mRNA_P-littoralis_Contig104.126.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig104.126.2
Unique Name	mRNA_P-littoralis_Contig104.126.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: D7G0Z8_ECTSI (Pribosyltran domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G0Z8_ECTSI)

HSP 1 Score: 649 bits (1673), Expect = 9.400e-227
Identity = 314/334 (94.01%), Postives = 327/334 (97.90%), Query Frame = 3

Query:  570 DKRSVEEEWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLDLHSSI 1571
            D RSVEEEWPFHKSRRSQHRYQI+AAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTP+NVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERV+KEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIP+L+ E+K+ DIDCIAFPDDGAAKRFAHMFA LG+HTVICGKVRDGE RSITIQDGDPAGKNIIIVDDLVQTGGTLYECG+ALKA GA SVQAFVAHGVFPKEAWKRFAKGGDRCVFD+FLVTNSIPTTTDKLP+DDVYVVLDLV+RIKEDLDLHSS+
Sbjct:    7 DNRSVEEEWPFHKSRRSQHRYQILAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPYNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVVKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPILINELKKGDIDCIAFPDDGAAKRFAHMFAGLGFHTVICGKVRDGEIRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGLALKAGGANSVQAFVAHGVFPKEAWKRFAKGGDRCVFDKFLVTNSIPTTTDKLPKDDVYVVLDLVNRIKEDLDLHSSV 340

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A835YPL2_9STRA (Phosphoribosyltransferase-like protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YPL2_9STRA)

HSP 1 Score: 532 bits (1370), Expect = 5.330e-181
Identity = 256/331 (77.34%), Postives = 292/331 (88.22%), Query Frame = 3

Query:  576 RSVEEEWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLDLHSS 1568
            RS  EEW  HKS+R+  RYQI+AA+AME +   LE  +P RFRFH T+WGKFPDGTD IEIGGFTPHNVISGEHVLFL SFHNNDVTLSQFQVMI LLQ FVE LTVVLPYYPTGTMERV +EGQVATANTYAQ+FSNLPSCG+PTR++VYDLHTLQNRFYLHGNAIASLQT+IP+L++E++R+++DCIAFPDDGAAKRFAHMFA  G+ TVICGKVR+G+ R ITIQDG+P  +NI+IVDDLVQTGGTLYECG ALK  GA SV AFVAHGVFP EAWKRFA+GGDRCVFDRF +TNSIPTTTD+LP+DDVY VLD+  +I +DLD ++S
Sbjct:    8 RSAVEEWIMHKSKRTSKRYQIIAAKAMEPMARLLEANYPARFRFHPTAWGKFPDGTDCIEIGGFTPHNVISGEHVLFLGSFHNNDVTLSQFQVMIALLQNFVEDLTVVLPYYPTGTMERVTREGQVATANTYAQLFSNLPSCGRPTRVMVYDLHTLQNRFYLHGNAIASLQTTIPVLIDELRRTNVDCIAFPDDGAAKRFAHMFAGEGFATVICGKVRNGDERVITIQDGEPRARNIVIVDDLVQTGGTLYECGAALKERGALSVCAFVAHGVFPSEAWKRFARGGDRCVFDRFWLTNSIPTTTDRLPKDDVYTVLDISDKIVQDLDKYTS 338

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: W7TDA8_9STRA (Phosphoribosyltransferase n=3 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TDA8_9STRA)

HSP 1 Score: 488 bits (1257), Expect = 1.710e-162
Identity = 230/312 (73.72%), Postives = 269/312 (86.22%), Query Frame = 3

Query:  621 QHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLD 1556
            + RYQI+AA   E +  RL+  +P+RFRFH T WGKFPDGTDNIE+GGF PHNV++GEHVLFLASFHNNDVTLSQFQVM+ LLQ F+ESLT+VLP+YP GTMERV KEGQVATANTYAQMFSNLPSCG+PTRLL+YDLHTLQNRFYLHGN+IASLQT+IP+L +EI++  IDC+AFPDDGAAKRFAHMFA L    V CGK RDG+ R+IT+QDG+P  K ++IVDDLVQTGGTLYECGVALKA GA SV AFVAH VFP E+WKRF++GGDR VF++F  TNSIPT T+ LP++DV+VVLDL+ +I  DLD
Sbjct:  122 ERRYQIIAAPVCEPMARRLQIQYPERFRFHPTYWGKFPDGTDNIEVGGFQPHNVMAGEHVLFLASFHNNDVTLSQFQVMVMLLQSFIESLTIVLPFYPVGTMERVSKEGQVATANTYAQMFSNLPSCGRPTRLLIYDLHTLQNRFYLHGNSIASLQTTIPILFDEIRQEKIDCVAFPDDGAAKRFAHMFAPLTLELVTCGKTRDGDKRAITVQDGNPKNKRVLIVDDLVQTGGTLYECGVALKALGAASVSAFVAHSVFPNESWKRFSRGGDRSVFEKFWTTNSIPTVTNNLPKEDVFVVLDLLEKIVYDLD 433

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A7S0GEW9_9STRA (Hypothetical protein n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A7S0GEW9_9STRA)

HSP 1 Score: 480 bits (1235), Expect = 9.410e-160
Identity = 231/323 (71.52%), Postives = 271/323 (83.90%), Query Frame = 3

Query:  603 HKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVR-DGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLDLHSS 1568
            H  +R   +Y+I+AA+  E +  ++EE++PDRF FHKTSWGKFPDGTDNIEIGGFTPHN+ISGEHVLFLASFHNND TLSQFQVMICLLQ F+ESLTVVLPYYP GTMERV KEG VATA TYA MFS+LPSCG+PTRL+VYDLHTLQNRFYLHGN++ASL +SIPLL E ++ S+IDC+AFPDDGAAKRFA MF D+G   ++CGK R DG++R++ IQDGD  GK+I+IVDDLVQTGGTL+ECG  LK AGA +V AFVAH VFP  +W RFA GGDR  FD+F VTNSIPT TD LP+DDV+ VL L  +I +DLDL+SS
Sbjct:   75 HNRKRQGMQYRIIAADEHESMAGKMEEIYPDRFTFHKTSWGKFPDGTDNIEIGGFTPHNLISGEHVLFLASFHNNDSTLSQFQVMICLLQSFIESLTVVLPYYPVGTMERVTKEGIVATAATYAHMFSSLPSCGRPTRLMVYDLHTLQNRFYLHGNSVASLHSSIPLLKERLRASNIDCVAFPDDGAAKRFAAMFQDMGMEIIVCGKTRGDGDSRNVAIQDGDAKGKHIVIVDDLVQTGGTLFECGKVLKDAGALTVNAFVAHAVFPNRSWTRFALGGDRACFDKFWVTNSIPTVTDVLPKDDVFEVLKLTQQIIDDLDLYSS 397

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A6V1QDY3_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1QDY3_HETAK)

HSP 1 Score: 478 bits (1231), Expect = 2.550e-159
Identity = 228/323 (70.59%), Postives = 269/323 (83.28%), Query Frame = 3

Query:  585 EEEWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDL 1553
            EEE   H+    Q RYQ++AAEA E L   LEE  P RFRFH T W KFPDGTD I +GGF PHNV++GEHVLFLASFHNNDVTLSQ QV+I LLQ F+ SLT+VLPY+PTGTMERV +EG+VATANTY+Q+ SNLPSCG+P RL+VYDLHTLQNRFY HGN IA+LQT+IPLL++E++ SDIDCIAFPDDGAAKRF HMF   G   V+CGK+R+G+ R I+IQDGDP GKN++IVDDLVQ+GGTLYECGVALK  GA  V AFVAHGVFPK++W RFAKGGDRC F++F +TNSIPTTT  LP+DDV+VV+D++ +I EDL
Sbjct:   64 EEESIEHRKMLEQRRYQVIAAEACEDLAVALEERFPARFRFHPTLWEKFPDGTDRIHVGGFQPHNVMAGEHVLFLASFHNNDVTLSQIQVLIMLLQNFIRSLTIVLPYFPTGTMERVTREGEVATANTYSQLLSNLPSCGRPNRLMVYDLHTLQNRFYFHGNTIATLQTTIPLLLKELQNSDIDCIAFPDDGAAKRFGHMFKGFG-EVVVCGKIREGDARRISIQDGDPRGKNVLIVDDLVQSGGTLYECGVALKDKGATKVNAFVAHGVFPKDSWMRFAKGGDRCCFEKFYLTNSIPTTTKALPQDDVFVVIDIMEQIVEDL 385

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A7S2I9D5_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2I9D5_9STRA)

HSP 1 Score: 474 bits (1220), Expect = 1.400e-158
Identity = 226/326 (69.33%), Postives = 269/326 (82.52%), Query Frame = 3

Query:  594 WPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVR-DGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLDLHSS 1568
            W     +R   +YQI++AEA E + +R+EE +PDRF FH T WGKFPDGTDNIEIGGF PHN++SGEHVLFLASFHNN+V+LSQFQVMICLLQ F+ESLTVVLPYYP GTM+RV KEGQVATA TYA MFS+LP+CG+PTRL+VYDLHTLQNRFYLHGNA+ASLQT+IPLL E ++ S+IDC+AFPDDGAAKRFA +F D+    ++CGK R +G++R++ I DG+  GK I+IVDDLVQTGGTLYECG ALK AGA S  AFV H VFPKE+W+RFA GGDR  FDRF VTNSIP  TD LP DD++ VLDL+  + +DLD +SS
Sbjct:    2 WNQVSRKRQSKQYQIISAEACESMAKRMEEEYPDRFTFHPTKWGKFPDGTDNIEIGGFLPHNLLSGEHVLFLASFHNNEVSLSQFQVMICLLQSFIESLTVVLPYYPVGTMDRVTKEGQVATAATYAHMFSSLPNCGRPTRLMVYDLHTLQNRFYLHGNAVASLQTAIPLLKERMRTSEIDCVAFPDDGAAKRFAALFTDMDLEIIVCGKTRGEGDSRNVQITDGNAEGKRIVIVDDLVQTGGTLYECGKALKEAGAHSANAFVTHAVFPKESWRRFAAGGDRACFDRFWVTNSIPNVTDNLPDDDIFEVLDLMQIVIDDLDHYSS 327

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A7S2R758_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2R758_9STRA)

HSP 1 Score: 468 bits (1203), Expect = 2.860e-155
Identity = 225/322 (69.88%), Postives = 264/322 (81.99%), Query Frame = 3

Query:  591 EWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLD 1556
            E+  H+  +S+ RYQI++AE  E +   LE  +P+RF FHKTSWGKFPDGTDNIE+GGFTPHNVI+GE VLFLASFHNNDVTLSQFQVM+ LLQ F++ L VVLPYYP GTMER +KEGQVATANTYAQMFSNLPSCG+PTRL++YDLHTLQNRFY+HG+ IASL+T++P L+  +    IDCIAFPDDGAAKRFAHMFA L    V CGKVRDGE R +TIQDG+P G+ I+IVDDLVQTGGTLYECGVAL+  GA  V AFVAHGVFP+ AW RFA  GDRCVF +F +TNSIPTTT+ LP ++ + VLDL  ++  DLD
Sbjct:   55 EYARHRDTQSRKRYQIISAEIWEDMALNLEATYPERFHFHKTSWGKFPDGTDNIEVGGFTPHNVIAGERVLFLASFHNNDVTLSQFQVMVMLLQSFIDELVVVLPYYPVGTMERTVKEGQVATANTYAQMFSNLPSCGRPTRLIIYDLHTLQNRFYMHGSVIASLKTTVPRLLPLLDGYGIDCIAFPDDGAAKRFAHMFAHLDLEIVTCGKVRDGEKRIVTIQDGNPEGRTIVIVDDLVQTGGTLYECGVALRDQGAKEVFAFVAHGVFPQAAWTRFAADGDRCVFKKFFLTNSIPTTTNSLP-EETFEVLDLTPQVVHDLD 375

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A7S4R782_9STRA (Hypothetical protein n=3 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4R782_9STRA)

HSP 1 Score: 465 bits (1197), Expect = 2.900e-154
Identity = 231/336 (68.75%), Postives = 269/336 (80.06%), Query Frame = 3

Query:  567 SDKRSVEEEWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVR-DGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLDLHSSI 1571
            +D+ S  + W    S+R   +Y+I++AEA E + +R+EE HPDRF FH T W KFPDGTDNIEIGGF PHN++SGEHVLFLASFHNNDVT+SQFQV+I LLQ FVESLT+VLPYYP GTMERV KEG VATA TYA MF +LPSCG+PTRL+VYD+HTLQNRFYLHGNA+ASLQT+IPLL  +IK S+ID IAFPDDGAAKRF+ +F+D+    +ICGK R +G+TR I I DG+  GK I+IVDDLVQTGGTLYECG  LK AGA SV AFV H VFPKE+WKRFA GGDR  FD+F VTNSIPT TD LP D ++ VLDL+  I  DLD  SSI
Sbjct:   49 NDQMSQCKMWNRRISKRQSMQYRIISAEACETMAKRIEEAHPDRFTFHPTKWSKFPDGTDNIEIGGFHPHNLLSGEHVLFLASFHNNDVTMSQFQVIIVLLQSFVESLTIVLPYYPVGTMERVTKEGTVATAATYAHMFGSLPSCGRPTRLMVYDIHTLQNRFYLHGNAVASLQTAIPLLKGKIKLSEIDAIAFPDDGAAKRFSVLFSDMDLEIIICGKTRGEGDTRHIVITDGNAEGKRIVIVDDLVQTGGTLYECGKVLKEAGALSVNAFVTHAVFPKESWKRFALGGDRACFDKFWVTNSIPTVTDYLPNDGIFEVLDLMETIINDLDHFSSI 384

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: F0Y0J1_AURAN (Pribosyltran domain-containing protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0Y0J1_AURAN)

HSP 1 Score: 457 bits (1175), Expect = 2.930e-152
Identity = 211/294 (71.77%), Postives = 253/294 (86.05%), Query Frame = 3

Query:  675 LEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRIKEDLD 1556
            +E   PDRF FH++SW KFPDGTD I +GGF+P N+I+GEHVL L SFH+NDVTLSQFQVM+ LLQ F++SLT+VLP+YPTGTMERV+ EG+VATANTYAQ+FS LPSCG PTRL+VYDLHTLQNRFYLHGN IASLQT+IP L+  +++S +D +AFPDDGAAKRF HMF    Y  ++CGK+RDG+ RS+T+QDGDPAG+N++IVDDLVQTGGTLYECGVAL+  GA  V AFVAHGVFP++AW RFA+GGDR VFD F VTNSIPTTT+KLPRDDV+ V+DL +RI +DLD
Sbjct:    5 IEASQPDRFHFHESSWDKFPDGTDKIVVGGFSPRNLIAGEHVLMLCSFHDNDVTLSQFQVMVMLLQGFIKSLTIVLPFYPTGTMERVVLEGEVATANTYAQLFSALPSCGSPTRLVVYDLHTLQNRFYLHGNTIASLQTTIPCLLPYLEKSGVDAVAFPDDGAAKRFKHMFDPATYEIIVCGKIRDGDVRSVTVQDGDPAGRNVVIVDDLVQTGGTLYECGVALEQLGAAKVSAFVAHGVFPQDAWLRFARGGDRDVFDTFYVTNSIPTTTNKLPRDDVFTVIDLTARIVDDLD 298

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BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Match: A0A7S3GPV5_9STRA (Hypothetical protein (Fragment) n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3GPV5_9STRA)

HSP 1 Score: 456 bits (1172), Expect = 3.210e-151
Identity = 212/324 (65.43%), Postives = 268/324 (82.72%), Query Frame = 3

Query:  570 DKRSVEEEWPFHKSRRSQHRYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPHNVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTMERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAIASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKVRDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQAFVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLDLVSRI 1541
            +K++++++W  + S+ S+ RYQI+AA  MEGL  ++ + +P RFR+H+T W KFPDGTDNIEIGGF P N I+G+H+L LASFHNNDVTLSQF VMI LL  F+ESLTVVLP+YP GTMERV++EGQVATAN+YAQMFSNLPSCG+PTRL++YDLHTLQNRFYLHG+AIASLQT+IPLL++ I+ + I+C+AFPDDGAAKRF++MF DLGY  V CGK RDG+ R + IQDG P  K+++I+DDLVQTGGTL+ECGVAL+AAGA SV AFVAH VFP   W+ F   G+R  F+RF VTN+IPT  + +PR+DV+ VLD+  +I
Sbjct:   15 EKQAIKDDWANYFSKTSEQRYQIIAAPCMEGLARKIVDYYPRRFRYHETQWRKFPDGTDNIEIGGFQPVNQIAGQHILMLASFHNNDVTLSQFSVMITLLGSFIESLTVVLPFYPVGTMERVVQEGQVATANSYAQMFSNLPSCGRPTRLVIYDLHTLQNRFYLHGHAIASLQTTIPLLIDRIRSTQINCVAFPDDGAAKRFSYMFTDLGYEIVTCGKTRDGDKRIVNIQDGRPFNKHVLIIDDLVQTGGTLFECGVALRAAGALSVSAFVAHPVFPNHTWRSFLSSGERNCFERFFVTNTIPTVAEVIPRNDVFEVLDISRKI 338

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig104.126.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G0Z8_ECTSI	9.400e-227	94.01	Pribosyltran domain-containing protein n=1 Tax=Ect...	[more]
A0A835YPL2_9STRA	5.330e-181	77.34	Phosphoribosyltransferase-like protein n=1 Tax=Tri...	[more]
W7TDA8_9STRA	1.710e-162	73.72	Phosphoribosyltransferase n=3 Tax=Nannochloropsis ...	[more]
A0A7S0GEW9_9STRA	9.410e-160	71.52	Hypothetical protein n=1 Tax=Proboscia inermis Tax...	[more]
A0A6V1QDY3_HETAK	2.550e-159	70.59	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
A0A7S2I9D5_9STRA	1.400e-158	69.33	Hypothetical protein n=1 Tax=Helicotheca tamesis T...	[more]
A0A7S2R758_9STRA	2.860e-155	69.88	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A7S4R782_9STRA	2.900e-154	68.75	Hypothetical protein n=3 Tax=Ditylum brightwellii ...	[more]
F0Y0J1_AURAN	2.930e-152	71.77	Pribosyltran domain-containing protein n=1 Tax=Aur...	[more]
A0A7S3GPV5_9STRA	3.210e-151	65.43	Hypothetical protein (Fragment) n=1 Tax=Spumella e...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig104	contig	P-littoralis_Contig104:547995..567709 -

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.D7G0Z8
PFAMs	Pribosyltran
Model size	2520
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	chloroplast
Exons	10
Evalue	6.71e-233
EggNOG OGs	COG0462@1\|root,KOG1448@2759\|Eukaryota
Ec32 ortholog description	Phosphoribosyltransferase-like
Ec32 ortholog	Ec-23_003970.1
Description	ribose phosphate diphosphokinase activity
Cds size	1398
COG category	EF

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig104.126.2	prot_P-littoralis_Contig104.126.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig104 548941..567533 -

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


Feature Name	Unique Name	Species	Type	Position
1680789377.8257842-UTR-P-littoralis_Contig104:547994..548940	1680789377.8257842-UTR-P-littoralis_Contig104:547994..548940	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig104 547995..548940 -
1680789377.9713678-UTR-P-littoralis_Contig104:567533..567709	1680789377.9713678-UTR-P-littoralis_Contig104:567533..567709	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig104 567534..567709 -

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


Feature Name	Unique Name	Species	Type	Position
1680789377.8377225-CDS-P-littoralis_Contig104:548940..549087	1680789377.8377225-CDS-P-littoralis_Contig104:548940..549087	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 548941..549087 -
1680789377.8504686-CDS-P-littoralis_Contig104:549863..549980	1680789377.8504686-CDS-P-littoralis_Contig104:549863..549980	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 549864..549980 -
1680789377.863973-CDS-P-littoralis_Contig104:550901..550988	1680789377.863973-CDS-P-littoralis_Contig104:550901..550988	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 550902..550988 -
1680789377.8801758-CDS-P-littoralis_Contig104:551620..551708	1680789377.8801758-CDS-P-littoralis_Contig104:551620..551708	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 551621..551708 -
1680789377.8922126-CDS-P-littoralis_Contig104:552421..552510	1680789377.8922126-CDS-P-littoralis_Contig104:552421..552510	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 552422..552510 -
1680789377.9027057-CDS-P-littoralis_Contig104:552991..553087	1680789377.9027057-CDS-P-littoralis_Contig104:552991..553087	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 552992..553087 -
1680789377.9207997-CDS-P-littoralis_Contig104:554616..554715	1680789377.9207997-CDS-P-littoralis_Contig104:554616..554715	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 554617..554715 -
1680789377.931824-CDS-P-littoralis_Contig104:555372..555468	1680789377.931824-CDS-P-littoralis_Contig104:555372..555468	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 555373..555468 -
1680789377.9442308-CDS-P-littoralis_Contig104:556200..556342	1680789377.9442308-CDS-P-littoralis_Contig104:556200..556342	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 556201..556342 -
1680789377.959182-CDS-P-littoralis_Contig104:567096..567533	1680789377.959182-CDS-P-littoralis_Contig104:567096..567533	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig104 567097..567533 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig104:547995..567709-
coding sequence from alignment at P-littoralis_Contig104:547995..567709-

protein sequence of mRNA_P-littoralis_Contig104.126.2

>prot_P-littoralis_Contig104.126.2 ID=prot_P-littoralis_Contig104.126.2|Name=mRNA_P-littoralis_Contig104.126.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=466bp
MAPQRRGINEALHRYVSLLPMVLSLLLLALLQSRSARAFVMLPSRAVHDQ
VASTTTTAAATTAVAAAAMGRRRRCRSDGASDGRLGISNGGEAKDGAAEC
FRRYSSSSNRVGGNRGGVVLSMGSSSSSSGSDKRSVEEEWPFHKSRRSQH
RYQIVAAEAMEGLGERLEELHPDRFRFHKTSWGKFPDGTDNIEIGGFTPH
NVISGEHVLFLASFHNNDVTLSQFQVMICLLQYFVESLTVVLPYYPTGTM
ERVIKEGQVATANTYAQMFSNLPSCGKPTRLLVYDLHTLQNRFYLHGNAI
ASLQTSIPLLVEEIKRSDIDCIAFPDDGAAKRFAHMFADLGYHTVICGKV
RDGETRSITIQDGDPAGKNIIIVDDLVQTGGTLYECGVALKAAGAGSVQA
FVAHGVFPKEAWKRFAKGGDRCVFDRFLVTNSIPTTTDKLPRDDVYVVLD
LVSRIKEDLDLHSSI*

mRNA from alignment at P-littoralis_Contig104:547995..567709-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig104.126.2 ID=mRNA_P-littoralis_Contig104.126.2|Name=mRNA_P-littoralis_Contig104.126.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=19715bp|location=Sequence derived from alignment at P-littoralis_Contig104:547995..567709- (Pylaiella littoralis U1_48)
CACACCCCACACCCTGAAGCAGTTTTTACTTTTCCACGATTTCCCCAACC
CATCTACAAGTACTTTACTTTCGTAAAATCATCCCGTCCCCCCCAACCGA
CCAAGTTAAGCAGCAGAGCCGCAGCCAGCCGGCCGCTGGCACACCAGCTG
CTCTCTTGTCAGGCGTGGATGTACCAATGGCACCACAAAGGAGAGGAATC
AACGAGGCTCTACATCGATATGTATCCCTCCTTCCGATGGTGTTGTCCCT
CTTGCTCCTAGCTCTGCTCCAAAGTCGGTCTGCGCGAGCGTTCGTGATGC
TGCCGAGTCGAGCCGTGCACGACCAGGTGGCTAGCACGACAACAACCGCA
GCAGCGACAACAGCAGTAGCAGCAGCAGCCATGGGAAGACGACGACGATG
CCGCAGTGATGGTGCTAGCGATGGAAGGCTAGGAATAAGCAACGGTGGCG
AGGCAAAGGACGGAGCGGCGGAGTGCTTCCGACGCTACAGCAGCAGCAGC
AACAGGGTTGGTGGTAATAGAGGGGGGGTGGTATTGTCCATGGGCAGCAG
CAGCAGCAGCAGCGGTAGCGACAAACGGTCGGTTGAAGAGGAGTGGCCGT
TCCACAAGAGCAGGTGTGGTGTGGTGCTGAGGATGATTGCAGTCGCCACT
GATGGGGTGTGTGTCAGGAAGCGTATCACGTACTGAGAAGTTAAAGTAAT
CCGTACAGTGCGATTCTTTGTGCGATTTGTATAGTACAGGCAGAAGAATT
TTTCCAAAGGGGGTACCGGTTTTTTCTCCGTCATTTTTGGGAGTTGACAG
GTGAAACAAACTTTTCCAGAATCGCGCGGCCGAGAGGAACTCAAAACCGG
TCTTAAAAAAAAAATTCCATGAACAATGGCCATTTTCGACTTTTTTTGGG
ATTTTTTTTTTTTTTTCCTTTTTTTTCCTTCCTTTTTTATCCTGAAACCG
CAAAAAAAAAATGCCCCTAATCGAAACTGAATTAACCCCAACCCACCACC
CAATCCATGACCGACTTGTCGAGAAGACACTTCGTGATAGCGAAGCAAGG
TACTGCTGTACTCATACATATCCTCGGATTCGGATGAATTGGACCTGTAC
CCAGGACCATTTTTTTTTTTTTTGAAAAAAACTCTGTGGGCCGAGAAAAG
CCGTTGTGAAAAATGGCGCCCTCAGTATTTTTTTTTGAATAATTAACACT
TGAAGTTAGAGTACCAACAGGGCACAACCATCAAGTACACACCAGGTGGC
ACACACACGTTGGATAGACTCTATGAAACACTTGAACAAATCATTAAAGC
ACTTGAACGACTCGCGCTTGGACACGAGTTTGGAGACGGTGGCGTCGGCT
CCTACGCAAAGTTGATGTTGTGTATTTTACTTTTATATACATATCATATG
ATATCATACCAGGTATATTTACCTACTGCTGTGAATTGTTTGTACATGTG
TATATATATACGGAGTATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTTTTCTTCACATTAAAAATCGTTCCAATCTCTGCTAGTGTATG
AGATATATTTAAATATATACAGTTTTTCGACATCCATCGTGCCAGTTTTG
CGCTAAAATCTCCACAGCTGGAGCAGGGAAAAGTGGGTTTTTCGCCCATA
TCTCGCTTAAAAATAGATGAAACAAGAATCTGCTTCGACAGGAATCTGCC
CCTGGTCGAGATACGTTCAAAACCGGTGTCAAAAAAAAAAGATGACACCT
GTGTCGACCTGCAAAATCTCGACCAATTTTTATCGAAAAACCGAATTACT
CCGACGCAACAAAAAAAAAAAAATCTGCCACGATGGTTCGATCCGTCTGA
AAGAGAGCTTTCCGTCGATATATTTTATGTCTTGTAAAAGTAAGTGACCA
CCTCAAAACAACTCAATATATAAATGTCGAACTTTTGGAAAAATTCTTCT
GCCTGTACCATAATACTGCTGTACCTGTATCATATACAAGGGTTTCGGCG
GCTGACGCCGCCACGGTCGTGACCGACTGCTGTAGTAGCGGCTGGGCGCG
GGTATTTGTATTGAGAGGATGGGCAGACACATGACATTGTGTCAAACAGC
CACACCACACGAAGGCACATTTTCTTTAATTGTCTAGGCGAAAACCGTCA
CACCACGTATCAGAATACATACGCAGTAGTAGGGAAAGGAAGAGTCCCTC
TCTTTTCGTAAGACTACTTATTTTAGCTGAAAAAGAACTTCTTAGAATCC
GCCTTTTTCAATAAGAAGAATTCCAATAGGATCTTCGAAAAGCAACGCTT
CTTGTAACCGCAATTGATTTTATTTTTTCCATGGGTGACTCCTTTTTTTT
TTGACAGACGGTGTTGACATCGTTTCAACAGGCTGCTACTGCTGCTGCTG
TACCGTATTTGTTGATCACTTTCGAATGAATGAAGCCACAGCAATATCAA
AGCCATGCCCCGTAAGCTGTGTGTATGGTCGGGCATCTCCGATTGTCGTT
TGAGGCCGCGAGGCATCAACAGGCTCACAAAAAAAGAGTGCAGGCGTCGA
TGATGTGTGAAAAAAAATAGGAAAAGAGAAGGAAGTCCGCAGCAGCAGCA
GGAAGCAGCAAGGTATTTTGCGCAGGTACACCAGTTTGGTTTCTCTTCCA
TAACCATCGAACCAATTAAGCCACAGCAATACCGAAGCCATCGACCGTGA
GCTGTGTGTCTTGTCCCCCTCCTCCGTTGGTAATCTTGGGCCGCAAGGCA
TCAATAGGCTAACAATCTAGCTCTTGCAGAAACCGATCACTCGTGAAAAA
GAGAAGAAATCTCCGCCGTCTGTCTGTCTGTACTGCTGTACAGGAGTATA
TATACAGCAGTATGTTTTTGCTGGACTCAACGGCCTTTCTTTCTTCTCAA
TTATTTCACAACTCGTCGGTTTCTGCAACGCTTCTATTGCTAGCCAGTTG
ATGCCTTGCGGCCTTAGATGACAACCGGAGGACAAGGACCAGAGGCATAG
CTCACGGGCGATGGCTTTGGCATTGCTGTGGCTCAATTGGTTCGAGAGTG
ATGGATAAAAAACCAAACTCATGTAGCGGCCCAAAACACAAAATACCTGC
TGCTGCTGCTTGCTGCGGCTCCCTCTGCCCGCTCTCCTCCCTCACCCCAC
ACTACTCTTGAGTTCCGTCCATTGCTCTCAAACGATTGAACCCACGGCAA
CAACAAAGCAATCGCCCTTGAGCTGTGTGTCTGGTCCCTCTCCTCCGTAG
GTCATCTGGGGCCGCGAGGTATCGATAGGCTTGCAAAAATAATACCGCTG
TAGTTGTTCAAGTCACCCGACCCATCGTGAGTGGCTGTGTGAGGGAGGGC
CCAAAATTTCCCAATAAGCGTTATCTGATCGATCGAATCGCTTAGAAAAA
ATGATTTTTCTGAGCGATTGGGTCGATCGGAAAAAGTTATTGGAATAGTT
GAGATCAAAAAAGGGGTTTTTCCATCTATAACAAGTTGTCAAACCGCCCG
AGATCAAAAAAGGCCTTTTCTAAGGAGGGTTTTTGCAGCTACAATAAGTA
GTCTAAGGCTGTATTTTACGGTCAGCGTTATTTTGGCTTCGGGTGTTTTG
ACCCCCCTACAAGAATCCAACCAGAGAACCCCCCTACCCCCCCACCCGCA
AACAGCCCTGTTGCACGCATCGTGCGACAGCACCAACCAGAACTCGACCC
CTAGGACACAGATGCCGATCAAACCTGAAGGAGCGTGTGCTCCTATGTTC
TCAAGTTTGCCACAAGTTTGGTGACAGTAGATTCGGGCTGTGGCGAGATT
TTGGCGGCGGTGTGTGTTGGAGTTGGAAAAATAGATGAAACGAAATAACA
GACTTTGCTCCTGCTTTTCCGACCAAAAAACAGGCTCGGACAGCGTTTTT
TTCCACCGAATTTTCCTTCCTCAACCCACTCCGCCACCGAAATGTCGCTA
CAGCCAAAGCCCTGACACACCAAATTTCCTGTGGCCAACCTGAGAACACT
GGAGCGTACCCTCCAACAGTTGTAGTCTCGATTGGTTCTCAGGGGTCGAG
TTCTGCTTGGTGCTGTCTCCTGTTGTGCCCAAGAAGTAGATTTTTCAAAC
CGTTTGGGCTCTCTGTTTCGGGGGGGGGGGTACGTCGGGAGAAAAAACAC
AGGACCAAATAACATAGCCGTAAGAAACGGTGTAATACGGCAGTAAAGGC
CAGAACCGACACACATACAAACAGTACTGCAGGGAGTAAGATCCGGAGGG
CTAAACGCTCGCTGAACCCACGAGGGAGCTACATTTGCTTTCGTATTACA
GCAGGAAAGCAAAACAGTAATATTACCGAACGAAGGGAAAGGGAAGACAT
TGCAATTCCCGAGATGTCAACGCTCTCGCCCCGAACCCTGTGAATAGATT
GTACGAGGCAGTGGATGTGTAGTGGTGTTGTGTGGGGAAGGGGGGAGGGT
TCCCCCAAAGACCTTCTACGACCGTACTGCTGTAGGAGGGGTGGCCTCTA
TGCTACTACTACGTACAACATGCTGTTGGTTTGATGAGGACCCCCAACGG
TTTGAAACGTTTCCGCAGAGTCATGAAAAACCAATGCTCTGTGGTATCCT
GGTATCATACAGTACACATACGAAGCACGAAGTAATACAACTGTAGGTAT
ATGATGCAGCAGTTGTAACACTTCAACCACATCAACGGCGAAGTGGTCGT
TAGCTGCGCTGATGATCTGGAACTGACGACAGGGCTGCATAATATGATAT
CAGATGTATCATACGTGTACATCACACAGAGTGTGGCTCGAATTGACAGA
GTGATCTGATGTGATGATGTAATGCATGCATCAGAACGTATTCAAAGTGC
GGAGATAATCTGGCAGGGATGGACAAGAGATCCAAATTGCATGAAAAATA
AATATGATGTAAATGCAGCAGAAGAAGTACGTAGTATTCAATAAGCGGAG
ATAATTTAGTCCTCTACCGAAGTCATCTGCTCTGGTCCGCTGTTGTTGTT
GAGATGTTCACCCAGTTGCGTGACAGAGCGTGTGTACAGAACAATCTGAC
AGGGATTGATAATACAGGCTGGTTCACTCAAGAAGAAAGTAATGTATTCA
GCATCATTTTCTCACGCGGTTTTTTCCAGCTAGACCCTGAAATTTTGCAT
GCATGTTCTATGCCCTACTGCGCAACTTCTCGATAAATATGTTAGTATAG
AGGTATTTTTTGGTCTACATAGCTCACTTGGGACCCCAGAAACCCGGTAA
AAAAAACAACGCTGCACCCCGACAATCGAAAGTTGCGCAGTAGACCATAG
AACATACATGCAAAATTTCAAGGTCTTAACTCGAAAAAACCGCGTGAGAA
AACTCACGTCAGTGCGGTCAACTCCTAAACTTAACCCTTCGTACTTGAAT
TTAGAACGGAATCGGCCATTTTCAAGCACTTTTACGCTATCATTGGCCAA
ACTACGTCAATTCGTGAGAGTTTTGAAAAAATATTTCGTGGACACCTTCC
TCATAGCCCAGAAAGACCATACATCAGCGAAAAAAAGGTATACCTCGAAG
CTTATTTATCCGGCATTTAAAGTGGAAAGTCTGATATTCATTAAACTTGG
GGGGTGTTTTACCACGTCATTCCGTAGAAATGGCACATTTCCTTCCCTAG
CTCCACTGACATAGCCTTAAACAAATATTCGAGAACGTCACAGTCTTCTT
CTATTGACGGCGGTCAGTTTGGTACCATTTGTGTCGTAATCGGCGGTTTA
TTGCGTTCGGGACGGAGTGTTGAATACATGTTGGGTTCCTTTCGTGAACC
AGCCTGTAAGCGATCCAAATTGCACTACAAGTGTATAAGCTCGAAATGAA
CTGATTGCGACAGACAGAGATGGCTCGTGCTGAAAGATGATGTCATGCAG
CAGCAATAGTATTTAGACGGAAGTATAATAGCGTTCACCACATGAATGAT
GTCCGACAGTCCATAGATCATTGTCCAACTACACTTCGTGGTGATGGTGC
TCTCGAATGGGTGGGACAGAGAGGGGCGAGGAGGGTGGATAATACGGAGT
ATGCGGAAAACAGAGAGAGGCTACAGCAGTAGTAGTCCAACTATAATAAT
ACTGCTGTAGTACCCGACCTCGCGAAATAATAAAAATAAAAGATGGGTGG
ATATGAGACCCAATGTTTACAACAGGGATGGATGGACATGAGATCCGATG
TGCACAAACAGCAGTAGTAGCGTGGCTCGGAGTGATCTATCACGTCATCA
TGCATGGGTGATGTTGACGTGATGTTGACCACGTGGATGATCTCTGACAG
TCTATAGATTCTTGTCCAACTGCTTCATGGTGATGATGCTCTCGGATGGG
TGCGACAGAGAGGGGCGAGGGTGAATAATGCAGAAACAGAGGCTAGTCCC
AGTATAATACCCGACCTCGCGAGAAAATAAAAGCTGTCCCGCCGCGGTCG
AATTCCACGTGAAAACGAATGGAATCCTGGACTATGTATGAAAGCGCGAG
ACCGCGGGACCGCAGTGAGATTTCAATTGATAATATGGTATCTTGGGCTT
CCAGAGCTGTAAAGAGGCAGGTGATGGCCTGTGAGCGGTATTATAGAGGT
CCCGCCCTCTTATAATTTCAAGTGATCTGAGATCCTGCTATGATATCCTG
GTCTCCCAGAGCGGCAAAGATCTGTGAGGGGCAAAGAGGTCCCGCTGTAG
TCTATTTTCAAGTGAATGGTATCCTGGCCTGTCAGAGCTCTAGAGAGAGA
GGGAGATAGATGCTGGTCTGTCAGCGACCTAGAGGTCCCGCAGTGCAATT
CTAATTTCAAGTGAAGGAGTTTAATGCTGATGAATGAGCGAAAACTTCAA
AGTGTACCAGGTATATTTGTTACAAGGTTTTTGGCGCTACGCGCCCCCTC
TCAGTGCGAGCGATTCCAAGGCAAATGTTATAATGAAACGTTTGGGAGGC
CAGATGCCAGATACATGACATATTACAGTACCCCGATATATAATCTGAAC
GACATTCAATTCATTGTGAATCATGCGACGAGAGAGCCCCGAGATAGACA
GCGAGAGAGATGGTAAAATGAATAGAATAGATACAGAAAAATATATTATT
GATGAGAGGGAAAAAAAAAAGTGAAGCTGGCGGGGAAATGTTCTCGTCGT
ACTTCTTGTGTGAGGGGATAAAAAGAGGGAAGAAGGACGAGGAGAGAGTC
AAAAAAGATCTCTTTCATTGGTCATAAGAGAAATGAATGCGGAGAGAGGT
TGAAGAGTTGAAACAAATAATGACCACACCGCACGGCAGATAGGTAGGTG
CATCGCGCGCCCCCCCTGCTGGAAGAGCCAATTCAATACTGGAAGTAATA
AAAACAAAGAAAGCAACGCGGCAAAAAGATCCCATTACAGTACTTCTCAT
TTGAGAAATGTATGTCGAGAGGTAGGTACAGTAGAAGAATAGAGAAACAA
TATAATAACCACACCACCGAGAGAGAGGCGCTTCGCCCGCCCCCGTACTG
CTGGAAGAAGAGAAACCAATTGAATGCTTTTGAGGTAAAAACAAAGAAAC
TGGCGAGCGACAGAGGGGAGGGAGGGGCACAGACCGGGGGTGGTGTGTGT
ATGACGAGTGAGTGTAGTAGTGTAAAAGATTGCCCGCGGGGATACCGAAA
GAGGTTTGGTCTAAAGTCAAGTGAAATAACAGTGAAGAGAGGGACACCGC
ACAAGAAGAAAGAAATGGAGATGAGGCCCTCCCACAGGCGCCGAGAGAAA
CAAGAATGGCATACTGGTGGTGTGTGTGTTTTCCGCTTCCTCTTCTAGAA
GAAGGAACGAACGAACGCGCGGCGCACCCGACAAAGACTGTTGTAATACA
GTGTCGAACAAGAAAGAAAGGATGAATGCATGTAATATAGTATAATGTCC
GGATGTCCTCCACACACCGACAGCAGGGAGGGAGGGAGGGTCCTGCCGCA
TGATGCATGCCTGTGAGGTACACAGCAGTATACACAGCAGCAACAACATA
CAGCAGTACGCAACAACAACGAAAAGTGACTGGTAACGGCGAAGTAGAGA
GAGGCAACAGGGAGGAGAGTGGCACGGGGTGCACGATGATGACGAGTGCG
AGTAGTGACAAAAATTACGGAGATGGCGGGAACACTAGTGCTACATTGTT
GTAATTGGTGGATGCGGACCCTTCAACCTCACAACAACAGAAGAAAATAG
ACTATCGTTCGATGTTATATCCCAATTCACAGTGAGTGAGAAGCAACATC
GTTTGGTAAACATTCCGAAATGGGTGGGTAATATATATTTGCAACAACCA
TGAGAGAGGAGACGGCATTCAGCGTTGGTTAGATCGCAGGAGGAAGCCAG
GATAGGAGCGTTGTCATCGAGTGACCGATGGCTGAGGAGTGAAATCACGT
GAAAGGCCGAGAGAGCAGAGATGGCGGGAAAACAACGCGAATCCTTTCGC
CTGGCAACGAACGGAAGGAAAGAGAACACCACCAATTGATGTAAGAGAAC
CCAACCCATCCAGCAGTGAAAAGCGTAATGGTCGGCGGATTTTCCGAGGG
CATGTTTCAACGACACACTTGCAGAGAAAGAGAGAGAGAGAGAGAGAGAG
GACGGTCACAAAAGGAGGGCGGATAGGAGGAGGAGTGTTGTTGTCATCGA
GTGACCGATGTGTGGCTGTGAAATGATATCACGAGATATGTGCTTGTAAG
ATCATCATATGATATAGCGAGTTCATTCGCTGCAGAGCACGGGAGGCCTG
CGCCGCGGCGAAAGGAGGAACGTCTAGATGTCCGTCGCACAGAGTAGAGG
AGTGGCAGGAACGGGAGTACAGCTGAATTATATGATGATTGAAAAAAAAT
GCCCGCGGAGAAAATGAAAGAAGAAGTTCGGTCTAAAACCAAGTGAATAA
GTGAGAGAGGGTATGAAAAGTGGAACAAAATGCGCGGGGAGGAAATGAAA
ATCGAAGAGTCGAAGAGTTTATTCTAAAACCAAGTGAATAAGGGAGAGGG
AGACAACAGAAATGTAGGTCTGTCAGGCGTCGGAAGAAAGTGGTGCGAGC
CGCCCTGAGAGAGTAAATGAAGACCTGTACAAGTAAGAGTTCTTGAAAAA
AAAAAAGATTCGCATGCAGCAACTCTAGTGGAAAAAAAATTGATAAAAGG
ACTATATGATAGTAAGATGTGCATCGATACAGCGATAGTGCAAATGAAGT
CATCGTCATATGTATGATATCATATCATATGCATTTCAGTATTCGTACTC
GTACATATACGTATAACAGTATCGAACAGTAGGATTACAAATACAGCGTG
CATGTCAAATCACATCATGTTCAAGGAACCATACACACTGATACCGTACA
GTACGAAGTATCAAAGATACCGGTACTCCTGTCCCCTCTTTGTCTGTTCG
TGTCAGTCAATTGTTCAATCGCTTCCTTCCAAGCGAACGTGACACATCGG
CATTTTTGTGAAGCAGCAGTTCTGGACATGCATGGCTCTCGGCCGTTGAT
CGTCCATCTCGAGATCCGGCGCTGGTACACCGCCATACCGTGCTGCAAGC
GGTTTACCACCCGCACAACCCTGGCGGGCTTACACATGAACGTCTTTGAT
AGCCGTATTATCGGCTATGAAAAAGAGTAATATATAGCCTACACTCATGT
GGTATCATATTTCACCACACACGTGATTTGATAGGAGCGCGCAGCCGACG
TAAGATATGCTATGGTTATCCGTGAGTATGCAGCACAGCTGTATGTTTAG
TATTTTTACCCAGCACGTGTGTGTGTGTGTGTGTTGTACTCCCATCTATT
CTGGACGCCAGCCATCACCTTTCGGTGTGGCTAGCTAGTTGCCTACACCA
GCCGGGGTCCCACTGGAGGAAGGTCAACATACCCGAGAGTTTTTTTCTCT
TCCATCCTTGTTTTTTTTACATAACGACGTGGTATGTATGTATTGGCACT
CCGTGAATCAGATGGGCGATACAGGAACATATTTAAATACTTCACCAGCG
CTCCGAGTATGTATCGGATCATATATAGCAAGCATGCAAGTGCGAAATCA
GCGTAGAGGATGCGATGGTAATCCATCAGTACGTTGGGATGCGTTGGGAA
TCAATCAGTACTCCTGGATCATACCGGCTGACACGGCAATAGACTGAACG
AACCATTATCCCAGGCGTATGTGTGAACCCGCAGGAAGAGCTTTCGGAAG
CGTAGGGTGTAGGGTGGGCACATTTGGTACGCGGCAGGTGGGAGTGGTCC
CTGTGTACCGCACGTAGTAAAGTGCCAGTGACATACGTATGGAGTGCCGA
TGAAGTCGGTTGGCACGGACTATGGCACCAATCGTCACACCTACCTGCTG
TTGTGGTTGTCGTTGCTGTTGTTACGGTTGTTGCGGTTGGTTGTTTTTCT
TTGTTGTTGTTGCTAGCGGCCTCGCATGTATTGCTTTCCTTACAGCACAG
CAGTCGTCATTTCGACCATTGACCATGCGCCCCTTTCAAGACGCGGCACC
GCCGTCTCCACCCACACCTACACAGCAGTGATGAGAGTCACCACACCAAC
ATTTGGGGCACTCAACGCGATTTTGCCGCATCATCCCTGGTTCGATATGA
TGAGGAGTTTTTCGCATGTGATACATATACTTCCTCTGTATCATAAGTCT
GTGCCGTAATGTTTTTACGCCCCCTCAACGGTGTCCGATGTCTTCGGCGA
TAATTTTTTCGAAGTCTTCGGAGTTTTTTGGGTTGAAACACATATATATA
TTTTTCTTGCGCGCTACCCTGCGCATGGGCTAGCGGCTAACAAAAAAGTA
GTCAGGCCAAAAATGGCCGTATTTAACCCTTTCCAGAGGTGGAGTGGGGG
GCGGGGGCAAAAAAAAAACAATGCAATCCCCCCCAAAATTATCCCTAACC
CTGAACCTAGCCCCCCTACCTCAAAGATTCATGTCGAGTCCCTCCTTACT
AAAATCAGTATAATAGTGACGCGACGCTAAAACCAAGACACTTGGGTTTG
CCACACTAAAACGAAGATACTTGGGACTCATGCTCTAAAACCAAGGCATC
TGGCGGAATCAAAATTCTTTAAATGGGCCAAAATGGGCATATTTTGACTT
CATCTTAGTATAAACAACTGACTTTTTTTTTGTTTTGTTTTTTGCATCAG
CTTCTTTGAGACTTCATCTTTCGAACGAACCTAACTATAGGACGATCGAA
CAGTATGGATGCGCAAACAATTACACGCCCATAACAGCCCAGACTTATGA
TACAGAGGAAGTATATATATAATACGGAGTAGATGTGTAAATATTCACAG
CAATACAGCGTACTACGGAGTACTGATGACCCCCTATGTCGTCTCTCCTC
TTGGGGGTTTGGCGAAGGCGGTCCCAACATCGATACCAAATCGTGGCGGC
GGAGGCTATGGAGGGGCTAGGGGAGCGGCTGGAAGAGCTCCATCCCGATC
GTTTTCGGTTCCACAAAACTAGTTGGGGAAAATTCCCCGACGGGACCGAC
AACATAGAGGTTTGCACGGCATGGAAGGCTTTTTTCGTTCGAAGGGCAGA
TACTGCCGTGGTATGTATGATGTGTCAACATGTAAGTTTGCTTCTTCATT
TTCTATTCAAGATTGTGCACTCCAGAATTTTCCATTTTTCTTGGCTACAT
TCTGAGCCAGCCATCTCACCCGCTCCCTCCTCACCCCCCCCCCCCCCCCT
AAAAAGAATAATGCCACATCTCTCGACACCCTTACCCTTGCCTTACTTCT
TTGTTGTTTACTCGGAGGCCACGCGATGATTTCCATCAGTTGTATATAGG
ACTTTGAACGTAGTTTTTTTGTATCGTTTGGTGCCGTAGTAAAAGAAACA
ACGAATCTCCGCCGTTTCATCGCCCCGTTTTTTTTTTTGTTTTGTTGTGT
TTCCTCTTTTTCGTACGTATGTTGACCCGCTTTTGTTGTCTCGGAGGAGT
GCTCGGCTGCCTAAGGTTCTCGAGTAAAGAGGCTACGGTTTATCGGGAGA
TTCGTTGTCTGATTCCATCGTAGAGCCATGAACAATTACATGCAATACAT
GCAGAAAAGCATGCTTTGACTTTCTCGCCCTCCCTCCCTCCGTCCGTCCT
TCCCACTCCCACAACCTTGCCCTCGCCCTTACACACCTCTGTGGCTTCAT
TCCTCTCTTTCGTCATTTGAACCCCAATCATCCAATCTTCCGAATTTTTT
GTTGTTGTTTCCCGCGTTGGGCGTGCTCGAACGGCCCGAAGATCGGCGGC
TTCACCCCGCACAACGTCATCTCGGGCGAGCACGTCCTCTTCCTAGCCTC
CTTCCACAACAACGACGTCACCCTGAGCCAATTCCAGGTCTGTGTGTGCG
TGCATGTGTGTGTCTGTGTGTCTTGTGTGTTTGTTTGTGTTTGTGTGTAA
ATGTATGTATGCATGTGCGTGTTTATGTGTGTGCTCGTGGTCCGTCGTCA
TCTATCATCTATCCGGGGGCCGCCAGTCAACACGTTTCGGCACTTGTTGG
GATGCGCTGGCCGGAACCACTGGTGCGCGTGTGTGAAAAAATAAAAGGAG
AGAGAGAAAGAGACGTTTGCCATACCATCGGAAAATAAAATTCACTCCGA
GTAGGCATGATGCCCCCCCCCCTCCCCCCCCGTCCGCTGTCACGGGTCTG
CGGTATACGTCGTGATGCTGCCGCTGCAAGTCGACGAAATCACCCGTACA
AACAAAAAAAACTTTGCGGGTTTTGGCGCACATCTTTGGTGGGGCCTCGC
ACTCTTTGTTTGTCTATTCTTTTGCTTTCGTGCACGTTTCACACGTGTCG
TCCACTTCGGATTTTCATTCTTTTTTTTCTTCTCTTTTTTTTCTTGTGCG
TGTGAGCGTGAGTTATTCGTGTGAAGTGTGCGCGTGCGCGTGTGCGTGTG
CGTGTGCTTGGTCGTGCTTGCGTACCCGTGCGTCAACCAACACAAGGAGC
CCCATTTTACGTTCATTTTTTTGTCCGTTTCCGCTTTGACGCAGGTGATG
ATCTGCCTGCTCCAGTACTTCGTAGAATCGCTTACCGTCGTGCTCCCGTA
CTACCCGACCGGCACGATGGAGCGAGTCATCAAAGAAGGGCAGGTGAGGG
TTGGCGACGAGGCACAGCGCGCATAAAAATATCTACTTCGACGAAGCGTG
CCGCAGCGGCGGCCTCAAATGACATGTCAGAGGGATCTCCGATGCTGTTA
AAAGATGTCCGACGCTGTTAAGAGATCTCCCATGGGGTTCTCCGGCGGTC
TGTCACCCAGTTTCAAGCCAGTGTCGATTTTCCAGTTATTTCTTCTGCTG
AAAATACACGGGTGCTGCCTCGAACACCAAATTTTTTTTTTTATCAGTGT
TAGCGTTCTGGAAGTTTTTTTTTTGTTCGCGGGGACGTGGAAAAACATTT
TGTATCTTTTGCTCACGAGAGGCGTTTCGTCGTTTTACTCTGCAGCATAA
GCGGTGATCCCCGCACGGGCCGCGGATACAGTACACAGCTAGCAAATCAG
AGGGAGGCCTCAAGCATGCCATGTTCTTCTGCTGTGGACGCTCGCCGATG
GTAAGGCGTGGTAATTTTTCCTGCTTGGAACGCTAGAAACACACACAGCA
GTAGCGTCACCGCAACCGAACACGGGAGTCGTTTTGCTGTCGCGTCGGCG
CTTCTCTTTCAGAGCTCTCAGCAGCATAAGCTTCGCGCTCTAGCCTTTTC
GCGGTGAAAGCAGTCGACGAATTCGCTCGGTACTTCGCCACAGTTCGTGG
ATGTAGAACTCAGACAAAAAAAGTACCTTAGACGCTTGTTTTTGGTTACA
GAGTGTTGGATTGGCGATCACACGAGCGATAAGCCACAAGCGCAACAGCA
GTCACGCATCTTCTTCCATCGCCACCCCGTCTGCACCTCGTACCTTTTTT
TGTTCTGTTTTGTAAGACAGATTACATTCGAAAATTGAACGCTTTGGGCC
GAGGATGATGAAGAGGACACCAAACGCCCTGCCCGTCGGGCACAGTCAGG
GGTACTAATCGCCAAAGATAACTGTAGGATTTTTTCTTCAGATGTGTCCC
GGATCTTTCAGATGAAGAATCGGTCGAGCCAACGAAATTCCGAGAATCAG
TCCTCATTCTCCTGAAAAAAATCAAGTAGTTTCGATCCTCGGCATCATGG
GGCGGAATCCCCCCCCCCTTTTTTTTGTCGGCTGAACTTTTTCAATTCCC
TCGAATATAGACCGGACAGGTTTTGACGCGCGTACAAGGCAGGATTAGCA
CCCCTAACAGTGGTGCACGTACATGAGAGAGGGTGGCTTACAGAGCCTAC
GGCAGGGTGGCGAAAATTTGGATCGAAACTACAGCGGGAACTGCTGTTGT
GGAAACAAACCAGACATTCCCGTGGCTGGGAAAAGTGGGCTTGGGAGGGC
CCGCCCCCATCACAGCAGTTTTTTTAGTAGAACAAACCATAAGAAGGAGT
GAGTTTTTGCATACGTAGGCTTCAGCACGGGTATACACACATACTAGGGA
AGCAATTCGCGCCCGTGCCCCTCCGCTGACCCTCAGCGTCCGGTGTCTTG
TGTGCCTGTGTGTCTGCGTGTGCGCGCGATGCGTTTTGTCGTGACGAGCG
TTTGCGTTTTTATTCGCATCAGGTGGCGACGGCGAACACTTACGCGCAGA
TGTTCAGCAACCTCCCCTCCTGCGGGAAGCCGACCCGCCTCCTTGTCTAC
GACCTACACACCTTGCAGGCAAGAGGGCGAAGGAGGGCGAGATAATATAG
AAAGAAGGGGGGGGGGGGGTTGAGGCAAGAGAGGGAGAGTCAAAGATGTA
AAGAGAGTTGGAGACTTAAGTTAACGTTGGGGAAGTAGGTGGATCGGAGA
CAGTTGGAGAGAGAGAGAGAGGGAGGGAGGGAGAGAGAGACAGACAGAGA
GAGAGAGAGAGAGAGAGAAAGAGAGATTTTGGGAGTTGAACATAATGTGA
AGAAGCGGCTCCGTCCGTGCGATCAGCCGGTCTGCTGCTGCTGCTGTCGG
TGTGAGCTGCTGCGAGCTTTTGCCGAGACGTGACTGGCCTGGATGGATGC
GCCGACGAGTGCTGGTCATACTTGTCTACTGCTGTACGTGCACACGTGCT
TCCGGTTGCGCTCACGCGCTTGCGCGCCCGCGGCGCGTGTTTACGTGTAC
GTGTGCGTGTTTGCTTTTGCATTTTCGTTTGTTCTCCGTTTTTTCGCAGA
ACCGGTTCTACCTCCACGGTAACGCCATCGCGTCTCTGCAAACCAGCATC
CCACTCCTCGTGGAAGAGATCAAGAGGAGCGATATAGAGTGAGTTCGCGT
GAAATACGTTTTGAGTTCCGGGATGCGTTTTCTTAGCTGGGGCCACGCTC
GACACCGTATCTCATCCCTTCTTTTCGCGGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGCTGCTGTTGTGATTGTTGCTGTTGCTGT
TGCTGTTGTTGGTGCTGTTGTCGTTGTTGCTGTTGCTGTTGCTGTTGTTG
TTGTTGTTGCTGTTGTTGTTGTTGTTGCTGTTGGTGTTGTTGCTGTTGTT
GTTGCTGTTGTGATTGTTGTTGTTGCTGTTGCTGTTGTTGTTGGTGGTGC
TGTTGTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTGATTGTTGCTGTTGTTGTTGTTGTTGCTGCTGCT
GCTGCCGTTGTTGTTGTCGCTGTTGTTACTGCTGTTGTTTGTTGTTGTTG
CTGTTGTTGTTGCTGTTGCTGTTGTGATTGTTGCTGTTGCTGCTGTTGCT
GCTGCTGCTGCTGCTGCTGCCGCAAACACTCATTTACCACCATACGAGCC
GCACGTGATTTTGTACGTACTTCCAGTATAATATTGTGGGCAATTTTTTC
TTTTTGTCGCCTTGACTCCCTATCGTACCGTCTCCAGTTGTCAAGACAGC
CAGCACCCGCCGCTTGTCCGTTTGTGTTATATGGTGGTTTTATCGGAGCA
GTTGCATTGCTTTCCCGGACGATGGGGCCGCCAAGCGCTTCGCCCACATG
TTCGCCGATCTGGGCTACCACACAGTCATTTGCGGGAAGGTGTGTGTGTG
TGTGTATTGCTTGTGCATTTTTTTCGAGCAGGATGTTTTGGCTTGGTACA
GCAGTATGTATCGTATGATATGGCAATATCAGTCTGCAACTCGTAACCTG
CCACCGTAGAATGCCCCCTCCTGTGATGGCGACAGCTGGACGACGCCTTG
CTTATTTGTTTGACCTGCCAGAGATCTCTGGTGCGGTCAGAGACGGCGGA
GATCCATCAGAGATCTCCGATATCTCCGATGATGTCACATAATCGGAAGA
AGGTCGCTGACGAGGTTCCTTCTCGGGCTCGAGTCTCCGTCGGTTCTCAG
ACAAAACCATCCCGTAAAAGGAAAAAAATGATACTTCGAAGTACGAAGGA
TAAGATTGCTGACTCGGCTGGTTCGGTATGATAGCTTTCGCGGGTCAAGC
AGCTTCCTCGTGTGCCGGGCCGTTGTTTTCCGTGAGCTTGCACCGTGTGT
ACATGTGGCCGTGGCTTGTGTGGGGATGGGAGGACCCGCGGCAACAACCG
TTTGATCGGATCGATTTCCACCCAATGGTTGAATTTGGTTGTTGTTGTTG
TTGTTTTTGCTGTTGTTGTTTGTTGCTTTCATCGTCGCCGTGTTGTCGTT
GTTACGTTGTCTGAAAGAAAGGTCCGTGATGGCGAAACCCGCAGCATCAC
CATCCAGGACGGAGACCCCGCGGGCAAGAACATAATCATCGTCGACGATC
TCGTGCAGGTGAAACAATACCGCGACCCCCCCCCCCCCCCCCCTCCCTCC
CCGTCGAGCTGATCGAGAAGATAGGAAACACGTGAAGAGCACCCAACTTT
TTGGTGTGGTGCGGTGTGGTGGTGCGTGGTGGTGGCTCTATTAGGAGTAG
GAGAGGAAGAACAGACAGATGCATGCATGCTTGGTCAATGGTCAAAGTAA
GGCGGGAAATCAACCAATGAGAAGGAGTCCTCCCCCCCCACCCGGTTGAA
ATATTACTTTCCGCTGTCCAGGGGCTTTTTCGCCCTGCTCCTTCGGGTAG
CTAATTGCGCGGCCAGAAAGTACAGCAGTATGTGGAACAACTCTCGGCCA
GGGTCTTCCAGCCGCGCTTGAGGCGGCAAGTATATGTATAGATACGAATG
AGGAATTTTGCGAGGGGGATAGATCTCTCGGCCAGGATCTTCCAGCCGCG
CTGAAGGCTGTGAGTGCACGTGATACTAATGAGGCGTTTTGCGATGGGGG
GAGATCTCTCGGCCAGGATTTTCCAGCCGTGCTTGAAGGCTGCGAGGGCG
TGTGACACTAATGAGGCGTTATGCTGTGATCATTTTGTGCTGGAACTGCT
GCCGTCACTTTTCGGCCCCTCACACCGTCGTGTGCAGACTTGCCTGCAGA
GATCTCTGCAGCTTTTGTACACAAAACTGCTGCAGCGTGGAGGTCCGCAA
CAGGCAGCTTTGTACTCCCTCTCGAGAGGCACCAGTCATGCCCAATCCAT
GTCTACAAAGTATGCGTGCGTCCGTGCGTCCGTGCGTCCGTGCGCGCTCG
TAAGTGTGCCTGTGCGCGTGCGTACGTGTCTTGTGTTTTCGAAACCGAGC
CCAGCGCCGACCTCCTCTCGTCTTGTCCCTTTTTATTTGCTCTCCGGCAC
CGCCGTCTCGTGGTTCTTGTGCTGCGCAGACTGGAGGGACGCTCTACGAG
TGCGGGGTCGCGTTGAAAGCTGCCGGCGCTGGCTCCGTCCAGGCGTTCGT
CGCACACGGGGTTTTCCCCAAGGAGGCGTGGAAGCGTTTCGCAAAGGTGT
CCGACCGACCCATTTTATGCTTATTTTTTTTTATCGTTGCTGTTGATTCG
GATTTTCCTTCCGGAAACTTCCGGGTTGTCCCGCAGAAGCACAGCGCGCG
CGCTGCGTGTTTTTTTTTTGTTCTTGATGGAACTTCGCGAGTTTCGCTTC
CCTTCGGCCATCCGGACGAACTTCCCGTTCGGTTACCGAGGGTTTCCACA
TGTTTCTTGTTTTTTTTTGGGGGGGGGCTCACGCATGATATGCATGATTG
TTTTTTTTGTCGGAAGAACTCGTTGGAGGTGATTATCCGCACGAGCAACA
TCGGTAGGAAAAAGCGACACTTCTCGCTGCGCATATTCTCAACTTTCTCT
CCTGCACCCTCCGTCGTTCGCCCCCCCCCCCCCCCCCTGTCGCCGCCATT
GCCATCGCCGTCGCACGTTCCTCTCCACCGTTGGTTTGTGGCTGTCCTCC
TATCTACCCATCTGCTTGTGCCGTTGATTTTGTTATTCACATCCCGATGT
GTTGACGGGCATGTACGCGCTGTGGACGTTGCCTGCTGTTTTGCGCGTGT
TGCGTGGCGTGGCGTAACGTGTGTGTGTGTGTGCTTGTGTGTGTGTTCCC
TCCATTGGCTTGTGCGCGCCTGCAACGTGTTCTTCTTCTCTGACTCTCTG
TTTGTTCCTCGTCGTACATCATGCTCGTCTTGTAATGTGCTGTGTGGTGT
TGTGTGGTGTTGTGTTGCGTTGTGTTATGTTGTGCTGTGCTGTGCTACAT
GGGAAAACACGAAAAAAAAAAGGGAGGAGACCGTTGCGTGTTTGACAGGT
TTTTGGTGACGAACTCTATCCCCACAACTACGGACAAGCTCCCTCGAGAC
GACGTATACGTGGTGCTGGACCTCGTCAGCCGGATAAAGGAAGACCTCGA
CCTTCACAGTTCCATTTAGTCGAAACTTCGTACTGTTTTTTGCTGCGCTT
ACCCCCTTCCCTCCAAACACGAGAGGGCTTGGCGCTGACCCTGCGATGCC
GCCAAATAATACTTGAGCTTTCCGCCGTCCGGAGACGATGGCTACTATGC
AGAATTGTGTGATACACACATTATACATATTTTTGTAAACTGAGTGTCAC
GACAACGTTTGTTCGAATACATGCACCGCTGTCATGCACAACAGACTACT
TCGACACAAGAGAATGTGTTTTTTCTTTTGAACTTTCATGCAACAATGTG
ACTGGCTGCGAAGCTGTATCATAGTATTGCTCTTTCTGGGTAGCACTCTC
CTTGTTGTTTGTTAACGTTATGAGAAAAACTGAAAAACATCCCGGGGGGG
GAATGGAAAACCCGCCTGAAACGGTAGTCAGGAGGCTGTTGAGTTATTCC
ACGAAGAGTTTTATTTGTGGTATTGTTCGGTTTTGGCCGTCGTCCCTGCA
CAGAACGAACTCCATCATCATACGAAGATACGACGTTGTGTCGGCAATAA
TGTGGTCCGATGACCCCTCCCGCTCTCAAACGAAGTAACACGAAAGCAGC
AGTTGCGACCGTTGTCTTTTCTACTATGCGTGCGGAATAATCGTTTGCTG
AATACCTGCTTGTCGACCCATCTCGTGAGAAACACGTTTTCAGCAGGGCT
CAAAACCTTTATCTTGTCCCCAACACCAAGCACAGGCTGTTATTGTTGTG
TACCTCATCTTGTCCCCACAAACCAGCTCAGGCTACCATCGTTACCGCAT
GATGTTGTCCCGTCAAGAAGAGGCTAATATTTTTTACCTCATCTCGCCCT
CATCACCAAGCACAGGCTAGGATTGTATACCTCATCTTGTCCCCACCACC
CGGCCTAGCACAGGCTACTACTCCGGAGTACTTATTTTTTGGATTAAGTG
TGGGGCGGGGTGGGG

Coding sequence (CDS) from alignment at P-littoralis_Contig104:547995..567709-

>mRNA_P-littoralis_Contig104.126.2 ID=mRNA_P-littoralis_Contig104.126.2|Name=mRNA_P-littoralis_Contig104.126.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1398bp|location=Sequence derived from alignment at P-littoralis_Contig104:547995..567709- (Pylaiella littoralis U1_48)
ATGGCACCACAAAGGAGAGGAATCAACGAGGCTCTACATCGATATGTATC
CCTCCTTCCGATGGTGTTGTCCCTCTTGCTCCTAGCTCTGCTCCAAAGTC
GGTCTGCGCGAGCGTTCGTGATGCTGCCGAGTCGAGCCGTGCACGACCAG
GTGGCTAGCACGACAACAACCGCAGCAGCGACAACAGCAGTAGCAGCAGC
AGCCATGGGAAGACGACGACGATGCCGCAGTGATGGTGCTAGCGATGGAA
GGCTAGGAATAAGCAACGGTGGCGAGGCAAAGGACGGAGCGGCGGAGTGC
TTCCGACGCTACAGCAGCAGCAGCAACAGGGTTGGTGGTAATAGAGGGGG
GGTGGTATTGTCCATGGGCAGCAGCAGCAGCAGCAGCGGTAGCGACAAAC
GGTCGGTTGAAGAGGAGTGGCCGTTCCACAAGAGCAGGCGGTCCCAACAT
CGATACCAAATCGTGGCGGCGGAGGCTATGGAGGGGCTAGGGGAGCGGCT
GGAAGAGCTCCATCCCGATCGTTTTCGGTTCCACAAAACTAGTTGGGGAA
AATTCCCCGACGGGACCGACAACATAGAGATCGGCGGCTTCACCCCGCAC
AACGTCATCTCGGGCGAGCACGTCCTCTTCCTAGCCTCCTTCCACAACAA
CGACGTCACCCTGAGCCAATTCCAGGTGATGATCTGCCTGCTCCAGTACT
TCGTAGAATCGCTTACCGTCGTGCTCCCGTACTACCCGACCGGCACGATG
GAGCGAGTCATCAAAGAAGGGCAGGTGGCGACGGCGAACACTTACGCGCA
GATGTTCAGCAACCTCCCCTCCTGCGGGAAGCCGACCCGCCTCCTTGTCT
ACGACCTACACACCTTGCAGAACCGGTTCTACCTCCACGGTAACGCCATC
GCGTCTCTGCAAACCAGCATCCCACTCCTCGTGGAAGAGATCAAGAGGAG
CGATATAGATTGCATTGCTTTCCCGGACGATGGGGCCGCCAAGCGCTTCG
CCCACATGTTCGCCGATCTGGGCTACCACACAGTCATTTGCGGGAAGGTC
CGTGATGGCGAAACCCGCAGCATCACCATCCAGGACGGAGACCCCGCGGG
CAAGAACATAATCATCGTCGACGATCTCGTGCAGACTGGAGGGACGCTCT
ACGAGTGCGGGGTCGCGTTGAAAGCTGCCGGCGCTGGCTCCGTCCAGGCG
TTCGTCGCACACGGGGTTTTCCCCAAGGAGGCGTGGAAGCGTTTCGCAAA
GGGAGGAGACCGTTGCGTGTTTGACAGGTTTTTGGTGACGAACTCTATCC
CCACAACTACGGACAAGCTCCCTCGAGACGACGTATACGTGGTGCTGGAC
CTCGTCAGCCGGATAAAGGAAGACCTCGACCTTCACAGTTCCATTTAG