Homology
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
D8LL08_ECTSI (IPPc domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LL08_ECTSI)
HSP 1 Score: 486 bits (1251), Expect = 6.530e-154
Identity = 267/502 (53.19%), Postives = 332/502 (66.14%), Query Frame = 2
Query: 401 VRIVPSKTLDLRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKA-ISSRLPR---GGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSSDVKMSDHMPVSALFRTS 1894
VR+ + LDLR+FCGTWNVAGR ++ D+ WLDVD+LD E + PP +FV+GFQEVVELSA NVV+DSFLDTQSR NSL+WFT VYA+L YG R+GV Y+MV+E R+LGTY+L+MA + + I HVQ+ +PTGLGG GNKGAVAVR+++ G SSLCFVC HMAAHRE+V ARNAEYKLISS+PVF++T G + D A + GQGGR GG SPTR+ EVKKA++A ++ LP+ GG+G A+ G+G + G GSE + KG + VE D A +E + GLPKTKT+L+AD+VFW+GDLNYRI E PD+ VF+M+ DDLETL +DQL IARASG AF EFQEGPLCFPP+YKYIPGT+E D+RPEKKVRCPSW DRVLY++G+ GGDSVRRL L+RYWSS +SDHMP + ++S
Sbjct: 243 VRVEAADVLDLRVFCGTWNVAGRKLDSAEDMGLWLDVDKLDEEGDTSVPPDVFVIGFQEVVELSAQNVVMDSFLDTQSRTNSLQWFTHVYAYLAQYGERYGVRYAMVTEQRLLGTYMLIMAKEDLCPKIAHVQTAVVPTGLGGYLGNKGAVAVRLEVGGRSSLCFVCVHMAAHREHVLARNAEYKLISSKPVFADTDGRLPVDEAEDP-AGKDQEXXXXXXXXXXXXXXXXXXXXGQGGRSGGMSPTRNSEVKKAIRAAMAFGLPKRGGGGEGRASSGKGDID---------------------------GSGSE--AEKGARPAEDVEVDD-----------------FAWMPSDEGMSAGLPKTKTVLQADVVFWIGDLNYRITEETPDQEVFEMLQNDDLETLSGLDQLTIARASGTAFQEFQEGPLCFPPSYKYIPGTKEYDQRPEKKVRCPSWCDRVLYAMGMQGGDSVRRLGLERYWSSGPLVSDHMPGEEVAQSS 697
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A6H5L6C6_9PHAE (IPPc domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L6C6_9PHAE)
HSP 1 Score: 420 bits (1079), Expect = 8.090e-128
Identity = 258/613 (42.09%), Postives = 345/613 (56.28%), Query Frame = 2
Query: 401 VRIVPSKTLDLRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKA-ISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARDDLETLRVM--DQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVG-------IYGGDSVRRLALDRYWSSDVKMSDHMPVSALFRTSLKCSPDEEVVEPEIEAEPLSPTKAAAATAFEATPYPKIALAPPAAAIRCEAMAPATVDIEIKNNGGAAGEYHICDDTVPEWMSLDENCRGNLAPGETARLVITVD 2209
VR+ + LDLR+FCGTWNVAGR ++ D+ WLDVD+LD E + PP IFV+GFQEVVELSA NVV+DSFLDTQSR NSL+WFT VYA+L YG R+GV Y+MV+E R+LGTY+LVMA + + I +VQ+ +PTGLGG GNKGAVAV++++ G SSLCFVC HMAAHRE + ARNAEYKLISS+PVF++T G + D A K GQGGR GG SPTR+ EVKKA++A ++ RLP+ G GG +P G KG + G GSE + KG + VE D A +E + GLPKTKT+L+ADIVFW+GDLNYRI E PD+ VF+M+ DDLETLR + + GD GP P + P + + ++ R + ++S ++ + R + + VSALFRTSL C+P + V EP+++ EPLSP + A+ A + +P+ ++ L PP + + + EI N GG G +H+C D++P W+SLD + G L PGE + I +D
Sbjct: 190 VRVEAADVLDLRVFCGTWNVAGRKLDSAEDMGLWLDVDKLDEEGDTSVPPDIFVIGFQEVVELSAQNVVMDSFLDTQSRTNSLQWFTHVYAYLAQYGERYGVRYAMVTEQRLLGTYMLVMAKEDLCPKIANVQTAVVPTGLGGYLGNKGAVAVQLEVGGRSSLCFVCVHMAAHREQMLARNAEYKLISSKPVFADTDGRLLVDEAEDP-AGKDKEXXXXXXXXXXXXXXXXXXXAGQGGRSGGISPTRNSEVKKAIRAAMAFRLPKRG-----GGEEGLPAGGVSSGKGEID---------------GSGSE--AEKGTRPAEEVEVDD-----------------FAWMPSDEGMSAGLPKTKTVLQADIVFWIGDLNYRITEETPDQEVFEMLQNDDLETLRRVWFGSADHRACVGDGVPRVPGGPSLLPAILQVHPRHQGIRSEASRRKRSDARRGATVFSTRWGCRAATLFDDSASRGIGAPALSCPTTCLH----VSALFRTSLACAPQKTVAEPDVDVEPLSPRRTASIAASKLSPFARVVLEPPTLVLILDQTPSLSAVTEISNTGGIKGAFHVCKDSLPGWISLDGSELGELEPGEKVEITIVID 758
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A835Z928_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z928_9STRA)
HSP 1 Score: 290 bits (743), Expect = 2.370e-77
Identity = 185/494 (37.45%), Postives = 240/494 (48.58%), Query Frame = 2
Query: 419 KTLDLRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVG-IYGGDSVRRLALDRYWSSDVKMSDHMPVSALFRTSL 1897
K L LRIF GTWN+AG M+ D+ +WL VD E PP +F +GFQEV++LSA NVV DSFLD QSR N+ +W ++ +L YG RHGV Y +S R+LGTYI+VMA ++ + VQ + TG+GG GNKGAVA+RM IA +LCFVC HM AHRENV RNAEY+ ++ R +F + D K+ S R GG + D ++A PP+ + + DS G G IL+ D+V WLGD+NYRI T+ E V MVA + E LR +DQL+ A+G AF +F EG L F PTYK I GTR+ D RPEKK+RCPSW DR+L+S + V+R++L+ YWSS +SDH PVSALF +L
Sbjct: 113 KQLSLRIFAGTWNIAGEMLSTAEDLEEWLGVDVCPGES----PPDLFAIGFQEVIDLSAGNVVADSFLDNQSRTNARRWLELIENYLDIYGKRHGVKYRQLSHKRLLGTYIVVMAEASLACRVTDVQRAHVATGIGGKLGNKGAVAIRMVIAREVTLCFVCCHMCAHRENVLQRNAEYRTVTERRLFRVLA--------HDALQTRPKYLLASQAEQ----------------RMGGLAALSTYAAXXXXXXXXXXXXSRSDDLSAS---ASPPR------------------------------------------------RVDYSGSGDSGGGTIG-------------------ILDHDVVVWLGDMNYRIGGTVTSEEVGRMVAAGETEALRELDQLSTEMAAGRAFPQFFEGRLSFDPTYKLIRGTRDFDLRPEKKMRCPSWCDRILWSAPHVCNAGPVQRMSLENYWSSGPYVSDHAPVSALFALTL 508
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A7R9U3C0_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U3C0_9STRA)
HSP 1 Score: 186 bits (471), Expect = 5.310e-46
Identity = 141/455 (30.99%), Postives = 214/455 (47.03%), Query Frame = 2
Query: 431 LRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRL-PRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMV--ARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTR--ELDRRPEKKVRCPSWTDRVLY 1780
+RIFCGTWNV G++ ED + W++ LD P + V+G QE+V+LSA NV+++S D +++ N KW ++ + G G Y +V+ M+G +LV A+D + +I +Q +PTG GG+ GNKG V +R DI T + FV +H+ AHR V RN +++ I+++ +F N PG ++ SP+ S K+ + + PRG G +G + A VD+ R+ + ++ G++G EE+ + +L+ D+VFW+GDLNYRI E + + V+ ++ D LE L +DQLN R++G +F F EG L F PTYKYIPG + D RPEKK+RCPSW DRVL+
Sbjct: 4 VRIFCGTWNVNGKVEEDYYGLGNWINCG-LDP------VPDMLVIGLQEMVDLSAVNVMMESATDGKAKGNMDKWSNVMRIAIARQGGACGKRYELVAAKHMVGICLLVFASDELIPHISGIQKSIVPTGAGGL-GNKGGVCIRADIYDTQ-VAFVSSHLYAHRSKVAERNGDFQNIATKKIFRNMVLRPG----------NLSNSLSSPILS-----------------------------KEGLPGEKDKAQPRGVFGNLLAFQGAV---------------------------------------SASVDSTGDREEKAEGGSVDGASSGLNG---NLEEDM--------QCVLDHDLVFWMGDLNYRIVEGVELDEVYQLINSGDDGLEKLIELDQLNQERSAGRSFRGFHEGRLRFGPTYKYIPGEKPQRYDNRPEKKMRCPSWCDRVLW 360
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A7S2SHQ8_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SHQ8_9STRA)
HSP 1 Score: 181 bits (458), Expect = 2.070e-43
Identity = 145/496 (29.23%), Postives = 214/496 (43.15%), Query Frame = 2
Query: 428 DLRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARDDLETLRVMDQLNIARASGDAFSEFQEG----PLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWS-SDVKMSDHMPVSALFRTSLK 1900
D++IFCGTWNV G+ + E D+A WL +Q P I+ +GFQE+V+L+A NVV D +S+ S KW ++ L V YS+V E ++G + + ++ V S + G+ G+ GNKG ++RM + T+ LCFV AH+AAHR+NV RNA++ I + VF + G VVG A G P ET AAI + + G+SG K+ I++ D+VF++GD NYRI E++P E VF+ V + DL L DQLN+ R+ G+ F F+EG FPPTYK+ P T E ++RP+KK+R P+W DRV++ + + Y+S +++K+SDH PV+ALF + K
Sbjct: 44 DIKIFCGTWNVNGKKPDPEEDLALWLQPEQN---------PDIYCLGFQEIVDLNAVNVVADG----KSKERSSKWSEVIETTL---NSSPDVQYSLVHEKHLVGIMLCIFVRVEHMQHLASVASQTVGVGVMGMMGNKGGASIRMRLRDTT-LCFVAAHLAAHRDNVAGRNADFANIIQKTVFIHEGN--------------------------------GRVVG------------------------------------ADSEGADP---------------------------------------------ETDKAAIRPSDEWGRSAGMSG---------------KSLGIMDHDLVFFIGDFNYRIVESIPTEDVFERVTQGDLAFLWKNDQLNLERSQGNVFQAFEEGLDPDNPPFPPTYKFQPKTSEYEQRPDKKLRAPAWCDRVMWHA-----KTKDHIDQQSYFSVTELKISDHKPVAALFNSKCK 389
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A2R5GZG0_9STRA (Inositol polyphosphate 5-phosphatase, putative n=1 Tax=Hondaea fermentalgiana TaxID=2315210 RepID=A0A2R5GZG0_9STRA)
HSP 1 Score: 167 bits (423), Expect = 1.300e-38
Identity = 157/503 (31.21%), Postives = 230/503 (45.73%), Query Frame = 2
Query: 416 SKTLDLRIFCGTWNVAGRMMEDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRH--VQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATH-SDSTMGISGMARRREEETLFNGLP----KTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSSD-VKMSDHMPVSALFRTSLK 1900
+K DL++F TWNV G+ + + L ER P I+V GFQE+V+L+A NVV+DS S+ + W + A L G+HY +++ ++G + V A + + VQ+ TG+ G+ GNKG V++R + T+ CFVCAH+AAHRE V+ARNA+Y+ I + F + + + + AA + + P G + G +G RGGG +P + +P G G + P D +A ET A +G S +T G G + +L N P +T +I + D VFWLGD NYRI + VF V +DL LR DQL +A+G F F+EG + F PTYK+ GT + DRRPEKKVR P++ DR+L+ G S R + +Y S + +SDH PV +F +K
Sbjct: 81 TKYHDLKLFVTTWNVNGKKPSESLEAL-------LSVGGAER--PDIYVCGFQELVDLTAGNVVMDS----ASKDRTSTWVDAIGATLKRMYGGEGLHYKLLTARNLVGVMVCVFVNRAHVARVPQLSVQTAITATGVMGM-GNKGGVSLRFQLYDTT-FCFVCAHLAAHREAVEARNADYRNIMLKTTFKDDAQTLVHRSAEERLAAPSDATTMLPDGHGVYNRANDGALGPASVRGGGLAP--------------ATMP---------GFGAVGPD------------------------------------DTDSEAGET-SAGMGAGDGGSGNTAGAGGEDDMLQHSSL-NLAPVLAEQTFSIADHDYVFWLGDFNYRIVMPHSIDEVFRHVDANDLAWLRRNDQLLSEQAAGRTFVGFKEGEIEFLPTYKFQAGTNQYDRRPEKKVRAPAFCDRILWRD--VNGASAR---IQQYVSCPTLTISDHKPVIGIFEARVK 502
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A6A3EIF8_9STRA (Type II inositol 1,4,5-trisphosphate 5-phosphatase n=5 Tax=Phytophthora TaxID=4783 RepID=A0A6A3EIF8_9STRA)
HSP 1 Score: 164 bits (414), Expect = 1.150e-37
Identity = 150/501 (29.94%), Postives = 200/501 (39.92%), Query Frame = 2
Query: 434 RIFCGTWNVAGRMM---EDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRH-GV------HYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARD-DLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSSD-VKMSDHMPVSALFRTSLK 1900
R+ GTWNV + D + I WL + R+PP + +GFQE+V+L+A NVV++S L Q S W V A L +RH G+ Y +V E ++G +LV +++ V+ G+ GV GNKG AVR+ +S+LCFVCAH+AAHRENV RNA+Y I S+ F + S GAA ++DV SGR ++G P +IL D VFW+GDLNYRI++TL E VF M L+ L DQL I R G+ FQEGPL FPPTYK+ GT E ++RPEKK+R P+W DRVL+ S + L Y S + +SDH PV A F +K
Sbjct: 51 RVVAGTWNVNAKKPLAPADASKIVTWLQ-----PQASTREPPDVVALGFQEIVDLNAVNVVVNSALTVQ---RSAAWEEAVLAAL----NRHIGISAGGSEQYRVVLEKHLVGILLLVFVRTDHWDHVKEVKGATAGVGIMGVMGNKGGAAVRLKFY-SSTLCFVCAHLAAHRENVAGRNADYLNILSKVQFGD-SAEDGAAPIQDV------------------------------------------------------------------------------------------SGR-----------------------------------------------------FWSGEP---SILNHDFVFWIGDLNYRIQDTLTTEEVFRMAESGRSLDKLVQHDQLTIERQRGNVLKGFQEGPLSFPPTYKFQAGTSEYEKRPEKKLRAPAWCDRVLWKA-----KSPNDVKLRSYTSVPALDLSDHKPVHASFDIQVK 386
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A0W8DKM5_PHYNI (Phosphoinositide 5-phosphatase n=13 Tax=Phytophthora TaxID=4783 RepID=A0A0W8DKM5_PHYNI)
HSP 1 Score: 157 bits (398), Expect = 1.310e-35
Identity = 140/500 (28.00%), Postives = 195/500 (39.00%), Query Frame = 2
Query: 434 RIFCGTWNVAGRMM---EDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDY------GHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMV-ARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSSD-VKMSDHMPVSALFRTSLK 1900
R+ GTWNV + + T I WL +S +E PP I +GFQE+V+L+A NVV++S L Q S W + L Y V Y +V E ++G +LV +++ ++ G+ GV GNKG AVR+ +S+LCFVCAH+AAHRENV RNA+Y I S+ F A+ ++PV ++ ++G P +IL D VFW+GDLNYRI++TL E VF + + L L+ DQL R SG F+EGPL FPPTYK+ GT E ++RPEKK+R P+W DRVL+ + + L Y S + +SDH PV+ALF +K
Sbjct: 89 RVVTGTWNVNAKKPLGPAEATKIVDWLHPTTTESRRE---PPDIVALGFQEIVDLNAVNVVVNSALTVQ---RSSSWEEAMLTALNRYVGASTAASETAVQYRVVLEKHLVGILLLVFVRTDHWDHVKEIKGATAGVGIMGVMGNKGGAAVRLKFY-SSTLCFVCAHLAAHRENVAGRNADYLNILSKIQFEEN----------------AEDGTVAPV---------------------------------------------------------------------------------------------------------------------------------QDPRFWSGEP---SILNHDFVFWIGDLNYRIQDTLTTEEVFRLAESGQSLNELQQHDQLTNERRSGRVMRGFEEGPLTFPPTYKFQAGTSEYEKRPEKKLRAPAWCDRVLWRA-----KNPTDVKLRSYSSVPALDLSDHKPVNALFDIQVK 428
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
A0A0P1B122_PLAHL (Domain-containing protein n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1B122_PLAHL)
HSP 1 Score: 157 bits (396), Expect = 2.110e-35
Identity = 143/494 (28.95%), Postives = 196/494 (39.68%), Query Frame = 2
Query: 434 RIFCGTWNVAGRMMEDETD---IAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDY-----GHRHGVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMV-ARDDLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSS-DVKMSDHMPVSALF 1885
RI GTWNV + + T+ I QWL Q SE + +PP + +GFQE+V+L+A NVV++S L Q S W +V L Y G V Y +V E ++G +LV +++ ++ G+ G+ GNKG AVR+ +S+LCFVCAH+AAHRENV RNA+Y I S+ F SF D V ++ +S R +NG P +IL D VFW+GDLNYRI++TL E +F + + L DQL R +G F+EGPL FPPTYK+ GT E ++RPEKK+R P+W DRVL+ + + L Y S + +SDH PV ALF
Sbjct: 68 RIVIGTWNVNAKKPLNSTEAYKIVQWL---QPPSEIRQ-EPPDVVALGFQEIVDLNAVNVVVNSALTVQ---RSTAWEEVVLTALNRYIGVSDGTERPVQYRVVLEKHLVGILLLVFVRTDHWDHVKEIKGATAGVGIMGMMGNKGGAAVRLKFY-SSTLCFVCAHLAAHRENVAGRNADYLNILSKIQFEE--------------------------------SF-------------------DENVTPPVQDLSGRF--------------------------------------------------------------------------------------------WNGEP---SILNHDFVFWIGDLNYRIQDTLTTEEIFRLAESGGSYHELMQHDQLLKERRAGRVLKGFEEGPLLFPPTYKFQAGTSEYEKRPEKKLRAPAWCDRVLWKA-----KNPADVKLCSYSSVLTLNLSDHKPVHALF 402
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Match:
G5A0N1_PHYSP (Multiple inositol polyphosphate phosphatase-like protein n=1 Tax=Phytophthora sojae (strain P6497) TaxID=1094619 RepID=G5A0N1_PHYSP)
HSP 1 Score: 156 bits (395), Expect = 2.580e-35
Identity = 143/507 (28.21%), Postives = 193/507 (38.07%), Query Frame = 2
Query: 434 RIFCGTWNVAGRMM---EDETDIAQWLDVDQLDSEKEERKPPHIFVVGFQEVVELSAHNVVIDSFLDTQSRANSLKWFTIVYAFLLDYGHRH-------------GVHYSMVSEHRMLGTYILVMATDAVQSNIRHVQSVAIPTGLGGVFGNKGAVAVRMDIAGTSSLCFVCAHMAAHRENVQARNAEYKLISSRPVFSNTSGSPGAADLRDVFAAAAKHAYLSPVNSGYWGSFFGGVVGGQGGRGGGTSPTRDLEVKKAMKAISSRLPRGGDGIAAGGRGRMPPQGEGGAKGGLSKSIGGSGSGRQGAPGGKGSENGSFKGMADVDAVETRDAAIGIATHSDSTMGISGMARRREEETLFNGLPKTKTILEADIVFWLGDLNYRIKETLPDEAVFDMVARD-DLETLRVMDQLNIARASGDAFSEFQEGPLCFPPTYKYIPGTRELDRRPEKKVRCPSWTDRVLYSVGIYGGDSVRRLALDRYWSSDV-KMSDHMPVSALFRTSLK 1900
R+ GTWNV + + I WL + PP + +GFQE+V+L+A NVV++S L Q S W V L +RH + Y +V E ++G +LV +++ ++ G+ GV GNKG AVR+ +S+LCFVCAH+AAHRENV RNA+Y I S+ F + S GAA ++D IS R ++G P +IL D VFW+GDLNYRI++ L E VF + L+ L DQL I R G+ FQEGPL FPPTYK+ GT E ++RPEKK+R P+W DRVL+ S + L Y S V +SDH PV A F +K
Sbjct: 75 RVVTGTWNVNAKKPLAPAEAAKIVSWLQPQGTATTTSREPPPDVVALGFQEIVDLNAVNVVVNSALTVQ---RSSAWEEAVLTAL----NRHIGPGAGAGSAEAPALQYRVVLEKHLVGILLLVFVRTDHWDHVKEIKGATAGVGIMGVMGNKGGAAVRLKFY-SSTLCFVCAHLAAHRENVAGRNADYLNILSKVQFGD-SAEDGAAPIQD---------------------------------------------------ISGRF--------------------------------------------------------------------------------------------WSGEP---SILNHDFVFWIGDLNYRIQDALTTEEVFRLAESGRSLDKLVQHDQLTIERQRGNVLKGFQEGPLTFPPTYKFQAGTSEYEKRPEKKLRAPAWCDRVLWRA-----KSPNDVKLRSYTSVPVLDLSDHKPVQACFDIQVK 421
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1012.24.2 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 6.53e-154 / Id = 53.19 Expect = 8.09e-128 / Id = 42.09 Expect = 2.37e-77 / Id = 37.45 Expect = 5.31e-46 / Id = 30.99 Expect = 2.07e-43 / Id = 29.23 Expect = 1.30e-38 / Id = 31.21 Expect = 1.15e-37 / Id = 29.94 Expect = 1.31e-35 / Id = 28.00 Expect = 2.11e-35 / Id = 28.95 Expect = 2.58e-35 / Id = 28.21 Sequence D8LL08_ECTSI A0A6H5L6C6_9PHAE A0A835Z928_9STRA A0A7R9U3C0_9STRA A0A7S2SHQ8_9STRA A0A2R5GZG0_9STRA A0A6A3EIF8_9STRA A0A0W8DKM5_PHYNI A0A0P1B122_PLAHL G5A0N1_PHYSP Pages
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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.D8LL08 PFAMs Exo_endo_phos Model size 3424 Max annot lvl 2759|Eukaryota KEGG rclass RC00010,RC00078 KEGG ko ko:K01099,ko:K01974,ko:K12819,ko:K13566,ko:K20279 KEGG Reaction R00269,R00348,R04404,R09827 KEGG Pathway ko00250,ko00562,ko01100,ko03040,ko04070,map00250,map00562,map01100,map03040,map04070 Hectar predicted targeting category other localisation Exons 11 Evalue 5.51e-160 EggNOG OGs COG5411@1|root,KOG0565@2759|Eukaryota,KOG0566@2759|Eukaryota EC 3.1.3.36,3.5.1.3,6.5.1.4 Description phosphatidylinositol-4,5-bisphosphate 5-phosphatase activity Cds size 2115 COG category T BRITE ko00000,ko00001,ko01000,ko03041,ko04131
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
1680866373.0114014-UTR-A-nodosum_M_contig1012:142487..142701 1680866373.0114014-UTR-A-nodosum_M_contig1012:142487..142701 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1012 142488..142701 + 1680866373.3942537-UTR-A-nodosum_M_contig1012:174099..175194 1680866373.3942537-UTR-A-nodosum_M_contig1012:174099..175194 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1012 174100..175194 +
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866373.025213-CDS-A-nodosum_M_contig1012:142701..142951 1680866373.025213-CDS-A-nodosum_M_contig1012:142701..142951 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 142702..142951 + 1680866373.035784-CDS-A-nodosum_M_contig1012:160420..160533 1680866373.035784-CDS-A-nodosum_M_contig1012:160420..160533 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 160421..160533 + 1680866373.0463336-CDS-A-nodosum_M_contig1012:160962..161082 1680866373.0463336-CDS-A-nodosum_M_contig1012:160962..161082 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 160963..161082 + 1680866373.0587707-CDS-A-nodosum_M_contig1012:161633..161762 1680866373.0587707-CDS-A-nodosum_M_contig1012:161633..161762 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 161634..161762 + 1680866373.0704064-CDS-A-nodosum_M_contig1012:162601..162771 1680866373.0704064-CDS-A-nodosum_M_contig1012:162601..162771 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 162602..162771 + 1680866373.0783103-CDS-A-nodosum_M_contig1012:163666..163977 1680866373.0783103-CDS-A-nodosum_M_contig1012:163666..163977 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 163667..163977 + 1680866373.1457338-CDS-A-nodosum_M_contig1012:165029..165223 1680866373.1457338-CDS-A-nodosum_M_contig1012:165029..165223 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 165030..165223 + 1680866373.1579907-CDS-A-nodosum_M_contig1012:169994..170101 1680866373.1579907-CDS-A-nodosum_M_contig1012:169994..170101 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 169995..170101 + 1680866373.1716077-CDS-A-nodosum_M_contig1012:172101..172224 1680866373.1716077-CDS-A-nodosum_M_contig1012:172101..172224 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 172102..172224 + 1680866373.1800883-CDS-A-nodosum_M_contig1012:172821..172961 1680866373.1800883-CDS-A-nodosum_M_contig1012:172821..172961 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 172822..172961 + 1680866373.195271-CDS-A-nodosum_M_contig1012:173641..174099 1680866373.195271-CDS-A-nodosum_M_contig1012:173641..174099 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 173642..174099 +
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig1012.24.2
>prot_A-nodosum_M_contig1012.24.2 ID=prot_A-nodosum_M_contig1012.24.2|Name=mRNA_A-nodosum_M_contig1012.24.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=705bp
MMVLQSGDGDAPSTAPPEPAQQGCNCEELDTVMTASAWEQMMASRAITSG back to top mRNA from alignment at A-nodosum_M_contig1012:142488..175194+
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1012.24.2 ID=mRNA_A-nodosum_M_contig1012.24.2|Name=mRNA_A-nodosum_M_contig1012.24.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=32707bp|location=Sequence derived from alignment at A-nodosum_M_contig1012:142488..175194+ (Ascophyllum nodosum dioecious)CACACGCTTCGTCGTGACGCCGACACGGCTTCAGCTGTTCCCAGATGATA
AGACCTCCGTAGTGTTTCATCGCAATTTCGGAACCCCGTCGGCTTGCGTA
GCGGAGTGTCCCATTGATGTCATACGCAACGGTTGTCCTTAGTTGTACCT
TTTCCAGACCAAGAGCTGCGTACCGCGTTCAGTAGTAGCATTTGACATCC
GTTGACTTTGGAGC ATGATGGTTCTCCAATCTGGTGATGGTGATGCCCCT
TCGACCGCGCCGCCGGAGCCTGCACAACAGGGGTGCAACTGTGAAGAACT
TGACACCGTGATGACTGCTTCTGCGTGGGAGCAGATGATGGCTTCGAGGG
CGATTACCAGCGGAGAAGTAGGGGCAAACAGAAGACAGCACCGCCAGACC
GTCCGCATCGTACCGTCCAAAACTCTTGACCTCCGCATATTCTGCGGGAC
ATGGAACGTTGCAG GTGAGAAGCTTGGAACACCTCAGATATGAAAACCGG
GACGCAAGCGCGCCGGCGTCATTCATCTGCCGACTTCGAGTAATCAGAAT
GTTTAGTGTTACTGTAGCAACTTTGCCTACTTCCTACGAGTAAAGACATC
GCTAACCGAATGTTTGCGTTGGACTTCCCACCTCGAAACCGGTGAAGTAC
TTTTCTGCCTGGACTTCTTTCCACAGACAGTAGTATCAGTATACTGTAAT
TTAATTATAACGGTTCACGAGGTACGATACACACTGTTGACCGTTGTACC
TCTTTGTGATCACGGGCAGTACTGGCATTTGATAGGCCTATGGCTGACTT
GTTGTGTCACCGTAATTCCCGTAATCGACAACATGAACCCTACCAAGATA
AACATAGATGATAGTTACACTGAGATTAGAAAAATTCTCTAACTTTTATC
GATGACCTCGCCAATGTATTCCGGAACTCCTGGTCCAACTTTATTTTTCA
CCCCTTGCTTTTGTTGGTGTCCCTGCATGGTTTGAAGAAAAATCTGAACG
CACCTAAACCGTCCATTTAGTCAAAAGGTTAACGTGGGAACATTGACTGT
AGGGACAAAAACTCTACATGGTATTAAAAGGGTTCCCCAATGGAGTCACA
TAGGGCCAAGAGTATAATATCGGGGAGAAGCCCACCGTTACACTGTCTGT
ACACTTACATTAATCGCCATGTAGGGACACGAAAACAGAAGCAGACTATA
CAGTATTTTTGGACTAAGAGTTCCAGACTATGGTACAGTAATATTCTATA
GAGAAATTAAGTTGAAAATAGAAAGTAAGATTTGTTGTTATTTCGAAGGA
AGTCTACAGGTCATAGATGTGAAGGACCTCAAATTTACAACATGTGTGTG
TGTGTGTGTTTTCTTCCCATTCATTCTGGGCATCAAGTTCGTTGGACGTA
CCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTCTCATCCACCT
TCTTTCTGCGGTGCGTACCTTAATTTTTTTCGCGAGAAGGATTCAGCCAC
TCGTTTCCCTCGTCGACCGTGAAGTCGAACTGGAATTTTGTGTACTAACG
ATTTAATCGTTCTCCACCCGCTGGGCATTTTTATTTCTTTTATTTTTAAT
TTTTAATTTTAGCTTCGGCCAACTGATATACGGTATACATTTATGAAAGC
AGGTGTTTGAAGGTTTAGTTATATACAGTAAAGTCAAAAGGATAAATTGT
GGATATGTTACTCATGATTATACTATTAATACAAAACTTACGTTAAAGGA
TCAGGACTATAGTAGTGTTTTGTGTGTTTTCTTCCCATCCATTCTGGACA
TCAAGTTCGTTGGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCACAC
AGGATTTTTAATCCACCTTCCTTCTGCGGTGCGTGCCTTGATTTTTGTCG
CGAGAAGGATTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGAATTT
TGTGTACTAACGAATTAATCGTTCTCCACCCGTTGGGCATTTTTATTTTG
TTTTTTTAGTTTTTAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCAC
GTCCCAACGTGTCAGAAGGTTACGAGGTGCCGACTGAGCTACCGGGGTCG
ACCGGCTCAGTATGATCATAGTATTACGATAAAATATCCTACAGTTGTCT
ATGAATTACATGTGAGGTCTCGAATTACAACGGGCCTACTATACAGTATT
TTGTATCTTAGGACCATTACAAGAAGAGTTCCAGACGACGGTACAGTAAC
ATTCTATAGAGAAATTAAGTTAAAAATGGGGTTTGGTGTTGTTCCTTGTT
GTTATTACGATAAAATTTACCTGCAACTCATAAATATGGGCGGTCTCAGA
TTACAACGGGCCATAGGGACTGATATCCAGTAATGGAAGCAGGTGTAAAA
TACTTACAGCATCACTATGTAAAAAGAAGAGGAATAAAGTATATGTAACA
ATAACGGCAAAAGGTTTGAGTCAAAGATTTGAAGAAAGACGGAGAGGGCG
ACCAGCAGCGATGTCTTCAACATAATCCAGAAAAGACCAAATACCGTTGC
TCACCTGAAAGTAGACGAAGCAATGGAGGGTCGTAGGTCATTTTGCAGCA
TTTTTGGACTAAGAGCTCCAGACTACGGCACAGTAATATTCTGTAGAGAA
ATTATGTCAAAAATAGGGTTTAGTGTTGTTATTTCGAAGGAAGTCTACCG
GTCATAGATGTGAAGGACCTCAAATTTGCAGCATGCCAACTGATATATAC
CTGGGACTCGCTAAGATGATGGAAGTCATCGTAGAGGTGTGCCGAGCCTT
CGCGCTGACCGTGTCGGCGAAGAAGACAGAGACCATGTGCATGCCTCCAC
CGCGTACACCGCGGACGATGGTGCAAATCGAAGCGGCCGGGCAAACGTAC
AAACAGGTGCAATCCTTCACCTACCTAGGGGCGCGGTGACCGAAGTCCCG
GACATGTCCGTTGAAATCGCCAGACGGACCCGCGCATGCTGGATGCGCAT
CAGGCGGTACCTGCGGGAGCTCTACGACCAACCGAAAGTCTCGCTCTCCC
TCAAGACCCGAATGGTTAAGGCGGAGGCAATCGAGGCCCTCTTGTATGGA
TGCAGTACGTGGACCCTTCGCCGGGAACACTACGCCAAACTCCGCACCGT
ACACCACCGAGTCTTGCTTCGTATCATCGGGGCACAGCGCAAGAGACCAG
ACCATCGGATGACTTCGTACAACCGTGCCCTTGAGATAACCgGGTGTGAA
AGCATTGAGACGACGTTGCGAACGAGAAGACTTTTGTGGGCGGGGACGCT
CCTGCGAATGAGCGGCGGGCGGCTGCCGAAGCGAATCGCTTTCGGAAACC
TTGAGGGTGCAGTACGGAGGGGACGGGGTGGCAAAGGAAAAAGAGTGGAC
CGATTGCGTACAGAGCGACATCCGGACGTTTGGCATAGCGGGGGACTGGA
AAGCGACGGCTTTAAATGCTGAGGTGTGGGTTGAGACGGTCACGGAGGGT
GGGCGGAGGTTTATGGCCGCGTGGAGGAAAGAAGAGGTAGACGCGGCTAG
ACATCGCCAGAAGAGAGAAGCAACGAGACTGGGAACCTTATTATCGCAGA
CGGGAGTGTAGAATTGCGAAGCCACACCCATAGGCCTAGTCGACGAGCCG
AAGGTATCCTTGTACGGACGCGAGACCGACCACCTGCGTAGCGCCTGTAG
ATGCGTCGCGTGATTTTATTTATTTTCTCCCGAACGAGCAGTGTGGGGGG
TGGGGGGGGTATGCTGCCAGACTTTTTCTTTTGTTCTCTTTTCCCTGTTC
AGCAGACCACGAGCGGGATTGGCCACCGTGTAAAGTAGTTTTTCCGGGTT
GGCAACCAATACGCTGAATGTGAGAAACAACAACAACAACAACAACAACA
TTTATGAAAGCAGGTGTTTGAAGGTTTAGTTACATACAGTACTGTGATAT
CAAAAGGATAAATCGTGGATATGTTACTCATTATACTATGTGTGTGTGTG
TGTTTTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGACGTACCAGCC
GGGGTCACACAGGAGGAAGGTCACACAGGATTTTTTCATCCACCTTCCTT
CTGCGGTGCGTGCCTTGATTTTTGTCGCGAGAAGGATTCAGCCATTCCTT
TCCCTCGTCGACCGTGAAGTCGAATTTTGTGTACTAACGAATTAATCGTT
CTCCACCCGTTGGGCATTTTTATTTTGTTTTTTTAGTTTTTAGGAGAAAA
ATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAGAAGGTTACG
AGGTGCCGACTGAGCTACCGGGGTCGACATAAAACTTACGTCAAAGGATC
AGGACTTTAGTGTAGGACGATCATAGAAGAAGAGAGATCCATTATTTAAA
GAAAAATCAGAACGCACCTAGACCTTCTGAGCAACCCCCAGTCAGGGGGA
AAAATGTCAAAACGTTTAGGTGGGATCATAGACTAATATTGTTGTTAAAG
AAAAATCAGAGCGCACCTAGACCTTCTGAGCATCCCCCGGTTAATGGGGG
AAAAAATGTCAAAACGTTTAGGTGGGATCAAAGGCTGCAAATACAAAACC
TCTTCGTGGCATTTAACCCTTCTGGCCCTGGACTACTCGCCTTCCGACAG
ACCGGACTGTCATAAAAACTCGCTCCGTTTCACAAAAATAAAATTCCAAG
AAAAAAATAGCGTTTGAGAGACATGCATAGCAGAGGAGAGAAGTGCACAA
AAAACAAGAAGTACATATATCTAGTCGGTAGCTTTACGATCTCGGCCCAA
GGGGCGTGACGGCGGCCCGCAACAGGCTGGAGGCGTCTCTCAGGGTACAA
GAAGGGTTGTGGAGTGGTTGTGGAGTGGTAGTGCTGTCGCAGACAGAGGT
TGTTAGGCGTTCAGCCCTAGATTTTCTATGCATGTCACAACTCTATTTTC
AACATATTCTCAAATGATCAGTACAGAGGGTCCAAATGATCAGTGAGAGC
GCTTTGAAGGGCCAGACTGACAAACTGTACTTCTGTACTTCTCTGGCCCC
GTCCAATCAATGATCCCTTCGGACTCACTAGCGCTCCTTCTTTACAATAG
CACAACAACAGCCTACGTTCCCACCTAAACGTTTTGAGATTTTTTCCCCT
GACTGGGGGATACTCAGAAGGTATAGGCGCGGTTCTAGTTTTTATTTTTG
TATTTGCAGCCTTTGATCCGACCTAAACCTTACATTTTTTCTCCTGACCG
GAGGATGCTCAGAAGGTATAATAGGCGCGTTCTGGTTTTTCTTTATACAC
AAACGAACATGGATTGGCCTCCGTGGCCCAGGCATTCTCCCTAAAAAGAG
TAGTATGCATCATTTTCCACGTACATTGCAATTGTGTATGGTGGCAAGAG
AGGATTTATATTTGTACGGTTGTTCTGGCTCACAGATGTGGGCTCCACAA
TTGCTTGTGTGCTGTGTAGAACGGCGCGGTTGCTGTAATTCGTGTGTACT
GTACGATGAGGTTCGGAGGACGTGGTGATTCGTTCGTTGCTCCTGATATT
AAACAGGGAGTTGTTTTTCATGGTATCGAGGCAGCAACTTTTTGAGCATG
CGTATGGGTTCAAAGGTTTTGTTTAAACAGGTTCCCAGGCACAGCGTTGC
TCAGATAACATTGGGTCAACAGTATAACTCTTACTGTTATTACGATAAAA
GATACCTACAGTTGCTGTTGTTGTCTGACCTCTATCCAGTACTGTACCTT
CTCTTTCTTATTCTCCAGTACCTTCTCTTTCTTACTCTTcCAAGAGAAAC
AAACGAATTTCCGGGGTCACAAGCCAACCCAAAATAAGGTACAAAAAAGT
AAAAAGAAAAGAAAAAAGACCCGGAGAAAGTCCCAACACTTTCGAGAAAA
ATATGATACAGGTTCCTAAAAAGAACAGGGTCAGAAAAAACAAGAAGCAG
GTTAGGGTAGGAAAACCCCCAAAAGGAAGTAGAGCTCATCGCTCGAAACT
CGGAAGCTGAGTCACAAACAAAATATACTATATAGGGATACCAATACAGG
TAAAAAATAAATGAAGAGGAAGCTATCCCCCACCCCCTACGAAGCCGGGG
AGTGTTCATCGTCGGGTTCCCGCCGACCAGGCCTTCCCCACTCAACACCC
TGGAGCTGTGAGAGGGCAAAAACAAAATTAACCACGCACGTCATGCAAGA
TATGGGAGGTCTCGAATGTACAACGGGTCATAGGAACTGATACAAATTAA
TGGAAGCAGGCGTAAACTACTACTTGTAGCATCAGTATTAATGAAAATAC
AAGTTATATTGTTGTGAAAGCAAGAAAAAAACTTAAAAATATTAAAATTA
GAATGAAAAAAAAAATTCGAAAATATAAAGCAAACGTTTCCTGTTGTTCT
AGATTTATCAGAAGTTCAAAGATTAAGCTTTTGCTGGTTTTTAACTGAGG
GTGAGTAGTGAGGTATATGTATGGACAAAAGAACCAAAATATTTGGGTGT
ATAGTGTTCTCCCTCTGACCCTAGGTGAATTTCCTCCGTGTTACCTTTCA
TGAACATATAAAAACCCATTTTCCCTGATCAGCTGACCACGAGCAGGATT
GGCAACCTTACCCGGTTGATCCAAACCCATGCTGTATGTGATGACCATAC
ATACATACAAACAAGTATCATTGATCCCCCCTTGGGAGGATCAATGCGAG
TGGCATAGAATGACTAGGATGACAGGGCCGGATTgcgcaGTTATGTGCAA
TTTAATAAAGGGGCTTCGCCAAAAAGGAGTATACCTCCCTATTTTTGCGC
CAAAAGGGGCACACCCaAAAAACATATGGGCAATCTACACTAAACGTAGC
ATTATTTCTTACTGTGCCCCTTTTTGGCGGAAAAATACAGGGGAATACCC
CCCTGTGTCTATTCAGCTCAACATGTACCCCCTCTTTGCCGTAGAGATTA
CCCCTTTTTGGCGAAAACAGTACAAAATAGCAGTACTTCCAGGCAGCACA
AGGCTCTTGTGCGCTTCAGCCCCACTGTGCGACCGCCTTCACCGTTCCCT
GCCCCTAAACCTCTAATACTGCTTGCTATAGACGCTTCTCTCCTCACACA
ACATGGCGGATCAACAACAACAATCGTGGGCGACCATCTGTGGTGGTACG
CCACCAGAGCTTAACGTAAGACGGCTTCAGATAGGCGATCGGTTTGTACA
GACGGCGGACCTTCGCGTGGCCACGGAGCGATGCTTCTTGGCGGATGACA
GAGGCATGTGTGCAGATAAACGCGTGGGGGATCTCGTGGAAAGCTTTATC
GCTGCGATGGCGCTGTATTGGTCATCAAAAGCAAAGCTAAGGAAACTATA
GTTCGTGCATGTTGGCAATCCTCGACGCAAGAATGGAGGTCTCTTACGAA
CGTACGCTATGCTCTGGGGGTACCAAGAATGCAAGTCCAAGAGCTCTGCG
GGCCGAGGCTGCCAAGTTCATGAATTCGAATACAAATATGACGGCATCAT
CATTGAAGAACTCATGAAAAGTCCCAGTCTGGGTGCGGTAAGCTGAGCGG
ACGTTCCGCCAGTCGCCTCCGCAAGGAGATTCTCGGTACAGGGGATAAAG
AAGTCGCGGCATCGTGCGATGCTCGATAGCTTCTTAGAGTTCATACGTGA
CAAGTGCGGAGGAAGCGTTACCGACTGTCAGGTGAGAGCTAGCCCGAGAA
GAGGGAATGCTTGAGCGCAGTGGGCTTGTATGCCTTTTGGTCAGGGACCC
TGTGTCGTTTCCATCCCGTTCGTGTCATCATCGGAAATTTTCGTTAGTTT
GTACTACGGTCATTCTATCACTGTCTGTAGTTCGATTTTGAGTTACACTT
TTGAATTTGAATTTGACTTTTGAGTCCAAATGATTTGTGAATGGGTGGCA
ACTGCTGTAACTGAACACGTCTGTTCAAAGATGAGACAACTTTTCAACTT
TTCAACGTCCATGAAAAATTCGCGTAATTATGTCTGTCTTCGAAAATTGT
TGTCATTGTTATACGCAATGGGACAGGCTATCACTGTCTGTAGTTCGATT
TTGAGTTACACTTTTGAATTTGAATTTGATTTTGAATCCAAATGATTTGT
GAATCGATGGCAACTGCTGTAACTGAACATATCTGTTCGAAGATGATACA
ACTTTTCAACGTTTCAACGTCCATGAAAATTTCGCGTAATTACGTCTGTC
TTCGAAAATTATTGTCATTATTTTACGCAGTGGGACAGGAACGGCCGATT
TTACCGGTGCTTCCTCGTGCTAGGTTTGTCCTTCCCAACACTTTTTCTGC
CCTTGGCTCGGATTTCCATGCATGCGGCAGACATGGGAAATAGTGCTTGG
ACGCTCGAAGTCCTCGACGAGGGCTTCTGTCTACGTCGCTACCGCCAGGC
GGCGGCCGACCCACGCTACAGCATTCTCCCACCCGTGTTGGACGAACTTA
AGATAAATCCGAAACATGTGCCACCTCTACGTGGGGGTGGCCAAGCCGGG
CGGCCTAAGGGTAAACGCCCTACAAGACGCAAGGCTTCTAACGACGAGTA
CAACACGCATTCACGCTTCAACGCAGTCCGGATGAAGACCCCTTCATCTA
CAGGCAGCGCGCAGAGGAAGTCTGCCGACCCGGTGGTGGCGGTCGATGGC
GTGTAGATAGATGCCCAACTCTTCTGTAGTCGTATTTCTTTGAAGGGTGA
CTTTCCAGTAGCATGCTCCGTGTGGAGCCGATACAGATACGATGGAGAGA
AGTCATAAAACAACTTGAAACATCAGCTCGTCGGCAAGGCCACCCGCGCT
TGCTGTTCGTTCATGACATTGCATTGCAAGCGCGGTAATTCCCAATTTTC
CTTCTTTTGTGACATTCACAATTAATTGCATGTTTCTTAACTCGCTTATA
TACATACGTGTTATTTCGGGACATTTACATATGGACGCTTGCAGCAACGT
GGAAAATCAGCTCGTCGGGAAGGCCATTTGTGCTTGCTTCGTTCATGACT
TTGTAAGCGTGGTGTTCGACACACGAAAAAGTTGTGGGTGGCGCCATTTT
AGCACCAAACGGACTGTAAAGCGGCCTCTTCGCGGTCAAAACGTTTTGCG
GGGTTCGCAACCGCTGAAATATTGTTTGATCTGTACAGTAGTAGACTATA
TCTGGAGAATCTAGTCCTTGCCCTTCGCCCTTCATGATGTACCCTTTTTA
CAGCTCCAACACCACAAAGAGAGAGCAAGCAAGGTGTACCTACCGTTGAA
TCCCAAAGGTTTTCCCTCATGCCTTGTTGCGTTTCACATCGTCTCGACAC
ACGTACTACCGGAAAAAGCGGTCTTCCTGGCGGGACTGTTGCCTCATTTA
ATCGTTTTCTAGGTGTGCCCCCTTTTTGGCGCAAAAACAGGGGGGTGTAC
CCCTTTTTGGCGAAGCCCCTTTAATAAATATACATACGTACATACTTGTA
CAAGATTCTCAGGGCCTACTGAGATCCCCTTGATCGACATTTTTCCCCCT
GACTGGGGCATGCTCAGAAGGTCTAGACGCGTTCAGATTTTTCTTAAAAC
AACAAAGAGATTCATCAATACTAGGTAACAGTAATTAAGTTAAAGTTTAA
AGTTTACCTTTTCTACTGTATGACCAGATTACTGTAGTCCGGAACTCTTA
GTCCAAATATGTTGTATACCCAGACTTAATGTGTTTGAGGAAAAACCAGA
ACGCGCCTAGACCTTCTGAGCATCCCCCAGTCAGGGGGGGAAAAATGTCA
AAACTTTTAGGTGGGATCAAGGCTGCAGATACAAAATCTCTTCATGGCAT
TTAAACGGGTTCCCCGATGGTAGTAACATTGGGTCAACAGTATAATGTCG
GGGAGAAGCACACCGTTATACGGTACACTTACATTAATCGCCATGCAGGG
ACACCAGACAAAAAGTAAAAACAAAACAGAAACAATGTAGTACATCATCA
AACATGGTAGTAATTATATACAGTTGCATCCTCGCGTACAAAGACGCCCT
CCAGCGGACCGAATGCGAGAGCATCGAAACAACCGTGCGCACGAGGAGGT
TGTTGTGGGCGGGGGCGGTGCTCCGCGTGGGTGACCACAGGTTACCCAAA
AGGGTCATGTCGGGAGAGCTCGAGAACGCGGGAAAACGTGGGCCGGGGGG
GAAGGAGAAAGAGTGGACGGACGGGGGACTGGAGCACCGCCGCACTTGAC
CCTGGGGTATGGTACAGCGCAGTACACGAAGGGGCTGTAGGTTTATGGCC
GCGTGGGTTAAGGAGGAAGAAAATGCGTCCGATCAACGGCAGAAGAAGAG
AGAGGCGGACAAGGTTAAGGTCGCACCTGGGGTGACTGTAGCTAGCTTGA
GACGTTTTCGAGCCGCGTTGATTGGACCAACCCAAGGACTCACTAAGCGA
CGTCGACCGTGCCGTTAGAGTAAACTGAAACCCTGAGAGTACGGAGTGTG
GTAGACGCTACGCGTTTGGGTGCATGGTTGCGATCCGGGGAGGGTAGCGG
ATGGCTCGCGGCTGGCATTATACCAAACTCTCTCTATCGAGTGCCCTTCT
TCTATATTTTTCTGGCAGGTGTATTTTGTTGTTACTCCTTTCTTGTTGTC
GTTTCTGTTTTGTTTCGTTACGTTTTTTGTGTTGCTCTAGTTGGAGCTTC
GTAGATGTTCCTCTGATCTTTTTCTGTCCAGCAGACCACGTACCGGATTG
GCAACCACGTATATTACTGGGTATGGTTGAGGCCCGATCGGTTAATGTAA
AGAAAACAACAACTTGTAGGCTGTAAAAACAAAGCCACTACATGGTCAAC
AGTATAATGTCGGGGAGAAGCCCACCGTTATACTGTACACTATAATATTC
CTTGATTGTGGTTTTGGTGTCCGTGCATGGCGATCAATGTAAGTGTACAG
TACAGCGGTGGGCTTCTCCCAGATATTATACGAATGTGTCGCTCTCCCTC
AAGACCTGAATGGTAAAGGCCGAGGCAATCGAGACCCTCTTGTATGGATG
CGGTACGTGGACCCTTCCCCAGGAATACCACGCCAAACTGCGCACCGTAC
ACCACCGAGTCTTGCTTCGTATCATCGGGGCACAGCGTAAGAGACCATAC
CATCGGATGACTTCGTACAGCCGTGCCCTTGAGACAACCCGGTGTAAGAG
CATTGAGACGATGTTGCGAAGGAGAAGACTTTTTTGGGCGGGGACGCTCC
TCCGAATGAGCGGCGGGCGGCTGCCGAAGCGAATCGTGTTTGGATGCGTT
CAAATTTTTATTCAAAAACCCTGTGTGGAATGCTCAGAAGGCCTAGATGC
GTTCAGAATTTTCTCAACAACTGGTGACAGGATGTGACTACATTGGGGAA
CCCTTTAGATACCATAAAGAGTTTTTGTCCCTACAGCCAATGTTTCCACC
TAAATATTTTGACATTTTTCCCCCCGACTAGGGGATGCTCAGAAGGTCTA
GATGCTGTTTAAAATCTAGACCTTCTGAGCATCCCCCAGTCGGGGGGGAC
AATGTCAAAGCGTTTAGGTGAGATCATAGGCTTTTTTTCTTTTTCTTTAG
TCTCACTTTTAGCCGATGGACCTAATCATTGGCATACTGCCTGTGGTGAC
TAAGGATCTTCCCATCTCTCCCCGGTTCACGCCTTACGATTTTTTATCGC
GATGCAAGTTCAGCACTCTTACAACTCGTCAACCAATGGTTGAATTTTAC
TTACTCACGTTCCCACGCTTTCCGTTTTGAAAGAAAGAACATAAATCCTA
CTTTGGTAAGAATCGAAATCACGACTTCCGCACTAGGAGGTGTGCAGGTT
ACCTACTAGACCACTCGGGGCTGTAAATACAAATCTCTTCATGTTGTTTA
AAGAAAATTCTGAACGCATCTAGACCTTCTGGGCATCCCCCAGTCGGGGG
GAAAAATGTCAAAACGTTTAGGTGGGATCATAGGCTGCAAAGACAAAACC
TCTTCATGGCATTTTAACGGGTTCCCCGATGGTAGTAAGTTGTTGTCTTC
GCAGTAAAAACCGTTCTGACCTCTATCAAGTACCTTCTCTTTCTTACTCT
TCAAGGCAAAGGAACGAATTTCCGTTGTAACAAGCTAACCCAAAATAAGG
TGCAGAAAAAAAAAGTAAAACCCAGAGAAAGTCCCAACACTTTCGAGAAA
AATATGATACAGGTTCCTAAAAATAACAAGTTCGGAAAAACAAGAAGCAG
GTTAGGGCAGGAAAACCCCAAAAAGGAAGTAGAGCCCATCGCTCCAAACT
CGGAAGCTGAGTCACAGACAAAATATACTATATAGGAGTACCATTACAGG
TAAAAAACTAAATTTGAAGAAGCTATCCCCCCTCCCCTACGAAGCCGGGG
AGTTTTCATGGTCGGGTTCCCGCCGACCAGGCCATCCCCACTCAACACCC
TGGAGCTGCTGTATACATATCTGTCCATTTCTACCCACGTCAACGACATT
TTCAGATATTCGTCACGCTGAGCTGAGTTTTGTGAATTTGGACCTGGAAT
TTTGACACGTGATTTGGAATATTTAAGCCGGTCGCCCCGGTAGCTCTGAG
GTAACCTCGTAACCTTCTGACACGTTGAGGCGTGAGTTCGAACAGGATTT
TTCTCACTAAAAAAAATAAAAATAAAAATGCCCAACGAGTGGATAACGAT
TAAATCGTTAGTACACAAAATTCGACTTCACGGTCGATGAGGGAAAGGCA
CGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCACCGCAGAAGGAA
GGTGGATGAGAAATCCTGTGTGGCCTTCCTCCTGTGTGACCCCGGCTGGT
ACATCCAACGAACTTGATGTCCAGAATGAAACTCTCCGAAGCATTCCCGG
ACATGCCTCCTTTTTTTGTTATTTTTAACCTCGACTTATGATCCTCTTAA
AAGAAATCATGAGAGGAGAAATTCGGAGGTAAGTGAGCGAAAAAGCAAAA
AAAAACGGAGGAATGTCCGGGATTGCCTCGACAGGTGCGTCCCAAAGCAC
GTGTCAGACTTTGAAGTCCAAATTCAAAGAACTCGGCGCAGCATGGCGAT
ATTACCAGCGTCTCAAATAATTCCGGCCGGCCCAGCTTGTAACAATACAA
GTACAAATATATACTTGAAGAAGAAGCTATCCCCCCTCCCCTGATGCGTT
CAGATTTTTCTTAAGCAACTGTACTTGTCTGTGGTTGTATTTTGTGTGTA
TTCTTCACTCTGATAAGCACTGGCTCCTTTCGATCAGTGGTAAGATCAAA
AGCCGCGGAGTGCGTTAGATGCCTACTGTACCTGGAGTAGTGTTAGATAT
GGTGCAGCTCCGGAATCCGCTCTGGCTCGATGATAGACCTGGTACGAAAA
AATACTTTGTAAGATACCAACAGTTCACAACAGTTGTGTGATTCCCAAGT
CGACTTAGATTCTCCAACGCTGAAGTCTTGAACTAATAATGAGGTTTTGT
ATTTGCAGCCTTTGACCCCACCTAAACGTTTTGACATTTTTTCCCCCCTG
ACTGGGGGATGCTCAGAAGGTCTAAGTGCGTTCTGATTTTTCTTTTAAAT
ACTTTGTACATTTAGACTCATACTGTTCCTTGTTTTGTATGGGGTCCTTA
CGTGGTGATTAATGTAAGTTTACCAGATACATTACAACAGTGGGTTTCTC
CCCGGTACGATACTGTTGACCCTATGCGACTCAGATAGGGAAACTCATCT
AATACCATGAAGAATTTTCGTCCTTACAGCCAAGGTTTCACCCATTTAAT
ACCATGAAAAGGTTTTGTCCCTACGGCCAAGGTTCCCACCTAAACCTTTT
GACAATTTTCCTCCCGAGAGCGAATGCTCAGAAGGTTTATAGAGAGATGC
GTTAGTTCAGATTTTTCTTTCAATGGTTGTACCTGATCCCACACCGTACA
TGACATAACTGATTACATTGTACAGTATCGAGGTTCATCGTGTGATTGTG
TCGCTGCTTAGTGTAGGGTATAACGGGTTATAAGCCGGTCGCCTCCCCCG
GTGGTTCGGTTGGTACTGTAACCTCGAAACCTTTTGACGTTGGGACTTGA
GTTGGAATCTCGGTGCAGTCACACGAACTGGGATTTTTCCTCACAAAAAA
TAAAATAAATTATAAATAATGCCCAATAAGTGGAAAGCGATTAATTCGTG
GGTACACAAAGTTCGACTTTACGGTCGACGAGGGAAAGGGACGGCTGAGT
CCTTCTCGCGAGAAAAATTAAGGCAAGCACCACGGAAGGAAGGTGGAGAA
ATCCTGTGTGACCCCGGCTGGTGCGTCCACAAGTCTGACGTCCAGAATAA
ATGGGATGACAACATGCACACACACACACACACACACACAGTATACTGTT
GACCCTATGCTGTTAACACCAACATTTGGGAACTAAGCCGTTTGAATCTT
GTTCAACGTTTAACGTTTTGACGTTTCCGTCCCCTCCTCCGTCCTCAAGG
GTGGATGTACATGTCGATGTCGATGTCGATGCTCCGTAGAAGGTTTAGAT
GCGTGAAACGTTTTTTAAAGAAAAATCTAAACGCAGCTAGACCTTCTGAG
CATCTCATACAGGGGGGAAAATGTCAAAACGCTTAGGTGGGATCATAGGC
TGCAAAGACTAAACATCTTCATGGCATTTAAACGGGTTCCCAGATGGTAG
TAACATTGGGTCAACAGTATAATCTCGGGGAGAAGCCCACCGTTGTACTG
TACACTTACATTGATAGCCATGCAGGGACACCAAAAAAACTTGAACAAAC
AAAAACATTGTAGTACATATCACAACCAAAACCAACCAACCAATGTAGTA
CAAACGGGGACAGGGGAATATTCCAATCATTTTCCCTGTTCAGCTGACCA
CGAGCAGGATTGGCAACTTTACCCGGTTGACCCATACTCTGCTATATGTG
ATGACCATAGTTAGATAGGATATGACAGTATAGTAATAATATACGATAAT
AGGGCCATCGCACCATACATCAATAGGGGCTAATAGTCTAGAACACAAGG
AAGCTTATGATAATTATAACTGATGAGGAGTGGTACATTTTGGTCAAGGT
ATAGGATACCTAGTTTAAAGAAAAATCAGACCACACCTAGACCTTCTGAG
CATCCCCCGGTTATGGGGGAAAAAATGTCAAAACGTTTAGGTGGGATCAA
AAGGCTGCAAATACAAAACCACTTCATGGCATTTAGACAGGTTTAATGTC
GGGGAGAAACCCACCGTTATACTGTACATTTACATTAATCGCCATGCAGG
GACACCAGAAAAACATTAGGAGCAAACCAGAGACAATGTAGTACACCATC
ACACATGGTAGTAGTAATATACATTACAAAGGCTGTAAGTACAAAGCCAC
TACATGGTATTTAACCGGGTTCCCCACTGGTAGTAACCTTGGGTCAACAG
TATAATGTCGGGGAGAAGCCCACCGTTATACTGTACACTTATATTAATCA
CCATGCACAGCCATCAATCATATCCCAACCTAACCACAGTAATACATAGT
TACGAGTATGATCCTACTATCGATAATAGTACCATGAAGACATACCCGAA
TAGGGGCTTGGGTAAATAGTACATTAGTATACTGTATAATTTCCTTATTT
GTCATGCTAGGGTATTCAGAGGCTACAAATATAAAACCACTCCCTGGTAT
TTTGAAACAGGTTATATTAATTACCATGCGCAATCCCCCCAAATCCCACC
CCAACATAACCACTAGTTGTTGTTTCTCACATCCAGCGGATTGGTTGCCA
ACCCGAAAAAACTACTTGTTCGTTGCACGGTGGCCAATCCCGCTTGTGGT
CTGCCGAACAGGGAAAAGAGAACAGAAAGAGAAAGTCTGGCAGCACATCC
CCCCCCCCAAACGCTCCTGGTCAGTTCGGAGGAAAAAAAAAGAAAAGGGG
TTAGATCATGTCTTATGGGACCGAAATCTAGGATTATTGAGTTCTGAAAT
CGGGCCATTTTCGGATTTCAAGAAAAAATCCCATCTTATAGACTTGGAAT
CGGCTCATTTTCAAGAATCTGATTTTCAAGAATCGGGCGAGGTCGATAGA
TTCTTGAAAACGGTCTTTGTGTTACATGGTCAGGCTTTTGTCTATATGCC
CAGCGTTGATACTCGTAGCACAGAGAGTAGCGCCAGCAGCCCGAGTGATT
CTGAGTCAAACTCAAGCTTTCGGTGATGGAGGTTACTAATGCAAACGATG
GCGCACTGGCAGCAGATATCGTTGTCGCTGCCACGATGCAGTTATTTGTG
TGTACTCCAGAGACCTCGCACGTTGTTAACAGGGCCCACATAGTTCGAAA
TAGCTTAGAAAATGCACGCCTAACGATATAACAAGGGGCGTCGGACCGCG
AGAAGAGATCCATGAGTAGGCTTCACGTGGGTGTGCCTCCAACTAAACTG
CTGCTGCAACTCACAGACCAGCTACAGTACTCGCACAACATATCTTATTC
CCGTCGCGACCACGTTTCCCAGTCAAGCACTTGATGCTGTGCAAGTATAA
AACGTTTAGACTAGTACCAGAGTCATTGTAACTAACCAGACCAACTGTAC
TGTAGTATAAGTACAGGATATTGTACTATACAGCACCGGTCGCCCCGGTA
GCTCAGAGGTACCTCGTAACCCTCTGACACGTTGGGACGTGAGTTCGACC
CCGGCAAACGGGATTTTTCTCACTACAAAAACTAGAAAACAAAAATAAAA
ATGCCCAACAGGTGGAGAACGATTAAATCGTTAGTACACAAAATTCGAGT
TCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGAGAAAAAT
AAAGGCACGCACCGCAGAAAAAAGGTGGATGAGAAATCCTGTGTGACCTT
CCTCCAGTGTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAAT
GAATGGGAAGAAAACACACACACATTGTAACAAGTATCATTGATCCCCCC
TTGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGATGACAAGGCCGG
ATTGCGCGGTTATGTGCAATTCAATAAATACACACACACACAAACACACA
CACACACAGAGGTTTTCGTAACAAGTATCATTGATCCCCCCAAGGGGGGA
TCAATGCGAGTGGCATAGAATGACTAGAATGATAAGGCCGGATTGCGCGG
TTATGTGCAATTTAATAAATACACACACACACACACACACTATACTTGAG
TATTTTTTTTTCTGTGCTGTGAAGAAGAGAGCAGAAAGAGAGAAGCAGTA
ACCGGTCGATACACGTCGACGCGTAGCACAGAGAGTAGACCCAGCAGCCC
GAGATAGTGTTTATAGTGTTTGGCGTAGTAATGATGAGCAGAAAGGTAAA
GTACCGATGACAGCGAGGGATGAGTGCAGACGCTCTCGTTACCTGTACCG
TATACCATATCAATGTGTAGAGTCTATTCTGTACTAGATTCTTCATTTTT
GTACGTCTGCGTATCCCTTAAACCACATATGTACGCAGTATACTTATAGA
CGCTATAGCTTCATTTCCACATACAGTACAGTATATTGACCTTCGATGAC
GTAGGCAGAATCCAGTTGAAATCTTTGTAAACCCATTTGTCGCAATTTTT
TTTTTACATACTTGCATATCAGGCGGGACCCTAACCCTAATCTTAACCTA
ACCCTAACTTTAACCCTAACTCTAACCCTAACCCTAATCCTAACCCTAAC
CCTAACCCTAACCCTAACCCTAATCAGGATAGTGTCTGCATTGCACTTCA
AGAGCGAGTAAAAGAGAATATCGAAACAGGATTCGAGACGTACCGGGTGC
TATTCACCGATGTACTCATCACTGATTATGACTGATGTACTTATGACTGA
TGTACTTATGACTGATGTACTTATGACTGATGTACTTAAGACTGATGTAC
TTAAGACTCACTGATGTACTTATGGCGCGCCAGGCAGGATGATGGAGGAC
GAGACCGACATCGCTCAGTGGCTCGACGTCGACCAGTTGGACTCCGAAAA
AGAGGAAAGAAAGCCGCCACATATCTTCGTGGTTGGCTTTCAGGAG GTGA
GTTGACTTGATTATTAATACCTATTATGTCATATTATATTATTATACTAT
TATGTTATCTCTTCAACAGCTGCCGAAACTACTAATACCTAGACTAATAT
ATTATATGATATAATATTATTTTATATTGAATCCTGCAGGAAACTACAAA
TACCTAGACTCTAAACTTAATGAGTGTCCCATCCTAAACTACCAGTGTAT
ATACTACATTTAGCGGTGTCATACATTAAGAAAGTACTATAATAGCGTCC
TATGTTCGTTTTTTTTTGCCGCACAGCTCGTATACCCGGAGTAGGACGTT
GGGAGTTGGGAGTTTCCCAGATTTGAGTGGCATCTGAGCACCGTTTGACC
GGCAGGGCCTCGAACGATGCTGCCGCGGGCTTGGTTTTGCTTTGGTAACA
TGTGATTTGAACGCGTTGGCGGCAGGTGGTGGAGCTGAGCGCCCATAACG
TGGTGATCGACAGCTTCCTTGATACACAGAGCAGGGCCAACTCGTTGAAG
TGGTTCACCATTGTCTATGCCTTCCTCCTGGACTACGGCCACCGC GTGAG
TCTCGTGGAGGTATCGATACGGGTGGCAACCTTGTTCGTGCTCTGTACTC
GCAATGCGGTAAAAACGTACCCTACCACGCCTGGTTCAGTTGTACGACGT
CGTAGAGAGACTGCGTCAAGACATGAAGCTTTGCGTACTGTAGAGATGCT
TCGATCCATATGTTTGAACATACCGCATCATTCTCTACCAAACGCCGGAT
TGCGTTTCTGTCTTACTAGGAGTATATGAAGACAGTCGACGGTCATACGG
TCATCGCCTGTAGACATGGTGAAACTACTGTATATATTTAACTTTAGAGT
GGACATGCTCATGGAGGTTACTAATGATGTTATTGATGTCCGGAAGCTAA
TAATAGCGCGATAATATAGAAATGATGACCCTTGGCTACAGCCGTGGCGT
GCAAATTGTGGTGATTGCGTCGCTCTTGCTTGTCTGTCGGAATTCAATCG
CTGGCATCCATGACGCCTCCTGCCTCATGTTATACGCCACATTGGCCTAA
ACTGTCCGAGCATTTTCTTTTTTACGCGACTCTTCGTATTTGGTAGCATG
GCGTGCATTACTCGATGGTCTCCGAGCATCGCATGCTCGGCACATACATC
CTGGTGATGGCAACGGATGCTGTCCAATCCAATATTCGCCACGTGCAGAG
CGTTGCCATACCAACCGGACTTGGG GTGAGCGTGTAGGTGGCACCCAGTG
CTGTACCGCAGTCACAATATCGCCAGAATCTGGAGGAACTGTGCTGTAGC
AGCGCACTCCTTCCTCCTCCCTCCCCCCATTTGATTCCGTTTAACTCCAT
TTGATTCCGTTTAATCCCATTTGATTTCGTTTAGTCCCATTTGATTCCGT
TTAATTCCATTTGATTCCGTTTAATTCCATTAGACTCCATTTGATTCCGT
TTAATCCCGTTTGATTCCGTTTAATTCCATTTGATTCCGTTTGATTCCAT
TTGATTGCATATGATTCCATTTGATCCCGTTTAATTCCATTTGATTCCGT
TTAATTCCATTTAATTCCATTTGATTCCATTTGATTTTCTCGAGATATTT
GACAGCACCTGGGGTGGCAAGGTTGGAACACGGTCTCCTGAGAAAGAAGG
CTGTAAATCAAAAGCAGGCTGAACTCCCAAGACAGCATTTTCCCTAACAT
ATTTTTTTTATCTTTTAATAGAACCTTCAATGGGTTTCTCCAACACATGT
CGATAACGTGGTAACTATTTCAATATTTTCTACCTGGTACTTTCTATGTT
TTTCTTGAGCGCACAGAAAAAGCACCAAAGAAGTTGCTTCAAACAAGACT
AAAATAATTATAGCGCGATAGAGCAGTGGCAAAAAAAAAAAAGCTTGGAA
AGTTCTAGATGAAATTTTGTTTTTCGCAGACCCTGTTCCTCCAATTGCAG
AGGCATGCGATAAACCTGCGTTACGCACCACGTGTACCATCGGCAACTCC
ATGTGCGACTTGACTTGCAATGAATAGTGGAACTTGCCCTCGTGAACTGG
ACTGCGCCGACCAGGGCGTCTTCGGAAACAAGGGTGCAGTCGCCGTTAGG
ATGGACATTGCGGGGACCTCGTCTCTGTGCTTCGTCTGCGCGCACATGGC
GGCGCACCGCGAGAACGTGCAGGCGAGGAACGCGGAGTACAAGCTGATAT
CGTCCAGGCCCGTCTTCTCCAACACCTCCGGCAG GTGAAGGTTTTTGTTG
GGGTCTATGGAGAGTTTCTTGAACCGTCAGAAATTGTTCTATATTGCGCC
ACACTTCACAAGTACTGTTGTCGTACTTTTCAGGTATTTTTTGCGACTGC
TCACTTATTTTTTTAACGACAACCCGTGCCTGGGCGGCTGTAAAAATAAG
TAGTTTTCAAAAAGGCCCAACTTCATATATGTTGGGGAACCGTCCTCGAT
ATGTGAAAGCGAGAAGAACTATCTAGATATGAAGATATTTCATGTATGTT
TGTTGGTATACTCAAAATTATACAAATTGCATTCGTTCCTAGGTTTCTTG
TCACTGTGATATTGTTGTGGTCTATGGAGAGTTTCTTGACTCCCAAGCAG
CCCCACACTGCCGCAACGCCAGACGCGCTAGGATGCAGGTATCAATGGTG
GTACTGTGTAGTATTTGATTATAATAGTGTAGTATAGAAGCTCTAGTCAC
TTGCACATGTTTCTGTGGGAAAGTTTTGATTCTCTGACGTTCTACCGTAT
GTTTAACCAAATTCTGCGGTAGCCTTGGACGGCAGCTATTCTATACTATC
CTATCATATTCTTTACTATACTATACTACCTATCCTATCCTATCCTATCC
TTTACTATACTATACTATACTATACTACTATATAAATCAGCGGATTGAAA
TAGTTTCGTAAGGTGATCGCTACGTGGTTTATACTATACTATACTATACT
ATATAAATCAGCGGATGGAAATCGTTTCGTAAGGTGATGGCTACATGGTA
GCTCGTGATCCGATTCACTTCCGTTCTCTTCAAGTTTTCGACTCGATGGG
GAATGTATTAGTGAGATAATGCCCCGCTGCCTTTGCCACTGAATGCGGAC
TTCGCTTTCTGCCTCCACGCTACCTTCAGTCCTGGAGCCGCAGACCTCCG
AGATGTTTTTGCCGCGGCGGCCAAGCACGCATACCTCTCACCCGTAAATT
CCGGCTATTGGGGGAGTTTTTTCGGCGGGGTTGTGGGTGGCCAAGGCGGG
AGAGGGGGCGGCACGTCTCCAACCCGTGACTTGGAGGTTAAGAAAGCGAT
GAAGGCTATATCGTCCAGATTGCCGAGAGGAGGAGACGGTATAGCTGCAG
GAGGAAGAGGAAGAATGCCGCCCCAGGGTGAAGGAGGGGCAAAGGGAGGA
CTATCAAAATCAATAGGCGGTAGTGGCAGTGGTAGACAAG GTGAGGTCAA
GGGTTGTGCGCCGGTAGAAATGATCGTGGTTGACTTGTTGGAGAGGAAAC
CGGCTTGCTTTCATGATAATAGTTTTTATAGTGTACAATACATCACCCCA
CCACGTCCTGCCTGCTTCACATATTGATGTCTGCCTCACATATTGGTGGC
CTGTCTCACATATTGACGCCTGCCTCACATATTAATGCCTGCCTCACATA
TTGATGCGTGCCTCACATATTTATGCGTGCCTCACATGTTGATGTGTGCC
TCACATATTGATGTTTGCCTCACATATTGATGTGTGCCTCACATATTAAT
GCCTGCCTCGCATATTAATGCCTGCCTCATTTTACATGTAGCGTATTCCT
GGAACGACACTTAGGTTTCATTTGGCGGTGTACGTCCTTTGTGACCGTCC
TTAGTGCCTAGGTTTTCAGTGGACGGAAGGTCGCCGTGGAAGCTTTGTTG
CCAAAGTATACAGTAGTCTAATTTATTAATATTATGGTAGTATCTCATGT
ACGAAGGACACCCGTGCAGCTCCGAAAGCGATCGGCGTCTGCATCGGCAT
CATTGACATCGACCCCTCTTATCCCTCTGTAGAGCAAGCTAGGGAAAGGC
CCAAGAGTGGATATTGATTTGTGTAACGCCATTTTGTCGAGTTAAAGTAT
CGACGATACTCGTACTGTACCTTGAAGGGTCCAACGGTACCTTGAAGGAT
CCAAGAGTCGGTATCTTGAAGGGTCCAGGTGTACCTTGAAGGATCCAAGT
GTACCTTGAAGGATCCAAGTGTACCTTGAAGGGTCCAACGGTGCCTTGAA
GGATTCAAGAGTCGGTACCTTGAAGGATCCAAGTGTACCTTGAAGGGTCC
AACGGTACCTTGAAGGGTCCAACGGTACCTTGAAGGGTCCAAGTGTTTCG
AGATGGGAAAAGGAAGGATTGCTTGCAGGAACATTTCTAAACACAAACGA
ATGCAATACAGGTGACGGAAGAGTGTGCCTCGAGTTGGTGGAAAAGTCAT
GTTCAAGGTGCTTCAGTTTGTACGCACACCGCTCCCTTCCAGGTGCTCCA
GGAGGAAAGGGCTCGGAGAACGGCAGCTTTAAGGGGATGGCGGATGTGGA
TGCCGTTGAGACACGTGATGCCGCTATCGGGATTGCTACTCATAGTGATA
GTACAATGGGTATAAGTGGGATGGCGAGAAGGCGAGAAGAGGAAACCCTG
TTTAACGGCTTGCCAAAGACTAAGACAATATTGGAG GTGAGCCCTAGGAT
GTCCCGCTCGAGTTCACGCTAATGTATTGTACACAATTCGACTCAGATAG
TGTACTGTGTACTGTATACAATTAGTGTGTACTGTGTCCAGCTCCCACAG
TCTTTTTCACAACGATTGGGGGGGGGGAGGGGATGTAACATATTTGTCCC
CGTTTTGGGAAGGAACAGCACGAAAATAGCACCTACCGGGACATCTTTGA
CCAACCCCCTGGTCAAATGCGATGAATTCGGGGCAAGCTTGCCGACCATG
TAGAGGATAATGTAGTCTCATCCCCGGAAGGGGCTGTTTTGGTGACCTCC
CCGGGGACGAAATCGTCGTATCCCCGCTCTCCCCAATCGTTGAACGTCCA
CCTTCCCCTGATCGCTGGTCATTCGGCATTGATATTTTACCGCAGTAAAA
TTTTAAGCTACTGAATAGGATAAGAGTTGCCGTAACTCACGCAGCCGTCG
TCAATAAGGGCTGAGGCTGAAACTGATTCACGCCACGGTCGTTTTTCCTG
GCGATAGACGGGGATTTATTGTACTTGTTGTATAATGGGTGTTGAATAGC
GAGCAAAACGTGAACCTTTTCGGGAACCTTGGAATATTAACCCCCGTGCT
TGAAATCCTTTTCCGGGCGATGTCAAAACTACAAAAAAAGTAATGACGTT
ATCCAAGTGCTTCACTCCCATATTCGGGTACATTTTGTTTTTGAGTCGCA
ATTTTAACTTTTCGTTGTTCGACGATTTCAGACATATTTCGAAGATACTT
ACGATAACTTGTATAACTATTACACGATAGTCTACACAGTATACCGCCGG
TACTTTCAACATGCCCATTTCGTGCCTATTGTGGGTGTGGGAAAGAGAGG
CGCGGATTAATTGGTCTATGGTGATCTGCCAAGGTAGCACCCGTTACTGG
AACTACCTTGAGGTTGATTGGCCCTGTGCCGGCGGACTCCCTGCAGTGAA
CGCCATCGGTACGCAAGTGCGTGGTGACCCGATAAACTCAGGACTGACCC
GATGGCGTATGGCGGTTTCATAAATGGACGCCGCCGCGGAACTCGGGAGG
AATCCCGTGAGTAGCACCAGATTCAGCCTGAGTATGGAGATGAGCAGGCT
GACGCGGGACGGGACGCTGAACCCGTCTCGCGAGACCAAATTCTCAGGCA
CGCACGGGGACAGGGGAATGTTCATTTTCCCTGTTCAGCTGACCACGAGC
AGGATTGGCAACCTTACCCAGTTGATCCATACTCTGCTATATGTGATACC
CATACATACATACAGTAGATTGCCGAGAGTCCGCCGGCACAGGGCCAGTA
AACCTCAAGGTAGTTCCGAGCGAGTGCTGTCTTGGCAGGTCACCATGGAC
CAAATACACACACCCTCTATCATAGCATGTTGAAAGCTAATGCTCGTGTT
CTCTGGCATAAGACAAGAAATACCAGTACTAATAATTCATATCATAGCAA
AATAAGCAACGCGCTACTCTTGTTGGTAGAAGAAACGGGGGCTTGGGGGC
GCGGCAGGCCAATAACAAACACGCAGATCCGTCAGGCAGGGGCATGCCCG
CTCCAAATTCCTCGATTGTCTGGTTATTTTCTATATTTCCGCTCCACAAA
TGCCTCGATATTTTAGTTGAAATCCGATTTTTCCGCGGCCTAGTTGCGCC
CCCCAGCAGCTGTCGTACTGTACTGTACGATGCATGACAACGCTGTAATG
TAGGCAGCCTTATCCGATTGCGCTGGCGACCACAGCACCCCTTTAAACGA
CGTGGGCAATGGTTTCCTGGCAAGCGTTGGCCGGCTTGCGCGCTTTGAAA
GAGCTGCAAGATGTGGGCAGTATTACGGATACTGAGCAGAGGTTACAAGT
AGAAAATAAGAAACAACAAATAAGAAACACTTATTTTTGGTCGCCAAAAT
AAGAAATTGGCCATTGAAGTAATTCAGCTCACACGGCTGCCCGACATAAG
GCTTTGGGGCCTCCGCCCAAATAAGTATTTCTTATCAGTGGGGCCGTACT
GTATAATAGTAAATTAGTATTCTTGTTATGTGGCGCTTTCCTCACTAGTA
GTAATAATATTTCTTTTAGGATTAGTTAATGTTAGCACCACTGCAGTGTA
TGTATGTATGTATGGTCATCACATATAGCAGAGTATGGATCGACCGGGTA
AGGTTGCCAATCCTGCTCGTGGTCAGCTGAACAGGGAAAATTAATATTCC
TCTGTCCCCGTGCGTGCCTGAGAATTTGGTCTCGCGAGACGGGTTCAGCC
GTCCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCAGGCTGAATCTGGT
GCTTACTTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCATTTATTTA
TTTAAAACCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCGGGTCGCA
CATTTGCGTACCGATGCCGTTCACTGCCGAGAGTCCGCCGGCACATGGCC
AGTAAACCTCGAGGTATAATAGTTCCGAACGAGTGCTGCCTTGGCAGGTC
ACCTTGGACCAATTAAAATTCGCCTCTCTTTACCACACCCACTATTGGTA
TGAACTGGGCATGTTCAAAGTACCCGTGGTTAGGGATGTAGGGGATGGGA
ACAGCGTGTCAGACAGCGGTTCAGTAGTTTATACTGGTAGTATATCGTTT
ACAGTTTTTAGTTTACAATTTTTAGTCCGCGGGGCTGACGCGCTTGCTGG
GACCTGTAACAGCAAAAAAAACTGAAACAGCAGTGGCATGCTACACTGAT
TGATTGATTGAATTTTCATAGAAGCTAATGAAAAAAATCAAGCCCGTGGT
CACAAGGTAGAAAAACACCATTCGGAAGGAAAGAACGTACGACGTACTCT
CCATACAAAGGGGAAAACGGTAATGGTACAAAAAATACTCGGAAAAAGCG
ACATCTTCAAAGGAGGCATGCATATCGAAGAACCACTAAACGAAGTACCG
CCGCTTCAGCAACAGCATGAAGACGAAAACAAAACCAAAACAAACGTAAT
ACCAGAGGAAGGCGACATGACATCTGCAAACCAAACACCCGGAGGATACA
AGTTCGCGCCACTCTTGGCTTTTAATAATCAACTACAAGTACTGTACGGA
GTATGTAAGGCGGCGGAGATGTGTGTGTGTGTGTGCACATAACCACGCAA
TCCGGCCCTGTCATCCTAGTGTGTGTGTGTGTGTGTATATTTATTAATTT
GCACATAACCGCGCAATCCGGCCTTGTCATCCTAGTCATATTATGCCACT
CGCATTGATCCTCTCAAGGGGGGATCAATGGTACTTGTTATGTGTGTGTG
TGTGTGTGTGATATATATATTTATTTATTTAATTGTACCGATCGCCCCCG
CCCCGGTAGCTCAGAGGTAACCTCGTAACCTTCTGGCACGTTGGGACGTG
AGTTCGAATACCGGTAAACGGGATTTTTCTCAATAAAAAAAATAAATGCC
CAACAAGTGGAGAACGATTTAATCGTTAGTACATAAAATTCGACTTCACG
GTCGAAATGGGAAAGGAATGGCTGAATGCTTCTCGCGAGAAAAAGTAAGG
CGCGCACCGCAGAAGGAAGGTGGATGAAAAATTCTGTGTGACCCTCCTCC
TGTGTGACCCTGGCTGGTATGTCCAACGAACTTGATGTCAAGAATAAATG
AGAAGAAAACACAAAAAACACAAGCATAACCGCGCAATCCGGCCCTTTCA
TCCTAGCCATTCCATGGCACTCGCATTGATCCCTTAATACTAATATGAAT
ACCAAGGGGTATTAAGGGATCAATGATACTTATTACGAAAACCTCTAATC
ATACGCGACAGAAGGTACACAATCTACTTGTGTGTGTGTGTGTGTGTATT
TACTAAAATGAAAATTGCACGTTTCTGGGCAATCCGGCCGTCATCCTAGT
CATTCCATGCCACTCGCATTGATCCCTTGATACTAATATTAATATCAAGG
GGTATTAAGGGATCAATGATACTTATTACGAAAACCCCTAATCAGACGCG
ACAGAAGGGACACAATCTACTTGTAGGTGTGTGTGTGTGTGTGTGTATTT
ACTAAAATGAAAATTGTACCTTTCTGGGCAATCCGGCCCTGTCATCCTAG
TCATTCCATGCCACTCGCGTTGATCCCTTAATACTTATATTAATATGAAG
GGGTATTAAGGGATCAATGATACTTATTACGAAAACCTCTGATCATACGC
GACAAAAGGGACACAATCTACTTGTAGGTGTGTGTTTGTGTGTGTATTTA
CTAAAATGAATATTGCACCTTTCTGGGCAATCTGGCTTTGTCATCCTAGT
TATTCCATTTTACGATACTCATGAATACTCGTTTTGGTCTTCCTTAGGGG
GGGATCAGTGGCAGATACTTTAGTTACGAAAACCTATGATGCGTTCGTGT
GTAGGTAGAGCTCTAGTACGCGTTCGATAAGTGTGTCAGTGTTTGTTATT
CACAGCAGATCAAATTGCATTTGATTAAGAACAACTATGCTCGGAGGATG
GTGGAACCACATGGCGAATAGCGTGCCGAAAAATAATTCGATGCCCAAGG
ACGTGTTGTACGTCTTCAAATGTGCCCGAGAAATGCCAATGCTGGTAAGG
TGCTCACCGAAACTGTACATCGTATTGCTTTGATACGTACCGCTGCGTTC
TCCGAGCTCGGATGTTAGCATATTTATAATAGTATATGATAGTGCTTTAT
GTATGTATGTATACTCTGAACCGATTATAATATATCGCTGTGCGGGTGAC
TTGGCAGGCCGATATTGTTTTCTGGTTGGGCGACCTGAACTACCGTATCA
AGGAAACGTTGCCCGACGAAGCCGTGTTCGACATGGTCGCAAGGGATGAC
TTGGAGACCCTCAG GTTCGTAAATCAAAACATCGAAGGTCGGGTGTGCTG
CTATTGGTAGAGCAGATCCTCTGGGGACCACCTCAGTATAGGATACTATT
AATTATTAATTATTCATAGTGTGTATGGTCAGCATAACACTTTTAGTAGA
GTATGGATCAACCGGGTATGATATGGTTGCCAATGCTGCTCGTGGCGAGC
TGAACCGTCAAGATTTTTTTTTTCCCTGTCCCCGTTCGCGGCTAAAAATT
TGGTCTCGCGAGACGGGTTCGGCCGTCCCGCTTCGCGTCAGCTTACTTAT
CCTCAGGCTGAATCCACTTGTGATAGTCATAATTAATACTTAATAGTACA
TCATACAGTCGATGACCTGTGCGAGGAATCGTGGCATTCACTCTTTATGT
TCAATATTGCAAAATATTGTCCAATGTACATGATGTGTACTGGAAATCCC
TGTGCGACCCGGCCACAACAGGGAAAATTCATTCAAAAGCTTGATGCTCG
ATAGGTGAATAGAATCTGGTAACTACTGTAGACTACCAGTATAATTTTAC
GACGACGCGATGGCGATGGCGATGTTGAGGACAATCACGATCGCGCTTCT
AGCTTGTCCGTGGTTGAGACATCATCCTGCCAACAGCGCATGCCATGTAT
AGTATCGTGTATATGATCGCACGGAGTACGTATAAGAATAAAGTTGAGTT
TGTCATTGATTTTTTGCCGTGCCTGCTTATAAAGTTGAGTTTGTCATTGA
TTTTTGCCGTGCCTGCTTATAAAGTTGAGTTTGTCGTTGATTTTTTGCCG
TGCCTGCTTATAAAGTTGAGTTTGTCGTTGATTTTTTGCCGTGCCTGCTT
ATAAAGTTGAGTTTGTCGTTGATTTTTTGCCGTGCCTGCTTTTATTTTTA
TTTTTATATCTCAACAATATTGGTTCCACAACTACTGAGTATTATATTAT
TTGTTATATTAACTAGTATATTATTTGTTATATTAACTATTATAATATTT
GCTATATTAATTATTATATTATTTGTTATATTAACTATTATAATATTTGT
TATATTAATTATTATAATATTTGTTATATTAATTATTATAATATTTGTTA
TATTAATTAGTATATTATTTGTTATATTAACTATTATAATATTTGTTATA
TTAATTATTATATTATTTGTTATATTAACTATTATAATATTTGTTATATT
AATTATTATAATATTTGTTATATTAATTATTATAATATTTGTTATATTAA
TTATTATAATATTTGTTATATTAATTAGTATAATATTTGCTATATTAATT
AGTATATTATTTGTTATATTAACTAGTATATTATTTGTTATATTAATTAT
TATAATATTTGTTATATTAATTATTATAATATTTGTTATATTTACTATTA
TGCTAACTGCAGTACATTAATTATTAATATTTTAGGCATAAAAGTTTGTC
GAATGTGCCCAGGGATATACATCGGTACAGCCCGTTCCTTTTGGACAACA
AGCACGCTACATACCAATAGACTAGTGGGTGTGAGAAAAGAGAGGCGCAC
ATTCATTGATCCATGGTGACCTGCAAAATGGCAGCACCCGTTACTGGAAC
TAACTACCTTGAGGACTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTGA
ACGCCATTGGTACGCAATTGCGTGACCCGATAAACTCGGGACTGACCCAA
TGACGTATGGCGGTTTAAATAAAGAACTGGACGCCGCCGCGGAACTTGGG
AGGAATCCCGTGAGTAAGCACCAGATTCAGCCTGGGTATGGAGATGAGCA
AGCTGGCGCGGGATGGGACGGCTGAACCCGTCTCGCGAGACCAAATTCTC
AGGGACGTACGGGGACAGGGGAACATTCATTTTCCCTGTTCAGCTGACCA
CGAGCAGGATTGGTAACCTTACCCGGTTGATCCATACTCAGCTATATGTG
ATGACTATACATACATACATACTCTGTGGCCGTCGGTGTGGTGCATCGTG
GACGTGTGCCGCAGGGTGATGGACCAGCTCAATATTGCTCGCGCCTCGGG
AGACGCCTTTTCGGAGTTCCAAGAAGGACCATTGTGCTTTCCTCCGACGT
ACAAGTACATCCCGGGCACGCGAGAGCTCGACAGGAG GTTGGTTACTCCC
GGAAAATGCTGGTTCTTTGTTGTTGATGCCCAGAGTAATATAAATAGTGT
AATAGTTTAAAGTTTTATGATGCATTGATCTACACATGTCTGTAAGGTTG
CAAATTTGGCGTCTTGATGAAAGGTACTCGTATGAGTGTTCCAAATTGTC
ATCAGTGGAATAAGAGGATCGTGGCGCGGGGCTGGACAGCTGAACCTGTC
TCGCGAGACCGAATTCTCAGGCGTGAAAGAAAAGGGAAAGTGGACCAAAG
GGGACAGGGACGTTTTATTTTCCCTGCGCAGCTGTGACGGCCACAAGCAG
GACTGGCAGCCATACCGGTTGATGCCCTATCTGCCCGCAGTGACGGCCAC
ACGCAGCATAATATTAACATAATACTGTAGAACGATTAGGATAACAGGAC
CGGATTGCGCGGTTATGCGCAATTAAATAAATACACACACACACAAACAC
GCGCGACACTGCTACCGTAGGTGCGAGTGTGACCAACTCGTTTTGGCGAA
ACGAAACGTCCTGTGATGTTTTTTATTATTACAGTACTGATTACTATTTT
TATTCATATTATTCATGACTATTGATTTGGTTAGGCCGGAGAAGAAGGTG
CGATGTCCGTCCTGGACTGACCGTGTGCTGTATTCTGTGGGTATCTACGG
AGGAGATTCCGTGCGCCGCCTTGCGCTAGATCGATACTGGAGTTCCGACG
TCAAAATGTCCGATCACATGCCCG GTGAGCGGCGGCAACCGCGTTCCGTA
CTGTTGCAGACTACGTGTAGTGGTATTTAATACCTGGTAGGGGCAACAGC
TAGCTCAGTGCTTCTAATACTGTATATCAAACGGTGAATTTTTCGTTCGA
GAGGGAGACTGGCGCAGACCTGAAGGCGTTCAAACGGCAACATGTCTTGC
ACATTCATGACCAACTGGTGAATCGTGCGAAATTCTATATAAGTTTTATA
TAAGATGTGGTTACTGCCGTCCGTCGGCGGCGAAGGAGCACATATTACTT
TATATCGATTTGTATAGCACCTTAGCATAGATACCTTCACTGCCTTGCGC
GGGCGCAGCTTCTGTTGCCCCAAGCATAGACGAAGCCGGGAACACAGCCA
GTATTTTTTCACTCTCTGCGTCGCTGTCTCCGATCTCATGTACATCTCCT
GTACACATTTATTGGCGTGGTTTGCGTGGCTACACGTCGTCAGTGCGTAT
GGGATTCCAGGGCGATGGGTATGTTGGATATTTTGTTGGCGTTTAACATT
GTACTTGGTGCGGTTACTGTATATTCTTGGCTTTCCCCTTACTTAACCTT
TCTCTGCCGTGTCTGCCTCTTACCCTGCATCTTACCCCTATTCGTTCACG
AATCGATCGGGTCCCTACGGTTACCTGGCTCGTGCCGACACTTGTTCGAG
GCAGTAAGTGCGCTGTTTCGGACGTCCCTCAAGTGCTCGCCGGACGAGGA
GGTAGTGGAGCCGGAGATCGAGGCGGAGCCGCTGAGCCCCACCAAAGCTG
CAGCAGCAACGGCGTTCGAAGCCACTCCGTACCCCAAAATTGCGCTCGCC
CCTCCCGCGGCGGCGATACGCTGCGAGGCCATGGCGCCTGCAACTGTGGA
CATTGAAATCAAGAACAACGGTGGCGCAGCCGGAGAATATCACATTTGTG
ATGATACAGTCCCCGAATGGATGAGCCTCGACGAGAATTGCAGAGGTAAC
CTCGCGCCCGGAGAAACGGCAAGACTTGTCATTACCGTCGATAAGGACGG
GGCAGCGGCGGTGGCAGTGGCAGTGGCAGCAACGGCCACTGGGCGGAGAT
TGTGGGGCACGAGCCTATCGGGAGCAACAGTCCGCATGCGCCGTTCTGCG
AGTAGAGGTTGA CAGTGGGGGGTCAGGGAGTCTTCTTCCCATCGTATGCT
CGTTCGACGATGAATTGGTTGCCGGCATACTAACCGACTATAATAGTTCC
TAGAGCTTTGAAATGATGGCGAAGAGGCGCGCGATGTTTCTGTTGCTGAG
GCGAAGTCGAAATATGTGCGGTTCCTGGTTGCTTCTGCTGTTGTTCTAAA
TAAGAGTGCTGCTCTGTGCTGTTGCGGAGATATGTTATCCCCGTTTGACG
AAGTCCCATCATTATTATGTACGCGCACTTGTAAAGGTGATATAGCACTG
TATACCTTCGTGGGTCAACTTGCGGCCCCTATCGTATATTAGGTTACATG
CAACGAATAGAGAGGACGTTTTCGAGTTTGTACCTTGTACTCAATGCTTC
ATGGTGGAATTCAATGCTTCATGGTGGAAAATGCTTCATGGTGGAATTCA
ATGCTTCATGGTGGAATTCAATGCTTCATGGTGGAATTCAATGCTTCATG
GTGGAATTCAATGCTTCATGGTGGAATTCAATGCTTCATGGTGGAGTTCA
ATGCTTCATGGTGGAATTCAATGCTTCATGGTGGAATTTAATGCTTCATG
GTGGAATTCAATGCTTCATGGTGGAATTCAATAATTCATGGTGGAATTCA
ATGCTTCATTGTGGAATTCAATGCTTCATGGTGGAGTTCAATGCTTCATG
GTGGAATTCAATGCTTCATGGTGGAATTCAATGCTTCATGGTGGAATTCA
ATGCTTCACGGTGGGCTCGAGTGGGGCGGATAGGATCAAGTAGGTTGAGC
GGCTTCGTTAATGGGGATTCGGGGTGAACGCTAATGTATAATATTTCCCG
TTCTTTTTTTTCCTTGCACAACGCCTCTCTACCCGTAGACTGCCTATTCA
TTAGTCCCATATAAATTGGTGTTTGTTTTCTTTATGTACACACCGTTGTA
TATAGCTATTAGATGTGACTCTGAGGGAAGGTACAAGTCAACCACGTGGG
CTCTGGTGCGAAAATGACCCTCGAAGTGCAATTTTCTATCTTCACGTTTG
AACAAGGTGTTCTATTTTCCTACAACCTTTTCCCGGTACTAAAAAATACA
GTATGAG back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1012:142488..175194+
>mRNA_A-nodosum_M_contig1012.24.2 ID=mRNA_A-nodosum_M_contig1012.24.2|Name=mRNA_A-nodosum_M_contig1012.24.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=2115bp|location=Sequence derived from alignment at A-nodosum_M_contig1012:142488..175194+ (Ascophyllum nodosum dioecious) back to top