Homology
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A835ZE95_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZE95_9STRA)
HSP 1 Score: 243 bits (620), Expect = 1.200e-72
Identity = 122/221 (55.20%), Postives = 164/221 (74.21%), Query Frame = 1
Query: 943 VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRAEGGTTLVEFYDSVDGD--LDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALE 1599
+ LDDLK ALG V S I A+ G +GGN GAS TY FA++PI+FLG+GS+SPG+I+A ++ FK + +F+ RRV HEA+HFL+GYLCGLPIKSY +G TT +EF+D+ +GD + GR L +P E+D VS+VA+AGAV E + +GSATG A DLD+LG++MN+ +PPM +AQ+ Q RWA L AH+LLG ++ E AL+ AF K V+EC+AALE
Sbjct: 1 MNLDDLKYALGAVVAFSAISAVASGVIVGGNTGASLTYLFAIIPILFLGIGSSSPGIIVAAINLFKIRFDSEFQSRRVHHEAAHFLAGYLCGLPIKSYTVDGATTQIEFFDTAEGDQAVIGRQLT-RP-EIDPVSVVALAGAVAEVKKFGSATGSAQDLDSLGRLMNRTSPPMRDQAQEDQTRWAALTAHKLLGRYEKEFSALVTAFSEKKSVAECIAALE 219
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
D7FLX1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FLX1_ECTSI)
HSP 1 Score: 207 bits (527), Expect = 3.830e-60
Identity = 96/130 (73.85%), Postives = 118/130 (90.77%), Query Frame = 1
Query: 949 LDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRAEGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKV 1338
+DDLK ALG V + SF A+G GAAIGGNVGASFTYFFALLPI+FLG+GST+PGVI AV++N +RKS++D+EERRVRHEA+HFLSGYLCGLPIKSY+A+GGTTLVEFYDS +GD+ GR++KF P+EVD++
Sbjct: 1 MDDLKYALGFVCIFSFAAAVGVGAAIGGNVGASFTYFFALLPIVFLGIGSTAPGVITAVINNVRRKSQDDYEERRVRHEAAHFLSGYLCGLPIKSYKADGGTTLVEFYDSAEGDMSGRAMKFTPEEVDQL 130
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S2V1Y0_9STRA (Hypothetical protein n=2 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V1Y0_9STRA)
HSP 1 Score: 210 bits (534), Expect = 5.660e-58
Identity = 118/269 (43.87%), Postives = 170/269 (63.20%), Query Frame = 1
Query: 811 MESLKSEGLAPRWNSFNFGSRYPISQGQLKIQTGLDGKSLAAD-GVELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRAEGGTTLVEFYDSVDGD--LDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALEGAR 1608
M ++K EG+ W S R ++ + QTG+ G L AD LDDLK ++ VT+ SF A+ G IGGNVGA+ TY FA++PI+FLG+GST+PG+I A +D K ++ F+ERRVRHEA+HFL GYL G PIKSY+A G T VEFYDSVDGD + + ++V +++++MAG GE YG A GG ADL++L +++ NP + QQ R + A+++L E +A++E+FR K V+EC+AA+E ++
Sbjct: 121 MVNMKEEGMITMWGSEVAECRR-VNMISMTSQTGIRGADLGADTSSTLDDLKFSILYVTMGSFALAVLSGIVIGGNVGATLTYLFAVIPILFLGVGSTAPGLISAGIDAVKSRADPTFDERRVRHEAAHFLVGYLLGYPIKSYKASGSTNEVEFYDSVDGDDYIANPGAQLTKEQVAPLAVISMAGIAGECLKYGDAKGGQADLNDLQSFLSRVNPYIRSDEQQDITRGGLVAAYKMLKDCSSEYEAVVESFRTKKAVNECIAAIETSK 388
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S3UVY9_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3UVY9_HETAK)
HSP 1 Score: 209 bits (531), Expect = 2.260e-57
Identity = 114/273 (41.76%), Postives = 172/273 (63.00%), Query Frame = 1
Query: 802 IEKMESLKSEGLAPRWNSFNFGSRYPISQGQLKIQTGLDGKSLAA-DGVELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRAEGGTTLVEFYDSVDGD--LDGRSLK-FKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALEGAR 1608
+E + LK++G+ W S S Y ++ G++ TG++GK L+ +G DDL+ +L VV + SFI A G G IGGNVGA+ TY FA++PI+FLG+GST+PG+I + ++ FK + DF ERR+RHEA+HFL GY G PI+SY +EG VEFYD+ GD R+ + K ++++ +++VAM+GAVGE +G+A GG DL L + + P + Q S RW + AH++L + +AL++AFR + V EC+A +E +
Sbjct: 132 LEALGGLKADGVVNTWKSKEVTS-YAVTIGRMTSATGIEGKDLSPLEGGNEDDLRWSLVVVCLGSFILAAGSGIVIGGNVGATLTYLFAVIPILFLGVGSTAPGIITSAIEGFKTNTDSDFNERRIRHEAAHFLVGYALGFPIRSYTSEGPACEVEFYDTPAGDDFAAARTAEALKKEQLEPLAVVAMSGAVGECLEFGNARGGQNDLVALQTLFTRTRPYVRADEQMSLTRWGVVEAHKVLTQNRAAYEALVQAFREKRSVQECIAIIESTK 403
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S2C0S6_9STRA (Hypothetical protein n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2C0S6_9STRA)
HSP 1 Score: 194 bits (492), Expect = 6.860e-53
Identity = 112/273 (41.03%), Postives = 160/273 (58.61%), Query Frame = 1
Query: 802 IEKMESLKSEGLAPRWNSFNFGSRYPISQGQLKIQTGLDGKSLAADGVE-LDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRAEGGTTLVEFYDSVDGDLDGR--SLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALEGARN 1611
+ +++LK G W + + GQL+ + GLD +L + LD+LK AL VT S I A+ G +GGN GA+ TY FA+LPIIFLG+GST+PG+I AV++ K + + ERR++HEA+HFL GYLCG+PI+ Y +G V YD+ G L ++ DE + +S+VAM+GAV E A G A GG DL+ L +I+ + +PP+ Q Q RWA A RLL +HD ++L+ A V+EC+A LE A+
Sbjct: 36 VATLDALKESGDLRLWGVSQAPTFKATNIGQLQREYGLDAITLGLAAEDSLDELKAALFAVTAFSSIMAVLSGVVVGGNAGATLTYLFAVLPIIFLGVGSTAPGLISAVIEVGKTRLDPKYGERRIKHEAAHFLMGYLCGVPIQGYDVDGALPEVTLYDTRKGALTRAPMDMRLTRDEANGLSVVAMSGAVAEVNAMGDAKGGQQDLELLNKILQRVDPPLSPDQMQQQTRWAAAEAARLLKTHDGAYQSLVGALEQKCSVAECIAKLETAKQ 308
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S3V807_9STRA (Hypothetical protein n=2 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3V807_9STRA)
HSP 1 Score: 174 bits (441), Expect = 1.530e-44
Identity = 104/254 (40.94%), Postives = 151/254 (59.45%), Query Frame = 1
Query: 874 YPISQGQLKIQTGLDGKSLAA-------DGVELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFK--RKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRA-EGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALEGA 1605
YP+S L+ +TG GK A D V L+D K A VT S + I A + N GA+F Y FAL+PI+FL +GS++PG+I + FK + K E+R RHEA HFL GYLCGLPIKSY+A + G VEFY + DG+ GR L+ + E+ +S+VAM+G+V E +G A GG++DL L + ++ M +AQQ RW A+ ++ S++ + L+ AF++ K V+EC+AA+E +
Sbjct: 162 YPVSLNFLEQRTG--GKITATTLGVGQEDDVSLEDFKYATLWVTGGSTVAGIASLALLPENTGATFCYIFALIPILFLAVGSSAPGIIAGAIKGFKENKDDKAAQEDRICRHEAGHFLCGYLCGLPIKSYQANDSGIPCVEFYPTTDGNFAGRELEEQ--EICAMSVVAMSGSVAEVLEFGEAKGGSSDLIQLNGLFSRTKDFMGAQAQQDMTRWGAYTAYNIISSNEDKFDRLVAAFKSKKSVTECIAAIEAS 411
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S1GME8_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1GME8_CYCTE)
HSP 1 Score: 172 bits (436), Expect = 4.120e-44
Identity = 112/297 (37.71%), Postives = 168/297 (56.57%), Query Frame = 1
Query: 742 ESRAALVEQLEDLPSESKRVIEKMESLKSEGLAPRWNSFNFGSR---YPISQGQLKIQTG--LDGKSLAADG---VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKS--KEDFEERRVRHEASHFLSGYLCGLPIKSYRA-EGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALE 1599
E + LV ++ ++ + EK+ SL S G WNS N YP+S G L +TG + G+SL G V +DD K A VT+V + + A + NVGA+ Y A++P++FLG+GS++P +I V+ FK + KE +R RHEA HFL GYLCGLP+KSY + G VEFY S +G G+ L E+ +S+VAM+G+V E +G+A GG DL L I +++ + + QQ RW L+A+ LL ++ + + +++AF+ K V+EC+A LE
Sbjct: 89 EEASDLVSTIDFEGGDASQQYEKLSSLVSSGSLAIWNSANNDQMLRSYPVSLGFLSSRTGGKVTGESLGVAGEGDVGMDDFKYATVGVTLVCSVLGVAALAFLPENVGATVCYLVAVIPVLFLGIGSSAPALIANVIAQFKGTADDKEQRLDRICRHEAGHFLCGYLCGLPVKSYSLLDSGIPCVEFYPSQEGGSAGKKLT--QGEIAALSVVAMSGSVAEVIGFGNAKGGENDLIELESIFRRSDEFIGAQEQQDLTRWGALIAYELLTTNTAKYEKIVDAFKQKKSVAECIATLE 383
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S4MBA1_9STRA (Hypothetical protein n=2 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4MBA1_9STRA)
HSP 1 Score: 169 bits (427), Expect = 1.160e-42
Identity = 100/250 (40.00%), Postives = 153/250 (61.20%), Query Frame = 1
Query: 874 YPISQGQLKIQTG--LDGKSLAADG---VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDFE--ERRVRHEASHFLSGYLCGLPIKSYR-AEGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALE 1599
YP+S L+ ++G L G+SL G V LDD K+A VT+ S + AI A + NVGA+ Y FAL+P+ F+G+GST+PG+I + +F+ S + + +R RHEA HFL GYLCGLP+K Y + G VEF+ S +G+ GR +F +E+ +S+VAM+G+V E ++G A GG DL L +M ++ + + +Q RW L A L+ ++ + +AL++AF+ K V++CVAA+E
Sbjct: 156 YPVSLNFLEQRSGGKLTGESLGVSGEMDVSLDDFKDATIAVTLGSTVAAIASLALLPENVGATLCYLFALIPVGFIGIGSTAPGIIAGAISSFQGTSDDQAQRDDRICRHEAGHFLCGYLCGLPVKQYSIVDTGFPCVEFHPSAEGEALGR--EFTSEEIAALSVVAMSGSVAEVLSFGQARGGENDLLELNGLMRRSKEFIGAQKEQDLTRWGALAAFNLIQANMDKYEALVQAFKEKKSVADCVAAIE 403
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7S2KN54_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KN54_9STRA)
HSP 1 Score: 168 bits (426), Expect = 1.190e-42
Identity = 108/286 (37.76%), Postives = 162/286 (56.64%), Query Frame = 1
Query: 802 IEKMESLKSEGLAPRWNS-----------FNFGSRYPISQGQLKIQTG--LDGKSLAADG---VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKS--KEDFEERRVRHEASHFLSGYLCGLPIKSYR-AEGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALEG 1602
+EK++SL S G W F YP+S L+ ++G L+GKSL DG V L+D K+A VT+ S + AI A + NVGA+ Y FAL+P+ F+ +GS++PG I A + K ++ KE E+R RHEA+HFL GY+CGLP+K Y + G VEF++S +G + R +F +E+ +++VAM+G+V EA + A GG DL L ++ + QQ RW L ++++L + ++L+EAF+ K VSECVA +EG
Sbjct: 106 VEKLDSLVSTGEFSMWKKATREQSNSSGMFRSLRPYPVSLNMLEQRSGDLLNGKSLGVDGEMDVNLNDFKDATIAVTLGSTVAAIASLAFLPENVGATVCYLFALIPVGFIAVGSSAPGAIAAAIVAAKGEADDKEAREDRICRHEAAHFLCGYMCGLPVKEYSITDNGFPCVEFHESSEGKIINR--EFSSEEIAALAVVAMSGSVAEAIKFSQARGGGNDLLQLENFFRRSADFIGAAKQQDLTRWGALASYQILRDYSSTFESLVEAFKVKKSVSECVAIVEG 389
BLAST of mRNA_F-serratus_M_contig990.21209.1 vs. uniprot
Match:
A0A7R9VLF5_9STRA (Hypothetical protein n=1 Tax=Pseudictyota dubia TaxID=2749911 RepID=A0A7R9VLF5_9STRA)
HSP 1 Score: 164 bits (414), Expect = 1.650e-42
Identity = 98/250 (39.20%), Postives = 151/250 (60.40%), Query Frame = 1
Query: 874 YPISQGQLKIQTG--LDGKSLAADG---VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGLGSTSPGVIIAVLDNFKRKSKEDF--EERRVRHEASHFLSGYLCGLPIKSYR-AEGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSATGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKALMEAFRAGKPVSECVAALE 1599
YP+S L+ ++G L G+SL G V LDD K+A VT+ S I AI A + N+GA+ Y AL+P+ F+ +GST+P +I + +F+ + + E+R RHEA HFL GYLCGLP+K+Y + G VEF+ S +G+ GR +F +E+ +S+VAM+G+V E ++G A GG DL L +M ++ + + +Q RW L A+ L+ ++ + + L+EAF+ K V+ECVAA+E
Sbjct: 4 YPVSLNFLEQRSGGKLTGESLGVSGEMDVTLDDFKDATIAVTLGSTILAIAALAVLPENIGATVCYLIALVPVGFIAIGSTAPSIIAGAIASFQGTADDQTQREDRICRHEAGHFLCGYLCGLPVKAYSIGDTGFPCVEFHPSAEGEASGR--EFTSEEIAALSVVAMSGSVAEVLSFGQAKGGENDLLELNGLMRRSKEFIGAQKEQDLTRWGALAAYNLIQANMDKYEVLVEAFKEKKSVAECVAAIE 251
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig990.21209.1
>prot_F-serratus_M_contig990.21209.1 ID=prot_F-serratus_M_contig990.21209.1|Name=mRNA_F-serratus_M_contig990.21209.1|organism=Fucus serratus male|type=polypeptide|length=474bp
MALGSAYHTPVAWGATAPPHPAARAFAVAPPVPAFLAPGMGGAATASLAR
CHRQELRHHRRPQAAAGAATAAWAEASLFPRARLGARALRALVMMSASDS
GGGGGPGATEVPEATRRLLEQAAKARAEADEMEVAYRKEQGIEDFEPSRA
SKAASPSATEVADPSNAAAQAAAAAALSAGTTPESRAALVEQLEDLPSES
KRVIEKMESLKSEGLAPRWNSFNFGSRYPISQGQLKIQTGLDGKSLAADG
VELDDLKNALGVVTVVSFICAIGFGAAIGGNVGASFTYFFALLPIIFLGL
GSTSPGVIIAVLDNFKRKSKEDFEERRVRHEASHFLSGYLCGLPIKSYRA
EGGTTLVEFYDSVDGDLDGRSLKFKPDEVDKVSIVAMAGAVGEAQAYGSA
TGGAADLDNLGQIMNQANPPMDGKAQQSQARWATLMAHRLLGSHDPELKA
LMEAFRAGKPVSECVAALEGARN*
back to topmRNA from alignment at F-serratus_M_contig990:127512..142317-
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_F-serratus_M_contig990.21209.1 ID=mRNA_F-serratus_M_contig990.21209.1|Name=mRNA_F-serratus_M_contig990.21209.1|organism=Fucus serratus male|type=mRNA|length=14806bp|location=Sequence derived from alignment at F-serratus_M_contig990:127512..142317- (Fucus serratus male)
CTGTACTACCAGACCTTACTACATTTTCATATTTTATCCACTCAGCTCCA
TCCTACGTGGCAGCAAAATTTTGCGACTCCTTTCAGGCGAGACCTTGATA
AGAGATTATTGGATTATTTTCGGCAGCAACTTCTCTCACACCAGTACACG
CTGTTGCCAGTTGCAATGCCCCCGGGAGATAGATAGATACAGGATGACGG
AGGCGATGTGTGACGTACCTCAAATTTGACTTACGGTATCTGCACATGAC
ACATAATAGTGTTTTGGACAAGAATTGTTGACATCGACATATAGTCTAGT
CGTTGAAAGGCCCTATTCGCCAAAGAACCTTGGGAGAAAATCTAGAGCTG
CTACACGCACGCCATGCTCAGGCTGTCAAGACATGCTGACTAACTCGCTG
ATTTCTTCTTCTAAGGCTGTATCGTCTTTACTACGAAACAACAGAAGTAC
GGACAACGTCACGAATGATAGTTGGTACCGTAGACAAATGTCACCTGGTG
AACGCATCTGTCTAATAATAATATTGATAGTACAGCGCTCTATTTGCCCA
TGTTCTAAATAGTTGTTCCAGCCGGTCGCTCCGATAGCTGAGAGGTAACC
TCGTAACCTTTTGACACGTTGGGATGTGAGTTCGAATCCCGATAAACTGG
ATTTTTTCTCACTGTTACTAGAACAAAAATAAAAAAAATGCCCCACAAGT
TGAGAAAAATTAGACTATTTCACACATCGGACAGATCAGATCCCTGTAGA
TCGATCTAGATCGTTACATCGACAGATCACGGTTGATCTGTTGCGACAGA
TCATCTGTGCACGTTTGCTGGCAGCTGATCTGTAGCCACAGATCATCTGT
ACACGTTTGCCGGTAGCTGATCTGTAGCCACAGATCATCTGTACACGTTT
GGCAGCAGCTGATCTGTAGCCACAGATCATCTGTACATGTTTGGCAACAG
CTGATCCACAGATCATCTGTACATGTTTGGCAACAGCTGATCTGTAGCCA
CAGATCATCTGTACATGTTTGGCAACAGCTGATCTGTAGCCACAGATCAT
CTGTACATGTTTGGCAGCAACTGATCTGTAGCCACAGATCATCTGTACAT
GTTTGGCAGCAGCTGATCTGTAGCCACAGATGAACTAGATCATGATCTGT
CCGATGTGTGGACTATTTAATAGTCTAGTCTAGATCGTTAGTACACAAAA
TTCGACTTCACGGTCGACGAGGGAAGGGAACGGCTGAAACCTTCTCGCGA
GAAAAATTAAGGCACGCACCGCAGAAGGAAGGTGGATGAGAAATCCTGTG
TTACCCCGGCTGGTACGTCCAACGAACTTGACGTCCAGAATAAATGGGAA
GAAAACACACACACACACACACACCTTTGTCGCGTCTGATTAGAGGTTTT
CGTAATAAGTATCATTGATCCCCCCTCGGGAGGATCAATGCGAGTGGCAT
AGAATGACTAGGATGACAGGGCCGGATTGCGTGGTTATGTGCAATTTAAT
AAATACACACACACACACACACACTCGGGAGGATCAATGCGAGTGGCATA
GAATGACTAGGATGACACGGCCGGATTGCGTGGTTATGTGCAATTTAATA
AATACACACACACACACACACACCCTTTGTCGCGTCTGATCAGAGGTTTT
CGTAATAAGTATCACTGATCCCCGCTCGGGAGGATCAATACGAGTGGCAT
AGAATGACTAGGATGACAGGGTCGGATTACGCGGTTATGTGCAATTTAAT
AAATACATACACACACACGCAACCATTAGAACAGTATTGAGCACAAATCG
CGTGGATTCGCGAAGTTTTAGCTCAATATGTTGGGCGTTCCGGCGCACAC
ATAAGAGCGCAGACCCTATTCGGCTACTGTGTATCCGACTAGCTTCACCC
TTGACTCTCTCCTTGCCCTCAGGATTTGTGCCTAGTGTAAGACTTCTGGT
TTGTGTTTCACCCCGGGCCCTATGGCATGCAGGGGATTTTTCGTATGACT
GTATGTTTGGGGACGAGAAGGGAGGAGGACTTTTGGGCAACCCATGGGCA
CGCAGGTGGACACTGCAGCCATTAGAACAGTATTGAGCACAAATTGCGTG
GATTTGAGAAGTTTTAGCTCAATATGTTGGACGCTCCGGCGTACACATAA
GAGCGCAGACCCTATTCGGCTACCGTGTATCCGACTAGCTTCACCCTTAA
CTCTCTCCTTGCCCTCAGGATTTGTGCCTAGTGTAAGACTTCTGGTTTGT
GTTTCACCCCGGGCTCTATGGCATGCAGGGGATTTTTCGTATGACTGTAT
GTTTTGGTACGAGAAGGGAGGAGGATTTACTGGGCAACCGGTGGGCCCAC
AGGTGGATGCAGCGACCATTAGAACAGCACTGAGCACAAATTGCGTGGAT
TCGAGAAGCTTTAGCTCAATATGTTGGGCGTTCCGGCGTACACATACGAG
CGCAGACCCTATTCGGCTACTATGTACCCGACTAGCTTCACCCTTGACTC
TCTCCTTGCCCTCAGGATTGGTGCCCAGTGCAAGACTTATGGTTTGTGTT
CCACCCCGGGCTCTACGGCTTGCGGGGATTTTGTTACGTGGAAGGAAAAT
ATGTACGGGTGTAATCGGGACACGCACCGTTTGGGTGCTGAAAGGGGAAG
GGGGCAGAATGATCACACCACCGCTGCAGTACGCGGCACGGTTGGATGGG
GGGGGCGAGAAGTAACCCCCAGGTGGGTTACATGCAGTAGCATAGAATGA
GTAGACTACATGGCCGGATTGCGCGGTTAGGTGCAATTTAATAAATACAC
ACACACACACAAGTACACATACACAGGAAAAAATGTACTGGAGGTAGAAA
AGAAAGGGTTGGTCCAGTAGCTGCCCACCCAGAGATAATCTAGAGAAAAA
CAAGGAAGCGCGGGGATGAGCACAAGGTACCCAGGGCTCAAGTAAGAATT
GTACCAAGTAGAGAGTGTGTGTCCTCTTTGTCGCGTCTGGTCCGAGATTT
TCGTATAAGTATCATTGGTTCCCCCCCCTTGGGAGGATCAATGCAAGAGG
CATAGAATGACTAGGATGACAGGGCTGGATTGCGCGGTTATTTACAATTT
AATAAATACACACACACACACACTTTTCTTCGTAGCTCTACGAGTTTTGT
AGACGAGCTTCGAGTGTCGCATGATACCTACACTCTGTGATCGCAGGGTA
AACTAGATACCTACTGACGTCGCCCTGGTGGAATATTCATAGAGGAGAAC
ATCGTATTTCTAGTTCCTTTTTAGTGCGGATTTTGTGAGTTCGAGTCTGG
ACAAGAGAGGACGATTTCGTTGATTCTGGTTTTCCGTAGCGGAAGGCGTG
AATACGTGAAAAACCAACCATTCGGTTGACGAGGCCGTGCCATGAGAGTG
CCGAACTTGCATCGCGATAAAAAAATCGGGGGGCGAGAACTGATGAAAAT
CGGAGGCGAGAACCGCTAAAAATCGGAGGCAAGAACGACTGGCGAGAGGC
GGAAATATTATTCGTACACCGCAACCAGGGTGACAACGATGCAGTAGGTT
CCATCGATACAGTACTTTCAACATGCCCACTTCATACCATTAGTGGGTGA
GGGAAAGAGAGGGGCATATTAATTGGTCCATGGTGGTGACCTGCCAAGGC
AGCACTCGTTCGGGACTACGTTGAGGTTTACTGGCCCTGTGCCGGCGGAC
TCTCGGCAGTGAAGGCCATCGGTACGCAACTGCCTGACCCGATAAGCTCG
GGACTGGCCCGATGGCGTGTGGCGGTTTTAAGTAAATAAGTGGACGCCGC
CGCGGAAATTCGGGAGGAATCCCGTAAGTAAGCACCAGATTCAGCCTGAC
TATGGAGATGAGTAGGCTGAAGCGGGACGGGACTGTCGAGCCCATCTTGC
GAGACCAAATTATCAGGCGCGAACGCGGACAGGGAAGTACAAAGGTACAA
GTAGATGGTATTGATCAGTTTAGTCAGCAGTTTCGCTACGAACGAGTACT
GTATTAAAATGTGATTAGAGAAAACTAGAACGTCCCGAAACTCTTGACAG
CTGAACCAGCGTTGCTTATCGTTGATTCTGATATATATCTGGTACCAGAC
CTTCCATGCGGTCTGAATCAGTTGTCGTCGGGATCTCGCCTGCGCCTCCT
TCTAAAATTCTAATAATCTGTTAATATTGGAGAAAGAGAGGTCGCAGGCA
AACCGCGGCGCGTCGTCCCCAATTACCGACGACACCTCGACTTTGTTGAA
GGGAACTGGACGCCCAGGCACTCATGATGAGCGTTGGTTGTTGTGGTTTT
TTAAGAGAGTTTTGAGTCATCGTGTGTCCCTACCCGTGGGAATTATCTCA
AATCTTGTCTCAGAATGGCATGTACTGACTCGCCCGCCTTAGGGGCTGGC
TGGACTGAGCTGTGTCTAATCGAAGTAGAAGACTATTCCTATACTAGGGT
AGGATTTTGACGCAGGACAGACCGAGCGAGAGCGAGAGCTGCTACAGCAT
AGCACTAGATTGAGGTACAGGCTGGGCCGGCCAAGAACTAATCAAAAAGG
GGCTGGAGGGGATTCCCCCCACGTTTTTTGAAAAATCAGAACCTGAAATT
GTGACACGCGCTTTGTATTGGCAGAACAAATGAGTTTCTTAATGCACATG
TTTTTTTTGTTTTTTTAGCGGAAGTTAGCCCGATATTAATGGAGAATAGA
GAATATTTATTAATATGCGGCAGAATGGTGAAACAAAACAACGAAAACAA
AATGTGCAAATAGAAACTCATTTGTTTTACCAATACAAAGCGCGTATCAA
AAGTTCAGGTTCTGATTCAAAGAAACCGTTGGGGGGAATATAAATTTAAA
ATGTTACCAGTACTAGTTTACAAAATCTGCATCCCGCCGCAAAAAAAACG
GTTTCATCTTTCTCTTTTTGATAGTCTAAAACCTACCGTTATCTGAAATC
CGGAGGGGCAAACTTTGATTTGAGAGAAGATGTCTATGATACTCAAATCG
ACAGTGGAATGTGCAAACGCGCTGTGATTGGCGGATTGTGACTATATGAC
GAGCTCCGCTCAATTCTTTATCGTCAAAAAAGTTAGACTATGGCTTGACG
AACGAATGTGAGTTTCTTGGCCGGCCCAGCTTTTTTGTAATTACATAAAA
AAAAAGTTTAAAAAAAAAGAGTTTTTTTTGTCTTGAGTACAATCAATAGG
TACACACACAGAGAGAGAGAGAGACAGAGACAGAGAGACAGAGAGACTGC
CCTGTTGTCTTTGTTGTTCCCCCTTACATCTGTGCCATGTAAGGGGGGAC
AATCTGCGTTCACTTCTACGGGGTGTACTTTGATGGGTGTAGACATGGAC
GTTGTGTCCCGGAAAGCAGGAGGAAATAGAGGAGCCCGGGAGTAAGCACT
GGATTGATTGAGCCTGGGTGTGGAGAATGAGCGGGCTGACGCCGGACGTA
ACGGCCGAGCCTGTCTCGCCTCAGGCGCGAAAGGGGACGGGGATCAATCA
TTATCCCTGAAAAATCGTTTGCCTTGCACAGTTTACCACGAGCAGGATTG
GCGGTCATATCCGGTTGATGCCCAGGCTGTGCTAAAAGTGAGGACCGACA
ACTTCAAGCTCAGATAACGCGTCAGGGGGACTTCCAACCCTTTCCTTTGC
AACATGCGCCCCCTGTGTACTCTTGCGCACAACAAAAACTAATAAGCATC
CCCCCCCACACACACACACTTCTGCTTCCCGTTGATCCCTCTGCCGCCGC
CGCTGCCTCCTGCCTTGCCTTGCCTTGCCTTTTTCGTATTCGCTTGTTTG
TAACACATAGGTCCTACAAGCCAAACACCAAGGAAGCACCGCCACCGATC
TAACCGATAAAAAATAAATAGATAAGTGTTGTAAGAAAATAAATAAATAA
AGACTACAGCAGTAAAATGGCGCTTGGTTCTGCGTACCACACGCCCGTCG
CGTGGGGGGCAACGGCTCCGCCTCATCCGGCGGCGAGAGCCTTCGCCGTC
GCCCCGCCCGTCCCCGCGTTTCTCGCCCCCGGGATGGGCGGAGCCGCGAC
AGCCTCCCTCGCTCGGTGCCATCGGCAGGAGCTACGGCACCACCGGCGCC
CCCAGGCGGCAGCGGGAGCGGCTACGGCAGCGTGGGCAGAGGCCTCCCTG
TTCCCACGGGCACGGCTTGGGGCTAGAGCGCTGAGAGCACTCGTGATGAT
GAGCGCATCGGATTCCGGCGGAGGCGGTGGTCCCGGCGCGACCGAGGTTC
CCGAGGCGACGAGGAGGCTTCTGGAGCAGGCGGCCAAGGCCCGTGCCGAG
GTTAGAGCCTTGCACCCGTTGATGATTAATCAGATAAGAGCCTGAGCCGC
GCTCCGAAAACATGTACAACTAACTCCATGCGTGTCCCCCCTTCCCTTTC
CTTCCCTTTTTTTCCCTTTCCCCTCCAACACACACGTTTGCAGGGATAAG
AGTGTTACACTGTGATGGAAACCACGAGAAGGCCCCCCCCCCCTACACAC
ACATGAGGGTGATTCTGATGCCCCCCCCCGCCCTACACATTCACATGAGG
GTGATTCTGATGTTTTTTAGTGAAAGGGTTCCCGAGTCTTGACGGGGAGG
CGATAGCGTAGAGCGGCGGCGATACAGTACACGCCCTTCTTTATCCGGTG
TGCAGGCTATATATGCCTCGCCATCCTTTTTTCGCCCTCACGAACGCAAA
CAAAAAAAAAAATGTTCAACGCACGGGTAGCGTTTTGAGCAAGGCTTGCG
CGGATGCTTGGAGGAAACGAAAACTTCCTGGTCCGTGTATTTTTATAATT
ATTTGTCTGTCGAGTACCTCGCTGCATTTTATATTTTCCAATGGTCGTCC
CTTGATCACCTACTGCTGCGCTGTTGATGCTGGATCGGCCGCGCAGTCCC
CATTGTGTCGTCAGATCGCGAGGGGAAAAGTGAAGCCAATTTTTTTTACG
GTGTATTTTAGGCGCTGGCTTTTCGCTTTTTATCGACCCGGTTTATACTG
CGGACAAGCACGAAAAGAAGGATGGAGCATCACTGGCGCTAGCGCGTCGG
CCGTTTTTTTAAACAAGTGATTCAATCTTCTCACAAGGCTTGGAATACTT
CAGCGTACTTGAAGCCTGGATGCCGTACCTTGGATTGTGGCGGGAACGGA
TGGGTTATACAGTGAACTCCCCCCCCCCCCCCTGGGGACCCCCCCCCCTC
CTGCCTGATTTTCTCTATAAAACTAACGTCCGCAACTGTAGGCAAAACAG
CCATGGCGGGTTACTGCCTGTATAACCCTGCCGCTATCTAAACCTTACAC
ACCGAGCAACCTATATACATGCGTGGTCCGTAGCATGCGGCACAAGCAAA
TAAACAAACACGTATATATGTCACGGGGGACTGGGGGGGAGGGTTGGAAA
GGGCCGGATACATTCCACTCCCGGGGGCGTGTTTTTTAACACTCCACGCG
TACATCCCCCTGCCCCCTTACAAGTACACAACGCACAAACTACCGACGGT
GGCCGCCGCGCTCTGCCAGGCCGACGAGATGGAAGTCGCGTACCGGAAGG
AGCAAGGGATCGAAGACTTTGAGCCCTCGCGCGCCTCGAAGGCCGCCAGC
CCCTCGGCGACGGAAGTGGCAGACCCCTCCAACGCCGCGGCGCAGGCGGC
CGCCGCTGCTGCGTTGTCCGCGGGGACGACCCCGGAGTCAAGGGCGGCGC
TCGTGGAGCAGCTGGAGGATCTCCCGTCGGAGTCGAAGCGCGTGATCGAA
AAGATGGAGAGCCTTAAGTCAGAGGGCCTGGCGCCGAGGCAAGATGGGAG
AAGAGGCATATAGACTCAAGAGAGGCAGATAAACACACAAACACACACAG
ACATGGAGACAGAAGATTGGCATTCACATAAAGGTACAGGTAAACAGGGA
AAGAAAAGAAGAGAGGGCACAAGCTTGTTCCAAACGCTCAATTTATATTA
TGTTATCATCACGTATGGGAGAAGAAGGGGGGGGGTGGAGGAGTTGCACA
GAGTAGGAGGCCCTGTCCAGGGAGTTATCGCGAGCAGCAGTAGTGCGACG
GCGAATGCTATTGGCTGAAACTCCCCGAACCCAAAAGGCCACCGTTTGGT
TCCCAGACACACTTCATTCTATGAGAGAACAAAATATGACAACCGACTAC
AGGTATTTGAGGGACTGTTTCGATCCCCCCCCCCTTACCCGCCTCTCACC
TCTTATTTTTGAATTAGTCCTTTGAGAGAGTTCGAGAACAGCAGCGAGCT
CAAACTGGAGACAAAGTTATCTCGACCGGTTACCGATTGTGGTGATGTTT
CCTTTTAAATGCTTTGCTTTTTCCCGCCTGACGCAGGTGGAACAGCTTCA
ATTTCGGCTCCCGATACCCCATCAGCCAGGGGCAACTGAAGATACAGACT
GGCCTCGATGGAAAGGTAAAGGGGGGAAATGCTGCACTCTACCCCCCACC
CTACCCCGTAAAAGCCAGGGTACATTTTTTCAAAGCAAAGGTGTACCTTT
GTTTAAAAAAAAAAGGAGGGCACCCTTTTTTTTAAGAAGCAAGGGTGTGA
CGAGACTCTGAACACTGAAAGTTGTGCAGGGAGGTAAAAAACATTTGATT
GTTCCCTTTTTTTTCCAGAGTGCCTCGTAGTACATCACTTCTCTCGTGCC
ACCTGCGTGCGGTAACCTCCTTACTCTCGCCGATCGCTGTCGAATGATGA
ATAGCTGATTTTGGTCCCTCGCCGCTCCCCCGTCAAGGTAACAAGCTCGT
GTCCGAATACGCCCTGTGCAGCGCGTTGCTGTATACTGTATACAGTATAA
AACTACTTGGCAGTGTGTTACAAGAAAACCCCACGCAAGGCAGCAACAAC
AAGAACAAAAAACTACAGCTATGATAGCTGGTTGTTCACTATCAATTAAA
TAGAGGTTTAACGGAATAAACTAATGTCCATTTTTTTTTCACTCCTTTTG
ATTATTATTATTATTATTATTATTTTCAGCTTTAAGCGCCTGAAATAATG
GCACAGCATGCGACCAAGCTAGTAATAATTGTGCCCGCTTCGTGCGCCGG
GCGCTCCGTACAGTCCCGGTAGAGATGCACATGATAAGCGACTACGGCGC
TCCTCCTAGTCGCAGACGGCGCCGGCCCGGGCGATCTCAGTAAGGCGAAA
GGGGGTGATGGACTGGTTCTATAAACAAAACAAAAATGAACTGCGTCGTG
TACTACGTCCGATATTCCTAACGGCTCTTTACCTAACGGCTTATTTTTCC
GCGCTCACGTTGCGACGCCGAACTTCTAAAACTCTCGTACCGAAAAAGTC
CCTCGCCGCGGACGGCGTCGAGCTGGACGACCTCAAGAACGCCCTCGGGG
TGGTGACGGTTGTGAGCTTTATATGCGCCATCGGGTTCGGGGCCGCGATC
GGCGGCAACGTGGGAGCGTCCTTCACGTACTTCTTCGCGCTGTTGCCCAT
CATTTTTCTCGGGCTTGGTTCCACCTCCCCGGGGGTGATCATCGCCGTCC
TCGACAACTTCAAGAGGAAGTCCAAGGTCATGAACTGTTACCTGTGTACT
TTTTAGTAGTAGTAGTAGCAGTGTGATTATTACTATTATTATTATATGTA
GTAGTAGGTGTAGTATCAGAATTAATAGTGGAGCAGTAGCAGTAGTAATT
TGTCACCACTACTATTATTATTATTACTACTATTATTATTATTATTATTA
TCATTCATAAATGTCATAATTATTTAGATTACGAATATTATTATTATTAT
TATTATTATTATTATTTATAAATATCATAATTATTTATAAATATTATTAT
TATTATTATTTATAAATATCATAATTATTTATAAATATTATTATTATTAT
TATTATTTATAAATATCATAATTATTTATAAATATTATTATTATTCATGG
ACATTATTATTAGTTTATGAATACTATTTATTTCCTTCGTTTTTTTCTTA
TTCAGGAGGGAAAAGTGTTTTTTTATTCTGTTTTTTGTTTCTTATTTTAT
GTTCATCACTTTTTTTCAATGCTGCCCTCCGCCGCCCCGAGTTGTGCCTA
TCAATAGTGTAGATAACCTGCACATCTGCTGACGCGGAAGTCGTGAGTTC
CACTCTTGTCAAGCCAGCAGGATTTTTATTTTGGCGTCCCGTAGCGGAAA
GCGTTGTTATTAATAGTATAGTACGCGGGTAAGTAAAATTCAGCCATTGG
TTGACGAGTTATAAGAGTGCCGAACTTGCATCGCGATTAAAATTCATATG
GTAAGGCGTCAATTGCGGAGAGATGATAAGGCCCTTATTAAAAGTGGGCC
CATCGGCTACAAGTGAGATGAAAAAAAAAAGTCCTGTAAAATCCAAGCGC
CTTTCGACGGAGTGACAGCACCTTCCTTCCCTATTTCTTGACTGTAGGGA
GGGTTTTTTCTCCACGGGGCCGCTTCGTCCCTCCCCCTCGTCTCCGCCCA
ACAATTTTGTAGTAATAAATTTTCATGAACCCCCCCCCCCCCCCCCCCCC
CCCCCCCCCCCCCCCAAAAAAAAAAAAAACACATACTTGTACCGTGCGAG
CACTTCACAATACTAAACAGGCAATATTATATCGATCGTCTCTTGGAATA
ACCATTCCATTTATTTACTCATTTACTTTTCCCTCATAAAACAGGAGGAC
TTCGAGGAGCGGCGCGTGCGCCACGAAGCCTCCCATTTCCTGTCGGGCTA
CCTGTGCGGGCTGCCCATCAAGAGCTACCGGGCCGAAGGGGGTACCACTC
TGGTGGAGTTCTACGACTCTGTCGACGGAGATTTGGACGGACGGTCCCTG
AAATTTAAGCCGGACGAGGTGGACAAGGTCAGTAAGCGCTATTCCTATTC
CTATTCCTATTCCTATCCTATTTCTAATTTTTTGTTTGTTTTTGTTTGTT
TTTGTTTGTTTTTTTTTTTTCGCGTTCGTACGAACCACCATTTGTCATCA
AAATAGAGATTGGAGGTACAGCATTGTTTCACCCTGTTTTTCCAGTTTTG
TCGGCCGTGAAGTTTTCCCCGGGCGTTGGCTGGCGGTCACAAGGTCGGCG
TCTCGTCTCAGGAGCTTTCGCTCATCCGTCAGCGCTGCGTCGTTTACTAT
TGTCAGGTCGGGGATGGAAATGTTCTGTCCCCCCCATCCCCTACCCTGTC
CGGTTTTCGTATTTTTGCAGTGGCTCTGCTGTACTCTGTTCACTGCCGGT
GATCTTAACCCCCCCCTCCATTTTCTCTGCATTATTTGTTCCCCCTTTTT
TTTCTTGGATGCTGAGCGCTACTATACTATACTATACTATACTATACTAT
ACTATACTATACTATACTATACTACCAGGTATACTGTAAAGTGTATGTTG
ATGCTGTTGAGGTTTCTGTACACTCCTGAGCTTGTGGGCTGCAACATACA
CACACACGCACACACTATCATTGATCCCCCCTCAGATGATCCCCCTCTCG
GGAGGATCAATGCGAGTGGCATAGAATGACTAGGACGACAGGGCCGAATT
GCGCGGTTATGTGCAATTTAATAAATACACACGTACACACACACACGTAC
CTATACAGACACACACGAGCTGGGGGAAAAAAAATGCCCAACTAGTTGAG
AACGATTAATTCGTTAGTACAAAAAAATCGACTTCGCGGTTGACGAGGGA
AAGAAACGACTGAATCCTTCTGGCGAGAAAAAATAAGGCAAGCACCGTAG
AAGGAAGGCGGAGAAATCCTGTGTGACCTTCCTCCTGTGGAACCCCGGCT
GGTACGTCCACAACCCTGACGTCCAGAGTAAATGGGATGACAACACACAT
ACATACACATACACATAACACACACACCATACACATTCCCCATTGGGGGG
GTCTAGAAACATTACCAAGAAAATACCGTATCGTCCTGATCGGTTATATC
GCCGGTACCTTCAACATGCCAATAGTGGGTGCGGGAAAGAGAGGCGCATA
TTAATTGGTCCATGATGACCTGCCAAGGCAACACGCGTTCGGAACTACAT
TGAGGTTTACTGGCCCTGTGCCTGCGGACTCTCGGCAGTGAACGCCATCG
GTACGCGACTACGCGACCCAATAAACTCGGGGCTGACCCGATGGCGTATG
GTGGTTTTAGATAAATAAATGGACGCCGTCGTGGAACTCGGGAGGAATCC
CGTAACTAAGCACCAGATTCAGCCTGAGTATGGAGATCGAGCAGGCCGAC
GCTGAACGCGACTGCCGAACCCGTCTCGCGAGACCAAATTTTCATGCGCG
AACGCGGACAGGGGCATACCAGTATTCATTTTCCCTGTTCGGCTGACCAC
GTGCAGGATTGGCAACCTTACCAGGTTGATCCATGCTTTTGCTATATGTG
TGACCATGCATGCGGTTTATTAAACACGTGCACACACTGACGCGTCTCAT
ATGAGAGGTTTTTCGTGACAAAAATGACTGGACTAGTCCCCCATCGGGAG
GACCAAAAAAGAGAATATAGAATGGATGTCAGGAAAGGGGGATGAATTGC
GTGGTTTGGTGCAACTTCATAAACATACATCTACAAAGAGGCATGTTTTT
TATGGCTTTTTTTTGTGTGTGTTAAAAAATAAAAAAATAAAAATGTAATG
TTTTTTTATGACCTTTTCATTAATTTCAATGTTTGTTTTTTGCCTTTTTT
ATAACAAAGTACATGATTACTTCTATCTTTTCATGTATGGTCATCACATA
CAGCAATGTAATACTTGCTGCTCGCTGGCCACAGAGGTTTCGACCCCCCC
CCCCCCCCAGCCCAGTGGCGCAATGCCATGTTCGCTCTTTCTGCCGACCC
GTGTTCACGCCTTCCAAATCCTCGCGGATGTATGTCGCGGTTCGTTTTTC
GGTACGGGATTTACATCCCCGGAAGGTGTCGATCGTCGCCATGGCAGGCG
CCGTGGGCGAGGCCCAGGCGTACGGAAGCGCTACCGGAGGCGCGGCGGAC
CTTGACAACCTAGGACAGATCATGAACCAGGCCAACCCTCCCATGGACGG
CAAGGCTCAGCAGTCTCAGGCCAGGCGAGCTGTCTTTCTGTAGTTCGTTT
GAAATAAGTATATAAAATACTGCACAAAGGAGCCGTGTTTAAAGAAAAAT
CTGAACGCATCTAGACCTTCTGAGCATCCCACACAGGGGGGGGGGGGGGG
GGGGGGGATTTTTCTGCAACTCTTACGAAGTAGATTCCAATAACGATACA
TTGTATACTATATACCTGGTACTATTATATATACTAGTATCGATTCTCCA
CCGTACGCTGCACAGTCGCGAGTATTCGCAGCGCTATTTTTTATCCTAAA
ACGCAAAGTAAAAAATAAAGAGCCGTAAGCCTAAGCCAAATAGTACGGAA
CACGTTTTAGGCAACGCGCGATTGGGGAAAGATCTCGTCGACAGGAGACG
TCGGCTCTCAATTTACCTGTACCTCTAACCGATGCATCATTGTCATGAGT
ATATACCACGAATCGATTGTTAAAAAGTCCGCAGAGCCGCGATTCTTTCG
GCCTTTTTTTTTGCCCTAAACGCGATTCTTTGGGTTTTTTTTTCTACGTT
TTGTTTTCACTTTACAGTACTCCCCCCCCCCCCCTCAGCAGCCATCATTT
TTTAATGTTTTTATTTTATATCGTCATAGCTGAAACGAAATCACTCTTGA
AGGTTAAAAAAAACGTTTCCTTACTTTTCAATGAGTCCAGCAGTTTTTTT
CTACGACCGTTGCCAGCCAATTTTTCCAGCGTGGCGTGTAATATTTCTAG
TGTCCGCTAACCGTTGGAAGATATTCTGAGGGAGAAAGGAGAAATCAGAG
GAATCCCCTCTCCCTCCAATCCTATATAATTTCACAATTTTGGGCTTTTT
CTTTCCTCTATGTTGCGGACCGCGATTCTCCGATTCTTTTAGCTGGCGGA
AATATTTAATTTCAGGCACGGGGATGGAACAAATGACTTTTGATACTCTC
TGTGCCGCTTTTGACTACCCCCCCCCCCCCCCCCAGCCTTCGCTATACTA
GGAAAACTATAGAACAAAATGTGCAAAATTCTGAGAGAGGGAGGGGGGAG
GGGGATGATATCCGTCCATGAAGAGAGCGGTATAAACAGAAACAGCAACT
TTTTCATTTCCGCTCCCGTGTTTTTTGTTACGTTTCCACCCTATAATAGC
GCTACCGAAGAAGCAAAAAGACAAAAGACGCGTTTTACATTTTTCCACGG
TTGAGAACGTTCTCGCCAGACGTAGTTTTTTTTTGTCCTATTACAGAAGA
ATTACAGCAGCCGGCCGCACGTGCGCTCTGATCGCTGTGCAGGTGGGCCA
CGCTGATGGCCCACAGACTCCTGGGCAGCCACGATCCGGAGCTCAAGGCT
CTGATGGAAGCCTTCCGCGCGGGGAAGCCGGTGTCCGAGTGCGTTGCAGC
GCTAGAGGGTGCCAGGAACTAGGCGCTGCTGCCATAGATGCTACGCTGGA
GGTTACGCTGGGGGGACCAAGACTGTAGTAGACTGCCGCCAGAAACGCAT
GATATTATATAGAGGATTTGAGAAGGACGTGCTACATATTGATGCATATT
CCTATTAATGTTTTAGAGTTTTTCTTTTTTTGTGTTCCGAGTGAATTCAC
ATCATATACAATAATGGTGTAAAGTAGTAGTAGCAATATAAGAATTGGTC
GAATGTTTCTTTTTGTTTTCTTCATGTCTTTTGGCGCGCACGATAATTAA
AAAAGAGCTCACTCCCCAGGGATTCTCACATATCGAGCGCCTTTGGTTTT
CCAAGTTGATAGGAGAACAGGGGACGCCCGACGGCGATCCCCCCCCCCCG
CCCCCC
back to topCoding sequence (CDS) from alignment at F-serratus_M_contig990:127512..142317-
>mRNA_F-serratus_M_contig990.21209.1 ID=mRNA_F-serratus_M_contig990.21209.1|Name=mRNA_F-serratus_M_contig990.21209.1|organism=Fucus serratus male|type=CDS|length=2844bp|location=Sequence derived from alignment at F-serratus_M_contig990:127512..142317- (Fucus serratus male)
ATGGCGCTTGGTTCTGCGTACCACACGCCCGTCGCGTGGGGGGCAACGGC
TCCGCCTCATCCGGCGGCGAGAGCCTTCGCCGTCGCCCCGCCCGTCCCCG
CGTTTCTCGCCCCCGGGATGGGCGGAGCCGCGACAGCCTCCCTCGCTCGG
TGCCATCGGCAGGAGCTACGGCACCACCGGCGCCCCCAGGCGGCAGCGGG
AGCGGCTACGGCAGCGTGGGCAGAGGCCTCCCTGTTCCCACGGGCACGGC
TTGGGGCTAGAGCGCTGAGAGCACTCGTGATGATGAGCGCATCGGATTCC
GGCGGAGGCGGTGGTCCCGGCGCGACCGAGGTTCCCGAGGCGACGAGGAG
GCTTCTGGAGCAGGCGGCCAAGGCCCGTGCCGAGATGGCGCTTGGTTCTG
CGTACCACACGCCCGTCGCGTGGGGGGCAACGGCTCCGCCTCATCCGGCG
GCGAGAGCCTTCGCCGTCGCCCCGCCCGTCCCCGCGTTTCTCGCCCCCGG
GATGGGCGGAGCCGCGACAGCCTCCCTCGCTCGGTGCCATCGGCAGGAGC
TACGGCACCACCGGCGCCCCCAGGCGGCAGCGGGAGCGGCTACGGCAGCG
TGGGCAGAGGCCTCCCTGTTCCCACGGGCACGGCTTGGGGCTAGAGCGCT
GAGAGCACTCGTGATGATGAGCGCATCGGATTCCGGCGGAGGCGGTGGTC
CCGGCGCGACCGAGGTTCCCGAGGCGACGAGGAGGCTTCTGGAGCAGGCG
GCCAAGGCCCGTGCCGAGGCCGACGAGATGGAAGTCGCGTACCGGAAGGA
GCAAGGGATCGAAGACTTTGAGCCCTCGCGCGCCTCGAAGGCCGCCAGCC
CCTCGGCGACGGAAGTGGCAGACCCCTCCAACGCCGCGGCGCAGGCGGCC
GCCGCTGCTGCGTTGTCCGCGGGGACGACCCCGGAGTCAAGGGCGGCGCT
CGTGGAGCAGCTGGAGGATCTCCCGTCGGAGTCGAAGCGCGTGATCGAAA
AGATGGAGAGCCTTAAGTCAGAGGGCCTGGCGCCGAGGCCGACGAGATGG
AAGTCGCGTACCGGAAGGAGCAAGGGATCGAAGACTTTGAGCCCTCGCGC
GCCTCGAAGGCCGCCAGCCCCTCGGCGACGGAAGTGGCAGACCCCTCCAA
CGCCGCGGCGCAGGCGGCCGCCGCTGCTGCGTTGTCCGCGGGGACGACCC
CGGAGTCAAGGGCGGCGCTCGTGGAGCAGCTGGAGGATCTCCCGTCGGAG
TCGAAGCGCGTGATCGAAAAGATGGAGAGCCTTAAGTCAGAGGGCCTGGC
GCCGAGGTGGAACAGCTTCAATTTCGGCTCCCGATACCCCATCAGCCAGG
GGCAACTGAAGATACAGACTGGCCTCGATGGAAAGGTGGAACAGCTTCAA
TTTCGGCTCCCGATACCCCATCAGCCAGGGGCAACTGAAGATACAGACTG
GCCTCGATGGAAAGTCCCTCGCCGCGGACGGCGTCGAGCTGGACGACCTC
AAGAACGCCCTCGGGGTGGTGACGGTTGTGAGCTTTATATGCGCCATCGG
GTTCGGGGCCGCGATCGGCGGCAACGTGGGAGCGTCCTTCACGTACTTCT
TCGCGCTGTTGCCCATCATTTTTCTCGGGCTTGGTTCCACCTCCCCGGGG
GTGATCATCGCCGTCCTCGACAACTTCAAGAGGAAGTCCAAGTCCCTCGC
CGCGGACGGCGTCGAGCTGGACGACCTCAAGAACGCCCTCGGGGTGGTGA
CGGTTGTGAGCTTTATATGCGCCATCGGGTTCGGGGCCGCGATCGGCGGC
AACGTGGGAGCGTCCTTCACGTACTTCTTCGCGCTGTTGCCCATCATTTT
TCTCGGGCTTGGTTCCACCTCCCCGGGGGTGATCATCGCCGTCCTCGACA
ACTTCAAGAGGAAGTCCAAGGAGGACTTCGAGGAGCGGCGCGTGCGCCAC
GAAGCCTCCCATTTCCTGTCGGGCTACCTGTGCGGGCTGCCCATCAAGAG
CTACCGGGCCGAAGGGGGTACCACTCTGGTGGAGTTCTACGACTCTGTCG
ACGGAGATTTGGACGGACGGTCCCTGAAATTTAAGCCGGACGAGGTGGAC
AAGGAGGACTTCGAGGAGCGGCGCGTGCGCCACGAAGCCTCCCATTTCCT
GTCGGGCTACCTGTGCGGGCTGCCCATCAAGAGCTACCGGGCCGAAGGGG
GTACCACTCTGGTGGAGTTCTACGACTCTGTCGACGGAGATTTGGACGGA
CGGTCCCTGAAATTTAAGCCGGACGAGGTGGACAAGGTGTCGATCGTCGC
CATGGCAGGCGCCGTGGGCGAGGCCCAGGCGTACGGAAGCGCTACCGGAG
GCGCGGCGGACCTTGACAACCTAGGACAGATCATGAACCAGGCCAACCCT
CCCATGGACGGCAAGGCTCAGCAGTCTCAGGCCAGGTGTCGATCGTCGCC
ATGGCAGGCGCCGTGGGCGAGGCCCAGGCGTACGGAAGCGCTACCGGAGG
CGCGGCGGACCTTGACAACCTAGGACAGATCATGAACCAGGCCAACCCTC
CCATGGACGGCAAGGCTCAGCAGTCTCAGGCCAGGTGGGCCACGCTGATG
GCCCACAGACTCCTGGGCAGCCACGATCCGGAGCTCAAGGCTCTGATGGA
AGCCTTCCGCGCGGGGAAGCCGGTGTCCGAGTGCGTTGCAGCGCTAGAGG
GTGCCAGGAACTAGGTGGGCCACGCTGATGGCCCACAGACTCCTGGGCAG
CCACGATCCGGAGCTCAAGGCTCTGATGGAAGCCTTCCGCGCGGGGAAGC
CGGTGTCCGAGTGCGTTGCAGCGCTAGAGGGTGCCAGGAACTAG
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