mRNA_P-littoralis_Contig67.92.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig67.92.1
Unique Name	mRNA_P-littoralis_Contig67.92.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: D7FKR6_ECTSI (Sterol-4-alpha-carboxylate 3-dehydrogenase, decarboxylating n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FKR6_ECTSI)

HSP 1 Score: 657 bits (1694), Expect = 1.210e-237
Identity = 312/347 (89.91%), Postives = 331/347 (95.39%), Query Frame = 1

Query:    1 MGVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHKAKH 1041
            MGVEG VC+VTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIP+DV+KACEGADCVWH+AALVGPFHAK+AYMAVN+QG+LNVLEACRKH VGK+IMSSSPSTRFDG+DIDGLKED+LE PKKFLQLYAESKA GE AVLEACSD LLT+AIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALY+GSPALG FYIVTDGGWQYFWRVID AGMAMGF+SLF K KLP  LMV VGY+CA IGW+LGR LRVNPFTVKMLIIHRWFDISAAERDLKY+PIVTFEEGF+KT++WLKEDWLPT KAKH
Sbjct:    1 MGVEGAVCMVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPDDVDKACEGADCVWHVAALVGPFHAKEAYMAVNYQGSLNVLEACRKHGVGKLIMSSSPSTRFDGNDIDGLKEDELEYPKKFLQLYAESKAKGEVAVLEACSDSLLTVAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYQGSPALGNFYIVTDGGWQYFWRVIDGAGMAMGFKSLFDKMKLPTLLMVPVGYVCAGIGWILGRKLRVNPFTVKMLIIHRWFDISAAERDLKYKPIVTFEEGFSKTIAWLKEDWLPTFKAKH 347

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S3Y444_HETAK (Hypothetical protein n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3Y444_HETAK)

HSP 1 Score: 500 bits (1287), Expect = 1.260e-175
Identity = 235/340 (69.12%), Postives = 278/340 (81.76%), Query Frame = 1

Query:    4 GVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLP 1023
            GV+G   VVTGGSG  G+RLVEML E+GA RVVSFDIAPKP DA++H AIEY QG+LT P+ VNK C+GADCVWHIAALVGPFH K+AY+ VN+ GT+N++ ACR H V K++ SSSPSTRFDGSDIDGLKE  +  PKKFL+LYAE+KAMGE+AV EACS +L T+AIAPHQ+YGPRD LF+P+LLEA G G+LRVFG G+NKVSF ++DNY HGLILGYDALY+ SPAL KFYIVTDG  Q FWRV+D+AG AMGF SLF K  LP  L++ V YI   +GW+LGR  +VNPFTVKML IHRWF+I AA +DL Y PIVTFE G+A T+ W +E+WLP
Sbjct:    7 GVKGITAVVTGGSGFVGQRLVEMLVERGAKRVVSFDIAPKPLDALDHRAIEYVQGDLTNPDVVNKICKGADCVWHIAALVGPFHKKEAYVKVNYDGTINIINACRAHGVKKLVYSSSPSTRFDGSDIDGLKESQMSYPKKFLELYAETKAMGERAVFEACSPELRTVAIAPHQVYGPRDTLFLPNLLEAIGNGKLRVFGRGENKVSFCHVDNYAHGLILGYDALYEHSPALAKFYIVTDGPPQKFWRVLDAAGQAMGFTSLFRKFHLPVFLLMGVAYILELLGWMLGRRFKVNPFTVKMLTIHRWFNIEAARQDLGYEPIVTFENGWADTMHWFRENWLP 346

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S2UZ88_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UZ88_9STRA)

HSP 1 Score: 464 bits (1195), Expect = 1.200e-161
Identity = 215/348 (61.78%), Postives = 281/348 (80.75%), Query Frame = 1

Query:    1 MGVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGAD----CVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHK 1032
            MGV+G  CVVTGG+G  G+RLVEML E+GAA VVSFD+ PKP DA+E   I Y QG+++   DVN A + A     CVWHIAALVGP+H KDAYMAVN++GTLNV++ACR+  VG+++MSSSPSTRFDG+DI+GL  +DL+IP KF+Q+YAE+KAMGEKA  +AC D L+T+AIAPHQ+YGPRD+LF+ +LL   G G+LR+FG+GKN VSF ++DNYCHGLILGYDAL+KGSPALG+FYIVTDG  Q FW+VID AG+AMGF+SL++K  LP  L++ + +IC  +G +L R  ++ PF+VKML IHR+FDI AA++DLKY P++ F++G+ +T+ W K++WLP  K
Sbjct:    1 MGVQGINCVVTGGTGFVGQRLVEMLVERGAAHVVSFDVRPKPEDALESKKITYVQGDISKASDVNDAVKAAGTTIHCVWHIAALVGPYHQKDAYMAVNYKGTLNVIQACRQFKVGRLVMSSSPSTRFDGNDIEGLGVEDLKIPDKFVQIYAETKAMGEKACRDACCDTLMTVAIAPHQVYGPRDSLFLNNLLHPIGNGKLRIFGSGKNMVSFCHVDNYCHGLILGYDALHKGSPALGRFYIVTDGPPQQFWKVIDQAGVAMGFRSLWTKFHLPIMLLMVLAHICDFLGMLLNRKFKLTPFSVKMLTIHRYFDIEAAKKDLKYEPLIEFDKGWLETIDWFKQNWLPKQK 348

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A835Z5A6_9STRA (Sterol-4-alpha-carboxylate 3-dehydrogenase, decarboxylating n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z5A6_9STRA)

HSP 1 Score: 456 bits (1172), Expect = 4.640e-158
Identity = 213/341 (62.46%), Postives = 269/341 (78.89%), Query Frame = 1

Query:    4 GVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPT 1026
            GV G   VVTGGSG  G+RLVE+L E+GAARVVSFD+A KP DA+    I Y +G++T    V  A +GADCVWHIAALVGPFH +  Y+AVN+ G++NVL+ACRKH + K++MS SPSTRFDG+DIDGL E  L+ PKK+LQLYAE+KA+ E+ +L AC D+L TI+IAPHQ+YGPRD+LF+ +LL  AG+G+LR+FG G NK SFTY+DNYCHGLILGYDAL  GSPALGKFYIVTDGG+Q FW+V+D A +AMGF S+++KTKLP  L++ + YIC  IG++L   +R+NPF VKML IHRWF+I AA +DL Y+P+ TF++G+  T  W K  WLPT
Sbjct:    3 GVAGIKAVVTGGSGFVGQRLVELLVERGAARVVSFDVADKPKDAINDDRIVYVKGDITDYNQVLAALDGADCVWHIAALVGPFHDRSKYIAVNYHGSINVLKACRKHGIKKLVMSGSPSTRFDGNDIDGLTEAQLKYPKKYLQLYAETKALAEQEILAACCDELQTISIAPHQVYGPRDSLFLVNLLTVAGQGRLRIFGKGDNKCSFTYVDNYCHGLILGYDALRPGSPALGKFYIVTDGGYQIFWKVLDHAVVAMGFTSIWTKTKLPYLLLMVLAYICNVIGFLLRTKMRLNPFNVKMLTIHRWFNIDAATKDLGYKPLYTFDQGWDTTCEWFKTVWLPT 343

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S2SV77_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SV77_9STRA)

HSP 1 Score: 441 bits (1133), Expect = 2.940e-151
Identity = 203/343 (59.18%), Postives = 270/343 (78.72%), Query Frame = 1

Query:   22 CVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDL-EIP-KKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDG-------GWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLP 1023
            C+VTGGSG  G+RLVEML E+GA RV+SFDIAP PADA +   IEY QG+++  E V K  EG DCVWH AA VGP+H +D Y+ VN++GTLNV++AC++    K+I SSSPSTRFDGSD+DGL E+ +  IP +K+LQ YA++KAMGE AV  ACS+ L+T+AIAPHQ+YGPRDNLF+P++LE AG+G LR+FG G N++ F+++DNYCHGLILG  ALY GSPALGKFYIVTDG       G   FW  +D A +AMGFQS++SK KLP   ++ + Y+C  IGW++G  +++NPF V++L +HRWFDISAAE DLKY+P++++++G+A+T++W KE+WLP
Sbjct:   30 CLVTGGSGFVGQRLVEMLVERGAKRVISFDIAPPPADAWQRKEIEYVQGDISDREAVFKVVEGVDCVWHNAAAVGPYHPEDVYVKVNYEGTLNVVDACKEFGCSKLIFSSSPSTRFDGSDVDGLSEEQMPSIPQRKYLQDYAKTKAMGELAVSAACSEDLMTVAIAPHQVYGPRDNLFLPNMLEVAGQGMLRIFGGGHNRICFSHVDNYCHGLILGSTALYPGSPALGKFYIVTDGSTHPDPRGCCEFWVELDKAVVAMGFQSIWSKFKLPVWFLMPIAYLCLFIGWIIGVKIKLNPFAVRVLTMHRWFDISAAENDLKYKPVISYKQGWAETIAWFKENWLP 372

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A061R3Y9_9CHLO (Nad-dependent steroid dehydrogenase-like protein n=1 Tax=Tetraselmis sp. GSL018 TaxID=582737 RepID=A0A061R3Y9_9CHLO)

HSP 1 Score: 431 bits (1109), Expect = 2.220e-148
Identity = 204/351 (58.12%), Postives = 264/351 (75.21%), Query Frame = 1

Query:    1 MGVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEI--PKKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWL---KEDWLPTHKAK 1038
            MGVEGK CVVTGGSG  G RLVEML E+GA  V SFDI+  P        +++ +GNLT P+ V + C GADCVWH+AALVGP+H ++AY+ VN++GTLNV+ AC++  V KI+MSSSPSTRFDGS + GL E  L+I  P KFLQ YAE+KAMGE A+ EAC ++L+T+AIAPHQ+YGPRD+LF+PSLL AA  G+LR+FG G NKV+FT++DNYCH LILGYDALY GS ALG+FYI TDGG + FW V+D A + MG+  L +K KLP  LM+   YIC  IG+V GR +++ PF V+ML+I RWF+I AA++DL Y+P+++FE G+ +T+ W    KE W+   + K
Sbjct:    1 MGVEGKTCVVTGGSGFVGSRLVEMLVERGAKSVTSFDISGPPEFFTPSDKVKHVRGNLTDPQVVEQVCTGADCVWHVAALVGPYHPQEAYVKVNYEGTLNVINACKRQKVPKIVMSSSPSTRFDGSSVRGLAESQLKIQDPGKFLQAYAETKAMGEIALREACCEELMTVAIAPHQVYGPRDSLFLPSLLHAAKTGKLRIFGKGDNKVAFTHVDNYCHALILGYDALYPGSAALGQFYIATDGGSELFWHVLDQAVVRMGYTPLRNKLKLPTGLMMVAAYICNLIGYVTGRKMKLTPFAVRMLVIDRWFNIDAAKKDLGYKPLISFEHGWQETIEWFADNKEWWIAKAEGK 351

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S4LLS6_9EUGL (Hypothetical protein n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S4LLS6_9EUGL)

HSP 1 Score: 424 bits (1091), Expect = 2.320e-145
Identity = 201/338 (59.47%), Postives = 262/338 (77.51%), Query Frame = 1

Query:    7 VEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKAC-EGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESKAMGEKAVLEACSDK--LLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKE 1011
            VEG  C VTGGSG  G+RL EML ++GA +V+SFDI+ +P  A   P ++Y QG+L   E V KA   G DCVWHIAALVGPFH K+ YMAVN++GTLN+++AC+     +I+MSSSPSTR DG  I+GL+ED ++IPKKFLQ YAESKA GE A+ EAC+++   LT+A+APHQ+YGPRD LF+P+LL A+  G+LR+FG+G+N++S  ++DNYCHGLILGY ALYKGSPALGKFYIVTDGG + FW ++D A + +G  SLF+KTKLP  LM+ V YIC  +G++L R  ++ PFTVKML IHRWFDIS AERDL Y+P++ FE+G+   ++W K+
Sbjct:   21 VEGLTCFVTGGSGFVGQRLCEMLLDQGAKKVISFDISGEPQFARHDPRLDYVQGDLVDYEQVAKAMGPGVDCVWHIAALVGPFHPKERYMAVNYRGTLNIIKACKALGCKRIVMSSSPSTRMDGGHIEGLREDQMKIPKKFLQDYAESKAAGEVALREACNEEEDFLTVAVAPHQVYGPRDALFLPNLLSASYNGKLRIFGDGENEISVCHVDNYCHGLILGYLALYKGSPALGKFYIVTDGGKKKFWHILDDAMVQLGCTSLFTKTKLPIWLMMTVAYICNVLGFILRRKFKLTPFTVKMLYIHRWFDISNAERDLGYKPLIKFEDGWQDMIAWFKD 358

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S3GUI0_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3GUI0_9STRA)

HSP 1 Score: 422 bits (1084), Expect = 2.510e-144
Identity = 209/364 (57.42%), Postives = 272/364 (74.73%), Query Frame = 1

Query:   16 KVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSD--IDGLKEDDL------EIPKKFLQLYAESKAMGEKAVLEACSDK---LLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGR-----------NLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHKAKH 1041
            K   VTGGSG  G+RLVEML E+G  RVVSFDI+P P +AM+   IEY QG++T PE V +AC+G +CV+HIAALVGP+HA  AY+ VN++GT+NVL AC+K  V KI+MSSSPSTRF   D  I+G  E+ L      E  K+FLQ YAE+KA+GEKAV +AC  K   LLTIA+APHQ+YGPRD LF+P+LLE AG G+LR+FG+G+N +SF ++DNYCHGLILG +ALY GSPALGK+Y+VTDG    FW+V+D A +AMGF SL+ K  LP   M+ + Y+   +G + G            +L++NPF VKML+I+R+FDISAAERDLKY+P++ FE+G+A+T+ W KE+WLPT+KA +
Sbjct:   15 KSACVTGGSGFVGQRLVEMLVERGCNRVVSFDISPTPKNAMKSDKIEYFQGDITNPEHVERACKGTECVFHIAALVGPYHAPAAYVKVNYEGTINVLNACKKLGVKKIVMSSSPSTRFPFPDPNINGFTEEKLLQINGGEYAKQFLQPYAETKALGEKAVRDACGTKEGDLLTIAVAPHQVYGPRDGLFLPNLLETAGSGKLRIFGSGENLISFCHVDNYCHGLILGAEALYPGSPALGKYYVVTDGPAIKFWKVLDEAVVAMGFYSLWKKFHLPTWFMMGIAYLVLVLGNLYGALSGTPSHVVNYHLKLNPFAVKMLVINRYFDISAAERDLKYKPVIPFEQGWAQTIEWFKENWLPTYKANN 378

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S3TDD3_9SPIT (Hypothetical protein (Fragment) n=1 Tax=Strombidinopsis acuminata TaxID=141414 RepID=A0A7S3TDD3_9SPIT)

HSP 1 Score: 419 bits (1076), Expect = 4.400e-143
Identity = 201/346 (58.09%), Postives = 252/346 (72.83%), Query Frame = 1

Query:   25 VVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDL-EIP-KKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDG-------GWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHKA 1035
            VVTGG+G  G RLVEML E+GA  V S D+ P P  A  HP I+Y  G++   E V+K   GADCVWH AA VGPFH +  Y  VN++G+LNVL ACRK  V KI+MSSSPSTRFDGSD+DGL ED++ ++P K++LQLYAE+KAMGE A+  A  D L T A+APHQ+YGPRDNLF+P++LEA G G+LR+FGNG+N++ FT++DNY HGLI+   ALYKGSPA GKFYIVTDG       G+   W  ID A +AMGF SL+ K KLP PL+V + YI   IGW++G  +++N F VK+L +HRWF I AA++DLKY PIV +  G+  TL W KE+WLPT  A
Sbjct:    1 VVTGGTGFVGARLVEMLIERGAREVRSLDVVPPPPTAWSHPRIQYITGDVCDEETVDKLVAGADCVWHNAAAVGPFHPRQLYFDVNYEGSLNVLRACRKAGVRKIVMSSSPSTRFDGSDVDGLTEDEMPKLPQKRYLQLYAETKAMGEMAITSASDDTLFTCAVAPHQVYGPRDNLFLPNILEAGGTGRLRIFGNGQNRICFTHIDNYAHGLIIAEQALYKGSPANGKFYIVTDGDTHPHPQGYARLWETIDEACVAMGFTSLWEKMKLPLPLLVVLAYIAEFIGWMIGTTMKLNRFNVKVLTMHRWFIIDAAKKDLKYEPIVPYSVGWPDTLEWFKENWLPTFDA 346

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BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Match: A0A7S0L735_9EUKA (Hypothetical protein n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0L735_9EUKA)

HSP 1 Score: 419 bits (1076), Expect = 1.110e-142
Identity = 201/348 (57.76%), Postives = 257/348 (73.85%), Query Frame = 1

Query:   19 VCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPAIEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLNVLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDL-EIP-KKFLQLYAESKAMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFGNGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDG-------GWQYFWRVIDSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKMLIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHKA 1035
            VC VTGG+G  G RLVEML E+GA +V   D+ P PA+A  HP IEY  G++  P  V++   GA CVWH AA VGPFH +  Y  VNF+GTLNVL ACR+  V KI+MSSSPSTRFDGSD+DGL E+ + ++P K +LQ YAE+KA+GEKA  +AC D+LLT+A+APHQ+YGPRDNLF+P++LEA G G+LRVFG G N++ FT++DNY HGLI+   ALY+GSPA GKFYIVTDG       G+ +FW VID A  AMGF S++ K  LP  L+ +V  IC  IG + G  L++N F+V+ML +HRWFD +A+E+DL YRPIV++ EG+A TL W +E+WLPT  A
Sbjct:   28 VCAVTGGTGFVGSRLVEMLIERGARKVRCLDVVPPPANAWHHPKIEYITGDVCDPRAVDELVAGAGCVWHNAAAVGPFHPRPLYFKVNFEGTLNVLRACREAGVPKIVMSSSPSTRFDGSDVDGLTEEQMPKLPMKSYLQTYAETKALGEKACTDACCDELLTVAVAPHQVYGPRDNLFLPNILEACGTGRLRVFGAGTNRICFTHVDNYAHGLIIAERALYQGSPACGKFYIVTDGNTHPYPEGFLHFWEVIDQANTAMGFPSIWKKASLPIWLLWSVATICELIGMLFGTTLKLNRFSVRMLTMHRWFDTTASEKDLGYRPIVSYSEGWADTLVWFRENWLPTFDA 375

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig67.92.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FKR6_ECTSI	1.210e-237	89.91	Sterol-4-alpha-carboxylate 3-dehydrogenase, decarb...	[more]
A0A7S3Y444_HETAK	1.260e-175	69.12	Hypothetical protein n=2 Tax=Heterosigma akashiwo ...	[more]
A0A7S2UZ88_9STRA	1.200e-161	61.78	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A835Z5A6_9STRA	4.640e-158	62.46	Sterol-4-alpha-carboxylate 3-dehydrogenase, decarb...	[more]
A0A7S2SV77_9STRA	2.940e-151	59.18	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A061R3Y9_9CHLO	2.220e-148	58.12	Nad-dependent steroid dehydrogenase-like protein n...	[more]
A0A7S4LLS6_9EUGL	2.320e-145	59.47	Hypothetical protein n=1 Tax=Eutreptiella gymnasti...	[more]
A0A7S3GUI0_9STRA	2.510e-144	57.42	Hypothetical protein n=1 Tax=Spumella elongata Tax...	[more]
A0A7S3TDD3_9SPIT	4.400e-143	58.09	Hypothetical protein (Fragment) n=1 Tax=Strombidin...	[more]
A0A7S0L735_9EUKA	1.110e-142	57.76	Hypothetical protein n=1 Tax=Coccolithus braarudii...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig67	contig	P-littoralis_Contig67:496939..515733 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FKR6
PFAMs	3Beta_HSD
Model size	1047
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC01163
KEGG ko	ko:K07748
KEGG Reaction	R07494
KEGG Pathway	ko00100,ko01100,ko01130,map00100,map01100,map01130
KEGG Module	M00101
Hectar predicted targeting category	other localisation
Exons	8
Evalue	1.99e-238
EggNOG OGs	COG0451@1\|root,KOG1430@2759\|Eukaryota
Ec32 ortholog description	Sterol-4-alpha-carboxylate 3-dehydrogenase, decarboxylating
Ec32 ortholog	Ec-21_001850.1
EC	1.1.1.170
Description	3-beta-hydroxy-delta5-steroid dehydrogenase activity
Cds size	1047
COG category	GM
BRITE	ko00000,ko00001,ko00002,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig67.92.1	prot_P-littoralis_Contig67.92.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig67 496939..515733 +

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


Feature Name	Unique Name	Species	Type	Position
1680791396.5870261-CDS-P-littoralis_Contig67:496938..497103	1680791396.5870261-CDS-P-littoralis_Contig67:496938..497103	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 496939..497103 +
1680791396.6033976-CDS-P-littoralis_Contig67:513075..513227	1680791396.6033976-CDS-P-littoralis_Contig67:513075..513227	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 513076..513227 +
1680791396.613604-CDS-P-littoralis_Contig67:513476..513591	1680791396.613604-CDS-P-littoralis_Contig67:513476..513591	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 513477..513591 +
1680791396.625357-CDS-P-littoralis_Contig67:513729..513833	1680791396.625357-CDS-P-littoralis_Contig67:513729..513833	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 513730..513833 +
1680791396.6369436-CDS-P-littoralis_Contig67:513976..514121	1680791396.6369436-CDS-P-littoralis_Contig67:513976..514121	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 513977..514121 +
1680791396.647078-CDS-P-littoralis_Contig67:514347..514398	1680791396.647078-CDS-P-littoralis_Contig67:514347..514398	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 514348..514398 +
1680791396.6570652-CDS-P-littoralis_Contig67:514980..515139	1680791396.6570652-CDS-P-littoralis_Contig67:514980..515139	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 514981..515139 +
1680791396.6745136-CDS-P-littoralis_Contig67:515577..515733	1680791396.6745136-CDS-P-littoralis_Contig67:515577..515733	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig67 515578..515733 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig67:496939..515733+
coding sequence from alignment at P-littoralis_Contig67:496939..515733+

protein sequence of mRNA_P-littoralis_Contig67.92.1

>prot_P-littoralis_Contig67.92.1 ID=prot_P-littoralis_Contig67.92.1|Name=mRNA_P-littoralis_Contig67.92.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=349bp
MGVEGKVCVVTGGSGLTGRRLVEMLAEKGAARVVSFDIAPKPADAMEHPA
IEYQQGNLTIPEDVNKACEGADCVWHIAALVGPFHAKDAYMAVNFQGTLN
VLEACRKHAVGKIIMSSSPSTRFDGSDIDGLKEDDLEIPKKFLQLYAESK
AMGEKAVLEACSDKLLTIAIAPHQIYGPRDNLFMPSLLEAAGKGQLRVFG
NGKNKVSFTYLDNYCHGLILGYDALYKGSPALGKFYIVTDGGWQYFWRVI
DSAGMAMGFQSLFSKTKLPAPLMVAVGYICAAIGWVLGRNLRVNPFTVKM
LIIHRWFDISAAERDLKYRPIVTFEEGFAKTLSWLKEDWLPTHKAKHS*

mRNA from alignment at P-littoralis_Contig67:496939..515733+

Legend: polypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig67.92.1 ID=mRNA_P-littoralis_Contig67.92.1|Name=mRNA_P-littoralis_Contig67.92.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18795bp|location=Sequence derived from alignment at P-littoralis_Contig67:496939..515733+ (Pylaiella littoralis U1_48)
ATGGGTGTAGAAGGCAAAGTTTGCGTAGTAACAGGAGGCTCTGGCCTCAC
TGGCAGGCGCTTGGTGGAGATGCTAGCTGAAAAAGGTGCCGCACGCGTGG
TGTCCTTCGACATTGCCCCAAAGCCCGCTGATGCAATGGAGCACCCAGCT
ATCGAGTACCAACAGGTGTGCTGCTGTACGCTGTACGCCCCAGTACCCCG
TAGAGCTAAGTCGTAGTAGGAGGCTGAAGTTGGTCATCGCCAGGAGCGCA
CAGCAGAAATTGAGCCCTACTTGCAATTATTCTGTAGTGGGGCCCTTTGT
GCGGGGAAAACATGGGTTGCCCTTGTTAAAAAATAATTTCACACCCCCGG
AAGACAGTAGACAAAGCTGCAAAGATGCGCCCGTACCCCGCATGGCACTG
CCTTTTATCAACAAGGCATCCCTTTTGCCCCTTCACGTCTGCTTGCTTGC
GCTGCCTGGAACTGTTTCCTGGGCCGGTGAAGAGAGTAGCACGCCCGATG
TCCATTGTTATCGACACGTTGGCAACTGAATTCAGGTCTCTTTTATCTCT
TGTTGTCACTTTTTTACTTTTTTACTAGTGTGTGTGTGTTGTCATCCCTT
TAATTGGACGCTACCTGCCTCTCGGGTAGGCAGGTAGACGCGCCAACTGG
GGTCACACAGGGGGAAGTCAACACAGGAGTTTTTTTTGTTTGTTTCTCCA
CTTCCGTCTGCGGTGCTTGCCTTGTGTTTTGGTTGAGCTTTTATCGCGAG
AAAGGGGACAGCGATCCCTTTCCCTCGCCGATGGTGCGATCGAATTTTGT
TTACTCACGAATTAATCGCTTTCCACTTTCACGCTCATTGTGAGAAGAAA
ACCCGGATCGTGTTACTTGTATATGTGTTGTCATCCCATATTCTCTGGCA
CACTAGTCTGCGCCTTGCGGTTCAAACTACAGGCTAGGCCCATCGATGGG
GTCACACAGGAGGAAGGTCAACACAGGAGGAGTTACCTCCACCTTCCTTT
TGCGGTACATGCGTGAGATTTTTTCTCGCGAGCAGGGGTCCGCGGTCCCT
ACCCTCGTCGGCGAAGCCGAATCTGCTTTTACTAACAGCATAGCCGCTTT
CAAAGTAGCAAAATAACACATTCACCGGGAATCGAACCCCCGTTCCACCG
CATCTAGTGGCTAACGAGGAGACCACTAGTCCACCGGGGCCACCGGTGTA
CATATATGTGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCAAAC
TACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGG
AGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTC
GCGAGCAGGGGTCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGAT
TTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACATATATACTG
CACTGGGATTCGAACTCACGCGTGAAGGTCAGAAGGTTGCGTGGGTAACC
AACTGAACCACCGGGGCGACCGGTTTGCGTTTTCGAAATAAGAAGTATGA
TTCAAATATCCTTTGTGAGGTTCCCCCGAGAGGATCCGTGATTGCAACGA
AATCCGGATTTGAAGCCAAATCAACAAAATCAAAATATCGCCGAAGAAAG
GATATTTGAGGAAGGAAATTTGATCTGCCAGGTAGGTCATGCCGCCTCAC
AACGCGATTGGTCAAGTCTATCCGGCATCACCCGAGAGGTGGCTCTTTAG
CTGTGCCCTTGCTTTGTGAGTCTAGGCAAACCTCGGGTGGAAGAGCAGCG
ATTCGATCGATCAGAAAACAACGCTTATTGGAAAAGTTTGGGCCTCCCTC
ACACGATGAGTCGGGTGACTTTAACAACTACTGGTACAGCAGTAGTATTA
TTTTTGCAAGCCTATCGATACCTCGCGGCCCCAGACGACCTACGGAGGAG
AGGGACCAGACACACAGCTCAAGGGCAATTGCTTTGTTGTTGCCGTGGGT
TCACTCGTCGTTCCAGAGCAATGGACGAAACTTTGAAGTGTGGGACGAGG
GTATGGATGGAATTAATTCTTCAGCGGAGGAGGAGTGAGCGGCAGCAGCA
GTAGCAGCAGGTGTTTTGTATTTTGGGCCGGTACATGAGTTTGGTTTTTC
ATCCATCACTCTCGAACCAATTGAGCCACAGTAATACTAAAGCCATCGCC
CGTGAGCTATGCCTCTGGTTTTTGTCCTCCGGTTGTCATCTAAGGCCGCA
AGGCATCAAGTGGCTCGCAATAGAAGCGTTGCAGAAACCGACGAGTTGTG
AAAAAATTGAGAAGAAAGAAAGGCCGTTGAAGTCCAGCAAATACGTACTG
CTGTATGTATAGTTGTACAGCAGTACGGTCAGCCCACCACTTCTTCCTCC
TTCGCTGCATCGGATGGAAAAAGAGGGAGAGAACAGACCGACCCCTCTCC
TACGCCAAAGCCCTGATCACCGCGGGTTGCAACGAGAGCGTTGAGGCCAC
CGTGCGCAAGCGGCGACTGTGCTTCGCAGGATTCGTTACGCGCATGAGAG
ACGAGAGACTCCCGAAAATTGCTCTTTTGGGAGAATTGCAGGGGGGCGCG
AGGTATCTGGGGGGGCAAGAGTTTGACTGGCTGAGGCGAATGCAGGAGGA
CCTCGAAGCGTTCGACATCGTGGTCGACAAAAAGGAGGGGTGGGAGGCAA
GTGCCAAGAGAGCTGACGAGTGGTACGACAGGATCGACGAGGGTGCGCGG
CGGTTCACGGACGAGTGGCTCAAGAAAGAGGGAGACCTATCAGAGACACG
TCGACGGAAAAGGGAGAGGGACGCGGCTGAGAGGCAGGCCTTGACTAAAA
GAGGGAGAACGGATGGCGGGGGTAAACGAGAGGAGGGGTACGGGGGGGCA
CAAGGGCAGCGGGGTAGTGGGGTTGGAGTTGCACAGCACAAGAAGAAGCA
GTCCAGAGCCAAGCTACGGGGTGACCGGAGTGGAAAACCTGTAGGGCGGA
GTGGTGGTGTAGCTGCTGCCAAAGATGTGGGGCAGAAACAACTGGGTATG
GTGGTGCCAGTAGCAGGAGGCATGAGTGCGACTGAGGAGAGCAAGCGTGA
ACAGGCAGACCTCGTGGCAAGACACGTTTGCGATTGATTGCATGCCTTTT
ATTTATTTTATTTTATTTTTATCACCTCCCCCTCCCCCACCCCCCGCCCC
CCCCCGACTTCCGGTACTTCCGGTACTTCCGATCTTCTTTTCTTCTTTTC
CCTTTTCGTTCCCCTGCTTCCTCTTTGTTTGGCGGCCTGTTTGTTGTGTT
TGTCTACGAATGCACTCCCTCAGTCTTTGTGCCCTCCCTGTATCTTCTTT
TTTATTTTAGTTTTGTATTTCGTCTGTTGATCATGTAGTTACTGGACCAT
CGCCCTGGTTTGCCTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTGT
ACTTCGAAGTATATGGTTTATGGTTGAGGTTTGTCTTGGTTATTTTTTGT
TTTGTCGGACTGTTTCCAATTTTTGTTTTTCTTTCGAGCCTGTTATTTTT
TTTTTCTGTATTTGTTTGGTATTCTGGCCACCACAGATGGTACCCCAAAG
GTACCATATCTGATTTGACTGTGGGCGATCATAGTCCATATATTTTATTT
TTTATTTTTCCTCCTAGCACGATATGTGCCTGGTTTGTGACCACGGGCTA
GACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAACAACAACAGA
TATACCGGTCGCCCCGGTGGACTAGTGGTCCCCTCGTTAACCACTAGATG
CAGTGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCCTTTGCTACTTCG
AAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGACGAGGGC
AAGGACCGCGGATCCCTGCTCGCGAGAAAAAATCTCACGCATGTACCGCA
GAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCCTGTGTGAC
CCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTAGTG
TGCCAGAGAATATGGGATGACAACACACAGATAAACAGACGGAAGTGACT
TCTTCTTTTTTTTCACAAGTGATCGGTTTCTGCAACGGCTAGATTGCTAG
CCTATTGATGCCTTGCGGCCCCAGATTACCAACGGAGGGGTACAAGACAC
ACAGCTCACGGCCGATGGCTTTGGTATTTCTGGGGCTCAATTGGTTCGAT
AGTTATGGAAGAAACCAAACTGGTGTACGTGCGCAAAATACCTTGCTGCT
TCCTGCTGCTGCTGCGGGCTTTCTTTTCTTTTCCTATTTTTTTTCACACC
TCATTGACGCCTGCAATATGTTTTTGTGAGCCTGTTGATACCTCGCGGCC
TCAAACGATAATCGGAGGAGCACGACCATTCACACAGCTTACGGAGCATG
GCTTTGATATTGTTGTGGCTTCATTCATTCGAGAGTGATCAACAAATACG
CTACAGCAGTAGCCTGTTGAAACGATGTCAACACCGTCTGTATGTCAATC
ATCAAACAACAGAGTCACCATGGAAAAATAAAATCAACTGCGGTTCCTTT
TGTAAAGCCGTGCTTTCGAAAATCCTGTTGGAATTCTTCTTGGGCTGCTG
CAGTACCTCCGGTCGCCGGCGCTGCGGCCAGTGAGAGTTCGCATTTATTT
ACTCCACTTGCAGCCGCGCCGTCCACTACAACGACACCCAGTTGACTCGT
GTTGTGTACAAAGGCGTAAGGTGTCCGTGTATGCTCTGATGGCAGCAGAG
AGATTGTTGTTGCGTAGAGGTGTACCGGTTTTCGGTAGCTTGGAGCACGG
AAGGCAGTCTTGTCCCCCTCCTCCGTTATTGTGACAAGACACACAGTCCA
CGGAAGGAGGTGGTACGCTGTTGTTGTGATTAAGAGGGGTACCCCCTCTT
TTTATCATATTGAACCCCCATGAAAGAAATCTTTTTTCGCATACTCTTTC
CGGAATTTCCTTTGTTTGGGGGTTTGAAAGCACAGGACTTTTTTTTTTAT
TATTCAGAAAGGATATTTGCCAAATCATATTTCTTACGGAGTATTTCGCA
AACACTCTACTTTATTATTTCATTTTTGTTTTTACTTCAGGCACATCCAT
GTGTTCCCCTCTCTCCAGACGTGCGAGGGTCTGGAGTAGATATGGCAACG
AACACAAAGAAAAGGTACATCTATCAGTGTTTCTATAACTCATCAGATAA
TGTACCGTTGTAGCTCCCCTGAGGGTATCAGGCTCAACAAGACAGTTCGA
TGGGTCGTCTTGTGTGATACACGTGACATCATGTGTTGGGTGTTTACAAT
TTATATTTGTGCTGTTAGGCTACTTCTTGTAGACCGGAATCCCCTCATCA
GAATTCGCCTTTATTGATCTTGGGCATTTGGAGGCAGTAGAGATTACACA
TCGTGCGAAAAACTCGGGAACCTCAAGGGGAACATATTTTGGTTCTCTTT
TACGGGGATGGCCACGAATGCTCCCCGTTCTACTCCTCTCCGTTCACGTG
GAAAACCCTGCGCGCCCTGGCGCGCCTGGCCTGCGTTCCGCCTGATTCCG
ACGTATTAGCGCTGCTGTTGTGCTCTGTGCTACAGCACGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGATTCTCACATTAGCTC
ACTACCGCCGCAGGCTAGCCCGTGGTCACAGACCAGGCACATATCGTGCT
AGGAGGAAAAATAAAAATAAACTATATGGACTATGATCACCCACAGTCAA
ATCAGATATGGTACCGTTGGGGTACCATCTGTGGTGGCCAGAGTACCAAA
CAAAATACAGAAAAAATAACAGGCTCGAAAGAAAAACAAAAATTGGAAAC
AGTCCGACAAACAAAAAGTAACCAAGACAAACCTCAACCATAACCATATA
CTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAGACCA
AGGCAAAGGCAAACCAGGGCGAGGGCCCATTAACTATAAGATCAACAGAC
GAAAGACAAAAAAATAAAATAAAAAAGCAGAAGATACAGGGTGGGCACCA
AGACTGAGGGAGTGTGTGTGCTGCTACCAGTGCTGTTGTCTTGGCGTGGT
GCGCCCCTGGCACTTGAGTCCCAACGGGTGCGCCGAGGTCGGGCGTGTGG
GTTAGGGTTAAGGTTACGGATAGGGATAGGGCCGCGAAAAACTCGGGAAC
CTCAAGGGGAACGTATTTTGGTTCTCTTTTACGGGGATGGCCACGAATGC
TCCCCGTTCTACTCCTCTCCGTTCACGTGGAAAACCCTGCGCGCCCTGGT
GCGCCTGGCCTGCGTTCCGCCTGATTCCGACGTATTAGCGCTGCTGTTGT
GCTCTGTGCTACAGCTATTGTGCTGCTACCAGTGCTCTTGTCTTGGCATG
GTGCGCCCCTGGCACTTGAGTCTCAACGGGTGCGCCCGTTGAGAAGACCA
TGGATCCCGAGGCTAACCCTAACCCTACTGGAAACACGTGAGCGGAAACT
TCCCAGATAGAGAACCACATATCTTCGGAGATCCTTCGCACGATTGGTAA
TCCGACCTCTTTGGGGGTGATCTTATACTTCGTAGATCAAAAAACCTTGT
TGATCTGAACATTCCTAATAACTTTTTCCGATCGACCGAATCGATCAGAA
AAAACGTCGATCAGAAAACGTTAAATGGAAAATTTTGGGCTCTCCCTCAC
CAGAGCCTCACACGATGAGTCGGGTGTTCAGAAACTATTTTTGCAAGCCC
ATCGATGCCTCGCGGCCTGAGATGACCAACGGAAGAGAGGTACTCGACAC
ACAACTCACGGACGATGCACGGGTGGACGAATGCCCGCACTGACCAAGGT
GCCTGACCGGGAAAGGCCTTGTCCAGACCTTGTGAAGGTGTTCACCCCTG
ATCTCGATCGAAATCACCATGACAAGGTCTTCACAAGGTCATTCGAGGTC
AGGCACCTTGGTCAGTTGGGGCATTTGTCCACCTGTGTGGCTTTGTTGTT
GCCGTGGGTTCATTCGTTCGAGAGCGATGGACGAAACATACAAGTGTAGG
ATGGCGGAGAGAGCTGGCAAATGTGAGTGGAATTCTTCAACGCAGGAGCC
GCAGCAGCAGCAGCAAGAAGCAGGAAGCAAGGTATTTTGTGCCGGTACAC
CAGTTTGGTTTTTCATCCATCACTCTCGAACCAATTGAGCCACAGCAATA
CCAAAGCCGTCGCCCGTGAGCTGTTTGTGTGGTCCTTCTCCTCCGCTGGT
CATCTGAGGCCGGAAGGCATCAATAGCTAACGACAGAAGCGTTGCAGAAA
TCAATGAGTCGTGAAAAAAAATGAGAAAGGAATGACCGTTGATGCAGCGA
GTCTAGCAGACAGACAGAGACGGCGATTTTTCTTTTTTTCACAAGTGATC
GATTTCTGGAACGCTTCTGTTGCTAGCCTGTTATGCCTTGCGGCCCCAGA
TGACCACCGGAGGAGAAATACCAGACGCACAGCTCACGGGCGATGGCTTT
GGTATTGTTGTGGCTCAATTGGTTCGAGAGTGATGGATGACGAGCCAAAC
TGGTGTACAGCAGTACCGGCGAAAAGTACCTTGCTGCTTCCTGCTGCTGC
TGCGGGCTTACTTCTCCTTTTCTTTTTTTTTTTCTCACGTCATCGATGCC
TATAAACTTTCTTTGTGAGCCTGTCTATGACTCGCGGCTTCAAACGACCA
TCGGAGGAGCACGACCATACCCACAGCTCACGGGGCATGGCTTTGTTATT
GCTGTGGCTTCACTCCTTCGAGATCAACAAATAAATACGGTACAGCCTGC
TGACGAAATGATGTCAACCGTCTGCCCGTCTGTCAAACATCGAACAGCCG
CAGAAGGGAGGTTCATTTTCGGAAGATATTCAAAAAATGAATCACCCATG
AAACAAAATAAAATCACCTGCGGTTCCTTACAGTATAAGAGGCGCTGCTT
CCAAAGATCCTGTTGGAATTGTTCTTATTGAATAAGTCGAATTCTGATGA
GGGCGTTTCCGATCTACAAGAAGTAGCCTGAGCATCATCCTCGGCATAGT
AGTTAGTTGTGGTGTTTGGTTTTTGGCTATGCTGTGCGACTACTCGAAGT
TGTTTTTTTGTGCCTGCAGACAACAACACAGCAGTGCTTTAATACCTAAG
ATATGACACCACCTATCGATGCAATACTACTTGGTACTTCTTACCCCCTG
TGGCCCGGTGACAAAAGTGACTTGGCTCTGGACCAGGCTCCCCCTTCTTG
TTCTATTTTGTACAGCGTTGTGTGATTCTTCTGGGTCCGTTTTTGTTTTG
CCGGAGTTTCCTTGTCGTGCCCTTCTTTGGTGGATTGAGGGGATTCCCGC
GTTCTATTTACCTCTTTTAGGTCAAGCGCCTGTGACCACGGAAACCGTCC
CTGATCGGTGGAGTATGGACATTAGAAGGTACTGAGGAGAGATCGGAATG
GTTTTTAATGTGAAGACCAACAACAACAACAACAACAACAACAACAACAA
CAACAACAACAACATGGTATCATACGAGTATCATATCATACCATATGTAT
GATACATATCATATGATACGAGTACATACATATCATATGATACTCGTATA
CAGTAGTGTACGAAGTATCTGATATTTTACGAAAAAAAAATCATGTGTGA
CCTTCCTTCTTCGCTACAACAGCAGTACCCTGGCTTGTGCACCCCCTTCA
TACCGAAAGGTGTAAACTGGTGCCGAGAACGGGTGGCATGTAAACACACA
CATATCATACGAAGTACTTCGTACAATTTATATTTACTTGAGAAAAGAAA
AAATGCTGCTGTGTGACCTTCCTTCTGTGTGACCCCGGCTGGTGTACCTA
CCATGTCTAATACTTCATACCGAAAGGTGTGCAGCAGTATGATCTACTGG
TACCAAGAATAAATGGGATGGAAACAGACACACACTACCGTTCCCCTCGC
TGCCTCGGCAAGGTCTGCTGTTAGGCATGACCCATAGCGACTTGGGGGGG
TCTTTCTGGCGGGTGTTAGGCCGGACTCATCCTCAAGGGGTACCTCTTGC
TGCGATGCTGTGGTCGAATGCCCATGGGCGTGGCGGTGGGGTTGGGTCGT
TCTGGTGCGCCGAGTACAAAGGTAAAGATTCGCGGGCCTTTTCTGGTTAC
AGCCGTAGTACAGTATGCATGTACCATTTTTGCGAGGAGGCAGGCGAGAC
CAAAGGCGAAATCACGGCGCGGTCTCGGATGCAGAGAGAGGGCTATGCCG
TTCAGTAGCCAGATTCGCTACCAAGACGGACGGAGACGAGCGGCGACGAA
CTGGAAAGAGCATGGTCGACCTCACCCTGAGCGTGTGAACCTTGTATTTT
GACAATACTTGCCCCAGAAGTGTGAAGAGGGGCGGATAGGATCTGACAGG
AGACAATGGAATAGCAAGAACGAGCAGTATACTAGAGTAGAGTGGCGGTG
CTGGAGGTGGCCGAGGGCAACGTCGGCAGCGAAGCGGCACGAGAGTGACT
GTGCTGGGGATAACCTACCGGTAGGGCAACGTCAATAGCGATGTTTCTCA
GAAGGGCGGAGGAGCTGGGGGTAACCATGGGCAACATCACCAGCGCAACA
AAAGGACAACGCCACCGTTGGAGATCGAGATCGATTTGACGTTCTAGATC
GCGATTTTTCCGGCGATTTGGGTGGATCGAGATACGAGATTTGTTAGGCC
GATCTTTCGATCCTTACCCCCGGGTCCCCCTTCTGTGCACCCTTTCCTTC
CCAGTGTATCAGCGGCCCACTCTTCCGCGTGGGTCGAGATCAAGATCGAG
CTGCTCGATCTCGATCTCGATGTTTTCACCCACGGGCCCCCATCTATGCC
CCCACGGGCCCCTTTTCCGCCGAGATCGAGATCGAGATCGAGTAAAAATC
GACCATTCTCCGAAGATCGGAAAATATCGAAAAAATATCGAAAATCTGTT
TTATTCTACATTTCATAAACGAAGACCGGCACTGATTTCGCCGCCGATTT
CCAACACTGGATAGCACCGTTATTGTCCTCCCCAACCTACGCACAAGACG
ACTTTAGGTTTACATTTTTTTTTGTCATTTTTCGGATGGGGGGCTAACTC
GTGGATTTCGGCATACCACGTTGCTTTTGCTTAGAGAGAATAGAGACGCG
GCAGAAACGCCCGCGTCAATTCCGCGACATTGGTGCCTGCGTTGTGCCTT
TATTGTGGCAAGATTCCTTTGAAATATCAACACATGGCGTAATTTTTGCT
GTGCCAACCATAGACGAATCGAGAAAGACTCGGCGATTATCCATTAGTGT
GGTGGCTTGACTGTTGCTTTTTTACAACGTTGCTTGCCGCTTGTTTTTAT
GACAGCACTCAAGACATGTTGATATTTTCCTGTGCTCTGCTTTCTCCGAC
CATCGAACCTTTTGAACGTTGCAGGCGGCACTCCAGACATCAACCGCTGT
AGTCTGTAGCCACGAGTGGTTAATGGTGGGACCGGGGGAGACTGCCGCAC
ATCTTTTTGTCATCGAATGGAGACCTGCGGTAGTAGGGTAGGCCAGACTA
TTTAGCACCAACTATGTTTGGTAGGAGTCAAGGCGTACCTTCTTCGGCGC
TTGCGTACCCTTCCTTTCACTTTTGTACTTTTTTTCGGACCTTCCTAGGC
CTCAGCACTTTTGTGACAACGGGCTTGATTTTGGCCACGAGCTATTGTGA
GAAATAACAACTACAAGATCGGGGGGGAGTAGCTTTTTTTCGAGCCCCAA
CATAAAAGTACCTGCAGTACGTTGTGTTCATCACACGGAAGATGGAGGAG
CTCGCCATGTTCCCTGTGGAAAAAATATCGAAAAAAATTACTTTGCTCGG
GTGACGGATAAAAGATAAACAGGGCGAGAGAAAATAACTCTGTGACTGGT
GTAGTCTTGAACTTTGCGGCGCCATCTACCGTCACCCCCCTTTGTACGCA
GCGTTTGGTGGCCCGTACGACTGCAGTAACGGGTACAGCAGTTGTGCTGT
GCTGTGCTGTATTGTAGCTTCAGCAGACGACGATACTCTCTGTCCTGCCT
GCCTGTTGCATAGCAGCAGCAGCATCAGTCATCCACTCTTAGCAGGTACC
AGCAGCAGCACTCTCTCTCCTTCTCGTGCCTTTGGTACCCTCTTCCCCCT
CTGCCTCCCAGCAATACACCATACACCAGTTCAGCAGCTGAGCGGCAGCT
GTGTGTGATGTGCACTGTTGATGTTGTGCTCTATACAAAGTACCTGACGG
CATAGTCGGGGAAAGTGTGAACTTTGCCGAAGAAATAGACACACAACATC
GCTGCTATCCGGACGAACTCAGCACGAGATGAGCTGAAAGTGGTTGCGAA
GGCTCGGGCTAAATTAGGTAGCTCTATAGTACACACCCGAGGATTCGTGA
ACTGGTGTGGTATTGGTCTGGTCTGACAAAAAATGGTGGCCGAAGAAACG
GCGTCAGACACACGGGTAGACACACGGACAGCATCGGCCAAACAATCTAA
AATCTACAGTAGCTTTTTTTTTTTGCGTGTGATCATGATGCGGGTTCAAG
ACTCGGGGGGGGGGGGTATGTAAACAGTTTTTTTCAACAAAAATACTCAC
TGACTTTCGCCATGGCCTGAATAAGTGCCTGGAGGCACGGCCGCATGAAG
AGTAGGTTATATGGACGATTACCTTCAAAAATACGAAAATGACCCAAAAA
AAGGACTTGGAGCTCAACCAATTATTATTATTTTTTCCGTAGTTCCTTCG
TATTCCACAGCAAAGCCCTTGAAGCAAAATAGCTTTCGGGTTTCAAGTCC
CGGAAGGACTTTATTGCAAAAGGGGATGCATTTTGTTGGGCTGTTTTGGA
CCTCTCGTAGCCCACACCACAACGGCATGTCTCTCCACTCGGGTAAAAAG
CGACGGACACCCCATAACCTGTCCCAAGGGGTATTCGGCGAAGCTCGAGG
CCAATTTTGTCATCTACCAGTCGACAACGCGTGAGAAGTGATGACGTGCA
ACCCGGGGCTGGTCCTCCAGAATTCCGAGTCTCTTCCGCGCGTGCTTGCT
GCAGACGCCGGGCAGGTCCACATTGCTTGGGAATAGCGATTTCCATTGGG
AGTGTCTGGCAACAATCCGCTTTCGATTTGGTCCTGTCTACGAAGAGCAC
CATTGAATCTTCAATCTCGAAATTCTCCGGGCTGTGGGCTTTGCGTTTTG
TCTTTTAAATCGTTCCAATTCTGCGTAGGAAGGCGAAAAAAGGAGAAAAG
TCGGTTTGGAAAAAGCCAGCGCGTATTCACATGAACATGTCTGCATCCGA
GTTTTTTTTATCATTCCGGCTGTCTGTCGATGCACACCACAGCCCGCGAA
CGAAGGTTCGACAGTGCTCTGCATAGACAGGACCAAATCGAAAGCGTATT
GCTGCCAGATACTCTCAGACGCTGCCAGATACTCTCAGACGTATGTACAT
TTCGCTATTCCCAAGGAAGGTGGACCTGCTCGGCCTCTCCAGCAAGCACG
CGCTGGTGGCGCGGACGTTGCTCTGAATTTCGACAAACCAGCCCCGGGTT
GCACGTCATCACCTATCACGCGTTCTCGACTTTTAGATTATGAGATTGGT
CTCGGCCTTCGCCACAGATCTCCCTCAGGACAAAATTTGGGGTGTCCGTC
TATTTTTAGGGGTGTTACAATCGGCGCACATCCTTCGATTTTTTTTCGAA
ATTTCGAAATTTCCAGGGGTCCTCTCGGTAACGACTTTTGATGTCGTTAG
GTTTTACCGCGGTAGTCAGCAAACGCGGTAATCCACGGGTTTGTTTGTTC
GGTAATCGAGTCCCTCGGTAACTGCTACCGCGGTACTCAACGACCGCGGT
AATGCGCGGTTATCTTACCACGGTAATTGGTCACCGCGGTAATCATTACC
GCGGCACTCAGCCACCGCGGTAATTTTGCGGTATTTTTCTACGGTAATTG
ATCACCACTGTAATGTTTCCGCGGTAATCAGCCGCCGGGGGTATGTACAT
ACAGTACCAGCGCATGATGCGGCGAAGGGGTACGTTCACAGCAAGAAGAC
GATAACCAGAAGACGGGTGAAACATGTGAACTACTTAATACTCCGGAGTA
CTTATGAAGTACTTCATTTCCACGAGTTGGGTACTACTCTCAACCAAATA
AAGCAAAACTTACCAAACTAAAGCCGTGAAAGAGCCCACCCCCGTCCCAG
AAACTACTTTTACCTGGCCACATGTCCACACAGTACATGTCCACACAGCA
GTAACGTCTGCAAAACGGCAGTTTCAATACACTCATACTTCCTCTGTATC
ATAGTCTGGGCTGTTAGGTGCGTGTAATTGTTTGCGCATCCATACTGTTT
CGATCATCCTATAGTTAGGTTCGTTCGAAAGATGAAGTCTCAAAGAAGCT
GATGCAAAAAAAAAAGCAAAAAAAAAAGCCAGCTGTTTATACTAAAATGA
AGTCAAAATATGCCCATTTTGGCCCATTTAAAGAATTTTGATTCTGCCAG
ATGTCTTTGTTTTAGAGCATGAGTCCCAAGTATCTTCGTTTTAGTGTGGA
AAACCCAAGTGTCTCGGTTTTAGCGTCGCGTCACTAATATACTGATTTTA
GTAAGGAGGGACTCGACATGAATCTTTGAGGTAGGGGGGCTAGGTTCAGG
GTTAGGGATAATTTTGGGGGGGATTGCATTGGTTTTTTTTTTTGCCCCCG
CCCCCCACTCCACCTCTGGAAAGGGTTAAATACGGCCATTTTTGGCCTGA
CTACTTTTTTGTTAGCCGCTAGCCCATGCGCAGGGTAGTGCGCAAGAAAA
AAATATACATGTGTTTCAACCCAAAAAACTCCGAAGATTTCGAAAAAATT
ATCGCCGAAGACATCGGACACCGTTGAGGGGGCGTAAAAACATAACGGCA
CAGACTTATGATACAGAGGAAGTATTATACTTCGTATGATCGTAAACAGC
ACACAGCAGAATCAAAGCCTCAAGATCGGTGACAACCAGTGATCCTTCAC
CCACGTCATTGCTGACACCTCCGACATTGGCGCCTCCTTCCATGACTGCC
GGCCCACCCATGGCGTGTTGTTGTTTAGTGGTGTCTTGAGTGACGCGTGG
TGGTTGTGAACCACCGAAACAATGCTTAACAAATCAAATAGTAAAAAGAA
AAAGGACAGGAAGAAAAATAATAAAATTATAATACTGAAAAACAAGTAGA
CAGTGCAGGTTCGAACCCTCAGCCTGCTCGAAGTTGGGCAGAGTGCGCGT
TAACGTGCCCTGTCCTATCATTCAAACCTATCGACGGAGATTGAGGCAAT
TTATAGACTTATACCGTGCGGTGAATGGAACTTTGTAAATGTCGCGGTAA
TTATTACCGCGGTATCCAGAAATCGCGGTATTTGCAATATTTTCACGGTA
ATTTTTCCCGCGGGAATGGGATAATTTTTTTTCACGGTAATGAGAATGGG
ATTTTTGTTTTGTTGCGGTAATTGATTGTATGAGATTGGGATAATGGGAA
AAGCGCGGTAACGTCAAAAATGCCATTCCCACGGTAATTACCGCAGTAAT
TACCGCAAGGGAAAATTACCGAGGCCGCTTGGAGATTTCGGAGCGATTCG
GTGAACATCGATCAGTTCAAAACCATTTCGACAAGCTCCAAAATTTCGCA
TTTGAATCCTTCATTTCGAAGGATTCATGCGGAATTTCGGGAAATCGAAA
CAGAGCGAACTACAGGCCCGATTTCGAAATTTCGAAGGTCCGAAATTTCG
AAACTGAGCGCTCTGATGATAACACCCCTTACCAGAGGAAAGGGCCACTT
CGTTGTGGTGTCGTGGGTTTGCCAGAGGTCCAAAACAGACCCAAAAAATT
CACCCCCTTTTGCAATGATTTCCTTTCCGGATTGAACCGAAATATACCCT
CGCTCGCGGAGGAGCTATGGAGTTCAGCTCCAGTATTTTTCTAGGGTCAT
CGTCCCTCAATTTGATTAAGACCTTTACTCGAGTCCGGATGAGTGTTATC
CTTAAACTTCTGAGTATTTGGAACTCTTGAAATTTGCTCTCGCCTTCAGC
CGAAAGCCGGCATATAGAGCCGTCGCATCAGGTCGAATCCTCTCCCGAAG
GCCCGCGCTCCCTTCCTCCTGCTGTACATACGATACCTGTCTTCAATTTA
ATCGCGAGAGGGGTTCAGCAGTTCTTTTTCCCGCAGCACCTTCTGCCAAG
TCGAATATGCTTGTAGTTTTGTTTGTATACTCGTGATTCGGCGTCGTTCC
ACTGTCGGTGCAGGTACTTCGGGCAAACATTTTTCATCGAACATCCAACC
CCGAGATGGGCGGTCGTGTTGTCCTTTTAAGAATAGAGATGGTTGAAATG
AGGCCCACAGGGCTAAAATATTTTACAATTCGCAAATCGCCAAAACTCTG
TGAGATCAGCAACCCTAGGCAAGTCCTCCATAACTCGCGTCATTACTGCA
AGACCCGTGAGAGTACGAGGGCAGCTACTGCAAAGCACAATCGATCGAAA
ATGGTGGTCTGCATGCTGCTGCTGCTGCTTGCTACATGTGGCGTGTTGGG
TAAAGATCAAGGCAGTTTAGTCGACGCTGGCCCATTGTCAGAATGGAGTG
GATAGAGAGCACCTCAGAGGAGAGACATCTCACATGGCCAATGAACAGCA
GTGATGCGGTGGAAATACGAACGTTACCATCGGTGGCATCCCGCTAGTTT
CCCCGCCGATTCCACGATACAATATGCTACATCAGTCTGGTGCCTGTTCA
AAGAGCACACCCACCACTCCAAACCTACAACGTGTGCACTTGATGAAAGG
GTAGGTCTCCCATTCTACCTCTCTTTTCAAACATCATACTCGTCGAACCG
TTAGCTGCTGTTATTTACTGAGGGGTGGCTTCGTATGGCGGCCATGACGC
CGCCCCCTTCGTTGGTATTACGGCGTATATACATATCATGCAATCTCTAG
ACACAGCTGTGTGTACTGATACGGTTCTTAACAGTTTACATGCCTTAGGC
ACGGCTGCCGCAGCTGATGACGACAACGGCGGTCGAACTCGAACATACTC
GCTAACAAACAACGCCTCGACCAATGCCATGCAATAGGGAAACCTGACTA
TCCCCGAGGACGTCAACAAGGCTTGCGAAGGAGCAGACTGCGTATGGCAC
ATCGCGGCGCTGGTTGGGCCTTTTCATGCCAAAGACGCTTACATGGCCGT
CAACTTTCAAGGAACTCTGAATGTGCTGGAAGCATGCAGGTGCGTGCAGA
ATGCAGGGGGCACACGCAATAGAATTGGCATCAACCAATAAATTGTCCCG
ATGGTGACACCCACACGTTCGACTTGTATAGCGTCTCCTCTGGTTCAGCT
ACTGGAAAGCGCTTGTTGCCTCGCAACTTCAAAAAGACACGCTTGCTATG
TGCACCTCGTAGACAACATGAAATTGACAGGTTGGCTGTACGTATACTGA
GGTATCCTTCTCTTTGCCATTGCGTTTGCGGTTATCAGGAAGCACGCCGT
GGGGAAGATCATCATGTCGAGTAGCCCGAGTACCCGCTTCGATGGCAGTG
ATATCGACGGTCTCAAGGAAGACGACCTTGAAATCCCGAAGAAGTTCTTG
CAGGTGATGTATGCACACCAACCGCTTTATGGTTGCTCTTGTGAGCGTCT
AGGCCTGGGTGTGCAACATGGTACCAACGACAGACCTGGATGCTGCTCGT
GTATGCTTGTTCAATAACACCAAGTGCTTTGCGCGCGGCAGCTGTACGCA
GAGAGCAAGGCGATGGGAGAGAAAGCCGTATTGGAGGCTTGCTCGGACAA
ACTCCTCACCATTGCGATAGCCCCGCATCAGATATATGGACCGAGGTGCG
TCGAGTATCATGGCATGTTTCGAGACTTGTCCACACGTCTCTCGGAACAG
TGCTCATGAACACGGTCAATTCCAACTTCCGAAATATGCCTTGTTTGGCC
CTCAAGTGACTCCCATGTACCATCAATATGTCATGCAGGGATAACCTGTT
CATGCCAAGCCTTCTTGAGGCTGCAGGAAAAGGACAGTTGCGGGTGTTCG
GCAACGGAAAGAACAAGGTTTCTTTCACCTACCTGGACAACTACTGTCAC
GGGTTAATTCTTGGATACGACGCCTTGTACAAGGTATTTACCACCTCCAT
TTTGATGTATCAAGACGCGTGTTCGCGGCTCGACTTCGTAGATGCCTTGG
ATTAAATTGAGACGGCAGGCCAGCTGCACTTTGACCTTGTCAGTCAGGAG
TCTACCCGACCTCCTGCAGCGTACGTGATGCTACGTCCGTTTTGGGTCTC
TCCTTGTTGATGCTTGTCGCTTATTCCCTTTCTATGGGGCGTCTGCCATC
GATTCGCAGGGGTCGCCAGCGTTGGGGAAATTCTACATCGTCACGGACGG
AGGCTGGCAGGTTAGTCTGCGCCATTGATTAAATCTGCTCAGAATCCAAC
GGCATATACATGTCAAAACGTACTGTTTGCTCTTCGACGGGGTTTCTTGG
GTTTTTGGGGTCCACTAGTGTATGTATCCGATGGGCTGCAAATATATCTC
GTTGCCTCATACCCTACTTGTGTCGTCTTCCCCGATCTATCCGGGTATGT
ATACGGTTCAACTTACTTTGTACCAGTATCTATTACGGTTCAGTTTACTG
AGTATTAGAGTTGGCCATCACCGTTGCAATCGTTCTTATGACCAGTTCCG
CCAAGGCGGAGGGTGAGGTACTGGGTTGTGTAGAGGTCGACTTATTTCTT
CCAAGAAGCCAACACCACGAGAGAGAGTCCTGCACCTGCAGGTTTCTTCC
GTTTATTTGTTGGCATACACCATACAAGATTGCAAGAGCAAGCTATTTTA
CTGAAATCCTCTGATTTTTGTGCCGATAGTTTATGTTGTGAAAGAGCACA
CGTATCATACACCCACGTTCGAGTCGAGCGCATCGAATGACGCGCTTACG
AAGCATCACTTGTCACAACTTTTCCTTTCACAAACGACTCAGTACTTCTG
GAGGGTGATCGACAGTGCGGGTATGGCCATGGGCTTTCAGTCTCTCTTCT
CCAAGACAAAGCTCCCCGCGCCTTTGATGGTGGCAGTGGGCTATATTTGC
GCAGCCATCGGCTGGGTTCTAGGACGCAATTTGCGGGTCAATCCCTTCAC
AGTAAGTTGAACTGGAAATGCCTTGCAATGTTTGGATCTCTCCTGACTAT
CTTGTCTACCCGTTTATACCATTGACCAGCAAGAATGTTGTGCAAGTGCC
CAACAACAGCATATTGAAGGGTATACTAGGTCGTACCCGTCGACTTCGGT
ACACACATAACGCTGGTATGTTGTATGATCGAGTACTGTTCGGTGTCGTT
GAGGCAGACGGCACGGCCGGTAATGTGCTTCGTGTTCAAGCTAGGCTTGC
TCTATAGAGTGCAAATCAGGTACATGCGATCCAACACATGGATTCTTTAA
CCGTGTTGGCCTTCTCTGCTGCTCTTTTCGGCTGGTCATGATGCGTGATT
TCACTTGTGGCTAATATCTTCTCACAACCTTGAGCTGCCTTTTTTTTTCA
CAGAAAACCTCTCTATCGTGCTGGCAATTTTCTCTTCAGGTGAAAATGCT
CATCATCCACAGGTGGTTTGACATCTCGGCGGCAGAGCGCGACCTCAAGT
ACAGGCCAATCGTAACGTTTGAGGAAGGGTTTGCGAAGACCCTTTCTTGG
TTGAAAGAGGATTGGCTTCCCACGCACAAGGCCAAACATAGCTGA

Coding sequence (CDS) from alignment at P-littoralis_Contig67:496939..515733+

>mRNA_P-littoralis_Contig67.92.1 ID=mRNA_P-littoralis_Contig67.92.1|Name=mRNA_P-littoralis_Contig67.92.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1047bp|location=Sequence derived from alignment at P-littoralis_Contig67:496939..515733+ (Pylaiella littoralis U1_48)
ATGGGTGTAGAAGGCAAAGTTTGCGTAGTAACAGGAGGCTCTGGCCTCAC
TGGCAGGCGCTTGGTGGAGATGCTAGCTGAAAAAGGTGCCGCACGCGTGG
TGTCCTTCGACATTGCCCCAAAGCCCGCTGATGCAATGGAGCACCCAGCT
ATCGAGTACCAACAGGGAAACCTGACTATCCCCGAGGACGTCAACAAGGC
TTGCGAAGGAGCAGACTGCGTATGGCACATCGCGGCGCTGGTTGGGCCTT
TTCATGCCAAAGACGCTTACATGGCCGTCAACTTTCAAGGAACTCTGAAT
GTGCTGGAAGCATGCAGGAAGCACGCCGTGGGGAAGATCATCATGTCGAG
TAGCCCGAGTACCCGCTTCGATGGCAGTGATATCGACGGTCTCAAGGAAG
ACGACCTTGAAATCCCGAAGAAGTTCTTGCAGCTGTACGCAGAGAGCAAG
GCGATGGGAGAGAAAGCCGTATTGGAGGCTTGCTCGGACAAACTCCTCAC
CATTGCGATAGCCCCGCATCAGATATATGGACCGAGGGATAACCTGTTCA
TGCCAAGCCTTCTTGAGGCTGCAGGAAAAGGACAGTTGCGGGTGTTCGGC
AACGGAAAGAACAAGGTTTCTTTCACCTACCTGGACAACTACTGTCACGG
GTTAATTCTTGGATACGACGCCTTGTACAAGGGGTCGCCAGCGTTGGGGA
AATTCTACATCGTCACGGACGGAGGCTGGCAGTACTTCTGGAGGGTGATC
GACAGTGCGGGTATGGCCATGGGCTTTCAGTCTCTCTTCTCCAAGACAAA
GCTCCCCGCGCCTTTGATGGTGGCAGTGGGCTATATTTGCGCAGCCATCG
GCTGGGTTCTAGGACGCAATTTGCGGGTCAATCCCTTCACAGTGAAAATG
CTCATCATCCACAGGTGGTTTGACATCTCGGCGGCAGAGCGCGACCTCAA
GTACAGGCCAATCGTAACGTTTGAGGAAGGGTTTGCGAAGACCCTTTCTT
GGTTGAAAGAGGATTGGCTTCCCACGCACAAGGCCAAACATAGCTGA