mRNA_P-littoralis_Contig689.26.4 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig689.26.4
Unique NamemRNA_P-littoralis_Contig689.26.4
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: D7FRI0_ECTSI (M20_dimer domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FRI0_ECTSI)

HSP 1 Score: 825 bits (2132), Expect = 1.600e-293
Identity = 412/490 (84.08%), Postives = 445/490 (90.82%), Query Frame = 1 
Query:  103 MEVEYGDITSEEALTFSLPNPAKAREDTLTLLQAMIRNRCENFGDGLCQESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLMIEE 1572
            ME+EYGDITS+EA+ F LP+P KAREDTL+LLQAMIRNRCENFGDGLC+ES++IKVL++YL  HG+Q+ECHARPERPER NIV SIGSGSPRVMLGPAHVDVVP TPDDAS  Q  QVY+GWDE PWSG VTDG+VFGRGAVDMLNTVAAM VAFV+IKES GV L GTLLFCAVSDEEAGGEDGAKFILSDPGLKKLF ADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVE+TLRGRPGHGSVPRAADNALVRAAEVV RV AY AP+V+TPEW+ FV+ALQLP PL  LLTFPPLLPLVL  LLK GSP+ PVGHALTRLTMSPNALVGA KDNVVPG+CTV VDCRTLPGQ EEYVL+HVR+ALGS  + D +HCSI    H+PASRSEPDTPLW+AM KAASA+I GA LVPVMLPGGTDCRYYRG+GGAVAYGANLLEPS+TFGDLTKRFHGQNERIGLRSLWTSVQFY+LMVKNLM+ E
Sbjct:    1 MEIEYGDITSDEAVGFCLPDPRKAREDTLSLLQAMIRNRCENFGDGLCKESRSIKVLQDYLEGHGLQTECHARPERPERHNIVSSIGSGSPRVMLGPAHVDVVPATPDDASQVQ--QVYSGWDEDPWSGTVTDGEVFGRGAVDMLNTVAAMAVAFVSIKES-GVALNGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFTADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEVTLRGRPGHGSVPRAADNALVRAAEVVRRVHAYSAPTVITPEWKGFVKALQLPGPLEWLLTFPPLLPLVLMVLLKMGSPIAPVGHALTRLTMSPNALVGAVKDNVVPGICTVAVDCRTLPGQSEEYVLDHVRKALGSDIASDVDHCSIGAQSHIPASRSEPDTPLWKAMEKAASAVIKGASLVPVMLPGGTDCRYYRGIGGAVAYGANLLEPSMTFGDLTKRFHGQNERIGLRSLWTSVQFYSLMVKNLMVAE 487
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A835YY18_9STRA (M20_dimer domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YY18_9STRA)

HSP 1 Score: 415 bits (1066), Expect = 7.330e-132
Identity = 243/569 (42.71%), Postives = 321/569 (56.41%), Query Frame = 1 
Query:  106 EVEYGDITSEEALTFSLPNPAKAREDTLTLLQAMIRNRCENFGDGLCQESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLL--------------FCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPD----------------------------------FKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAV-AYGANLLE----------------------------------PSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLM 1563
            E+ Y DITS+EA+     +P   R + + LLQ +IRN+C++FGDGLC+E  NI  L ++   + ++ + + RP++P R N++ S GSGSPRVMLGP+HVDVVP                 W   P+SG + DG+V GRGAVDMLN VA   V F  +++ A +KLKGTLL              FCAVSDEE+GG DGAKF++ DP L+++F ADY +TELGG SIP+                                   K  PTL+F Q+ AEKG   ++IT  GR GHGS+P +ADNAL+RAA V   +Q Y  P       R+    L +P  L   L+F PL+PLV+  L + G+P+ P+ HALT +T+SPN + G SK NV+PG   + VD RTLPGQ E Y+L H+ RAL   ++ D    S++V     ASRS  DTP+W A+ +AAS + PGA  +PVMLPG TD R++R  GG   AYG  LL                                   P  TFG +  RFHG NERI +RSLWT+VQF+ L+V  LM
Sbjct:    3 ELWYDDITSDEAVALLGGSPLDVRTEAVHLLQELIRNKCQSFGDGLCKEEANIDTLLKFFKKYDIECQTYHRPDKPARLNLIASYGSGSPRVMLGPSHVDVVPAVEGP-----------NWSAPPFSGDIVDGEVVGRGAVDMLNLVACQAVVFARLRK-AKMKLKGTLLLLCXXXXXXXXXXXFCAVSDEESGGGDGAKFLMEDPTLRQVFAADYTLTELGGMSIPNRYTTSTETSPLTLTQFVXXXXXXXXXXXXXXXXXXKGEPTLNFTQAVAEKGRMNLQITCGGRGGHGSIPLSADNALLRAARVALALQQYRPPVAAVQTARS----LDMPWALKWALSFWPLVPLVIALLRRLGTPLAPMAHALTTMTISPNLVTGPSKSNVIPGEAVLTVDIRTLPGQDEAYILHHIHRALRRLSAGDRSKLSLKVEQFEMASRSPFDTPMWHAIEQAASTLFPGAKCIPVMLPGATDNRFFREHGGTRGAYGTGLLHLKFQFEVXXXXXXXXXXXXXXXXXXXXXXXXXLCPCDTFGSVAARFHGDNERISVRSLWTAVQFFALVVARLM 555
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: W7TSP2_9STRA (Peptidase n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TSP2_9STRA)

HSP 1 Score: 388 bits (996), Expect = 3.020e-122
Identity = 205/461 (44.47%), Postives = 288/461 (62.47%), Query Frame = 1 
Query:  178 EDTLTLLQAMIRNRCENFGDGLCQESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGS---PRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMV 1551
            E T++LLQ++IRN C N GDG C+E  NI+ L  +   +G++ + +  P RP R +++     G+   PRVMLGP HVDVVP        A ++     WD  P+   +  G+V+GRG++DMLNTVAA  VAF  +  S  + ++GTL+FCAVSDEEAGG DGA F++++P L+ +F ADYC+TE GGA++PD   RP+ +++  + EKGT  + +  +GRPGHGS+P++ DNALV+AAEVV  +  Y +P+++TPEWR  + A   P  +   LT     P ++  LL  G P+G   HA TRLT+SPN L G  K NVVPG   V VD R +PGQ + Y++  + RALG       ++  IR+    PA+ S  DTPLW+AM KA   ++ G   V  +L G TD R++R   GA+AYG +L +P LT   L K  HG NERI + SL  SVQ++ L +
Sbjct:   24 ELTVSLLQSLIRNACVNCGDGSCEEVTNIRTLAAFFDKYGIKYQVYHPPHRPNRPSLIAEYHGGTGIGPRVMLGPGHVDVVP--------ANEKA----WDVPPFEARLVGGEVWGRGSLDMLNTVAAQAVAFACLATSR-LPMRGTLIFCAVSDEEAGGADGAGFLMNEPKLRDIFRADYCMTEFGGATLPDRYNRPSRTYYHVSGEKGTATINVVCKGRPGHGSLPKSCDNALVKAAEVVRCLANYWSPTIITPEWRNIMAASDAPWIVRTCLTSAWFAPAIIRLLLLLGHPLGSAAHASTRLTLSPNHLTGTHKSNVVPGTAVVEVDGRLMPGQDKAYLIRQLERALGRRRMASGDY-EIRIRHFFPATTSPVDTPLWKAMEKAGRMLVDGTTFVNGLLTGATDSRFFRHHCGAIAYGTSLFQPELTLDKLMKSIHGDNERISVASLGISVQYFVLTI 470
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A4D9DB01_9STRA (M20_dimer domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9DB01_9STRA)

HSP 1 Score: 305 bits (780), Expect = 1.440e-92
Identity = 158/340 (46.47%), Postives = 219/340 (64.41%), Query Frame = 1 
Query:  532 MLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMV 1551
            MLNTVAA  VAF  +  S  + ++GTL+FCAVSDEEAGG DGA F++++P L+ +F ADYC+TE GGA++PD   RP+ +++  + EKG+  + +  +GRPGHGS+P++ DNALV+AAEVV  +  Y +P+++TPEWR  + A   P  +   LT   L P ++  LL  G P+G   HA TRLT+SPN L G  K NVVPG   V VD R +PGQ + Y++  + RALG       ++  IR+    PA+ S  DTPLW+AM KA   ++ G + V  +L G TD R++R   GA+AYG +L +P LT   L K  HG NERI + SL  SVQ++ L +
Sbjct:    1 MLNTVAAQAVAFACLATSR-LPMRGTLIFCAVSDEEAGGADGAGFLMNEPKLRDIFRADYCMTEFGGATLPDRYNRPSRTYYHVSGEKGSATINVVCKGRPGHGSLPKSCDNALVKAAEVVRCLANYWSPTIITPEWRNIMAASDAPWIVRTCLTSTWLAPAIIRLLLLLGHPLGSAAHASTRLTLSPNHLTGTHKSNVVPGTAVVEVDGRLMPGQDKAYLIRELERALGRRRMASGDY-EIRIRHFFPATTSPVDTPLWKAMEKAGRVLVDGTMFVNGLLTGATDSRFFRHHCGAIAYGTSLFQPELTLDKLMKSIHGDNERISVASLGISVQYFVLTI 338
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A7W0R051_9ACTN (M20/M25/M40 family metallo-hydrolase n=1 Tax=Acidimicrobiia bacterium TaxID=2080302 RepID=A0A7W0R051_9ACTN)

HSP 1 Score: 259 bits (663), Expect = 2.470e-74
Identity = 174/467 (37.26%), Postives = 249/467 (53.32%), Query Frame = 1 
Query:  184 TLTLLQAMIRNRCENFG---DGLCQESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRV----MLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLM 1563
            T+ LLQ++IRN C N G    G   E +N  +L+ YL   G+  E      RP R ++V  I    P      ++G  H DVVP  PD            GW   P++G + DG+V+GRGA+DMLN  ++M VAF  + +  G + KGTL++  V+DEEAGG+ GA+F+L +        ADY +TE GG S        T +   + AEKG     + + G PGHGS+P  +DNAL+ AAE+V R+  Y     +   W+A +  L +P+ +   L+ P  +    + +         V HA +  T+SPN + G  K N +P V  + VD RT+PG  +E V +++  ALG       +  +I       A+RS  D PLW+A+A  A    PGA LVP ++ GGTD R+YR L G++AYGA L  PS+T      RFHG +ERI + SL  S QF+  + K L+
Sbjct:   12 TVELLQSLIRNECVNDGTPDSGF--EGRNADLLQTYLEGSGLAVERF--DSRPGRTSMVARIEGSDPAAPALCLMG--HTDVVPANPD------------GWSRDPFAGELVDGEVWGRGAIDMLNITSSMAVAFRQLADE-GFRPKGTLIYFGVADEEAGGQWGAEFMLDEHW--DAVGADYVLTESGGWSQGSHD--GTRAITINVAEKGIAWRRLRVSGTPGHGSMPYGSDNALITAAEIVRRLATYRTRPYLDDLWQARLATLDIPADVRTALSDPATID---DGIASLPPEYARVAHACSHTTISPNVIHGGQKTNTIPDVIDIDVDMRTVPGDTKEVVDDYLADALGELA----DRVTISSLQEGDATRSPIDNPLWEALATNAQVAYPGAELVPGIIVGGTDARFYR-LKGSIAYGAGLFSPSVTMESFGNRFHGNDERIDVESLGLSAQFWYGIAKQLV 447
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A2D8GF69_9ACTN (Peptidase M20 family protein n=7 Tax=Acidimicrobiaceae bacterium TaxID=2024894 RepID=A0A2D8GF69_9ACTN)

HSP 1 Score: 258 bits (659), Expect = 8.500e-74
Identity = 179/464 (38.58%), Postives = 246/464 (53.02%), Query Frame = 1 
Query:  178 EDTLTLLQAMIRNRCENFGD-GLCQESKNIKVLREYLATHGVQ-SECHARPERPERQNIVCSIGSGSPRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLM 1563
            ++T+ LLQ +IRN C N G     QE +N  VL  YL   GV+  + HA P R      +      +P + L   H DVVP++PD            GWDE P+ G V + +V+GRGAVDMLN  A+M V    I  S G +L G L+F AV+DEEAG   GA+++        +   DY +TE GG  +   +  P ++      EKG     + +RG PGHGS P  +DNA+V+AA VV R+  Y         WR  V+A+ L   L  +L     +   L  L  + S      HA T  T SPN +   +K N++P V  + VD RTLPG+  E V EH+R ALG    +     S+ V    P+++S+ DTPLW +M KA +   P + + P +  G TD R +R LG AVAYGA LL P+LT  +   RFHG NERI L SL  + +FY  +V++L+
Sbjct:    7 DETVELLQTLIRNACVNDGHMDSGQEIRNADVLTTYLEGAGVEVQQYHAAPGRTSLVARIEGTDPDAPSLCLN-GHTDVVPISPD------------GWDEDPFGGEVINNEVWGRGAVDMLNLTASMAVVTRAIARS-GTRLTGDLVFFAVADEEAGSVYGARWMGEHH--PDVITTDYLLTENGGLHVGS-EQDPAITMV--VGEKGIAWRRLRVRGTPGHGSRPYRSDNAVVKAAAVVQRIAEYSPSPSFHEYWRPQVDAMGLDPELRAVLLDEGAIDEALATLPASASAGN--WHACTHTTFSPNVVTSQTKTNIIPDVVDIDVDIRTLPGETHEDVEEHLRHALGDIYDQ----VSVEVILEEPSTQSQIDTPLWDSMQKAVANPFPTSRIAPAISVGFTDARVHRDLG-AVAYGAGLLSPALTPAEFGSRFHGHNERIDLESLDLTTRFYHDVVRDLL 444
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A537VVI1_9ACTN (M20/M25/M40 family metallo-hydrolase n=1 Tax=Actinomycetia bacterium TaxID=1883427 RepID=A0A537VVI1_9ACTN)

HSP 1 Score: 258 bits (658), Expect = 1.030e-73
Identity = 176/459 (38.34%), Postives = 236/459 (51.42%), Query Frame = 1 
Query:  181 DTLTLLQAMIRNRCENFGDGLC-QESKNIKVLREYLATHGVQSE-CHARPERPERQNIVCSIGSGSPRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMV 1551
            +T+ LLQ +IRN C N G     QE +N  VL+ YL   G   +   A P+RP     +      +P +ML   H DVVPV  D            GW+  P+ G +    V+GRGAVDMLN  ++M VA  N+  S G K KGTL++ AV DEEA G  GAK++            DY VTE+GG       +   +    +  EKGT    IT+RG+PGHGS+P   DNALV+AA++V R+ AY  P+VV   WR+FVE +    PL   L     L  ++E     G  +  + HA T  T +P  L    K NV+P    + VD RTLPGQ  + +   +R ALG Y    D    I     MPAS S  DTPL+  MA   + + PG+  VP M+ G TD RY+R LG  V+YG  L    + F +    FHG NER+ + SL  S + +  ++
Sbjct:    3 ETVELLQLLIRNGCVNDGTAESGQEVRNADVLQSYLDGSGFDMQRFEALPDRPSLVARIEGTDPKAPSLMLM-GHTDVVPVNAD------------GWERDPFGGELVGDMVWGRGAVDMLNLTSSMAVAVRNVARS-GFKPKGTLIYFAVPDEEAAGIYGAKYMCEQE--TDAVRCDYLVTEMGGFRFAGGDVPQRVV---TVGEKGTYWCRITVRGKPGHGSMPARTDNALVKAADIVRRLAAYRPPTVVHDVWRSFVERMAFAQPLADTLLDAKKLDELIETTPDVG--LARMVHACTHTTFAPTVLNAGVKANVIPDHAELQVDIRTLPGQTGDDIQAMLREALGEYYDGVD----IDPMSAMPASFSSTDTPLYDTMANLTTKLTPGSKAVPFMISGATDARYFRRLG-TVSYGYGLFSDRIPFTEFASMFHGDNERVDVESLRLSTELWEALI 435
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A536JXC6_9CHLR (M20/M25/M40 family metallo-hydrolase n=2 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A536JXC6_9CHLR)

HSP 1 Score: 256 bits (653), Expect = 6.460e-73
Identity = 173/460 (37.61%), Postives = 241/460 (52.39%), Query Frame = 1 
Query:  181 DTLTLLQAMIRNRCENFGDGLC-QESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRV----MLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVG--PVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFY 1539
            +T  LLQ +IRN C N G      E +++ +L  YL+  GV+ + +     P R ++V  I    P+     ++G  H DVVPVTP            +GW   P++  + DG+V+GRGAVDML+  A+M VAF  + +S G + KGTL+F AV+DEEA G  GAK++  +         DY VTE GG  IP     P L      AEKG+    + +RG PGHGS+P  ADNAL++AAE++ R+  Y AP  +   WR FV+ L LP+     LT      + L+R      P G  P+ ++ TR T SPN      K NV+P    + +D RT+ G     V E +R A+G    +D E   I      PAS S   TPLW  + K    ++PGA  +P ++ G TD RY+R   G  +YG  L+   ++F D  K FHG NERI   SL  S + +
Sbjct:    9 ETTDLLQRLIRNSCVNEGTPESGHEIRSVDLLESYLSAPGVEMKRYEPV--PGRASLVVRIAGSDPQAPSLHLMG--HTDVVPVTP------------SGWQHDPFAAELIDGEVWGRGAVDMLDVTASMAVAFRRLLDS-GFRPKGTLIFSAVADEEALGTYGAKWLTEN--AWDDVKTDYLVTEFGGMRIPLGNGAPKLPLI--AAEKGSQWTRLRVRGTPGHGSMPYQADNALLKAAEIITRLGTYKAPLRLHSVWRQFVDGLDLPAAARIALTTAATFDMALDR-----GPEGTAPMLYSATRTTFSPNMANSGVKLNVIPDSAEIDIDIRTIAGDDGPKVREMLREAIGDALWKDVE---IVAEGDNPASESPTRTPLWDTLTKVTQKLVPGAKTIPFLIVGATDARYFR-RKGVTSYGYGLMSERISFKDFAKMFHGNNERIDQESLRLSTELF 438
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A2G4FDM9_9ACTN (Peptidase M20 family protein n=5 Tax=root TaxID=1 RepID=A0A2G4FDM9_9ACTN)

HSP 1 Score: 255 bits (651), Expect = 1.150e-72
Identity = 178/476 (37.39%), Postives = 251/476 (52.73%), Query Frame = 1 
Query:  181 DTLTLLQAMIRNRCENFGDGLCQ---ESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRV--MLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASI--PDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVG--HALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSY------TSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLM 1563
            + + LL  +IRN C N  DG  +   E +++ +L +YL   G+  E +    +P R ++V  I    P    +L   H DVVPV PD            GW   P+SG V DG V+GRGAVDMLN  A   VAF  + +S G + +GTL++ AV+DEEA G  GA++++     +    ADY +TE GG  +  P     P L      AEKGT   +I ++G PGHGS P   DNALV+AAEVV R+  +++ + +   WRA+VE +Q P  +   L    LLP  +  +     P+G     HA T  T SPN   G +K NV+P    + VD RTLPGQ  E V   +  ALG        TS DD           P+S S  DTPLW ++A+ +  ++ G+ LVP+++ G TD RY+R   G+V YG  L    +TF D    FHG +ER+ + SL  S Q +  + ++L+
Sbjct:    9 ECVDLLGQLIRNACVN--DGRIESGGEIRSVDLLADYLGATGLDLERYE--PQPGRVSLVARIEGTDPEAPSLLLMGHTDVVPVNPD------------GWSHDPFSGEVIDGFVWGRGAVDMLNLTATQAVAFRKLADS-GFRPRGTLIYLAVADEEASGVWGAEYLVEHE--RDAVMADYVLTETGGFQMHSPGGVRLPVL-----VAEKGTYWSKIRVKGTPGHGSQPHRTDNALVKAAEVVRRLAEFESAASIHEVWRAYVEGMQFPEEISTALLDAALLPHAMAEM-----PIGMARMIHACTHTTFSPNVAHGGTKTNVIPDSVDLEVDIRTLPGQTGEEVRALIDEALGDLAGQVEITSRDD-----------PSSASPIDTPLWDSLARVSGQLVEGSALVPLLMVGATDNRYFR-REGSVGYGFGLFSRRITFEDYAIMFHGNDERVDVESLALSEQLWEAVARDLL 443
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BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Match: A0A6N7FVM2_9ACTN (M20/M25/M40 family metallo-hydrolase n=1 Tax=Acidimicrobiia bacterium TaxID=2080302 RepID=A0A6N7FVM2_9ACTN)

HSP 1 Score: 253 bits (647), Expect = 4.900e-72
Identity = 182/460 (39.57%), Postives = 239/460 (51.96%), Query Frame = 1 
Query:  172 AREDTLTLLQAMIRNRCENFGDGLC-QESKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGS---GSPRVMLGPAHVDVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAAMVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFNADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVPRAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFPPLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVIVDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDTPLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPSLTFGDLTKRFHGQNERIGLRSLWTSVQFY 1539
            A  + + LLQ +IRN C N G     +E++N   L  +L   G+  E    P  P R N+V  I      +P++ L   H DVVPV P            +GWDE P+ G +  G+V+GRGAVDMLN  A+M V    +  S G +  G ++F AV+DEEA G  GA F++           DY +TE GG  +      PT+S   + AEKG     + +RG PGHGS+P  ADNAL++AAEVV R+ AY  P+V+   WR  V  L L SP  R     P         L   +  G   HA T  T +P    G  K NV+P +  + VD RTLPG+  E V EH+R ALG       EH  +       A+ S   TPLW+AMA A+ A  PGA L P M+ G TD R++R     VAYGA L  PSL+  D + RFHG NER+ + SL  + +FY
Sbjct:    9 ATGEVVELLQQLIRNACVNDGRPESGEEARNTDALVAHLEGSGIDMERF--PSGPGRDNLVARIEGRDPAAPKICLM-GHTDVVPVNP------------SGWDEDPFGGDLVAGEVWGRGAVDMLNLTASMAVVARALGRS-GWRPPGDIVFLAVADEEAAGRFGAGFMVEHHW--DAIACDYVLTENGGL-VSGPANAPTVSM--NVAEKGFAWRRLVVRGTPGHGSMPYGADNALLKAAEVVRRLHAYRPPTVIDELWRQRVATLDL-SPATRADLLDPTRAYDAIATLGGSAAAGHF-HACTHTTFAPTMAHGGVKTNVIPDLVDLDVDIRTLPGETAESVSEHLRLALGELA----EHVEVSALADSTATSSPTGTPLWEAMAAASRASFPGAQLAPGMVVGFTDARFFRERD-VVAYGAGLFSPSLSGADFSARFHGNNERVDVESLRLTTEFY 440
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig689.26.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FRI0_ECTSI1.600e-29384.08M20_dimer domain-containing protein n=2 Tax=Ectoca... [more]
A0A835YY18_9STRA7.330e-13242.71M20_dimer domain-containing protein n=1 Tax=Tribon... [more]
W7TSP2_9STRA3.020e-12244.47Peptidase n=1 Tax=Nannochloropsis gaditana TaxID=7... [more]
A0A4D9DB01_9STRA1.440e-9246.47M20_dimer domain-containing protein n=1 Tax=Nannoc... [more]
A0A7W0R051_9ACTN2.470e-7437.26M20/M25/M40 family metallo-hydrolase n=1 Tax=Acidi... [more]
A0A2D8GF69_9ACTN8.500e-7438.58Peptidase M20 family protein n=7 Tax=Acidimicrobia... [more]
A0A537VVI1_9ACTN1.030e-7338.34M20/M25/M40 family metallo-hydrolase n=1 Tax=Actin... [more]
A0A536JXC6_9CHLR6.460e-7337.61M20/M25/M40 family metallo-hydrolase n=2 Tax=Chlor... [more]
A0A2G4FDM9_9ACTN1.150e-7237.39Peptidase M20 family protein n=5 Tax=root TaxID=1 ... [more]
A0A6N7FVM2_9ACTN4.900e-7239.57M20/M25/M40 family metallo-hydrolase n=1 Tax=Acidi... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig689contigP-littoralis_Contig689:101136..128513 -
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.D7FRI0
PFAMsM20_dimer,Peptidase_M20,Peptidase_M28
Model size2597
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons13
Evalue8.62e-300
EggNOG OGsCOG0624@1|root,KOG2275@2759|Eukaryota
Ec32 ortholog descriptionPeptidase M20, dimerisation domain
Ec32 orthologEc-09_000030.1
Descriptionaminoacylase activity
Cds size1473
COG categoryE
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791427.1773975-UTR-P-littoralis_Contig689:101135..1021571680791427.1773975-UTR-P-littoralis_Contig689:101135..102157Pylaiella littoralis U1_48UTRP-littoralis_Contig689 101136..102157 -
1680791427.3512447-UTR-P-littoralis_Contig689:128411..1285131680791427.3512447-UTR-P-littoralis_Contig689:128411..128513Pylaiella littoralis U1_48UTRP-littoralis_Contig689 128412..128513 -


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

Feature NameUnique NameSpeciesTypePosition
1680791427.1934543-CDS-P-littoralis_Contig689:102157..1021871680791427.1934543-CDS-P-littoralis_Contig689:102157..102187Pylaiella littoralis U1_48CDSP-littoralis_Contig689 102158..102187 -
1680791427.2034724-CDS-P-littoralis_Contig689:105210..1052921680791427.2034724-CDS-P-littoralis_Contig689:105210..105292Pylaiella littoralis U1_48CDSP-littoralis_Contig689 105211..105292 -
1680791427.2162197-CDS-P-littoralis_Contig689:105934..1060381680791427.2162197-CDS-P-littoralis_Contig689:105934..106038Pylaiella littoralis U1_48CDSP-littoralis_Contig689 105935..106038 -
1680791427.2268014-CDS-P-littoralis_Contig689:106941..1070351680791427.2268014-CDS-P-littoralis_Contig689:106941..107035Pylaiella littoralis U1_48CDSP-littoralis_Contig689 106942..107035 -
1680791427.2372272-CDS-P-littoralis_Contig689:107626..1077451680791427.2372272-CDS-P-littoralis_Contig689:107626..107745Pylaiella littoralis U1_48CDSP-littoralis_Contig689 107627..107745 -
1680791427.2526603-CDS-P-littoralis_Contig689:110039..1102481680791427.2526603-CDS-P-littoralis_Contig689:110039..110248Pylaiella littoralis U1_48CDSP-littoralis_Contig689 110040..110248 -
1680791427.267731-CDS-P-littoralis_Contig689:111033..1111741680791427.267731-CDS-P-littoralis_Contig689:111033..111174Pylaiella littoralis U1_48CDSP-littoralis_Contig689 111034..111174 -
1680791427.2776203-CDS-P-littoralis_Contig689:111889..1120231680791427.2776203-CDS-P-littoralis_Contig689:111889..112023Pylaiella littoralis U1_48CDSP-littoralis_Contig689 111890..112023 -
1680791427.2908041-CDS-P-littoralis_Contig689:112686..1127621680791427.2908041-CDS-P-littoralis_Contig689:112686..112762Pylaiella littoralis U1_48CDSP-littoralis_Contig689 112687..112762 -
1680791427.3043528-CDS-P-littoralis_Contig689:113520..1135811680791427.3043528-CDS-P-littoralis_Contig689:113520..113581Pylaiella littoralis U1_48CDSP-littoralis_Contig689 113521..113581 -
1680791427.314608-CDS-P-littoralis_Contig689:114452..1146251680791427.314608-CDS-P-littoralis_Contig689:114452..114625Pylaiella littoralis U1_48CDSP-littoralis_Contig689 114453..114625 -
1680791427.326308-CDS-P-littoralis_Contig689:114985..1151361680791427.326308-CDS-P-littoralis_Contig689:114985..115136Pylaiella littoralis U1_48CDSP-littoralis_Contig689 114986..115136 -
1680791427.3368433-CDS-P-littoralis_Contig689:128312..1284111680791427.3368433-CDS-P-littoralis_Contig689:128312..128411Pylaiella littoralis U1_48CDSP-littoralis_Contig689 128313..128411 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig689.26.4prot_P-littoralis_Contig689.26.4Pylaiella littoralis U1_48polypeptideP-littoralis_Contig689 102158..128411 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig689.26.4

>prot_P-littoralis_Contig689.26.4 ID=prot_P-littoralis_Contig689.26.4|Name=mRNA_P-littoralis_Contig689.26.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=491bp
MEVEYGDITSEEALTFSLPNPAKAREDTLTLLQAMIRNRCENFGDGLCQE
SKNIKVLREYLATHGVQSECHARPERPERQNIVCSIGSGSPRVMLGPAHV
DVVPVTPDDASLAQDRQVYTGWDEGPWSGAVTDGQVFGRGAVDMLNTVAA
MVVAFVNIKESAGVKLKGTLLFCAVSDEEAGGEDGAKFILSDPGLKKLFN
ADYCVTELGGASIPDFKLRPTLSFFQSTAEKGTTKVEITLRGRPGHGSVP
RAADNALVRAAEVVARVQAYDAPSVVTPEWRAFVEALQLPSPLGRLLTFP
PLLPLVLERLLKAGSPVGPVGHALTRLTMSPNALVGASKDNVVPGVCTVI
VDCRTLPGQGEEYVLEHVRRALGSYTSEDDEHCSIRVTFHMPASRSEPDT
PLWQAMAKAASAIIPGALLVPVMLPGGTDCRYYRGLGGAVAYGANLLEPS
LTFGDLTKRFHGQNERIGLRSLWTSVQFYTLMVKNLMIEE*
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mRNA from alignment at P-littoralis_Contig689:101136..128513-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig689.26.4 ID=mRNA_P-littoralis_Contig689.26.4|Name=mRNA_P-littoralis_Contig689.26.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=27378bp|location=Sequence derived from alignment at P-littoralis_Contig689:101136..128513- (Pylaiella littoralis U1_48)
GAGGGCACAAGCCCAGGCACAAGGGCAAGAAGCAGCACTGCAAAGCGTTG
AATACCCGTCCGTAAAACGAGGCAAGAGATTTGCAACTGCTGAGAACTCG
CCATGGAAGTTGAATATGGGGACATCACAAGTGAGGAGGCTCTGACGTTT
TCCCTCCCGAACCCTGCCAAAGCAAGGGAGGACACCCTCACCCTCCTGCA
GGTGTGTACTCGGTATTCATGCCGGTGTAGGTACGCAATCCGGAAAGATG
GTACAGAGTACAGAGTTGTTTCGCAGATTCAACAACAAACAGCACCACGG
ATACCATGTGGTGGCGTTAACAGGTACTTGATGTACGTAACAAATATGAA
ACTAGATGTGGATTTCTCAGCGCCGGGCAGTACCCGATACCCAGGTTGAC
ATAATACTCGTATGATTTTACATTGTCACAAGATGCGGACTTCTGTACTG
TATCACAACAGCAAAGAGCGAAACACACAAATAAAAAAAAATGACTTGCA
ACCCACCTGAGATTTTGATTGGCGAGAAAGGTCAGACGAGTAACACACAA
CCGCCAACCCCGAGCCAGAAGGCGGTGGTCCGACCCGGTTTCAGCTACAC
TGGCTCCGCTGAGCATTTCAGCACACAAGCACACACCAGGGCACAAACCC
AACCAGCAGCGAAGCGAACCGCCGTTCTACACGGACTTAGTCTACTGCAG
TAGCTTCCCCAAACTTAACTTGCGGGAAATTCTCCGAACCCCCTTCGATG
TCCGAGGCACGTTTCCTGTGACTGTGCTACACACCCTTCTATCTGATTTT
TGTATCTCCCTCGGCTGGACGATATTAACCCTTCTGAGTCTACCAGGGGA
ATATTTGTTTACTGGAATTGCTCACGATACCTTTTTTTTTTTCCTTAGCC
GGTCTCTTCGGGTTTCTTGAGGTGGGAACGGGGAGGGGACGGAGAAAAAA
CATTCCCGAACCCATAATGCATAGGAGTTGTAGACGACAACAGCACAGAC
AGAACCGCAAGGCATGATGTGACCCAGCATGACCACAGCATCAGTCCACC
CGAAAGACGCTGCTGAGGGAACGCCAGCGAGCGCATGAGGAGGATAGGAA
CAAGTCTGAGGTCCGTGGTCGTTACATCAGCAGCTCTTTTAGCGTTCAGT
GACGCTGCATCGCGTTCAGCGCGTGTCTCACACCGGTATGGGTTGCCTTC
GGGGGAAGGCAACCCAGCCTTCTGGCAGGCACCTGTAACGTGTGGTGTTC
TATGGTGCAACATGGCGGCCAGCTCGTACCACGATCCAAGTGCGGTAAGC
GACGACGAGGAGGGGGACAGCGAGGTTAAGGAGTGGTCCCTCCGCGCGTG
GAGTGCAGCACCTTATGCTGCTAACACGCACAGCCCAGGGATAGGTACGC
GTGGTGCAGCCCGTCAGCAGCAGCAACAACTAGAGCAGCTGCAACAGCAG
CAGCAACAGCAACCACGACAGCCTGTCGCACAACCGCTCCCGCACAACCA
GCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACCAGCGCCTGGCACGC
TACCGCCCCCGCCTCAGCAACAACAGCAGCAACAACAACAGCAGCAGCAA
CAACAGCAACAGGGACCAGCGCCTGGCCCGCTACCGCCCCCCGCCTCCGA
ACAGCAGCAACAGCAGTAGCATCTACAGCAGCAACAGGGACCAGTGCCTG
TCACACAGCCATCCCCGCCGGCCCGACAGCAGCAGCAGCAGCAGGAGGCG
GGAGTGACATCTGGTGCACGAGGCCCGGACGTGGAATTTTGTCGTGGCGT
TCTACAGCGTGGCCCCAAGAAGGGCAGCATCTGCGGCAAACGCGCTGGAG
GTCGCGTTCTTGGATTTTGCATGCATCACGATGGCTTGCGGCAGCGGCCG
AAGAAAAACGCACAGTCTGGCGGTGCAGCAGCAGGCGGGGGTTCGGCGAA
TGGAGGTTCTGCATAGGGAGGCGGCGATGGGGCAATTTCCGATGCCAACT
ACGACTCGGATGAGGAGGTTGGAGGTGGCCTGGACGAATGCCTATCCAGA
AACGCAACTACCAGGGTCGAGAAGGATAGAGATGCCCATTACCGGAGGGC
GGAGAAAAACGTTGACCCTGGCTTCAAGGAGGCGTACAAGAAAGTGTGGT
ATCTCAAGAATCACGACCCCAAACCGAAGGTAAGCTCGGGTAGTGCAGTA
GGAGTCACGGCAGTCAAGACTGATGGGATGTGGCGACAAAGTTAATATTT
TATCGGAGATGTGTTTCGTACAGCAGCACGTACAGGCGTATACATGCACT
TCTTCTCTACGGTGTCATACGAATATGTGGTACCGGCTCCCGCCCTCGAG
GAACCGAGTATGTGCTTTTTCACAACGACGACTAAAATGCGTTTGTGTAC
AGCAGCAGCATGTGCATGGTTTATCGTTTTCCTTTCTTGCTTCGACACTA
CTACAGCTACTGCTGTTGTAGTGAGTGCTGTTGGTGCTGCTGCTGCTGCT
GTTGCTGCTGTTGCTGCTGAATTGAAGTCTAATACGACCCCCCCCCTCCT
CCCCCCCCTTCATCGCCTCGCGTTTGCGCGTTCGCGCGTGTCTCAGAAGG
ACCAACCGCCTCCTCCACCAACGCCGAATGATCCAGAGGGCTGGGTTTTG
GGTGGACTACCGAAGGACGAGGAATCCGAACCTTTCAAGCGCAGGAACAA
GCACAAAGGCAGCCGGTACTTCACCCTCTCGAACGATCTGCTGCAGCGAC
TCCCGAAGGTCGACCGAGAGGGCCTTGATGCCGTCCGCGATTGCGTCGAT
GGGAAGGGTGCTGCGCTCCCTTTCAGGTTCTTCAAGGAGGCGTTCCCTGA
AGAATGCCAGGACATCGTCATCGACGAGGTGAGGGTTTGTTTAGATTTTT
TTCAGCCAAGATCGAGCTGTTGGCGTGCATTCAGGGTTCGTGTGACGGTT
GCTTTTGGCTTCATAGGGGTGCGTGTTTTTTTTGCCGGCACGTATCGTGG
CGCTCCCTCTTCGACAATACATATTGGGGAGGGGACTCGACCGGGTTTTT
TTGCCACCATGTATCGTGGCTCTCTCGTCGGGCTCCCTCTTCGACAATAT
ATATGGGGGTGGGGGGGTCGACCCGTTTTTTTTTTACCAGTATTCATGGC
GGCGCTCTTTCGACTAAAAATAGGGGGGGGGGGGGTCGGTATATTTTTTA
GTGGCGCTCTCGTCGTGCTCCTTCTGCGATAATATATATGGGGGGGGGGT
CGACCCGTTTTTTTTACCAGTATTCATGGCGGCGCTCTCTCTTCGACAAA
AAATAGGGGGGGGGTCGGTATTTTTTTTAGTGGCGCTCTCGTCGTGCTCC
TTCTGCGATAATATATATGGGGGGGGGGGTCGACCCGTTTTTTTTACCAG
TATTCATGGCGGCGCTCTCTCTTCGACAAAAAATAGGGGGGGGGGGGTCG
GTATTTTTTTTAGTGGCGCTCTCGTCGTGCTCCTTCTGCGATAATATATA
TGGGGGGGGGTCGACCCGTTTTTTTCACCAGTATTCATGGCGCTCTCTCT
TCGACAAAAAATAGGGGGGGGGGGGGTCCGATATTTTTTTTAGTGGCGCT
CTCGTCGTGCTTCTCCTGCGATAATACATATGGGGGGGGTCGACCCGTTT
TCTTTTCCGGTAAGTGTGGTGCCGCTCTCTCTTTGACAAATACCGAATCG
TTGTCTTCGGGCGTTGGCTCAGCGCAGTTAAGGTTCAAGCTCCCCCCGTG
GTGCTCCGGGGGCGCTCACAGAGGTTATGATAGTGTGGACAGTACTGAAC
AAGCGCACCCCCCCCCCCCTTCCCGCGCGTGCGCCTTCAACTCTTTCGTC
GCCATCGCCGCGTGTTTGTGTTTTTTTTGTCGTTGGTTCAGACAAACAAG
TACGCCGACTTCTGTGCTGAGACGGCCAACCCCTCCCCCCTCCAGGAGGA
ACGCCACAGGAACAAGAAGTGGAGGAAAGGATGGCAGGAGCTACCCGCGG
AGAAGAACACCGACGGCAAACTAGTGGCAGCCTTCACGCGGCAGCACCTG
TACGGCGTGATGGGTATCGTCATGACGTCCGGGCTCACCCAGCTACGGCG
TCAAACCGACCAATGGGGTACATCGCCGGACCTGGACTTCGTGTGGGTGC
GGCAGTGCATGCCTCGTGATTTGTTTCTGCTGTTCTATTCTCGCTTCTTC
CACATGGCGCCCCCGATAGGCAAAGTCGACAAGAACGACCCGAGTTACGA
CGCCAAGCATCATTGCAGGTACAGTGGGTGTTCTCCGTTTCTTCCAAGTA
TTCACCCCCTCCCCTATCGCCAGAGCAAGTAGTACGTGATGTGGGAATAC
AAGGTGTGACACAAAGACGAGGAAGTAAAGAGATCGTGTAAAAGTGCGAT
AGGGTTAGTGGCCATGCGGCGAGAGTCCCCCCCCCCCTGCGGGCGCACAT
AATTGTCCCAAAAGGCAATCTCGTGATTTTGGTTTTTTTCCAGCTTGAGC
AAGCTCCAGAAAAATCGTGTTCTGTGTTGCTGCCTTGTACCAATGATATT
TATACAAAACAGGCGCAGCTTTGAGACTGAGCGTACCGAATCAAATCGCA
CGCGAACTGTTGGCGTGTCAATAGACGCAAATATCTGACAGCCAAACGTT
GTAAATGCTGCGCACCACCGACACCTCCAGGAAGTTCGAGGAGGCGTTGA
ACCGAAAACCAGCAGGCTCCACAAGCTTGTACAGGTCGGCGAGGACCCAC
GGGGTGTGTTGGTGTGGTATTTGCAGCGATGGGAAGCAAATGGGCCGTAG
CATCTTTGTAAGAAGCTAAGTCCCCCATCGCGCATGAGGTTCAACGCCAA
CCGAACTACACCCCCATCAATTGGGCGGACTGTAGTGGTACTTCCCATAG
ACCGTAGCGAAAGAGTATCCAGATGACACGGCGGTTGGCATGTTGAGATT
CTTGTCTCTCTCCCCTGGAAATAGTCGTTAGAGGGCAGCTGTACGTCTTT
TTGCCGACGCAAACTTGACCATGTCACATACTTGCAGTGAGTTCATGCCA
GAGGTTTGGTGGCGCCGCCTCGGTGTGCACGACATTTGTTTCGTGTGCCT
TTTGGGCAGTTGGACAATGTTTTTTGGTGTTTTGTTTCGAGTTATTTGGT
CCCAAAGGAGGGGCGTTTGATTTTTTTGTGTTCTGCGTGTTTTTGCAGTT
GATAAGGGGAGACTAAACTGATATATGTATTTTTTGTTTGTGTTTTTTTT
TATGGGTGGGGGGACGGGGCAATTGTTATCAAATTTGTGTATTTCTTGCT
GCAGTTGGGGTAGACGTTTTTTCTGCACACCACGGCATGACGGGTGGCGC
AATGGCAGGCGGGTACACTGGCACCGTTTGTAATAACTTGCCTGGGCTCG
ACCGCATGTAGTATATCTCTGTAATACGGCAAGTGAACGTTGTTTTTTAC
TCCGTATTTTTTACATAAAAAAAAGCAATCCGATGATATCATGTCATACA
TCGAAACGGCACAAACTCGGATCGTGCACGACGGCACTCCTTTTTTATTT
TTATTTCTTTAGATGGGTGGGGGGGGGGTCCTATTGTTATCAGGATTTGT
GTGTTTCTTGGTGCAGTTGGGGTGGGGTAAGGGCGGACTGCCGTGCGCGT
TGGACGTTTTTTCTGCACCGCAAAACAGGACTGGTAGCGCCCAGGTAGGC
AGGCTGCTACCGTCGGGTGCACATTGTTTTGAGCTCGACAAAAACAAAAA
ATCAACCTGATTAATATTACACATCGAAACAGCACGAACTCGGGTTGTGC
ACCACGAGACCCCAGGTCGTTGTTTGTGTGTTGCGAATGGGGATGGGTGT
ATGTACTTTTCTTTCAATGTTTTTTAGTAGGTTTATTGCTGACGCGCTCA
CGACAAGGCGCGGTGCCCCCAGTATTGAACACAACGAATGTGGAGAACAC
ACAGCCCATGCCCCCATTTCAAGGGTTGGGAGATAAATAATTTCAGTATC
ACAACGACGCAAACATAACGTCTAGACATTTTTAATTATCAGCTCCGAAC
CACCGCCGGCAACAAAACAAAGCAAATGCCCATAATAGTAAAATGTGCGC
GTCAAAATTATCGCACACAAAATAAAACACCTTCCGCCAATCTACAACTA
CAGGATTGTTTGCCACAACAAATTCCCCCGCAGCCCCCTGCCCACCGACC
AGCGCGCCCACGACTACATGTTGTTCACAAATGATGCCACCGCAGCACCC
TCCGCACCGACCACCGGGCCCGTCAGTGCAGCCTACAGTAAAACACGAAA
ATTGCAGCCTTTTAAGATTCCTTCCATCGGTGTCAGTGTCGACCGCCCAA
CCCCCATGAGCCCCCCTACTGAGCGAATGCGTCAACCACGCACGGCGGCA
TTTCGTCGTGGCCAGGCCAAAGCGCCCGACAAGCCTCCGCAAAGCACGGT
GCTCGAGGCAGCTGCACGCCTGAACCACGGGCGTTCAACGCTACAGCTCC
ATCGAAGCACGCCTGTACATAGGTTCAGCCATAGATACGAAGCAGGACAC
AAAAAGCGGGCGACAAGAGACAATCATACTGTGTACTGAGGTTGTCTGCA
ACAGAAGGAAAATATACCAGGTACTGAGGTCGTACCCACGGCTTGCCAGA
AGCAGCAGCATCACCGACGCGGTTTGATATATGCGCCGCCAGTGAGGTTA
CGAATCAAACAGTGGCGACATTTACGCGGGGAACACGCCTTGCAATCTAC
GTATTTCACACACGTTCAGAGTGAGCACGTGTGTGTTGCATTGAAACGGC
AGAAGCACCGGCGGCCGACCTGAACTGCTACAGGAAAAGCGGTGCAGTAG
CAACAGCAGCAGCAGCAGCAGTACAGCACTGCTGTAGCAGCACTCATGTA
CCACATGTGTCCCATACTAATATATATATGGCGGTGGCAGTCATCTTACA
AGGATGACTGTTTAGTTACCAGAAAAAAAAAATCTACAACACGTTCACGA
AGAGGTGTGACAGAGCAGGAGTGCAACCTAATGGTAGAAACCTTGGACTG
CAGCTACTGCTGCTGTACTCTGGCTACGATATGAAATCACTACGTACAGG
AGTACCTAAAACCTAAAAAGAGAGAGGGAGAAAGAAGAGATATATAAATA
GTCTATGGCCTATAAATATATAGCAGAAGGTACGGAGTATTTTATACTGC
TGTATATATAGCAATTTCGTCGATGAAGCTCTCACCTGGTTTCTCGTTGC
CGGTGGTTGATCCCCATTTCTCGTGCACGTCTTGGGTTTTGACCGCCGCT
ATGATACCGGCGTGGTACACACCGCACAGGCCCGGATGGTTCTTGGCAGC
CACCTTCGTCGTTGCCACACTCATGTCCTCAAAGGGGGTGGGTTCTTCGG
TATGTTGGCAGAAGTGGAGGCCTACCTTGCTCGCTATCTCAAATGCGAGC
GCTCGAGATAGATCGCCCTCCTCCTCGTCGCCAGCCGCTGGGTTTGCTGC
CACAAACTGCACAAACTGTGCATGGCAAGCCTGCGCGTTGCCCCCCACGT
AACCAGCGACGTCCGGCGTGGGTAGCTCGGCCATGGTTTAGAGCTAGCTG
TGTTGTGTTGTAGTTGTTGCGGGTTGGTTTGGGCTTGCCAGCTGTTCGCT
GCAGCTGGGTGAGGCAGGGACGGGGTATGAGCAGGCCCGTAGGGCCTCTC
TCTGCTGTGCCCCTTCTATCCTATTTCCCTATTTAATATAAAAAAATATA
TATGAATTTGTAATACCAGGTTGGGAGCTACTGCTGTGTACTTTTGCTGT
TGAAAAAAATCGGCTATTTTGAATATGTCGGGTTTAGTGGGGTATGGGCT
AGGGGGTAGGTGCCCCAAAAGCGATATTGTAGAGCAGGCGGCATGGTGAT
CGCCGGGTAACCCTTCTAGGCTCTCCATGGGCGTCACCAGCGTGTTGCCA
GGCCTTGCTAGCCGCTGTGGCTGTAGATCTCAGAGGTGCCCGCATGCAAA
TACTCGACAAATATTCTCTTGGGTTCGTGATAGCTGCACATATTTTGTCT
GGTTCTCGGGGGAAATATTCTGGTTCTGATTTGGAACCCGGACTGTTCGT
GTGGACCGGCACAAAAATAGCTAGTCTCAGAAGGGTTAACCCTTCTGGAA
CTTCGGAGGTGATAGATGCATCAAAAAATTTAATCATAATATTTTTTGTT
TTTTATATAAGCCAGTCTCTTCGGGACGGGGACAGAAACAAAAAATTCCC
GAACCCCTCACGTTGGGAGTTGAGCAGCATTCCGGCTGCACTCCGATACG
GGTAAGAGGGCAAACAAACACCGCTCACAGCTGCTGCTGTGTGTGGTCAA
GGGGTGTGAGGGTGCCCAGCAAGACTCAGTCAACATAATAAATCCCCGGC
ATGTCGAAATCTGAAATCATCTCGTCTGACACAGTATAATATACACTTCG
CAGTGTATCATATTTTTCTGGAGTGCAACACTACACCAGCATTATAGCAG
CACTACTACAAATACTGCTACTACTGCCGCTGCTGTACAGCAGTACATCA
CATGCCATATGATACTTCCTCCCTTGTTGGTATGACACAATAAGCAAGAA
GAGTAGTAGTAGAGAGGTAGAGAGTCATACCTCTATGTATGATACATCAT
GGTATCTTATTTATTACTTCGAAAGTATCTTGTTTGGTCAAAACCCAGCG
ACAACAGCAGCAGCAGCATGTATGTAGATATTATGTAGATGCATGCGATT
GGTTGCTAGATTACTACTACTGCGGCTGCTGCTGCTGCTGCTGCTGCTGC
TGCTGTTGCTACTGCTACCAGTACCAATGATGTGCCTACTATGTGCGAGA
AGGAAGGACCGGCCTTCAGGCCGGCCGCAGGCCACGGGGCCCCTGCGCAA
AAGTACGTTTACCAGGCCGGGAGCTACAGCGGGAAACGAGTAACTCCTTA
GCAGTAACTCTTTTTCCTTATTATCTTGTTTTGAGGGGACCGTATACTTT
AAGCGCTATTGATGGTTAGAACACGTTGCACGACGCCTGAGAGCTAGCCG
CGGTATCTCGACCACCGGGTCTCCCTTCTGTACTCTCCAGGGACGTAACC
AGCCCGCTGTGAGCCCCCGTCAGGGGCCCTGGCTGTATATCTTTGTGGTG
CGGTTGTGTACATTTTCTCTTGGTTTCGTGACTGCTGTACATTTGAAAGG
GACATTTGAGCCATTGTATGGTTCTGATTTGGAACCCGGGCTGTTCGTGT
GAAAAGGAACAAAACACCCTGGTCCCACAAGGGTTAAGGCAAGACTATGG
GGGACGCCGGGCATCTTCCCCGTGGGCTCCGTGGTGATATTTTTGGCTCC
ACTGTATTTTTTTTTCCCAACGTATCAAACTTCTAAGGCCCAATCTTATG
GGAGATGGGCAACTGGAATTTCCAGAGCTGAAAAAGCGTTTTCCAAGCCT
GATATTCCAAGTCGGACAATCAGACTGGTGCCAACTTTATGGGAGAATCG
GAAAATCTGGACAGCGATTGGAAATCAGATGGGGTTGCCGGATGGACGGC
AGGCGGTTTGGGCTAACTTCGATAAACTTCTGCTGATGGAACAGAACGGC
AAGCGTAATTGCCAGCACGGTCAGGATCGCACGTAGCTTTGGTACCTGCA
CCTGGCCCGTGTGTTTGTGTGCTCGGTTGTTTGTATTTGTGCTTGTTGTG
TGCTGTGAACCACTGCGGTGTAACTTCGTGACTGCGCGCGCGGCGCGCGC
GCGACGGATCCCAGCTTGAAATCCGAGGTCATTTGGCCTGGAATCCGAGG
GCAGATTCCAGCCGAGTCGCTTGGAATCCGGAGAAATGGAAAATTTTTCT
TATGGGGGTTGTTTTCGGTCAGAATTGGAAAAATTTCCAATTCCGACCGA
AAACAACCCCCACAAGATAGAAATGTTTTCCAGGCCTGAAATTTGGATTC
CAGTTCCTCATGTGAAACCCTTGGATTCCAGTTTTCGGCTCTACCATAAG
AGTGGGCCTAAGTAAAAAGTCCTGGCTAGTGCCCCCCCCTGACTGCTGTA
TACTCCTTATCCACCCTCGCCCATTCAGCCTCAGGGGGCACAAACCTCTA
TAGGTTTTTAGAGATCTCACGGCAGCTTCAACTCCTGTGTGGATCAAAAC
TGTGCCCGACTCCTGTAAATGCCTTGTAGCGCGAGGTCGAGGTGCTCAGA
ATTAATATTTTGAGCACCATCTTGCCACATGGATTTTTGTGCAAAACACT
GCAGAAGCTGTGCTTTACGTACGGACAAAGCAAGCTCGCCACAAGCAACC
ACACTGGTTTTAATTACCACAGTGTGAGTGGCGTCCCATGCCTTGACAGC
AGCAGCAGGCAGTCAGAAATCCTTCTGGAGGTATCCGTGAGAACTGTATC
TGGGTGCCTGCACCCTTCCGAAATTACGCCAAAATGGGAGATCTGCGGGT
GCGTTTGCGCGATGCCACCGTTCTCCGCGTGTGTACCCCCGATTGACAAA
CGGATTTAGCTGGCTTACCGGTTAACCTTCAAGACTTATAACCTATAAAG
GTTTTGATTGGGCATAGTTCCAAAATTCAAAATTCAACCTACGGCCCCAA
AAGCTACTTAACAGACGTATTTTCTGGTAAGATGTGAACCCCCTGCAAAA
AAAGCTGCATTTATAATGCACATCTCTGGCACTATGTTCAGTCATTTGGG
GCCCTGTTTTAAAACGCCACTCCTCTACAACCCCTCTTTTATTTTATACT
GAACACAGCAGTGCTAGCTTAAAGTACATCGTTATCATTCGCCAAGATAC
AACGGCGGCGGAAAACGGTCTCCGGTGCGATTTGGTTTGCAGAAAACATA
GACGTACACAGCCTTGTTATCTGCTCGCTCTCCTGTACGTGGCGTGCGCT
GTCTTGGCTGTATTGTTGGTTCATACCATACCACGAAGTACGAAGCACGA
AGTATTACACATCGTCTGTATGTATGCTCATCATACGACGTAGTATACCA
CCCCCCCCTTCAGGGGCGGTTCTCCAACTCGATATCTCCTAAAACAGGAA
ATAAGATCATCCAATTGCCGAAAAAGCGAATGCATTAAAGGGATGACACA
CACACACATACTGGGGGAAAAAGGCGGTCGAACCCCTCTCGCCATGAAAG
TTATAGTGAAAGCACCGCAGAAGAACGGTGTGGAGAAAATAAAAAATATA
ACAAACTTGGTGGACCTTCCTCGTGTCTGTCGTGACCCCGGCTGATGCGC
CCACATATATATATATACCACCGAAAGGTAAAGACTGGCGTCCAGAAGTG
TTGGTATGACAACCCACGCATAATCGGTTGACCATCCGCCACACATGTGA
ACGCATACATGTACAGCAATATACGTATCCGTTGTTTTTGTGACGCCGGC
TTTGATTACGTCCAACGGCAGAACAGCTACGAGTACTGTAGCTGCTAAAA
TACTACGATGGATTCATTTCTTCAATCAAGTTCCGTTGCTTTATGTATTT
TACACGCCACACACACAACAGACAGAGCACTCACTTTTACGTCTTCTCGT
CATAGAATTCTATGATGTGGGCTGATATACTGCAATGCCGTAATCTCATC
CGTTACTTTTTCGGATGCACATCATGTGCACAGAGCAGTTTGCTGTTCTG
CTGCTGCGGTCTGGGTTGTTGTCTATCAGTACGCCTCCTCGTGTTATTCT
CCCCCCTTCGTTCGAAACAATTTAATTTTTATAGAGCGAACCCCTACCCA
TTAAATCGAAGCCTTCTCCGTGGCACACCGTCAAGAAGCGACGCTTCTTG
CCTTTATCTCTCTGCTCTCTACCCACGTGTGCATGTGCAAGGCGCAGCGA
CGGACGTAGTCCACAACCCAATTTTCACAAACACAACATCACACCGTATC
AAAGGTCGTGTGAGATACCACACCCCCTGCACCGAATTTTAAAGCACGAG
TACGAGCAGGCAGGGTGTGGAGTTTGCGCGAAACTATTTATTATCGAATT
TTACTTTTTTTGAGATCCCCCGAGAGGCCCCGTGACTGTAGCGAAATGAC
GTAGTGATTCCAAATGTCCTCGATTTTGGAATACAAAGGATATTCGAAAA
TGATTTTTGACCTGCCACGCGAGGCGGTGTCGGGCGCTCAATGTGATTAT
TTGTAAAATCAACCCGGCATCACCCGAACAGTGTACGGGATGCCCGTGGC
TTGCGACGAGTGGGCAGCCTCGGGTGGCAAATAAACTACCGAGCGAAGCC
AGGCGTGAGTGCTAGAAAGGAAGCGGTCTGCAGTTAGACCATGGTTGCGA
CTAGACAGCCCAACATCAGAGATGTTACCATCACTCGGCGCTGTCAAACG
GCGAATTTTGCTCGGGGGAGAGCGCGTGCGGATCGGGCTGCAGCTGCGGC
AGGCGATTATGGTGTTTATCGCAGCGGAGAATCATGCAGATGAGGAGAGG
GCGGGCAATAGGAGACATCGTTGCTGCGGCAGTAGTACTTGTGCAACCGC
CGTTGCTTGGCCCTGGTGGATCGCCCCCTGCTTGCCCCATCCCCTTTACC
ATCCCCTCTGAGTTCGCCTTTCCTTCGCCTGATTCGGCACCTTCACCTAC
GACGACAGTCGGGAGACTCATGGTTGGCTCTTCTACAGTGTAGCAGTGGG
TGTGTTGCGTTTGGGTGTGTTAGACTTTACAGCAGCGTGTGGGGGGGGCG
CGTGCGTGATGAGTAGAAAGTCATTTCGTCATCTCAAAATTTTGGGTCCT
CGAAAAACGTTTTTGCGCACAACTCTTATCAAAAATATTCTGAAATGGAA
ATTCGAATCTCCGCGCGATGTTTGTTATATTGAAATCACTCTTGAAATAA
TTTTCGTCAAATAACAACTCGCTTACGCGCATACACCTTGGTGTCGGGTG
CTGTATTGAAAAGTGTGATTGATCGGCGTTGAAATCATGGAACTCACTTG
TCGAGAATTTGAAGAGGCGTTGGCGTTGAAATCTTGGAACGATTGCGTCG
AAAATGAAAGAAGGCGTTGGAATGATGGGACCACCTCGTCGAAAATGAAC
AGAGGCGTTGAAATCATGGAACCGTCTCGTCCAAGACTTTCCGAAAATGT
GTACTGTAAATATATCATTGGATGTTGGCACTCACTTCGTTGTGTAGCAA
TCGCGCTTTCAAAACCGGTCCAGGGGCCCCGCGGAGTGTGCCTTGCGCGA
CTTGCGATAAACAGTATCAGGAACCTTTCAGACAAATAAAGAGAGTACCA
AATCCCAAGAAATAAAAAACCAAGCGCTAAGAAACAGAGGGATAATATTA
GGGGTGATCGGGCCGAATTAAAAAACAGCACAGCAGTGCATCGCTGATGG
TACCCTGACATCGTTGATCTGATCCAGGCGATGATCCGAAACCGGTGCGA
GAATTTTGGCGATGGACTATGCCAAGAGAGCAAAAACATCAAGGTCCTGC
GGGAGTATTTGGCGACCCACGGAGTGCAGTCGGAGTGTCATGCCAGGCCC
GAACGGCCAGAACGACAAAACATCGTTTGTGAGTCAGATACCCAATTGCT
ACGTTATTTCTGCGGCTGCTGCTCTTGCTGCTGCTGCTCATGCTGTCGCT
GCTCGTGCTGTTGCTGCTCGTGCTTTTGTTACTGGTGTTGGTGTCGGTGT
CGGTGTTGGTGTTGATGTTGGTGCTGCCGTTGTAGTCAGTGTTCTTGTTG
TTGGCCTTGCTGGTGTCGCCGTCTTGGTGACGTTGATCGCCATTTTCATT
GTGACCCTCGTGACGCAGCATCTCCCTCTTTCCGTACTGCATGATACCCG
GGTCCAATCCAAAGCGGGCGGCTTTTTCTTCGGCCACTGACCAACACCGA
ACAATCGATACCTACGATACACACGCGCCCTCACACAGGCAGCATCGGCT
CCGGCTCTCCCAGAGTCATGCTGGGGCCGGCGCACGTGGACGTCGTTCCC
GTAACCCCTGACGACGCTTCGCTAGCCCAGGACCGTCAAGTGTACACGGG
TTGGGACGAGGGGCCTTGGTCGGGGGCGGTGACGGATGGTCAGGTGTTTG
GGAGGGGTGCGGTGAGTACGTCAAATCAACAACGGTGTTTTCGCGGCCGG
GCCGGGAGTACTACTGCGCTGTGTGTTTTAATAAAGGACTCCGCAATTCC
CGGCACCAGGAATTTCTTTGGTTCTTATACTTTGGTTCGTCAGAGGTGAA
GGTTAAGACGGCGCTTGTCTTCGTTCGTCAATTTGAGCATATTCGCTTCA
GTGTTTTGTTTCCCTTTCTTGATTATCTCTCGAATTGGATTGAAAACAAC
AGAAAGGCAATACAACGCTCGCTGGCCTGACTGGCTGGATTACCACACCA
CGGGTCCCCTATCAAGCCTTTAGCTACAGAAATCCCGTCCCGCGCTACCT
TGCGTAGGCTGCTAACTTGATGCACTCTTTTCTTGACCGCGTACACTGAG
AACAATGATGAACCCACAACCATACCGTCCATCATCCCCTGATCCCTTGT
TTACAGTGTACCGATAATGCCTTCCGAGTTCTATCCAAACACAATAAACA
ACGGTCGATCTAGACTCCGTATTGATAGACCTGCACTTTTTTTTTGTGTG
TAGTACATGCCTGTGTCATTTTATTTCCACAGGCATATATCACAGGTGTT
GGAATTGCGTTGTATTTTTATGTGAGGTATGTTTTCTGACTCTGCTCGGC
TTCATTTTGCTTCATTTTGCACTCAATTATGTGTTGTTTCGAATGGGACT
TGTTGAAAGTTCCCAGAGCAGTCCTGAGACATCATAAAGACAAAATCAAG
TGGGAAACACCCGTCTGGCGCGCCTAATTTCCTTCTGGCTTTGTTGATGC
TATTGCGTGTTTTCCCGTGTATTTCGCGTTCTCTCTGGTCACCTCTCTAC
TTCTCTGTCCGTACTCTCTCCTGATAATATAGGTGGACATGCTTAACACC
GTAGCGGCAATGGTGGTAGCGTTCGTAAACATCAAGGAAAGCGGTAAGTC
TTGATAACACTCTAAAATTAAGTAAATCGTCAAGTATATACTTGTATTCC
AGGTGTATGTATCCGCGTGCCGATAAATATATCAAGTAACGTCGCCACCG
AAGAGTGATTGTAGTCCTTCAGTCAGGGGCGGTATGCTTGTCCTTGTTGA
TGCTGATGTTGGTGCTGCTGTGGTCTGCGTAATCGTGAAGTACTTGAAAC
CCTCGATGCAGTGCCGCTCCCTCATCTTTGCTTATTGATCCGACCACCAA
CAGGCGACTTCGCCTGCTACAACCTTTTACAAATTCCACGGTATGAGATG
CATCATAAAAAAAATGTCAACATCCCGGGACAACTTTATTTTTCCTCAAG
TGCGAATTTCATTGATACTGGTATGAATAAACACTGCACATATTCTTTTG
TATGGTCTTGAGTCATGGCATTCTACTCTATCGTATGGTACATCATGTTT
TCCGGGCTGAGATCTGTGCGAGCTCGAAGTGATACCAATGTACCGGAGTA
CTATTGATCGGTGTCTTAGCACATCACCCAGGCTGACGAGTCTTTTATTG
TTTTTTTGAATGGATGGAACGCCATAGCTGGGCGGTCTGTATGTTGTGTC
AAAGCCGGTTTCGCGGCAGAACGCGCGACGACGCTGGATTTTACTACAGC
AAATAATACGCCACCCACGTCGTGTGAAACCCCTCTCTTCTGTGTTTACT
CGTATTAAAATGTAAAAAATCCCCATGCATTTTGTTTTTTGCTTGTTTGA
GCAGGAGTGAAGCTGAAAGGGACGCTGCTGTTCTGTGCTGTAAGCGACGA
GGAGGCTGGGGGGGAGGATGGAGCAAAGTAAGAATCGGACGGACGGCGGA
ACGGGGTAACCCTATACTACTGTAGTACCAGTTCTGTACTCATTATTTGG
TTGCCGTATAGCCTTAGCCTTTGGACTACTGCCTACGCATCCTAGTTTAT
TGCACCAGCATTTGGGTGCTCTCGACGTTATTGCCATGTCGGGGGGAGGG
GGGTACATATTTGTTGTCGGCGTTTTCCTTTACGAGTGACATTGTAGCTT
TCCCGGCTACGCTGAACGTATGTCCGATCCGGGATCGGTGACATGGAATA
TCCAATGGATCCAATCCACTGTCAGCCACACGGAAGAATATCCGACATCG
CTATAATCTACGGTATGGGCCGATCTCCGAATGTATCCGATTCGCGGTTG
GTTTCATACGAATTTCCGCTACATGGAAGGATCTCTGATATAGCCGATCC
GCGGTCGGTCACACACAATGTAATCTACGAAATCTCCGACATATTTGATC
CGGGGCCTGCAACAGGAAAGGAGCGGAAAGGCTATGTGTAGGGGTAAATC
CTTAGACAAATACTCCGAGCATACTACAACAAACAACCTTTACGCAGGCA
ACCCTTACGCAAACAATCAATGTGTGCACAGCCCTTTCCATGTTGGAAAA
CTCGATCCAATCGACAATGCTGGTAAACGATATTCTGCAGGTTCATCCTG
AGCGATCCCGGGCTGAAAAAGCTGTTCAACGCCGATTACTGCGTGACTGA
ACTGGGCGGGGCATCAATACCCGACTTCAAGCTTCGACCCACGCTATCTT
TCTTTCAGAGCACGGCTGAAAAAGGTAACACGAAGTACTTTTATCTCCCG
TCATGTTGTGGGACCGGTCTTCATCGCATCTCGGTTGAAACAGCTTTGTC
AATTTTACGTCAAAATTCCTCAAGGAGAATAAGACAGCAGGTTAGAGTGG
CGCAGATAATTACCTATAGTTTCGGGCGGAAGCAACAACCATAGACAAGC
CTTCACAAATAAGGTTATAGCCGTTGAAAAACGTTTGACAGCTCGTGAAA
GGACCAGGGTATTTGACAGTGATATCATCGGCCGGCAACCAAAAGGAAAC
GTGTTTACGTTTTTCTGTCGTTCGCCTATGGCGTCTTTGCTCTTTTGCCC
AGACCGTTGCACCCAGCTTTGATTTTCAAGCCATGCTTGAAGCTTTTGTT
TCAGGAAACTGCTGAAAGCGCTTGTTCCCTTTTCTTGGTAGTTTGGCTCT
AAGAAGACCTCTCTCTTCTCTCTCTCTCTCTCTCTCTCCCTCTCACACGT
TATGGGGTTCCCTCTTATCTTGCCGACTTCAAACTTCAAACGATATTTGC
GTTTTGTATTGTGTCCCTCGATCCACCCCAAGATGTTCATAGCTTGCTAT
TGGCGTTGATGCTGATGATACTCGAAAGGAGTAAATAGTCGTAACTCTGC
TGATGCCGGTGCTGGTGCTGGTGCTGCTGATGATCGTGGACCCAATGTTA
GTTTTCAAAGTTTAAAATCTTGCCCTGTGATGTTTGCAGGCACAACGAAG
GTCGAGATAACGCTGAGGGGCAGGCCGGGGCACGGGTCAGTTCCCAGAGC
AGCGGACAACGCCCTCGTGAGGGCCGCCGAGGTGGTAGCGAGGGTGCAGG
CATACGACGCACCCTCTGTAGTCACACCAGGTGAGCTGTAACCACTCTAG
AAAATATCAAGAGAGGTATTGTTGTTGTTGTTGTTGTTGTTGCTGCTGGC
TGTTCCCATTTTTGCCAGCAAGTTTGCTTACCAGCAAGTTTGTTTTGCTG
CGATACGATGAAACGACGGTGCCGTCATTTGTTTTTGGTATTGTGGCATT
TCGGTATTGTTGTAGCAACGGGATGGTGGCATTGCTCTCTAGCGTTATTG
CTGCCGTTGTGACAGCATAATGTTCAGGCTGACACCTGCCGTTTCATCTC
CCTGCAGCAGAATGATTGTTGCGTGGTTCTTCCATTTTGAGGGGGGTGGT
GCAACACGTAGGCGGCACCCAATTCCCTACTCGCATTTGTGCTGTTGAAA
GCGTGAAAGCCAACTGCTAGTTTATCCTTGTGCTGTGTAAATTGGCATGG
ACAGTTTCCTCTATGGTGTTGTTGTGGTTTCGGCTTCTATTCAGTAACTC
CGTGTCTGAAGGAAACCTTACCAGTCACAGACATATAACGCTTTTTGTGC
TACGGCTCGTCATGCTTTAAATGCAGTGATGTGTCCTCTCTCCCCTGGCC
TCAACGCGAAACGACTTTTTTTGGGTGGGGCATGGCAATGTAGGCTTTCA
TGCTTTCGGTCCAAGCAATTTATTCCCAGAAACCCCACATGTTCAAAAAA
CATTATTGTTGTCGCACCCTCCCCTCCCCCCAAAATAACAGATTACGCGT
TTTACTGCGTTTGACTTGTCCGTGCGCTACCGCACACGCATACTGTTACA
AACACCGAACACAAGAATGGCGAGCCTTTGTGGAGGCCCTGCAGCTACCG
AGCCCTCTAGGGCGGCTGCTGACCTTCCCGCCGCTGCTACCGCTGGTCCT
GGAGCGCCTGCTCAAGGCCGGCAGTCCCGTCGGGCCGGTGGGACACGCCT
TAACCCGACTCACCATGTCTCCGAACGCTCTTGTCGGCGCCTCCAAGGAC
AACGTGGTCCCGGGCGTTTGCACGGTGAGCAGTGTTTGCATGTTACTTAC
GTAGACCTGTTCGACGAAGTAGCCAAGAACTATTCACGCAAACGAGCGGG
TACGCCATTCGGTGCAGCTCCTTGGTGTGTGATGTGTGTGTGTGTGTGTG
GATGTATGTGTGTGCTGCGTAGGCACTTATCCGGGGTTGATCAATGCGAG
CCCCCAACCATCTCCCCCATACTTCAGAGAGACTTTCCACGCTCAGTGCA
AATTACTACGTAGGAATGTGTCTCGACATTGCCGACATGGCGGTTGCGAA
GGTGATTTCTTACCCACTTAAGTGTGTAGCACGTATCTCGAGAGATGCCT
CCGCCAGAGACATGACTCAGGGCGATGCGTGAAGTTCCTTGCAGAGAGAA
CTCCATACTGCCCGGTCCCTTTTTTTTTTCGGCGTCGTTGCGAGAGTACA
GCACAATAGTTGTCCCCCGAAACGTCTTTAGCCAGGGGGAGGGAAGAGAA
ATTGCTTGCAGTGACGCGAACGTCGGAGTACCATCAACATAGCATTTCGG
CAACCAACCAAGAGGAAGAATGCGATGTTGTGAGGAAGGGAGGGCACGCG
TACGAATTTAATGCTTGCCTTCACTATTGCGTGTCAAAAAAAAAACAAAC
GTGAATAGTGGAAGGTGGAACTCAGAATACTTCTCTGATTGGTCGACCAC
AGGATAAAAAATTCCTCGAAAGGGTTTCGGCCACGAAAGTTCCTCGCTTT
GGTGTTCCCGCCGAACAAATAATTTTTAGAAACGCGTTGCTTAATTTTTC
CAAAAGTGCATGTGAAACGGGCTGCTTGTAAGAAAGGACACACAGCCTGT
CCCTCTCTTTGATCAGACCTCATATGATAGCGCGCGCACACAGACGTATT
CACACACAGCTCTTTCCTGAACACCAACATCAACCCCGCCTAGCACCACG
CGCCACGCGCCGTATCAGGAGCCCACTCTGACGAATGACGTCACCGCGCA
GCAGTAGCGCAGCAGAAAATCACTATTTTCTCCCTTGCTTGTATTCACAA
GCTTTCCACCTCCTCCATTTTGTCCATCCGCTTTTTTTCAAGCGAGCCCG
GACGACTGCGGCCGGCCGAAAGGTAGCCATCTACTATGATACGATGTGCT
GCGCTGTGCTGCGCTATGTGTGTTTGTTCTGATGTGTGTGCGAGAGATGG
ATGTACGTGTGTGTTTGGTGTTCAAAGGAAGCATGTCATGATGACAACTC
GACGGCCATACATGTACTACAGCAGCGGCTACTGCTTTCCCGCGGGCTTT
TCGCCTGAAATCAGGCTGTATATTCGCAGTTTTTTTGGATGTTTACTCGC
TGTCGAGACGAGATGACATGGAACAGGGAACGGGAAATTCTTCTCAGTTC
CATACTCCATGTTCCCTGTATCAAATTTTTGTGAAGACAGGCCCTTAGTC
GGTTGACCATTGACCACGCACCCCTTTCGAGACAGATGTAGGGGTGGGGA
CAGAAAAGTCGACAAAAAGGGGGGGAGGGGGGGGGACGCTTTCATGTTGT
TGCTTGCCTTTGTCATTAGATATTGACCGCGCATCTCTTTCGAGACAGAT
ATAGGGGGGAGGTGAGGAGAAAAGCCGACAGGGCGGGGGGGGGGGGGTAC
TCAATTCGTTGCGTACCTGTTTAATTTGACTCTTGACCGCGCATCCCTTT
CGAGACGGAGCACAGGAAGGGGGAAATACTTCATCGTAACACATGTATGA
TAGACTGACTTTTGCATTTTATGGTTTTTCTGAACAAGAGCACAAAAAGG
CTCTCGGTACTTCCCTCGTTTTCCTGCACGAGGTGCTACATTTACTCGAG
TTTTATTCTGATGTCTACTTCATGTCGTCGGCGTGCCCAGAGGCGAGGCA
ATCACTAGCATGCCCTTCGAAAGATGCGAACAGCAGTCTGTATATTTTAC
ATTTGAAATCAGGCTAAACAACGAGGTTTCGTCCCCCCTTTCCGAAACAC
CAGTAGTTGGTTGGCTTTTCCGTTCGCCGAGCACAGCATTTCCTCGAAAA
CAAGACCAGGATATGTTTGTTTCGTATCACTTTGTTCACGATGTCTATGG
AATTGAACTCGATGAAGGGTAAACTGCCAAGAATGTCTGTCGAGGGCGGG
TTCCGCTTTTGAAATGTCCCCGCATTTGTTTTATTAAGCACACGTATAGA
AATATTTTCACACCTGCTCGACCAGATACCTATCGCTTATTGATCATATG
ATCCATAAACGAAGTATTTTTAAACTTGGGTCATACAGAGTGTTGTATTT
CATTGTTTTTTTCTACAGGTTATCGTGGATTGCCGAACCCTTCCAGGCCA
AGGGGAAGAGTACGTCCTGGAGCATGTGCGGAGGGCACTAGGGTCCTACA
CCAGTGAAGACGACGAGCACTGCAGCATTCGAGTGACGTGAGCTATCACA
CAATCATACCAGCCAAGATGGGCAAGAGATTGATTTAGCTCAGTAAAATT
TACATTTCCGAATATTGTGTAGACACCGCCGTATTTTTTTTGCGAACGCA
AATGAAAAACATTGCCCCAATGGTGCCCCCCCCCCCCCACCCCTCCCGTT
TTTTCACTCGCCCCGGAAGGCGTTTAGGTGATAGGCTCCCAACAAATAAC
CAGATCCCGCGGCGGCGAGTTGTTCCCCCATTTCATTGATCCAATGACGC
GTAATACGTAGTAGCGGCATTGGATGACGTTACGTAGCAATAATAGCAAC
AGTTTTGATTTTAGTGTGACGAAATTGTGTCATTTTCGGATTACCATGGT
GAGTGCAACAGCAAGGGCAAGTTGTAAATTTCACACGCCTAGCGGGAGAT
AGACAACGCCGTGTCAATAAATTTTACCCGCGGTATGTAACAGGCTCGTA
TACAGTGACTAGTGAAGTAGTATCAACAATGACGAGTCACACCAATAGCG
AAATCAATACACGAAGGGCAGGTTTCACATCAACATATCACACAACGGTG
CTGTAAATCAATAAAACTAAATGTGCAGGTTTCACATGCCAGCGTCAAGG
TCGGAGCCAGACACACCTCTATGGCAAGCGATGGCAAAGGCAGCTTCGGC
AATCATCCCGGGCGCCTTGCTGGTGCGATTCTTTTGCTTGATCAATTCAC
CTTGGCGATAGTGCCTGCCTGGGTGACCTAAGTGCGAGCAAGCTTCTTTG
TATTGTTTGGGGGATTTCTGTACGTACCTACGAGATCGTTTGTAGCGGGT
ATTGAGTGTACTGCGTCAAAACCCAAAGTGCGATGTCAAATGTTCATTTT
TATTCTGTATTCCTTTTTGCGCCTCTGCTCGTCAACTTTTGTCAGATAAA
CGGATTTTTCTTGTGCAGTATTGGAGTTCCTGCAACTTTCAAAAAGGATT
CCTTGTGATTTTGAAGCAAATCTGATCCGGCACCGTTTCCTTTTTTCGTG
CGTGCTACGGGTGGCGACAGGTTCCCCCGTCACGCCACACTTGGGTATAC
ATGTGCACGAAAACCTCGACAGCAGAAACTGGCTGCAGACAATGCCTAGG
CGTATCCAAACGAGAACTACTTTTAACTCACAAATTTTCGTTACACTTGG
GGCATTTATTTAAATATTTAACTTAACACCTGAAATGTTCCGGATTGCAG
ACAGTGCCGCGAAGTATACGGAGGGGTTCTTATAGCAATTTTTCCGGTTG
ACTGAGTGATTGCTCTTAAGAGTAGGGAGAAACATACTTTTATCTTCTTT
CTTCCCCCGGTGAAGTCCTGTCCGTAGATTGATTGTCCGAAAAGTCCGCG
GTCGGCCAGTGGCGTTGTCCAGGGCCGGTCGTGCCATGATCTCTTGGATG
CTTTGGAATGTTTACTGCGAATAAAACCTTTTGTTTTCACCACGGGCATG
TGCATTTTCGTCTCCTCGTTTCTATCTGCGGGTGCCCTGATGCTGCTGTC
TGTGCCAATACCCCCCCCCTTCCCCCATTTTTTTTAATTTTAGCTTACTT
GCGGCTTCCTCATGTCTGTATGCAGGTGCCCGTCATGCTGCCGGGAGGAA
CGGACTGCAGATACTACCGCGGGTTGGGAGGAGCCGTCGCCTACGGTGCC
AACCTTCTCGAGCCTTCCCTTACATTCGGGTGGGTTTTGTCATGCCTGGA
CTGTTTTCATTTGAGGAGTTCGTGTGCGCTTGTATCAGCCTATCGTATCT
TGTCCGTACAGACATGGCTCACGTTTTTTTTTTTTGTTCCGGCTGTTTTT
TGTAGTTGCTGTGGCAGTATGATGCATACATGTATATCAAACGGAGGTGT
TGTTCGGGCTATATATATCACGATGGCTGCCTCTTTCTCCGTGGGTGCAA
CTATATTCACGGGGGTCATGCTACATTTCGATCCTATTGCCCGCTCCTCA
GCCAACGGACTGGTTCACTATTCAAGGAGCCAAACTCATTTTCTGGACTA
AGCGGAGGAAGGAGGTTGAGAACTGCTTTGTGAAACACCCCCCCCCCAAG
AACACTAGGAGTACCTCGTTCCACCCGGCCCCTGGCATCAACGCGCCCCC
GATGGCAGCGCACCGCGCGCGGTCTGTGCGGTCGCAGATTCATCGCTGCT
GTTGTGCAAGCTTTACATGGGCTCATAACAGGATTTACATGCGTTCCTGC
ATCCCTCTGCTGTTATTTTTAGGTACGTAGCAGTTACCTAGATGTATTTC
TATTTTCAACTAGTGGCGTGAATGACCAACACCTGCTAATTTTGACCGCT
CTGTTTTGTTTTTTTTTCAAGTGATTTGACGAAGCGATTCCACGGGCAAA
ACGAGCGCATCGGACTGCGATCACTGTGGACCAGCGTGCAGTTCTATACT
CTGGTGAGTGTGTACCCCCTTGTTTAAATACTACCACTTCTTATACAAAC
CCTCTACAGCTGTACTCTGGTGCTTACACTACCCCTACTATGAATATTTC
CAGTTTTTTATTGACATACACTCGTTCCAGTACTACTGTACAGCAGTTCA
GTATTTCCAGTACTGCTGTACAGCAGTACAGTCTTGTCCAGAAGATATTT
CACATACATTTATTTCAGCAAGTCCCGAGTATCAGGTGAAATGTGCACCG
CGAGATATGGTACAACCGCCTGGGTTTTGCTTTAGAAGCCTCACCCCTCT
AGATATATGTGCTCATCGTAATATTTCGATGGGCGGAAGGAATGTGCGCG
TTTTGCCCTTCGAATGTCATAGAGATACGAGCTCCAAGTCAATGTCATCA
GCACAAGTAGGCGACCCTCCGTTGCTTCCCTGGCTCCTCTCTTCCCTACA
ACGTCTACGAATTCGAACGGCGCCACCACTGACGAACTTTGGGGTGAAGA
TCTTGAGCCTCAAAGTTTCAAAATACGAGGCCCCGAGCACGAGAAGTGAC
CCCTGGGTACGCACCCGACGCTAAAATCTACGGTTATTCATCAAAGTAGC
TGTTGGCAGTCCACGGAGGAAACAAGAACCCGAGCTCCTGACAGCACGCC
AAATAAAAGGTTCTTGAAGTGGTGACCTCTAATTGTTTTTTCGTAATTCA
AAACCCCAACAGAAAGGATGTGGCTTTTTTGTATGTACTGCCTGTACTCC
AGAATTATACCCGGCTGTGCAATGGGCTTGTTACACACCAGGTAAACAGC
TTACGCAGCGTGGGAAACGATACGGGGAATGTTGTATTGTAGAAGAAGGA
ATCCAGAACCAACTTCTTGAGAAAACTGAGAAACGCTAGCAAGGAAGGAC
CGAGTTCAGCGCAGGAGACACCGCAGTTGCCAAGACAAGACGCGCCGCAG
GCAGGCCAGGCAGTGAGCGGCGCTCTTGTTGTGTCCTTTTTGCTGTTGGT
TCTCATGGTGCGTCCTCTTTCCTGTAGAGCACACAGAAAACATAGGGCGA
AGAAAAATACAGAAATAATATCGTGCTTCCCTCCCTTGAAAGCGTGTGTG
CAGTTTCGAAACGAAAAAACGTCCGTGTGGACCTGCCTCTTAAACAGCGG
CAGCTTGTTTTCGAAGCCTCGAAATCGGGTTGCAAACAATGCGATAGCTG
ATATGATACCAATAACAACAACACGTTCATTCATGCTCACGGTAAACGCT
TGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTACGTTTTTTGTGATTC
CGTCTCTCTTTGTCCACGCTAAAGCGGCGTGTCAGCTTTTTCTCACGTTG
GTCGAAAGGAAAAAATATATGGAGTACCAGGTATTCCAATTTCTCCGAGA
GACATGCGTGCCAGGGTTTCGTTATCGTTTCTCTAGCGTTTGTTTCAGTA
TTTCCTCACGATGGTCGCAAAATAAAACACCCATTCCAACTCGACCTTCT
CGAGACATGCAGTATATGCATACCAAATGAGGCTTGACCTAAAAAAACAG
TATTTCGAGACAAAACACGCCTGTTATTTGTATGAAATCCCGCACTACTA
CAAATGAAAAACCCGGCCTGGTGATATAAAATTTCGTCTTCTCCTAATTA
TACCGTGTTGCTGCATGGAAGACCTGTGACTAAAAAACATGTGTTTACGG
TATCACCTTGCTTGAATCTAAAATGTACTTCGTATGTAGGAGACACCCTC
TCCGGCCCCCTCCCCACATGATGTACTCATACTTCGAGTATATATTGCTG
TGATGATCGTTCGGTCTGGAACCAAGCTCACCTGCCACCGATGATCTTGG
GTGAATGGCGAGAGAGAATGGAAAAAAAAAATGTCTGCCTTCTGAGTGGC
GATGACGATAAAAGATGCTACGAAGTATATCATACATATTTTGGACGGAT
ATAAAAAAAATGTCATGGTTGCCGAAGATACGGCGAGTATTTTTGGAGTC
ATGTTTTGTTTGCCGTATCTTATTTCTTGCCGAAGATACGGCGTGTAACG
TGCGCGCCTTCGAGGAGAACACACACCACACCCACCCCTCCCCCCGCCCC
ACTACTCACAACTTCATATCTATCTCCACCTCAATCTACTCTGCACAAAC
AACAACGACCCGGACTTCTACACATCATCAACAAACAAGCTGCCGTCCAA
TCAAGCAGCGCAGACGACATATCTTCTCTCTTCCGTACTTGTTGGACAGC
GAGCAAACTCTCGATTCGGCACTGAGAGAGGGAGAAAGGGAGAGAGAGGG
TGAACATGTCCAGAGGAATCTTATTCCCTCAGAGTCTCCCTTTACAATAA
GTAGTCTCAGAAAAAACGAGCACAAAAAAAGCCGGTGAAAATGGTCCATC
ATCTTTCGGCTAACTTGGCCCTCATGTCACTGCCCATAAGCCGCTACTGC
TGCTGCTGCTGCTGCTGTGCCCTTCTTCCCGTGTATCTGTCCAAAACCTT
AAAGCCCTCTGCGGTGGAGAGCGCCCCCCACTACCCGTAACCAGAAAGAA
TCCTTGAGAGAGCATCAAGGTTCATGTTTCATTTTGCTCGTCCTCTTCTC
AAAGATCGGGATCGATGGGGTCCATCCGTCGTCCTTCATATTTGGATTCT
AGCAAAAAAAAAATGAGACAGGAGTTCCACAGTGCAATATTGGCAGGCCT
TTCAAAACACAAAAAGCCTTCCAGCCTCGAAATCTCTCCTCTACACTTGT
TCACACATATACAAATATATCTTTATATGACATATTCATTCCTCCGGCAT
TTGTGTCGGTCATTTTCTGACGGTGGTCGAAAAAACAAACTATTCCGATT
CGATTTTTCTCGAGACACATGTATCTGTCGGTGTTATATTCATTTTGTTG
GCGTTTGGAGCATGCACGAGTTTCGGAAATATGGTCGGTATGCTGACATT
GATCGGTCGCCTTATTTTGCTTTCAGAGACACTTTCGTGATAACATTTTT
TTTGTCGTCATCGTTTGTGCTTGCAGATGGTGAAGAATCTCATGATCGAG
GAGTGAACAGTCCTAGGGGCTTGCGACCGGGGGTTTGTGTTGTTTTTGTC
AATCACTTGTTGCCTGAACGTCGAGTTCGTCACGGTACAGTACGGGATTT
GCAGACTTTTCTAGCGGAGGAGTTTTTGCGGGCCGGGACACGGGAGAATG
ACGGGGACGAAACCGTTTCCAGGACAAGACGAGTTGCGATCGCACTACAG
CCGAAATCATCATCCTGGCTGTCACGGTGTGTGTATTGTGGCGCGCATTC
GTGCTGCTGCGAGCCCGCATGGATGACGTGATTGTCCAGGGTTGGGATCG
TGAAGGTACATAGTAACGCGGTGCCGGCTACCGACTAGCCACCAAAGTGG
TCGATACAGCAGGATTTGGGTGGCGAGGCCATTGCGACGCAGATGGGCTG
TACTTGCCCTATGCACAGCGAGCGGCAGGACACAAACGGCGGCGGTTGCA
CAGTCGACTCCGGAGACTATGCTGAATCCATCTCGAGGGGGGTTGAGTGC
GTAGGGACCCTGACAAATGTTGTAAAATGGGCCACATGACGACATGAAGG
GGTGCTCGTCGCGAGCGATCAGCGCGCGGGTAATACTGGTTAACCACAGA
GCAACGAGTGTGCCACAAGCGCTTGTTTCCACCGGGCGCTAGAGTGTGGA
ATCAGGATCGTTGCGTGTTTAGTGCGGTAGTATCATATTTCCGCGCAGTC
TTTCATCTACAGTAGCAACAGTAAACCGACAACCGCAGTTATATTTGACG
TAGACGTCCTCAGCTGTGTCGTTCTTCTCACATCGCGGTTGGTATTACCT
CGTCGTTCGCGTCGATACCCCGGTGTGGGGTCGCGGGAAGGAGCTGGTGC
ACACCTGCCATCCCGCTTGCGATATTGAATACGAATGTTGTGACATACAG
GTAGGTACACTGTATATCGGGGGGTTTTGCTGTTTTTTATACGGTAATAT
ACCATGGTATCATACACCGGAATGCGCAGATTGTATTTTCTTCAATTTTG
TGTGTATATACAGACTCTTCGTCTCCGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig689:101136..128513-

>mRNA_P-littoralis_Contig689.26.4 ID=mRNA_P-littoralis_Contig689.26.4|Name=mRNA_P-littoralis_Contig689.26.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1473bp|location=Sequence derived from alignment at P-littoralis_Contig689:101136..128513- (Pylaiella littoralis U1_48)
ATGGAAGTTGAATATGGGGACATCACAAGTGAGGAGGCTCTGACGTTTTC
CCTCCCGAACCCTGCCAAAGCAAGGGAGGACACCCTCACCCTCCTGCAGG
CGATGATCCGAAACCGGTGCGAGAATTTTGGCGATGGACTATGCCAAGAG
AGCAAAAACATCAAGGTCCTGCGGGAGTATTTGGCGACCCACGGAGTGCA
GTCGGAGTGTCATGCCAGGCCCGAACGGCCAGAACGACAAAACATCGTTT
GCAGCATCGGCTCCGGCTCTCCCAGAGTCATGCTGGGGCCGGCGCACGTG
GACGTCGTTCCCGTAACCCCTGACGACGCTTCGCTAGCCCAGGACCGTCA
AGTGTACACGGGTTGGGACGAGGGGCCTTGGTCGGGGGCGGTGACGGATG
GTCAGGTGTTTGGGAGGGGTGCGGTGGACATGCTTAACACCGTAGCGGCA
ATGGTGGTAGCGTTCGTAAACATCAAGGAAAGCGCAGGAGTGAAGCTGAA
AGGGACGCTGCTGTTCTGTGCTGTAAGCGACGAGGAGGCTGGGGGGGAGG
ATGGAGCAAAGTTCATCCTGAGCGATCCCGGGCTGAAAAAGCTGTTCAAC
GCCGATTACTGCGTGACTGAACTGGGCGGGGCATCAATACCCGACTTCAA
GCTTCGACCCACGCTATCTTTCTTTCAGAGCACGGCTGAAAAAGGCACAA
CGAAGGTCGAGATAACGCTGAGGGGCAGGCCGGGGCACGGGTCAGTTCCC
AGAGCAGCGGACAACGCCCTCGTGAGGGCCGCCGAGGTGGTAGCGAGGGT
GCAGGCATACGACGCACCCTCTGTAGTCACACCAGAATGGCGAGCCTTTG
TGGAGGCCCTGCAGCTACCGAGCCCTCTAGGGCGGCTGCTGACCTTCCCG
CCGCTGCTACCGCTGGTCCTGGAGCGCCTGCTCAAGGCCGGCAGTCCCGT
CGGGCCGGTGGGACACGCCTTAACCCGACTCACCATGTCTCCGAACGCTC
TTGTCGGCGCCTCCAAGGACAACGTGGTCCCGGGCGTTTGCACGGTTATC
GTGGATTGCCGAACCCTTCCAGGCCAAGGGGAAGAGTACGTCCTGGAGCA
TGTGCGGAGGGCACTAGGGTCCTACACCAGTGAAGACGACGAGCACTGCA
GCATTCGAGTGACGTTTCACATGCCAGCGTCAAGGTCGGAGCCAGACACA
CCTCTATGGCAAGCGATGGCAAAGGCAGCTTCGGCAATCATCCCGGGCGC
CTTGCTGGTGCCCGTCATGCTGCCGGGAGGAACGGACTGCAGATACTACC
GCGGGTTGGGAGGAGCCGTCGCCTACGGTGCCAACCTTCTCGAGCCTTCC
CTTACATTCGGTGATTTGACGAAGCGATTCCACGGGCAAAACGAGCGCAT
CGGACTGCGATCACTGTGGACCAGCGTGCAGTTCTATACTCTGATGGTGA
AGAATCTCATGATCGAGGAGTGA
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