mRNA_P-littoralis_Contig866.3.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig866.3.1
Unique NamemRNA_P-littoralis_Contig866.3.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: D7G3M4_ECTSI (Peptidase S74 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G3M4_ECTSI)

HSP 1 Score: 785 bits (2026), Expect = 2.210e-261
Identity = 442/756 (58.47%), Postives = 546/756 (72.22%), Query Frame = 1 
Query: 2938 MLETAVASSSGRAHQGGPETSRALAMAAQSTGPGHGLAVFNRKGELSRVEGVTVFTGGVLDVKGLGPHLQHGDVDYQGYTARNLSLAGVSTITGLDRLEVKGLFISTSSPEGTIGNGR---GKESTSAGPSAIAVLTSEGKLLSTSEAFSIDAGTGTLSAPRIGSHEVAGDVDFLGNIMRHAVLESPEIRGTVPILHTGGLRVSAKSTVSRGHLAVFSSETSDEQVGGSIGTGGKSIGLASGGGGLAWRDGALQNVRLGGTTTLEGDLDLGGHRLLNYDVETPDFHHIEELTVRNTLKLDKHKGASSLGAVLVLGTGGNVMPADPTTLNIQASSGSLKQLTVSEDIVCQGNTEVGGKVSITGTITVDGEMSLSAGLDARGTRIANARLENASIDGVIHGDVDFDGAVRFSVLKKKEVATGAA----LILVGDHGEVRTATGLELDEQEGVLVVERISGHEVTGSVDFGGHALVSPALNFTVGGGIAGLPSLSVGGGGLDVSGVLSAASDVMVEGSVTVAGAVMGRGPYMDTSDARMKVKVREISAVDASAVVKGLRAVTYALKPIAFPPPKAVNSQSWATGGRRQQGFIAQEVEQVAPEVVAEDGNGYKSVAYSRLVPTLAAALSAALDRLDKLEESTRSAPKPAAEVGASSAAVDGSEKVS-------------------------RSPISQQGRRATAVGTHEQQQATESDTGPAMFDLMRLQAENTALRGRVSEMEDRMVELERKLGNVASVG 5109
            MLET   S SG   + G E+ R+LA   Q +G  +GL VF++KGELSR EGV VF GGV+DV+GLGPHLQHGDVD+QG+TARN+SL+GVS+ITGL  LEV+ LFI    P  T  N      +++   GPS+IA+L  +G+LLS  EAFS++  TGTL APR+G HEV GDVD +GN MR+AVLESPEIRGT+  L    L+VS +++VSRGHLAVFSS+TS E   GSIG+ GK++GLASGGGGLAW+DGALQ+VRLGGTTTLEG+LDLGGHRLLN+D ETPD  H++ELT+R TLKLDKH  A  LG +LV+  GG+V PADP  L+I+ASS S+  LT  E + CQG+ E+ G+  I G +++DGE+ LSAGLDARGT + NARL+NA+ +G I GDVD DG V+   LKK            +++VGD GE+R A G+E +++ GV V E ISGH+VTG+VDFGG AL+SP LNFT+GGG++GLPSLSVG GGL V GVLS ASDVM+EGSVTV+GAVMGRGPYMDTSDARMK++V++ISA DA AV+KGLRAVTY LKP A    KA NSQ+   G RRQ GFIAQEVEQVAPEVVAED NGYK+VAYSRLVPTLA ALSAALDRLD+LEE+  S   PA+ + A  A    + KV+                         R  +S Q  ++     HE+    +  + PA+ DL++L  EN ALR RV EME R+ +LER L  VA++G
Sbjct:    1 MLETGTGSGSG-VSKVGSESLRSLAGVVQPSGAEYGLGVFDKKGELSRAEGVAVFPGGVVDVRGLGPHLQHGDVDFQGFTARNISLSGVSSITGLHHLEVRRLFIGAPPPGETTDNNHPSGNEQANPVGPSSIAILKGDGELLSAGEAFSVNPVTGTLLAPRLGPHEVTGDVDLVGNTMRNAVLESPEIRGTISSLDASNLKVSVQASVSRGHLAVFSSQTS-EDADGSIGSSGKALGLASGGGGLAWQDGALQDVRLGGTTTLEGNLDLGGHRLLNFDYETPDLEHVDELTIRRTLKLDKHSNAHPLGEILVVSDGGSVAPADPANLSIKASSASIAHLTSVEQLTCQGHVEINGETFIAGGVSIDGEVGLSAGLDARGTGVKNARLQNATFEGAIAGDVDVDGRVKIGTLKKXXXXXXXXXXXXVVVVGDEGELRAAEGMEFNDEGGVFVTEMISGHKVTGTVDFGGEALLSPGLNFTMGGGVSGLPSLSVGDGGLSVDGVLSTASDVMIEGSVTVSGAVMGRGPYMDTSDARMKMEVKDISASDAMAVMKGLRAVTYVLKPEALLASKARNSQTRTHGDRRQHGFIAQEVEQVAPEVVAEDSNGYKTVAYSRLVPTLATALSAALDRLDRLEEAPASTSLPASTITADEAYEASARKVAAGRLSSAMAASGSAYGGSSADIVGRRPAVSPQRHKSLDAVFHEEGHVGQLGSKPAVSDLIQLSEENNALRVRVEEMEKRIADLERGLAGVANLG 754
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: D7G3M7_ECTSI (EGF-like domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G3M7_ECTSI)

HSP 1 Score: 682 bits (1761), Expect = 2.470e-225
Identity = 372/539 (69.02%), Postives = 414/539 (76.81%), Query Frame = 1 
Query:    1 VRYGLWLLLVLQLVAVAVAKCPNWCSQHGVCTGPGDDAFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDDAQVILAEGPFFTGSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEGALHIQPPPFIFPG-NGVGLGSTRPTPTNSPWRNAHPPKALTVSGGSLDVRGAGAEIRSTRAKSPALSVSVGLMD-DVFEGKGDDGLFLRNDTNGRTESNEGENFLYSGVALAVNVRETALKGTRGEGFRLLELSVGGKGPTGAANEDGSGDEGENKENGSQELVLLSVRGDGRVSMAGGGGMILKQGDLEVSRGDAAFKGDVAVGLALNVGGGGISVSDXXXXXXXXXGFEVSTTSPTTXXXXXXAEAVAVVSA 1611
            + YGL+L+LV   V V +AKCPNWCSQHG+CTGPGDDAFCICEMGFQGDDCG RLCPKGDDPLTTDQADR LLLRTTAE+GP+SG+LTVTFNGE+TTL+ADA +TGD ECA+ALQ LPNIDRV C R AVSEFG  DY+ISLLR FPT PWENN YGH GNPALEAFSCNISS ADS ASSSCELID+VT+NVKEY ECS HG CVRETGRCEC+FGFGGEACDDISDSDDAQVILAEGPFFTG+TLKLRANRGLS DYDLVRAIAG +DVMTLTG GDLVLHEG+LHIQPP  I+PG +  G G+T P   +  W    PPKALTVSGGSL+VRG GAE+ STR  +P L VSVG  D D  E +G +G F  N T+ R E    + F Y+G ALAVNVRE+   GT  + FRLLELSVGG+G +            E + +G Q+ VLLSV GDGRV M GGGG++L++GDLEVS G A FKGDV VG  L VG GGISVS XXXXX      EVSTTS  T      A  V    A
Sbjct:   23 IGYGLFLILV--FVPVYLAKCPNWCSQHGICTGPGDDAFCICEMGFQGDDCGTRLCPKGDDPLTTDQADRVLLLRTTAEEGPISGELTVTFNGESTTLNADARQTGDLECAAALQMLPNIDRVGCQRGAVSEFGGTDYVISLLR-FPTTPWENNLYGHSGNPALEAFSCNISSEADSAASSSCELIDMVTENVKEYMECSGHGRCVRETGRCECTFGFGGEACDDISDSDDAQVILAEGPFFTGATLKLRANRGLSTDYDLVRAIAGRHDVMTLTGAGDLVLHEGSLHIQPPASIYPGYDPAGTGTTFPAEEHPQWNTKRPPKALTVSGGSLNVRGGGAEVLSTRENAPGLLVSVGPFDWDDLEEEGGNGAFHGNGTDRRDEE---QAFSYAGAALAVNVRESG-PGTGAKSFRLLELSVGGEGAS------------EEENSGGQKQVLLSVGGDGRVLMTGGGGVLLEEGDLEVSGGGATFKGDVLVGSGLGVGDGGISVSXXXXXXVTDGRLEVSTTSSATPGPAGEAWVVTAARA 542
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A835Z997_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z997_9STRA)

HSP 1 Score: 437 bits (1124), Expect = 2.070e-123
Identity = 399/1095 (36.44%), Postives = 509/1095 (46.48%), Query Frame = 1 
Query:   19 LLLVLQLVAV-AVAKCPNWCSQHGVCTGPGDDAFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDN-VKEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDDAQVILAEGPFFTGSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEGALHIQPPPFIFPGNGVGLGSTRPTPTNSPWRNAHPPKALTVSGGSLDVRGAGAEIRSTRAKSPALSVSVGLMDDVFEGKGDDGLFLRNDTNGRTESNEGENFLYSGVALAVNVRETALKG--------TRGEGFRLLELSVGGKGPTGAANEDGSGDEGENKENGSQELVLLSVRGDGR-VSMAGGGGMILKQGDLEVSRGDAAFKGDVAVGLALNVGGGGISVSDXXXXXXXXXGFEVSTTSPTTXXXXXXAEAVAVVSASHRDFSGDVLLVD-AGGTGTATSGAVLLRATAAGQDVFEIKATGATFIKAGGLDVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEDGGGNQRGGSGSGGFEVAHGGIRATSRDASTSALAASAAGAGFGGAVISVSAPDSAPSGS------FRLLQASVGGXXXXXXXXXADEEQDVFLVDGTGRVTAAGGLETGSTGSLIAKGGLVSGASTVLERRRAIRVEADTDALGVDVDGAXXXXXXXXXXXXXXXTDRDPRGAVGGEVEVDASLGTFFEVPDDGRDGSANILRIK--GNATPGQILMLHNGDADPTSGIAAIPPGYTVLFVHDGSSWRDVRVLEAAVRDLRGVTSLSASADLDIGEFSLTARHLVSSGNEAGGVALFGGGGLLTSDKGLSWNAQTGTLTVPRLQASEVSEGMDFKGKPARNVALVNATLDRIPFLKTARLMLETAVASSSGRAHQGGPETSRALAMAAQSTGPGHGLAVFNRKGELSRVEGVTVFTGGVLDVKGLGPHLQHGDVDYQGYTARNLSLAGVSTITGLDRLEVKG 3243
            L++++QL A+ A  KCPNWCSQHG+CTGP +   CICE+G+ GDDCG RLCPKGDDP TTDQ  R + +RT A +G L+G+    FNGE+ T DA A       C+  + +LPN+   +C R  ++E+G A Y IS   + PT P+ENN Y H GNP+L+ F+CN+++  DS  +  CEL D + D  VKEY ECS HG+C R  GRC C+ GF G ACDD+ D+DD  V +A+GPFF+ S LKLRA+R  S +++L++AIAG    +TLTG GD                                            L+VSG          +  S  A   +L+V+    DD                               GVA+ VNV   A  G        +   G  LL+LS                      E      V L V  DG     AG GG+ +  G      G AA +GDV                 XXXXXXXXX                   A    SA+H  F+G VL +D A   G A + A LLRAT  G++   I A GA  ++ GG   XXXXXXXXXXXXXXXXXXXXXXXX                        G  V  GGI  +SR A+ +AL A+A   GF GAV+ V A      GS      FRLL+ +VGG             + V  V G G V+AAG L                        R A+      D   V                                    A+ G F  V DDG    AN LR+          +L++ NGDA   +G AA+PPG+ VLFV DG  WRDV VL AAV  L GVT L+A+ DLDIGE +L A  L++ GNE GG+A++G GGLLTS  GL ++ QT T+TVPRL+  E++  +DF+G  ARNVAL N TLD + FLK  R+ML       SG A     +  R L + A+    G  + +      L    G  V     L V  L        VD  G   R   L  V+ +TGL  L + G
Sbjct:   11 LVVLVQLSALQAEGKCPNWCSQHGICTGPEETDHCICEIGYVGDDCGTRLCPKGDDPTTTDQVPRTIQMRTGATRGTLAGEFNFLFNGESVTFDATAALVDGTTCSKLVTSLPNVASASCERGPINEWGGATYTISFDAW-PTQPFENNLYNHDGNPSLQQFACNMTAIYDSAWAPWCELDDPLPDAPVKEYAECSNHGTCDRALGRCACALGFKGAACDDMKDADDVAVHIADGPFFSASVLKLRASREPSREFNLLQAIAGTATALTLTGTGD--------------------------------------------LSVSG----------DFESADAAVSSLAVNC---DDA-----------------------------EGVAIDVNVTANAFTGAVVSATVASPAPGSLLLDLSA---------------------EQPDDAPVGLRVAADGAGAEFAGPGGVAITHGGGLTVAGAAAIEGDVXXXXXXXXXXXXXXXXXXXXXXXXXXXLTAQR------------GAXXXXSATHGAFAGTVLSLDLAAAPGAAGADAALLRATCGGEECLHIGAGGAVTVRRGGXXXXXXXXXXXXXXXXXXXXXXXXXXXIVVASGTLRLPS----------DEGMTVDGGGISVSSRGANAAALTAAATARGFAGAVVRVEAAHGGGGGSGIGGSAFRLLEGAVGG-------------EVVLEVGGDGAVSAAGDLXXXXXXXXXXXXXXXX---XXXXARAAVPAGDAIDLAAV------------------------------------AARGGFVSVTDDGA-ARANRLRLPPAXXXXXXALLLVQNGDAQALAGDAAVPPGHAVLFVFDGERWRDVNVLNAAVTRLEGVTKLTAAEDLDIGERALRAGALLAGGNEEGGIAVYGAGGLLTSANGLEYDGQTETVTVPRLKVGEMASAVDFRGFGARNVALANVTLDELAFLKVGRVML-------SGAARVAAADAVRVLGVDAR----GEVVPIAQEALSLGAAGGGVV-RAQELHVGELRARTLGAAVDCAGNALRGAVLEDVAGVTGLRELALGG 910
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A7S2WXE7_9STRA (Hypothetical protein (Fragment) n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WXE7_9STRA)

HSP 1 Score: 189 bits (479), Expect = 8.150e-51
Identity = 95/187 (50.80%), Postives = 120/187 (64.17%), Query Frame = 1 
Query:   49 AVAKCPNWCSQHGVCTGPGDDAFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHG 609
            A AKCPN CSQHG+C+GPG DA+CICE GF GDDC IR+CPKGDD LT  Q DR + L T A +G L G  T +F G +  L+A+A+      C  ALQ+LP+I +V+C R  V+E G ADY I+ L  FP +P +NN Y H GNP L+ F C+ S     G    CE+ DV   N++EY +C  HG
Sbjct:   23 AEAKCPNDCSQHGLCSGPGADAYCICEGGFTGDDCSIRICPKGDDALTMGQNDRVVRLHTGAMQGFLEGHFTFSFLGYSVELEANANTLSGERCKQALQSLPSIHQVSCERGPVNEQGGADYTITFLS-FPALPADNNLYFHDGNPGLDLFECDTSG-VFGGDFPVCEVSDVEASNIREYVQCGNHG 207
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A7S2ASU7_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2ASU7_9STRA)

HSP 1 Score: 177 bits (449), Expect = 7.920e-42
Identity = 104/294 (35.37%), Postives = 153/294 (52.04%), Query Frame = 1 
Query:   61 CPNWCSQHGVCTG---PGDDAF----------------CICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGP--LSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDD------AQVILAEGPFFT--GSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEG 855
            CPN CS +GVC      G D                  C C+ GF G DC +R CPKGDDP T +   R + + TT+      L G   +TF+G +    A A      +C SA ++L N++ V C R+ V +   + Y++     +P +P++NN+  H GNP++  F+C+ +    SG S+SC++ DVV+ +V+EYTECS  G C   TG C C  GF    CD+I D  D      A ++L      T  G+ L +R++R  S  ++L++  AG  +V TL G GDL +H G
Sbjct:  113 CPNDCSSNGVCLSMHRAGLDLHPSGVDYTNWDSSAVLGCKCDWGFHGPDCSLRYCPKGDDPKTENDGYRTIRMNTTSGSSSETLGGKFQLTFDGMSFDFSAAAENFTAADCKSAWESLDNVESVTCKRTQVQDDRGSSYIVQF-NGWPVLPFQNNYDTHDGNPSISQFACSAADATPSG-SASCQMFDVVSSDVEEYTECSSRGVCDEVTGTCSCFDGFSNVNCDEIFDDPDLVSLNQADILLLHSRLATYEGNVLHIRSDREKSEAFNLLKFEAGDENVFTLRGDGDLTMHHG 404
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A7R9YF46_9STRA (Hypothetical protein (Fragment) n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9YF46_9STRA)

HSP 1 Score: 167 bits (422), Expect = 1.100e-41
Identity = 97/246 (39.43%), Postives = 129/246 (52.44%), Query Frame = 1 
Query:   58 KCPNWCSQHGVCT---------GPGDD----------------AFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDD----ISDSDDAQVIL 708
             CP+ CS HG C          G  DD                 FC+C++GF G DC  RLCPKGDDPLTT Q+ R++ L TT     + G +T+TF GE+ T+ ADA+      C +  ++LPNI  V CSR AV     A Y I L  Y P  P +NN + H GNP+L +FSC++S     G + +C   D  T N++EY+ CS  G C    G+C C  GF G AC      I+++ D  V+L
Sbjct:   77 SCPSSCSGHGTCMTTAQASILYGIDDDFDGDGPLYSNWDADITTFCVCDIGFWGGDCSSRLCPKGDDPLTTSQSARSVFL-TTGAASAIGGSVTITFQGESFTMSADANSVDSQACRTFFESLPNIQSVQCSRGAVDGNNGASYEIELSEY-PLNPHQNNLFYHDGNPSLSSFSCDVSQMT--GTAVTCLFTDGTTSNLQEYSLCSGRGMCDPSVGQCTCFNGFLGAACGTASSVITNAQDNDVLL 318
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: D7G350_ECTSI (EGF-like domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G350_ECTSI)

HSP 1 Score: 166 bits (420), Expect = 1.930e-40
Identity = 103/298 (34.56%), Postives = 147/298 (49.33%), Query Frame = 1 
Query:   61 CPNWCSQHGVCTGPGDDA-------------------------FCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACD----DISDSDDAQVI-----LAEGPFFTGSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHE 852
            CPN CS  G C   G  A                          CIC+ G+ G DC +R+CPKGDDP+TT Q    + +   A  G + G+  +TF GE+    A+A +    +C +A + L N++ V CSR  V   G A + I L+  FPT P +NN + H G P L+AFSC+ + N        C+   +  +N+KEY  CSR G C  ETGRC+C  GF    CD     I++  DA V+     LA    FTG+ L L+  R  S  ++L++A +   +   L G G L +++
Sbjct:  121 CPNDCSGRGTCATLGQAAEFYGVTRYGGVGSFVYTNWEADMVMTCICDWGYTGGDCSLRMCPKGDDPVTTLQESPRVAMTVNATDGVMEGNFVLTFQGESFAFPANATQFDSTDCEAAFEGLGNLEDVTCSRGDVGAEGGATFDIELVA-FPTFPHQNNVFSHDGWPGLDAFSCDAA-NITGATDPVCKFTVLQDNNLKEYEFCSRRGICDFETGRCDCVDGFSRANCDVSESQITEDLDADVLELYTTLAN---FTGNVLYLKTERESSSYFNLIKAASEGENTFVLAGDGTLRMYK 413
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: W2PHM2_PHYPN (Uncharacterized protein n=10 Tax=Phytophthora TaxID=4783 RepID=W2PHM2_PHYPN)

HSP 1 Score: 172 bits (435), Expect = 1.830e-39
Identity = 104/301 (34.55%), Postives = 144/301 (47.84%), Query Frame = 1 
Query:   34 QLVAVAVAKCP---NWCSQHGVCT-GPGDDAFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGP--LSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSC---NISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDDAQVILAEGPFFTGSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEGALHIQPPPFIFPGNGVGL 909
            + V +    CP   + CSQHGVC      +  C C+ G+   DC I++CP G +P ++ Q D+ + LR T   G     G L +TF   T   +    +     C S  +   N+  + C +       +A + I+L   FPT P  NN Y H GNP +  F C   N+  ++ SGA   C    +   NVK Y ECS HG C  ETG C C  G+ G+ C    D +D  V  A GP F G+ L L A RGLS D+ +VRA  G   V T+ G+GD   H G+L ++       G  + L
Sbjct:   35 RAVELKGTHCPGQGSQCSQHGVCAINRQGEHVCNCQWGYTSPDCSIKMCPYGANPTSSQQEDKTISLRITTNGGASITGGALAITFQAHTVDFEMPLEQVTSEVCTSIFRRFQNLGELTCKQVHFYGSSSATFDITL-HTFPTFPIMNNLYYHNGNPPVSEFWCDATNVQLSSPSGAVQ-CVFESINDVNVKSYEECSGHGDCNAETGICACHEGYYGDHCGKNKDDEDVLVAPALGPLFKGNVLHLSATRGLSSDFQIVRADVGGQAVFTMNGRGDTTWHRGSLQLREGGLYMSGGALQL 333
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A7S2WIH4_9STRA (Hypothetical protein (Fragment) n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WIH4_9STRA)

HSP 1 Score: 156 bits (395), Expect = 1.630e-37
Identity = 96/243 (39.51%), Postives = 120/243 (49.38%), Query Frame = 1 
Query:   55 AKCPNWCSQHGVCT-----------------GPGDDAF--------------CICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSS---CELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDDIS 681
            A+CPN CS HG+C                  G G D                C C+ GF G DC +R+CPKGDDPLT DQ  RA+ +R T +   L G   ++F G T   DA A       C    Q L N++ V+CS       G ++ + +    +P  P ENN + H GNPA+E FSC+ISS   +G S     CEL DV   NV+EY  CS  GSC   +G C C  GF GEAC DIS
Sbjct:  131 ARCPNDCSGHGLCITLGALGRLEGNDYSARPGVGGDGIGPEYTNWDADHVTMCNCDWGFFGPDCSLRMCPKGDDPLTVDQGYRAISVRLTGDGTGLGGRFRISFLGFTAEFDAAASAITSNVCEDRFQGLGNVESVSCSTMNYGANGGSE-MNATFTAWPRQPMENNIHFHSGNPAIEDFSCDISSVTVTGGSDDSVVCELYDVSASNVQEYELCSSRGSCDFVSGICFCQEGFTGEACSDIS 372
[Close]
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Match: A0A7S3JX11_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A7S3JX11_9STRA)

HSP 1 Score: 163 bits (413), Expect = 9.980e-37
Identity = 96/275 (34.91%), Postives = 143/275 (52.00%), Query Frame = 1 
Query:   61 CPNWCSQHGVCTGPGDDAFCICEMGFQGDDCGIRLCPKGDDPLTTDQADRALLL-----RTTAEKGPLSGDLTVTFNGETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLLRYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNVKEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDDAQVILAEGPFFTGSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEGALHIQ 870
            C N C+ +G C G G  A C C+  F G  C I  CP+GDDPLT DQ +R+  L     R T     ++G + + F G    + A ++   +  C+     L  I R  C+R     FG   Y I ++ +  T P +     H GNP+L AF C+ ++ A  G    C L D+  ++VKE+ ECS HG C  + G+C+C  G+ G+AC +  DSDD  +  AEGPFF+G+ L+LRA R     + ++ A +       + G GD+ +  G++ IQ
Sbjct:    2 CLNSCNLNGKCVGEGSSAHCSCDPEFTGVSCEIAHCPRGDDPLTRDQKERSFRLQIVSDRATTANTRVNGTVKIRFLGSQRQMPASSNELNNAICSHTWSQLLGISRAQCNRIEADAFGNGVYHIRIIEWTQT-PVDAQE-PHFGNPSLSAFECDSTAAAPEGLK--CILSDLNNEDVKEHVECSNHGFCGSD-GQCQCHSGWYGKACSENLDSDDVALHAAEGPFFSGTLLRLRATRPPDTSFSVIAASSAGIPTFVVRGNGDMQV-SGSVSIQ 270
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig866.3.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G3M4_ECTSI2.210e-26158.47Peptidase S74 domain-containing protein n=1 Tax=Ec... [more]
D7G3M7_ECTSI2.470e-22569.02EGF-like domain-containing protein n=1 Tax=Ectocar... [more]
A0A835Z997_9STRA2.070e-12336.44Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A7S2WXE7_9STRA8.150e-5150.80Hypothetical protein (Fragment) n=1 Tax=Rhizochrom... [more]
A0A7S2ASU7_9STRA7.920e-4235.37Hypothetical protein n=1 Tax=Dictyocha speculum Ta... [more]
A0A7R9YF46_9STRA1.100e-4139.43Hypothetical protein (Fragment) n=1 Tax=Pinguiococ... [more]
D7G350_ECTSI1.930e-4034.56EGF-like domain-containing protein n=1 Tax=Ectocar... [more]
W2PHM2_PHYPN1.830e-3934.55Uncharacterized protein n=10 Tax=Phytophthora TaxI... [more]
A0A7S2WIH4_9STRA1.630e-3739.51Hypothetical protein (Fragment) n=1 Tax=Rhizochrom... [more]
A0A7S3JX11_9STRA9.980e-3734.91Hypothetical protein n=1 Tax=Aureoumbra lagunensis... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig866contigP-littoralis_Contig866:10506..28303 -
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.D7G3M7
PFAMsEGF_2,Peptidase_S74
Model size5351
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons22
Evalue4.13e-200
EggNOG OGs2CMYF@1|root,2QSRN@2759|Eukaryota
Ec32 ortholog descriptionhypothetical protein
Ec32 orthologEc-24_001680.1
DescriptionChaperone of endosialidase
Cds size5052
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig866.3.1prot_P-littoralis_Contig866.3.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig866 10676..28174 -


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

Feature NameUnique NameSpeciesTypePosition
1680791739.5081706-UTR-P-littoralis_Contig866:10505..106751680791739.5081706-UTR-P-littoralis_Contig866:10505..10675Pylaiella littoralis U1_48UTRP-littoralis_Contig866 10506..10675 -
1680791739.8201034-UTR-P-littoralis_Contig866:28174..283031680791739.8201034-UTR-P-littoralis_Contig866:28174..28303Pylaiella littoralis U1_48UTRP-littoralis_Contig866 28175..28303 -


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

Feature NameUnique NameSpeciesTypePosition
1680791739.5234897-CDS-P-littoralis_Contig866:10675..112731680791739.5234897-CDS-P-littoralis_Contig866:10675..11273Pylaiella littoralis U1_48CDSP-littoralis_Contig866 10676..11273 -
1680791739.5417402-CDS-P-littoralis_Contig866:11465..117521680791739.5417402-CDS-P-littoralis_Contig866:11465..11752Pylaiella littoralis U1_48CDSP-littoralis_Contig866 11466..11752 -
1680791739.556276-CDS-P-littoralis_Contig866:11950..124511680791739.556276-CDS-P-littoralis_Contig866:11950..12451Pylaiella littoralis U1_48CDSP-littoralis_Contig866 11951..12451 -
1680791739.5670128-CDS-P-littoralis_Contig866:13246..135441680791739.5670128-CDS-P-littoralis_Contig866:13246..13544Pylaiella littoralis U1_48CDSP-littoralis_Contig866 13247..13544 -
1680791739.5769293-CDS-P-littoralis_Contig866:13777..141061680791739.5769293-CDS-P-littoralis_Contig866:13777..14106Pylaiella littoralis U1_48CDSP-littoralis_Contig866 13778..14106 -
1680791739.5872142-CDS-P-littoralis_Contig866:14659..149021680791739.5872142-CDS-P-littoralis_Contig866:14659..14902Pylaiella littoralis U1_48CDSP-littoralis_Contig866 14660..14902 -
1680791739.6030087-CDS-P-littoralis_Contig866:15368..154551680791739.6030087-CDS-P-littoralis_Contig866:15368..15455Pylaiella littoralis U1_48CDSP-littoralis_Contig866 15369..15455 -
1680791739.6150825-CDS-P-littoralis_Contig866:16027..161691680791739.6150825-CDS-P-littoralis_Contig866:16027..16169Pylaiella littoralis U1_48CDSP-littoralis_Contig866 16028..16169 -
1680791739.6307657-CDS-P-littoralis_Contig866:16718..168531680791739.6307657-CDS-P-littoralis_Contig866:16718..16853Pylaiella littoralis U1_48CDSP-littoralis_Contig866 16719..16853 -
1680791739.6448972-CDS-P-littoralis_Contig866:17155..172381680791739.6448972-CDS-P-littoralis_Contig866:17155..17238Pylaiella littoralis U1_48CDSP-littoralis_Contig866 17156..17238 -
1680791739.6577718-CDS-P-littoralis_Contig866:17467..178721680791739.6577718-CDS-P-littoralis_Contig866:17467..17872Pylaiella littoralis U1_48CDSP-littoralis_Contig866 17468..17872 -
1680791739.6735764-CDS-P-littoralis_Contig866:18450..185971680791739.6735764-CDS-P-littoralis_Contig866:18450..18597Pylaiella littoralis U1_48CDSP-littoralis_Contig866 18451..18597 -
1680791739.6857824-CDS-P-littoralis_Contig866:18997..191921680791739.6857824-CDS-P-littoralis_Contig866:18997..19192Pylaiella littoralis U1_48CDSP-littoralis_Contig866 18998..19192 -
1680791739.7037005-CDS-P-littoralis_Contig866:19799..199391680791739.7037005-CDS-P-littoralis_Contig866:19799..19939Pylaiella littoralis U1_48CDSP-littoralis_Contig866 19800..19939 -
1680791739.722097-CDS-P-littoralis_Contig866:20711..208561680791739.722097-CDS-P-littoralis_Contig866:20711..20856Pylaiella littoralis U1_48CDSP-littoralis_Contig866 20712..20856 -
1680791739.735641-CDS-P-littoralis_Contig866:21435..216681680791739.735641-CDS-P-littoralis_Contig866:21435..21668Pylaiella littoralis U1_48CDSP-littoralis_Contig866 21436..21668 -
1680791739.7506187-CDS-P-littoralis_Contig866:21944..223471680791739.7506187-CDS-P-littoralis_Contig866:21944..22347Pylaiella littoralis U1_48CDSP-littoralis_Contig866 21945..22347 -
1680791739.762648-CDS-P-littoralis_Contig866:22667..227781680791739.762648-CDS-P-littoralis_Contig866:22667..22778Pylaiella littoralis U1_48CDSP-littoralis_Contig866 22668..22778 -
1680791739.7740843-CDS-P-littoralis_Contig866:24410..245261680791739.7740843-CDS-P-littoralis_Contig866:24410..24526Pylaiella littoralis U1_48CDSP-littoralis_Contig866 24411..24526 -
1680791739.7885568-CDS-P-littoralis_Contig866:24857..250061680791739.7885568-CDS-P-littoralis_Contig866:24857..25006Pylaiella littoralis U1_48CDSP-littoralis_Contig866 24858..25006 -
1680791739.7992413-CDS-P-littoralis_Contig866:25722..259961680791739.7992413-CDS-P-littoralis_Contig866:25722..25996Pylaiella littoralis U1_48CDSP-littoralis_Contig866 25723..25996 -
1680791739.8097925-CDS-P-littoralis_Contig866:28143..281741680791739.8097925-CDS-P-littoralis_Contig866:28143..28174Pylaiella littoralis U1_48CDSP-littoralis_Contig866 28144..28174 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig866.3.1

>prot_P-littoralis_Contig866.3.1 ID=prot_P-littoralis_Contig866.3.1|Name=mRNA_P-littoralis_Contig866.3.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1684bp
MGFQGDDCGIRLCPKGDDPLTTDQADRALLLRTTAEKGPLSGDLTVTFNG
ETTTLDADAHRTGDWECASALQALPNIDRVACSRSAVSEFGAADYLISLL
RYFPTIPWENNHYGHLGNPALEAFSCNISSNADSGASSSCELIDVVTDNV
KEYTECSRHGSCVRETGRCECSFGFGGEACDDISDSDDAQVILAEGPFFT
GSTLKLRANRGLSPDYDLVRAIAGPYDVMTLTGQGDLVLHEGALHIQPPP
FIFPGNGVGLGSTRPTPTNSPWRNAHPPKALTVSGGSLDVRGAGAEIRST
RAKSPALSVSVGLMDDVFEGKGDDGLFLRNDTNGRTESNEGENFLYSGVA
LAVNVRETALKGTRGEGFRLLELSVGGKGPTGAANEDGSGDEGENKENGS
QELVLLSVRGDGRVSMAGGGGMILKQGDLEVSRGDAAFKGDVAVGLALNV
GGGGISVSDGGGVRVIDGGFEVSTTSPTTTTTTAPAEAVAVVSASHRDFS
GDVLLVDAGGTGTATSGAVLLRATAAGQDVFEIKATGATFIKAGGLDVEA
GGLKVGSGGATVSSGGLTVDGGIVLRSGTLVIEDGGGNQRGGSGSGGFEV
AHGGIRATSRDASTSALAASAAGAGFGGAVISVSAPDSAPSGSFRLLQAS
VGGGGGNSNREEADEEQDVFLVDGTGRVTAAGGLETGSTGSLIAKGGLVS
GASTVLERRRAIRVEADTDALGVDVDGAAASGGGGGGGGGGGGTDRDPRG
AVGGEVEVDASLGTFFEVPDDGRDGSANILRIKGNATPGQILMLHNGDAD
PTSGIAAIPPGYTVLFVHDGSSWRDVRVLEAAVRDLRGVTSLSASADLDI
GEFSLTARHLVSSGNEAGGVALFGGGGLLTSDKGLSWNAQTGTLTVPRLQ
ASEVSEGMDFKGKPARNVALVNATLDRIPFLKTARLMLETAVASSSGRAH
QGGPETSRALAMAAQSTGPGHGLAVFNRKGELSRVEGVTVFTGGVLDVKG
LGPHLQHGDVDYQGYTARNLSLAGVSTITGLDRLEVKGLFISTSSPEGTI
GNGRGKESTSAGPSAIAVLTSEGKLLSTSEAFSIDAGTGTLSAPRIGSHE
VAGDVDFLGNIMRHAVLESPEIRGTVPILHTGGLRVSAKSTVSRGHLAVF
SSETSDEQVGGSIGTGGKSIGLASGGGGLAWRDGALQNVRLGGTTTLEGD
LDLGGHRLLNYDVETPDFHHIEELTVRNTLKLDKHKGASSLGAVLVLGTG
GNVMPADPTTLNIQASSGSLKQLTVSEDIVCQGNTEVGGKVSITGTITVD
GEMSLSAGLDARGTRIANARLENASIDGVIHGDVDFDGAVRFSVLKKKEV
ATGAALILVGDHGEVRTATGLELDEQEGVLVVERISGHEVTGSVDFGGHA
LVSPALNFTVGGGIAGLPSLSVGGGGLDVSGVLSAASDVMVEGSVTVAGA
VMGRGPYMDTSDARMKVKVREISAVDASAVVKGLRAVTYALKPIAFPPPK
AVNSQSWATGGRRQQGFIAQEVEQVAPEVVAEDGNGYKSVAYSRLVPTLA
AALSAALDRLDKLEESTRSAPKPAAEVGASSAAVDGSEKVSRSPISQQGR
RATAVGTHEQQQATESDTGPAMFDLMRLQAENTALRGRVSEMEDRMVELE
RKLGNVASVGAATTARDALAGARARATAAAAGS*
back to top

mRNA from alignment at P-littoralis_Contig866:10506..28303-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig866.3.1 ID=mRNA_P-littoralis_Contig866.3.1|Name=mRNA_P-littoralis_Contig866.3.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=17798bp|location=Sequence derived from alignment at P-littoralis_Contig866:10506..28303- (Pylaiella littoralis U1_48)
GTTAGATACGGGCTCTGGCTGCTTCTGGTGCTCCAGCTGGTGGCTGTTGC
AGTAGCAAAATGTCCGAACTGGTGCAGCCAACACGGTGTCTGTACTGGTC
CCGGCGATGATGCCTTCTGCATCTGCGAGATGGGGTTTCAGGGTGATGAC
TGTGGCATAAGTGAGTTTGAGATGTGCATGGGCAAAAAAAACGGGAGAAC
GTGTGCGGGTAAGATCCTTTCCACAAAAGATCGCGTGCTCTGATTTAGAT
CCATGAGATGGACGCGTGTTTCACACGACGACCAACATCACCGCTGATGT
TCACTGCTACAACAACATGCGAGAGTCAGTTGGATGGACTTGTGCTACGA
CTGAGATTCTGTCATAGACGCCAGGTTGTAGCTGACGACTGACGGTGTGC
GGGCGGGAGGAAAGTACGCGCGGTACACTACCAGCCTGGCGAACCAGAGC
GAATCAGAAATACGTTACTATGATACGGGTGCTGTTGTTGCGGTGCCCGT
CCTGTCACGGTGCCCTGTAAGATACATTTCACTACATGCGGAAAGTAGAG
CGTTTGTCAAGACTTTAAATCAGCACTATGTTCAGTACAATATTAAAAGA
GGGCTTGCAGAGGAGCGGCATCTTGCAAGAGGGAACAAAATGACTTGCAC
ATAAAACATATGCTGTAGTGCGTGTGAGGGATTTGCACACAACATGTAGC
TGTATTTCCAGGGGTATCAAACCTTACCACAAAATACGTTTTAGCTTATC
TAGTACCTCGTAGTTTTTTGGGCCGTAGATTGAATTCTGGAACTGTGGCC
AATCAAAACCCTCTATATGTTATTGACCATAGGGGTTGCCCGATAAGCCA
GCAAAATTCGCGGCAAACCCGTTTGTCAATCGGGGTACACATACATGCGG
AGAACGGTGGCATCGCGCAAACGCACCCGCAGATCTCCCATTTTGGAGTA
AGTTCGGACTGCTGCAGGCACCCAGATACAGCTCTCCCGGGTGCCTACAG
AAAGATTTCGGCTGCTTGCTGCTGCTGTCAAGGCATGGGACGCCACTCAC
ACACCACATCAGTAGGCTGTGGCAGTTTGAAGCAGTGTGGTTGCTTGTGG
CGAGCTTGCTCTGTCCGTAGCTGAAGCACAGTTTCTGCGGTGTTTTGCCC
AAAAACCCATGCTACAAGACGGTGCTATTTTATTTTTTTTCTGAGCACGC
ACCTCGATCTCGCGCTACAAGGCATTTGCAGGGGTCGGGCACAGTTTTGA
CCCACACAGGAGTTGAAGCTGCCGTGAGATCTCTAAAAACCTATGGAGGT
TTGCGCGTCCTAACAAAGTCCGGTTCATAGTTTTTTTCCCTTTTTTTTTC
CCCCGAAACCCCGTTCTACCTTTTTTTTAAGCCAATTTTTCACACCCCAT
GTGGGGTGAGAAAAAGGGGTTTCAAGAAAAAAAAAACTGTGAACCGACCT
TGGTAGTAGAGGCTGAATGGGGGAGGGTGAATAGGGAGTGTACAGCAGGG
GCGGGCACCGGCCAGGATTAATTATTTACAAGTTTGAGATGCTGGGGGAA
AAAAACTTACGGTGGAGCCAAAAATACAAAAATACCACCACGGAGCCCAC
GGGGCACATCCCCGGCGTCCCCAAAGTCCTGCCATAAGCTATAAGGCTGT
AAGTGCCATACACGTTGCATACATGTTGCAGATTCAAATATTCACCCGAA
ACTGCGGTTTGCGTGACATCGCGGGTGGGATATTCAACCACAGGAGTAGG
CAATAATAGCCAACGATCATCGCAAACCATGTGACGGCCCGTACAATCAT
CACAAGCCGCGATTTACATCTACCTGTAAAAGTTGATGTGCCGTGGATAC
GTGCTCGTGTACCAGCATACACGCGTCGTTATTTTACGCACGACGCCTGC
CTCGTCCGCAACAGCATTTCTTTCCGCAAGATGTTTTGAGCCCTACACTC
CGCTGCATATGTTGACATCTCTTAATTCAAGAACACAGATCAACGCCAAC
ATGACCTTGCCCAAGACCTCCTCGTTCGTGATTTGTTGCCCGTCTTCTCT
CTGTTTTTTTACGTGAAATAACGTTTTGTGTCGTGGAATATTTTGTGGCA
TTGCTGAGGTATTATTAACTTGAGGTATTATTTACTTCAACTACCTGGTA
TGCCTGTCCCAATTCCAAGTTGTGTGCAAATTTTTATCGAATAGCTGGTG
ACTCTTTTAAAGTTCTCCCTTGCTAGTCCACCACTTCTGTGCTCACCGAC
GCAATCGGGAACTGCTATAAAACCGCGTGTCCCGTAAAACCCCGCCTCCC
AAACCAGGATTGTGTCCCAAGGGTGACGATCCCCTCACCACCGATCAGGC
CGACCGCGCCCTCCTCCTCCGAACAACGGCCGAGAAAGGCCCCCTCAGTG
GCGACCTGACGGTTACGTTTAACGGCGAGACTACCACCCTCGATGCCGAC
GCTCACCGGACGGGGGACTGGGAGTGCGCCTCCGCGTTGCAGGCGCTGCC
CAACATCGACAGGGTGGCTTGCTCGAGGAGCGCTGTCAGCGAGTTCGGCG
CTGCGGATTATCTCATCTCGCTCCTCAGGTAGTTTATTACTACAGACTGG
AGTCGAGTTCTTTCTCTCGCAAGAGTGGAATCTTTGATGACATTGAGTGC
TTGGGAGCCTTTGAAGCGTAGTAATACCTAATGTAGCCCCAGAGCAAATC
GGGGAGGGACTCCAGCTTAGACCAGGGGACGTCTCTACCTGTTGCACTGT
GATCATATTCAAGCGAACCCCGTAGCTTTCGCGGCCACTATTTTCTGGTG
TGAGTGGGCTCAGCAGTGATATGCAATGCAGGAACTCAGTATGGCCCCCA
AGCTCTTCTGCAGAGTAGCAGATGCTGCGACTGCTTAGTCACTACAGAGA
CAATGTTTGAATTCAAATATTGGTTCTTTGTTAGTCTGATTTAGGAGTGA
GACCTTGTGGGTGGTGCACCACTCAACTCATAGACTTTGGATCTTCACAA
CTCATCCATGTACCACGGACCTTAACCAAATATACTAAAAATAACTACTT
GTGTATGTACTCTTGACTACCAAAAACATCACCCACGGCGGTATCTATCT
TCTACGGCATCTTAGTCTGTTACAGTTGAGCTATTATCACAAAGTACAAT
ATGTTATTTATGATACCACGTACCTCAACTTGTATATGCAGCAAAAGACA
AAATGAAAGCGTAGGACGGGATCAATAGAGCAGTCCTAGCCCTGAGCCGA
CTCGCAAACTCTCTCGCACCGCACCTACTTCCCCGTTAAACCAAAAGTTT
CCCCACCATCCCCTGGGAGAATAACCACTACGGTCACCTTGGAAACCCTG
CTTTGGAGGCGTTTTCGTGCAATATCTCCAGCAACGCGGACTCCGGCGCA
TCATCATCGTGCGAGCTGATCGATGTCGTCACGGACAACGTCAAAGGTAT
GGTGAAGCCAGAAGGCCACCAGCCCTGCCGAGGCTTCTACGAAAGAAACT
ACTCACGGGCACCACAAGCAGTTCCTTCCATGGCTCGCAAAACAACTGGT
ATTCTGCGTCGTCTTAGATCCAAACTGTTGCCCGAGCAAGCACGAATTGA
AAAACAAATGTTAAATTCGGTGCCAATGCACGTTGAGGGGTCCCAGAAAC
CGCGTACGACCAACGCTGACATCAGTACGCACAATCACGTCACCAGAGTT
GTTTACATTTCTGGTGCAGCTCATGGTTTTCTGTTACTCATTGTTGCCGG
TAACACCCTGTTCTGTTAACGCGGCAGAGTACACGGAGTGCTCGCGGCAT
GGATCGTGCGTGAGGGAGACTGGACGCTGCGAATGCTCGTTCGGGTTCGG
CGGCGAGGCTTGTGACGACATCTCCGACTCAGATGATGCACAGGTTAGTT
GTGTGCTAGTTCTGTTCATATGGGACTTCCAAAATCTGTTCGAGCAATAC
TTCGAAGTATGTATTTTGCGCTTGGTATCCTTCGCGCGAAAGTAAACCTC
ATGTTCACTGCGACGGTTTTGTACCGGAAAACGTTCGTATTGTTGGACGC
GGCGGCGGAAAGCGTGCACTTGGAGTTGGTTCGCAATTGACGGCCGGCTG
ATCGGCTTCACGGTCTGTGCACTGTACGGATGATTGCGTTCGTCGGATCT
CCCTTCGTTTCGCGCTACGCACAAGGTTTCAACAAGCAGCAACACAAACG
AGACAAAGGTCGCACAACTCTGCGAGTTTCGCCCACAACGCCCAACACCA
ACTTATTGCGCACTTATCATACGCCGTCGGTGACTACGAAGATATCGGGT
GCACGCTTGTCATCATCTTGTTGTTCTGCCACGCAATGAACTTTCGGTGG
TCATGGCTCATTTTTTTTAATGCAGCGAGCGGTCCTCTGCGAGATGCCTC
AACCAGCGCTGCTGCGGCTCGGTATCGCGGCGACAATCGTGCGGAATCGG
CGCCGTATATTGCGGCTCCTCTGCCTGCCCTTGTACCCCTCCCGTTTGGC
AGCCTCCAACGCCAGCGTACCATGAAACTTTGTCAAAGATCGGTAAAGCC
TGTGTTGGCTCAGGACACGTGGTGGGAGGTTCTCTACGCTTTATATTGAG
AGCGCGTTGAGGTTTTGTCGAAGAAGAAAGGCACAGGGGCATGCCGAGGA
GGTGCAATAGCCGTGACGTTCGAGGTGTCTCACGGAGACTGCTCGCTGCA
TTCCAAATATTGTGAGCCGTGACCACCGGAAGATTGTTGTGGGGCTGACC
GTCGATATATCAACGAGGGTGCAAATGATGTCTTCGCTGAGGTGCCGACG
ACACATGAATATGCACGATTGATGTCAGATGTTTTGAGAAAGGTATGCCT
ACGAAAGCGAACGGCGGTCGGGGGCGAGACTCGCGAGGCGGGTGGATCGT
TGTCTGACATTTTACTGCTGCTTTTTTTAAACCTGTGCATTCACGCAAAA
CGCGAGAAAGTCTCTACACGAACCCGCCGTGCGTTACAAAAATCGTGAAG
CAAACCAGCGGGCGACAAATCCCCTGTTGGCATTCGTTGTTGCAGCCAGA
TGTCACCAAGCGCTGACAACTCTTCCATTGCGCCTGTCTGGCTGTGTTGG
GTATTTAACATGTGCTGAAGTTCTCGGAAAAGTTTTTTCAGCAGGATAGG
TGCGTGCAGGCGCGGGCAGTGATGGGAGGGGGGGGGGGTGAGCCTGTTGT
TTCATCTTGCAGCAGCAGAGCAGCAAGTTTGAATTTGCGGAAGTTTGTAC
TGTGGCTGTTTCACAGGTTCTTTCACAGCGACCTGGCGGAATCAGCGCCC
TGAACTTCGGTTGGTTCAGTGATTGACGGCGAGGCGGCTGCCACACCCGT
CTTCACGCATGGTAATTCGCTTTTTCAAGGAAAACATATCAATCTTGGTG
GCGGTTTCAAAGTACATCAAACCCAATAGCAAGATTCATTAATCGGTTAC
AGCAGCAGGTAATGCCGCAATAAGTCGAGAATCATGCGAAAGGCTTCAAA
TAAATTATTGTCTGCGAATATCCAGGTCATCCTCGCTGAGGGCCCATTCT
TCACCGGATCTACTCTCAAGCTGAGGGCTAACCGCGGACTTAGCCCTGAC
TACGACCTCGTCAGAGCCATCGCTGGACCGTACGACGTGAGCAGTGCCCC
TCCCTGCAACACAAAACTATTGAAACAACGCTTAAGTATTGCGTTTCTTT
TTCTATCAAGGGGGTTGTTCGGTTTGTTTGTGCTCAAGACTGTTTTTTTG
TTGTACTCCATGATTCGTCGTCCGTAAAGTGTCAGCGGTGGGCTCTCGTG
AAAATAACCCATCGAGTGGTCGCACAATGCGGGATCGCACCACCGCTCTA
CTCGAGTGTTTCGATGGGAACTGACGAAGCATTGTTCGATCGACCAAGAC
TTCTTGGTTTTTGATTGCGCTGCTCGTTCCTTTCCTGCGCGCGTGCCCTC
CCGCAGGTGATGACTCTCACGGGCCAGGGCGACCTGGTTCTCCACGAAGG
TGCACTTCACATACAGCCCCCACCGTTCATCTTCCCGGGGAACGGCGTGG
GGCTGGGGTCAACCCGCCCTACCCCTACCAACAGCCCGTGGCGCAATGCA
CACCCACCGAAAGCCTTGACGGTTTCGGGGGGATCGCTTGATGTGCGTGG
GGCAGGGGCGGAGATCCGGTCTACTCGCGCAAAAAGTCCGGCGCTCTCGG
TGTCGGTTGGTCTTATGGACGACGTTTTCGAGGGCAAAGGAGACGATGGG
TTGTTTCTCCGAAACGACACCAACGGACGGACGGAGAGCAATGAGGGGGA
AAATTTCTTGTACTCTGGAGTAGCTCTGGCGGTGAACGTTCGGGAGACAG
CTCTAAAAGGTGAGCGGGTTGGAGGAAAATACGGCGACGGGAAGGCAGCA
GCAGCAGAAATAAGTTCTAACGCATATTATTGGATCAGACAGGAAGCACA
TCCTTTCGACTCGCGACTGAGAAATCATGTAGAACCGTCAGGAGCCACGT
TCGTTTTGTGCAACTTTTTTTTCGCCGTCACCTACCTTATACCCACGTGA
GCGTAAAAATAAGCAAGCTGCTCTTTCGATGCTTCCTTTGAGACCTCCGT
AACACCGAAAAAAGATGTATGATTAATTTTGGCAGGAACGAGAGGGGAAG
GCTTTCGATTGCTGGAGCTATCCGTAGGGGGAAAGGGACCCACTGGCGCT
GCAAACGAAGACGGAAGCGGAGACGAGGGCGAGAACAAAGAAAACGGCAG
TCAAGAATTGGTTTTGCTCTCCGTCCGCGGCGATGGAAGGGTTTCCATGG
CCGGTGGAGGTGGTATGATCCTGAAGCAGGGAGACCTGGAGGTGTCTCGG
GGCGACGCCGCGTTCAAGGTATGTTTGGCGATGGAGAAAGACCTCTTTCA
ACGAGAATCGGCATGCTTTCGGCCGATTTTTTGCCATGCTGTTGTACGCA
ACTCACCATGCAACAGACGGCGGAAATGTGGTGTCGCGGCGCTTGGGATG
CGCTGGGGATGCAAAATTTAGCATTTTCTACGATAGGGAATAACCTGCAA
CACACCCCACAATTTCGAACATTGTTTTTTTGTTGACATTTGATATCCCT
AGAGAAGAGCTCAAAATAACACTGCGTTGATTTCGTCTTGGTGCCTACAC
AAGGATCCACGGCGGTTGCAAGTCTTCATCTACCAGACGAAAATCGAATG
CCTACTTGATGCCGTACGCCCACACAACAACTGTGTTATCTTGTTTTGAC
CGAAATCCTACGGCATGTGACTTGCGACCTGAGCACGTTGGTTGTGATAC
CCTTGCCGATGACCCAGTTACAAATTCTTCAGCACACGGCAAACATTTTG
AGGTCTTGCGGACTCTCTCTGCCATAACGTTGGCAAAATTTGCAGATAGA
AACCGAACATACAAGCCATTGTGATCGGTTGCTTTCTTGCTTGCCAGGGG
GATGTTGCAGTGGGGCTTGCCCTCAACGTCGGCGGTGGAGGCATTTCGGT
TTCAGATGGGGGAGGCGTCCGGGTGATCGACGGCGGTTTCGAAGTGTCCA
CGACCTCCCCGACAACGACGACGACGACGGCACCAGCAGAAGGTGTTGCA
CATATGCCATATGCATACGTAAATAATCCAAAATGAATGCGACGCGATTT
GTTGGTGTTAATGAAGACTGCAATACCGACCATTCGATTTGGCGGTGATG
GCGGTGATGGCGGTGGTAGTAGTGGGGGTGACAATGACGATGATGATGGA
ATCTTTACGGCGAGTGTGCTCGTTCCTCGCTGAGGAGAGCAGTGGCGATG
ACGGTTATAATGCTTTAACACTACTGGCATGTACGAATTTCAAGATGGCC
GGCAAGGGAAATTCAGAATTAATTCAGACGGGAGCCGTTGTCAAACGAAA
TAATACCCTGCCTCCAAACCGTCGAGACGCGGGGTAACTAATGAACGGGA
ATAACCGAACACCTACTCGTACTAGTTTCCTCGAAGCCGACGTGTCAACG
AAGACGATCCAGGTCCGTCCCCGAGTTGCTAAACGTATACAGCAGTGATA
TCAGTATTCAGGGTGGTATCTGTCTGCGGCCCCGAGACTTAGGATAGAAG
CATATTTTGTGATGGTTGATGGTTGTGATGGGCAGCGTTTTGGTTAAAAT
ACACGTGTCCAACCTAGAAACATTCTCGGTGAACGCGCTCCAAATATCCG
GAGAGATATAGATGGCGGTGGACATCGTTGCAATATTACTGAAAGAAGAA
CGCGAATTCCACGTGCGTATCCCCCTCCCTCCTTCCCATGCCCGTCACGC
ACAATCTCTTTTGCAGCAAAAAACGGGGGCGGCGAAAACCTTGGGGCCGG
TCTTCCTTCCGCAGCTGTCGCAGTTGTGTCCGCAAGCCACCGAGATTTTT
CGGGAGACGTGCTTCTAGTGGACGCGGGAGGGACCGGGACAGCGACGTCG
GGAGCAGTGCTTTTGCGGGCGACGGCAGCAGGACAAGATGTCTTCGAGAT
TAAGGTAAGAAATAGGCAACGACAGGGGTAACGACAGCGTCGGTATAGGC
CGTTTGTTGGTAGTTGTATTGTGGTTGTCAATGCTCCTCTCGTCCCTCTT
GCTTCTGATGTTGCTCTTTGTTGTTGTTGTTGTTGTTCACTTAACAGTTT
ACACCGTTCTATGTTCTTTACATCATGAAACCTCCATGTTCCATACCGAT
CCGATCGGTGAGAGCTGCCCTTTGTCCGTCACCTTAGATGGGTATACTAT
AAAGACGGTCACAAGCCAACACAAAGTAGGCCGCGCGTTCAACCGCGATG
ACAACGTACTGTCAAAAACCGAACATACTTATTCTGGAAAACCGTGGGAT
TTGTAAGAATTATGTCGACAAAGTCTGGTCGAAACGCGACGTCTTCACTA
GGGAGGTGTGGAACGAGGGACGTGCCGGATGCGTAGGCGGGGGGAGATTA
CGGACTGGTGGTAAAGGGCCTATGATAGACCACAGACATTGATTTGTCGC
TCAAACCGCCACCCCACCAACAGTAACGACTGACTGTGCACTAAATCTCT
CCCCCCCAACCATGTCCCAATGTTAAAAAAAACTTGCGTTTATTTTATTT
ATTTTTGTCAGGCCACCGGCGCGACTTTCATCAAGGCCGGAGGGCTGGAC
GTCGAAGCCGGAGGCCTAAAAGTGGGCAGCGGTGGAGCTACCGTGAGCTC
TGGTGGCCTCACCGTCGACGGCGGGATCGTTCTCCGCTCCGGCACGCTTG
TCATCGAGGACGGTGGGGGCAATCAACGCGGCGGTAGCGGCAGCGGCGGC
TTCGAGGTGTGACGTCGTCACCCATCTGCAACTGATAGGAGTGGCTGTGA
TCGTGAACATTGCTGGTAGTCTCAGAGCAGTACCACAACTATGTAGGTAT
TTCAGAGTCTCCCTCATCCAATGCCGTAATCTCTATATATTCTCTGCCAT
ACATTTATCTGCGTTTTATGATCTGCTCCATTATCAGGGCTTTCTTCATA
CACATCATCACACCGTCCATCTCATACGAGCATGGGCCGCCCACTCTATT
CTCTCTATTCTCCTCTCGCGCCTTCCATAACTATAAACATCGAGGTAGGA
CGGAGGATCCGGATTCCAGAATTGAAACAATTTTTGTACTGCTGCGTCCT
TGACCGTCGCTTTCTCTTTCCTTCTCATCGGTGATGTGCTTTTGCCGAAC
TGTAAGGTTGCCCATGGCGGCATTCGCGCGACCTCAAGGGATGCCTCCAC
TTCAGCGCTCGCGGCGTCGGCTGCGGGTGCTGGCTTCGGCGGTGCAGTGA
TTTCCGTTTCCGCTCCTGATTCTGCTCCATCTGGCTCCTTCCGTCTACTG
CAGGTAGGCGTGTATGCGGCAAGAAGCAATCCGATGTATACATACGTCGA
CAAACGTTTGCTTTTTCCTTTCGTTGGGATCCCATCAGTTGCTGTCGTTC
GCCGTGACTACCGACCCAACGACCCTTATGTTCTTCCATCGAAACGTTTC
GAACAGGTGTGTTGGCATGTGTGTTGACTTGACATACCTTTGGTGGTGCG
GTTTTCTATGCTCGTTTCTGAACCAAGCCCGATTTACCTCTGTACAGTAC
TGTGTAGGGTCATGCATCAGCCGACCGACGGTGTTACCGCGTCTCGTTTT
TGACTGTCAAGTCTAACCCACAAGGTCGCGTGGAAAACAGAAGGGTGCTA
GCTTCCCTTCCCCCAAAAGAAGGAAGGCAGGGGGGGCAAATGAAGACGGC
CGATCAGGGGTTTCGTTGGCGGCGATACCGAGAACGCCACCGAAAACGTT
TATCCACCCGCAAAGCATGCATCAACACCCTAAAAATAACCAACCAACCA
ATTGGCTTACCATCGTTCACATTGGACACGCTCAAACAACGCGGTACATG
CTGTTTCTCGTAAACCGAATTCCAAATACAGGCGAGCGTAGGAGGAGGCG
GTGGCAACAGCAACCGAGAGGAAGCAGACGAAGAGCAAGATGTATTCCTA
GTCGATGGCACCGGAAGAGTGACCGCCGCCGGCGGCCTGGAAACCGGCTC
GACCGGTAGCCTAATCGCTAAGGGAGGCCTTGTCTCCGGAGCCTCGACGG
TGCTCGAGCGCAGGCGTGCGATCAGAGTCGAGGCCGATACTGACGCCCTC
GGGGTTGATGTCGACGGAGCAGCAGCAAGCGGAGGAGGAGGAGGAGGAGG
AGGAGGAGGAGGAGGTACAGATAGAGATCCCCGAGGGGCCGTCGGGGGCG
AGGTGGAAGTGGACGCGAGCCTAGGAACGTTCTTCGAGGTACCAGACGAC
GGTCGCGATGGCTCCGCCAACATCTTGCGAATCAAGGTTGGTACCGCCGT
GTTTGGGGTGTTTCGTGTTGATGGTAAATGTTTGTGGTACTTGTACGCTT
GCTGCTGACGTCACTGCTGCTGCCGTTGCTGCCTCCTACTAAAATTGTCA
TGAAGTATAACGAATACTTTCGAAAGTCTCTCTACTGAACGCACACCGTA
AATAACTTGATTGCCCTCACGCCACTTTCATTGCCGATGAACTTATTTTT
GTTCTGGACGGGCAGGGAAACGCGACACCGGGACAAATACTCATGCTCCA
TAACGGTGACGCTGACCCAACCTCGGGGATCGCCGCCATTCCTCCGGGGT
AAGGCAGGGATGGATAGGGGACTGACAGAGGGTGGGGAGGAGGGCGGAGG
GTCACGGGGAAGGGACGGGGGGAAATATGCACGACGCCTGATGTAGAATA
ATCTCTGCTGACAATCCAAATAGATTTCTTGTAAATGCGAGTTGCAAACC
ACAGATCTGATGGAGCTCTGCTTTTCAATACGACTACTTGACATGTGCAC
AATATAACAACTATGGAACGTTCCTGATGTTCTCCCGGCAACTCTCTCCG
CCCCCTCTCTCTCTTGGTTGGGCTTTTTTCTTATTCGTCTCTATTGACAG
TTACACAGTGCTGTTTGTCCACGATGGATCCTCGTGGCGCGACGTCCGTG
TTCTCGAGGCCGCCGTGAGGGACCTACGGGGGGTTACTTCCCTCTCCGCA
TCGGCGGATCTCGACATCGGCGAGTTTTCGCTAACGTGAGAGCGGCGTGG
TTATTCTCCTCGTGGATGCCTTTTATTTTTGTAGAATCTTTGCCTTCGGG
TACACCAACCTCTTGGCACATACAGTTACATGATCAGCAGAACGACCCTG
CAAATGATGTAGGCTCAAACAAGATTGAAGGAGAGAGCTTCAAGGAACCA
TTCAATACCCTTCTCCACAGTAGTGGCAATTGTTGAATGCTTTCGACCGG
TTGCCGTTTGATTTTCGGCCGAGGAGGATGTTATTCTCGTAGCTGCCCCC
CCGGCTCCCATGAATGCGTACGCAAGGGATCCTTTCTTGTGCACCTGGCT
CGCCGTCTTGCTTCTCAGAGCAATACTGCTGTGCAGTTGCAAAGCGACAA
GGAGGCTTTTCACTTGCATATTTATATCAGCGTCCCTTGCACACACGTCA
GGCACAAACTTCGTGTTTATTCACCGGAAAAGCTGAAAATAACCCTATGA
CATGAATAATGATTGACTTTGTTTTCGTGTTCGAATGCTCTGGAAAACGC
TCTTGATGCCACAACTCTTGACGACCGACCACAGAGCAAGGCACCTGGTG
TCGAGCGGCAACGAGGCGGGCGGAGTCGCTTTGTTCGGTGGGGGCGGGCT
GCTGACGTCCGACAAGGGACTGTCCTGGAATGCTCAGACGGGAACGCTGA
CGGTACCTCGACTTCAAGCGTCCGAGGTAAAGTCACGGCTCGGGGGAAAT
ACTGTGTACTTTTTCCCGCGTGTCGCAACTGTATGGCCTTGTTATATTAT
TTGTTAGTGTGTGTTTTTTGTTAGCGTGTTGTGGTTTTGTCGGCGTTCAG
ACTCAGAAGCGTCACGGCGTGGAGCCATGATGAACATTGTCGAAGGCGAA
CAGCCACTAGCGTTGGCAACGATCGGGGGCGAACGCTGGCGGTGTCGCGG
GTTCGATGTAAAATCACGGACAAGCACTACAACAATATATGGCAGACTTT
CCCCACGGCTGAGGGCACATTGGCCGTGTGTGCTGTTCGCTTACGCTTCA
AAAATTTTGGTGCTTTATTCATGGAGAGTAACGAGTTCAGCGGGCTTCCT
GCGTTGTGCTGCGTCAACACGGTCAAAAAAGGGAAACATCGCGATACCAC
ATCAACGATAGCTAACACCACCACCACCACCACCAGCCACAACAGCTAAC
ACCACCAACACCACCAACAGCCACAACAACAAGCCAACAATAACAGCAAG
TCGAATAATTTTCATCAGTGTTTCATTTACTTTCCCGCGCTACATCAGGT
TTCAGAAGGCATGGACTTCAAGGGAAAACCGGCGCGAAATGTCGCCCTCG
TCAACGCTACCCTCGACCGCATCCCCTTCCTTAAGGTCCGTTCGTTATTT
TTGTATTTTGAGGGTGTAGACCGCTTGTCCCCTCGGGAACAAGTCCGTCA
TGGTTCCGTCATGGATGCAAACCGACAGTACACATTTTTTGTCTGTTTCC
GATTTGTTCCTGTTCGCGTATTTTTAAACCAGAACTGTGTCGATTTGTTC
GCGTACACACGGGCTTTGAGCTGGTTACACTGCAAGGCACACGTGACCTA
GAAACCCTATGCATATTTGAAAAAACTTAAAGGAGAAGCAAAGTGTGATG
GAAACGCTGGATCCAGGATGCCAGCGTGCAGGTTCACGTGTTACATCTCT
TGTTTAAGGGCGAGGACCCTCTCCTAACCCGTCCAAACAGTTGTTACATT
CGGCATGGACCCCCACCCCCCATCTCCGACCGCAGGAAAAACGTTCTCCA
GAACTTAGCACACGTCCATAAATTACGCCCTTCCATCTTTCGCCTTAACA
GACCGCTCGTCTCATGCTAGAGACGGCCGTCGCCAGTAGCAGTGGCCGTG
CGCACCAAGGCGGGCCAGAGACCTCGAGGGCACTCGCGATGGCGGCGCAA
TCAACCGGACCGGGCCACGGGCTAGCCGTTTTTAACAGGAAGGGGGAGCT
GTCTCGTGTGGAAGGAGTCACGGTGTTTACCGGGGGAGTCCTGGATGTGA
AAGGCCTAGGTCCTCACCTGCAGCACGGGGATGTCGATTATCAGGTGCTA
CTGCTTTCAACATTCTAGAGGGTGTGTTGAAGATGGATGCGAAACGATCG
ACTGTTTGGACGTAAGACCACGACTCACGCCTCTGTGCAAGTTATTCATG
CGTTTGGCTATTGGCATGAACACTTGGCACAGGAAAGGAGAAAATGTCAG
GCTTTTTCCCGCTTGAGGTTTTAGTGTTTGGCGGGGGCAGGAAGCCAACA
AACCTGTCAACAGTCCTTCTCCCCCGGCCACCGCCAGCAAAGAGGGCAAT
CTTAACATACATTGGGCTCAACAGGTAGTTATCAGCTCGGGAGCACCGGG
GTGTGGAAGATCTGTTTTGGTACATTATTTTGTGTATGCATGAGGCTTTC
TACTGTTTCATGCATCTTCTACAAGCACACCTCTCGCGCCGTGTTTCGGG
GCGTATGCATAACCTTATTACCCCGCCCCGACCTAATGGAGCGAACATAA
CACAACATGCCAACTGATGTTTACGACTTCGACTCTCTCATCCCAATTTT
TTATCCCATCAAACTCGTTTTCTGCGTGAAAAATGCACCCTTTATAGGGT
TACACCGCTCGAAACCTCTCCCTTGCCGGGGTTTCCACGATCACCGGCCT
CGACCGCCTTGAAGTTAAGGGACTCTTTATCTCCACCTCCTCTCCCGAAG
GCACCATTGGCAACGGTCGCGGAAAGGAAAGCACCTCAGCAGGCCCGAGC
GCTATCGCGGTCTTGACCAGCGAAGGGAAGCTGTTATCCACTAGCGAGGC
GTTTTCAATCGACGCGGGGACGGGAACGTTGTCGGCCCCTCGGATCGGGT
CTCACGAGGTGGCCGGGGACGTTGACTTCCTGGGGAATATAATGCGGCAT
GCAGTGCTCGAGAGCCCGGAAATAAGGTGAGCAATAAACGTAGGTGAGGC
AAGCCGACAACACATGGTCTGCTATGGTAACATTCGAGTAAGTAGGCAAT
ATCTCAAACGAAAGAGGGAATAAACATGGATAGCTCGGATCCATGCGTTT
CTTACCGTCTACCTTGCATCCCGCTGCCTCGTACCTATCTCATAATTAAT
TTCGCATCCTCTGGGGTTACCAAAAACAAATATTCAACGCCAACGAAAAA
CTACAACAGGGGTACCGTGCCTATCCTCCACACCGGCGGACTCCGGGTGT
CCGCAAAGTCGACAGTGTCTCGCGGCCACCTCGCCGTGTTTTCGTCCGAA
ACCTCCGACGAACAAGTCGGGGGCAGCATCGGCACTGGTGGCAAGTCTAT
AGGGCTTGCCTCAGGAGGCGGAGGGCTCGCCTGGAGAGACGGAGCACTCC
AGAACGTCAGGCTAGGGGGCACAACGACGCTCGAGGGGGACCTGGACTTG
GGAGGACACCGCCTACTAAATTATGATGTGGAAACCCCGGACTTTCATCA
CATTGAGGTGTGCGTCAGTGCGGTATCAGGCAGCAACATGGCTCGAGTAT
ACCGTTGGGGCGGCCACTAAAATCACCCCAAATTACTCTCAAAGGAGGAA
GAAGGCACGCACATTACAGAACTTGAGCGGTTTCACTTTTTGTTTATTCT
GCGCCAAGAAATTTTGAAAGCATGTGCATGCGTGCGGTTAATTGGTTATG
TCAGACTTATATAACTTGGATGCAAAACACGCTGTAGTCCCCTCCAGCTT
TCCCCTTTCAGTTGCACCATCTCAGCCCGCTAAGGGTTCTTCGTTTCACG
ATTGGGTGGCGGGCACAATGTGTCCACCCAACGAGTTTGTCTGATTCGAA
AATAGAAGCTTCTTACCTACGATCTTCCGTTTCAAAGTTCAAAGTCTGAC
TCCCGATAAAAGCTGCCTGTGAAACCTCGTCAACGCCTGCAGAAGAATCC
GGCAGCACCTATGAAAATACGATAGATTGTACATCAGAGGGGTAATGGGT
GCGTTTACATGAGTAGTGTGGACCGGAACCTTCCCTATTCTGGGAGAAAG
CTATACTTGGAACAAGAGCGGATTGGCCCCATTGAGGCGAACAAAGGCAA
TCGGCGCGGAGAATTGTGAGCTCATCGTTAACATTTTGCGCGCGGAAGTT
ATCTGGAGTAGCACTGCAAGAAGGTCAAGGTAATTCGCAACGCCCGTCCA
CTCGTATTTCTCAGCCCACCCGTGCATACCTCGTCGTTGCCCTTGCCCCC
ACTTTTTTTCTGACGCTCCACTCTCTCCAATCACCACGAAACACTGCTCT
AGGAGCTCACCGTCCGCAATACTCTGAAACTCGACAAGCACAAGGGCGCA
TCGTCTCTCGGTGCCGTCTTGGTCCTAGGCACCGGCGGCAACGTCATGCC
GGCGGACCCGACCACTCTCAACATTCAAGCCTCGTCAGGATCCCTGAAAC
AATTGACAGTCTCTGAGGATATAGTTTGCCAGGGGAACACGGAGGTCGGG
GGAAAGGTTTCCATCACGGGCACCATTACCGTAGACGGGGAAATGAGCTT
GTCGGCGGGCTTAGACGCCCGAGGCACTCGCATTGCCAATGCCCGTCTTG
AAAACGCGAGCATTGACGGCGTCATTCATGGCGATGTGGATTTCGATGGA
GCTGTCAGATTCAGCGTGCTGAAGAAGAAGGAGGTGGCGACAGGAGCAGC
ATTGATTCTAGTAGGAGATCATGGCGAAGTGAGGACCGCTACTGGGTTGG
AGCTCGACGAGCAGGAAGGCGTATTGGTCGTGGAGAGGATATCGGGACAC
GAGGTATGTGTCAGCAGGTTCAAAGGGTAGTCTATGTTCATTACCATACC
GACATACTTGTGTGCCACAACCGCGAAATACATAGCGATCAGGACAGATT
TATACCTGAGCAAAGCATCCACTAAAAACAAAACATTTCCTGGGGGAAAT
CAATGTATGAAGGCCTTCATGCTGCCCGCCCCCTAAAATTCAAATATTTA
GGTCACCGGCTCCGTAGATTTCGGCGGCCACGCGCTTGTCTCTCCGGCTC
TAAACTTCACCGTTGGAGGCGGGATAGCTGGGCTTCCTTCCTTATCTGTT
GGAGGAGGGGGGCTCGATGTGAGTGGTGTACTGAGTGCGGCATCCGACGT
TATGGTGGAGGGCTCAGTCACTGTTGCCGGAGCGGTCATGGGCCGTGGGC
CGTACATGGATACGTCGGACGCTCGGATGAAGGTCAAGGTCAGGGAAATC
TCGGCCGTGGATGCATCGGCGGTCGTGAAGGGGTTAAGGTGAGTTGATCT
GACCACGTATAGCAGTAAAAGTAAAGACATGCACTTCGTGTTCGTAGTCA
GTGTTGACCTATCTCAATAAACAATGCGGCGAGTGTTCTGCCCCCCCTCC
CGATACACTTTCTGCCAAAAGTTTGTCCCTCGTTTAAGTCGTCACCCGTA
CCAACTCCCTTTGATGGCACATGAACCCAGGGCAGTAACATACGCACTGA
AGCCCATCGCCTTCCCGCCGCCAAAAGCTGTAAACTCCCAGTCGTGGGCA
ACCGGCGGGCGTCGCCAGCAAGGCTTTATCGCGCAGGAGGTCGAACAAGT
GGCACCGGAAGTGGTCGCCGAGGACGGCAACGGGTACAAGAGCGTCGCCT
ACTCTCGCCTGGTGCCGACGTTGGCCGCCGCTCTGTCCGCAGCACTGGAT
CGTCTCGACAAACTCGAAGAATCTACTCGGTCGGCACCGAAGCCCGCCGC
AGAAGTAGGAGCGTCTTCCGCGGCGGTCGATGGCAGTGAAAAAGTTAGCC
GTAGCCCCATCAGCCAGCAGGGTCGTAGAGCAACGGCGGTGGGCACTCAC
GAGCAGCAACAAGCAACGGAGTCAGACACGGGACCGGCTATGTTTGACCT
TATGCGACTCCAGGCGGAAAATACCGCTTTGCGAGGCAGGGTGAGCGAGA
TGGAAGATAGGATGGTTGAGCTCGAAAGGAAGCTGGGAAATGTTGCGTCT
GTTGGGGCGGCCACGACGGCTAGAGATGCGCTTGCAGGAGCCAGGGCCCG
AGCCACAGCCGCAGCCGCTGGATCGTAATGTATTGCGACAAAGAGCTCTG
CAAATAGAAGTTTGGCGTTTCTCCTCTAACACGGATATCAACGATGGTGC
GACATGAACCGGTCTTTCAGAGGTTAATGCAACGGTACTGCGCACTCATG
GTTTGGAATCTAGGAATGTCTGCTTCGGTGATCTTTTTGCATTGTTAA
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig866:10506..28303-

>mRNA_P-littoralis_Contig866.3.1 ID=mRNA_P-littoralis_Contig866.3.1|Name=mRNA_P-littoralis_Contig866.3.1|organism=Pylaiella littoralis U1_48|type=CDS|length=5052bp|location=Sequence derived from alignment at P-littoralis_Contig866:10506..28303- (Pylaiella littoralis U1_48)
ATGGGGTTTCAGGGTGATGACTGTGGCATAAGATTGTGTCCCAAGGGTGA
CGATCCCCTCACCACCGATCAGGCCGACCGCGCCCTCCTCCTCCGAACAA
CGGCCGAGAAAGGCCCCCTCAGTGGCGACCTGACGGTTACGTTTAACGGC
GAGACTACCACCCTCGATGCCGACGCTCACCGGACGGGGGACTGGGAGTG
CGCCTCCGCGTTGCAGGCGCTGCCCAACATCGACAGGGTGGCTTGCTCGA
GGAGCGCTGTCAGCGAGTTCGGCGCTGCGGATTATCTCATCTCGCTCCTC
AGGTATTTCCCCACCATCCCCTGGGAGAATAACCACTACGGTCACCTTGG
AAACCCTGCTTTGGAGGCGTTTTCGTGCAATATCTCCAGCAACGCGGACT
CCGGCGCATCATCATCGTGCGAGCTGATCGATGTCGTCACGGACAACGTC
AAAGAGTACACGGAGTGCTCGCGGCATGGATCGTGCGTGAGGGAGACTGG
ACGCTGCGAATGCTCGTTCGGGTTCGGCGGCGAGGCTTGTGACGACATCT
CCGACTCAGATGATGCACAGGTCATCCTCGCTGAGGGCCCATTCTTCACC
GGATCTACTCTCAAGCTGAGGGCTAACCGCGGACTTAGCCCTGACTACGA
CCTCGTCAGAGCCATCGCTGGACCGTACGACGTGATGACTCTCACGGGCC
AGGGCGACCTGGTTCTCCACGAAGGTGCACTTCACATACAGCCCCCACCG
TTCATCTTCCCGGGGAACGGCGTGGGGCTGGGGTCAACCCGCCCTACCCC
TACCAACAGCCCGTGGCGCAATGCACACCCACCGAAAGCCTTGACGGTTT
CGGGGGGATCGCTTGATGTGCGTGGGGCAGGGGCGGAGATCCGGTCTACT
CGCGCAAAAAGTCCGGCGCTCTCGGTGTCGGTTGGTCTTATGGACGACGT
TTTCGAGGGCAAAGGAGACGATGGGTTGTTTCTCCGAAACGACACCAACG
GACGGACGGAGAGCAATGAGGGGGAAAATTTCTTGTACTCTGGAGTAGCT
CTGGCGGTGAACGTTCGGGAGACAGCTCTAAAAGGAACGAGAGGGGAAGG
CTTTCGATTGCTGGAGCTATCCGTAGGGGGAAAGGGACCCACTGGCGCTG
CAAACGAAGACGGAAGCGGAGACGAGGGCGAGAACAAAGAAAACGGCAGT
CAAGAATTGGTTTTGCTCTCCGTCCGCGGCGATGGAAGGGTTTCCATGGC
CGGTGGAGGTGGTATGATCCTGAAGCAGGGAGACCTGGAGGTGTCTCGGG
GCGACGCCGCGTTCAAGGGGGATGTTGCAGTGGGGCTTGCCCTCAACGTC
GGCGGTGGAGGCATTTCGGTTTCAGATGGGGGAGGCGTCCGGGTGATCGA
CGGCGGTTTCGAAGTGTCCACGACCTCCCCGACAACGACGACGACGACGG
CACCAGCAGAAGCTGTCGCAGTTGTGTCCGCAAGCCACCGAGATTTTTCG
GGAGACGTGCTTCTAGTGGACGCGGGAGGGACCGGGACAGCGACGTCGGG
AGCAGTGCTTTTGCGGGCGACGGCAGCAGGACAAGATGTCTTCGAGATTA
AGGCCACCGGCGCGACTTTCATCAAGGCCGGAGGGCTGGACGTCGAAGCC
GGAGGCCTAAAAGTGGGCAGCGGTGGAGCTACCGTGAGCTCTGGTGGCCT
CACCGTCGACGGCGGGATCGTTCTCCGCTCCGGCACGCTTGTCATCGAGG
ACGGTGGGGGCAATCAACGCGGCGGTAGCGGCAGCGGCGGCTTCGAGGTT
GCCCATGGCGGCATTCGCGCGACCTCAAGGGATGCCTCCACTTCAGCGCT
CGCGGCGTCGGCTGCGGGTGCTGGCTTCGGCGGTGCAGTGATTTCCGTTT
CCGCTCCTGATTCTGCTCCATCTGGCTCCTTCCGTCTACTGCAGGCGAGC
GTAGGAGGAGGCGGTGGCAACAGCAACCGAGAGGAAGCAGACGAAGAGCA
AGATGTATTCCTAGTCGATGGCACCGGAAGAGTGACCGCCGCCGGCGGCC
TGGAAACCGGCTCGACCGGTAGCCTAATCGCTAAGGGAGGCCTTGTCTCC
GGAGCCTCGACGGTGCTCGAGCGCAGGCGTGCGATCAGAGTCGAGGCCGA
TACTGACGCCCTCGGGGTTGATGTCGACGGAGCAGCAGCAAGCGGAGGAG
GAGGAGGAGGAGGAGGAGGAGGAGGAGGTACAGATAGAGATCCCCGAGGG
GCCGTCGGGGGCGAGGTGGAAGTGGACGCGAGCCTAGGAACGTTCTTCGA
GGTACCAGACGACGGTCGCGATGGCTCCGCCAACATCTTGCGAATCAAGG
GAAACGCGACACCGGGACAAATACTCATGCTCCATAACGGTGACGCTGAC
CCAACCTCGGGGATCGCCGCCATTCCTCCGGGTTACACAGTGCTGTTTGT
CCACGATGGATCCTCGTGGCGCGACGTCCGTGTTCTCGAGGCCGCCGTGA
GGGACCTACGGGGGGTTACTTCCCTCTCCGCATCGGCGGATCTCGACATC
GGCGAGTTTTCGCTAACAGCAAGGCACCTGGTGTCGAGCGGCAACGAGGC
GGGCGGAGTCGCTTTGTTCGGTGGGGGCGGGCTGCTGACGTCCGACAAGG
GACTGTCCTGGAATGCTCAGACGGGAACGCTGACGGTACCTCGACTTCAA
GCGTCCGAGGTTTCAGAAGGCATGGACTTCAAGGGAAAACCGGCGCGAAA
TGTCGCCCTCGTCAACGCTACCCTCGACCGCATCCCCTTCCTTAAGACCG
CTCGTCTCATGCTAGAGACGGCCGTCGCCAGTAGCAGTGGCCGTGCGCAC
CAAGGCGGGCCAGAGACCTCGAGGGCACTCGCGATGGCGGCGCAATCAAC
CGGACCGGGCCACGGGCTAGCCGTTTTTAACAGGAAGGGGGAGCTGTCTC
GTGTGGAAGGAGTCACGGTGTTTACCGGGGGAGTCCTGGATGTGAAAGGC
CTAGGTCCTCACCTGCAGCACGGGGATGTCGATTATCAGGGTTACACCGC
TCGAAACCTCTCCCTTGCCGGGGTTTCCACGATCACCGGCCTCGACCGCC
TTGAAGTTAAGGGACTCTTTATCTCCACCTCCTCTCCCGAAGGCACCATT
GGCAACGGTCGCGGAAAGGAAAGCACCTCAGCAGGCCCGAGCGCTATCGC
GGTCTTGACCAGCGAAGGGAAGCTGTTATCCACTAGCGAGGCGTTTTCAA
TCGACGCGGGGACGGGAACGTTGTCGGCCCCTCGGATCGGGTCTCACGAG
GTGGCCGGGGACGTTGACTTCCTGGGGAATATAATGCGGCATGCAGTGCT
CGAGAGCCCGGAAATAAGGGGTACCGTGCCTATCCTCCACACCGGCGGAC
TCCGGGTGTCCGCAAAGTCGACAGTGTCTCGCGGCCACCTCGCCGTGTTT
TCGTCCGAAACCTCCGACGAACAAGTCGGGGGCAGCATCGGCACTGGTGG
CAAGTCTATAGGGCTTGCCTCAGGAGGCGGAGGGCTCGCCTGGAGAGACG
GAGCACTCCAGAACGTCAGGCTAGGGGGCACAACGACGCTCGAGGGGGAC
CTGGACTTGGGAGGACACCGCCTACTAAATTATGATGTGGAAACCCCGGA
CTTTCATCACATTGAGGAGCTCACCGTCCGCAATACTCTGAAACTCGACA
AGCACAAGGGCGCATCGTCTCTCGGTGCCGTCTTGGTCCTAGGCACCGGC
GGCAACGTCATGCCGGCGGACCCGACCACTCTCAACATTCAAGCCTCGTC
AGGATCCCTGAAACAATTGACAGTCTCTGAGGATATAGTTTGCCAGGGGA
ACACGGAGGTCGGGGGAAAGGTTTCCATCACGGGCACCATTACCGTAGAC
GGGGAAATGAGCTTGTCGGCGGGCTTAGACGCCCGAGGCACTCGCATTGC
CAATGCCCGTCTTGAAAACGCGAGCATTGACGGCGTCATTCATGGCGATG
TGGATTTCGATGGAGCTGTCAGATTCAGCGTGCTGAAGAAGAAGGAGGTG
GCGACAGGAGCAGCATTGATTCTAGTAGGAGATCATGGCGAAGTGAGGAC
CGCTACTGGGTTGGAGCTCGACGAGCAGGAAGGCGTATTGGTCGTGGAGA
GGATATCGGGACACGAGGTCACCGGCTCCGTAGATTTCGGCGGCCACGCG
CTTGTCTCTCCGGCTCTAAACTTCACCGTTGGAGGCGGGATAGCTGGGCT
TCCTTCCTTATCTGTTGGAGGAGGGGGGCTCGATGTGAGTGGTGTACTGA
GTGCGGCATCCGACGTTATGGTGGAGGGCTCAGTCACTGTTGCCGGAGCG
GTCATGGGCCGTGGGCCGTACATGGATACGTCGGACGCTCGGATGAAGGT
CAAGGTCAGGGAAATCTCGGCCGTGGATGCATCGGCGGTCGTGAAGGGGT
TAAGGGCAGTAACATACGCACTGAAGCCCATCGCCTTCCCGCCGCCAAAA
GCTGTAAACTCCCAGTCGTGGGCAACCGGCGGGCGTCGCCAGCAAGGCTT
TATCGCGCAGGAGGTCGAACAAGTGGCACCGGAAGTGGTCGCCGAGGACG
GCAACGGGTACAAGAGCGTCGCCTACTCTCGCCTGGTGCCGACGTTGGCC
GCCGCTCTGTCCGCAGCACTGGATCGTCTCGACAAACTCGAAGAATCTAC
TCGGTCGGCACCGAAGCCCGCCGCAGAAGTAGGAGCGTCTTCCGCGGCGG
TCGATGGCAGTGAAAAAGTTAGCCGTAGCCCCATCAGCCAGCAGGGTCGT
AGAGCAACGGCGGTGGGCACTCACGAGCAGCAACAAGCAACGGAGTCAGA
CACGGGACCGGCTATGTTTGACCTTATGCGACTCCAGGCGGAAAATACCG
CTTTGCGAGGCAGGGTGAGCGAGATGGAAGATAGGATGGTTGAGCTCGAA
AGGAAGCTGGGAAATGTTGCGTCTGTTGGGGCGGCCACGACGGCTAGAGA
TGCGCTTGCAGGAGCCAGGGCCCGAGCCACAGCCGCAGCCGCTGGATCGT
AA
back to top