISIAVYVVTEKEIKLHRKRLAKIGRQPGSSIIEVRGRLSDGYPINALRNVALKAVRTSHFLLSDIDLWPSVDSYNEILAHGSALTAE----THTALVLPAFEFATSTPKDELSRIKVREAVAKELPETFGQLRECFRVGKPPRCRIFKSSTDTHLSTSYDRWWRASER---YR----ISCFHSLRYEPYLVLPSRNSTPMFDERFLGYGKNKIQWIQHLRLSGFSFHVLPQAFVIHCPHPTSASRQNWAAYKSKK-------DRLFRDFIRDRLL----NATVRTRMCK 445

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A196SJ01_BLAHN (Glycosyltransferase-like protein LARGE2-like protein n=1 Tax=Blastocystis sp. subtype 1 (strain ATCC 50177 / NandII) TaxID=478820 RepID=A0A196SJ01_BLAHN)

HSP 1 Score: 183 bits (464), Expect = 2.160e-47
Identity = 113/314 (35.99%), Postives = 166/314 (52.87%), Query Frame = 3

Query:  990 QFDVTLVSQTSQSRFWMLPFLCERWPGPISIAILEEDREALPVELCRRMVISATA----AHSPEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKERMENARNAIVFSAFS----RRRFCEE-EECIKYAND-VPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKEL-RLKYGSEENIMTSLC 1898
            +FD T+VSQ+S  R + LPF  ERWPGP+SIA       A   E   + ++  +     AH  E  +P  YP+N LRN+A+  V+TSHF + D+DMWP ++ YQ L     L +E ++    A +  AF     +   C+    CI    D +P   +D+  C+E   C RF   +++     + Y++      P    + P+ C ++   EPY+ V+KT  LP FDERF+ YGKNK+QWI HLR  G+ ++V+  +F I  PHPKSK  + W   GS   K    M  + + F +++ R   G   NI T LC
Sbjct:   53 KFDFTVVSQSSFERVYFLPFWLERWPGPLSIAFFLYGEGANVYESVMKTLVVPSRLNIIAHFSESAEP--YPINMLRNIALDGVRTSHFWLADMDMWPALDLYQTL---VSLPREFLQRDDTATIVPAFEFNLPQNTECKTFTSCINNIKDKIPSKKADVLRCVEEGRCNRFRVKSRT-----HSYHFDEWNTLPESTYVTPLPCMENDIQEPYIFVKKTARLPHFDERFVNYGKNKVQWIIHLRLLGYKYYVLSQSFAIDVPHPKSKIANDWFAEGSST-KWRTKMHVLVDAFQEDIERSTIGV--NIQTPLC 353

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S1U758_9STRA (Hypothetical protein n=2 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U758_9STRA)

HSP 1 Score: 184 bits (467), Expect = 6.990e-47
Identity = 114/301 (37.87%), Postives = 157/301 (52.16%), Query Frame = 3

Query:  990 QFDVTLVSQTSQSRFWMLPFLCERWPGP-ISIAILEEDREALPVELCRRMVISATAAHS--------PEELDPVW-YPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKERMENARNAIVFSAFSRRRFCEE-EECIK-YANDVPETISDLKPCLETNTCGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKELR 1856
            ++DVTLV+ TS  R  +L  +CERW GP + +  L +D      +       +A A           PE  D    +PVNRLRN  + AV TSHF   DID  P+  AY+A+       ++  ++ R   V  AF  +  C+   ECI  Y   +P     L+          FD        T Y  +++   ++P   R   + C  S+R+EPYL+VRKT  LP FDERF GYGKNKIQWI HLRY G++F V+P  +V H PHPKSKA+  WE   +K     K MD++F+ F+ EL+
Sbjct:   90 EYDVTLVTVTSIERIVLLEKMCERWHGPKVFVVFLPKDYPVFETQEWEERTAAACAGGGRMDVLKFLPEPTDSKGEFPVNRLRNEGILAVTTSHFFYDDIDFLPNPGAYEAVMRAVAANRDVFKDIRMGFVVPAFQLKGDCDGMRECITAYEQKIPSDKDSLRTMFIDREIHIFDEPYHGHSSTNYKLWFK---QRPMTLRY--VQCLDSNRYEPYLIVRKTQYLPLFDERFTGYGKNKIQWILHLRYLGWAFTVLPDVYVTHLPHPKSKARKHWE-DANKPDNHRKRMDQMFKGFLDELQ 384

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: W7U3U6_9STRA (Uncharacterized protein n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7U3U6_9STRA)

HSP 1 Score: 185 bits (469), Expect = 5.370e-46
Identity = 124/339 (36.58%), Postives = 175/339 (51.62%), Query Frame = 3

Query:  981 MDGQFDVTLVSQTSQSRFWMLPFLCERWPGPISIAILEE----DREALPVEL------CRRMVISATAAHS-PEEL--DPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQAL-HMRYRLE------KERMENARNAIVFSAFSRRRFCEEEECIKYAND----VPETISDLKPCLETNTCGRFDAA-NQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVN-FVIHAPHPKSKAKSSWEKTGSKQ------GKGDKVMDKVFEIFMKELRLKYGSEENIMTSLCR 1901
            +D   D TLVSQ+S  R WMLP +CERW GPI +AI       + +A    L      C  +  S  A+ S P  +   P  YPVN LRN+A+  V+T+HFL+ D+D+WP    Y  L H+  + E      +E   +   A+V  AFS        E  +   D    +P+    L  CL    C  FDA  N  G GT    YW   + +  +  ++PI CF S+R+EPY+V+R+    P F E F GYGKNKIQ I HLR+ GF+F V+P   F++H PHPKS++K SW + G ++      G+ D +  +  +    E   + GS    +T LC+
Sbjct:  242 LDEDLDFTLVSQSSPDRIWMLPHICERWEGPIIVAIFMHGFTAEHDAFMANLKCPQLQCLPVHPSVPASSSIPASVWAAPNLYPVNALRNLAISEVRTTHFLLTDMDLWPSRRLYPLLKHLSSKREIDSKGTRETFLDPLQALVVPAFSYLGQVTGGEKQEAREDKVGGMPDDQRGLVECLWKGNCLVFDAQYNVHGHGTTDTAYW---VGRQENEEIKPIPCFLSNRYEPYVVLRRCPTTPPFAEAFTGYGKNKIQHIAHLRFRGFTFSVLPPEAFLVHYPHPKSRSKQSWLEGGKQEASRGWRGRMDDLYSRFLDWAFNERAARAGS----ITHLCQ 573

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BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Match: A0A7S3W8E5_EMIHU (Hypothetical protein n=1 Tax=Emiliania huxleyi TaxID=2903 RepID=A0A7S3W8E5_EMIHU)

HSP 1 Score: 180 bits (456), Expect = 3.430e-44
Identity = 108/320 (33.75%), Postives = 165/320 (51.56%), Query Frame = 3

Query:  996 DVTLVSQTSQSRFWMLPFLCERWPGPISIAILE---EDREALPVEL-------CRRMVISATAAHSPEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRLEKERMENARNAIVFSAFSRR----RFCEEEECI----KYANDVPETISDLKPCLETNTCGRFDAA-NQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVRKTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSKAKSSWEKTGSKQGKGDKVMDKVFEIFMKELRLKYGSEENIMTSLC 1898
            DVT+++Q S  R WMLPF+C+RW G + +A L    + R+  P+ +       CR +++          ++   YP+N LRN A+  V TSH+L+ DID WP     + L    R++      A+ A+V   F R     R      C     + +  VP   S+L  C     C  FD+  N +GQ +  ++ WR +    +     PI CF S R+EP++V+R     P+FDERF GYGKNK+Q I HLR +G++F V+   F+ H PHP+S +K +W  + +        MD++F  F  E+R +Y S   + T +C
Sbjct:  292 DVTMITQASAERLWMLPFICDRWAGTLVVAALAAAADRRKWPPLTIAGGDEPRCRALLLELQPPGGGG-VEKKGYPINWLRNQAIGCVATSHYLIADIDFWPS----RELRRLIRMQLPAWGEAQRALVVPNFQRSGHGCRASGPSACRDAFERGSLGVPSNYSELATCARARQCAVFDSEYNAAGQASTDIHAWRGLAEGSTM----PISCFSSVRYEPFVVLRNHAATPRFDERFTGYGKNKVQLILHLRMAGYAFHVLGRGFLCHFPHPQSSSKQAWLHSSAHA-----AMDRLFHTFEAEMRSRY-SNATLRTRMC 596

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot

BLAST of mRNA_P-littoralis_Contig88.49.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LP29_ECTSI	2.110e-151	82.82	Glycosyltransferase, family GT49 n=1 Tax=Ectocarpu...	[more]
A0A7S4D647_HETAK	8.920e-59	40.13	Hypothetical protein n=2 Tax=Heterosigma akashiwo ...	[more]
A0A7S2UWU4_9STRA	1.090e-53	37.67	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S3K145_9STRA	1.720e-52	36.47	Hypothetical protein n=1 Tax=Aureoumbra lagunensis...	[more]
A0A7S4A3V8_9STRA	5.170e-52	36.59	Hypothetical protein n=1 Tax=Pelagomonas calceolat...	[more]
A0A7S0J5T3_9EUKA	5.040e-50	38.41	Hypothetical protein n=1 Tax=Calcidiscus leptoporu...	[more]
A0A196SJ01_BLAHN	2.160e-47	35.99	Glycosyltransferase-like protein LARGE2-like prote...	[more]
A0A7S1U758_9STRA	6.990e-47	37.87	Hypothetical protein n=2 Tax=Phaeomonas parva TaxI...	[more]
W7U3U6_9STRA	5.370e-46	36.58	Uncharacterized protein n=2 Tax=Nannochloropsis ga...	[more]
A0A7S3W8E5_EMIHU	3.430e-44	33.75	Hypothetical protein n=1 Tax=Emiliania huxleyi Tax...	[more]

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Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig88	contig	P-littoralis_Contig88:228715..248195 +

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.D8LP29
PFAMs	Glyco_transf_49
Model size	2774
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K09668
KEGG Pathway	ko00515,ko01100,map00515,map01100
Hectar predicted targeting category	signal anchor
Exons	9
Evalue	1.13e-155
EggNOG OGs	KOG3765@1\|root,KOG3765@2759\|Eukaryota
Ec32 ortholog description	Glycosyltransferase, family GT49
Ec32 ortholog	Ec-06_006800.1
Description	protein O-linked glycosylation
Cds size	1956
COG category	A
CAZy	GT49,GT8
BRITE	ko00000,ko00001,ko01000,ko01003

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig88.49.4	prot_P-littoralis_Contig88.49.4	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig88 228978..247640 +

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


Feature Name	Unique Name	Species	Type	Position
1680791764.167412-UTR-P-littoralis_Contig88:228714..228977	1680791764.167412-UTR-P-littoralis_Contig88:228714..228977	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig88 228715..228977 +
1680791764.2979658-UTR-P-littoralis_Contig88:247640..248195	1680791764.2979658-UTR-P-littoralis_Contig88:247640..248195	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig88 247641..248195 +

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


Feature Name	Unique Name	Species	Type	Position
1680791764.1840227-CDS-P-littoralis_Contig88:228977..229583	1680791764.1840227-CDS-P-littoralis_Contig88:228977..229583	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 228978..229583 +
1680791764.197844-CDS-P-littoralis_Contig88:241425..241572	1680791764.197844-CDS-P-littoralis_Contig88:241425..241572	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 241426..241572 +
1680791764.2106214-CDS-P-littoralis_Contig88:242455..242545	1680791764.2106214-CDS-P-littoralis_Contig88:242455..242545	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 242456..242545 +
1680791764.2205477-CDS-P-littoralis_Contig88:243252..243470	1680791764.2205477-CDS-P-littoralis_Contig88:243252..243470	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 243253..243470 +
1680791764.2304163-CDS-P-littoralis_Contig88:243807..243886	1680791764.2304163-CDS-P-littoralis_Contig88:243807..243886	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 243808..243886 +
1680791764.2408128-CDS-P-littoralis_Contig88:244473..244658	1680791764.2408128-CDS-P-littoralis_Contig88:244473..244658	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 244474..244658 +
1680791764.260483-CDS-P-littoralis_Contig88:246114..246204	1680791764.260483-CDS-P-littoralis_Contig88:246114..246204	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 246115..246204 +
1680791764.2728448-CDS-P-littoralis_Contig88:246685..246806	1680791764.2728448-CDS-P-littoralis_Contig88:246685..246806	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 246686..246806 +
1680791764.2836804-CDS-P-littoralis_Contig88:247220..247640	1680791764.2836804-CDS-P-littoralis_Contig88:247220..247640	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig88 247221..247640 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig88:228715..248195+
coding sequence from alignment at P-littoralis_Contig88:228715..248195+

protein sequence of mRNA_P-littoralis_Contig88.49.4

>prot_P-littoralis_Contig88.49.4 ID=prot_P-littoralis_Contig88.49.4|Name=mRNA_P-littoralis_Contig88.49.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=652bp
MSSLSAQGRRGGSPRRRQSRKRRVCGGSAANPRDKASRFAFLSTLLLAYS
GATLGLFLLWNSGSSGGALETPPPVEGGGGGGGGAGAGSVIHRNSADMVV
LPEEGTISPHGPTAVESLSDEAPAAAVKGSAYQESERLRQQQQLPLLPAT
RSDGGVVQDGDIRGGRRPSPAGEGGALDRSEAGAAAGRLDDANLTEEVGS
KQVPPNEGRVGQESGGKPETLKRPTSPKTKGELSQASPPMDGQFDVTLVS
QTSQSRFWMLPFLCERWPGPISIAILEEDREALPVELCRRMVISATAAHS
PEELDPVWYPVNRLRNVAVRAVQTSHFLMLDIDMWPDVNAYQALHMRYRL
EKERMENARNAIVFSAFSRRRFCEEEECIKYANDVPETISDLKPCLETNT
CGRFDAANQSGQGTAYVYYWRSMLRKPSHRRLEPIMCFKSHRFEPYLVVR
KTDLLPKFDERFLGYGKNKIQWINHLRYSGFSFFVMPVNFVIHAPHPKSK
AKSSWEKTGSKQGKGDKVMDKVFEIFMKELRLKYGSEENIMTSLCRDRSP
KVVSELRHGNPSVSPLFFFARACSRRVSVRSCSAPRHPPYYDEGAAELHS
KYCGEIRLLSVLCSVDRRHPLSRPTASSLERRGGVSLIDYHLSPSLAPSF
G*

mRNA from alignment at P-littoralis_Contig88:228715..248195+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig88.49.4 ID=mRNA_P-littoralis_Contig88.49.4|Name=mRNA_P-littoralis_Contig88.49.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=19481bp|location=Sequence derived from alignment at P-littoralis_Contig88:228715..248195+ (Pylaiella littoralis U1_48)
GACACGGGCAACTGCGAACGGAGAAGGCTCCGCCATCTCCTCCGCGTTTT
GACTCAGAGAGTCCAGCCCCCCAGTGCAAACTAAAAAGCAGGGTAGGGCC
AGCAGAGGACACTGGTCTATTTCATCTCCCCCTGGAAGCCGGCACTGCCA
CCCAGCGTGCGTGTACCGCCCATGCTCTGAACATACATACCTACCTGCCT
ACCTTGGCGGAGAGAGATAGATTACAGGACACAGCAGTTCACGAACAACA
TCGCGGCACGAAGATGTCTTCTCTTTCAGCACAAGGCCGGCGCGGCGGCT
CGCCTCGCCGGCGGCAGTCAAGGAAACGGAGGGTATGCGGTGGCTCCGCT
GCAAACCCACGAGATAAGGCGTCTCGATTCGCCTTCTTGTCTACCCTTCT
CCTTGCGTATTCTGGGGCCACACTTGGCCTCTTCCTCCTGTGGAACAGCG
GCAGTAGCGGTGGCGCCCTGGAAACGCCACCACCTGTCGAAGGTGGTGGC
GGCGGCGGCGGCGGCGCTGGGGCAGGATCTGTGATCCATCGAAACTCGGC
AGATATGGTGGTATTACCAGAGGAAGGGACAATAAGTCCGCATGGACCCA
CGGCGGTGGAGTCATTGTCAGACGAAGCTCCAGCAGCAGCAGTAAAGGGT
AGTGCGTATCAAGAGTCGGAGCGGCTGCGGCAGCAGCAGCAGTTGCCTTT
GCTTCCGGCAACTAGAAGCGACGGCGGGGTGGTACAGGACGGGGATATTA
GGGGCGGTAGACGGCCGTCACCAGCAGGAGAGGGCGGTGCGTTGGATAGA
AGTGAGGCTGGTGCAGCAGCAGGACGACTAGATGACGCAAACTTGACGGA
AGAGGTCGGGAGCAAGCAGGTGAGAGAGGACAAGCAAACCCCACGTGTGA
CTGATGGTTGATGCGGAAAGACTGGAATGAAATATTTACGCAAATATTTA
CGCAAGTATGAAGTCCTTCATCATCAAATGCTTTGAACGAATATACCGGT
TCTACAGGGACGATGATCATGTGATACTTCGGAGCGACATACGAGTCCTG
CCGACTTTTCTCGTGGGAGCAGGCGGGTTTAGAGGACAACGAACGTCTGA
TGGGTTCCGACAGCACTTACTTCGTATCTCGTTACGGGACGGCTTGACCC
ATCCAGCGATACAGCTGGTGTTGAACTGCTCTGCGATAACTCGATTATTT
TTTCATGAGGCCCTGTATTAACGCTGTTCAGGAAATCAAAATTGGAAAGA
ATCAAATTCAAAATTGGTCTCTGATTGGTCGAGGCTCTCAAGACCTACCG
ACGACAATTTTGATTTCTTGGACATCACCGGCAGATTAAAGGGGTCCAAA
AAGACTGAATTGCCAGAAAATCAAAGTGGAAGAGTAAGTTCGACGCGATC
TGGTGTTTTGACTGAACGTAAAGAAAGATTAATTAATGAGCACAGGGGAC
GTGAGAATGTGAAATAGTTCGAACTGCGGGGGCCCCCAAATCGGGAAAAG
AATAGGGAAGCAGACAAGAAGGACGAACGGGGAAAGGGACGGTAGGGGAG
AAGGAGGAGAGGAGAGAGCTAGGGGTCGCAAAGGGGGGCATAGGTGGAGC
GCGCCTTTTCTTTTCCTCGATTTCATGATGAAAGAGGCCGGGGAAGGAAC
TCGGATGCTGCTGCAGAGCAGGCCTTCCGGGATGATGACGAGGAGGAAGA
TGAGGAGGAGCAACAAGACGAAGCCGGTGACCTCTCCGTGCAGTCGAGCC
GCGGAGGATTAGAGGCAGCACAAGGCAACACGCGTTTGGAATCAGGTTCG
GGTAGGGGCAGCAAACGGGTGGAGGGTATGACAGAGACCATTCGCGGTGG
CGGGGTCGAGAGAGGAAAGGCATGCGGCGAGATTTGTCCGGTTCCGCAAC
AAAGCAAACCAATCACAGCAGCAGCAGCAGTAGCAGTAGCGCATTCGCGG
CGATCCATGACTGGGCTCTTATCCGCGTGAACGTTTCTACTATTCCTACT
TTCCGCAAGGCCCAAGCAATTTGATTCCCCCCCCCAACCCCCAGCATGCG
TATTCGTACCTCACACACAACACCCGTAAAATTTTCGGGAGTTTGTATGG
GGGGAGGTCCTTCGGGGCGGGGTTTGAACGAGGCGCGTCGGGGTTTTAGG
GGGAATGCGCGGGTCATGCCGCCGGGTGCGCGGGGTGAGTTCGGTTGAGG
TGGGGGATGTCGCGGCGACAGGTATGGGCTACATGACGAGGGTAAATACA
GCGGCGGACGCAGCAGCAGCTTTGGCCGCAGCAGCAGCATGCGTGGAGGA
TGCCGTCGGGGGAGCGAAGCGAGTTCGGCGGACGGTGAGGTTGGGGGTGG
GGGCCAAGCAAGCAGCCAGGACAGTAGCGGTAGCAGCAACAGCAACAGCA
GTATTATCAGTAGCAGCAGCCTGACACCGAGGGCGCAACTGCCTTAGCCA
CCGCAGTAGGTCGGGGGAAGCAAGAAAAATGGTTGCGTCGGCAGCCATGA
AAGCGAAAGCGATGGAGTTCGGAAAAAGAGATCGACGATGGAGCTGGGAG
CGATGGAGCGACTGAGTCTGGAAAATATGAAGGAGAATCAGCGATAGAAG
TTGGTGTCGAATGGCATGTAGAGAGAGCGAGCGACGGAGGTTGGAAACAT
GTAGAAAGCGAGCGAGCAAAAGGTTTCGGAGTGATTTGAGAACGAAGAAG
AGATCGACGATGGAGTTGGGAGCGATGGAGCGATTGAGTTTGGAAATATT
TAGAAAGTAAGCGATATAAGTTGGTGTCGAATGGCGTGTAGAGAGCGAGC
GACGGAGGTTGGAAACATGCAGAGAGCGAGAAAGCAAAATATTTTGGAGT
GATTTGAGAGCGAAGAAGAGAGCGACGATGGGGCTGGGATAGATGGAACG
TTAAGTTTGGAAATAGTAGACCGTAAGGGAAAGAAGTTGGTGGCGAACGG
CGTGTAGAGAGCGAGCGAGCGAGCGAGCGAAATATTGCGGAGTGATTTCA
GAACGAGAGAGAGAGGTTCGGGGACGAAAGACTTCACATGCAGGTCTTTG
CAGTTGCCGGAACTGCAGAGTATTTAAAGTGCGAGTTATGGCATGTGGAA
AATGTCAAGAGAGCGAGCGCAGGAGCGATGTCGTCTGGAAAATGGCTAAC
AGCGGGTGATAGATGTTGGTGGCGAAGGGCGTGTGAGAGCGAGCTACGGA
TATTGGAAAGATGTACGAAGAGAGCGAGCGAAAGCGTTAAGAAGTATATA
GAGGGCGAGCGACGGAGTTTGGGAGCGATGGAGTTCGTAGAGACGGTCGG
TATTAGCCCCGAATGATACTTCGTACGCATGTTGGAAATATGTATGTAGA
GAGCGACCGAAACCGTGTGGAAGTATATAGAGGGCGAGCGACGGAGTTTG
GGACGATGGAAGTAGGAGAGCCGGGCCGGGAGGGGGCGACGCGCAGGGTA
AATTGAGGAAGAAGACAAACGCGTGGGAGAGGGGCAAGGTAAGTGAATGA
AACGTAAAGAGAGAAAACAAGGATTCGTAGTGGGAGATTTGCTGCCCAAC
TTCGGTTGACCAGCATGTGTGTCATCCAGGTTTTCTCCTCGAGTAGGCGT
TTTCGATTGCAGTATAGAGCCAAGGGGTAGGGGAGACGAAATATCACCCC
TACGCCCTGGGGCCGATACGGATGAGAGACGAATGATGGAAGGCAATTTT
TTCGTGCAAGTGTGAGACAAAAAGTGGAAGAATAAGTTTGACGTTATGTG
GTGTTTTGACTGAACGTGAAGAAAGATACCTGGTAGGTAAATTAGCGTAA
AAGGGGGGCCAGCAGTGAGGATGCAAAAAATAGTTCTGACTGAGAGACCC
CCCAAATCTGAAAAGAAAAAGAGTGGTACAAATGGTTTCAGCAGCATAAA
GCGTGCAGCAGCACAGGGAGGAAGTAGACAGACTAGAGGAGGACGAACGG
GGAAAAGGGGCTGGAGGAGAGGCAAAGTAGAAGAGAGGGCCAAGATGTAA
GGGGGGCAGAGGGCAGGGGCAGGAGCTGGGAAAGGGAGCGGCAGCTGTGT
ACAGAGGTTTTGCGAGAAGTTACGCACTTGACCTGGAAGAGTTGCAGCTT
AGTCTAGAAAGTCTTACAAAGGGAGTTTTGAGGATGCAGGTAGAATGGAG
GGGGCTGGTGAAGAAGAGTCCTTGGATCACGGACATAAAAAGCGAGGTAA
AATTTGTCGAAGAGTTAGCGGAATTCATGGGATACTGCAGCGCAGTTGTG
GGTAACAAGGAGTCGACGATAAGGGGAAGTTTGGTGGCAATTAAATTATT
CCACCAGCAGCAGTTCGCAAACGTGATTCTGCCGCTGAGCAGCCCGTACC
TAAGAGGAGTAGGACATGGCATCAAGAGGAGCCACGTAGACAAGGGTACA
CAACCAAGGACAAAGAGGCCGTTGACATGGAGGATGCTGGGTTACAGGCA
GGAGGAGGTGGGATCGGGAGGGAAAGGGGGGAGGTTGCTGTGGATAAGCC
TAGCACTGTCGTACTTCTTATTGCTAGAAGTATTGGGGCTGTTTACAGAG
AGAAACGGAGAAGTTCACGAGATACACTGTGTGCGTAGAGGAGACGTGGC
TTTCTTCGCAGGGGAAGAGTAGTTGAAGGAAAATTGAGACATAGAGGGCG
GATAATAAGATGGAAGTGCACATGAGAGGATCGAAAAGGGGCTCAAGGAA
GGAAGGGGGGAACTCTGGTGAGGACAAGGGGGGGAGAGGAGGGCGGCGGA
TTTGATGCTGGAGTTGTCGGAATATTATTCGTACGAAGATAGGGTTTGAG
CGAGAATCCCCGTTGATAACGTATCGGTCGCAAGGGAAGTGGGAGGTGTG
GAAGAGAGGAAGTGCGGCGAAATAACTCAGGAAGGAGAGGGACAACAGCG
GTTGGTTGTAGACCAATGGCAGAGTGAAGGTAGGGGCGCGGGGGCAGATC
TGAATCCAGAAGAGTTCGCACTCCACTCAGGAAGGATCGGAGGTGCAACA
AGGTTAGCTTTAGGGAGGGTAATAGAGGCGGTAATCAAGAAATAAGTAAG
ATGGTCGTCGGACTCCTGGTGTGCGTAAGAGCGAGCATGAAAGATACATC
ACGGGTCTCTTTCTTGCTGGAATAAGGGAAGGGAGAGTACAATAGACAAC
CCGGGCAAGGTCCGATATGGGGCATTGAATTCAGCGGGGGAAGAGGAAAC
AAGGAGTCGTGTTGGGAGAGTTGCTGGCCAACTTCGGTTGACCAGCATGT
GTGTCATCCAGGTTTCCTCCTGAGGATCCTGAGGAGGCGTTTTCGATTGC
AGTATCGGGCCAGGGGTAAGGGGGGGCTGATCACCACCCCGATCCCTTGT
CCCGATATGGATGGGAGATGAATAATTAAAAAGCAATTTTTCGTGCAAGT
GTTAAGACAAAAATCAAAATTGGGGGTCTTAACCCGATCGAAGGCTTTCT
GAACGATGTGGCTCGCGCACCACACCAGAGACAAGCAGACAAAGGCACAG
GGTACGCCGACGCAACCCACAGAACACACAGGGAGAGAGGTGTGCCGTCG
CACCAGGCATGTCAAAACCAGCACCACACCTAGAGCAGAACAAAGACAGA
CAGACTCGCATGATGAGGCACCAGACAACACCTAGAGCAGGATAACGACA
GCCAAACAACAACAGCGGACAGACAGACGCGTAAAGCAGTCTCGAGTCCA
TGATGAGCCAACACACACAAACAAACGCAGTGTCTCTCAGCGACGTAGCA
TCAGCGTGTTGCAGTGCTGCTCTGAACGTGTATCTGTACTGCTGCTGCTG
TTGTTATGTTTTCAGCGGTGCCGATCGATGGTGACATCATCATCAATCAG
AGTGTGGGTCTCGGCGGCGTTTACCAAGCTGGTCCGTTAATATGGCTCGC
AGTGTTTTTCGTAAAATCAAACTTTGATAATGCTATTTTGATGTTTCAAT
TTTGATTTCCTGATTGTCGTTAACGCAGGGCCTTACGACGGTGGTGTATA
CTTGTATCACATTGTATAATATCACACTTTGAGTGTGTGTTTGGTTCCCG
ATGATATGATACTTCGAGTCTTACATACTCTCTCGGTTCCGTCGTACTTC
GAAGTATATGTGAGGCCGATTGGGAAATCCCCTTGGCAAAAGGACGATTG
TAGTATAGCAGTACCTTACCCAGCATACTACTTTTCGGCCACCAAACCGC
CTTAGTGTGTTCCACGTATCATATGTATGGTCCGTTGAAGGTAATTCCTC
CATTAATTGTTTTCGTCATAACTTATACAAGTACTTCGTATTTCGTAAAA
GAAAACGAATTGAAAGGTCAACCAACAACGAGAGTAACGACTGGGAAAGA
GGAAGCAATAAATGTTAGAAAAAAATCCAAATCCTGCTCTAATTTCAAGT
TATCGTAGATGCACTTATAAAACAAGACTGTATCATGTTCGAAAAAAAAT
ATATTGGACGAGGGGATAGGATAGCGTCCCCGGGAGTACTTTTTCCTTTT
TCCTCGAAGTGGCCTTGTACCTTGTACCTTGTGCGTTGTACACGTGCCAT
GGACTTCGGGGGGTAAAGTGGAATATGTCGTGCCCCGTTGGCACTTTTTC
CGAGCGTTTTTTTGTTGTTCTGTTGAGGTTTTTGAGCCAAGTCCAAAAAG
CAGAATCTTTGTGAACTCCCAATACAGCACCATACACTCACCCCTCTGCT
TGTTATGGGTGGACTATGATAGCTGCTGTGGGCGTAAATAGTGCTGTGCT
GGTCGGTTTAGCAAAAACGTCGGTTTTGGGCGGTTCTCCGAAACGCCTCA
AGAACCACGATGAAACATATTTTGAAAAACCTCGATGGGAAAGCTTCCAA
TCGGTCGATCTCCGTCTTTCACAGCAGCCACCCTCTGTTTGAGGTAGGTG
CAGGGGGTGTTGATCGGGGGCTCACCAAAGACCTCGGTTTTGTGCTCTAC
TCCAAAACCTCAAAAGAGCAACAAAAAAATTCGTTCAGAAAAAGTCCCAA
ATGGGCACAGGATGTTCCAGTGCTCCTCTGGTCGGCCTTATATCATGGAA
CAGAGGAAGTATGATATCTAAAATCTGATATATATACAAGTATATATATA
TTATTTTTTTCTTACAAATTGTCTTGTTGAGCCTGATAACCCCAGGGGAG
CTGTAACGGTACATTATCTGATGAGTGTAGAAACAACACAACAGGTACGT
AGAAGTATCTATTCTGTGTTAGTTGCTAATCTGCTCTAGACCCTCGTCTA
TGATGAAAGAAAGGCGAACACACTGATGTGTTTCTAAGAAATAGAAAAAA
GAAAACCATCAATGTGTGCTCCTCTCTCCAGACAAGGATCCGGGGTAGAT
ATTGTAGCGAAACACAAAGAATGATACTCGTGTACATCGGAAAAATCTGA
TAGTCTTTTTTTTTTTCGGGACAGCGGTGTCTTTTTTCACGGCGGCGACA
AATCCGACGAGTCTTGTGATGGGTGTGTCATGTACCGTGTGATCGTGTTC
GTTGCCAGAGCGGTGTTCTACTCCAGATCCTGGCCTAGGAGAGATGGCGA
ACACTCATGATGTGTTGTTTATGCTCGTGAATCTGGCATTTCCCACGTAT
CGAGTGTCATTTCGTCGTTTCCACGAATCGCCTAAATCATGGCATTGTAT
ACCAAGTGACCCTCGCACACCACCTAAACATGGTTGGCTCCCGGGTCGAA
CTGAAACACGGGCTATCAATCTCCAGGAGCTTTTGGTCTAAATTTTCGAC
CCCTGTAAAAAGGGGAAAATCTGTATCGTACTCGACGGACGTTGTGGGAA
TTTATCCATACTGAAGGGGACCTCCCGCACGCGCACCCCCTCGATGATGA
TATTCTTGGTTGCTACGTAGGCAAGACGGTTTCGAGGGGTAACCGGAACC
TGACCGGCTGGCGACGAGTCAAGTTAGCCTTTTCTTCACAATTTTAATCT
TCTTCACTGCGTGTTGTGACACGGGTCCACCACTTCGGCCACGTCTTTTA
TTTATGTACGTCTGCCTCAGAAGTTCCGTAATTTTGAATAATCTGCTTTT
CGTCCAATGGTCGTCGGCGTGATTTGAACCTGGGTCTGTGGCCACCTCAA
GTAGACACCTGATCGCGACGCCAATGTGAAATGGGAGAATCAGCTCTCGA
TCCTCGACAGATGTTGTGGGCACGTACCCTTTGCGAAGAGGACCTTCTCG
ACACCCCCGCCCAAATGAAGTCAAGGGACCCCCATACCCCCCCCGCCCCC
CTGAAGGACAACAAGAGACAGCACCAACAAGAACTCCTCCATTCGGACAC
CAATCGAGACCATAACTGTTGAAGCGTCCGCTCTAGTGTTCTGACGTAGA
CCACGGAAAGTTTGGTGGGTGTGGGCTTCGGCCGTGGCGAGATTTTTGGG
GGCGATGTGTGTTGAGGTAGAATGATCGGGTGAACGTGAGTAGCGTCATT
CGAGCCTGTTATTTGGCTAGAAAAACAGGCTCGAACGACGTTATTGTTTT
CGCCGGATTTTTTCCCTCAACTACCACCGCCACCAGAATCTTGCCACAGC
CAAGGCCACACCCACACCCACCAAACTTCCTGTGGCCTACCTCAGAACAC
TGGAGCGCACGCTCCAACAGTTTTGGTCTCGATTGGTGCCCCAGGGAGCT
AGTTCTACTTTCTCTCTCGTGTTGTGCTCAACGAGTAGCTTTTTCAGCCG
TTTGGGCTCTCTGTTATTTGGAGGGGGGGGGGCTCAGGAATAAAATAATA
GACCAAATAACAAATAACAGAACTGTTAGAAACAGCCCAATACGAATCGA
CTGAAACACTTTACCGCAGACCGGTATATACACCACACACAGAAGTCACC
CGCGTACACCGCATGCCGGTAACCCCGGGTCACTCAAACGCAGGCTGTCT
CTTTCCGCTGAAAAATATCACCCAAACAGCCCATGCCCCTCCCCCTCCAG
CTTGATCTGTATGCGTCCATGCTGCCTTGTTGCACCCCTTTTCTGATGCT
CCTCCCCCCCCCCCCGATCAATCCCCTGCCCGATCTTGCTTTTGGTGGTA
TGGCGTGTGAAGTCATGCCTTTTTCCACCCTGCTGCCGTGCCCCCCCCCC
CCCCCCCCGGTGTGCAGTGCTCGGGCTGTATTCCCTTCCCTTTCGCCTTT
GACGCCATCGCAAAATATTTTTTTTCAAGTCTCAACAAACAGAAACTCTT
TCTCTCATCGTCATATTTTTTTTCAAGTCTCAACAAACATTGGACCTAAT
GTACGAATGTCAGGCATTGTATTTTCATCTCCGTTGCTTTTGGGTAGCCC
ACGAAGAAAGTTCCATGGCGGTTAGTCCAGCCGCCCAGCTACCCGAATGC
GGAGCCTTTTCTCGAGGCCGCAAACCTGGTTGCGTTACATATCAGATCCG
TCAAGCTTTTACCATAGAAAACCGTTTCCAGATGATGAACCAGCTCGAAA
GCAAAAAAGTAAAACCCCGCCAGCATCTCAGACCGCAACAAGAAGTATCT
GCCACCGCTGTGTCGGTGACTCTTCGTGACCACGGTCGGGGCCCCCCACG
TCTTCGGCTGCGGGTCTGCAGCTGCAGTTCTGTAGCTCGTGCCGTTTCGT
TGTGCTAATAAGCTGTTGTAGACCTGCACTTGAGTGTAAGAGGTGGAGGC
CCGTGGCAGAACGTAGTACACAGTTGTTCCTAGCTGAAGTGCGGACGGTT
TCTGGACTGCTCGTACGCTCTTGACGTGTACGTTCGACCTCCAACACGAC
GGTCCCAGCAGCAGATCCGAGCTTGCCAACACACAGGTCACCGCTGCGTT
GTGTCTGTATTTCGCTGATATTGTCATGATGCTTGGGGTTTCTTTCGTTG
CTTCAAAAGGGCAGCTGGAAACGACCGACAGCGGACGCACTTCATCATTT
TACACAATACCATGCACTGCGAGATTATAAACGGCAGGCGTGTTTCCGAA
AAGGGGTCAGGGGGAAGCAACAGTTCCTGTCAGGCACGATTTCGACGCAT
TTCACGCGGCTCTAGCGCAACGTGTTGGTCGAATCTGACGGCGCCACGAG
AGGTATTCTTGGTGGAACACGAATACCGAAGCGCTGTGCGAAGAAAGCTT
GCTGCAAGTTTCGAACGTCGCAAAATTTTCAGCTTCAAGCTCATTTTCGT
GATTCGCATACTACTGCTGCACTGCAAACTCTCGTGCGCCGCAGTGAAAA
AGAGGTAACCTGCAGCAGTGTACTTGAAGCAAACATTTGCAGCTGGTGCT
GATGTTGCTGTCTCCGATATCGCAAGAACTAAATGCGCGTGGTAGGAGTA
TAGATACAAATCGAACGACCCGACAATGTACAGGCTACATATTCGGCATA
CAGAAAGGCCCTCAACGGTACCCTTCGCGACTATCGTCAGCGCCACAGAT
GTGTGTTCCTATCGGTCAGTGTTCCTTTTGTTGGCGTCGCAGGCGTTTTT
CTGCATGATGTTCGTGTCTGTTCACGCCTCCGGAGGACATGAGATCATTT
TGTTGCTGTTGTTTCGGACTGAGAAAATTCTCGGAGTATTTCAGAGTCAC
GGTGGGATTCCCAGAATCATGAACAAGACTCGGTTCTCGGGAACGGTTCT
CCAGAAGTTTCTTGGAACCTGTAACTGAGCGTTCAGGTTATGGAGAACAG
AAAGCAGCGCCTCGAGGGGCCGATTTTTATTAAGCCCCTCTGCGACCATC
CATATTCAGGACTGGCCTTGAGAACGCCGCTTAAAATCTGAATCTTTTCG
ATTGATCTGAATAAGCAAGCACCAACCAGAAATCGCTCAACGGTTCTGCT
ATTGCTTTTCGATAGGGAGACCTTAACTGCTGTGGGTGTCAATAGCTGCC
ATTAACCTCAACCCAACACGCAACCCAAACCAACACACGACACAATTACT
TTAGTTATCACACGCCCTTACCCGTTATGTTCCATCACCGGCACGGCTGT
TGCCCCCGTCGTTTAGCGGGTAGTATGCCTTCCTTGTCTTGTGACATCCA
AGCGGCGAGATCGAATCTCGGTGAAACGGGATGAATTCATGCTGAAGTAT
TTTATATTTTTCCGCACAATATCTACGAGTGGAAAACAATGACCGAAGTA
TTTCGCAAGTGAACCAATTTCATTCAACTCGGGAAAAAAAAGTTGACCAT
GTAGGGATTGGGACGGGCGAACTCCTATCTTACGATATCGCGGTATATAA
ACAAAGGCGAGCACCGTAGGAGGAAGGTGGAGATAAAGGACAAGGAAAAG
GAACCCCCCTGTTGACCTCGTTCCTGTCTGTGTGACCCCGGCTGGTGCGC
CCAACTTAAAACGTTGAGGTGTTGGAGTCGCGTCCAGAATAGATGGGGGT
GACAGCACACCCTGAACACACATTTCTTGCATGGCACAGCAGCACAGCAA
CAGTGCACCCGGAAGGGAGGACCTCAGGTGCGTTTCGACGAACACATTTC
CAAGAGGTCTCGCATACTGGGACGTACACACAGCAAGCAGTACCTATGTC
GGCAACCACGTACATGCAGAGACAGCAGCATCGAAATTGTGATACTTGTT
CTCGAAAAGACAGCAGTGATTCGGGTTGCCTCAAACGAGGTATCCGAACT
ACTTCGTATTATTCTCGAGTGTTTTGGGTACAGAGAGGCACAAGAGATCG
TGATATACTTCATCTGTATCATAAGTCTGGGCTGTTAGGTGCGTGTAATT
GTTTGCGCATCCACACTGTTTCGATCATCCTATAGTTAGGTTCGCTCGAA
AGATGAAGTCTTAAAGAAGCTGATGCAAAAAAAAAGCAAAAAAAAAGCCA
GTTGTTTATACTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTAA
AGAATTTTGATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCAAGT
ATATTCGTTTTAGTGTGGCAAACCCAAGTATCTTGGTTTTAGCGTCGCGT
CACTATTATACTGATTTTAGTAAGGCGGGACTCGACATGAATCTTTGAGG
TAGGGGGGCTAGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCATTG
TTTTTTTTTTTGCCCCCGCCCCCCACTCCACCTCTGGAAAGGGTTAAATA
CGGCCATTTTTGGCCTGACTGCTTTTTTGTTAGCCGCTAGCCCATGCGCA
GGGTAGTGCGCAAGAAAAAAATATATATGTGTTTCAACCCAAAAAACTCC
GAAGATTTCGAAAACATTATCGCCGAAGACATCGGACACCGTTGAGGGGG
CGTAAAACGGCACAGACTTATGATACAGAGGAAGTATGAAGATAAGAGTT
GAGAATAAACCCAGAACGCCAACATGCACCTCTCTAACTCTCTCTTTCTC
TCTCTCTCTCTCTCTCTCTCTCTCGCCCACCCCCCTCTCTCTATCTATCT
CTGTCTCCCTCTGTCTCTCTTTCTCGGTCTCTCTTTCTCCTGTTCCAATC
ATACGAGGATTCATCGTATCTACCACCACCGCCGTGTTGTTTCCTTGAAA
GGTGTTTTATTTTTTCGTTTTTTTCCCGAGAACGAGAAGCCGTACATACG
ATGCGATGCGACCTGGACGCATCAGGAAAATGACTCGTGGGGAGTATTCC
CAACACTCTCTTTTCATGTTTTTTTTTCGCTCGTATGGTATAGTCCCCAC
CCTCTTTTGACGTATTTTCGCGCCGTCGCCGCCGCCGCTACCGCTACCGC
GACCTGTGAAGGTACCGCCAAACGAAGGGAGGGTTGGGCAGGAATCCGGC
GGAAAGCCTGAAACGTTGAAGCGACCAACATCGCCAAAGACGAAAGGGGA
ACTTTCGCAAGCGTCCCCCCCGATGGATGGCCAATTCGACGTTACCCTCG
TGTCTCAGGTGTGCGGTGTGTGTGTGTGTATGCGTGCCTTTTATTATCGG
CCAAGCAATTTTGTGGCCGGGCAACGCTGTTCGCGGGTAACCGTGCTCAA
GTCACGGGCCGATGGTTGAGAGGACGTCGGTTTTCAGCAGGTCAAGTGCT
GAAAGCACTTTGCTTGACCGCGGTGCCCACGGAAGAGGGGAAACCTGCGG
TGGAAATTTTGCCGGAAAGGGTCTGGCTTCCGGTTTTGGCGTAAAACGCG
TGTCTGTGTCTGTGTCTGTGTCTGTTTCTGTTTCTGTTTCTGTGTTTGCG
TGTCTTTGTGTGTCATTGTGTGCGAGAGAGAGAGAGACGAAGATAAGTGG
TAGCCCAGTATTTCCTCCCTGCATCTCTGGTGAGAGAACCGTAACGATGG
TTAGGCCAGGCATGCTCTCTGACGCGGTGCTTACGATGAAGGCACGAGTG
TCGTCGAATGGTAAACGCCGGTTTCTGTTCCAAATGACACCTTTGTATAG
ACGACATACGTCGCTCGCCGAGACCGATTCCCAGAGCCTATCCAAACAAC
ACAAGCCCTGTCGCAGGCGCGCCTCCATGTGCCGTGTAAAAATCCACGGA
AATCCATCGCCGTAATGTCTGTGCAACCAACCCGCCCCGACCGGCCCCGC
ACCCTCGCGCCTAGGCTCCTCTCCTGATCTGTGTCTGCGCCTCCATGTGC
CGTGTGAAACCCACGGGAATCCATCGCCGTACTGTCTGTACAACCAACCC
GCCCCGACCGGCCCCGCACCCTCGCGCCTAGCCTCCTCCCCTGATCTGTG
TCTGTCGCTCAATCTCGCGGCCTGTGGAAACGTCGGTCGTCGTCTCTGAT
CTCTCCCTCCTGCCCTCTCTCTCTGTCTCGCGCGCGCCCAGACCTCTCAA
AGCCGCTTTTGGATGCTACCGTTCTTGTGTGAGCGATGGCCGGGGCCGAT
ATCCATCGCGATTTTGGAAGAAGACAGAGAGGTGAGCGGGTGCGACCCAC
GCACGCGCAAAACATCCCACGAACATGGAGCGCACAAACCACCACCGACC
GGCGTAAGAGCAGTCGTATGATGGTCGCACTTGAATGACGTGGAGGGAGT
CGTAGGTCTGCTTACCAGTCGCGCTTGAATGACATGGAGGCAGTCATAGG
TCTACCTACCACTTCGAATGACGTGGATGTATCGTACGTGGTAGACAGCA
ACACAGCAGTTTCTGTGATACGATTTCATGATATTAAAAAAAAATATATA
TATATATATGCGCAAAAGTGTACACTTATCGGAGCTTGCATTGATTGATT
TCATTGATTGATTGCCCGTATTCACCGACGATCGGTCGCGCGAGGACTAA
TAGATTCTTGCGTTGCATTTTTGTTTTCCCGTCGATGCACGCACCATACC
CCCGTTGCCCACCCCTGCCACCTCACTGCCGCTGTGTGTTGAGATTTCGT
ATTTTATGGTACCACTATCTACGACTGACAACCTTACAGCAACAGGGGCC
TGTCGTACCGTGTGCGAACGGAACAGCAGTGAACCCGCCCTTTCCACCCT
GCCCTCTCCCACCCGCCCCTGCCTTACCGCTCGTCCCCTATCCTGCCTAC
CTGCCTCTCCATTTTTTTTTTCTTCTTTCGCGGGACGGAACGGGACGGAA
CGGAACGGAACTGGGCCAATCAAATCAAAAACCGTCAGGCGTTGCCGGTG
GAGCTGTGCAGACGCATGGTGATCAGCGCGACGGCGGCGCACTCTCCGGA
GGAGCTAGACCCGGTGTGGTACCCGGTCAACCGCCTCCGGAACGTGGCGG
TCAGAGCGGTCCAGACGTCACACTTTCTCATGCTGGACATCGACATGTGG
CCCGACGTCAACGCCTACCAGGCGCTTCACATGCGATATCGCCTCGAGAA
AGAAAGGTGCAACGCCGATGGGTGGATTGGTGGGCGGGGGTTGCTTTCAG
GGAATCTCGGGGGGGGGTGGGGGGGTTCTGAGAGGAGAGCTGCGCCATGG
AGCCCTACGGCGGTATTTCATGTCAAGCCGGGGCTGAACTCGATGGGTGG
TCAACGACTGCTGTAGGAGGCGGGGGGGGGGCGCGGGGGATAGTGAGGTT
TGCAGGTGTACAGGCGGGTTTGCGGGTTACTATTTCGCATGTACGTATGT
ACTTGTGCTTGCTCTCCACCACTGCTGCCGCTGCCCTTGCCGCAGCTGAA
ATTATGGTGTGGTCGGCGTGTTTGTTGTTGTGTTGTTTTTCAGGATGGAA
AACGCCCGCAACGCGATCGTTTTCTCGGCTTTCAGCCGGCGACGGTTTTG
CGAGGAGGAGGAATGCATAAAGGTGGGGGCTCACGTTGCATGGGATTCTC
TTGTTTGTTGCATCGCCCACGATGCGATGGAATCTTGAGTTCGTTCCGGT
GTTGCTTGGTTGGTTTAGTCTAGGGTGTTTTTAAGTTTTCTTTTTTTTTC
ATGGTCCATGCGTGACGATTCACGATGGGTAATCAGGCGCGAGGACAGTA
AGGCCGGTTGATTCATACCGTAAAAATCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCCCTAAAGCCCTCGCTCTCTTGCCGGACGGTGAGGTTTGTTTTTG
CCGGAATCTTTGTCGGCCTTGAATAATACGAAGTATAATATTTTGGGTTG
ACACCTGCACGTAGGCTCTCGGCCTCTGCCTCCCTTTGCTGAGTCCTCCC
TACCCCACCACTCAACCAAGACACGACGCCTTTTTTGCTTTCTACGAGTA
CTGCCTGTTTTTTTTTTTTTTTCCTCCCTCCGTTGCTTCGATGAGCGCTC
TATACGCAACAATATTCTGCTCTTTCTTTTCTCTCTACTGTACCTACATA
CACAACCGACCAACCGCCGTTTTACCGTCAAAATAAATACTTCGTGCAAA
TCATACTAGTACGCCAACGACGTCCCCGAGACGATCTCGGACCTTAAGCC
GTGCCTGGAGACAAACACGTGCGGGCGGTTCGATGCGGCGAACCAGTCGG
GGCAGGGCACCGCCTACGTGTACTACTGGCGGAGCATGCTGCGGAAACCG
AGCCATCGACGGCTGGAACCCATCATGTGTTTCAAGTCTCACAGGTGATT
CTGTTCTCACGTGCTTCGAGTCTCTACAGGTGGTTTTGTTGTCATGTGTT
TTCAAGTCTCTACAGGTGATTCTGTTATCGTTGTGTTTCGAGTCTCTACT
GGTGGTGTTGTCCTCGTGTGTTTCAAGTCTCACGGGTGTTTTTTTTCCAT
GATAGCGTATCATGCCAACGATCGTGACTACGCTCAGGGCGACGACGCGT
GAGGCTGCGGCGACGGCGGCGGTTACGACGATGACGATGTCACTCCCCTC
CGCCTGCCGTGTCGACGAAACCGATTTAACTTCGCTTTGCAGCACGGCAA
CGCACGCCACGTTTTGCCCTTATTTTTATGGGGGGGGGAGGTTGCTTGAC
TTCATTTACGTGTGTGGCGTTGCTACGTGAATTCCTTGCTGCATGCTGTG
CGATTCCAAAACGACGTCGTTTCGCGCTACACAACCAATGTGTATTACTA
TCGCGCGGCAGCCTTTCCTTTCTTTTTTCACCAACCCGTCCAGACCCGCC
GTTTATCGTCGCAAAGGTGCTCATGTTGTTTACTAAACGCTGTCTCATCT
CAGATTCGCGACGCCTTAATTTGCTGAGGCTGTTGCCTCTACTGTACCAC
TCTGATCATGAATAAGTGGCCGGTACGGATGATCAGTAATATAAGGCCGG
TTTCACAAACGAGCCATTGCATAGATGCTATTGCAAACAAAACTGCCACT
TATCACTGGAGGCACTTGGGGCATGAAACAAAGCAGAGACATTGGATGGA
ATACCCCGGGGATGGCTTTCAAACGCCCCCTCCCGGGCTCCGCCCAAGGA
TGATCCTGGGTTTTTGGTGCAAAACTTGCAAATGTTAGAGTATTTTGGAC
CCACCGCCCTGAATACGAAACACGATATTTTTCACTCCGTGTTTGTTGTT
GTGGTCAATAAGTGTTCCAGTAAGATATTGAAACCCTTACTTTGAAGATT
TTAGCTAGCTGGTTATCACACCGAAGGAAAAAATAAAAGAGCTCGAAAAA
CGAAAAAAAAAAGTCGAAACAAAAAGTCGAAAAAAAAAGGTGAAAAAACA
AAAACTGAAAAAATGGACAAGAAAAACACCGTGATTCCGGGGCTCGAATC
CGCGTTTAAAATGTTCTTCGTGGGCAATAGGTATGAATCGTTTGGTCCGT
ACCGGCCACTTATTCATGAGTGGTAACATGCAAGCTCCGTCCCTTCTCAC
CCGTGCCTCCCCCCCTGTTCACTTTCATGGTCAGTCGGGTGCGACCTCGG
GGATGGATGGCATACATAGTCAGTCACCGCGATCGCTGGAGCGGCTTTCC
GCGTGAACATGACATGGCGGTGCTCCGACGAAAGCCTAACGCTTTATTAA
CTCTCCAACCCAACCCCTTTGTATGTATACCGTTTCGCCCACACGTGCTG
TTTCTCTGCCGCCCCTGTGGCACCAAATCGATTGCTCGACGCCAATAAAG
GTTCGAGCCGTACCTCGTGGTTCGAAAAACGGACTTGCTTCCGAAGTTCG
ACGAGCGGTTCTTGGGGTATGGCAAGAACAAGATTCAGTGGTAAGGTGTA
ATTTTACATACTATAGGCATCGGGGAGGGGTGCGGAAATAGGTGGTGGGG
GGTTGCGCGGACGAACATGTTTTTTGTATGTGCACTGACTGCGCTTGGGC
GGCGACTTACCCGGGGTGGGCGTGTGATGGTGCGGCCATTGCAATCGCGC
ACACTCATGATGATGTTTTTGTTTCGATACCGCTTCTCCTCGGAATTCCT
TGTGAAAGTTGCTTTCTTTTTTTAACACCTGCGCTCTATCGATGATGCTG
GCGGCGGCGGCGGCGGTGGTGGTGGTGGTGTTGTCATGGGCAACGCTTGT
GCCACGTCATCACACGCTTTGATTTGCACTCTCAGGCCTTCAGTCGAAGT
CGCACCAAGGCAGGCACCGCCCTGCCCATACCTAACCAATTTTCCTCGCG
TGCCGCTGCTGCTGCTGCTGCCGCTGCTTCTGCTTCTGCTTCCGCTGCTG
TTTTTCCTTTCCTTCTTCCAGGATCAACCATCTCCGATACAGCGGTTTTT
CGTTCTTCGTGATGCCGGTGAACTTCGTGATACACGCGCCGCACCCCAAG
TCCAAGGCGAAATCTTCGTGGGAAAAGACCGGCAGCAAGCAGGTAGATAC
GACTATGGCAGTGAGGGAAGAGAGAAGGCCGCGGCGGCAAGTGGAGGGAC
GGGGGGGGGAAGGGGGTTCGAGTTGACACTGGTGAATGCACGGCAGGATT
ATTGTGGTTCGTGTCAAGTGCGTGTGTCATGTGCGATGTCGGCATCTGTG
TTGTGTGCGTTCCTGTTGCAGTGCTGTGTGTCCGTGTGTCTTGGTGGCTG
TTGTGGTTGTCCTGTTGCCCGACGGGGCGCCTGTGTGTGTCAGGGATGTG
TCGAGATCTTTGGGTTGACGTGTGTGTACCTGTGTTGGTCGGCCATCTAT
ATTCACTGCGCGCGCCGCAGTTCTACAACGCCCAGAACAGGCTCCATGCA
AAACAAGGTCCCCATGCTGCTCCTGTCCCCGCACGCCACCTCGACACCTC
ACACAGGGCAAGGGCGATAAGGTCATGGACAAGGTTTTTGAGATCTTCAT
GAAGGAGCTGCGACTAAAGTACGGGTCCGAGGAGAACATAATGACCAGCC
TCTGCAGAGATCGCTCACCCAAAGTGGTGAGTGAGTTGAGACACGGAAAC
CCGTCGGTTTCGCCGCTGTTTTTTTTTGCGCGCGCGTGCTCGCGTCGGGT
CTCGGTTCGCTCGTGTTCGGCACCACGGCACCCACCGTACTACGATGAAG
GGGCGGCCGAGCTTCATTCAAAGTACTGCGGGGAAATTAGGCTGCTCTCA
GTGCTGTGTAGCGTCGACAGACGACACCCTCTTTCCCGCCCGACGGCATC
CTCGCTTGAACGGCGTGGGGGCGTATCCCTGATTGACTACCACCTCTCTC
CATCTCTTGCCCCCTCTTTCGGATAACGTTGGCAACATTTCGCTCGGGAC
CAGAAATAGGACCGGTGCTCCTTCGTACGATAAAGTACCATACCGTATCA
TATGAAATCTTTCATGCGTAGTCGCCGGCCTATGGAGACAAAAAGACGGC
CGACACGCGAGTACTGCTGTGGGGTTAGCCCCCCCCGCGCCCTTGCACCC
CCGTCTTTCCTGTCTCTACCGCGCGGCCACCTCCTCCTCCTCCGCCGCCG
CCGCCGCCGCCGCCAAAGGATGCTCGGCCAAACAACAAGGAGGGGATTCG
AAAGGGCGCGGCAGCGCAAGCATCAAGGAAAGGCGACCCATTGAAAGGTT
GGGATAAATCGGCCACGCACAAGGAGCCGGGCGGCGAAAGGAACGAGGGA
TGGGACCAGGCGGCGGGAATGTTCGATGGCGATGCGAGCGCCAAAAGTTA
GTCTTTCCTTGTCGCTTCACCCCGTTGTGTGACCGACGGAATTGCAAGTT
CGTTTGTTTGTGGTTCTCGTGCGGATACCGCACAGAAAAAACAATCACAT
CCGGATTTTTTTGTGTAATTTTTGGTCTACG

Coding sequence (CDS) from alignment at P-littoralis_Contig88:228715..248195+

>mRNA_P-littoralis_Contig88.49.4 ID=mRNA_P-littoralis_Contig88.49.4|Name=mRNA_P-littoralis_Contig88.49.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1956bp|location=Sequence derived from alignment at P-littoralis_Contig88:228715..248195+ (Pylaiella littoralis U1_48)
ATGTCTTCTCTTTCAGCACAAGGCCGGCGCGGCGGCTCGCCTCGCCGGCG
GCAGTCAAGGAAACGGAGGGTATGCGGTGGCTCCGCTGCAAACCCACGAG
ATAAGGCGTCTCGATTCGCCTTCTTGTCTACCCTTCTCCTTGCGTATTCT
GGGGCCACACTTGGCCTCTTCCTCCTGTGGAACAGCGGCAGTAGCGGTGG
CGCCCTGGAAACGCCACCACCTGTCGAAGGTGGTGGCGGCGGCGGCGGCG
GCGCTGGGGCAGGATCTGTGATCCATCGAAACTCGGCAGATATGGTGGTA
TTACCAGAGGAAGGGACAATAAGTCCGCATGGACCCACGGCGGTGGAGTC
ATTGTCAGACGAAGCTCCAGCAGCAGCAGTAAAGGGTAGTGCGTATCAAG
AGTCGGAGCGGCTGCGGCAGCAGCAGCAGTTGCCTTTGCTTCCGGCAACT
AGAAGCGACGGCGGGGTGGTACAGGACGGGGATATTAGGGGCGGTAGACG
GCCGTCACCAGCAGGAGAGGGCGGTGCGTTGGATAGAAGTGAGGCTGGTG
CAGCAGCAGGACGACTAGATGACGCAAACTTGACGGAAGAGGTCGGGAGC
AAGCAGGTACCGCCAAACGAAGGGAGGGTTGGGCAGGAATCCGGCGGAAA
GCCTGAAACGTTGAAGCGACCAACATCGCCAAAGACGAAAGGGGAACTTT
CGCAAGCGTCCCCCCCGATGGATGGCCAATTCGACGTTACCCTCGTGTCT
CAGACCTCTCAAAGCCGCTTTTGGATGCTACCGTTCTTGTGTGAGCGATG
GCCGGGGCCGATATCCATCGCGATTTTGGAAGAAGACAGAGAGGCGTTGC
CGGTGGAGCTGTGCAGACGCATGGTGATCAGCGCGACGGCGGCGCACTCT
CCGGAGGAGCTAGACCCGGTGTGGTACCCGGTCAACCGCCTCCGGAACGT
GGCGGTCAGAGCGGTCCAGACGTCACACTTTCTCATGCTGGACATCGACA
TGTGGCCCGACGTCAACGCCTACCAGGCGCTTCACATGCGATATCGCCTC
GAGAAAGAAAGGATGGAAAACGCCCGCAACGCGATCGTTTTCTCGGCTTT
CAGCCGGCGACGGTTTTGCGAGGAGGAGGAATGCATAAAGTACGCCAACG
ACGTCCCCGAGACGATCTCGGACCTTAAGCCGTGCCTGGAGACAAACACG
TGCGGGCGGTTCGATGCGGCGAACCAGTCGGGGCAGGGCACCGCCTACGT
GTACTACTGGCGGAGCATGCTGCGGAAACCGAGCCATCGACGGCTGGAAC
CCATCATGTGTTTCAAGTCTCACAGGTTCGAGCCGTACCTCGTGGTTCGA
AAAACGGACTTGCTTCCGAAGTTCGACGAGCGGTTCTTGGGGTATGGCAA
GAACAAGATTCAGTGGATCAACCATCTCCGATACAGCGGTTTTTCGTTCT
TCGTGATGCCGGTGAACTTCGTGATACACGCGCCGCACCCCAAGTCCAAG
GCGAAATCTTCGTGGGAAAAGACCGGCAGCAAGCAGGGCAAGGGCGATAA
GGTCATGGACAAGGTTTTTGAGATCTTCATGAAGGAGCTGCGACTAAAGT
ACGGGTCCGAGGAGAACATAATGACCAGCCTCTGCAGAGATCGCTCACCC
AAAGTGGTGAGTGAGTTGAGACACGGAAACCCGTCGGTTTCGCCGCTGTT
TTTTTTTGCGCGCGCGTGCTCGCGTCGGGTCTCGGTTCGCTCGTGTTCGG
CACCACGGCACCCACCGTACTACGATGAAGGGGCGGCCGAGCTTCATTCA
AAGTACTGCGGGGAAATTAGGCTGCTCTCAGTGCTGTGTAGCGTCGACAG
ACGACACCCTCTTTCCCGCCCGACGGCATCCTCGCTTGAACGGCGTGGGG
GCGTATCCCTGATTGACTACCACCTCTCTCCATCTCTTGCCCCCTCTTTC
GGATAA