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Homology
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: D8LL78_ECTSI (Serine hydroxymethyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LL78_ECTSI) HSP 1 Score: 818 bits (2113), Expect = 9.260e-291 Identity = 425/517 (82.21%), Postives = 448/517 (86.65%), Query Frame = 3
Query: 336 SVAMKLAMASDQTAAAESPLLTRGGGDGGEDAGSGLGEGDPGLSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRK----------------------------VSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFPGGAKG 1802
S + AMAS Q ES L TRGGG G LG+ D GLSETDPEVWEII AERRRQVCSIELIASENFASV VLEALGS+MTNKYSEGLPGKRYYGGNEQ+DRMETLCQDRALSLFGLD EWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRK VSATSIYFESLPY VDQETGLIDYEGLERQA+LFRPKLIIAGASAYSR+WDYARMRK IADEVGAYLMTDMAHISGLVAAGEAN+PFPHSHVVTSTTHKSLRGPRSGLIFSRR+EG+NDL+DFAVFPALQGGPHNHQIAALAAALKEAA PDFK YI+KVK NAKALAAGLR+RGH+VATDGTDNHLLLWDLRP+GLTGSKMEK+LEACSISANKNTLYGDKSAA+PGGVRLGTPAMTTRGLDETDF E+VAGFLDRAACLACA QERAGSKKLTAFV E++AD GV ELK +VEAFA+ FY+PGGA+G
Sbjct: 33 SSTLARAMASTQE---ESVLRTRGGG------GGDLGDADTGLSETDPEVWEIITAERRRQVCSIELIASENFASVAVLEALGSIMTNKYSEGLPGKRYYGGNEQVDRMETLCQDRALSLFGLDPAEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKERLAIGDRSCGNNAPSSRGRVVNGLTAKVSATSIYFESLPYQVDQETGLIDYEGLERQARLFRPKLIIAGASAYSREWDYARMRK-----IADEVGAYLMTDMAHISGLVAAGEANDPFPHSHVVTSTTHKSLRGPRSGLIFSRRNEGINDLVDFAVFPALQGGPHNHQIAALAAALKEAASPDFKSYIKKVKTNAKALAAGLRARGHEVATDGTDNHLLLWDLRPRGLTGSKMEKLLEACSISANKNTLYGDKSAASPGGVRLGTPAMTTRGLDETDFRETVAGFLDRAACLACAVQERAGSKKLTAFVTEMDADEGVRELKGEVEAFAERFYYPGGAEG 535
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A836CDU7_9STRA (Serine hydroxymethyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CDU7_9STRA) HSP 1 Score: 615 bits (1585), Expect = 3.850e-211 Identity = 311/446 (69.73%), Postives = 356/446 (79.82%), Query Frame = 3
Query: 462 LSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEI---EADSGVGELKRDVEAFAKGFYFPG 1790
LS+ DPEVW II AE+ RQV IELIASENF S VLEALGS+MTNKYSEGLPG RYYGGNEQID+ME LCQ RAL + LD EW VNVQPYSGSPANFAVYTALL+PHDRIMGLDLPSGGHLTHGYYS K+K+SATSIYFESLPY VD TGL+DY+ + R+AKLFRPKL+IAGASAYSRDWDYARMR+ IAD+VGA LM DMAHISGLVA GEAN PF H HVVT+TTHK+LRGPRSG+IF R+ L IDFAVFP+LQGGPHNHQIAALA ALKEA PDFKRYIQ+VK N+KALA L+ G+ + T GTDNHL+LWDLRP+ ++GSK E +LEA SI+ NKNT++GDKSA PGGVRLGTPAMTTRG+ E DFG +A L R +A AQ +GS KL F A + E + L+ +VE +++GFY+PG
Sbjct: 77 LSQQDPEVWSIIQAEKERQVSGIELIASENFVSDAVLEALGSIMTNKYSEGLPGARYYGGNEQIDKMERLCQARALQTYNLDPSEWGVNVQPYSGSPANFAVYTALLQPHDRIMGLDLPSGGHLTHGYYSAKKKISATSIYFESLPYEVDATTGLLDYDEMARRAKLFRPKLLIAGASAYSRDWDYARMRQ-----IADDVGALLMADMAHISGLVATGEANRPFEHCHVVTTTTHKTLRGPRSGMIFMRKE--LQAAIDFAVFPSLQGGPHNHQIAALAVALKEAQTPDFKRYIQQVKANSKALATALQDLGYTIVTGGTDNHLVLWDLRPQKISGSKAEALLEAVSITVNKNTIHGDKSAVTPGGVRLGTPAMTTRGMSEADFGR-IAELLHRGVAIALEAQAASGSVKLVDFRAAMALPEIAPQIEALRLEVEEWSRGFYYPG 514
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: W7U0E7_9STRA (Serine hydroxymethyltransferase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7U0E7_9STRA) HSP 1 Score: 587 bits (1513), Expect = 3.930e-200 Identity = 305/444 (68.69%), Postives = 351/444 (79.05%), Query Frame = 3
Query: 462 LSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKR-YIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEA-DSGVGELKRDVEAFAKGFYFP 1787
L++ DPEV II AER RQ+ IELIASENFAS VLEALGSVMTNKYSEG PG RYYGGNE +D +E LC+ RALSLF L +E W VNVQPYSGSPANFAVYTALL+PHDRIMGLDLPSGGHLTHGYY++KR+VSATSIYFESLPY VD TGL+DY+ L++ A LFRP+LI+AG SAY RDWDYAR+R IAD GAYLMTDMAHISGLV+AG NNPFP+S VVTSTTHKSLRGPRSG+IF R+ L + + FAVFP+LQGGPHNHQIAALA ALKEAA P F++ YI +VK NA+ALA L+ GH V T+GT+NHLLLWD+RP G+TGSK+EK+LEA IS NKNT++GDKSA++PGGVR+GTPAMTTRGL E DF VA FLD LA Q A SKKL F ++A + V L+ V+ FA F FP
Sbjct: 88 LADEDPEVAHIIQAERIRQISGIELIASENFASKAVLEALGSVMTNKYSEGRPGARYYGGNEHVDALERLCEARALSLFNLSSESWGVNVQPYSGSPANFAVYTALLEPHDRIMGLDLPSGGHLTHGYYNEKRRVSATSIYFESLPYRVDPVTGLVDYDELQKLASLFRPRLIVAGGSAYPRDWDYARLRA-----IADACGAYLMTDMAHISGLVSAGACNNPFPYSDVVTSTTHKSLRGPRSGMIFFRKE--LAEQVHFAVFPSLQGGPHNHQIAALAVALKEAAAPSFRQDYIWRVKRNAEALAMELQRLGHSVVTNGTENHLLLWDMRPHGITGSKVEKLLEAVGISVNKNTIHGDKSASSPGGVRVGTPAMTTRGLTERDF-LHVAAFLDDGLRLALKVQAGADSKKLVDFERAMQAHEQEVRALRDRVQHFASNFSFP 523
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: R1DZ60_EMIHU (Serine hydroxymethyltransferase n=2 Tax=Emiliania huxleyi TaxID=2903 RepID=R1DZ60_EMIHU) HSP 1 Score: 580 bits (1496), Expect = 3.170e-198 Identity = 302/448 (67.41%), Postives = 348/448 (77.68%), Query Frame = 3
Query: 450 GDPGLSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAH--ISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFP 1787
G L D VWE+I AE RRQ +ELIASENFAS V EALGSVMTNKYSEGLPG RYYGGNE +D +E LCQ RAL LFGLD +EW VNVQPYSGSPANFA +TALL+PHDRIMGLDLPSGGHLTHGYY+++R+VSATSIYFESLPY V ETGLIDY+GLE +A+LFRPKL+IAGASAY RDWDYARMR+ IAD VGA LM DMAH ISGLVAA +A +PF H VVTSTTHKSLRGPR+G+IF R+ ++FAVFP LQGGPHNHQIAALA AL+EA P F+ YI++VK NAKALAA L +RG+ + T GTDNHL+LWDLRP+ LTGSK+EK+ EA I+ NKN + GD SAA PGGVR+GTPA+TTRG E DF VA +L A LA A Q+R+G+K L FVAE+EA+ V +L+ V AFA F P
Sbjct: 43 GGSALEREDGTVWELIEAEGRRQRDGLELIASENFASAAVREALGSVMTNKYSEGLPGARYYGGNEHVDALERLCQARALELFGLDPDEWGVNVQPYSGSPANFAAFTALLEPHDRIMGLDLPSGGHLTHGYYNERRRVSATSIYFESLPYEVSAETGLIDYDGLEERARLFRPKLLIAGASAYPRDWDYARMRR-----IADSVGALLMNDMAHAHISGLVAAEQAADPFEHCDVVTSTTHKSLRGPRAGVIFYRKR--FESAVNFAVFPCLQGGPHNHQIAALAVALREAQQPAFREYIRRVKANAKALAAALVARGYTIVTGGTDNHLVLWDLRPQRLTGSKLEKLAEAVGITLNKNAVRGDVSAATPGGVRIGTPALTTRGFGEADF-VRVAEYLHEAVELALALQQRSGTK-LKDFVAEMEAEPAVADLRERVRAFATEFPMP 481
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A7S4BH98_CHRCT (Serine hydroxymethyltransferase n=3 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4BH98_CHRCT) HSP 1 Score: 573 bits (1476), Expect = 5.810e-195 Identity = 292/442 (66.06%), Postives = 339/442 (76.70%), Query Frame = 3
Query: 462 LSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFP 1787
L++ DP V+E++ E RRQ IELIASENFAS V EALGS TNKYSEG+PG RYYGGNE +D +E LCQ RAL+L+GL +EW VNVQPYSGSPANFA YTALL+PHDR+MGLDLPSGGHLTHGYY+++R+VSATSIYFESLPY VD TGLIDY+ LE +AKLFRPKL+IAGASAY RDWDYARMR+ IAD VGAYL+ DMAHISGL AAG N+PF HS VVTSTTHKSLRGPR+G+IF R+ L IDFAVFP LQGGPHN+ IAALA AL EA P FK YI VK NAK LA+ L RG+ + T GTDNHL+LWDLRP +TGSK+EK+ +A I+ NKN ++GD SAAAPGGVR+GTPAMTTRGL +TDF E VA FL A LA Q ++G K L FVA ++ + V +L V F+ F P
Sbjct: 65 LAKADPAVYELVELEARRQFEGIELIASENFASAAVREALGSCFTNKYSEGMPGARYYGGNEHVDTLERLCQSRALALYGLSPDEWGVNVQPYSGSPANFAAYTALLQPHDRVMGLDLPSGGHLTHGYYNERRRVSATSIYFESLPYEVDASTGLIDYDALEARAKLFRPKLLIAGASAYPRDWDYARMRE-----IADSVGAYLLNDMAHISGLAAAGACNDPFAHSDVVTSTTHKSLRGPRAGMIFYRKH--LQQQIDFAVFPCLQGGPHNNAIAALAVALAEAGTPQFKSYIDAVKSNAKTLASSLLDRGYSIVTGGTDNHLVLWDLRPLKITGSKVEKLCDAVGITLNKNAVHGDVSAAAPGGVRIGTPAMTTRGLTQTDF-EQVAAFLHEAVQLALELQAKSGPK-LKDFVALLDGEPRVADLNTRVRQFSMQFDMP 497
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A7S4BH99_CHRCT (Serine hydroxymethyltransferase n=3 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4BH99_CHRCT) HSP 1 Score: 572 bits (1474), Expect = 9.100e-194 Identity = 291/461 (63.12%), Postives = 355/461 (77.01%), Query Frame = 3
Query: 450 GDPGLSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRS-----EGL-----NDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGE----LKRDVEAFAKGFYFPG 1790
G+ GL + DPE++ ++ +E++RQV IELIASENF S V+E LGS MTNKYSEG+PG RYYGGNE +D++E +C+DRAL+ FGLD++ W VNVQPYSGSPANFAVYTALL PHDR+MGLDLPSGGHLTHGYY+ K+K+SATSIYFESLPYHVD ETG++DY+ +E+ A +FRPK+IIAGASAY RDWDYARMRK I D GA+LM D+AHISGLVA GEAN+PFP+ +VT+TTHKSLRGPR+G+IF RR EG D I+FAVFPALQGGPHNHQIAALA LKE A P+FK Y ++VK NA ALA L S+G+++AT GT+NHL+LWDLRP GLTG+KMEKVLE I+ NKN ++GD SA APGGVR+G PAMTTRGL E DF + FL +A +A Q+ +G KKL F+ ++ + G+ L +VEAFA F PG
Sbjct: 102 GEAGLKDWDPEIYNLVVSEKKRQVHGIELIASENFTSKSVMECLGSCMTNKYSEGMPGARYYGGNEFVDQVENICRDRALTAFGLDSKGWGVNVQPYSGSPANFAVYTALLNPHDRVMGLDLPSGGHLTHGYYTAKKKISATSIYFESLPYHVDSETGIVDYDHMEKTAMVFRPKMIIAGASAYPRDWDYARMRK-----ICDATGAFLMADIAHISGLVATGEANSPFPYCDIVTTTTHKSLRGPRAGMIFFRRGPKSAEEGAPSYEYEDAINFAVFPALQGGPHNHQIAALATQLKEVATPEFKAYAKQVKSNASALADFLTSKGYKLATGGTENHLMLWDLRPLGLTGNKMEKVLEKVHITLNKNAVHGDVSAMAPGGVRIGAPAMTTRGLKEADF-VKIGEFLVKALDIALDLQKVSG-KKLVDFLKALDTNKEFGDRLSALCTEVEAFAGAFPMPG 555
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A0M0JHA8_9EUKA (Serine hydroxymethyltransferase n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0JHA8_9EUKA) HSP 1 Score: 567 bits (1462), Expect = 2.900e-193 Identity = 298/446 (66.82%), Postives = 337/446 (75.56%), Query Frame = 3
Query: 450 GDPGLSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFP 1787
G LS+ DPEV +I E RQ +ELIASENF S V EALGS +TNKYSEGLPG RYYGGNE ID +E LCQ RAL L+GL +EW VNVQPYSGSPANFA YTALL+PHDRIMGLDLPSGGHLTHGYYS K+K+SATSIYFESLPY VD TGL+DY+GLE +A+LFRPKLIIAGASAY RDWDY RMR+ IADEVGAYL+ DMAHISGL AA E +NPF H+ VVTSTTHKSLRGPR+G+IF R+ ++ AVFPALQGGPHNHQI ALA AL+EAA P+F YI+ VK NAKALA L S G+++ T GTDNHL+LWDLRP GLTGSK+EK+ EA IS NKN + GD SA PGGVR+GTPAMTTRGL+E DF E VA L AA L+ Q +G K L FV EIE + V L+ V FA F P
Sbjct: 34 GHSSLSKQDPEVCSLIEKEAARQRDGLELIASENFVSPAVREALGSCLTNKYSEGLPGARYYGGNEHIDAIERLCQKRALDLYGLSPDEWGVNVQPYSGSPANFAAYTALLQPHDRIMGLDLPSGGHLTHGYYSPKKKISATSIYFESLPYEVDATTGLVDYDGLEARARLFRPKLIIAGASAYPRDWDYGRMRQ-----IADEVGAYLLNDMAHISGLAAARECHNPFEHADVVTSTTHKSLRGPRAGVIFYRKK--FEAAVNGAVFPALQGGPHNHQIGALAVALREAAAPEFGDYIRSVKANAKALARKLVSHGYEIVTGGTDNHLVLWDLRPLGLTGSKLEKLCEAVHISLNKNAVRGDTSALTPGGVRVGTPAMTTRGLNEADF-EVVADHLHAAAQLSLQLQALSGPK-LADFVHEIEGSAEVRALRERVTEFASKFPMP 470
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A7S0J5B3_9EUKA (Serine hydroxymethyltransferase n=1 Tax=Calcidiscus leptoporus TaxID=127549 RepID=A0A7S0J5B3_9EUKA) HSP 1 Score: 565 bits (1456), Expect = 9.200e-192 Identity = 291/442 (65.84%), Postives = 346/442 (78.28%), Query Frame = 3
Query: 462 LSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFP 1787
L++ D V ++I E RQ IELIASENFAS V EALGSVMTNKYSEG+PG RYYGGNE ID +E LCQ RAL+LFGLD +EW VNVQPYSGSPANFA +TALL+PHDR+MGLDLPSGGHLTHGYY++KR+VSATSIYFESLPY V +TGLIDY+ L+ +AKLFRP+L+IAGASAY RDWDY RMR+ IAD VGAYL+ DMAHISGL AA N+PF HS +VTSTTHKSLRGPR+G+IF R+ ++FAVFP LQGGPHN+QIAALA AL+EAA P+FK+YI VK NA+ALAA L +RG+++ T GTDNHL+LWDLRP LTGSK EK+ +A I+ NKN ++GD SAA+PGGVRLGTPAM+TRGLDE DF E VA FL A L+ + Q R+G +KL FVAE+ + V L++ V F+ F P
Sbjct: 77 LAQEDRMVADLIAREDARQREGIELIASENFASAAVREALGSVMTNKYSEGMPGARYYGGNEVIDEVERLCQSRALNLFGLDPDEWGVNVQPYSGSPANFAAFTALLQPHDRVMGLDLPSGGHLTHGYYNNKRRVSATSIYFESLPYEVTPDTGLIDYDALQERAKLFRPRLLIAGASAYPRDWDYERMRQ-----IADSVGAYLLNDMAHISGLAAAAACNDPFKHSDIVTSTTHKSLRGPRAGMIFYRKRHEA--AVNFAVFPCLQGGPHNNQIAALAVALREAATPEFKQYIAAVKANAQALAAALSARGYRIVTGGTDNHLVLWDLRPLRLTGSKFEKLCDAVGITLNKNAVFGDASAASPGGVRLGTPAMSTRGLDEADF-EQVAEFLHEAIELSLSVQGRSG-RKLCDFVAELASTPEVALLRQRVRDFSVRFGMP 509
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: D2VIC8_NAEGR (Serine hydroxymethyltransferase n=1 Tax=Naegleria gruberi TaxID=5762 RepID=D2VIC8_NAEGR) HSP 1 Score: 563 bits (1450), Expect = 1.180e-191 Identity = 285/447 (63.76%), Postives = 349/447 (78.08%), Query Frame = 3
Query: 450 GDPGLSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADSGVGELKRDVEAFAKGFYFPG 1790
G+ LS+ DPE++++I E+ RQ +ELIASENF S V++ LGS +TNKYSEG G RYYGGNE ID +E LC+ RAL F L++E+W+VNVQPYSGSPANFAVYT LL+PHDRIMGLDLPSGGHLTHGYYS K+K+SATSIYFESLPY VDQ+ GLIDY+GLE+ A++FRPKLII G SAY RDWDYAR+RK IADE+ AYLM DMAH SGLVA GE N+PF + VVTSTTHKSLRGPR+G+IF++++ L IDFAVFP +QGGPHNHQIAA+A LKE P+FK+YIQ+VK NAK LA L +G+ +AT GTDNHL+LW+LRP+G+TGSKMEK+ +A SI++NKN++ GD +A +P GVRLGTPA+TTRG E DF E VA FL R + QE+A S KL F+A E + + +LK +VE+FAK F PG
Sbjct: 11 GNTPLSQADPELFDLIEKEKERQWKGLELIASENFTSQAVMDCLGSCLTNKYSEGQVGARYYGGNEYIDEIEKLCKTRALEAFSLNSEDWSVNVQPYSGSPANFAVYTGLLQPHDRIMGLDLPSGGHLTHGYYSGKKKISATSIYFESLPYTVDQQ-GLIDYDGLEKSARVFRPKLIICGGSAYPRDWDYARLRK-----IADEIEAYLMCDMAHYSGLVATGEHNSPFQYCDVVTSTTHKSLRGPRAGIIFAKKA--LMPKIDFAVFPGIQGGPHNHQIAAIATQLKEVKTPEFKQYIQQVKANAKTLAKALIEKGYTLATGGTDNHLVLWNLRPQGITGSKMEKLFDAVSITSNKNSIAGDANALSPFGVRLGTPALTTRGFKEVDF-EKVAEFLHRGVQIGLKLQEQAVSTKLADFLALFENNEELTQLKSEVESFAKQFGIPG 448
BLAST of mRNA_P-littoralis_Contig688.19.2 vs. uniprot
Match: A0A7S2X6B1_9EUKA (Serine hydroxymethyltransferase n=2 Tax=Lotharella TaxID=74819 RepID=A0A7S2X6B1_9EUKA) HSP 1 Score: 561 bits (1447), Expect = 3.860e-191 Identity = 286/448 (63.84%), Postives = 343/448 (76.56%), Query Frame = 3
Query: 462 LSETDPEVWEIINAERRRQVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRMETLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLFRPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAAGEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLN--DLIDFAVFPALQGGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVATDGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGVRLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAEIEADS---GVGELKRDVEAFAKGFYFPG 1790
L + DPE++ I+ E +RQ +ELIASENF S V+E LG+V TNKYSEGLPGKRYYGGNE ID+ E LCQ RAL+ FG D++EW VNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHG+Y+ K+K+SATSI+FES+PY V+ +TGLIDYE LE QAK+F PK+II GASAY RDWDY ++R+ IAD VGA LMTDMAH SGLVA+ NNPF +SHVVT+TTHKSLRGPR +IF R E L IDFAVFP LQGGPHN+ +AA+A LK+ A P FK Y Q+V NA+ALA L RG+++ TDGTDNHL+LWDLRP +TGSKME + + SI+ NKN+++GDKSA +PGGVR+G PA+TTRGL E DF VAGFLDRAA LA Q +KKL + +++A+ + LK+DVE FA FYFPG
Sbjct: 16 LEKADPEIYAILKNEEKRQFNGLELIASENFTSRAVMECLGTVFTNKYSEGLPGKRYYGGNEFIDQAERLCQQRALTAFGCDSKEWGVNVQPYSGSPANFAVYTALLKPHDRIMGLDLPSGGHLTHGFYTPKKKISATSIFFESMPYRVNGKTGLIDYEQLEAQAKVFLPKIIICGASAYPRDWDYKKLRE-----IADGVGALLMTDMAHTSGLVASKLLNNPFEYSHVVTTTTHKSLRGPRGAMIFYRLDEKLKLKSRIDFAVFPGLQGGPHNNTMAAIAVQLKQVATPVFKEYSQQVIKNAQALAGELMKRGYKMVTDGTDNHLVLWDLRPNKITGSKMETICDEVSITLNKNSVFGDKSAISPGGVRVGAPALTTRGLKEADF-VIVAGFLDRAAQLALKVQSACETKKLVEYKQKLKAEEFAKDIAALKKDVEDFAAKFYFPG 457
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D8LL78 |
| PFAMs | SHMT |
| Model size | 2422 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00022,RC00112,RC01583,RC02958 |
| KEGG ko | ko:K00600 |
| KEGG Reaction | R00945,R09099 |
| KEGG Pathway | ko00260,ko00460,ko00630,ko00670,ko00680,ko01100,ko01110,ko01120,ko01130,ko01200,ko01230,ko01523,map00260,map00460,map00630,map00670,map00680,map01100,map01110,map01120,map01130,map01200,map01230,map01523 |
| KEGG Module | M00140,M00141,M00346,M00532 |
| Hectar predicted targeting category | chloroplast |
| Exons | 10 |
| Evalue | 2.74e-295 |
| EggNOG OGs | COG0112@1|root,KOG2467@2759|Eukaryota |
| Ec32 ortholog description | serine hydroxymethyltransferase 2 |
| Ec32 ortholog | Ec-24_002640.1 |
| EC | 2.1.2.1 |
| Description | glycine hydroxymethyltransferase activity |
| Cds size | 1752 |
| COG category | H |
| BRITE | ko00000,ko00001,ko00002,ko01000 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791426.4092996-UTR-P-littoralis_Contig688:58606..59211 | 1680791426.4092996-UTR-P-littoralis_Contig688:58606..59211 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig688 58607..59211 - |
| 1680791426.5554416-UTR-P-littoralis_Contig688:74087..74152 | 1680791426.5554416-UTR-P-littoralis_Contig688:74087..74152 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig688 74088..74152 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791426.4232438-CDS-P-littoralis_Contig688:59211..59508 | 1680791426.4232438-CDS-P-littoralis_Contig688:59211..59508 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 59212..59508 - |
| 1680791426.4385984-CDS-P-littoralis_Contig688:60073..60254 | 1680791426.4385984-CDS-P-littoralis_Contig688:60073..60254 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 60074..60254 - |
| 1680791426.449592-CDS-P-littoralis_Contig688:60864..60993 | 1680791426.449592-CDS-P-littoralis_Contig688:60864..60993 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 60865..60993 - |
| 1680791426.4622252-CDS-P-littoralis_Contig688:61549..61710 | 1680791426.4622252-CDS-P-littoralis_Contig688:61549..61710 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 61550..61710 - |
| 1680791426.479051-CDS-P-littoralis_Contig688:62629..62740 | 1680791426.479051-CDS-P-littoralis_Contig688:62629..62740 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 62630..62740 - |
| 1680791426.489325-CDS-P-littoralis_Contig688:63334..63409 | 1680791426.489325-CDS-P-littoralis_Contig688:63334..63409 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 63335..63409 - |
| 1680791426.50363-CDS-P-littoralis_Contig688:63908..64049 | 1680791426.50363-CDS-P-littoralis_Contig688:63908..64049 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 63909..64049 - |
| 1680791426.5152442-CDS-P-littoralis_Contig688:64668..64789 | 1680791426.5152442-CDS-P-littoralis_Contig688:64668..64789 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 64669..64789 - |
| 1680791426.52866-CDS-P-littoralis_Contig688:70063..70146 | 1680791426.52866-CDS-P-littoralis_Contig688:70063..70146 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 70064..70146 - |
| 1680791426.543428-CDS-P-littoralis_Contig688:73634..74087 | 1680791426.543428-CDS-P-littoralis_Contig688:73634..74087 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig688 73635..74087 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig688.19.2 >prot_P-littoralis_Contig688.19.2 ID=prot_P-littoralis_Contig688.19.2|Name=mRNA_P-littoralis_Contig688.19.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=584bp
MVASSRLLHLAAAAATTAVASCFACPGSRVSHGSGITGSLGHAAQISTSS
SAVDSLAIPRPAADGRRAASAGSHSSSRSSSPRRRSSRTSSVAMKLAMAS
DQTAAAESPLLTRGGGDGGEDAGSGLGEGDPGLSETDPEVWEIINAERRR
QVCSIELIASENFASVPVLEALGSVMTNKYSEGLPGKRYYGGNEQIDRME
TLCQDRALSLFGLDAEEWAVNVQPYSGSPANFAVYTALLKPHDRIMGLDL
PSGGHLTHGYYSDKRKVSATSIYFESLPYHVDQETGLIDYEGLERQAKLF
RPKLIIAGASAYSRDWDYARMRKARIALIADEVGAYLMTDMAHISGLVAA
GEANNPFPHSHVVTSTTHKSLRGPRSGLIFSRRSEGLNDLIDFAVFPALQ
GGPHNHQIAALAAALKEAAGPDFKRYIQKVKGNAKALAAGLRSRGHQVAT
DGTDNHLLLWDLRPKGLTGSKMEKVLEACSISANKNTLYGDKSAAAPGGV
RLGTPAMTTRGLDETDFGESVAGFLDRAACLACAAQERAGSKKLTAFVAE
IEADSGVGELKRDVEAFAKGFYFPGGAKGEGGR* back to topmRNA from alignment at P-littoralis_Contig688:58607..74152- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig688.19.2 ID=mRNA_P-littoralis_Contig688.19.2|Name=mRNA_P-littoralis_Contig688.19.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=15546bp|location=Sequence derived from alignment at P-littoralis_Contig688:58607..74152- (Pylaiella littoralis U1_48)
GCAGTGCACACCCCCATATCTCATCTGTACTCAGCTTTAACCATCTCTAT
CCATTGACCCTGCCAATGGTGGCTAGCAGTAGACTGCTTCACCTGGCAGC
GGCCGCTGCAACGACGGCCGTGGCTTCATGCTTCGCTTGTCCAGGAAGCA
GGGTTAGCCACGGCAGCGGTATTACCGGAAGTTTAGGTCATGCTGCGCAA
ATCTCCACCTCTTCGTCAGCAGTCGACAGCTTAGCGATCCCGCGACCAGC
GGCAGATGGGAGGCGTGCTGCTAGTGCCGGGAGCCACAGCAGCAGCAGAA
GCAGCAGCCCCAGAAGGAGGAGTAGTAGGACGTCATCGGTTGCCATGAAA
CTTGCGATGGCTTCAGACCAGACTGCTGCAGCAGAGTCTCCTCTGCTCAC
GCGTGGCGGAGGCGACGGCGGAGAGGATGCCGGTTCGGGTTTGGGAGAGG
GTGACCCAGGCCTTTCTGAGACAGATCCGGAAGTATGGGAAATCATCAAC
GCAGAGCGTAGACGACAGGTGAGAGGCGGTGGTCTTGTATGTGTATGTGT
GTGTGAGAGGCTTGCCCGGAGAGGCCCTAGTGTAACTCGATATCATAGGC
CGGACACCATTTTAATTTTTTTTTAATCTTAGGAAAACATGAATGTGTTC
TCCTCGCTCCAGACTAGGATCTGGAGTACCTGGTAGATATTATACCAGGT
ATCACATGGAAGTACGAAGCAATAACGAACACAATAAATGAGATCACATA
AGATACATTATCAGTGTTTCTTACCCATCAGATAATGTACCGTTGCAGCT
CCCCTGAGGTTATCAGGCCCAACAAGACAATTTTGAGGCCGTCTTGTGTG
ACACACTTTACATCGAGCAGACAGCTATACTCCTTGGTGCTTGTGTTTCT
CACGGTCTGCTTCAGCAGCAGATCGCTGTCTAATGTTTCTCGCCGTCAGC
AGCAGCAGTTCGGTTTTTACTTCAATCTACCCGTAGTCGGAACCATTCGT
TCGCATTCTGATTGAGATTGCGTACTCATCCTAGGCGTGATACAACCGCG
TGGTCTTTTGGGGCCAGTCCGTGTGGATATATAGGTCGCACGGTTTTAGG
GAATACGTACCATGGGCACTTCCCCAACGCGGCGCAGGCCTACTGAAATA
CAAGTATGTCGGGGCACCTGATGCAGGTTGTGATGCACTGGTGACTGAAA
CACCGATTTACCTGTGTGACTTCGTTTTCAGCAGCAGCAGCAGCAGCAGC
AGTTTGTTGCTCCGAACTGGACACTGAAACAGCATGCAAAATACTATTTT
GCATGCTGTCCAGTTCGAGAATTGCAGATGGCCCCTGCCGCCTTTCGCTT
TGTGGCTAAAGTATGACGGCCTTCACCACTTAGATCCTGACGGCGATAAA
ACTGCACATGCCTGTCCAACAGATAAAGTACTCTTATCTCTTATCTCTGT
TCTCCCTCGCTCTTCCTCTCTCTCCCTTTCTCTCCCATCTCCCCCCCTCC
CTATCTCTCACACTCTTACCTCTCTCTCTCTCTCCTGAAGAGTATACAGA
TCGGATGCTCTACTTTATACTACAGTGCTGCCACGAGAAACCGCTTGCTG
CTTTTCGTATCTTGTGTTGCTGGTATACCGTAATCATGCGAGTCATCGCA
CCCCCGTGTTAGCTTTTTTGCATTCCGTATTGCTCCACAACCAGGAGAGT
ACCACTGCTGAAAAGGGTGGTTTTGGAAAGATCTCGTCGAGAGCTTTCGT
ATGACGGGTCGTTTGGTGTTCGCACTCTCCTGGTTATGGAGCGATAAGGA
ATGCAAAAAAGCTAATACGGGGGTGCGATGACTCGCATGATTACGGGTAC
GAGTTGGTTTGCACGTATGTTTCCTCTGTCGACCCTCCTCCTGTGTGACC
CACCGCGGCCGACGCGCCCCACTTATTCCCGGAAATGCTTTTTCCGAAAG
CCCTGTAGTGGCTTTCAGAATAAAGGTGGCATCAGTAGGCACACTTGCAC
GGCGCTACGTATCTTGGGACAAATTCTTAAAAACTTTGTACCAAGTGCGT
GGTGCGCAGCTTAGCAAGTGCATGATACACAGCCTTGACGCTCGTGGTAT
TGGTCTCCTCAGAAAGGAGGCCAGTCGATCACATAGCCTGCCTCTTTTTC
TTTTTTTGTCGGGCAGAAAATTTCCTTTTCGCACAATTCAAAGGGGCGCA
CACAGATGTGATAGGCACAACGCAATCTCGCCGCTTCTAGAGTGCATATC
CGCTGCCGAAGTGCACGAGCGCACCAGTCACGCACGAGCTAAAGTACTTG
AATTATTTCCAGGGGGGGCGCAACGAATGCCCGCGATAGGCTGGACAGAT
TGGTTCGGAGAAAAGATGGGCCGCCCGGCCGCTATGATATATCCCGTCGC
CGATAGAGCCGTGAAGGTTTATTTCGTGGTGCTGCTGTTTTGCCAGCTGC
TATCACATGATGTGATATATTTCTGTCCGCCCTCAGATGCTCAGTTTTGC
TCACTTGAGAGGTTGTTCTCTATCTGCACACCTCTATGATAAGCCCCTCG
AGACGCAGGCAGGCCTTCGGCCTCTCTGCAGTAGCGTAACCTCTGGCTGT
TGCTGTCTGCTGTGATCTTTCTTCACACACCGATCTCTACATGATTGGTG
TTGCGGCATTAGTATCATTCGCGGTAAGAAGTTCCCGCCGGCACACCCTT
CTATGTATGTACTAAATCTGTTGCGTTGGGATGCTCGTGTGTTCATCGCG
GGCACGTGACATGCTACTGCTGCATGGAGCCCAGTCTCCATCCCTCGTCT
GCTGTTCTTGTGTTGCAAACACACAAACTCGCTGCTGTGTGCACCACCAC
AACGTGTGTAGTCTTGCTGGCAAGCTGTGGCGCCTGACGAAGATTTTGCT
GCTTTCGATAGGGGAGTGAAGAATGTTGACAGCGAGAAGAGTATGCGTGG
CGGTGAAAATGTTTCCTCACGTGCAACGCGAAGAATGTCTTTGACGTTTG
CGACGTGCTCCGTGTAGCATCGAGTTGGTGCCTTTGTATGTTGCCGTTTT
TGTTGGGACGTGAAGACAGTGAGATACTGGTACAGCACCCACCCGCATGA
AGCAGACCTCAAAAAATTAAAATCAGATGCTCAACTCTGATGCTCAGCCC
CACCCAGGGTAACATTTGAATTAAGGTTTCTATCGCATCAAACACCAACG
GAGGGTGTGTTTACCGGCAGCCGTTTTGTGCTGTTTGTTTGTTTCCTCAC
CTCAATCTTCGTATCTTTCTATTCCGGAGCATAGGGTACAGTCGTGCAAC
CGAGATCGTATCATATCACTCAACATGGAATGCGAGTGCTTTCCAAGAAG
TTTTGCATCGCACCCTGTCACAATACAACATGAAATGTAATGTATGTATG
ATATGATACGCGTATTTATGTTGATGTGTGCATGCATGCATGTATACTTC
AGAGGTATGCGTGTATGCATGTATATACGTATGCACGTACAAGTACGTAT
ACACGTTTGCAGTACAATTATGTGTGCATGTATGCATACACGTATGTCTG
TCTGAATGTCTACACGTGCTGTATGGACGTAATTCTATAGTTTGAAGTAC
CGTTAGTTTACCGCCGGGCGGAATTTCGAATTTACAGCTGCGGCCGAGTT
CGGTGAAAAGAGATATACCGGTATGTCATACGACGATTGGTACATACCTG
CACCACGCCGCGGGAGAATTGCACATGATACAGCACCAGGTGTTTCAACG
AGAAAAAGCCCAAGAACGAAATGTTACATTCGTGCTCCCTAATTGTTTTC
TGGTGTCAAATTGCAAAAGCTTTGCTCTCGTCCGCCGCCTCGTACCCGCA
CGCTTGTCTGTCTGTCTGTCTGTCTGTATCCACTTCGGCTACTTGCGGAC
GGTCGAACTCCGCTGTTTGTCGCCATCTCTTTCCCTCCCCACCTCCTTGG
CCACTGCTGTGCTGCCGTCGCACCGTGGGTGGGTCTTCGGTGTTCGATGA
CAACAGGTGTGCAGCATCGAGCTCATCGCCAGCGAAAACTTCGCCTCCGT
GCCTGTGCTAGAGGCCCTCGGCTCGGTCATGACCAACAAGTGAGTCGGGC
CCGTGAACGAGCGACCAACCAACTGCGTGTCTGGTGTTTAATCATGATCA
TGATCATGCCATGTCATGTCATACCGATCGCCTCCTTTTTTTTTTTGTGC
GAACGTTTTTTTTATTTCGGGTTGGTTGCCGTTGTGCGAGTCACCCTCAC
GCCGGTGCTCTTCGTGGCACTAAGCGAGTGGATCTAAGCATCAGTACCAA
TATCAAGATCTTACTAGAGCACCTCACATGCCTGATACCCTCATTCTTGA
GTCCGTTCGTTCGTGAGTTCGTTTATTTGTCGTTCTCTTACAAACAATTT
AGCAGCAGCAGCAGCAGCAGCAGTATACACAAGCACCGCACGCATATTAC
CCTCGTCAGAGCAGCAGCTAAAGTACATGTACCGTCTCTCAGTTCCGTCA
AGTTGTATTGTTTTTTTCATTTCGCCGTTAATCCAGCAGCTGACGTAAAA
GGAGCACCGCAGATACTAATGTCATAACTAATACTCCCATATCGCAGCAT
TCCGATCGCGGAGAGGCCTCCATTCCATTTCACTTGAAATAAGACTAGGG
CGGGACCACGTGTGCTTTCCGCTGGGACGCTCAGGCATTGGCATCCCATT
TTTCGCGAGCTTCCAAATTTTTGCAGATGAAGTCGTGGTTCATGCAACCC
AACTCACAGCTCACCATTATTATTAAATATATACAGTATATCCTTCACAG
CAGATAGAGATATCCCCAGCCTCCACAGCAAGGATAAATACAGGGCAGTA
TGCCCTACACAGCAGTATGCCCTTCACGGCAGCGTCACGGCATATAGAAA
GAACACACGACATCGTGTCAGAGTTGGTGTAGTCCTCTATATTCGATCTC
ACCTCAAACATATGAATCACGCGCAAAACAAATTCCAAGCACACGATATC
TTCCAAGCAGGTTCCTTACAACTAGACCTGACGACCTCTCTTCTATTTAT
TTCACTCAACAGCAGCGCAACAGGTCACTATAATCCACCCCCGACATGGC
ACGAAGAATCAGAACCATATTATTACCCCTTACACGTAACAATATACGTG
TATACCCCCCTACCAGTTAGTTATGCGAAAGCCATAATGATACCCCTCAC
CCGTAATTAGGCATGCGAAAGCCATATTGATACCCCTCACCCGTGAAAAA
TACGTGTATACCTCTCCTGAACGTCAGGAACAAAAAGAGTCGTTCCATAT
TGTTCATATTCACGCGTCGTATACATCGAACAGTTTCTTCAGGACTAAAA
TATCCACGTGAGACCGCACGTTATTGCAGCGAAATATTTTTCTTAGTCTT
TCGGTACCCCCCCCCAAAGATTTGGGCTCTGCATTTCCAAAATTAACTTT
TGTCTGTCCGTGCTGCTTGTCGTCCAGGAATCTACTACCGCTCGCTGTAC
GAGTATATATATATCTTGATGTTGTAGAACTACAGTGGGGAGGGTGGCAT
GAATGAGTGGCCTATCTCCTCGCACTCTGGTGACTAGCCACCCATTATTT
CACAACAAATAGCGAACGTGGTGCTCCCATCCAGGGCTCGGCACAACCCT
GCGTGCATTGCCTTGCCAAACCGGCCGCTGGACGGTAGCCGTCGTTCTTC
AGGCGTGCAAAAAAAAACATTTGACCACAGGCTGGAAACTGGAGATGTTA
AGGGTTGCCTGACAGGGGCGGTAAAAAATTCCTTACTGAACAAACAAATT
TTTGATCTGAAAGAACATTTTCAGTCTTTAATCAAGTGAAAAGAGCTCAT
TGTAATAAGGCTTAAACATGGGCTGTCGTCTGTGCGTACCCGATAACAAG
GATTAAATCAGGAGAAGACGCCATGTAGTAGCTACATTTGCGTCGGCGCA
TTCAGATCTTCTACTAGGGCTTAGTTATCGAAGTTCGCAGCATTGGCACA
AGAACTCCGCAGGATCCCTGAAAAACCCCGCAATCCGGACTGACGCTAAA
CGTTTCACGCAGCTGTACTCGCCGCCATCGGCATCAATCTTCTGAACTGC
CGTTCGTCCGAGGTAGCTATTGGCATGAGCTACTGCTGTTGACCCGTAGT
TTTGGAGGTTAGGGTATGTGGCGTCGAGTACAGCAGTGGGAGATAGCACA
GCAGTGGACGATGATTTTTGGAATCTGTCCATTTTGCGGAGTTTTTGATC
CTCTACTGCGACCATCGATATCTAAGCCCCAGCGGCAGCTCTGAATGCGC
CGACGCAGATGTAGCTACTACATGACGTCTTTCTCCTGATTTAATCCTTG
TTATCGGGTACGCACAGACGACAGCCCATGTTTTAAAGCCTTATCAAATA
AGCTCTTTTGACTTGATTTTAGATTCGTTAAAAATTTATCTTGATATTTG
TGTAAGAGATTGGGTAGACATGTGGAATGCATGTAAAGAGGAGCCCCCGC
CGCCGCTGTGTGCGATAACCAACCGTTTTCCTCTTTCCCGACACCTTCCT
ACTGGTGTGAGGTACCCAGTGTGTGAGTGTCAGGGCCCGTTCACTGTTTT
TCAAAATCCGTGCCTCTCGACGATCGGTTGTCAGGGAACCCTTAAACAGC
CTATTTGAGGCCCACAGAACAAAAAAGACCACCTTTCGACACAAATCCGA
CCACACCACACTCGATTTTTCGCTCCATCGAGCACAGATCAACCTGAAAC
TTAGAAGCACAGATCAACCTGAAACTTAGAAGCACAGATCAACCTGAAAC
TTAGAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTACAAGCACAGATCAACCTGAAAC
TTACAAGCACAGATCAACCTGAAACTTAGAAGGGTGGGATCTCCACTAAC
TGCTTACCGCCAGCAGAGCGTTGGGTTGGCAGTGGGGTCATTCAACCAGC
AAGGAGTAGCAGCGCTCGAGGGCGTGAGCTTCGAAAAAAACAGAATCTGT
CTTTGTTTTTTCTCTCTTGAAAACAGAGGGCTTCCTCTGCTGCCTTGAAA
ATCATGTTCCGAACAGATGTTCGATATACAACGCTGCTACTGATTGAATG
ATCCCACCGCCGAACCAAAGCCGTATCGGCCGTACATAGTGAGTGGAGCT
CCTACCCTTGCAGGTTTCGGCGTGATACGTGCTCTATGGAGCGAGAATTC
GAGTGCGGTGTGCTCGGGTGTCTGTTGAAAATATGTCTTTGTTGGTTCAG
TTCAGTGGGCCTCAAAAATGCTGCTTGACATCTCCAGCTTCAAGCCTGTG
GCCAAATGGTTTTTTTGCACACCTCAAGAACGATCGCCACCGGCCAGCCA
AGTTGGCAAGGCAATGCACGAAGGGTTGCTCCGAGCCCTTGATGAGCGCC
CTACGTTCTGTACATTTCTTGTGTTGTCGATGATTGTCTCCAGCAGCATG
CATGTGTGGTGTGTGCATGTGTGCGGAGCCGCACAATCGACCTCCCCCCC
TCCAAACAAGTTTTCGAGGAGGTGTGGCTCGCCTAAAAGTTCTGTCCAAC
TTTCCCAAATACGCAGCCTCGCGATCTCGATATCTCGATCCAAAAAATTT
CAAGATTCCAAAGCAAGTTTTTGCCCCCGTGCCAGGTGTACACGGAGAAA
GTTTTCTTGGATCACCCTCACCCCCCCACCAAAACTCAACATTAAGAAAA
AGATTTGGCTTCCGTAACGTGCGGTCTGTGAGGAGTAGTAGGATATTACC
GGCATTTCCGCGTCTTTCTGAGTCATCTTTCTTTCGTCCGTGTCTTTTAA
CGGCGTCGCTGTTCTCGAATGTTTCAATAGGACCGTGTGCATTGCCTTCC
CTCTGGTGTGGCCTCCATATTCACAACAGTGCGGTCAGGTGTTGGCCTCT
TTGCCTTTTTTTGCCTGCTTCTTTTGCGTTCTTGTTTGCGGCGTGATTCT
TGGTGTAACGAGCCTTCGTTCTTCCGTGCCTACCAACCAGCGGTGGTGTG
ACTGGCCTCCGGGCTTCTGACTTTTGACAAAGCTTGTGCTTTGCCTCCTT
CCTGATTTGGCCACGCTGGCTTTTCAGATTTGTTTTGCTCCTGGATCTCT
GTCGTTGCTCGCACGGTGTGTGCATGTCACACAGGTGGCCACTGGGACAC
GTTGTCGCACGTTATACATATGGCCCAACCTAGGAAGGTTGTGGAAGGTT
GGGGGTGGTTATGGGAGGACGGAATCGACCTGAACCCTTTTTTTCTGTGC
TGCCAGCCCGCCCTGTTGGTTGCATCAAGAATAGTAGTACTACTAACATT
GTTGGGGAAAAAATAGAGGGTTCAGGTCGATTCCGTCCTCCCATAACCAC
CCCCAACCTTCCACAACCTTCCTAGTTTGGGCCATATGTATAACGTGCGA
CAACGTGTCCCAGTGGCCACCTGTGCATGATAGAGCAAAACCCCATGATG
TGGGGCTGTCCAATTTATTTACCTTTTGCTTTTTTTCCCCCTATTTTTTC
GCGTCGTCCGCGGTGTGCGCACTTGCTGCACACAGTTTGGCCTGCGATAT
ATTTTGCTACCAGGCCTCTGTCGTTGCTCGCACGGCATGTGCGTCATGCC
ATCTTGGAAACCCCTATAGGGATATGGTCGCGAATAAATACTTCATCTTC
ATCTTCGTATTCGCGAGACCTTTCATTCTTCCCTCCTTAGTGTCCGAACC
ACTTGGTTGGAATGACCAGCCCCGTCCCCCCCTGCACTAACGGGTACATG
TTTCGCGCAGCCATTCGTGCATACTACGTTACATGTGCGATCTTCTGTGT
CACACCCTCCCACTAAGTCTTGGATTCGGTCATGACCGTGGCGGCGTCAG
CCGCCGAAAGACCTTGTATCCTTATTTTTTATTTTTCACGTCGTTGCTTC
ACCTTTTTTTTTATCACCCACCTACGTGTCATGGGTGTCATGGGCGAAAC
TTCCCTCAAGGCCCGCCTTGCCAACTTTTTTTTTTTTGCCCCGCCCCGCC
GTGCCGTGCCGTCTTTTTACTTTTTTGCCATGCGTGCGTGCCTGCGTGCC
GTTTGGCACACAGGTACAGCGAAGGCCTGCCCGGGAAACGCTACTACGGT
GGAAACGAGCAGATCGACCGGATGGAAACCCTCTGCCAGGACAGGGCTCT
GTCTCTTTTCGGCCTGGACGCTGAGGAGTGGGCGGTGAGGATGAGCGTGC
TTCCCCCGGATCATACCGCAGGAGGCACAAAATACCCCCCCCCATCCCCC
CTGGACCGCATTTTTTGGAGGGCTCGCTCGATCACTCCGCAACGAACGAG
GGTGTCTTGCGAAAGTATGAGCCTCATTCATTCCCTTATTTGATAACATA
GCTTCATGCTGTCATCTGAGCCTGAAAAAAAAAAGTGTCTCGAGGTCGAT
AAGGATTTTTTTCATCTGAGAAGCAGTTGAGAAGGAGTGGCTCCTACCCA
GTCGCACAGTAGAGTGGAAAAGCTTTTCCAAGAGCACCTCAAGCAAGGTA
CAGCGGACAGGCAAGCGCTTCGTGTGTGTGTGTTTGTTTTTTTTTCTTGT
CTGTAAAAAAAAAAAACTTCAAAAACAAATACGCCAACGTTGTTGTGTGT
GTACTCCGGAGTATGTGTTTTTTTTCTTTGTCTATTTGTAAAAAAAAAGG
CTTGAAAAAAAATACGCCAACATGTTGGTGGTGACTCTATTTAGATGTTG
GTACGGTTGGGTTTGTGCTCCGTCCGGATTGGGATATTATACAAGACACG
TGATGAATGATCAAATGACGAGGGATAATACGCCCCCACCCCCCCCCCCC
CAGGTTAACGTCCAGCCGTACTCGGGAAGCCCCGCGAACTTTGCGGTGTA
CACGGCCCTTCTCAAGCCGCACGACCGAATCATGGGGTTAGACCTGCCCT
CGGGGGGTCACCTCACGCACGGGTACTACAGTGACAAGAGAAAGGTAAGT
TTCGTTCAGGGTCTTCCTTTTGTGGTGGTGGTGGTGGTCGTCGTGGTCTT
GGTCGTGGTGGCGGCGATGATGGCGATGATCTGTCGTCGATGGTAGTCTT
TGGTGGCGGTGGCGGTGATGACTTGTGGTGGTGGCGGCGGCGGTGGCGGC
GGCGGCCGTAGTGGTAGCGGCGGCGGCAGTGGTGGTGTTTACTGATGATG
GTGCTTACAACGCTCATGGCGTTGATGCTGTCGTTGTCGTCTCTGTGTGA
TCATGGTACTACTGTAGTGATGCGGAAGATGCCGTGGGCGGTCGTCGACG
ACGTGACAGCGAGAGGGCCGCGCTCCCTCGACAAAAAACAAAGAAAACGC
AGACCCGGGGCAGGTGTTCTCCCCTCCCCCCCCCCCCCCCCCCCCTCAGA
AACCCCTCCTGAGCTGGATCGTTATTTTCTGCACTTGTGTAATTTTATCT
GCTGTCATCTTCGTCGTTGTCGTCGTCGATGTCGTCTCCCCAGGTCAGCG
CAACGAGCATATACTTCGAGAGCCTCCCGTACCACGTGGATCAAGAGACC
GGGCTCATCGACTACGAGGTCAGTCAGACAAAGATCTTCCTCTCGCTACG
TTCACTCGGTTGTGGTCGGGGAGGCTTGTCGAGAGCTTGCACCGGGGACA
GGGGGCTCTCAAGCTTTCATTTCGACTTTTACGGTACCTCCACAGTCCCG
CCAGAGCACACAGTCCAGATCAGAGGGGAACATGCGCAGCGCTTCAGATA
GACCGAGCTAGCTCTCTCGCTAGCTAGATCTCTAGGTTTTATTGTGGGAT
CCTTCCTCCCGCGCTTGTTGTCAAGGTTCGGAACCAGTCAGGTCCCGCTT
CGGAATCAGGCGTTTTTTTTTCTGCCCCCGCCTTGCGTTTTTTTCATTGC
GTTTCCTGTCTCTCCAGTCTCAGTCAAACCTCGTTCACGTGAAAGCGCGT
GCAATGCGTGCGCGCGTGTATATTACATGCCATGTCTCACGTTCTTTGTC
GACGACCCCCCACCCCCCGTGACTCCCGATCCAAGCCCGCTGCTTCTGCT
GCTCCGGCTTGAATTTTTCTATCGTTTGTTCGTTTGTTTCTTGTATGATA
GGTTTGATGTTAAAGGTGTCGTGTTGTGTGTATCATGCTGTTTTTTTTTT
CTGTTTTTCAAGGGGTTGGAGCGCCAAGCAAAGCTGTTTCGGCCGAAGCT
GATAATTGCCGGGGCCAGCGCTTACTCCCGAGATTGGGACTACGCCAGAA
TGCGAAAGGCGAGGATTGCGCTGGTGGCGGTGGTGGTGGTGGTGGTTGGG
GCAAGAGTCGGGGTAGGGCTGGGGCAGTGGGGGTGAATTAGAGACGACGT
ACCCCCTTTCTCAGAGGTGGGGCTCAGAGGGGGGGAGAGTGGAAACCCGG
GGTTCATGCCAGACCATCCCCGTCCACATGAAACGTCAGCATGTAAAGCA
GTCGACACAATGACAGGCAGACGGTAAAATTCTGCCTGCCCCTGGGTGGG
GGAGGGGTTGGAATGGGTTGGGTGGATCGGGGTGGGGTGCGCAACAAAAT
GCTCCTTCCAATTGTGATAACATTCCAAGCGCGAAAGGTGACCGGGTGGA
TCTGTGCCGTCACTGCCGTGTTAGCAGCGGTCGTTTAAAGGTGCTGGTTT
CAACGCCGCGTAGATTTGCTGCACGGGACACATCGGCAGTAAAGGCCCGG
GGGGGGGGGGGGGGGTGATGTGATGATGACCATGTGCGTCTTGCGTCAAA
AAGTGGTGAAAGCTTCAGTGAGTATGAGTACCGAGGATACATGCTTTTCC
AGGTTTGGTTCTCGTGGAAGATGCCAAGAGCTCATGACGAATCCACGAAG
GAGGCTTCGAACGTTCTCGGTTGTTGAGTGGGCCGATTCGGTTCAAGTCG
TGTTTTTTTTTGTTTTGTGCACGACTGACCGGCACGGCACGCACGTCTCT
CCGGACTGTTGACTGGTGTCTGGTGTCGGCCCTGCGCTCCACCAATATTC
TCGTTTGGCACACTGCTATCCGTACGTCACACGCACAGACACGTAAGACA
GACGGACACACACAACACCTGTTTTATCATTCCGCACACTGCACGTGCGT
TCGATACGTACGTTACACATACACTCACTCACACACGCCACCACATCCAT
CATACCCATGGTTTTTCTTTCCTTTCTTTTTTCTTGGATAAGATCGCGGA
CGAAGTTGGTGCCTACCTGATGACGGATATGGCGCACATCTCGGGACTGG
TCGCCGCCGGAGAGGCGAACAACCCGTTCCCGCACAGCCACGTCGTAACC
TCCACCACCCACAAGAGCCTCAGGGGGCCGAGATCCGGTCTCATATTTTC
AAGGTACAGTGTGGGCTGTGCTGCGTGCTGTGCTGCGTGCTGTGTGCTGT
TCGCGCGGGAGAAAACGCGGCGTAACTTGTGCCAGTTCGCTAAGGTATTC
TTCCATTTCTCTTATTTCTCGTTCGCTCTCGTTGTCTCCCTCTCCCTCTT
TCCCTCTCTACCTTCTCTTGTCGCCCACGGAGTGGTCCTGTGCACATTTG
GTACCAGGTAGCCTACACCGCACATAGAATTACCCGGTAGACACACCCCA
ACCGCTGTTGACAATCCCTGCTGTATCTGGTGCACGCGGGTCTCGATTCG
AATCCATGTGGTCTCTGGGGCTCCGTGGAGCTCCGTGTGTTGCATGCGGT
GGAACATGTGGTATGTCGTATCGAGTGATGATGTGACGCCCCCCGCCATG
TCGCGGGTCACGTCTTCCTGTCTCACGCTCTGGGTAGTCAGGTCACTGGG
TCAACTTCCTCCCGGCGCCTCTGACGAGGAGCTAGCTGTCTCCATCATGC
TTACACACTTGGTTTGCACATCAATCTTGTTTCCGTTGTTGTGTACGGCA
ACATTTCAGGCGGAGCGAAGGGCTGAACGACCTGATTGATTTCGCGGTTT
TCCCGGCGCTGCAAGGGGGCCCGCACAATCATCAGATTGCCGCCCTTGCC
GCCGCGCTCAAGGAAGCCGCGGGCCCGGACTTCAAGAGGTGTGTGTGTGT
CTGTCTTGTCTGTTTGTTTGTGTGTCTGTATGTGTGTCTGTTTGTGTGTG
TCATGCTGTACAACAGCCGTTTTCAGTGCACACATGCCATCGAGAACCAA
GCAAGAAGCGAGTGTCGTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTG
TATCTCAACATTAGGTCACCGCCAAGACCAAGATCCAGCTTGTGCCCTGC
GATCACATACCAGGCCCATCTTCGTGCGCAGAGGAAACGCCGCATTAAAG
ACACGTCAATACAAAGCCACACACTAATAAACAGGGATACCGCCCAAAGG
CGTATCCGTCTGTGTCTGTCTCTGTGTCTTGTCTTACTGTCAGCGGGGGA
AACAACACTTTCAACGGGATTTGTCCTTTTTCCTCCACGTCGAACGCATC
CACTATCTCTCCACCTCGTTGGATTGATTTTAAGATCCAAACAAAACACT
GCATGCACGTGAGGACAAAGAGAAGTTCCCCCACCCTTATCCCTACCCAA
ACCGTAACGCTAGCATGTCACATCTGTGAGGGGTTGACCCCCCTCCCCCC
CCTCGCTTCCGTCTTTTCGCCCCCCTTTCCCCCACGGCTTGACGCCAGAT
ACATCCAAAAGGTGAAGGGCAACGCGAAAGCTTTGGCGGCGGGGCTACGG
TCGAGAGGGCACCAGGTCGCTACCGACGGCACGGACAACCATCTGCTGCT
GTGGGACCTGCGGCCGAAGGGACTGACGGGGTCCAAGATGGAGAAGGTTC
TCGAGGCCTGCAGCATCTCGGCGAACAAGGTGTGTGTGGATGGATGTGTG
GGTGTGGGTGTTTGTCCGTGGTTCCGCGTTGACGTTTTTGTTATTTTGGT
AGTAGTGGTGGTGGTGGTGGTGGTTGCGGTGGTGTTTGCGTCATCACTGT
CGCCTGCGAACACATCCGGCGACGGATGACTTCCTCCGTTGCACACAGTA
TCCAATGCTGCGTGCCAGGTATCACATACCAGGCATGTGTATGTAGCTGT
CTTTCTTGTGCGCTTGCTTGCCTTATTTCATGCATGACTAGGAGATTCCG
TTTGCTCGTTTGTGGAAAATCCACAAAAATGGTGGTGAAATCCACGAAAA
TGGTGGTGGCGGTGGCGGTGGTGGTGTTGGTGGTGTCGTCGTAGTCGTAG
TCGTCGTCATCGTCGTTCTTACGACGTATTGCATGCCCCTTTCCCGTGTT
CCTCAAGTAGCTTGTGGCTGCCAAAAGGTGTCTCTACCGGAAGTGAAAAT
AATGGTACAACAGCATTGTTTGTTTTTCCTTTGTCTTGCCAACCCTGCTT
CGCAAACCCCTCCACCCCGAAAAAAACGCCAAAAAATATTACAGAACACG
CTGTACGGGGACAAAAGTGCGGCAGCCCCTGGTGGGGTACGCCTTGGAAC
TCCGGCCATGACCACCAGAGGCCTGGACGAAACCGACTTCGGGGAGTCCG
TCGCGGGGTTTCTAGATAGAGCGGCGTGCCTGGCGTGTGCTGCGCAGGAG
AGAGCGGGGTCGAAAAAGCTCACGGCGTTTGTCGCCGAGATAGAGGCCGA
CAGCGGGGTGGGGGAGTTGAAGAGAGATGTCGAGGCATTTGCGAAAGGTT
TTTACTTTCCGGGAGGCGCCAAGGGGGAGGGGGGACGATGACGGGGGATT
TCGGATTTCGTTTGTATTTTTTCCGGTGGCGCCGCCGTTTTGCATGCTTC
ATGTCGGTCTTGGACCCACCAGACCTCAGTTTTTACTGGTACCGCCGCCG
TGGAGCGCCTTTTATATTTGTCTGAACCCGCCACAGAGCATTAGCACCAA
CCGGCATTAAAGTTGTTCTTGTTCATGTGCTTTTTGGTTGGTCAACCAGT
TCTGTTCCGAGTCTCCAATAAATTTACAGGGCGGCTTAATGCCTCGCCGG
TTTCGTATAAGAAAGCGCCCCAGATTATTCTGGCTTTCGTCTTTACTTCA
TGCGAATCACACAGCGAGCTTCCGCGCGCGAAGTATAGGATTGGCACGAG
AAAGATAGAATTTAGCAGCCATATCTACGTCAGTTTATGGAGTTGGTTAA
AACACAAAAGTTGTTTGAACACCCTTCTCAGGTTCCAAGAATACCATGCG
TGTTTCCGTTTTTGTTCTGGTGGTCTCTGTTCCGTCTTTCTGTGTCTGTG
GATCGTGATATTTCGGCTCTGAGCTCAAATTATCGCAGCCCCTTCGACGG
CTAGAGCTGGGGGGCATGTTGCTGCAAAATGAGATTTTACCTACGC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig688:58607..74152- >mRNA_P-littoralis_Contig688.19.2 ID=mRNA_P-littoralis_Contig688.19.2|Name=mRNA_P-littoralis_Contig688.19.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1752bp|location=Sequence derived from alignment at P-littoralis_Contig688:58607..74152- (Pylaiella littoralis U1_48)
ATGGTGGCTAGCAGTAGACTGCTTCACCTGGCAGCGGCCGCTGCAACGAC
GGCCGTGGCTTCATGCTTCGCTTGTCCAGGAAGCAGGGTTAGCCACGGCA
GCGGTATTACCGGAAGTTTAGGTCATGCTGCGCAAATCTCCACCTCTTCG
TCAGCAGTCGACAGCTTAGCGATCCCGCGACCAGCGGCAGATGGGAGGCG
TGCTGCTAGTGCCGGGAGCCACAGCAGCAGCAGAAGCAGCAGCCCCAGAA
GGAGGAGTAGTAGGACGTCATCGGTTGCCATGAAACTTGCGATGGCTTCA
GACCAGACTGCTGCAGCAGAGTCTCCTCTGCTCACGCGTGGCGGAGGCGA
CGGCGGAGAGGATGCCGGTTCGGGTTTGGGAGAGGGTGACCCAGGCCTTT
CTGAGACAGATCCGGAAGTATGGGAAATCATCAACGCAGAGCGTAGACGA
CAGGTGTGCAGCATCGAGCTCATCGCCAGCGAAAACTTCGCCTCCGTGCC
TGTGCTAGAGGCCCTCGGCTCGGTCATGACCAACAAGTACAGCGAAGGCC
TGCCCGGGAAACGCTACTACGGTGGAAACGAGCAGATCGACCGGATGGAA
ACCCTCTGCCAGGACAGGGCTCTGTCTCTTTTCGGCCTGGACGCTGAGGA
GTGGGCGGTTAACGTCCAGCCGTACTCGGGAAGCCCCGCGAACTTTGCGG
TGTACACGGCCCTTCTCAAGCCGCACGACCGAATCATGGGGTTAGACCTG
CCCTCGGGGGGTCACCTCACGCACGGGTACTACAGTGACAAGAGAAAGGT
CAGCGCAACGAGCATATACTTCGAGAGCCTCCCGTACCACGTGGATCAAG
AGACCGGGCTCATCGACTACGAGGGGTTGGAGCGCCAAGCAAAGCTGTTT
CGGCCGAAGCTGATAATTGCCGGGGCCAGCGCTTACTCCCGAGATTGGGA
CTACGCCAGAATGCGAAAGGCGAGGATTGCGCTGATCGCGGACGAAGTTG
GTGCCTACCTGATGACGGATATGGCGCACATCTCGGGACTGGTCGCCGCC
GGAGAGGCGAACAACCCGTTCCCGCACAGCCACGTCGTAACCTCCACCAC
CCACAAGAGCCTCAGGGGGCCGAGATCCGGTCTCATATTTTCAAGGCGGA
GCGAAGGGCTGAACGACCTGATTGATTTCGCGGTTTTCCCGGCGCTGCAA
GGGGGCCCGCACAATCATCAGATTGCCGCCCTTGCCGCCGCGCTCAAGGA
AGCCGCGGGCCCGGACTTCAAGAGATACATCCAAAAGGTGAAGGGCAACG
CGAAAGCTTTGGCGGCGGGGCTACGGTCGAGAGGGCACCAGGTCGCTACC
GACGGCACGGACAACCATCTGCTGCTGTGGGACCTGCGGCCGAAGGGACT
GACGGGGTCCAAGATGGAGAAGGTTCTCGAGGCCTGCAGCATCTCGGCGA
ACAAGAACACGCTGTACGGGGACAAAAGTGCGGCAGCCCCTGGTGGGGTA
CGCCTTGGAACTCCGGCCATGACCACCAGAGGCCTGGACGAAACCGACTT
CGGGGAGTCCGTCGCGGGGTTTCTAGATAGAGCGGCGTGCCTGGCGTGTG
CTGCGCAGGAGAGAGCGGGGTCGAAAAAGCTCACGGCGTTTGTCGCCGAG
ATAGAGGCCGACAGCGGGGTGGGGGAGTTGAAGAGAGATGTCGAGGCATT
TGCGAAAGGTTTTTACTTTCCGGGAGGCGCCAAGGGGGAGGGGGGACGAT
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