mRNA_P-littoralis_Contig190.10.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig190.10.1
Unique NamemRNA_P-littoralis_Contig190.10.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A6H5JKL2_9PHAE (CBS domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JKL2_9PHAE)

HSP 1 Score: 611 bits (1575), Expect = 4.090e-207
Identity = 356/483 (73.71%), Postives = 384/483 (79.50%), Query Frame = 3
Query:  219 AAGTGSLFWKRSFSKNDDKNDLSGGSPRP------SATTSSVIHLGMLRIPDSRRLDLAGTREGNADSASTAVVEEAQDHADPLVEDGSSG--GGAPLGEGEEEXXXXGEGRVIDIAGNRVVLPPAFVGGPSVIPFGVGEGRLESGVVQVPLHHTVADTVDFIRTIATVDRDYRRGTPQPV----EGEGCPEEAPEETLGSTLSSRIYVTENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            A G GSLF KRSFSKN  ++     S         S+ TSSVIHLG LRIP SRR+DL  T    A + ++AVV          V+ G  G  GGAP      E    G+    D +  R   PPA  G  SVIPFG+GEGR   GVVQ+PLH +V +TVDFIRTIATVDRDYRR +  P+    EG G  E A  E +GS+LSSRIYVTENGTLKGYITMA LLTHQ  TPVADLLRELEE+L EGDSWED AHRLRQA  +AAPVVD DGVL+AVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSS+ILQSFQ+VIE+NIVIALFLTMLTGTAGNAGNQSSAIVIRGLAT EIHQGNR RV+WREARA VASACVLSVASF+RVLLTPGATTVATLAV+IAMGATV+GAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML
Sbjct:   77 AGGIGSLFLKRSFSKNTRRSTARPASSXXXXXXXESSGTSSVIHLGRLRIPQSRRVDLT-TLSSEASAQTSAVVG---------VQAGQEGHAGGAPSEGARSEGEGGGQD---DRSDGR---PPASAGEASVIPFGIGEGRYGGGVVQIPLHFSVGETVDFIRTIATVDRDYRRESSSPLVHLPEGGGG-EAAAAEGMGSSLSSRIYVTENGTLKGYITMAVLLTHQSDTPVADLLRELEEMLHEGDSWEDTAHRLRQANVLAAPVVDSDGVLVAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSVILQSFQNVIEKNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATEEIHQGNRWRVIWREARAGVASACVLSVASFIRVLLTPGATTVATLAVSIAMGATVVGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 542          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: D7FSM0_ECTSI (Divalent cation transporter, carboxyterminus n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FSM0_ECTSI)

HSP 1 Score: 568 bits (1464), Expect = 1.790e-192
Identity = 308/360 (85.56%), Postives = 326/360 (90.56%), Query Frame = 3
Query:  564 PPAFVGGPSVIPFGVGEGRLESGVVQVPLHHTVADTVDFIRTIATVDRDYRRGTPQPV----EGEGCPEEAPEETLGSTLSSRIYVTENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            PPA  G  SVIPFGVGEGR   GVVQ+PLH +V +TVDFIRTIATVDRDYRR    P+    EG G  E A  + +GS+LSSRIYVTENGTLKGYITMA LLTHQ +TPVA+LLRELEE+L EGDSWEDAAHRLRQA  +AAPVVD DGVL+AVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQ+VIE+NIVIALFLTMLTGTAGNAGNQSSAIVIRGLAT EIHQGNR RV+WREARA VASACVLSVASFVRVLLTPGATTVATLAV++AMG TV+GAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML
Sbjct:   51 PPASAGEASVIPFGVGEGRYGGGVVQIPLHFSVGETVDFIRTIATVDRDYRRELSSPLVHLPEGGGG-EAAAADGMGSSLSSRIYVTENGTLKGYITMAVLLTHQSETPVAELLRELEEMLHEGDSWEDAAHRLRQANVLAAPVVDSDGVLVAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQNVIEKNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATEEIHQGNRWRVIWREARAGVASACVLSVASFVRVLLTPGATTVATLAVSVAMGTTVVGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 409          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A835YYN6_9STRA (CBS domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YYN6_9STRA)

HSP 1 Score: 344 bits (882), Expect = 6.080e-108
Identity = 185/263 (70.34%), Postives = 222/263 (84.41%), Query Frame = 3
Query:  843 MAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            MA+LLT+ P T VAD++ + EEVLKEGD+WE+AA RLR+A   +APVVD DG L+A+LNP+DLL EMEIEATDDI R SGSGGGE+YFGTPL  LV  R GWLVSLL LQS SS+IL  FQ VIER+IVIALFLTMLTGTAGNAGNQSSA+VIRGLATGEI+  N+ R +WREA+AA+ +A +LS ASF RV +TPG+T +A++AV++AMGATV+GAV+FGT  P++L   GVDPVNFASPALATLTDVSGV ILC+VA ++L
Sbjct:    1 MASLLTNTPDTLVADVVIKSEEVLKEGDAWEEAAQRLRKAGISSAPVVDEDGFLVAILNPTDLLMEMEIEATDDISRFSGSGGGETYFGTPLMKLVLRRCGWLVSLLMLQSLSSVILTHFQSVIERHIVIALFLTMLTGTAGNAGNQSSAMVIRGLATGEINSANKMRCLWREAKAALIAAVILSAASFARVWMTPGSTWLASVAVSVAMGATVVGAVLFGTATPLLLDRFGVDPVNFASPALATLTDVSGVLILCTVASMLL 263          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A4D9CYH9_9STRA (CBS domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9CYH9_9STRA)

HSP 1 Score: 292 bits (747), Expect = 6.150e-84
Identity = 168/338 (49.70%), Postives = 230/338 (68.05%), Query Frame = 3
Query:  624 ESGVVQVPLHHTVADTVDFIRTIATVDRDYRRGTPQPVEGEGCPEEAPEETLGSTLSS--RIYVTENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            E G+V VP    V D VDFI  ++ ++R Y  G     E EG          G    S  RI+VT+ G L GY+T   LL      P+  ++R  E V+++ D ++DA   +R  +   APVV  D V++ ++ PSD+L+EME+EATDD+ R SGSG  ES+FGTP+  LV +R  WLVSLL LQS SS+IL  F  +IER++VIALFLTMLTGTAGNAGNQSSA+VIRG+ATGEI++ N  + V RE +AA+  + +L+VA+F+RV +TPG+T ++T+AV +A+  TV+GA  FGT+AP+V+  +GVDP N ASPAL+TL DV GV +LC+++  ML
Sbjct:  274 EEGLV-VPASFLVGDVVDFITRMSKLER-YNGGPGDGREAEGGG--------GGPCRSLERIFVTDCGRLVGYVTSMDLLVQDRVAPLLSIVRSCEVVVRDSDEYDDAIGAMRAKRLTYAPVVTEDEVVVGIITPSDMLKEMEMEATDDVSRYSGSGSTESFFGTPVLQLVTARASWLVSLLMLQSLSSIILTHFSALIERHLVIALFLTMLTGTAGNAGNQSSAMVIRGIATGEINRKNGWKAVVREVKAALLMSALLAVAAFLRVYITPGSTVMSTVAVTLALSVTVVGACAFGTVAPLVMDRLGVDPANCASPALSTLVDVGGVLVLCALSSAML 601          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A0G4EE00_VITBC (CBS domain-containing protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4EE00_VITBC)

HSP 1 Score: 284 bits (727), Expect = 6.630e-83
Identity = 167/332 (50.30%), Postives = 225/332 (67.77%), Query Frame = 3
Query:  657 TVADTVDFIRTIATVDRDYRRGTPQPVEGEGCPEEAPEETLGSTLSSRIYVTENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSG-------SGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            T+ D ++ +R+I+  D         P  G+G  EEAP  +L   L+  IYVT+ G L+GY+TM  LL   P TP+  +L+  E V++  ++ E+A+ RLRQ     AP+VD  G L+ +L+P+DLL EME E T+D++R  G          G+SYF TP+   + SR GW+VSLL LQS SS++L  FQ VIERN+VIALFLTMLTGTAGNAGNQSSA VIRGLATGEI   N  +VV RE R A   A +L+ A+F+RV LTPG+T  + + V +AMGAT + A++ GT++PI+L  +G+DP N ASPALAT TDV+GV ILC++A ++L
Sbjct:  118 TIEDCLNIVRSISVADLQM------PPSGDGA-EEAPA-SLSDLLADSIYVTQEGELRGYVTMGDLLMASPHTPLKTVLKPTE-VVRISENLEEASKRLRQRFVTMAPLVDEKGQLVGILSPNDLLNEMEAELTEDLLRFEGIFPSETMEKVGDSYFATPVIEHIKSRAGWVVSLLFLQSLSSIVLTKFQGVIERNLVIALFLTMLTGTAGNAGNQSSATVIRGLATGEITHANAWKVVLRELRIASVMAVLLAGAAFMRVALTPGSTVASAVVVGLAMGATCLVAIILGTLSPIILEWIGLDPCNCASPALATATDVAGVLILCTIASVLL 440          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A6T6NC75_9RHOD (Hypothetical protein n=1 Tax=Rhodosorus marinus TaxID=101924 RepID=A0A6T6NC75_9RHOD)

HSP 1 Score: 240 bits (613), Expect = 1.050e-66
Identity = 136/274 (49.64%), Postives = 187/274 (68.25%), Query Frame = 3
Query:  825 LKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGG----GESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLMLR 1634
            L GY+TM  LL  +P   V ++ +  E VL   D  ++   +LR+   + APVVD +  L+ VL  +D+++E+E EATDD++R  G GG     ESYFGT +  L   R+ WLV LL LQS SS++L  +Q +IE N+V+ALFLTMLTGT GNAGNQSSA++IRGLATGEI + N  RVV +E    ++ + VL++ SF RV  T G+  +++  V+IA+  T + A++ GTIAP++L  +GVDP N ASPALATLTDV GV ILCS+A ++LR
Sbjct:  179 LVGYVTMLDLLLAKPDEVVENVSKTNELVLSIDDDLDNVLRKLRRDNVLIAPVVDVEEKLVGVLTATDMIRELEFEATDDLLRYGGVGGDEETAESYFGTSIRKLFFGRITWLVGLLMLQSLSSIVLGRYQSLIEANVVLALFLTMLTGTGGNAGNQSSALIIRGLATGEIRRENYSRVVMKEIAVGISLSFVLAIVSFGRVYFTTGSNVLSSFTVSIAVLLTTVFAILGGTIAPMLLERVGVDPCNCASPALATLTDVGGVLILCSLASILLR 452          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: M2WSY5_GALSU (Magnesium transporter, MgtE family n=1 Tax=Galdieria sulphuraria TaxID=130081 RepID=M2WSY5_GALSU)

HSP 1 Score: 223 bits (568), Expect = 5.070e-62
Identity = 141/314 (44.90%), Postives = 195/314 (62.10%), Query Frame = 3
Query:  705 RDYRRGTPQPVEGEGCPEEAPEETLGSTLSSRIYV--TENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGE---SYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            R +++ T      +GCP++          + R++V   ENG L+GYI +  LL  + +  V   +++ + V ++  S E AA ++R      APVVD +G  + ++N  D+++E+E EA +D MR SG    +   SYF T   SL+  R+ WLV+LL  QS SS+IL  FQD+IER++VIALFLTML GT GNAGNQSSAIVIRGLATGEI + N   VV RE R AV  A +LS+  FVRVL T      A L V+IA+   VI +++ G + P++L   G DP   ASPALAT TDV GV ++C+VA ++L
Sbjct:   12 RQHKQKTRVESSVDGCPKQV--------TTDRLFVLDAENGELRGYILIEELLFVELEQNVTVFMKKCDVVFRDDTSLEIAARKVRSFGVFCAPVVDSEGNFLGIVNALDIIREVEFEAAEDFMRVSGLNSVDVFQSYFETSSFSLIRERLSWLVALLLFQSISSIILGFFQDLIERHVVIALFLTMLIGTGGNAGNQSSAIVIRGLATGEIDRRNAYLVVSREFRIAVIMASILSIVGFVRVLFTVPNNIKAALTVSIALFLIVISSIVAGAVTPLLLEQCGADPAYCASPALATATDVVGVLLICAVAIVVL 317          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A7S4A0Q1_9STRA (Hypothetical protein n=2 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4A0Q1_9STRA)

HSP 1 Score: 209 bits (531), Expect = 2.670e-55
Identity = 126/286 (44.06%), Postives = 183/286 (63.99%), Query Frame = 3
Query:  792 SSRIYVT-ENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRL-RQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGR-VVWREARAAVASACVLSVASFVRVLLT-PGATTVATLAV-AIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLMLR 1634
            S R++V  ++G   GY+  + LL  +P   +A L +  E VL+  +  +DA  R+  +  + A PVVD +G L+  L P +++ E+E   T+D+ R + +G GESYFG+ +  LV +R  WL +LL LQS SS++L  F+ +++R++ +ALFLTMLTGTAGNAGNQ+SA+VIRGLATGEI  G   R V+WRE R A+  +  L +A+F RV+   PG   V T  V A A  +T++ A++ G  AP++L  +GVDP N ASPALAT  D+ GV  LC   +  L+
Sbjct:  175 SGRVWVNGQDGRFAGYVGASQLLLAEPDASLAFLAKPPEAVLRADEDLDDALARVVNRGGSGALPVVDSNGALVGALAPGEVMVELEQAVTEDVARYAATGAGESYFGSRIQDLVCARGAWLAALLVLQSASSVVLGKFEGLLQRHLALALFLTMLTGTAGNAGNQTSALVIRGLATGEIRAGRDWRRVLWRETRVALPLSIALGLAAFGRVVAAVPGRMAVRTAGVVAFATTSTILAAILVGVGAPLLLDAVGVDPCNCASPALATAVDLLGVVFLCVTGQRFLK 460          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A7J7ILB5_9RHOD (CBS domain-containing protein n=1 Tax=Cyanidiococcus yangmingshanensis TaxID=2690220 RepID=A0A7J7ILB5_9RHOD)

HSP 1 Score: 209 bits (532), Expect = 4.860e-54
Identity = 127/276 (46.01%), Postives = 178/276 (64.49%), Query Frame = 3
Query:  825 LKGYITMAALL-THQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSG------SGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            L G++++  LL     +  +   +R    VL   + +E A  RLR A A+ APVVD +  L+ ++  +D+++EME+EATDDI+R  G      +   ESYF T   S V  R  WLV+LL LQS SS++L  +  +IER++V+ALFLTM+ G  GNAGNQSSA+VIRGLATGEI+  N GRV+WRE       A VL+   FVRV ++ G   +A++ V+ ++  TV  AV+ GTIAP+VL  +G+DP + ASP L+TLTD+ GV  LC VA ++L
Sbjct:  337 LVGFLSLEDLLFAGDDEQKIDHFVRPCPTVLTVDEEFEAAVRRLRNAGALTAPVVDSELRLVGLITAADIIREMELEATDDILRFGGVESPLQTNDIESYFKTSTRSFVIGRSAWLVALLLLQSVSSIVLGHYSSLIERHVVLALFLTMMVGAGGNAGNQSSALVIRGLATGEINASNAGRVLWRELVVGCTIATVLAAVGFVRVSMS-GGDILASVTVSASLWITVFMAVLTGTIAPLVLARLGLDPCHCASPLLSTLTDIGGVLALCLVASIIL 611          
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Match: A0A7S3K4L6_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A7S3K4L6_9STRA)

HSP 1 Score: 202 bits (514), Expect = 5.200e-53
Identity = 121/278 (43.53%), Postives = 172/278 (61.87%), Query Frame = 3
Query:  813 ENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDSWEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQSGSGG-GESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIVIALFLTMLTGTAGNAGNQSSAIVIRGLATGEIH-QGNRGRVVWREARAAVASACVLSVASFVRVLLTPGATTVA---TLAVAIAMGATVIGAVMFGTIAPIVLHGMGVDPVNFASPALATLTDVSGVFILCSVAKLML 1631
            E G L GY+    L+  +P   + D+   L  V++  DS +D    LRQ     APVVD +GVL+  L P D++  +E EAT+D+ R + SGG G +YF   + +++ +R  WL+SLL LQS SS +L SF  ++  N+++A+FLT +TGT+GNAGNQ+SA+VIRGLATG+I+ + +  RV+ RE   A   A  L  ASF+RVLL+ G    A      +  AM +TV+ A+  G  AP++L   G+DPV  ASP LAT  D+ GV ILCS+   +L
Sbjct:  173 EEGKLDGYVRATELMLGEPYKKLGDIAIPLSVVVQSEDSIDDTVQLLRQENITIAPVVDSNGVLVTALAPLDVISALEAEATEDVARIALSGGIGSTYFNASIKAIILNRFSWLLSLLLLQSISSAVLASFSALLSSNLLLAVFLTTITGTSGNAGNQTSAVVIRGLATGDINAKADALRVIRRELSIAAPIALGLGFASFLRVLLSAGNAVSAIRMAFVITAAMASTVVAAITVGAGAPLLLARNGIDPVTCASPVLATFVDLVGVIILCSIGSCLL 450          
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig190.10.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JKL2_9PHAE4.090e-20773.71CBS domain-containing protein n=1 Tax=Ectocarpus s... [more]
D7FSM0_ECTSI1.790e-19285.56Divalent cation transporter, carboxyterminus n=1 T... [more]
A0A835YYN6_9STRA6.080e-10870.34CBS domain-containing protein n=1 Tax=Tribonema mi... [more]
A0A4D9CYH9_9STRA6.150e-8449.70CBS domain-containing protein n=2 Tax=Monodopsidac... [more]
A0A0G4EE00_VITBC6.630e-8350.30CBS domain-containing protein n=1 Tax=Vitrella bra... [more]
A0A6T6NC75_9RHOD1.050e-6649.64Hypothetical protein n=1 Tax=Rhodosorus marinus Ta... [more]
M2WSY5_GALSU5.070e-6244.90Magnesium transporter, MgtE family n=1 Tax=Galdier... [more]
A0A7S4A0Q1_9STRA2.670e-5544.06Hypothetical protein n=2 Tax=Pelagomonas calceolat... [more]
A0A7J7ILB5_9RHOD4.860e-5446.01CBS domain-containing protein n=1 Tax=Cyanidiococc... [more]
A0A7S3K4L6_9STRA5.200e-5343.53Hypothetical protein n=1 Tax=Aureoumbra lagunensis... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig190contigP-littoralis_Contig190:43661..66498 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FSM0
PFAMsCBS,MgtE,MgtE_N
Model size2865
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorysignal peptide
Exons10
Evalue4.07e-199
EggNOG OGsCOG2239@1|root,2S2TW@2759|Eukaryota
Ec32 ortholog descriptiondivalent cation transporter
Ec32 orthologEc-04_000520.1
DescriptionDivalent cation transporter
Cds size1611
COG categoryP
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig190.10.1prot_P-littoralis_Contig190.10.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig190 44886..66469 -


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

Feature NameUnique NameSpeciesTypePosition
1680789915.0538454-UTR-P-littoralis_Contig190:43660..448851680789915.0538454-UTR-P-littoralis_Contig190:43660..44885Pylaiella littoralis U1_48UTRP-littoralis_Contig190 43661..44885 -
1680789915.193263-UTR-P-littoralis_Contig190:66469..664981680789915.193263-UTR-P-littoralis_Contig190:66469..66498Pylaiella littoralis U1_48UTRP-littoralis_Contig190 66470..66498 -


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

Feature NameUnique NameSpeciesTypePosition
1680789915.0683177-CDS-P-littoralis_Contig190:44885..449871680789915.0683177-CDS-P-littoralis_Contig190:44885..44987Pylaiella littoralis U1_48CDSP-littoralis_Contig190 44886..44987 -
1680789915.0804384-CDS-P-littoralis_Contig190:45616..458711680789915.0804384-CDS-P-littoralis_Contig190:45616..45871Pylaiella littoralis U1_48CDSP-littoralis_Contig190 45617..45871 -
1680789915.0896862-CDS-P-littoralis_Contig190:47589..477211680789915.0896862-CDS-P-littoralis_Contig190:47589..47721Pylaiella littoralis U1_48CDSP-littoralis_Contig190 47590..47721 -
1680789915.0986965-CDS-P-littoralis_Contig190:49175..492891680789915.0986965-CDS-P-littoralis_Contig190:49175..49289Pylaiella littoralis U1_48CDSP-littoralis_Contig190 49176..49289 -
1680789915.1103141-CDS-P-littoralis_Contig190:50771..508881680789915.1103141-CDS-P-littoralis_Contig190:50771..50888Pylaiella littoralis U1_48CDSP-littoralis_Contig190 50772..50888 -
1680789915.122456-CDS-P-littoralis_Contig190:51760..518991680789915.122456-CDS-P-littoralis_Contig190:51760..51899Pylaiella littoralis U1_48CDSP-littoralis_Contig190 51761..51899 -
1680789915.1372137-CDS-P-littoralis_Contig190:55725..559531680789915.1372137-CDS-P-littoralis_Contig190:55725..55953Pylaiella littoralis U1_48CDSP-littoralis_Contig190 55726..55953 -
1680789915.153037-CDS-P-littoralis_Contig190:56696..568641680789915.153037-CDS-P-littoralis_Contig190:56696..56864Pylaiella littoralis U1_48CDSP-littoralis_Contig190 56697..56864 -
1680789915.169426-CDS-P-littoralis_Contig190:57584..577381680789915.169426-CDS-P-littoralis_Contig190:57584..57738Pylaiella littoralis U1_48CDSP-littoralis_Contig190 57585..57738 -
1680789915.181481-CDS-P-littoralis_Contig190:66267..664691680789915.181481-CDS-P-littoralis_Contig190:66267..66469Pylaiella littoralis U1_48CDSP-littoralis_Contig190 66268..66469 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig190.10.1

>prot_P-littoralis_Contig190.10.1 ID=prot_P-littoralis_Contig190.10.1|Name=mRNA_P-littoralis_Contig190.10.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=537bp
MKSCAPAALSLALFCSYAGALVPGAKFVFGVSRQAMAVRRRVGERIASSS
LEESLGTAGGSSAAAGTGSLFWKRSFSKNDDKNDLSGGSPRPSATTSSVI
HLGMLRIPDSRRLDLAGTREGNADSASTAVVEEAQDHADPLVEDGSSGGG
APLGEGEEEGEERGEGRVIDIAGNRVVLPPAFVGGPSVIPFGVGEGRLES
GVVQVPLHHTVADTVDFIRTIATVDRDYRRGTPQPVEGEGCPEEAPEETL
GSTLSSRIYVTENGTLKGYITMAALLTHQPKTPVADLLRELEEVLKEGDS
WEDAAHRLRQAKAMAAPVVDGDGVLIAVLNPSDLLQEMEIEATDDIMRQS
GSGGGESYFGTPLPSLVASRVGWLVSLLCLQSFSSLILQSFQDVIERNIV
IALFLTMLTGTAGNAGNQSSAIVIRGLATGEIHQGNRGRVVWREARAAVA
SACVLSVASFVRVLLTPGATTVATLAVAIAMGATVIGAVMFGTIAPIVLH
GMGVDPVNFASPALATLTDVSGVFILCSVAKLMLRN*
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mRNA from alignment at P-littoralis_Contig190:43661..66498-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig190.10.1 ID=mRNA_P-littoralis_Contig190.10.1|Name=mRNA_P-littoralis_Contig190.10.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=22838bp|location=Sequence derived from alignment at P-littoralis_Contig190:43661..66498- (Pylaiella littoralis U1_48)
CATACATACACAGCAGCAGAGACAGAGGCATGAAGAGTTGTGCCCCGGCT GCCCTATCGCTGGCTCTCTTCTGTAGCTACGCGGGAGCTCTCGTCCCTGG CGCCAAGTTCGTTTTCGGAGTGAGCAGGCAGGCGATGGCTGTGCGCCGTC GCGTTGGCGAGCGTATCGCCTCCTCTTCACTTGAAGAAAGCCTCGGCACT GCAGGCGGCAGCAGCGCTGCTGCGGGAACTGGTGAGATAGCCCACTGGAG GCAACACAAAAGCAAAATGACATAAATGGAACGGCGTACACATGGCCCAC CCACGCAGTTTGTGAGGCGTGACTTGGGCACGCCGCGCTTATTGGCGGGC AACGGTCAGCTACGCTAGGTGTTTCGGCGTGTCTTTCCCTGCTGGTTGCT GGTCTGTCCGGTTTGATTCTCGTTTCTATTAAAGTAAAAAGCATAGCGAT AGGCTCGCGCACATCACGTCGTTAGTCAACTTCGCACAAACACGCGACAG CATCTACCGGCACTCAGTGAACGAAGGCAAGTCGTAAGCTTGAACCCCAC TGTGAACCCTACATACAGTCACAGCAAATCGAGGAGAGCTTCGCCGACAC TGATCCCAAGACTGCTGCTGCCCCCCCCGTTTTGTGTACATGTATGATAT GATATCTAGTACTCGGAGTATATCATGATCATGCGCCAGACTGATTTTTC TGCCAAATATTTTTTTTGCTGCGGGACCACTTGATATAAATTGCCAATTG CCGTGTGTGCGTTTTGTGTTGTTGTTGTTGTTGATTCTCACATTAGCTCA CTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTA GGAGGAAAAAAATAAAAAAATAAAATATATGGACTATGATCACCCACAGT CAGATCAGACGTGGTACCGTTGGGGTACCATCTGTGGTGGCCAGGATACC AAACAAATACAGAAAAAATAATAACAGGCTCGAAAGAAAAACAAAAATTG GAAACAGTCCGACAAACAAAAAATAACCAAGACAAACCTCAACCATAACC ATATACTTCGAAGTACTTCGTGCATCGAACCAGGGCCCAGGGCCATGACA GACCAAAGCAGACGCAAACCAGGGCGATGGCCCAGTAACTACATGATCAA CAGAGAAAGACAAAAATAAAATAAAAAAGGAGATACAGGGAGGGCACAAA GACTGAGGGAGTGCATTCGTACACAAACATAACAAACAGGCCGCCGCCAA ACAAAGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAGATCGGAAGTACCG GAAGTCGGGGGAGGGGGAGGAGGGGGAGGTGATAAAAATAAAATAAAAGG CATGCAATCAATCGCAAACGTGTCTTGCCACGAGGTCTGCCTGTTCACGC TTGCTCTCCTCAGTCGCACTCATGCCTCCTGCTACTGGCACCACTGTACC CAGTTGTTTCTGCCCCACATCTTTGGCAGCAGCTACACCACCACTCCGCC CTACAGGTTTTCCACTCCGGCCACCCCGTAGCTTGGCATTGGACTGCTTC TTCTTGTGCTGTGCAACTCCAACCCCACTACCCCGCTGCCCTTGTGCCCC CCGTACTCCTCCTCTCGTTTACCCCCGCCATCCGTTCTCCCTCTTTTAGT CAAGGCCTGCCTCTCAGCCGCGTCCCTCTCTCTTTTCCGTCGACGTGTCT CTGATAGGTCTCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCAC CCTCGTCGACCCTGTCGTACCACTCGTCAGCTCTCTTGGCACTTGCCTCC CACCCCTCCTTTTGTCGACCACGATGTCGAACGCTTCGAGGTCCTCCCGC ATTCGCCTCAGCCAGTCAAACTCTTGCCCCCCAGATACCTTGCTCCCCCC TGCAATTCTCCCAAGAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCG CGCAACGAATCCTGCGAAGCACAGTCGCCGCTTGCGCAGTGTGGCCTCAA CGCTCTCGTTGCAACCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGT CGGTCTGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAGGAGGAAGAA GTGGTGGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCAGATTCCATG TGACACACCCGTAGAGTAGGGTCTCCACGACTTCAGCTTGGAGGAGTCGT ACTTTTAGTCGAAGAGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTG CGCCGGAAGCAGGCGTGCGCTCGCTGCACTCGGTGGTTAATCTCGCCCTC AATGCTGCCGTCCTCACAAATCTTACCCCCGAGGTAGACAAAGTCTTTCT TCTGCTTGAAGACCATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCC ATCCCTTTCGCGAGCATACACATGGTCTCCGTCTTGGGTTCTGACACCAA CAGCCCAAACCGCCCGGCCACACGTACGATGATCGACATCATCTTCTCAA GGCTCCCAGGTGATTGAGATACAATACAGGCGTCGTCGGCGTAGAGCATA CTCCAGATGGACTTCACTGCCTCCACCAGTCGGGCGTTCCTCCCCTTCCC CTTCGTCACCTTCCTCTTGACCTTGGCCATGTCCGCCATCACCTCCGCAT CCTTGCTGATCTCGGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGG TTGAACAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTCCCTGCCCCAC ATCAAACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCA TTCCGTCGTGGAATTGGCGAATGACCGCAAGCATCTTGGGGGGCACTCCG AGCCGCTTGAGCACCGACCACAGTAGTTCCCGGTCTACGGAGTCGTAGGC TTTCGTGAGGTCAATGAAGCAGGCGTAGAGTGGGGTTGACTTCTTCCGTG CAAGCTCGTGTAGGCGTCGAACCACGAACATCATGTCAACCGTTGAGCGG TTTGGTCGGAATCCGCTCTGTTCCTCCGGCAGGATGCCCTCTCTTTCGCA GTAATCGCTTAGCCGGGTGGCGACCAGCTTCAAGAGTACCTTACCAGCGT GGGCCACAAGGGAGATGCCTCGGTAATTGCCGCATTCCGTCTTGTCCTTC TTCTTGTGCAGCACCTTGATCGAAGCATCTTTCCACTGCTGTGGCACCCT TCCCGATTGCCAGATGTTGATGATGATACTGTAGAACTGCCGTAGGAGGG CTTGGTCTCCGTCAAGGAAGAGCTTGATAAGCTCCGCCGGTAGTTCGTCC GGGCCCACAGCTTTCCTGTTGGCCATTCCCCGGATTGCTTCCTCAACCTC AAACAGCGAAGGGACGTCATCAAGCGGTACGCACTGAGGCCAGGGCTCGA TCTTGTCCACCACTCTCGGATCCAGGGTCGGTGACTTGGTGTTGAGAAGA GCATGGAACCACCTGGCCCACCGCTCGAGGATAAGTGCGGGGTCCCGAAG AAGATTTCCATCCTCGTCCTTGATGTTCTGTGAGGTGAAGGCCCTCTTCC CCTCCACATCCAATCCCTTCATGTGCTTGTAGAAACCGGCCTGGTCCCCT TCGCGGCTTTTCTTCTCGAGCTGACTCACAAATCCATCGAAGAACTCATT CACAGCACTGGCTCTAAGTCGATCAAGGTGCTTCCCGGCCGCCTTGAGGT TGCTCCTGAGGGTGGAATCTTTCGGCGCACCGCGGAGCTGCTTCCGGGCG TCCTCCCTTTTAAGCCATGCCACGTGGATCTCCTGCTGCACTTCCTCACT GGCGCACCAGCCACTTGGCAATCTCTTGCCCTTGGCCCGGGGGCAACGTC GGCGGCGGTGGACATCACAGCAGTTGTCAAGGCCGACGCGAGCTCATCCA GATTCGCACCTTCCATGATGGGGGAAATTCTGTCTCTAAAGTCTTTCCGA AGTTGGGGGTCCGCCATCAACCGTTGTAGATCGATGCCAGCGGAGGTACT GCTGCTGCTACCCCTCACACGTCGATTCGGTGCCACTCGGCCAAGCAAGC GGATGTTGGCAAGGACGAGGTTGTGGTCGGAATCCTTACGATCGATACGC CGTACGGAGACGTTGCGCACCAACCGAAGGTCTACCTGGCGGGTCAGGAT GTAATCGAGTCGATATTCTCCTTCCCGCGGTTGGAGCTCTTGAAAGAGTG TGATATCCCGCGTTTGGGTGTGCAGAAAAAGGTGTCCAGGATGGAAAGCC TACAGCTTGCTGCAAATTCGACCAGTCTCCGCCCGTTATCGTTCCGCTTG TCACGCCCGTACATGCCCATCACCTTATCAGGGGTGCTCTCATCCTCTCT TCTACCAGTTCGAGCGTTCGCATCCATCATAACCACGACGTGTTCCCTGC TAGGTACTGCATTGACTGTCTCTCTCACTGATAGCCAGAATCCATCTTTC TCACTAGTCCCATCCGTCTCGGTGGGTGCATAGGCAACCACAAAGGATAC ACAGTTCGAGCCAGTGAGTTGCAGGCGTACCTTCATCAGTCTTGCGCTAA TGCACTCCACCGTCATACCTCCTTTGTCCATACCATCCACGATGGACTGC TTGATAGCCAGCCCGACCCCGTGCACTCCTTTCTTCTCGGTGGTCCCAGC AAGTGCTCCACTCCAGATCACAACATATCCCGCGTGTGTGAAGGCACCAT CATTAGCACGCCGGGTTTCCTGGAGGCCAACCACATCGCAATCGGAGCTA CCACAGAGCTGTAGCACGGTGTTGGAGTTGTGGCCGATACCGTTGGCGCC CTTGTAAGCAAGGGTGCGGACGTTGAAGGAGCCCACTACCAGTTCGCCTG CACGTGCCTTTGTTTGTGCGTGTTTGTTTCGCATGTACAGTATGTGTCAT CCCATTTTTTATTTATTTCAAACTTTACAAACAGTTTTTTTTTTTTTTTA AACAGCACGTGTGTGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTG CAAACCACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAAC ACAGGGGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTT TTCTCGCGAGCAGGGGTCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAAT CTGCTTTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATT CACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGAC CACTAGTCCACCGGGGCGACCGGTACGTGTGTGACCTTGTGACCTTCCTT ACTGCTGTGTGACCCCGGCTGATGCACCCACATCGTATCAGACCGAAAGG TGTACAGTAGACTGGTGCCCAAAATAAATGGGATGTCAACACACAAACAC ACCAGTCTACACCTTTCGGTATGATATATATGATGCGGGTGTTTCAGCCA GGGTCACACAGGAGGAGAGGTCACACATGTGCAGAAAAAAAAAAAAACTC CGGTCTTGTGTGTGATATTCCAAAAAAGAAAAAAGGTGTGGACTATGTCT AGCGTCCAGTGTAAGCCACATCACCAATCCATACTTGTACACGACAGCCA GCCGAGAACTCGGCAGCGGTTAAACGTAACAGGGTGGGAGGAATGCGTAT CAATGCCACACCCATGGTGACGGGGAGAGCCCCTATTTGCAGAACGTATG ATACCAGGTATCATTTCTGCAAGCGCATCTCTACAGCAGTACCACGCTGT ACACCTGACCCTCTCACAGCTTTTCAACCCAAGCTCCGCTTCAATTTTAC ACCAATCCCAACCCAACCCAACCTTAACCCTAACCCTAATCCTAACCCCG ACCCGGGCGCTGGGACGACCCGAACCCGGCAGGTGCCTGAGCGCCGCTCC GCGGCGCGTTCGGTTGGCGTTTTTGGTAAAACACATGCGGCGTTATCTTG ACCAATCAGACGGGTGTACTGCAGAAATGCGCTCACAGATACTGTATCAT GCCATACGTTCTGCAGACAGGGGCTCTCATGGTGAGCTCGGACTTGGCAT TGATGTGTCTGTACCATGAAGTCATGTTTTCTTATTTGTCTGTTAATTGT TAGCACGATATGTACGCGCGTGTGTACCTTGCGCACCAAAAAAGGACCCA ACTCTGCCGCCACACCACGGCCGTAGATGTCCGTTCGACCACAGGCTATA TTTAGCACCAAGAAGCTTCCATTCTCGAGGGTACCATGTACTGCTGCACA CTCACAGTGATCTATCTGATCACAGCCCGTGACAAAGGAAAGCGTCTCCT GTCTCCCGTCGGATAAACTTAGCAAAACGAAATCGGAAGGTAAATTACGG AGAAGGCAGATTTTTTTTTATGATACGTACTTCGAAGTAACGGTTTTTCG TGTTTTTTTTTCCGTCTAGACAGCAAACACAAACACGCACACGACAAAAA AAAAACACACACACAGCTTTTCCACCCGCAGAGCATCGTGCCTGTCCTGG CCCCGTGACTGACTCTTACCGTCCGGTGTACATCACCCCCCCCCCTCCCC TTCCCCCCCCCCCAAATGTTTGCAGTGTCGTATTCACCTATCCTTGATTC CCGATATGTCTGCGATTCGTGGCAAGCGAAGACACGCGTGGCACCAACCA TACAGCAGTAGCGACGTAGAACCTCCCCAAGGCACAGCGACCAAGCCCTG ATCTCTCTTCGGGCTCGGCGTATGAAAGGGTAATATTAAGAGTCGGGCGC CTCGTGCTTCCCGGGGGGCAGAAGGTACACAGTATTACGCCACGTAGGAA GGGTGGAAACCCGTGGGCGCATATCTCAAAGCGTATCCACCTCCAAACAG AACACCGCATTATAGTCAATATGGTTGGCGGCACGACGTGAATCTTCAAT CTTCGCATGCCAGCAATGGGAGATACACATATACAGTTTCATGTATTTGA TGCTAGCGCGAACCCCTTGGCTGTTTATTTCATTTCCAGCGGTAGATACA GCAGTCAGTACCCGGTACCTGACCGTGGAGGCCGTGCGCGGGGCGGGGCC CCCCTCCGTGGTTACCGTAGGTCTCACAAGATACCACACCACCTGGACCG ATTTTTGAAGCACCATTACTCCACAGCGCCAAGAGTGTGGGTGCCGAAAA GGGCGGCGTTGGAACCATCTCGTGGAGAGCTTTTCCAAACAATATACGGA GTACCAGGTACAGTTTGATGCTGGCATGGCACCCTCCTCGGTTAGGAGTA GTTGGGGTTTGAAAATCGGTCCAGTGGGTGTGTTATCTTATGCGACCTGC GGTATTCGTAGTGTTTGTTGTTATTGTGGGACGGCATGGCATCGGGGATG GTTCATATCAAACTGCTGCTGTACACAAGAAAAAGCAAACAAAGAGTGCG GCGGGAGGTATCACATGGCGCTCCGGGACAGCGGTAACATCCTCGATTGT TGTGCGGCAGCAAGACAGGTGCCCCAGTCGAAAACGAAAGCTTCGGTTGC CCTTGTCTGTCGTTATTTTTTTTTGGCTGGGATGTATGTGGATACCACCC CGGCACTCAACAAAGCCCGCACGATGGGCTCGAGTCGTGGTCGTGAAGAC ACGTTTTGGATAGGAACGCCCTCAATTGCTGTGCGGCAGTACATAAAAGA CAGGTGCCGGACGAAAAAAAAAAGTGTCGGTTGCCCTTGTCTGCCGTTAT TTTTCGGCTGACATCGTGCCAGGTGTCGGACGTGAAAACCCCTCATCACT TGACAACACCCACGAGAGTGTACTCGAGTAGTGGAAACAAACGAGACACA TTTCGGACAGAAAACACCGTCAACTGGTGTTGTACAGCAGTAGACGAGTG CCGGCTGAGGGAGGGTCGGTCACTCTCTTGAGCCTTTTTTTTTTGCTCCG GGGGGGGTTGTTACAGCGTCCTTGACTTACATCGAGGGTGAATCTGACAC CATGCAGAAGGAGGTCCGCCTTTGTACCCTAGACAGGACTCAGGAAGACA GTTTTATTGATCATCCTCACACTGATGTGGGGGGTAGCTCATTTATCATC TGATTATGATAGCTCAACAACCCTTACTTGATTTTTTTTTCAGAATTTTC AAATAATCTGATTGTCTCAAAATGTGGGTGGGGTCTTTCTTGAAAAAATT TAAAAAAAAAAAAACAGTGTAAGACAACGAAACAACCAGTTATGTGTCCT ATCATATGATACGTCGGACAACGACCATACAAAAGTTGTCTGTTTAAGAA GAAAAATAACGGCACAAAAACTGTGCGGCACAACTTTTCGTTTCGTGAAC GACAAAAAACAGACAAAAAAACATGACATACGAAACCAAGGCGAAACAAT TTGGGTGAAGTCTCGTCCCAAGTGTACCTTAAGTGGAACTAATTATGCAT ACATGACATGACTGAAATTCCGCTGAGAGAGCCCCGGTTTACCGATCCGG ACGCCATCTGAAGCTGCTGGGTGGTAAAAAAGCCGAAACAACGGGCTATG CATGTGGGCCAACGACGCTGCAAAAGTTGTGAAGAGTTGCACACACATGA ATATGTTCAAGAAGAAAAAAAACCGTTGAAGAAGAAAAAGAACCGTTGAA GAAGAAAAAGAAATGCCCACAACACTGCTGTGTTCGTTTTTTTCCTTGTA TCGGGCCCCCTGGAAAAGAACCGTCTATCATATACATACGATTCGAGGAA AAAGAACCGCCTATGATACAACAAAACTTGGTTCGTTTTTTTTTGTTTTA TTGTTGCCAGGCTCCTTGTTCTGGAAGAGGAGTTTCTCCAAGAATGACGA CAAGAATGACTTAAGCGGGGGATCGCCCCGTCCGTCCGCCACAACCTCGT CGGTGATACACCTGGGGATGCTCAGAATACCGGACTCGCGGCGGCTCGAT CTTGCCGGAACAAGGTACTTGCTGCTGTGTGTGTTGGTGTTGGTGTTGGT GTTGGTTTCGGACAGACTTTACCTCAATTATACGGCGGATAACACCCTGC CCCCTGGCTGGACTGCTTCTAGACGAAAATGGTCGGCTATGATATGCTCG GCAACTTACAGTAGCTGCTGCTTTTGGATTGGCGGCGGCTAGATCTTGCC GGAGCAAGGTACTGACTGCTGCTGTGTGTGTTGGTGTTGGACAGACTTTA CCTCAATTGTAAGGCGGATAACACCCCCCCCCTGGCTGAGCTGCTTTTGG AAGAAAATCCCGGCTATCATATACTCTCGGCAACTTACAGTAGCTGCTTT TAGACGGAATCAGTCGGCCATGCTCGGCAACTTACACTTCGAAAGCAGCA GGTACTTACTTTTTTGTTGATTCAACTTTTGCATCATGTACCCGTCCTCC TCCTCGTCGTCGTCGTCGAACGTGGTGGTGGTGGTGGTGATGTTGGCGTT GGCATCGTCGTCATTTTCTACTGCTGCTGCTGCTGCTGTTGCGACTTCCA TGCTATGGCCGTACTGCTGATGCTGTCGTCGTCATGGCGGCGCTGCATGC AGATCATCACATGCTGCTGCTGTTGCGACTTCCAGTCTACTGGTGTCGAT GCTGGTGCGCTGTGTACGACAATCTGAAATTGTGTTTGCGCATTTTCCTC CTCCTTTTTTGTCTCTCGTCTCTCCCGCCCGCAGGGAGGGCAACGCGGAT TCGGCATCTACAGCGGTGGTGGAAGAAGCGCAAGATCATGCTGACCCTCT CGTAGAGGACGGCAGCAGTGGTGGTGGGGCGCCGTTGGGGGAAGGGGAGG AGGAGGGAGAGGAGCGGGGCGAGGGCCGCGTCATCGACATTGCGGGAAAT CGGTGAGCTTTCTGTTGCTGCTGTTGCTGTTTCTGCTGTTGCTGTTTCCG TTGCTGCTGCTGCTGCTGCTGCTGCTGTTGTTGCTGCTGCTGCTGTGGCC GTGGCTGTTGCCGTTGCTGCTGTTGCTGTTGTCATTGTTGCAAGTTTCTG GTGTAGGTGCTGTCTAGTGCTGGTGTTGTTGACAGGGCCACTGACGGTGC CATTGTTGTCCGCATCAGTCCGTTATTTTTCATCCTTGCTTGTGGTTCCT GCCTGAATATTTTTGGGCATCAAGTGTGATTTCAATGTTTAATTTTCTTG TTTGATTGTGTTTGGTTCTCCTCTCCTTTTCGTTTGTCGTGCTAGCCCGT GACCGTGCCGTTTTTCTGCCGGCCGTTTTTCCGTCGGTGTGACGACAACA AACAACGACAACGACAACGACAACGACAACGACAACATCAACAACAACAA CGACAACAACGGCAGCAACAGCAACAACGCGCTTTGCACCTAATTAAAGC CCTCTTCGCCGCCTTGTCGTGATTTCCAGTCGGCAAACACCAAACACAAG AAAAACAAACGAAAACGAACGAAACGAAACGAAACGAAACGAAACGAAAT GAAGAATCCAAACGCCACGAAACGAAACGAAACGGAACGAAACGGAACGA AACGAAACGAAACGAAACAAAATGAAACGAAACAAAAACCAAAGCCAGTG TGCCAAAACCAAAACCGAAACCATAACCAAACCATGCACGCGCAGGGTAG TCTTGCCTCCCGCCTTCGTCGGCGGACCGTCGGTGATACCCTTCGGGGTA GGAGAAGGCCGGCTCGAAAGCGGAGTCGTGCAAGTCCCTCTACACCACAC GGTGGCGGACACCGTGGACTTCATCAGGACCATCGCCACCGTGGACAGGG ATTACCGGAGGGGGACACCGCAGCCGGTGGAGGGGGAGGGTTGTCCTGAG GAGGCCCCGGAGGAGACCCTCGGGTGAGCTCAGTTTTTCGTTGCGGACTG AATCTACCACAGGCACGCGAATCGTCGTTGTGCTCTGGCTTGTTTTTGTT CGACAGCTCTGATTGTTTTGCACTGCCACAGACAGCAAGCAGTGCTGTTG TTGATGATTCTCACGCCAGCCCACACGACCAAAGTCTAGCCCGTGCTCGC AAATAAAGCAGGCACATATCGTTCAAGGATGAAAGTAAAGAAAAAAAGGG GGGGAGTGTGTGTTGTCATCCCACATTCTCTGGCACACTAGTCTGCACCT TGCGGTTCAAACTACAGGCTGGGCCCATCGACGGGGTCACACAGGAGGAA GGTCAACACAGGAGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTG AGATTTTTTCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCGAA GCCGAATCTGCTTTTACTAACGGCATAGCCGCTTTCAAAGTAGCAAAGGA ACACATTCACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAAC GGGGAAACCACTAGTCCACCGGGGCGACCGTACGCGATGGCTACTTCGGT GTGTGTGTTGTCGCCCCATGTATATTAATGGCCAGCTCACACCACTCGGT ATCAGTTGGGTGGACCAGCCGGGGTGGGCCGCGCAGGAGGAAGGTCTGAT CAGCACGAGCGTTTTGGTTTCTTCCTCCCCCCTTATCTAGCACTGCAGGC GCACGAGTGGTCGCTGTGCGAAGCATGCCCGGGTTTTCAGCTCTCACCAT AGTTGTTTTGAAAAGAGGCACAGAAATTGTCGTTGTGCAAAGCTGTCTGG TGTTTGGTGGCACTTCCGGCAGGAAGGCACAGAATTTGTCGTCGTACAAA GCTGTCTGGTGTTTGGTGGCACTTCCGACTGTTTGGAACTACTCTGGTAG ATTCGCAGGTTGTTGTTTGTTGTGCGAGGTGTGTTAAGTTATCGTCCATG ATAATATTCACCGTTTTCACCACGTTATCAACCGTTTTCTCGAATGCGTA TCATACATTCATATTTAATTACATGTGACCATCGGTTTTTTTTTTCCTTG TTTTTTTTTCCTCCTTTGTAGCACGATATGTGCCTGGTTTGTTTGTGACC ACGGGCTAGACTGCGATGGTGGTGAGCTAATGTGAGAATCAACAACAACA ACAAACTGCGAGAGAGATTTGAGACTTCAGTGCCAGTGTGGTATACATAC GGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAACAAC ATAGCTCATCAGACAAGGTGTGCCTACACATATTCTGTATTTTATTTGGT ACTTTGGCCACCACAGATGGTACCCCAACGGTACCATATCTGATTTGACT GTGGGTGATCATAGTCCATTTATTTTCATTTTTATTTTTTTTCCTCCTAG CACGATATGTGCCTGGTTTGTTACCACGGGCTAGACTGCGGCGGCAGTGA GCTAATGTGAGAATAAACAACGACAGCATCAACTACATACTGTACACAGG TTATGATTTGTAACGCCGCAAAAAAAATATCATAATTCTTGACTATGGAG TTTACAAAATTTCAAAATTAATTATATACTTGGAAGTATTACTAAAGGTA TATTAGGTATTCTCTAGTTTACTAATTACTATTATTTAAATTGTCTTGAA TTTAGAAAGGAATTTAATCACTATTGAGAAGTTTACAAATAATAGTTCTA TTGAATCTTTTGAAAAAGTCCGTATTAAAAAAAAAAATTAAAAATTATTT GTTGGAGATACAGTAAAAATTGGAGTTCTTGTACAAGAAGGCAATAAAGC GAGAGAGGTAAAAACTTCAGACGGCCTCTTGCTGCGCGACGGTTTTTTGG ATCGCGAAATTCACATTTTTTGCGATTGACTGCGCTGCTGTGTTGCGTAC ATTATTTGCACCCGGGTTGTGTTGGTCAAGCCGCACTTGGTTACTTTAAT TTTAAACAGCTTTGCACTTTTTCACTGGTCGCCCCGGTGCTTCAGTTGAT TATCTTCGAAATCTTCTGACACTTGCGCTTGAGTTCAAATCCCGGTGCCG TAACACGATCCGGAATTCTTCTCGTGTCATGCGTGAGGGTGGAAAACGAT TCATTCGTGAGTCAACAAAATTCGAAGTGTCGACGAGGGAAAAGGATGGC TGTACCCTTTCTCGTGAGAAAAAATGCAGGCAAGTACCGCAGTGGGGAAG TGGAGAAAGAAAAGAAAAGAAAAGAAAAGAAAAAAAGTCCTGTGTTGACT TCCTACTGTGTGACCCCGGTTGGAGCGTCTACCTACCCGAAAGGTGTAGA GTGGCGTCCAATTAAAGGGATGACAACACACACACTGGTTGCTGTACTGT GTTGTGTGGGGCACATTGCACTCTTGACGCCGCAATAAGGTAAACTTGAA ACTGCTGATACTACCGGTAGTCAATATTTGGGGTTGCGCACACTCCACGC ACACATCGCCCTCGTCGAGGCGCCCCAATGAACTCAACCTGAAACGGCAC GTTCGGATGAGGGGGCAAAATACAGAATACCGTTCATGGCGGACCTGGTA CTGTACTGCTGCACTGCTGTACTTTTTTTTTTTGTTCGTAGTCTTTTTCG CTTTATGCATACACGCGTTCAGAAGGTCGACTTTTCGGACCGCGTTCTAA GCAACCGAAGCACAGAACCTTGAGGAGGGGTGTATGGCGGTCACGTATCG CCTTCGCTTGCCCTCTCTTATCTCCTGCTATGACATTATTTTTTTTTGTT TTCGGTGATTCTTGGTGGTTTCGCACGATGTTTTTTTGCCTTCCTTCTTT GTGAATAACCGCCGCTAGTGCGCCCAACCATAGCCGAAAGTTGCAGACTG GCGCCCAGAACTCCTCTGTGACTTGAACCAACCCCGGCTGGTGCGCCCAA CTCATACCGAAAGTTGCAGACTGGCGCCCAGAACTCCTCTGTGACTTAAA CCAGCCCCGGTTGGTGGGCCCACCCTTTACCGAAAGTTGTAGACTAGCGC CCAGAACTCCTCTATGATCAACCGCGGCTGGTGCGCCCACCCTATACCTT TCAAGGTGTAGACTGGCGTTCAGAACAAAGGGAGTGTGACAACACACACC ATGTCCTATACGACATTTTATCATTTGGAGGTCGTTGTTGTCGAGCCGCC CTTACGCCACCAAATGCGTCACCTTGAAGGGGTGCATTCAACCATGTCAC ACACACACACACACGTGATGCGATATGGGCTACAGGTCGCTTTTCTTTCA AGCCGCATTCGCGTCATGCGAAAATAGCACATCGAAGAGGTTCATCAGAC CATGATGGCGGTCATATACCGAGTACATTTTATAGTTTCACTTCCTCGTA TTCCCCTGCTCTCTCTCCGCCAACTCTTGTCATTTGTGTGTCATGTACCA GTATATAGTTTCGCTTCCTCATATTCCCTTGCTCTCTCTCCGCCAACGCT TGTCATTTCTGTTACATATCATACGCACCGTGTGCCTTTTCGTACTCCGA TATGGTGTGCAGGCCGTCCATGTCGAGCCACATTTACGTAACCGACATCG TCGCCTTTAAGGGGTACATTTTGCCATGTTTGATATGATATGGTTTGAAG CTCGATTCGTTTTTCAAGCCGCGTTCGCGTCATTCGAAAGCAGCACACCG AAGGGTTTCATAACCTGATGGCGGTTACGTCCAGTAACGGTATATAGGTT CGATTCCTCGTACAGTACTCCCGTTCTTTCTCTCCGGTTGTTATTTGTGT TACGCACGTATGACACCATGTGCTTTGTGTATTCCGATATGGTGTGCAGG TCGACCTTGTCGAGCCGCATCTACGTCACCGAAAACGGCACCTTGAAAGG GTACATCACCATGGCGGCGCTGCTGACGCACCAGCCGAAAACCCCGGTGG CCGACCTCCTGCGGGAGTTGGAGGAGGTGCTCAAGGAGGTACGCGATGTC ATGTCATCCGCTCACCTGGACCAACATGGTTCGTCTTTAGACTTTAGACC TATGATACTCCTAGGGTAGTTGGGCACTTGAGATTCCTCGAGATGGAAAG AGAGTTTTCGAAGCCTGGTTTTATGTCGAAAAATCGGAGGTGTTGGAGAG GGATTGGAAACCAGGAGGTTTGTTAGATGGGCGGCAGGCGTTTTTTTTCC TTTTTTTTCATGCACCTGCTGCTGATGGTGCAAAAAGTGGCGAGCGTGAT CTCGTCAGCACCGCCAGAATCGCACGGGAATGGAGTGCCTGCACCTGCAC CTGGTTCGTTTGCGTGTGTACTTGTATGTTGTGGGTTTGTGCTCGGTTTG GACTGTGAACCACCGCTGCGGCGCAACCTCGTGGTGGAATCGGGTTGGGG AGCGAGCAGGATTTGCACACATTCTGCGCTTGCTTTTTCTGATGCTATCG TAAGGCTACATGCACGCATGTGTCGGATCTGTGCGTTTGCGCGCACTCTT TTTCTGATGCTATCATGAGTATCATGGTGTTGGTGCGTTGGTGAAGGGCC ATAGACAGCTACCCTCTTTTTATCCCTCTGTATGTGATTTTTACCCAAAA CCCTCTTTACGCCTACGATGGTGTGTGTGCGCACTCTCTTTTCCGTGCGC ACTTGATTTTTGACTACCGATGTTTTTTTGATGTTGCGTTTTGTTTTGTT TCGTTTCATTTCGTCTCGTCTCGTTTCGTTACGTTTCTGTGCGTTTCATT TCGTTACGCTACGTTTCATTACGTTACGTTTCGTTATGTTTCTTTTCGTT TCGTTTCGTTTCGTTTCGCGTCGCTTCGCTTTTTTTGTTTTGTTTTGTCA ACTTGCGAAGGGCGACAGCTGGGAGGATGCGGCGCACCGGTTGCGGCAAG CCAAGGCAATGGCAGCGCCGGTGGTTGATGGCGATGGTGTGCTGATTGCG GTGCTCAACCCGTCTGATCTTCTGCAGGTACAGGCTCCAACCCCGTTCGA TGATGTCCGTGGTACAGCAGCACAGCATTGCAGCAGCAGTGTTTCATTTT TTCGGACTTTCTTTTTTTCCGAAAAAAACGGCACACTTTTTTCGACACCA GCAAGCCGCTCTGTTTTTTTTTTTTTTTGAGCAACACCACCCCGTTCGAT GTCGTTCGTGGTTCAGCGGTATCGTAATGGTGTCTTTTTCCGGCCTCTTT TTTTTTGTTTGAACAACAAACGGCACACTTTTTTCTACATCGGCAAGCCG CTCTGTTTTTATCTTTTTTTTATAGTAACACCACCCCGTTCGATGTCGTT CGTGGTTTATATAGCAAGATCGTAGTGGTGTCTTTTTCCGGCCTCTTTTT TTTTCGCCGAACGACAAACAACACACTTTTTTCTACATCGGCAAGCCGCT TCGTTTTTGTCTTTTGTTGAGATATACCAGAACAATTATACCCCGGCACA CGAGAAACAGCAAGGTTGCTTGTTTAGAAGTCAGCGTCACGCGCGTTCCT ACGCATGAGCTTTTTTTTTCGATTCGATTTACACCTGTTTATTATGTCCT GCATACTCAGAAGTCGGTATTATTTACACTTCAATTTACACTCGTTTAGC GATTTATTTTCACTTCAATTTTACACTTGTTTATTTGTTTGTACACGCAT GCCCAGAATATGAGAGCTCTTTTCTCATATATTTTGCAAATCAACGAAGT TTTGGAATTTGATGCTTTGATGTATCATACTCTCCCTTTCGATTTTCCCG GAAAAATTAAAATCCGGAACCCACGATAACGCCTCCCATGTTTTGGTCAA CCCGCCTGATCTCCCCGAGTAGGACCCGATCCCATTCGGTTTCGTCCGCT GCTTTTTTTTTTTTGCGTTTGATACTCGGGCTTTATTTGGTTCGAAACAG AGCATCACATCATAGAACAAAGAAAAAGGCCATAACTACAGAAACAGAAG GACCTTCGCCCGAGCAACGCAGTACGTACGCGCCCTTTTTCCGCCACGGC CGTTTTGCCCTTTTTGTTTTTATTCGTTTCACGCCAGACATGTGATGCTA TGGTGCACAAACTCACATCTTTTTCTGTACACCCAACTCGCGGTAGGAAC GAATGCAAGCACCGCGAAACGGGGGTGAATTAAAAGTGTCGACACGGCCT TCCTCCTGTGTTTCCGACCCCGGCTGGCTGATGCGCCCCCAACTTGTTCC GAAGAGGTGTAGACTGGCGCTCAGGAAAGATGGGATGGCATATTTCCTTT TTGTGTGTTTCATCTTATTTGTTTTCCTCCTAGCACGATATGTGCCTGGC CTGTGTCCACGGGGTAGACTATGGTGGTGGTGAGCTGATGTGGGAATCAA CAACAACAGCAACAACAACAACAACGTACACACACACTGATACACACACT CACACGCACGCGCACCCACACGCACCGACGCACCCCTCTTTCTATTTTCC TTTTCGCAGGAGATGGAGATAGAAGCGACCGACGACATCATGCGCCAGTC GGGGTCCGGCGGAGGAGAAAGTTATTTCGGTACCCCCCTCCCTAGCCTGG TTGCTTCACGCGTCGGATGGCTGGTGAGTTAGTGGCGTATGTCACAGTTG GTGTGCCCAACATTCCTCGTACTAATCAAGCAGATACCTAGAAGGATGCT GCCCTGGGGTGTTAAAAAAACTCGATTTATTTCAACGCACGCTGTCATGT TCTTGTATTTCTTTCTAAGAAGGTGTGTGTGTGCTGTCTCAAAATTAGAA AACCGTTCCGATATCCACTCAAAGAATACATGGCCATATATTTCAAAAGC TGGATATCCTCGCGTAGCGAAATGGGGGTTATGTGGTGGGGGGGGTGGGG AGGGGGTGGGGGGGGGGTTAAAAGCTGGATTTCCCCGCATCGCGAAATGG AGGGGGCGGGGGGGGAGGTTGTGTGTGTGTGTGTGTTGTCATCCCTTTCA TTCGACGCCACTCTACACCTTTCGGGTAGGTAGACGCTCCAACCGGGGTC ACACAGGGGGAAGTCAACACAGGAGTTTTTTTTTTTTTTTCTCCACTTCC CTCTGCGGTGCGTGCCTTTTTGTTTGAGCTTTTATCGCGAGAAAGGGGAC AGCACTCCCTTTCCCTCGTCAATGGTACGACCGAATTTTGTTTACTCACG AATTGATCGCTTTCCACTATCACGCGCATCGTGAGAAAAAGCCCCAGATC GTGTTACTGCACAGGGATACGAACTCACGCGTGAATGTCAGAAGGTTGCG TGGATTACCAGCTGAACCACCGGGGCGACCGGAGGTTACAAGATGGATAT CCCCGCATCGCGAAAAGGGGGTTGTGTGGTGGGGGGATATTAAGAAGCTG GATTTCCCCGCGTCGCGTAAAGGGGGGGGCGGGGGGGGGGTGTAAGAGAT GGATATCCCCGCATCGCGAAAATGGGGGTGGAGGGGGGGATTTAAAAACT GGATACCCCCGCATCGCGAAAAGAGTGGGGCGGGTTGGGGAGTTGGGAGG GGGGATACAAATAAGCTGGATTTCCCGCATCGCGAAAAGGGGGGGGGTGC CGACACGAAACTAATCGTCTTTTGGCGGAGGGAGATCGTACAGAGAATGA CAAAACGGAATTAGAGACAACGTGAGCGACGTGGAGGTTAGAGAAATGCT TTGGTTGAGAGAAAAAAACAACCACGACGTAAGAGGCGAAAAGGCAACGA AAGGAGGGGCTGGGTGGAGGTTGGTGGACGACGACTACAACCTGCAAATG TATGTACATTGGTGATTTGTTTTCCTGCGTACAATTTGCCCGCCAAACAA CAGCAGCAGTAACAATAACAAAAACAACAACAGCAGGGCTAACACTTTTT CGTTTTTTTTTCAATCACAACAAAATAGCATTTTATTTGTTTCGGTCCCG CTTCTCTCTGCTCAACAACATCAGCAACAACAACAACAGAAGTAGTGCCA ACGACACTTTTATTTATGTCGTTTTATTTTTCGCCTCCACCAATCCCACC CGCACGCGGTCTTTTATGACGCGGCAGGTGAGCTTGTTGTGCCTGCAGTC ATTCTCGTCGCTGATTCTGCAGAGCTTCCAAGACGTGATCGAGAGGAACA TCGTCATCGCGCTGTTTTTGACGATGCTCACGGGCACCGCCGGAAATGCA GGCAACCAGGTAAACTAAGCAGCGCGAACAATAACCACACTTTCGCTGCT ATAATACGCTCAGGTCAAGTCCGTTAAGGGTGCGCTGCTGCAGCCACTCT GAACCATGCGCAGCTCGTTCAACGACGTGAAACGTTCAACAGAACTCGGT TCAAGTAGAGCATAAGTCAGAGAAACATCCGAACATCCGCCGAAACCTAC TGTTTGCTTGAAAAAGAGCATAAAGAGAAGAATCAGAGAAACATCCGAAC ATCCGCCGAAACCTACTGTTTGGTGGTCCAAGCAAAGCATAAGAGAAAAC ACGGGAGATACACGACTTTTTTTTTTCTTTTATCCAAGCGAGCGACGGAT CTCCGCATTGCTCTACTCTGCCCGCTTCCCACCCGTTCACTTCGTGCCGA CGAAGGCCAGGTTTCGAGGGTTGACATTCAAGCGCGGCGTAGACAACGAA ATATCCGTGTGTGTGCGTGTGCGTGTGCGCGTGTGTGTGTGTGTGTGTTT TCGTCCCTTTTATTCTGGGTGCCAGTCTACACCTTTGGGCATGAAGTACA CACGATATCATATCATAGGTGCACCAGCCGGGGTTCGTCACACTGAAGGG AAGTCACACAGAGGTTTTTATTTTATTTTATTCCTCCACCCACCCTCAAC CGGTCGCCCCGGTGGTCTAGTGGTTCCCTCGTTGACCCACTAGTTGTAAT GTCGTAGGTTCGATTCTCTCTGAGAACGTTTCTTGCGACTGTACAGTGGG AAGCGAATTACTCGTGAGTAAACAAAGGGTAGGGATTGCTGAAACCGAGT CGCACACTAAAAATCAAAGGCGCGGGCAGTAAAACTAAATTTAGAAAACG AAATAAGCATGTGTTTGACCTTCCTCCTGTGTGACCCCGGCTGAAGCTCC CATATCATGCCGAAAGGCCGAGAGGTGTAGACTGGTGCCCAGAATGAATA AGCCCTCCCCCGCCCCCCCCCTCTGCGGTTCTCGTCGTTGCGGCGCTTGT CGGTTTTTTCCTTTTCGGCTGTACGTCGCGAGAACGGTCCAACCGTCCCC TACCCTAGGCGACTGTTAACTCTCGAGTGTTGGAGTATACTTCGTACGTG GTATTTTTTTTCCCCAGAAGGCGCGCGCGACATGAAAAGTTTGACGGGCA GCTTGTTGACATTACAGTTACACCTTGATGTGGCAGGTGAAAGACAAGTG CCCTGACCTTCTGGTTGATGCGTATGATGTCATATCACAAAAACGTGTAA AGCATTCAGCGTCCATGCTAAATACGTATCGAAAAAAAAAAACTTCCTCC TTCGAGCCATGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTTCATTCCGTT TATTCTGGGTGCCAGTCTTCACCTTTCTGAATGAAGTATAAAGTGGGTGC TCTAACCAGCCGGGGTTGGTAACACAGAAGGAAGGTCACACACGGTATTT TTCTTTTTATTTCGTTTTATTGCCCACACCTTTCCTCCTGCGGTACTTGC CTTTGGTCTTACACGCGAGTCGGGTTGGCACGCATTTCGTTTCGATTTTT TCGTCCACCAATCAATTGTGTTGCCGTTGCCGTTTCCGTTGCCGTTTCTG TCTGTGCGTGTGTGTAGTTTTTTCTTGCAGAGCTCCGCCACCGTGATTAG AGGGCTAGCGACTCGAGAATTCCACAATCGATTTTGTTGCCGTTGCCGTT TGTGTGTGTTTGTGTGTTTTCTTTCAGAGCTCCGCCATTGTGATCAGAGG GCTTGCGACCGGAGAAATTCACCAGGGCAACCGGGGGCGAGTGGTGTGGC GGGAGGCCAGAGCGGCGGTAGCGTCTGCGTGCGTCCTGTCCGTGGCGTCT TTCGTCCGAGTGTTGCTGACGCCCGGGGCGACGACCGTGGCCACTCTGGC GGTCGCGATCGCGATGGGGGCCACCGTCATAGGCGCGGTCATGTTCGGGA CCATCGCACCCATCGTGCTGCACGGAATGGGGGTGAGTTGTTGTTGACAG TCCCGCTGACAGTCCCGTTGTTGTTGTTGTTTTTGTTTGGTTGTTGGTGT TGATGTTTGTTGTGTTGTTGTTGGTGGTGGTGTTATTTGTGTTGGTGGTG GTGGTGGCGGTGGTGGTGGCGGTGGTGGCGGTGGTGTTGTTGGTGTTGGT GTTGGTGTTGGTGTTGTTGGAGTTGTCGTTGTTGTTGTTGTTGTTGTTGT TGTTGTTGTTGGCCAGCCATCGTGCTGCACGGATGGGGAATGATTGTTGA CAGTCCCGCTGACAGTCCCGTTTAACGCTTCAGTGTTGTTGTCGTTGTTG TTGGCCCTGCAATGAGGTCGGAACGTTTTTTTGGCTCGGTGACAAAACGA TAGCCGTGATGTCACTTTCAATGCTCGGCTGTTTGATGAACCGAACCATG AGCCAGAAACAAAACGAGACAGGCGCCCCCCCCGCCCCGGCGGATGCTGC CATTGAGCTTGCCGGTAACTGAGGCTGGCCGTCGCCCCTTTCGCCACGCT CTACATTTATGTTACGCCTGAGCCACCCCCCCCGCTTCTTGCCGCTGTTG CTGCTGCCTCCGATGCTGCTGCTGCTGCTGCTACTGCCTGTCCGATTTAT CGTGTTCACAGGTGGACCCGGTAAACTTCGCGTCACCCGCATTGGCAACT TTGACGGACGTATCCGGCGTTTTCATCTTGTGCTCGGTGGCGAAGCTGAT GCTCAGAAACTGATAGATACCACATCAATCGTCTATTCTAAGCCCTCCAC CCCCACCCCCCGCCTCGGACCTTTTTAGAGCTCGATTTCTCCGTAGCGAA GAGGTTGCGAGCCATTTGTCGGACGCGACGTGAAGTCGGACCTCTTTCTT GGACCAGATCCTCCCGAATGCCATCCTTTCCGGCGCCATTTTGCTGTGAC AATATCGAGGGTTAGATAACGGTGCGGAACGGCGCGACTCAAGATTGATC GTTGTCTATCATATTTTTGCTTCAGTCGTAACATGTTACGGCCTAGTTTT ACTTAGACACGTATCAAATGTAGTGTTTTACTTGGAATTATAGAATATGC AGTCCAGGAGGAGGTGCGCCACTCCACAGCTGTAGTGTAATGATTGATGT ACGTGGGCAACTCTCCACGAGACGAGATCTTTCTAACCCCGCCATTTCTT GGCGGAAGTTACTGCTGTGAGGGGGTATCGAGGGTCGGACAACTGTGCGG AACGGGGTGACCTGAAAACGATTATGACCGAATCTTGCTCGAGTCAAAGA AAGCTGTGGCCTCATTTGCCTAAGACACGCACACGTAGTAAATGTGTGCC TTCTAGAATGGGTATTCAAGGGGGGAGGCGCGGCTTACATTGTATGGAAT CGTAAAAGTTGATGTATGCACTTCAGGATGATGTTGTGGCCCAATTTGTT GTTGACACGCACTCATTAAATGTATGCTTTCGCTTTCTAGAATATGTAGT CGAGGGGGAGGGGGCAGCTTATATCCGAAGCTTACATATAATTAATATTT TGATGTATGGGCAACTCTCGATGAGACATACTTTCAACGCCGCCATTTAC GGCGGTAGTTTGCTGCCGCGGAGGCATCGAGGCTTAGATGACGATGTGCG GATCGGGCCGACTCAAAGACGCCCTTGGCCTAAAGTTTTATATTCGATAC CATACGCACCAAATGTACGTTTTACTAGAATTTAAGTGTCCAGCAAAGAG AGGTGCAATACTCAAGCAAGTTTTGCTGGGAACCGTGTAGTTGACACGGT GCATGTTCAATCTGCTGCCGCTGTACACTCAAGTGTGGAACGATTGAGGC ACAAGTAAATAAACGCGCAATATTGGCACGAGGCATACATCAAATGGGAC GAAAACACAGCTGGGATTTTTGCGATTTAAAAGTGTCGATACTGCTTCAA GCATTGGACGGTGGCACTAATATATACGTTGAAGTACC
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Coding sequence (CDS) from alignment at P-littoralis_Contig190:43661..66498-

>mRNA_P-littoralis_Contig190.10.1 ID=mRNA_P-littoralis_Contig190.10.1|Name=mRNA_P-littoralis_Contig190.10.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1611bp|location=Sequence derived from alignment at P-littoralis_Contig190:43661..66498- (Pylaiella littoralis U1_48)
ATGAAGAGTTGTGCCCCGGCTGCCCTATCGCTGGCTCTCTTCTGTAGCTA
CGCGGGAGCTCTCGTCCCTGGCGCCAAGTTCGTTTTCGGAGTGAGCAGGC
AGGCGATGGCTGTGCGCCGTCGCGTTGGCGAGCGTATCGCCTCCTCTTCA
CTTGAAGAAAGCCTCGGCACTGCAGGCGGCAGCAGCGCTGCTGCGGGAAC
TGGCTCCTTGTTCTGGAAGAGGAGTTTCTCCAAGAATGACGACAAGAATG
ACTTAAGCGGGGGATCGCCCCGTCCGTCCGCCACAACCTCGTCGGTGATA
CACCTGGGGATGCTCAGAATACCGGACTCGCGGCGGCTCGATCTTGCCGG
AACAAGGGAGGGCAACGCGGATTCGGCATCTACAGCGGTGGTGGAAGAAG
CGCAAGATCATGCTGACCCTCTCGTAGAGGACGGCAGCAGTGGTGGTGGG
GCGCCGTTGGGGGAAGGGGAGGAGGAGGGAGAGGAGCGGGGCGAGGGCCG
CGTCATCGACATTGCGGGAAATCGGGTAGTCTTGCCTCCCGCCTTCGTCG
GCGGACCGTCGGTGATACCCTTCGGGGTAGGAGAAGGCCGGCTCGAAAGC
GGAGTCGTGCAAGTCCCTCTACACCACACGGTGGCGGACACCGTGGACTT
CATCAGGACCATCGCCACCGTGGACAGGGATTACCGGAGGGGGACACCGC
AGCCGGTGGAGGGGGAGGGTTGTCCTGAGGAGGCCCCGGAGGAGACCCTC
GGGTCGACCTTGTCGAGCCGCATCTACGTCACCGAAAACGGCACCTTGAA
AGGGTACATCACCATGGCGGCGCTGCTGACGCACCAGCCGAAAACCCCGG
TGGCCGACCTCCTGCGGGAGTTGGAGGAGGTGCTCAAGGAGGGCGACAGC
TGGGAGGATGCGGCGCACCGGTTGCGGCAAGCCAAGGCAATGGCAGCGCC
GGTGGTTGATGGCGATGGTGTGCTGATTGCGGTGCTCAACCCGTCTGATC
TTCTGCAGGAGATGGAGATAGAAGCGACCGACGACATCATGCGCCAGTCG
GGGTCCGGCGGAGGAGAAAGTTATTTCGGTACCCCCCTCCCTAGCCTGGT
TGCTTCACGCGTCGGATGGCTGGTGAGCTTGTTGTGCCTGCAGTCATTCT
CGTCGCTGATTCTGCAGAGCTTCCAAGACGTGATCGAGAGGAACATCGTC
ATCGCGCTGTTTTTGACGATGCTCACGGGCACCGCCGGAAATGCAGGCAA
CCAGAGCTCCGCCATTGTGATCAGAGGGCTTGCGACCGGAGAAATTCACC
AGGGCAACCGGGGGCGAGTGGTGTGGCGGGAGGCCAGAGCGGCGGTAGCG
TCTGCGTGCGTCCTGTCCGTGGCGTCTTTCGTCCGAGTGTTGCTGACGCC
CGGGGCGACGACCGTGGCCACTCTGGCGGTCGCGATCGCGATGGGGGCCA
CCGTCATAGGCGCGGTCATGTTCGGGACCATCGCACCCATCGTGCTGCAC
GGAATGGGGGTGGACCCGGTAAACTTCGCGTCACCCGCATTGGCAACTTT
GACGGACGTATCCGGCGTTTTCATCTTGTGCTCGGTGGCGAAGCTGATGC
TCAGAAACTGA
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