mRNA_P-littoralis_Contig150.20.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig150.20.1
Unique NamemRNA_P-littoralis_Contig150.20.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: D8LTV2_ECTSI ((R)-citramalate synthase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LTV2_ECTSI)

HSP 1 Score: 995 bits (2572), Expect = 0.000e+0
Identity = 511/615 (83.09%), Postives = 546/615 (88.78%), Query Frame = 2 
Query: 2183 MVASIQTSSTVSSTKQGTNGAGQVQGSKGTAGVGTEAPAVEFDQQPGG-LRTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSDHTPGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSIDAGPKS 4024
            MVAS+ TS+  +    G  G G  Q         T   A+  DQ  G  LRT+EMYDTTLRDGTQMEGISASV DKLKIALQL++FGMHYIEGGWPGSNPKDVEFFERARKELP+EAW +VVAFGSTRRKFK CAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMV ESV HLK AGKEVMLDLEHFFDGWKAN EYTMQVCEAAV A VDVLVLCDTNGGSLPWE+DEIVRDVK  +P  RL IHCHNDQGLAVANSLQAVRSG DVVQGTVNGIGERTGNANLMTIIPTLQLKMG+  VGE+L NLTALSRFTDEQFNMA  SGAP+TG+SAFAHKGGIHVSAVNKIPDSYQHIDP QVGN KR+LVSELSGQSNIL+KVEDSGMASK+EL+ S+VWRER+GQVLKTVK+ ET+GYSYEGADASVNL+VRRTM GYVPPFKLLDYLVQIWDSD TPGGLEFP GPTTARATVKVRVPSM SE   G+E E +PGV LEVAEGNGPV+ALAKGLFRALLPTFPSL++V LSDYKVRILDQESAT+AKTRV IEF++K+ DVGWSTVGVNTNIISASMSALMDG EYALVE+GQSCSIDAG +S
Sbjct:    1 MVASVPTSTVTTHGVNGDVGKGDRQA--------TSPGALVMDQPEGEVLRTVEMYDTTLRDGTQMEGISASVLDKLKIALQLHHFGMHYIEGGWPGSNPKDVEFFERARKELPAEAWERVVAFGSTRRKFKACAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVRESVEHLKMAGKEVMLDLEHFFDGWKANREYTMQVCEAAVGAKVDVLVLCDTNGGSLPWEIDEIVRDVKAAYPGTRLGIHCHNDQGLAVANSLQAVRSGADVVQGTVNGIGERTGNANLMTIIPTLQLKMGMTGVGEHLTNLTALSRFTDEQFNMAHTSGAPFTGISAFAHKGGIHVSAVNKIPDSYQHIDPAQVGNMKRVLVSELSGQSNILSKVEDSGMASKTELKASKVWRERMGQVLKTVKRLETEGYSYEGADASVNLLVRRTMSGYVPPFKLLDYLVQIWDSDRTPGGLEFPSGPTTARATVKVRVPSMDSEAELGIEGE-NPGVRLEVAEGNGPVDALAKGLFRALLPTFPSLQSVKLSDYKVRILDQESATQAKTRVLIEFYEKSSDVGWSTVGVNTNIISASMSALMDGFEYALVEFGQSCSIDAGTRS 606
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A836CCG4_9STRA ((R)-citramalate synthase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CCG4_9STRA)

HSP 1 Score: 684 bits (1766), Expect = 5.530e-225
Identity = 392/661 (59.30%), Postives = 440/661 (66.57%), Query Frame = 2 
Query: 2291 APAVEFDQQPGGL-RTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVV-----------AFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIG--------------ERTGNANLMTIIPTLQLKMGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLI------------------VRRTMKGYVPPFKLLDYLVQIWD---SDHTPGGLEFPKGPT--TARATVKVRVPSMGSEVSP--GLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYK---------------------------VRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSIDAGPKSPKRTE 4039
            APA    QQ     R +++YDTTLRDGTQMEGIS SV+DKLKIA  L NFGMHYIEGGWPGSNPKD EFFERA+ E P + W+++            AFGSTRRK  TC +DKQL +LI+AGT CVTIVAKAWDLHVDHILEVPREENLAMV ESVA LKAAGKEVM+DLEHFFDG+KANP YTMQVCE AVEA  DVLVLCDTNGG+L WEVD+ VR V    P VRL IHCHNDQ LAV+NSLQAV+SG  V                       ERTGNANL +I+PTLQLKMG A VGE L  LTAL RF DEQ N  P S APY G SAFAHKGGIHVSAVNKIPDSYQHIDP  VGN +R LVSELSG+SNIL+KVE+ GM SK E   S  W++R+ +VL  VK  E +G ++EGADA+VNLI                  +RR M GY  PF+L+DY V   D   SD   G      G    + RATVKV++P+  S++       D  D    LE AEGNGPVNALAK L +ALLPTFPSL+ V L DYK                           VRILDQESAT A TRV IEF D   +  W+TVGV+TNIISASM ALMDG EYALVEY   CS+D  P+ P R E
Sbjct:   18 APAHAIRQQHAAPPRLVDIYDTTLRDGTQMEGISVSVDDKLKIARVLSNFGMHYIEGGWPGSNPKDAEFFERAKAEPPPDVWSRIAEXXXXXXXXXAAFGSTRRKNSTCEQDKQLATLIAAGTNCVTIVAKAWDLHVDHILEVPREENLAMVGESVAFLKAAGKEVMIDLEHFFDGFKANPAYTMQVCERAVEAGADVLVLCDTNGGTLGWEVDQAVRTVASAFPGVRLGIHCHNDQELAVSNSLQAVQSGATVXXXXXXXXXXXXXXXXXXXXXXXERTGNANLASIVPTLQLKMGCAGVGERLPELTALCRFVDEQLNRLPDSKAPYVGQSAFAHKGGIHVSAVNKIPDSYQHIDPAAVGNVRRTLVSELSGRSNILSKVEEFGMGSKEEF-SSPEWQDRMNRVLTAVKTLEKRGSTFEGADATVNLIEPLRXXXXXXXXXXXXXMIRRLMPGYTAPFRLMDYTVTAADTMGSDALRGEETGTPGSVMPSVRATVKVKLPAGVSQMESLASFWDNGDRTQRLESAEGNGPVNALAKALNKALLPTFPSLQHVVLKDYKASRRPAQLPELRVFVGEVVQELKFQLKVRILDQESATAANTRVMIEFMDSHHNQQWATVGVDTNIISASMCALMDGFEYALVEYAPCCSLDR-PRPPVREE 676
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A7S2UWY3_9STRA ((R)-citramalate synthase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UWY3_9STRA)

HSP 1 Score: 639 bits (1648), Expect = 5.050e-208
Identity = 335/574 (58.36%), Postives = 424/574 (73.87%), Query Frame = 2 
Query: 2324 GLRTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASK-SELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSD-------HTPGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQ---ESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQ-SCSID 4009
            G + +E+YDTTLRDGTQ E IS SV  KL+IA +L  FG+HYIEGGWPGSNPKD EFFERA+ EL  EA  K+ AFGSTRRKFK  AED Q+ +L+ +G  C+ +V K+ D HVD ILEVPREENLAMVH+S+ +LK  GKEVMLDLEHF DG+K+NP+Y+M VC+AAV+A VDVLV+CDTNGGSLPWEV  + R+V+   P VRL IHCHNDQ LAVAN+L+AVR G  VVQGT+NG+GERTGNANL ++IP LQLKMG   VG+ L++LT++SRF+DE  N +P   AP+ G SAFAHKGGIHVSA+ K P SYQHI+P++VGN KR+LVSEL+G+SNI+ KVE+ G+  + S+L    VW+ER  Q+L  VK  E  GY++EGA+ASVNL++RR+   Y PPF + DY++QIWD D         P  +E      +ARATVKV V          +E   +   +LEVAEGNGPVNALA  L + L+PTFP LE + LSDYKVRILD    +S T +  RV ++F     D  ++TVG ++NIISAS++AL+DGLEYAL+  G+ +C++D
Sbjct:   88 GQQEVEIYDTTLRDGTQAESISVSVEGKLRIAERLAEFGVHYIEGGWPGSNPKDKEFFERAKTELSPEARTKLTAFGSTRRKFKKAAEDSQIAALVDSGVDCICLVGKSSDFHVDKILEVPREENLAMVHDSIHYLKGLGKEVMLDLEHFIDGFKSNPQYSMSVCQAAVDAGVDVLVMCDTNGGSLPWEVAHVTREVRKMFPEVRLGIHCHNDQELAVANTLEAVREGATVVQGTINGLGERTGNANLCSVIPNLQLKMGYHGVGDKLKDLTSVSRFSDELMNRSPNPAAPFVGASAFAHKGGIHVSAIAKNPLSYQHIEPEEVGNLKRVLVSELAGRSNIMTKVEEYGLIGQDSDLN---VWKERSVQILNKVKALEKSGYTFEGAEASVNLMLRRSSDMYTPPFAIQDYMLQIWDQDVDSVMRFSDPSVVEPYYFHGSARATVKVLV----------MEHTCNEKQLLEVAEGNGPVNALANALMKGLVPTFPVLEELELSDYKVRILDMSCGKSGTSSVVRVMMDFKKSNGDK-YTTVGADSNIISASLNALVDGLEYALI--GELNCAVD 645
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A6V1Q1T2_HETAK ((R)-citramalate synthase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1Q1T2_HETAK)

HSP 1 Score: 607 bits (1565), Expect = 5.690e-196
Identity = 335/576 (58.16%), Postives = 405/576 (70.31%), Query Frame = 2 
Query: 2318 PGGL--RTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGE-NLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWD---SDHT----------PGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESA--TRAKTRVFIEFFDKTMDVG----WSTVGVNTNIISASMSALMDGLEYAL 3979
            P GL  + +++YDTTLRDGTQ E +S +V+ KL IA +L  FGM YIEGGWPGSNPKD EFF RAR ELP   W +VVAFGSTRRKF    +DKQ+  L+ +  GCV IV K+WDLH+D ILEVPREENLAMV +SVAHLKAAG+EVMLDLEHFFDG  ++P  T+ VC AAV+A VDVLVLCDTNGG LPWE++  VR V    P VRL IHCHNDQ LAVANSL A+R+G  +VQGTVNG+GERTGNANL +++PTLQLKMG A VG   LR LT LSRF DE  N  PA+  P+ G SAFAHKGGIHVSA+ K P SYQH+DPD VGN +R+LVS+L+G+SNI+AKV++ G+   +++E +  W +   Q+L  +K  E  GYS+EGA+ASV L++RR ++ Y PPF ++DY  QI D   + HT            GL    G   ARATVK+       EVS G + E     +LEVAEGNGPV+AL + L R L P FP L  V LSDYKVRILD + A  T + TRV IEF       G    W+TVGV++NIISAS +AL DG EY L
Sbjct:   73 PDGLSAKHLDIYDTTLRDGTQGESVSVTVDGKLAIAKRLGEFGMAYIEGGWPGSNPKDAEFFARARAELPLSTWRRVVAFGSTRRKFLPVEQDKQIAMLLESEAGCVCIVGKSWDLHIDEILEVPREENLAMVADSVAHLKAAGREVMLDLEHFFDGMASDPACTLDVCRAAVDAGVDVLVLCDTNGGRLPWEIEAGVRRVAAEFPGVRLGIHCHNDQELAVANSLAALRAGCSLVQGTVNGVGERTGNANLASLVPTLQLKMGYAGVGRAKLRELTGLSRFVDEMMNRVPAASQPWVGASAFAHKGGIHVSAMAKNPASYQHVDPDVVGNTRRVLVSDLAGRSNIIAKVKEFGLCV-TDVECA-AWADSSLQILNDIKVLEKMGYSFEGAEASVELMLRRMVENYAPPFNIVDYSCQIMDQVATSHTVTQRGAAAAAAAGL-LASG--QARATVKM-------EVSDGAQGEGRR-TLLEVAEGNGPVDALGQALRRGLEPAFPLLREVRLSDYKVRILDHQGAKATASTTRVMIEFKRHNEFTGLTESWTTVGVDSNIISASFNALSDGFEYFL 635
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: R7QGZ5_CHOCR ((R)-citramalate synthase n=1 Tax=Chondrus crispus TaxID=2769 RepID=R7QGZ5_CHOCR)

HSP 1 Score: 566 bits (1458), Expect = 1.140e-181
Identity = 301/564 (53.37%), Postives = 385/564 (68.26%), Query Frame = 2 
Query: 2330 RTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGS-QVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDS--DHTPGGLEFPKGPTTARATVKVRV--PSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSI 4006
            R I++YDTTLRDG Q EGIS SV DKLKIA +L  FG HYIEGGWPGSNPKD  FFE  R +L     AK+VAFGSTR K  TC +D+ ++ L +A T  VT+V KAWD+ V  +LE   EENL M+ ESVA+ K  G+EVMLD EHF+DG+KA PEY +   +AAV+  VDVLVLCDTNGGS+PW++ ++   V    P+ R+ +HCHND  LAVANS+ AV +G  +VQGTVNG GERTGNANLM+I+PTLQLK+G A VG+ L  LT+LSRF DE     P SG P+ G+S+FAHKGG+HV+AV K  D+YQHIDP  VGN KRILVSEL+G+ N+L+K E+ G+    +  G+ Q W  R  QVL  VK  E +GYS+EGA+AS+ L++RR+++GY PPF+LLD+ V   +    + P     P   +  +ATVK+ +  P  G E  P         + LEVAEGNGP++A+   L + L   +  L+TV L+DYKVRILD ESAT A TRV ++F D      W+TV  + NII AS++ALMDG E A+ +    C I
Sbjct:    6 RCIQVYDTTLRDGAQGEGISLSVADKLKIATRLDEFGAHYIEGGWPGSNPKDAAFFENCRGKLKR---AKLVAFGSTRYKNTTCEKDRNVQMLANADTLVVTLVGKAWDMQVQVVLEASLEENLDMIRESVAYFKRLGREVMLDAEHFYDGYKAAPEYAIACLQAAVDGGVDVLVLCDTNGGSVPWDLQKVTATVVHRFPATRVGVHCHNDMELAVANSISAVNAGASLVQGTVNGYGERTGNANLMSIVPTLQLKLGYACVGDALSKLTSLSRFVDEIACQKPVSGQPFVGVSSFAHKGGLHVAAVLKNEDTYQHIDPSLVGNEKRILVSELAGRRNVLSKAEELGLVPAGDDAGARQEWGNRAKQVLGQVKDLENKGYSFEGAEASLELMLRRSVEGYRPPFELLDFSVTTDNKRIHYGPNSEGPPFNESVTQATVKIALLGPKDGGEACPTK-------ICLEVAEGNGPIDAVNGALGKVLFSMYQPLQTVALTDYKVRILDSESATAATTRVVVDFEDSASGRQWTTVYAHPNIIVASVNALMDGFEVAMWDSLPQCCI 559
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A2V3IHB1_9FLOR ((R)-citramalate synthase n=1 Tax=Gracilariopsis chorda TaxID=448386 RepID=A0A2V3IHB1_9FLOR)

HSP 1 Score: 555 bits (1430), Expect = 2.850e-177
Identity = 300/578 (51.90%), Postives = 389/578 (67.30%), Query Frame = 2 
Query: 2300 VEFDQQPGGLR----TIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSDHTPGGL--EFPKGPTTARATVKVRV--PSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSID 4009
            +E    PG LR    T+++YDTTLRDG+Q EGIS +V DKLK+A +L  FG HYIEGGWPGSNPKD  FF +  K L +   AK+VAFGSTR K  TC  DK +++L+ A T  VT+V KAWD  V  +LE   +ENLAM+ ++VA  K  G+EVMLD EHF+DG+KA+P Y +    AAV+A VDVLVLCDTNGG+LPWE+DEI R V    P+VR+ IHCHND  LAV+N++ AV +G  +VQGT+NG GERTGNANLM+I+PTLQLKMG   VG+ L+ LT LSR+TDE  N       PY G S+FAHKGG+HV+AV K  ++YQHIDP  VGN +RILVSELSG+ NIL K E+ G+    E +    W  RV  VL+ VK+ E +GYS+EGA+AS+ L++RRT+ GY PPF+LLD+ V   +     G +    P   +  +A+VK+ +  P  G +  P         +  E+AEGNGPV+A+   L + LLP +  L +V+L DYKVRILD  S T A TRV +EF + +    W+TV  + NII AS++ALMDG E A+ +    C I+
Sbjct:   15 LEAPDNPGELRKQKKTVQIYDTTLRDGSQGEGISLTVPDKLKLAQRLDEFGAHYIEGGWPGSNPKDESFFAQC-KGLDN---AKLVAFGSTRYKGTTCEHDKNVQALMKADTPVVTLVGKAWDHQVSVVLEATLDENLAMISDTVAFFKRKGREVMLDAEHFYDGYKASPAYALSCLHAAVKAGVDVLVLCDTNGGTLPWEIDEITRVVVAEFPTVRIGIHCHNDMELAVSNTIAAVHAGATLVQGTINGFGERTGNANLMSIVPTLQLKMGHDCVGDRLQQLTDLSRYTDEITNQPHVPNRPYVGASSFAHKGGLHVAAVLKDENTYQHIDPVLVGNERRILVSELSGRRNILTKAEELGLHPADESKDGVEWNVRVKAVLEQVKELENKGYSFEGAEASLELMLRRTVHGYRPPFELLDFSVSTDNKRVVYGNVLNATPNNESVTQASVKLALLGPEDGGDQCPTK-------ICFEIAEGNGPVDAVNGALQKCLLPVYAPLRSVSLVDYKVRILDNASGTAAITRVMVEFEESSNGKRWTTVYAHPNIIVASVNALMDGFEVAMWDQLPQCIIN 581
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A7S3P4U8_9STRA ((R)-citramalate synthase n=2 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3P4U8_9STRA)

HSP 1 Score: 550 bits (1416), Expect = 1.930e-174
Identity = 297/587 (50.60%), Postives = 388/587 (66.10%), Query Frame = 2 
Query: 2291 APAVEFDQQPGGLRTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAH-LKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDV-KGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLK-MGLASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDS---------DHTPGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGV---ILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSI 4006
            A   E D    G   + MYDTTLRDGTQ E +SASV DK KI  +L  F M YIE GWPGSNPKD  FFERA+ EL     AK+VAFGSTRRK  T A+DKQ+++L+ +G   + +VAK     V  IL    EENLAM+ E+V + ++  G+ VM+DLEHFFDG+K + EY+++ C+AA++     LVLCDTNGG++PWEV +IV+D+       V L IHCHND G+AVANS+ AV +GV +VQGT+NGIGERTGNA+L  ++P L LK     +   NLR LT++SR+ DE  N  P   APY G +AFAHKGG+HV+A+ +   SYQH +P  VGN  R+L+SELSG+ NI+ K++  G+         QV  +R   +L  VK+ E +GY++EGADASV+L++    KGY PPFK+LDY  Q++D+         D          GPT ARATVKVR  +           E+D  +   +LEV++GNGPV+ALA  L RAL P  P L  + L DYKVRILD ESATRA TRV IEF D + D  W+TV V+TN+ISAS++AL+DG EYAL+E+ +SC++
Sbjct:   54 AKTFELDSVVQGPGHVLMYDTTLRDGTQGESVSASVEDKFKIFKRLAAFDMDYIEAGWPGSNPKDAAFFERAQTELTPVEHAKLVAFGSTRRKGITAADDKQVQALLDSGAPTLCLVAKGHAWQVTEILRASLEENLAMIEETVDYTVRQHGRTVMVDLEHFFDGYKQDAEYSIKCCQAAIKGGAVCLVLCDTNGGTMPWEVTQIVKDLWNKLEGKVTLGIHCHNDCGMAVANSMMAVDAGVGLVQGTINGIGERTGNADLCAVLPNLALKCQSQIACKSNLRQLTSMSRYVDEILNRTPNHAAPYVGSAAFAHKGGLHVAAMQRSSASYQHTEPTDVGNESRVLISELSGRQNIMGKIQAIGV-------DPQVASDRALAILNRVKELEAKGYTFEGADASVHLMILHASKGYCPPFKVLDYAAQVYDANMDSASRFADEDEAACTPGLGPT-ARATVKVRTINPNPPAFDPKTPEKDADLHQEVLEVSDGNGPVDALANALMRALQPVHPFLRNIELVDYKVRILDPESATRANTRVMIEFRDASTDSTWTTVSVDTNVISASLNALIDGFEYALIEHAESCNL 632
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A1Z5JTT2_FISSO ((R)-citramalate synthase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5JTT2_FISSO)

HSP 1 Score: 549 bits (1415), Expect = 2.000e-174
Identity = 293/571 (51.31%), Postives = 389/571 (68.13%), Query Frame = 2 
Query: 2342 MYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIV-RDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGL-ASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSDHTPG-------GLEFPKGPTTARATVKVRVPSMGSEVS-------PGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSI 4006
            +YDTTLRDGTQ E +SAS +DKLKI  +L  FG+ YIE GWPGSNPKD EFF RA+ ELP  A AK+VAFGSTRRK  +  +D Q++ LI +    V IVAK+    V  IL+   +ENL M+ ++V HL  AG++VM+D+EHFFDG+ A+P Y +Q CEAA +A    LVLCDTNGG++PW V ++  R V+     V + IHCHND G+AVANS+ A ++G+ ++QGT+NGIGERTGNA+L +IIPTL L MG   +  + L NLT++SR+ DE  N +P   APY G+SAFAHKGG+HV+A+ + P SYQHIDP  VGN  R+L+SELSG+ NIL+K+E +G+       G+    +R   +L  VK+ E  GY++EGA+ASV+L++    +GY PPF++LDY  Q++DS+           G+       TARAT+KVR  S  S+         P  ED       LEV +GNGPV+ALA  L RA+ P+ P L+ + L DYKVRILD +SAT+A TRV IEF D   D  W+TV V+TN+ISAS++AL+DG EYAL+E+ QSC +
Sbjct:   64 IYDTTLRDGTQGESVSASADDKLKICRRLAEFGVDYIEAGWPGSNPKDAEFFRRAQTELPETARAKLVAFGSTRRKNTSADQDTQVQLLIDSKAPTVCIVAKSHSWQVQEILKADLQENLDMIRDTVQHLTNAGRQVMVDMEHFFDGYAADPAYALQCCEAAADAGATCLVLCDTNGGTMPWTVGQVSQRVVRHFDRYVTIGIHCHNDCGMAVANSVSACQNGIGLIQGTINGIGERTGNADLCSIIPTLALHMGSNIACKKQLLNLTSVSRYVDEILNRSPNVAAPYVGISAFAHKGGLHVAAMERSPLSYQHIDPALVGNEMRVLISELSGRQNILSKMEAAGVDISET--GT---NDRALAILNRVKELEAVGYTFEGAEASVHLMILHATRGYCPPFRVLDYSAQVYDSNIDSATRVMKKHGISSSSLAPTARATIKVRTVSGSSDDDDCDTTNRPPFEDR------LEVGDGNGPVDALAAALTRAVTPSHPYLKNIELVDYKVRILDPQSATQAATRVMIEFRDTQKDTKWTTVSVDTNVISASLNALVDGFEYALIEHSQSCPL 623
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A7S0G5Y8_9RHOD ((R)-citramalate synthase n=2 Tax=Rhodosorus marinus TaxID=101924 RepID=A0A7S0G5Y8_9RHOD)

HSP 1 Score: 540 bits (1392), Expect = 2.990e-171
Identity = 295/564 (52.30%), Postives = 382/564 (67.73%), Query Frame = 2 
Query: 2300 VEFDQQPGGLRTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVGEN-LRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSDHTPGGLEFPKGPT-TARATVKVRVPSMGSEVSPGLEDEEDPGV-ILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALV 3982
            V+ +Q       +++YDTTLRDG+Q EGIS +V DKL+IA +L +FG+ YIEGGWPGSNPKD EFF  A K++  ++ AK+ AFGSTR K   C ED  + +LI A T  VTIV KAWD+ V+ +LE   EENLAM+ ESV +LK  GKEVMLD EHFFDG+ ANP Y MQ  +AA +A  DV+VLCDTNGGS PWE  +I  +V     + R+ IH HND  LAVANSL AVRSG  VVQGT NG GERTGNANLM+I+P LQLK+G   + +N L  LT LSRF DEQ N    +  P+ G SAFAHKGG+HV+AV K  ++YQHIDP  VGN KR+LVSELSG+ NI+ K +D G+    E+     W+ R   +L+ +K+ E  GY++EGA+ASV L++RR++ GY  PF+L+D+ V   +          P   + +++ATVK+RV      V+   +D+  P V   E +EGNGPVNAL K + +AL   FPS++ +TL DYKVRILD + A+ A TRV IEF D  +   WS+V  + NII AS++ALMDG EY ++
Sbjct:   56 VDGEQAKSVTSFVDIYDTTLRDGSQGEGISLTVEDKLRIAQKLDDFGVSYIEGGWPGSNPKDAEFFT-AMKDIKLKS-AKLCAFGSTRYKHVACGEDANIRALIEAQTPVVTIVGKAWDMQVEVVLEASLEENLAMISESVTYLKKRGKEVMLDAEHFFDGYLANPAYAMQCLDAAADAGADVVVLCDTNGGSSPWETGQITFEV-ARRVACRVGIHAHNDMELAVANSLAAVRSGATVVQGTANGYGERTGNANLMSIMPALQLKLGYKCLSKNSLGGLTELSRFIDEQANRPHVTSRPFVGSSAFAHKGGLHVAAVMKNENTYQHIDPKAVGNQKRVLVSELSGRGNIVQKAQDLGLLKSGEVVDD-AWKRRSKTILQRIKELENLGYTFEGAEASVELMIRRSLPGYEAPFELVDFTVVSGNKKEMDARDLIPFSESQSSQATVKMRV------VTECKDDDGCPFVETFEGSEGNGPVNALNKAMMKALTSVFPSVQALTLIDYKVRILDNDRASEATTRVMIEFMDDELRRKWSSVSAHPNIIVASVNALMDGYEYGML 609
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BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Match: A0A7C5E488_9CHLR ((R)-citramalate synthase n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A7C5E488_9CHLR)

HSP 1 Score: 531 bits (1368), Expect = 3.740e-169
Identity = 294/553 (53.16%), Postives = 368/553 (66.55%), Query Frame = 2 
Query: 2327 LRTIEMYDTTLRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERARKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYTMQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGLASVG-ENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNKIPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQVWRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYLVQIWDSDHTPGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGVILEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAKTRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALV 3982
            +  I +YDTTLRDGTQ EGIS S NDKLKIA +L  FG HYIEGGWPGSNPKD EFF R + EL  +  AK+ AFGSTR K  TC +D  +++L+ A T  VT+V K+WDLHV HILE   EENL M+ ESVA+ K  GKEV+ D EHFFDG+KANP+Y +   +AA+++  D +VLCDTNGGS PWEV+EI + V       RL IH HND  L VAN+L  VR G   VQGTVNG GER GNANL++IIP LQLKMG   V  E L  LTALSR+ DE  NM P    P+ G SAFAHKGGIHV+A+ K+ +SYQH+DP  VGN KR +VSELSG+ NIL K  + G+ +          RE   QVL+ +K+ E QGY++EGA+ASV++++RR   GY PPF+++D++V    +++  G   F +      ATVKV+V   G E+               VAEGNGPVNAL   L RAL   FP L+ V L+D+KVRILD ++ T A TRV I+F  +     W+TVG + NII AS  AL+D +EYAL+
Sbjct:    1 MTQIFLYDTTLRDGTQGEGISLSCNDKLKIAQKLDEFGAHYIEGGWPGSNPKDAEFFAR-QGELKLKH-AKIAAFGSTRYKNTTCDKDANIQALVEANTPVVTLVGKSWDLHVRHILETDLEENLEMIAESVAYFKERGKEVIYDAEHFFDGYKANPDYALLTLQAAIKSGADCVVLCDTNGGSTPWEVEEITKQVAARFEGQRLGIHPHNDCELGVANALAGVRGGARHVQGTVNGYGERVGNANLISIIPDLQLKMGYECVKPEQLAGLTALSRYVDELANMTPNPHQPFVGYSAFAHKGGIHVAAILKVEESYQHMDPTVVGNEKRAVVSELSGRGNILYKAAERGLDTS---------REEARQVLEQIKELENQGYTFEGAEASVDMMLRRANSGYKPPFEVIDFMVI---TENRQGRGLFTE------ATVKVKV---GDEIRH------------TVAEGNGPVNALNLALRRALYQDFPQLQRVHLTDFKVRILDSDAGTAATTRVMIDFQQEGTTEFWTTVGAHPNIIEASWRALIDSMEYALL 518
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig150.20.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LTV2_ECTSI0.000e+083.09(R)-citramalate synthase n=1 Tax=Ectocarpus silicu... [more]
A0A836CCG4_9STRA5.530e-22559.30(R)-citramalate synthase n=1 Tax=Tribonema minus T... [more]
A0A7S2UWY3_9STRA5.050e-20858.36(R)-citramalate synthase n=1 Tax=Fibrocapsa japoni... [more]
A0A6V1Q1T2_HETAK5.690e-19658.16(R)-citramalate synthase n=1 Tax=Heterosigma akash... [more]
R7QGZ5_CHOCR1.140e-18153.37(R)-citramalate synthase n=1 Tax=Chondrus crispus ... [more]
A0A2V3IHB1_9FLOR2.850e-17751.90(R)-citramalate synthase n=1 Tax=Gracilariopsis ch... [more]
A0A7S3P4U8_9STRA1.930e-17450.60(R)-citramalate synthase n=2 Tax=Amphora coffeifor... [more]
A0A1Z5JTT2_FISSO2.000e-17451.31(R)-citramalate synthase n=1 Tax=Fistulifera solar... [more]
A0A7S0G5Y8_9RHOD2.990e-17152.30(R)-citramalate synthase n=2 Tax=Rhodosorus marinu... [more]
A0A7C5E488_9CHLR3.740e-16953.16(R)-citramalate synthase n=1 Tax=Anaerolineae bact... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig150contigP-littoralis_Contig150:80287..109593 -
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.D8LTV2
PFAMsHMGL-like,LeuA_dimer
Model size5068
Max annot lvl2759|Eukaryota
KEGG rclassRC00004,RC00470,RC02754
KEGG koko:K01649
KEGG ReactionR01213
KEGG Pathwayko00290,ko00620,ko01100,ko01110,ko01210,ko01230,map00290,map00620,map01100,map01110,map01210,map01230
KEGG ModuleM00432
Hectar predicted targeting categorychloroplast
Exons16
Evalue0.0
EggNOG OGsCOG0119@1|root,KOG2367@2759|Eukaryota
Ec32 ortholog description2-Isopropylmalate synthase
Ec32 orthologEc-28_002630.1
EC2.3.3.13
DescriptionBelongs to the alpha-IPM synthase homocitrate synthase family
Cds size1986
COG categoryE
BRITEbr01601,ko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789717.1522195-UTR-P-littoralis_Contig150:80286..813121680789717.1522195-UTR-P-littoralis_Contig150:80286..81312Pylaiella littoralis U1_48UTRP-littoralis_Contig150 80287..81312 -
1680789717.3295846-UTR-P-littoralis_Contig150:106571..1074801680789717.3295846-UTR-P-littoralis_Contig150:106571..107480Pylaiella littoralis U1_48UTRP-littoralis_Contig150 106572..107480 -
1680789717.3421266-UTR-P-littoralis_Contig150:108446..1095931680789717.3421266-UTR-P-littoralis_Contig150:108446..109593Pylaiella littoralis U1_48UTRP-littoralis_Contig150 108447..109593 -


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

Feature NameUnique NameSpeciesTypePosition
1680789717.1642263-CDS-P-littoralis_Contig150:81312..814681680789717.1642263-CDS-P-littoralis_Contig150:81312..81468Pylaiella littoralis U1_48CDSP-littoralis_Contig150 81313..81468 -
1680789717.1775603-CDS-P-littoralis_Contig150:81981..820501680789717.1775603-CDS-P-littoralis_Contig150:81981..82050Pylaiella littoralis U1_48CDSP-littoralis_Contig150 81982..82050 -
1680789717.1881251-CDS-P-littoralis_Contig150:82365..824701680789717.1881251-CDS-P-littoralis_Contig150:82365..82470Pylaiella littoralis U1_48CDSP-littoralis_Contig150 82366..82470 -
1680789717.1989086-CDS-P-littoralis_Contig150:82876..829511680789717.1989086-CDS-P-littoralis_Contig150:82876..82951Pylaiella littoralis U1_48CDSP-littoralis_Contig150 82877..82951 -
1680789717.2111344-CDS-P-littoralis_Contig150:83394..834911680789717.2111344-CDS-P-littoralis_Contig150:83394..83491Pylaiella littoralis U1_48CDSP-littoralis_Contig150 83395..83491 -
1680789717.2195394-CDS-P-littoralis_Contig150:83791..839041680789717.2195394-CDS-P-littoralis_Contig150:83791..83904Pylaiella littoralis U1_48CDSP-littoralis_Contig150 83792..83904 -
1680789717.2281065-CDS-P-littoralis_Contig150:84405..845231680789717.2281065-CDS-P-littoralis_Contig150:84405..84523Pylaiella littoralis U1_48CDSP-littoralis_Contig150 84406..84523 -
1680789717.2378352-CDS-P-littoralis_Contig150:85330..854731680789717.2378352-CDS-P-littoralis_Contig150:85330..85473Pylaiella littoralis U1_48CDSP-littoralis_Contig150 85331..85473 -
1680789717.2481954-CDS-P-littoralis_Contig150:86453..865971680789717.2481954-CDS-P-littoralis_Contig150:86453..86597Pylaiella littoralis U1_48CDSP-littoralis_Contig150 86454..86597 -
1680789717.260228-CDS-P-littoralis_Contig150:88988..891201680789717.260228-CDS-P-littoralis_Contig150:88988..89120Pylaiella littoralis U1_48CDSP-littoralis_Contig150 88989..89120 -
1680789717.269141-CDS-P-littoralis_Contig150:90134..902121680789717.269141-CDS-P-littoralis_Contig150:90134..90212Pylaiella littoralis U1_48CDSP-littoralis_Contig150 90135..90212 -
1680789717.2795231-CDS-P-littoralis_Contig150:92543..926751680789717.2795231-CDS-P-littoralis_Contig150:92543..92675Pylaiella littoralis U1_48CDSP-littoralis_Contig150 92544..92675 -
1680789717.2878392-CDS-P-littoralis_Contig150:94638..947621680789717.2878392-CDS-P-littoralis_Contig150:94638..94762Pylaiella littoralis U1_48CDSP-littoralis_Contig150 94639..94762 -
1680789717.2985365-CDS-P-littoralis_Contig150:95549..956671680789717.2985365-CDS-P-littoralis_Contig150:95549..95667Pylaiella littoralis U1_48CDSP-littoralis_Contig150 95550..95667 -
1680789717.3092048-CDS-P-littoralis_Contig150:106189..1065711680789717.3092048-CDS-P-littoralis_Contig150:106189..106571Pylaiella littoralis U1_48CDSP-littoralis_Contig150 106190..106571 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig150.20.1prot_P-littoralis_Contig150.20.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig150 81313..106571 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig150.20.1

>prot_P-littoralis_Contig150.20.1 ID=prot_P-littoralis_Contig150.20.1|Name=mRNA_P-littoralis_Contig150.20.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=662bp
MRLGVALLALSQASSVLSFVQHLVAPQAFGSTNSRRNGNSASMVASIQTS
STVSSTKQGTNGAGQVQGSKGTAGVGTEAPAVEFDQQPGGLRTIEMYDTT
LRDGTQMEGISASVNDKLKIALQLYNFGMHYIEGGWPGSNPKDVEFFERA
RKELPSEAWAKVVAFGSTRRKFKTCAEDKQLESLISAGTGCVTIVAKAWD
LHVDHILEVPREENLAMVHESVAHLKAAGKEVMLDLEHFFDGWKANPEYT
MQVCEAAVEANVDVLVLCDTNGGSLPWEVDEIVRDVKGTHPSVRLAIHCH
NDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLMTIIPTLQLKMGL
ASVGENLRNLTALSRFTDEQFNMAPASGAPYTGMSAFAHKGGIHVSAVNK
IPDSYQHIDPDQVGNHKRILVSELSGQSNILAKVEDSGMASKSELEGSQV
WRERVGQVLKTVKQQETQGYSYEGADASVNLIVRRTMKGYVPPFKLLDYL
VQIWDSDHTPGGLEFPKGPTTARATVKVRVPSMGSEVSPGLEDEEDPGVI
LEVAEGNGPVNALAKGLFRALLPTFPSLETVTLSDYKVRILDQESATRAK
TRVFIEFFDKTMDVGWSTVGVNTNIISASMSALMDGLEYALVEYGQSCSI
DAGPKSPKRTE*
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mRNA from alignment at P-littoralis_Contig150:80287..109593-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig150.20.1 ID=mRNA_P-littoralis_Contig150.20.1|Name=mRNA_P-littoralis_Contig150.20.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=29307bp|location=Sequence derived from alignment at P-littoralis_Contig150:80287..109593- (Pylaiella littoralis U1_48)
TCTCACGTCTGCATGTTTGTATGATATGCAATGGTAAAGGCATATCGTAT
CATACCAGATTGAACGAGGAAGAAAAAATAAATAAATAACTTCCACAGCT
GCGGCTGTTGATTGGCCAGTTTCGGGGAGCATCATAGCATCATGAATTAC
TCTTAATAAGCTCGACCGCAGGAGTCCGCAGATTCCGCAAGTCCTCAACG
GCCATTCCGGAATCCTTGCGTTTTGAAATCAGAGTTGTCATCGCGTCTTC
CACCGACACCTCCTTCCCCTCCTTCAGCACTCGTAGCAAAGCAGTCATCG
TCTGTTGTGTTACGATAGCGCCGGGCCGCACTCGAACCGCAGCCATCGAC
TGCAACTCCAGAGTCAACAGCAGAGCACTCATGTTCGGCTTCCTGTCAGC
TGGAAGCTAACGTGAATTATTGTATGCTTCCATGTAGCAACGGTTGCAGA
TGTCGCTCTCTGTTGTCAACTCTGCGCCACTGCGTCAGAAAAAGTCCGTA
CTTGCTCTTCCCGACTTGAACCACGCGGACAATGCGCAAAGCATCCCGCC
GGGATGATGCCAATGCCCTGATTTTCTATCTGCACAGATGTTGCACTTCC
TCGTCTCCTCCTTGTTCTCGGTCCTCAGGTGCTGCGTCCACTGCGTTTGG
AAGCACTGAGCTCTTCTGCAAAGGCATTTCGAGCTCGGCACAAAGTCGGG
TGTGACGCAACTATCTTTTCGCCTCTCCGCGGATTCCCACCAGATCGTCG
CCTTTTCTACGGGGCTGCCTGCCTGAAGATGAACCCATCTCCTGATACCA
TCTGCACCCTGTTCTGGCACTTGATTGCATGCGTAGTACACGTAGTCCTT
CTCGCAGAGGTGGCCGTGTACGCCTTGTTGCCCGCATGGCGTTGGAGGCC
CCCGGCGCTTTTTAGCAGACACAGCATTCGGTGCGTCGACACCGCCGCGG
CCCTCAGACCTGAGAGTCGGGCTCGCGGAGCGCCGGCGCGTCTGTCCGGA
GGCGATGTTACGCGCAGAACTCACCCAGCGCGAGCGAAGGCTGGTTCGGG
TGGCACGCCCCCCTTCCGTAATCGGCGCACTCGCCGCACGTATCTCTGAC
TCCAAAGGTCTAGCGCGTTCGCCCATGCGACCCTCCTCTTCATCTGCACC
GATGGTTGGACAACGCGCGTCTTCGATGATCAGAGCGAACTTTCTACATA
TTCGCAGTATCGCGAAGCTCAAATACACGGTCCTTTCCAGCATGCATGCC
AACACCACAGGCTTGAAGCTGGAGATGACAACAGAATGTTTGAGGCCGAG
AAAAAAAAATACAGCTATTCTCAAAAGACACCCGAGAACACCAAAATTTC
GTCTTTTTTCTCGATCGAGCACGTATCAAACAGAAACCTGGAAGTGTGGG
ACCTCTACTCCTTGCCTACCGACGGCAGGGCGTTTGTTTTGCGGTGGGGT
CATTCAATCAGCAGGGAGAAGCAGCGATCGAGGGTGGTATCCTTCAACCA
TACGCCCCAAGTTCAGGAAATTGGGGCCCATGGGGTTGAGTACAGCAGTG
GAAGATCATGCAAGGTGTTTGATTTCAGGCCAAAATTCGGACAGAATCCC
GACTGCTATTGTACATAAAACATTTTTTCAACCACCGATAGAATAGCCCC
GGCAGAAGATTTGAGCTAGCCAACGCATATGTCGCTTCTACGTGATGTCC
CCTACCAATATCATTGGAAAGATCGTTAATTCACACCACAGGTCTTATTC
GAGCGCCTCTCGTATTCACTGTTTTGTCTCGAATTTAGAGAAGGGGAGCT
TATCATCTTGGATTTAGATTTCGCAAAATTAATACGGAGTTCTGGATCAC
AACATTTTTGTCGCAATAACGCCCCAACTAACACCTTCCAGCCGTTGTTT
TGGCCCCCAACCCAATTCTACTGGCCTGATGGCCCTGCTTCGTGACGTTT
TGGGTGCTCTTTGCAGCATTCAAGAATTCAGCAATGTTGGAATACATTGA
ACAGGGCCCCTTCATTGTAATGGCTGTTTGTCTGGTGTTTACTTCGTACC
TGTTATACATACCAGCACCAGGTGTATTCGAAAGCCAGTGAGAACAAAAC
ACACCGCACCTGCTGATTGCGGTCGGCCCAGAGAAGAGTTGCCGATACTT
CCTGATCCCGAACTGCATTCTTCACTGCCCGACGGCATGTCCCCATCCCC
TGCGTCCATCCTGTGTGTATGGTGAAGTCCAAACGACAGCGCCAGACGGC
ACAGCAGCAGCAGTGACGAGTGCACCAGAGTGAGCCCAGCGTGAAGTGCA
GCTGCTGGCTGCTGATACTGCTGTAAACGGCGTGTTTCACACCCTTGCGA
CGAACAGCTAGCACAGTTGAACCGTCGCATAGATTTCCCATTACAGGATG
AGATCTACCCTAGGCGTAGTCCTGAGCAGGATGCTTGTTGCAGGTTGCTG
GTTCGGGTTAGGTGTGTGTGCTTGTGTGTTCGCTGTGTGCTGCGAGAGTG
CGGCGAAACTGCCGTCTGTGGGCATGGTCTATTATTTGACCACTGTGTGT
AATTGACGTGGACCGAGTCAAGCGAAATAAACGTGACCAGTGACTGCTCA
CTCACCTGGTAGGTGCCCTTCAAGTTCTGCGCGGATTTGAGCCCGCTGGC
CCGAGTTGTAGCCCTTCTTCCCACCCTGTCATGAACCTGCTCTAATTTTC
ATATGTTTTTTTAATATATTTTGATGTGAGGCGTCTGCCTTGTAAATAAA
ATAAAATGAAAATATAAAAACTTCGAGCTTTATCATGAAAAAGTGCGGCG
GAACCTCGTAAAATACCATTGTCAAAGCATGCGGCTGACATGATACGTTG
ATTGGTCAGTTTCGGAGTAGATTTGGTGACAGAGGAACAGAGTGCAACGT
CAACGTCACATCCCCCCCAACGCCGCGTACCGCGGTGGTGCTGTAAACTG
CGAACGAATCGCTGCGCGCGTGCTAGCGTGTTTGTGCCCACCTCGAGGCC
GAACCGAGAGGAGGTAGCAGCCATGCGTCTCGGGGTGGCCCTTCTTGCGC
TCTCGCAGGCTTCATCTGTCCTGTCTTTTGTGCAACATCTTGTGGCGCCA
CAAGCCTTCGGCAGCACCAACTCCAGGAGAAATGGAAATTCCGCGAGCAT
GGTGGCTTCCATACAGACATCGTCGACAGTGAGCAGCACGAAGCAGGGGA
CCAACGGTGCCGGCCAGGTTCAGGGTAGCAAGGGAACTGCCGGCGTGGGA
ACGGAGGCTCCTGCAGTGGAGTTCGATCAGCAGCCGGGAGGGCTTCGGAC
GATCGAGATGTACGACACGACCCTGCGGGACGGAACCCAGATGGAGGGCA
TCTCAGCCAGTGTCAACGACAAGCTCAAGATCGCACTCCAGCTCTACAAT
TTCGGTCGGTTCTTGTCTTAGGTTTTGGTTGTCACTGCTGTAGGGTTTGC
TGGCTGATGTATCATGTCATGAATCATGTTCGAAATCATTTACTCGAGGC
CGCAGTATTAAAGGGTTGTGGCAGACGTTTAGGCAGACAGACTGCCTGCA
TCGATGGCCTGTTCGTCTCTTGAGACTAGGGGTGTGTCTTGTCGGAACTC
CTTCTCTGTACGTCAAGATGCAGCAGGAGAGCCTTCCTCGGTGACCCGAA
TCAACAGCCTCCCCATGGCGCGCACATCTATGCATCTATGTAGTACCTTG
GTGCCAGAGCTATTGCAGGAGGCTTGTGATACTTCGTACGAGCTTTTGGC
TCGATAATCATATCGCTGGTAGCTCTGTGAACCGAACCAGTTGCAGCATC
CAGATGGATGCCCTTTCCTCGTGGTGTAGGCGTGTAGGCCCGTTTCAAAG
GCCTCTGATATGTTACATCGAAGCATGAACGGCATCGTTTCAAAGGGAGC
AGCACAGCATCCCTGTTGCGTGGGTGAGATGTACGGAGTACAAATTGTTT
CCTCTCCTCTACCCGTACCTAAAGCACGAATCAAGACGTGTCTCAACAGC
ACAGCAGCAGTTGTTGCTGCTGAGACCGTACAGAAACAAGCGAGTGGATG
TGTCCTTCGTATCGCACGTTCAGCAGTACCTGGTATCATTGAGCCCGTGA
TGAATGTCGTACAAATTGTACCGCTGTGAAGTACCTTTGTTCGCACTTCG
TACAAGCAGTCCGTAGAATTGTACTTGAAGAATTAATCCCATTGGTTTCC
CAGGGTTTCCCAAGCACAAGGAGCGTGGGGCCTTCTACAGATAGTACGCT
TACAGCAGTCCAGCCGAACCAGTCCAGCCCCATTCTGTTCACATATGATC
CCGGTATACAAGTACGTCATACTTTTAGACCTCTTTCCTAGAGTAGTCAA
CTCTTTGCGCATTCCAACAATACCGGCTCACTCATAAAGAAGGCTCAAAA
CCTCATATTGTCCCGCACCAAGCACAGGCTGTATCTTACTCGAAGCACAG
AGTACAATATCGGAGTATACGGTATAAAGGATTTTAGTGTGGCGCCTGCC
GCTGAGCCCAATTTCTTTGGCCGAACTTCTTAGTGTTTTTGAGAATCCGA
GGCTGGATTTATGAAGATGTTTCTTGCGAGTGGGCCGGTACAGTGTACAG
TATAGTGGCATGATATCATACGGCCTACAGCACCCCGTGTATGTACAGCA
TGTTTGGTGCTCTCGGCGGTCAGGAGGTGAAGATGTGAACCCACAGAAGA
TACTGTAAGTTTGGTACCATGTAGTTTGTACCTGTACAAGTTTACGACGG
CTGACGCCGCCACGGCCCTGACGTTCCCCAGATGATCATCCATACGAGTG
GGGCCTATGGGAGAGTGCCCAGCGCCACGCAAAGCAAAGCACCTGCTCAA
ACACACAAAACAAGTGGAAAGTGGAGTGACGCGCGCACAAATGCTCCGAC
ACATACTACCGAACCCACACCTGCTGTCACATGAATCTGATCATGCCTCG
AGTATTCCAACACCCCCCCTGCTCGTGGCATGACCACAATTGCGCACGAT
CGCATCCAAACAATATCCCACGAAAGTTCCATCACGTGTCAAACAAATAA
AAGCCAACGACAGCAGTAAACGAATGATGGTGAGCCCTTCCCAAAACAAA
AAGTGTTTCGATCGAAAACATGATCTAACAGGGTGTTTGCGCAAATTAAT
TTTTTTTCTCAAAAATCTCTGCTACCCCGGCAGGCCCCGCGGACTGGAAG
GAAATAAATACTTCGTATTTGTTTCAAATTTCTTAAGTTCCCGGGAAGAA
ACGATATTTGAAAAGGATATTTGATCTGCCGGCGAGACTGTATCGGAATG
CTGTGATTGGTCACGAGATACCCCGGCCTGAGACAAACGGCCAGCCCTCT
GCTGTCGGAGCGAAGAGGGGCTGGTGCTAGATACCTCTGCAGCAAGACGA
TGGCGACGAGGAGACGGCGCCACATCAGAGATGTTCAAATCAATCGGCGC
TATGGCGCACTTTGCGCTGGAGAGCGTGTGCGGATCAGGCATGTGCTGCT
GCAGGCATCGCGCTTGTTTGTCGCTGCGGATGCGAGTGCCACCGCTGTCG
CTGCCGTTGAAGACCCGCCCGTCGGCTGATCCATCTCTGCTGCATCTCCT
TCCTGTGCTCCAGCGCCATCCACTACCACGATACCCGGAAGACTCATCTG
TCATAGTCATCTCTTTTACAGCAGCGTGCGAGAGTGTGTGTGTTCCTCTG
TCAGTGGGCGTGTTTGGTGTGTGCTGCGGCACCGTCGTCCCCCACAAAAG
AAATTATTCTTCGCAAACTCATTCCGAACAAATATGCAAGCAGATAGATT
TATGTCCCTCAGGCTACATCTTGTGTGTCAAAATCGTCATTATTCCTTTT
GGGCCGTTCGAATGGTAACGTGTCCAACAGGCTCTGTTGACGGACCCGAT
ATTATGTGTCGAAACCGAACAAAGATTTTTAGAAGAAACGAAAAAAGATC
GATGCAGCTCACCACCAGCAAGAAGGTGGTGTGGTGATTTCTTCTTTTTT
CCACTGGCCATCAATTCCTGCAATCCTTCTACGCCAGCCTATCGATGCCT
CGCTGCTTCAGAGGACCACCGGAGGAGAGAGACCATGTTCACAGCTCGCG
AAGCATGGCTTTATCATTGCTGTGGCTTCATTCGTTCGAGAGCAATCGAC
AAAAGGCCAAACTGGTGTGGCGGCAAAAAAATCTGCTGCTGGTTTAAGAG
TTCAGAGGACAGGAGCAGCAGCATCAGCTAGCTGCCAGCTCTCGTCCAAT
CAAATTTGGTTTTTGGTCCATCACTCTCGAACGAAAGAACCCACAGCAAT
ACTAAAGCCATCGGCCGTGAAGTGTATGTATGGCCATTCTCCTGCGTCGG
TCATCAGAGGCCGCGAGGAATCGATGGGCTACCAAAACAAAGTTTTCAGG
TCATCTCATCATGCAAGGCTGACTGTAACTTGGGTTGTTCAAACTCCTTG
ACCCCAGAAAAATAACAGGTTTACGATAGCTGCAGGCTATCAGAAAAAAT
ACTTTTTCTGATCGTTTGGGGCTATGGGAAAAATTTATTCGAAAAGTCGC
TGTCTAAAATGGCTGTTTCTGATCACATAAGATTCTCCGTTTTTGGCCAA
TGTTCAAAACAGCCAAATAAAATACAAATATATGAACAGTTCTGACACAT
AAGATGTAGCCTCAGCGTGTGTGTGTGTTGTGTGTTGTCATCCCTTTAAT
TGGACGCTTCCCTCGCAGTGCTTGCCTTGTTTTTTTTTGGTTGAGCTTTT
ATCGCGGCAAAGGGGACAGCAATCCCTTTCCCTCGTCGATGGCACGGTCG
AATTTTGTACACTACTGTGACGAATTGATCGCTTTCCACCTTCACGCGCA
CATGTGAGAAAAAAACCCAGATCGTGTTACTGCACTGGGATTCGAACTCA
TGCGTGAATGTCAGAAAGCTGTGTGGATTACCAACTGAACCACCGGGGCG
AGCGTGCACGCTACTTTCAAAAGGATATTTGACAAAAAGAAATTATTTTG
CGCAAACACCCTAATATCTACTTCGAAGTAGTATTATATTTCTCAATTTC
CAAACCAATTGCAAAACAAAAGCTCCCATGGCTAATAATATCCGCACAAT
TCGCGCAATCCTCCATGACTTCAAAACCACTTCAAAACCATGACGTAATT
TTGGTAAAATTCAAATAATTCCATACCCAAAGCCTTTGTCGTCACCGTGC
CGTTGCGCTGAGAGCACAAGACAATACGGAACCTCCATTTTTACGAATAG
CCCCCGCCTGATGGAATAGTATCGCTCGCCGACTTGTTTCGAGTGAAGTC
GGTGATGGTCCCCCCTGTTGTATTATTTCCTTTCTTACTGCCGAAACGTC
ACACCTGAGTTATGTCCAAAACCATTACATTCAACCATGCATGGCTGTTA
GCAGCTTCCTTTCAAAGAATGCCCATCGCACCAAATCCAAATACCAAGAC
ATCCCGAATTAGTGCACATGTATTACAAGTATTGCTTCTAGAACTATAGC
ATCAAATGCCCTCCCCTGTCGTTCTCGATAGCACTAGAGAAGCAGTGACC
CAACGCAATCAATCCGAAAGGTGAAATCCACAGTAAGAAAAAACGATCAG
CCACGAGGAAACAAATTAAAGTACCCACCCAGCGTGTGTGAGAACAGGGC
TGACAGGTTTGAGGCACAAACTAACCCATGTTGAACCGCTCACTTTATGG
GTAACTGGCAACCTGGACATGTTGAAGCTCGGAGATTGTGGGCCACTGGC
AACCTTTCAACATGTCTGACAGCTTTTGACGCCGGCTCGAACTGACAACC
TAGCAGTGTGGTTGGCTGCGATTTAGAATCCTGTTCCTTTAGTGTATGGA
CACACCTCTCAAAAATCGAAACGAACCAACACAGAGGGAGGAAACACATG
CAGGTAACTGTGGGCCAACCAATCAAGAGGAAAACGACGAATTTCTACAC
AGCGTGTGATAACATGGCTGACAATTTTTTTATGCCGACTCGAACTGACA
ACTAGCAGTGTAATTCGTAGTTGGCCGGCGATCTAGTATCCTCTTCTGTT
GTTTTATGGACACACCTCTCGAAAATCGAACCGAATCAATCCAGAGAAAG
GAAAAACAAAAATGTGTGCGCACCAATCAAGAGGAAAAAAGAAAAATTCT
AAACGTGCCTTCTTTGGGGACTCGGTGCCCCAAGTTGTTGCTGAGTGATA
AGCTGCTGCAGCACGTGTGGTATCCTGCCTTAGGGAGGAGGCTCTGTCCT
CTCCTTGTTGGTCGTGTCCACGTTGTCCTGTCCTGTGGAGAGCTTGATGC
TACTGTATCGCCGTTTGGGCTCTGGCTCACCGTGCTGCTGCTGTGTATAA
TATCGCCGGTTATTTTCCGTGCGGTGCTGCTGCTGCTGCTGCTGTTTGTT
GGGGTCTGATGATCATGGGATGATGATTATCCTGTTGACTGTTGTTGCAG
TATCGGTACATAGCCATCTCCGCGGCTTCACAGCAGCGGGTGCTGTAACT
GCTGTCGCTTAGGAATCAGCGGCGGCTTGGGCAAGGAGGTCTTGCACGAG
TGCCCGCTCCAGTCCTGCTGCTGCTGTACTCTGCTGGAGAGCCGGATGCA
CCCGAGGCAGCAGGCTATGCCGTCCCTTTTAATACTTCCTTCCCATAGAA
CTCGGCCGCCGAAAAGCGGTGGCTTTGTAGCCGTCATTTCCCACCGAGCG
CCCTGCGGTGTACCTTCAGTGTTCACGGCTAGACAGGAGGGCCACATCGC
GTGTCGCGATGTCTGGGTAAGATAAAGACAAGGAGAACATCCTCAACAGT
TTCTCCGCCCCCAACAAATTGAAGCTATGATGGAACTCATCGCCACTGCG
ACAGCAACTGCGATCGCCGGCGGAACGGCGGCCGCCACCAAAGCAGCATC
TCTGGTCTGGCCGCACAGGCTGCGGCTGCCTACACAACAGCACCTGCGGC
TGCCTACACAACAGCACCATCAACAGAGTAGTCCCCACATCAACAGCGCA
AGCACAGACTTATGCAGAACACGAACACGCCCAAGCCCATGGAGAAGACG
GAGCCACACACGACAACGAGCGTACGGACGGAATTTCATCCACGGAACGG
GACACCGTGGTGCAGCAGCTCATCACTGCGCTAGGAAGAATGGGGACTTC
GCCCAATCCAGGGTTAACGGTTAGCGTGCATAGCCAAGGGGGTAGAGTAG
AGTTCACAGAAAATCAGGGAGAAGAGGAGCTAGAGTAGAGTTCACAGGAA
ATAAGGGAGAAGAGGAGGCAACATTGTTTGTGGCGAGGCTTGAGTCTCTT
TTTTAGATCCATGGATTTGTAGTAAGCTTTTGCACACTAGTACCAATCAA
AGTAGGACTGCAAGGCACAGATTTGTTGTATCAAGAGTTTGCAAGAAGAG
AGGTAGGCAGTGCTTTGAGAGCGTGCAATCTCCGGTTGAGCAGTGTGGCG
GACGTAAGGACGATGGTAAGGATGACAGCAGATGCCGGTTTGATGGATCA
AACCGGCATCTGCTGTCATCCTTACCATCGTCCTTACGTCCGCCACACTG
CTCAACCGGAGATTGCACGCTCTCAAAGCACTGCCTACCTCTCTTCTTGC
AAACTCTTGATACAACATATCTGTGCCTTGAAGTCCTACTAAATTTGGTA
CCCGTAAACAAAAAGCTTGCTTCAAACCCATGGATCTAAAAAAGAGACTC
AAGCCTCGCCATAAACAATATTGCCTCCTCTTCCCCCTTCTTTCCTGTGA
ACTCTTCTCTACCCCCTTGGCTATGCATGCTAACCGTCGTCCCTGGATTG
GGCGAAGTCCCCTTTCGTCCTAGCGCAGTGATGAGCTGCTGCACCACGGT
GTCCCGTCCCGTGGATGAGGCTTCGTCCGTACGCTCGTTGTCGTGTGTGG
CTCTGTCCTCTCCCTGGGCTTGGGCGTGTTCGTGTTGTGCATAAGTCTGT
GCTAGCGCTGTTGATGTGGGGACTACTCTGTTGATGGTGCTGTTGTGTAG
GCAGCCGCAGCCTGTACGGCCACCAGAGATGCTGCCTCGGTGGCGGCCGC
CGTTGCGTCAGCGATCGCAGTAGCTGTCGCAGTCGCGATAATCTCTCTCA
TGGCTTCCATTTGTTGCGGGGAAAATCTGTTGAGCATGTTCTCCTTTGTC
TTCATCTTGCCCAGACATCGCGACACGCGATGTGGCTCTCCTGTCTAGCC
GAGAACCCCCAGGTATACCTGGGCGCTAGCGTGTTGGGTGCTCTCGGCTG
TCAGGAGAGGTGAAGATGTAAACACACACAGAAGACAGTTTTTTTGCTTG
ACGTTCCCCAAATGATCATCCATACGAATGGGGCCCATGGGAGGGTGCGC
AGCGCCACCCAAAGCAAAGCACGAAACAAAGTGGAGTGACGCGCTCGCAC
AAATGCTCCAACACATACATACTGCCAATCCATAAATGCTGTGACACGAA
TCTGGTCATGCCTCGAGTACTCCAACGCAGCAGATGTACAGGTTATCATG
TGGGTGAGAGATGTGAACTTGGAATTCCCCAAGTAGGAACATCATGTCTA
CATTGGTCGGAAAACATTGAAATGTTCAAAAAAAATTGAAACATTCGAAA
TCAGGGGGGTGCTTGGATGGGCAGCAGGCGGTTTGTCCTCATTTCAAGAA
TCTCACTGCTGCTGATGGTGCAGAGCGGCAACCGTGATCGTCAGCTCGGC
CAGGATCGAACGCAACTGGAGTAACTGCACCTGGCTTGTGAGTTTGGTCT
GCTCGATCGTGCGTGTTTGTGCTTGGTGCGGGCTTCTGTTCGACACTGCG
TCGCGACCTCTTAGCCCCGCGGCGCGCACGCGGCCTTGCCCAACCTTGGG
TTCCTCCTGTTTGTCATGGACTAAATTGGACCGTGTAGCAAATCTGTGCC
ATATCCAACCGGGAACAAGGACCCCCGTAATCTAGGACGATATATATATT
TATGTTTATTTTTTTTTACAAATATATCAATGTGTTTGCCTCTCTCCAGA
CGAAGGTCTGGAATAGATATTGCAACAGACACAAGGAAGAATAGGATTCA
AGAACCCCTTCCTTTTTTTTTTGCGTAGGCCCGCAGCTTGTACGGGACCC
TTGTCACGTCGCGAAATCGGTAAAATTCCAAAAAAAAAAAATGTAGACCC
TTAACTGCTGTATCCAATATGTAACGCACCATTAGTGGAAATCAACCTTT
CCGTGTGAATGAAGCCGGGGTCACGAATGATAACTCGGTAAAATACATCT
TGTGGAGGCGACATGCGTGTTTTCACGTTCAGAGCTTCCGACGGGGCTGT
GATACCGGTGGTCGACGATGTGTGGTTCAGCAGCCCAAAAACTGTCCGCA
TCTCAGCCCGAACCCACACATCTTACATGATCTTCCACCTGCTGTTCTCG
CCGCCACGGGCCCCAATCTCCTACACTGAGCGTTGTGTCCGAGGCAGCAA
GTGGTAATGAGCCACTGCTCTAGACCCGAAGTTCCGGAGATTTGGGGCCC
GTGGCGGTGAGTGTCGTACAGCAGTGGAAGACCATGCAAGGTGTTGGATC
TCGGGCCGAGATGTGGACAAAATCTCGACTCCTGTACAACATGTCTTCAA
CAACCGATAGCACAGCCCCAGCAGACAAGCTGAGCTGGCCAACACACACA
TCGCTTCTACATGGTGTCTCCTACTGATATACTTCGTATTTCGTAACTCC
TGCGTCATTCACACCACACGGCTTGTTTGAGCACCCTCTCGTGCTCACTA
CTGTTTTGTCTCAGGTTTAGAGTTGCGGGAGCATACCAACTTGGATGTAG
AGTGAGCGAAATTAGAAAGGAGTGCTAAAATCGTAACATTTTTGTAGCGA
CAACGCCCAACCACCACCTTCCAGCCGTTATTTCGGCCCCCAACCCTGTT
GCACTGGTCTGATGGCCCTGATTCGCGAAGTTGTGAGGTGATGTTCGCAG
AATTCCAAAATGTAGCAAAATTAGACTGTTGTTTTGTACGAAGCTCGTAC
GATTGAAATCCAAGGGATCTACGTGGGGTTTTAGGTTTTGGAAATCAAAA
TCTCAACGAGGTGGAAAAAAATCCCGTCTGGTGGGGTTTTTTATTGCGCT
CAGAATCGGCCATAAGTTTCCGATTCGACGGATTTCCATCGGTTATCTTG
AAACCCACTGATGGATTCCACCACGAAACACCAGGAAATCCAAATTGGAA
TCGGCCGTGCGCGCAGCGGCCGCGAGGTTGCGCCGCAGTGGTTCGCAGCC
CGCACCGAGCACGGCGATACACACACGAACGAACGAGCCAGGTTCGGGTG
TGTACTCCATTTACGTGCGATCCTGGCCGTGCTGACGATCACACTTGCCG
CTCTGCACCACCAGTCCCCAGCAGTTTCTCAAAAATTTGCACGAACCGTC
TGCCGCCCATTCTGGCAATCCCCCTTATTTCCACTTCCTATACGTACAAA
TTTTTCCGATTTTTCGCTTAGTGAAGTTGGCCCCAGCCTCGATTTTTCCA
ACTTGGAAAGTCAGGCTAGAAAGAAAGTGCTTCTCAAACTCGAGGAATGC
CAAGTGGACATTTACCATGAAAGTGGGCCGTACAAAGACACCAATGTGTC
GGCAACTCCCCTTCCAAAACCTCATGTGAGACCCTTGGATTTTTTAGAAT
CCGGTTCTTGAAGAATCGGAGCTTTGTACCATGAAAGCAATCCTAAGCCA
TACTTCGAAGTAGAAAAGTGATATCGCTGCGGGTTGTTGTGGCTGCCGTT
TTCGTCATAGATGTAAGTGGGCGCTGCAGCAGTGCGGACGATGACACCGC
CCCCGCACCGCCCACGCCACCGATCGACCTTCAAAACTCCGATTATCCCT
CAACGACAAGGAGGGAATACCCCCACACATTTAGTTTTCTTTTTCTTGTT
CTTTTTTGGTGTGTGCTTTCATCCCATATATTCTGGGCACTAGGGTAGTC
TACATCTTTCGGTATGAAGCGGGTGCGCACCGGCGTGGATCACACAGAAG
GAAGGTCTCACAAGTTTGTTTGTTTTTTTCCTCCACCCCACCTTCGGTAC
TCGGTATGGCTGTCATACCGGTATACGATGTGGTCTCTTTCATTTCGTAT
TTCGTATTTATTCTACTTTTTATTTTTCTGTTTTTTACTCCCACCATATC
AAATGTAGCACAATGTGTGCCTGGTTTGTTGCCACGGGCGAGACGATAGC
CGTGGGCAAGTTTGAAACTCAACAAGAAAGAGGATAACCTAGTGTGATGG
TGTGTGAGAGTCGATTACACTCCCCCCCTCCCCCCAACACGAATCAAACG
AGACATTTATGGCGTGTTTTCATGAGAAAAGCGTTGAAAAGGTTGAAACG
AATCCAGAGATACTCTGGAGAACGTGTGAAGTTGTTTCCAGATGCGCAGA
GCAGGCCGAAGCTGCACCAATCTGTGAGATCTGCTGGGTAGGTCTGCGCG
AGGTCACCCTTCCCCGCTTGTGTGACCTCGATGAAGTAACGAATTGGACG
CGAATTTCGCTGGTTTGCCGTGCAAATTCACATCCATCTCTGAAATGGTG
TTCAAGTATGTAGAGGCTTTGACGCCTGGAGGAAAGCAAATTTCGATCCA
CAGCCCGAAAAACTCCTTCAAAGACGTTTTTCCTCACTAAAGAAGGCTGA
GTCTGTGCAAAAATCCCTGAATCCATGTGCAAGTTGTTCTGCACCGTATC
AATTTTTCGGAACACCATCCCTGTGCAAACAAACCCTTTTCGTTTTGTGT
TTTGTGTTCTGAATCCGGTGTGGCCATGAGCAAAAAATACGGCCTCACAC
AGAAAGGTCACGATCTATGAAAACGGATTGTTTCATATTTTATACTTCGA
AGTACTGTTTTTTGTGACAGAGATCCTGCTGCGTTTCCGTGCTGATGAGT
CCATCGACCGGCATTCGTTATCGTAGGCATGCACTACATCGAGGGGGGAT
GGCCAGGGTCTAACCCGAAAGACGTGGAGTTCTTCGAGAGGGCTAGGAAA
GAGCTGCCGAGCGAGGCATGGGCGAAGGTGGTTGCCTTCGGAAGGTGCGC
TGGTCCGTGGTGGCGTGCCGCCCCGTGTATGATGCGTCGTAGAGTACAGA
GGGGTGGTTCGCTGCTTGCTGCACCCCCGAGCGTCAATGTTTTTTGTGAG
GAGTGTCCTCCCCCACAACCTCAAACCTACGAGTGACACAATCGAGTGCA
ACATTAATATTGCAACATATTATATGAGGTGTACCTTTTCGTTGTCGTAT
GTACTTATATATCGTACGAAGTACCTTCTTAGAAGCAATAAGAAAGACTT
CTCGGTGACATCACTTCCGTGTCACCTCGGCTGGTGCGCCCAAATTTTTC
ATTTTTCCTGTCTGTCGCGACCCCGGCTGATGCACCCAAATTTTACCCTC
TAAGGTGTGTGGACGAGCGTCCAATATATAGATGGAACGACAGCACACAC
ACACGCCCCTGTTCTTGTGCTTTCTTGAGCATCTTTAGAGAGGGATGTTT
ACGGTAGTTTGCTGCTGCTGCTGCTTCATTCTACCCAAGCTAAATGTTAT
ATGTCACCCAACCAAGTCGTTTCAGTGTTTCATGTTTTTTTTCTGTCTGA
AAAGCTTCTGAGGTTTCCTCGATTCTTATTCTGCTGCTGCTTCATTCTAC
TCAAGCTATTGTTTTTTGTCACCCGACCAGGTCGTTTCCGTGTTTTATGT
TTTTTTTTCTGTCAAAATGCTTCCACGCATCAATATACGTATATTGATAT
GATGTGCGACGTATGATATGATACCCCCCCTCTGTCTGGTTCATGACATG
TCTGGTCGAAAATATAATTATTATACGACAGCACGCGGCGCAAGTTCAAG
ACTTGTGCGGAGGACAAGCAGCTGGAGTCGCTCATCTCGGCCGGCACGGG
GTGCGTGACGATCGTCGCCAAGGCGTGGGATCTGCACGTGGACCACATCC
TCGAGGTACATTTGACATATTGGTAGTACTTCCCGCGCGACCCGACCGAG
AGCTGTTCGGCTCATAACCTATCATTACATATCTCGTGACTGCTGTGTCG
ATTACGTGTATCATATCGTACAATTCAGCAAGATATGGTGCGGTATTCAT
AGGAATCCCGTATTTTGTGCATGTAGAGGGTTGAGCGACTATGAAGGTTG
ACGTCTCCAATTTGCCGGATAAAAGCAGCTAGACGCCAGCTGAAATGCTC
GTGGTGATCGATCATTCGAAGTCGCCGCTTGCCTCTTGCCCGGCTGGCAC
GCCATGCCATACCATACCACGCCATACCATACCATACCACACCATACCGT
TAAAAAATGTTGCAAGCGAACGCGCCCGCTGGGGATGATGCGGACCGTTT
CCACGCGCTATCCTGTATCAATATCTCGACCACGCACGCCGAGCCGAGGA
TGGTTTGCCTACCCAAAGACAAGGATGTGATAAAAGAGAGTGCCTACAAT
TGCCCTTCGGAACGTGTCGCCGAGGTAGAATTTTATTTTGGTCCCCGAAG
CTCGAATGAATCCTTTCCATTTTCGGCCGCCATATGATACAGCACGCACG
CACACACGCACACACGCCCTGCTGTACGCGAAGTAGCACGTCCGGTTGCC
GAGATGTCGTGTGTCGGGACGTGGAAAGCACAGCAGTGCAACGCGTTCCT
TCTCGCGTCCGCCCGCTGTCGCTGTGCGCCTGTATCGTCCAACTCCGGCA
TCCTCTCACGCACTCCTGCTTTGCATGAAGGTTGCAAACCCAGCTGTCGA
GATATCGCACAGACACAGACGTCACAGCAGTTTAGTCCAGGGGTGCCTTT
GGCGTCGCGGAAATTAGTTCACACCTCCTCATGTCCGTTCGTCCGCTCCC
GCTGGATTCTTCACGGTGTGCTGCCACTTCTGCCCGTTGCCCGCAAACGT
ACATCCATCCCATCTTTTTGGATCCGATCTTAGAGTCGAGAGACGGGGTT
GAGAGACGGGTATAATACTCGTACCATGTACACAAGCTCCTCATTGATTT
CTCAGTATTTTTGTTGTGCACCCGTAGAAACGCCTCCGGCAGCCAGGCAG
CACTCACCCGTGTTTCTGATATCCGGCCTGCCTGAATTTGACGCAGCACG
TCGTTGTTCCACATCCCATGTGCTTTTATTTCGTAGCCCGTCTCTTCGGC
ATGGGACCGGATCGGTCATCATGTTTGTTTCCTCCTTGTTTCCTCGTTTC
CTCGTTTCATGGCATGGCATGGCATGGCATGCCATGGTATGGTATGGTAT
GGTATGGTATGGTATGGTATGGTACGGTGTGGTGTGGTGTGGTGTGGTGT
GGTGTGGTGTGGTGTGGTATGGTATGGTATGGTATGGTGGTGTGGCATGG
CATGGCATGGTATGGTATGTCAGCGTATGGTAATATACCGGTAGGTTTGC
AGGTCAGTAAGGCAGGGCACAAATTTTGTGACAGCAGGTTCCTAGAGGAA
GTGACTCAAAACAGCACGAAATGTTTACGTAGTCACGCCGGCTTTGATCC
TCATCGAGATGCGCGTAAAGGCCTTCTAAATCAAGTGTATTGCGCGTTGA
TCTATGCAGGACTCCGATGCATTCAACCACCAGGCGGGTATGAAATTCGA
CCACCTTTGGATTTTCCTCACAGGAGCAATTTTTTTTTTTTTATCATTTC
ATTAAGACAACAAAGGCAGGTACCGCAGGAGGGAAGGTGTGGGCAATAAA
ACAAAATAAAAAACGAAAAAGCTCGTGTGTGTGACCCTGCTTCTGCGTGA
CCCCGGCTGGTGCACTCACTTCATGCCGAAAAGGTGTTGACTGGTGCCTA
GAATAAACGGGATGACAACACATGCACACATTGAATGAATATCGTACCTG
TCTCAGGTTTTAGGTTCTGAAGCGAAGGGACCATCGTTCCTTTCGTGTGT
CTGTCGGCCGTCCCCCAGGTGCCACGGGAAGAGAACTTGGCCATGGTCCA
CGAGAGCGTTGCACACCTCAAGGCGGCGGGTAAGGAGGTCATGCTGGACC
TCGAGCATTTCTTCGATGGCTGGAAGGCCAACCCCGAGTACACGATGCAG
GTCTGTCTGTCTGTCTGTCTGGCCGGCTTTTTTTTTCTGATGCACGTTTT
ACTCCGTAGTTTTTGCCTTTATTTGGTGGATTGAGGGGATCTCCCGAGTA
CTATACACGAAGTACCTCTTTTGGGGCAAGCAGCCTGTGACCACGGAAAC
CGTACATGATCAGAGGAGTACAGACATTAGAAGGTACTGAGGAGAGATCG
GAATGGTTTTTAATGTTAAGACAACAACAACAACAACAACAATGCTGTGT
GATAAGATGGGTTCTCTTTCCCTCTGTCCCGTAAGTCTTGGCGGTTATGT
ACGGGTGTTTCGTCGTTTGGGTCTTGGTAGTAACAACGGAACGCTACTGC
TGTAGTGGTTTATCCTTTAGGTGGGTTCGTTACAAACGGTGGAACCGCAG
ACATTCGATGCACATGGGTAAAAAAAAAACACAAAAATTAAGTCAAAACA
TATCGAATTTTGAATTTTGGGAAGTTTTTTTGATAATTTCTTGAAAATAT
TTTGAGAAGTTTTGAAGAAAAAATTTAGAATACGACCGTGTAGCGTGGCG
TACTTCGGGGTTAGGCCGCGGCAGCGGCAGGGGGCGGAGACGTTGGAAAG
GGTGGTGAAATACCTAGTGGCCTTTTGAATGCCGTTGGACATTCTGGCAT
CAAGTTCCAGTGTGGTGAGGACTACTGTTGATTTGATTTATTTTTTCGAT
ATTTCATTTCCCCTCCCGTAAAAGAAGCGAAATACTGCTGTTGAACACAC
GGCCATTGTTTGCAGCAACCGTTTTTTCTTTAGGGCATGCGGCCGCATGG
GTCAAGCACCGGGTGTAAAAAATAAAAATAAACGGTGAAGATTAAAAGAG
CGCCTCTGAAAATGCCACAACATATTGACCAAAGAAACAGGACACGGGCT
CGTACGAATGCAACCGCCCGGACCCATGGGATAGAGAAAGTATGTGGCAT
GTAGATGGTCAGCCCCTGCAGAGTTCGTACCGAACCTAACGCCTCCTTCA
TGCAATGCCTTCCTGCATGGAACGCCTTCTTACACCGAACGCCTGCATAC
AACGAACGCCTTCTTGCACCGAACGCCTTCTTGCACCGAACGCCTTCTTG
CACCGAACGCCTTCTTGCACCGAACGCCTTCTTACGTCGAACGCCTTCTT
GACACCGAAAAAGCCTTCTTGCACCGAACGCCTTCTTGACGTCGGAAACG
CCTTCTTTTCTCCGTATTTCTTGCGTGGCGGTACCGACAGTCTCCCCTGC
GCACTCGCGCCCGCGTCGAGTTGCTGAGGTTCGTCGCCGTTGACCGTTTA
ACCGGAGAACTCCCCCCCGCACGCCATTCCATGAGCACTTGCGCACATGT
ACACAACTCAAACGGGTCAGCAGCAGCAACTCCTTGAATTCCGAGTCGAC
CCAAATATCTGTGAAAAGCAGAGAGATGTACAAGTAGTCGTCGGTACAAA
CCCAACACACAACCCCAGCCTACATGCTGCTGGTCCGGGTCCGAGCTTCC
CTCCCCTGGGATTGTAGTCTCCGCGCACACACCTCGAGCCTTCTTTGTGA
AGGCCCTCCCACACCGAGGACGAGGACGCCGCATATATGATACAATACGT
GCTTCATAAGATGTACTTCGTATGTATCAGGAGGTTTTTCGCAAAGGTGG
TGTGTAGAAATACCAAATCTAAATTTGCAGCGAGACACAGCAGTAGTAGC
TCGATTTTTCGCACAGAACGGGTTGATCGGAATTTCTGCACCGTGTGGAG
ATATCCTTGTTGCCCATTGGGGCGCGTGGAGAAAAAGACGAGAAGGAAAT
ATTTGTTCGAAACGATCTGTTGTCCCCCCCCGGTGCGTTCGCTCGCAACC
TCACCGTGCCGATGCACGTGCTTTTTATCACATCGCCTTCTTGTGATGTT
GTTGGTGGTGGTGGTGTTGGTGTTGTTGGTGTTGGTGGTGGTGGTGGTGG
TGGTGGTGGTGGTGGTGGTGGTATTTTTGCTGTTGTTGTTCATTGCTGTT
TTCGTTCTTGTCTCTTTTTTTTTTCTGTTGTTGTAATTATTCCCGTTGTT
GGTCTTGGTGCTCTTTGTTCTTGTTTCTTTTTTTAATGCTATGTATGTTT
GCTGTCGTTGTTGCTCTTGCTTCCTCCATGCCTATGATCCTCACGTCAGC
TTATCCGCGACGCCCACAGCACACGTCAGCTCCAGGGGGGGGCACCATGC
CACTCAATCTCATGAGGAAACGAAGTCACGAGCACAAGCGCTACTGCTGT
TGCTTCTAACAGCAGTATCCCTGGCTCCCTTTTTTGACGCATTTAACCGC
ACGCGTGCAAACGAACAACCCCATTTCCCAGGTATGCGAGGCGGCCGTTG
AGGCCAACGTGGACGTGCTCGTGCTTTGCGACACCAACGGAGGGTCTCTG
CCATGGGAGGTGTGAGTGTGCCGTATGTACAACCACGACAAAGTCTCCCC
CTTTCGCTTCAGGACGTATATACGGTAGGTCGCATAAGATAACACACCCC
CCGGACCGATTTTGAAGCCTGGAGAACTCCACACCGACGAGGGTGCCAGC
CAGCATCACACGGCACGTTTTTTTGGAAAGCTCTCGACGAGATGGTTCCA
ACACTGACCTTTTCCGGCACTCACGCTCTTTCCGCTGTGGAGTAACTACT
GTGCTTTTGAGAATTGGTACAGGGGGTGTGGTATCTTACGCGACCTGCGG
TATGATAAGACGTGGTGTGTGGTGTGGTGTGGTGTGGCGTTCCACGGGAG
AAAATACGGCAGCGTTCCATCGAGCCGCACCCGAGTGAGCGGGACACTCC
GGTTTCTTCTAACGGGGCTGTGCTACGCATACTTTTGTGTCGACGACAAG
TGTTGTATGTACGAAAAGCGTATACATGCGTACGCCGAGTTCTTTGGTTT
ATCGCACAAGTGAGAGACACGTTTTCTCTGCGCGCCGCATCAGATGAGCG
TTTTTTTTTGTTTCCCGGATTTTTCTTGCACGCAACTTGAAAGTAAACCA
GTAGTGAGAATGCTGCGTCTGTGCGTCTGTGCGTCTGTGCGTGTGGGCGT
TTGTGTGTGCGCATGCATGTTTTTTTTTTTTAATGTATACATTCTACCTG
CATTTCCTTTCCTTTTTGGTGTGGCGTGAGACAGACACCGCAAATGGTAC
CCCCCCCCCCCCCCCCCCCCCCCCACGCCTATCATATCTGTAACCGTTTT
GCCTACAACGTACCCTCTCATTTCGAATATCCGCGGCTACCAAGTAGGCA
AGGTTTGCTTTACCCCCCCCCCAAACAGCAGCGAATGCTGTATCATGCTC
GTGATACGTGGTTGATTATTTTTCACCGCCCCTCTCTCCCTCTCTGTATC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTGGTACAACAAAGGTGGATGAAATAGTTCGTGACGTCAAG
GGGACGCACCCTAGCGTCCGCCTGGCTATCCACTGCCACAACGACCAGGG
TTTGGCGGTGGCGAACTCGCTGCAGGCTGTTCGAAGCGGGGTTGATGTCG
TGCAGGCGAGGAAAGAAACGCAAGAGAGAGAGCGGGAAAACTAAATCAAA
TGGCAAAGAAAAGAGAGAGAGAGAGAGCGGTAAACAGGCGGTACTAACAG
AGAAACACATACGTACGTTAAAAATAGATGGGTGCAGTTTTTCCTCAATA
ATGATCCAAGAAACTGTCGCAGGCTTTACTAAGAATGTCTGTGTGTGTCA
TCCCGTTTATTCTGGGACCAGTCTACGCCTTTCGGTATGACGTGGGTGCT
TTAGCCGGGGTCACAGAATACTTTCGTAAAAAAACGATAACATGAGATAT
GAAAACAATAAGACAGCGAGCAATAAGGTTTATTAACAGAAACACACATT
CGTAAAAAAAAAATGGATGCAGTTTTTGTTTTTTTTTCCCTCCAAAGTGA
TGCAAGAAACTATCAACAGGCTTTGTTAGTAGTACAGTCGTACTAAAACA
AAAACTGCAGATTTGCCTCAGAAAACGATTCAAGAACAGGAAAAAGTGTA
GACTAATGTTCGAAACCGAGACCGTTGCGATGCAGTCGGGAGCATACGGT
CACGGCCACACTGTTTGACTGGTATTGCCATCCGGCGATATAGGACGCAG
AATGGATGGTGTCGACGTTTTGCGGTCGAACGTTGAATGCTTCACGATCG
ATCTGTCGCCGTGTGGATGCATGCATGCGCGGCCTCATGCCAAACCCCTA
AAAAAAAAAGGCAACGCCGGGACGCCGGGCGGGTTGCGTTCCCGGCCGCG
GAACACCGGGAAGTTCCCGGTTTCCCGCGGCTCCGCGACGAATTTGGGCT
CCGACGTTTTTGGTTTTGCTTCGAAGTGCCATAGAAGTGGTATCGTTTTC
CCCGCACATCTAATTTTCTAGAGAACGAACTTTTGGGCGGTGCCCCTGTC
GGCGGCCCCCGCCCTGACTGCTGTGTGCTCCGCATCCCACCCACCCCCCG
TCGAACTGTAAGGAGACTCATGTCGTACCTCTTGCACCTTCGCGTCGCGA
GCCGCGTTCGCTTGAGTAACGTAATCGCCTTGGCTGATCCTCTGTGGGTT
CCCATAGTTGCTTTGATTTCATCAGTAGAGGCCTTTGAAGCGCCAGATCA
AGAGGTGCTCATGCTTTGGGTGTTTATATAGCACCATCTCACCGCACACG
TGAAGAGATTCGTGAAGACATGAAGGAACAGGAAGAAAATCACGCTTCGG
TTGCGGACAGCGCAATCAAAGCTCGCCACAGGCAACCGCACCGCTCGGAA
TTGCTACAGGCCACGTTCCGGTGCGGTGTGCGAGAGGCGTCCCATGCCTT
GACAGCAGCAGCATCAGCAGCAGCAGCAGGCAGCGAGAAACGGTATTCTA
GAGCTTTTTGTGAAGTCATGGACTTGATTGAGTCTGGATGCAAACCGGGG
CCCGACAATCGCCGTCAAGCTATCATACAAAGGAGATCTGCTGGATACGC
TTTCGCCATGCCGCCGTTTTCTTCTTGCCTACCCCCGATGCACGAAAAGA
TTGGACTGGGCGCGAATTAAGCCGTCTTTAACAACGCGGTTTGCTTAACA
AAAAACCTGCTTCGCATGTACCTCGAATCAAATCGATACTTTTCAAGTTT
GGTGGCAGTACACAGCAGTTTCCGCAGGTGAGCAAATTTCAAATCACCAT
CCGCGTAAAAAATATACGCATATAAATCGTATATAGACGGGGGTTCCTGA
GTGTGTCTTGGCCCCCTTCGAATAAAGCCATAATATCAGACCTTGTTCGA
ATCCCTGCCCCTCCGAAACGATGGTCATTTTCGAAATTTCGAAATGTCTC
CTTTCTCGTACTGAACTCAGCGTGGCCTTCGTGGACAACGTAATAATGGG
ATTGATTGGGAGCTTTCGTGTTGAGCGGGAGATAGCAGACTACTTCGAGT
AGACTTCATCGAGCCAAGCATTTTACATGGTGACCGCTCACGAATTTCCG
TCTGGGTGTCGGTGGACGTTTCGATTTCTCGTTTTTGTTAGGCGCATCGT
GTATCACGATGCCTCCTTTTTTTGTTCGTCCCTGAAAATGGAAGCGAAGG
GTAGAGAACAGCAGTAGTACAAGTACACAACAGCACAAATACGGGTGGGC
CGGAATGAGGCAATGCGACGCGACGCGACTGCTGTGTATTGTTGCTGTTA
CACCCGAATAGTTTTTACGGTAGTAGGAGTTTTGTGCCCAAGAGGCCGAA
GGTCAGCAGTCGCAGCAGTGTCCCCGAAGCCCGTCTGAGTCACTCATGCA
TGCTCCTTCCTTCCTTCCTTCCTTGACTCACCCATCTACATTTGCTCGTT
CCCTGCAGTGACGTTTTGAGGGGCACGCTGACTCATTGTCCGACACCCCC
CCCCCCTGAATGTTTTCGCGCGCGCGGTTGGTGTGGTGATAATCAGGGCA
CCGTCAACGGGATAGGGGAGCGAACGGGCAACGCGAATCTCATGACCATC
ATCCCCACGCTTCAGCTGAAGATGGGGCTGGCCAGTGTCGGAGAAAATCT
TAGAAACCTCACGGCGCTGAGCAGGTTCACCGATGAACAGGCGAGTCGGT
CGCGAGCGTAGTGCAGCCGAGCGGAGTGGAGTGGAGTCGTCGCCGCTGGT
GTCGTGCATGCGGGGGGGGTTATTCGCGTCTAATCTTCGTTTTTCTCACT
TGTATGATACCAGGTTTCGATCATACCATAACATATCATATCTTTAGTGC
ATCAAGTCTACGATACTTTTCCCAACCATACATCAGACCGTACCGTATCA
TACCATCTCATACCAAATCACACCATACCGTGCCATCCCATATGATCCCA
TATAATCCCATCCCATACCATACCGTACCATACCATACCATACCATACCA
TACCATAACATAACATACCAAACCGTACCATTTCATTCACATCTCTCATC
TCGGTCTTTGGAATTAGCCCTCGACTTGGTTTGTACAGCCGCATTCTTAT
TGTCAGTGGCTTGGTTGACGTCTCCGTGGCCGATAGGGCAGGACCATTCT
TATTTTCCGGCTTGCGCTGCCCCCCAAAGGAGGGTGCAGCCCTCCCCGCT
TTTCTGTTTCGTCAGTGCCACACAATTTGTTTTTACTTTACAACGGTATC
ATACTTGGAAGTACAATTTTTCATTTTTTTAACTTTGGGGTTCGTTCGTG
CGACGCAGCATACCTAGAGGATTGGATGTAGGGCGAGCTACCTACCCCTA
CCCGTCCAGGCGAACACGTGTAGTTGAGGCCGCGGGAGGAATCCTATTTC
ACTGCTGCCGCCGCTGCTGCCGCCGCTGCTGCTGTTGTTGCTGCACTTTT
TTTCGTTGCCCAGCGGTGATATGATGTGTCGCGTGCGACATCATCTTTTT
TCATCCTGCTGCTGTTGCTGCGCCTTTTCGCTCTCTATCAGCTGATGTAT
CATACACACGCCCGGTATCAAACCCTGCGTACAATTGCTGACACGCGTAT
GTGTCTGTGCGCGTCGACGTGGTGTGGGTTTGGTGTGCGGTGTGTATGTT
TGCACCAATTTTCGACTCAGTTCAACATGGCTCCCGCCTCCGGGGCGCCT
TACACCGGCATGAGCGCGTTTGCGCACAAGGGCGGGATACACGTCAGCGC
GGTGAACAAGATCCCCGACTCGTACCAACACATCGACCCCGACCAAGTCG
GAAACCACAAAAGGTCAGGCCACCCCCAGCGCGCTCCCGCTCCTGCTGGC
CTCGCCCACATGCCCGTTTTTTGTGTCGGGGGGTGGGGTGGGAGCTATTG
CTGGATGCTATCGTACAACAGCAAAGTATGTTGTAGTTGCAATTTTTCCT
TCTTATCTCATCTTTGACACACATTATTGTGTATGGTACCGCACACCTTG
ATTGACTATCATTCTCTCGTGTTTTGATCCTTCAGCCCGACATAAAAACA
GTGAACGATATTGGGTACTTTACACTATATATACTGTGCATAGTTCGAAG
TACTTCGAGTAGTACGTAAGAATGCTTGTCATACAGGTATTGTACTTGGT
ATGTTTGATACTTTGCGGAGTCACACATCAGGATTCCTCTCTCAAGGACC
TCCCCCCCCTTCACCCTCCCTCCCTCCGCAGCAATGCATGTGCCTCACTT
TCATTTTTTGGCGAGAGAGGGTTGGCTGTATTTATCCATATCCTTGCCGG
GCACTGCATCCGTTCAGGATATTAGAAGATAAAATAGAAATCACTCTCTC
CCTCTCAGGCGGTACAGCAGTAGTCTAGTATTTTGACACACAGCCAGTGT
CGTTTTTTTTTTCGTTCTCGAAGCGAAACGCGCGATATCTCTCAAGTTCT
CACTGTTTTCTTGTTTTCAAAACCAGTACCCGGAGTATTTTTTTTTGGTT
TATTGCTTCGGAGAGCGAGAGCGAGCTCGGTCTTTCAAATTATCCGGCCC
CTTCACGAACCCCGTGCTGTGCTTTGTCAACCATCCAACCAACCGATGCT
CGCGATCTCGCGCCACGCAGGATTTTGGTTTCGGAGTTGTCCGGACAGAG
CAACATCCTGGCCAAAGTGGAGGATTCGGGCATGGCGAGCAAGAGCGAAT
TGGAGGGCTCGCAAGTTTGGAGGGAACGCGTAGGACAGGTACAGCAGTAG
GGTGGGTGCCCGCCCCCCCCCCCCTTTTTTTTTTTTGCTTTTTTTTTGCT
TTTTTATTCGCTGTTACGTGTACAAGCCAAGTCAAATTATCATTATCCAC
AAATCAAAAATGATATAATATCGTTTCACACGTTTGATGAGCGTGTAAAA
CACATATCATCGGTAATCGGTAACGGCGTGGGAAATAGTTTGGACTTTTT
AGGGCGACCCAGGCATGATACTTCTTGGAATCCAGTGTATTTCCCTTGCC
AAGTCTGCTAAAGTCAAAAGGGTCGGCATGGGAAATAGGCCAGATCCAAA
ACAACACAACAGACTACGGTACAGACACCGCCGCGCGGAATGCGAGGGCT
GGAGGTTTGCCCGCCACAGCCGCGCAAGCGGCACACACCAGTGCGCCGGA
TGGATTGCACTTCCACCAACAGCGGCGGTGCCCCTCCTTCCTGCCCTTGC
GCGCCCCCCCCCTCCCCCCCCCTTTTTTCCGTTTCGCAGGTTCTGAAAAC
GGTGAAGCAGCAAGAAACGCAGGGCTACAGCTACGAGGGCGCGGACGCTT
CTGTAAATCTTATCGTTCGAAGGACCATGAAGGGATACGTTCCCCCCTTT
AAGTGAGATTTTTTTTTTTTGCGTGTGTGCGTGGCAACGAGATGCCACAC
AAATCAGTTGAATGGAGCAAGCAGGCAAGGAAGGAAGGAAGGAAGGAAGG
AAGCGCTTTGTCGACTGATTTTGTGGCCAAACCACAGGTAGTACATTGTT
TCGTTTCACAACTGCCGTCTTTGCGGCGGCTGGCTACCTGTACCATATGC
ATGTCTGCTCGCGCAGTCCCCCACGAAAGTTGAGCACGAACCGCACCAAC
GTCATGTGTGGTGACCCTGTGTCTCTGGCCCATCTACCGATCATCGGAAC
AGGTTGCTTGACTACCTTGTCCAAATATGGGACAGTGACCACACCCCCGG
GGGACTGGAATTTCCGAAGGGCCCCACAACCGCGAGAGCAACTGTCAAGG
TCAGCACGCTTTTTGACTTTTTTTTTTTTGTTTCATCACACTGCTGTAAA
ATCATGCATACGGCTGGTGAACGTGTCCCCCAGATGTATCCCAGAAAGGG
TCAAGTGGAGTCCGTGACACCTGGCCCGTTTGGAAACCCGTCCATGGTCA
ACCTTGCTTGTCATTCACGCCTCGGCGTGTCTGCACACAAGCGCTTCTCC
GGCGGCCGTCAGCGCGAGTGACCAACAAACTGACTGTCGATCCCATCGCG
CAGACGTATATATAAATGTATAAATGTCAAAATAATAGAGCGGAAGATTT
ATGAGAGGAGAGTCTGCAGCAAACCACCCAATGACGGCAAGACCTGCCTA
TTCTGATAGCGCACGAGCACCGCTCACCAAGCTGTTGTCCGTCCCCCGAC
CCGGCGCTTGCCAATGCTACTTTTGGTACACACGTGTGATAGGTGCGGGT
GCCCTCGATGGGATCGGAGGTTTCCCCGGGCCTAGAGGACGAAGAAGATC
CAGGGGTGATTCTTGAGGTGAGCGTGGTGGCCCATCATATGCACGTCTCT
CACTCGCCGCTATCGCTAGGTTTTCACCAGCGGTTTGTTTAATGCAGTTT
CCATGCTCGGGTGAGACACAGAAGCCGCCCGCCGGAAGCACGGGACCCCC
CTTGTCCACTCCGCGGCACGTTTTTTTGTTTTTATTATTGCGATTTTTTT
TTTTGCGGCATTCATGTAATACCTTACTCAGGGTGATTCCTGGGGGGGCC
CCAACACGTAGGGAAGACCCTGGTGAGGTGGTATCATGGCGTCCGGTGCA
TCGTGCATGCATTTTATGTACACCGCTCAACAACACCTGGGTCGTGCGGT
TACGTACATTCTTCAATGTATTGTGCCCAAGCAAAGCTCAAACATCGACT
CTTGCTGAAATGATTTTTCTCAGGTGGCCGAGGGAAACGGACCGGTGAAC
GCTTTGGCTAAAGGTCTCTTCCGCGCGCTTCTGCCCACGTTCCCGTCTCT
TGAGACCGTGACACTCAGTGACTACAAGGTAGGGGCGGGTACGCCTCAGC
AGCCAACATCATGACGTCGTCCCGTAGTGTCGCGTCGTGTTTGATGTTTT
TTTTTTTGTGCAAGATTTGGTTGGCCTACTACGGCACAAAAAATAAACGT
TATTTGGCGGCGTCCGCGTCGGCGTCGTCTCTAACGGCGAACCCCTTCTT
TTGTTGCCCATCGTCTTGCATTGGCGTTTCGTTCGACGCTCACCAGTGTT
GTGATGAGATGCGCGTGCATGCTGCTGTACTTTGGCGTCGATTTGGCTTT
TCGTTCTGAATTTTCGTGGTGCCCGTGCGACGATGTGTTGCAGGTTCGCA
TCTTGGACCAAGAGAGTGCTACAAGGGCCAAAACTCGGGTTTTCATCGAG
TTTTTCGACAAGGTACGATATCTTACGTCCTCACTGTCAACGCTTGTTTA
GCTTGGTTTGGTTTGGTTTGGTTTGGTTTTGTTTGAATCGGTTCCTGTTC
CAATCGTAAGGCCCACATCAGCTGCTGTTGAAGCAACAAGGTTGCCGGCA
ACCCGTGTTGGTCGGGGATTGACTGCAGGTACCGCTATTGTTGTTGGTTG
GGGATAGGCTGCAGGCACTGCTGTTGTAGCACCTGCCACACAACTAGCTC
GACCACACAGGTCGCCGCCGTCAAGCACGGGACGAGCGAAGATGTGGTTT
TAAAGATCACCGGTGTAACGCATGCTCTCGCATGACGCGCGCTTTTTTTT
TTTAATCTCTACATATTCTCGTTATTTGTTCATCGGATGTCTTTTTTTTG
TCTTGTTCCAGCCGACATTTTTGTGGTCGTCGTTGCGTAGTTCTTGAACA
CGGCTTCTACGCCGACTCACAGTCCCTCGCGCGTGTGTGTGTGTTTTTTT
CTCGCCGTCCACGCTTGTCTTTCAGACGATGGACGTCGGATGGTCAACGG
TTGGGGTCAACACCAACATCATCTCTGCGTCCATGAGCGCTTTGATGGAC
GGCCTCGAATATGCCCTGGTGGAGTACGGCCAGAGCTGCTCGATTGACGC
CGGACCGAAAAGTCCGAAGCGTACAGAGTGAACGACGTCTCGTAGAGGTG
GGGTGGATTGTTATCCCCGGAAGAAAATGCGCCTTGAGTACTTTTCGGTA
ACGCCACCGGGGTGGTGATTTGCCCCAAAGTTTTTGCTTTTTTATTTTTT
TTCCCCACGTTTTGACCGCTTTTCCCCAAAATTTTGATGTGTGTCTTCAG
GCTTACACGTACTACTGTACTCCATAAGTGTTGCTTGCAGGAAAGGGGTG
TGTTTTTACAGGTGTACGCGGGTTTCCAACCAATGTGGTTGTGAGGTGTT
ATGTGTTGGTTTCAACACAGGATAGCGCACGAGCATGCCGGGGGTCAAGC
TTCAGACACGCTCGCAAAAAATCTTGCAAATGCTTGTGAGTGAACATGTA
TGTGAAATCATCGCCGACCGAAGCGTCTGGGTGCAACGTCACTCTTGAAG
CCTCTGCGAGGATTCACTGGAACCCTGTCCGCCGGACGCTGTTTCCATTT
TGTTATCTCGAGGGGGGGCACGTTTTTGGCTGGTGTCATGATTGTTTTGA
TTTCGTTGGCGCTATAATGAGACGGCGTCTGATCACGGTCCGGGCTTTTA
CCGTGAGCTTCGCATGCGGAGCGCTCCGATTGATAAAAAAAAAAAGATAG
TGTGACTCGATGCACGCTCTTGAAATTGTTGATTTGGGGGATTAGAGCGC
ACGCTGTGCAACAGCAGTGTATGTAGAACAGGAGATTGGGTAGTATGGCG
AGAGTATAGCAGCAGGAGTATATCTGCTGGCTCCGCCTTGTGTACGCGTA
CGTGTGCAGAACTGCTTGCGTAATAATAATTAATTAATTGATTGAACAGA
CGATACTCGAACGAAGGATCGGTCGGTCGGGTTGCGACGTAGACCCCGGA
CACTGATGTCTTTAATGCCGATGTCTACCTCATGCGGTTACCTCGCTTAA
CGGATAGACAACAACCTCTCGTTTCTAGTTCGAAGCGAGACGAGGAGTTT
GCTCGGCGATATGATAGCTGCCTAAATAAACTACAGCAGTACTCCAATGA
ACCGTTT
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Coding sequence (CDS) from alignment at P-littoralis_Contig150:80287..109593-

>mRNA_P-littoralis_Contig150.20.1 ID=mRNA_P-littoralis_Contig150.20.1|Name=mRNA_P-littoralis_Contig150.20.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1986bp|location=Sequence derived from alignment at P-littoralis_Contig150:80287..109593- (Pylaiella littoralis U1_48)
ATGCGTCTCGGGGTGGCCCTTCTTGCGCTCTCGCAGGCTTCATCTGTCCT
GTCTTTTGTGCAACATCTTGTGGCGCCACAAGCCTTCGGCAGCACCAACT
CCAGGAGAAATGGAAATTCCGCGAGCATGGTGGCTTCCATACAGACATCG
TCGACAGTGAGCAGCACGAAGCAGGGGACCAACGGTGCCGGCCAGGTTCA
GGGTAGCAAGGGAACTGCCGGCGTGGGAACGGAGGCTCCTGCAGTGGAGT
TCGATCAGCAGCCGGGAGGGCTTCGGACGATCGAGATGTACGACACGACC
CTGCGGGACGGAACCCAGATGGAGGGCATCTCAGCCAGTGTCAACGACAA
GCTCAAGATCGCACTCCAGCTCTACAATTTCGGCATGCACTACATCGAGG
GGGGATGGCCAGGGTCTAACCCGAAAGACGTGGAGTTCTTCGAGAGGGCT
AGGAAAGAGCTGCCGAGCGAGGCATGGGCGAAGGTGGTTGCCTTCGGAAG
CACGCGGCGCAAGTTCAAGACTTGTGCGGAGGACAAGCAGCTGGAGTCGC
TCATCTCGGCCGGCACGGGGTGCGTGACGATCGTCGCCAAGGCGTGGGAT
CTGCACGTGGACCACATCCTCGAGGTGCCACGGGAAGAGAACTTGGCCAT
GGTCCACGAGAGCGTTGCACACCTCAAGGCGGCGGGTAAGGAGGTCATGC
TGGACCTCGAGCATTTCTTCGATGGCTGGAAGGCCAACCCCGAGTACACG
ATGCAGGTATGCGAGGCGGCCGTTGAGGCCAACGTGGACGTGCTCGTGCT
TTGCGACACCAACGGAGGGTCTCTGCCATGGGAGGTGGATGAAATAGTTC
GTGACGTCAAGGGGACGCACCCTAGCGTCCGCCTGGCTATCCACTGCCAC
AACGACCAGGGTTTGGCGGTGGCGAACTCGCTGCAGGCTGTTCGAAGCGG
GGTTGATGTCGTGCAGGGCACCGTCAACGGGATAGGGGAGCGAACGGGCA
ACGCGAATCTCATGACCATCATCCCCACGCTTCAGCTGAAGATGGGGCTG
GCCAGTGTCGGAGAAAATCTTAGAAACCTCACGGCGCTGAGCAGGTTCAC
CGATGAACAGTTCAACATGGCTCCCGCCTCCGGGGCGCCTTACACCGGCA
TGAGCGCGTTTGCGCACAAGGGCGGGATACACGTCAGCGCGGTGAACAAG
ATCCCCGACTCGTACCAACACATCGACCCCGACCAAGTCGGAAACCACAA
AAGGATTTTGGTTTCGGAGTTGTCCGGACAGAGCAACATCCTGGCCAAAG
TGGAGGATTCGGGCATGGCGAGCAAGAGCGAATTGGAGGGCTCGCAAGTT
TGGAGGGAACGCGTAGGACAGGTTCTGAAAACGGTGAAGCAGCAAGAAAC
GCAGGGCTACAGCTACGAGGGCGCGGACGCTTCTGTAAATCTTATCGTTC
GAAGGACCATGAAGGGATACGTTCCCCCCTTTAAGTTGCTTGACTACCTT
GTCCAAATATGGGACAGTGACCACACCCCCGGGGGACTGGAATTTCCGAA
GGGCCCCACAACCGCGAGAGCAACTGTCAAGGTGCGGGTGCCCTCGATGG
GATCGGAGGTTTCCCCGGGCCTAGAGGACGAAGAAGATCCAGGGGTGATT
CTTGAGGTGGCCGAGGGAAACGGACCGGTGAACGCTTTGGCTAAAGGTCT
CTTCCGCGCGCTTCTGCCCACGTTCCCGTCTCTTGAGACCGTGACACTCA
GTGACTACAAGGTTCGCATCTTGGACCAAGAGAGTGCTACAAGGGCCAAA
ACTCGGGTTTTCATCGAGTTTTTCGACAAGACGATGGACGTCGGATGGTC
AACGGTTGGGGTCAACACCAACATCATCTCTGCGTCCATGAGCGCTTTGA
TGGACGGCCTCGAATATGCCCTGGTGGAGTACGGCCAGAGCTGCTCGATT
GACGCCGGACCGAAAAGTCCGAAGCGTACAGAGTGA
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