mRNA_H-akashiwo_Contig1215.6.1 (mRNA) Heterosigma akashiwo CCMP452

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

Overview
NamemRNA_H-akashiwo_Contig1215.6.1
Unique NamemRNA_H-akashiwo_Contig1215.6.1
TypemRNA
OrganismHeterosigma akashiwo CCMP452 (Heterosigma akashiwo CCMP452)
Homology
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: D8LD78_ECTSI (Acyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LD78_ECTSI)

HSP 1 Score: 228 bits (582), Expect = 3.350e-69
Identity = 120/261 (45.98%), Postives = 166/261 (63.60%), Query Frame = 2 
Query:   44 LSDAVPLHFFSLAYYYVGIYLLSCVVICIWYPGIWSLASFAPLGISFLFPVSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKKIIFAAVPHGVMSFCGMCHGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTVAADRWVFPK 826
            L+ A+ +  FS  Y+Y  ++L +  ++  +     + A+  P  +S + P      W+L T+FFRC LKY D+DEV E S  E+  IE+ KKIIFAA PHGVMS  G+C  I  A      PPT  A VI +IPI++++FG++GL+ AS +SL   L++ SV++Y+GG+AELFLS+P  E L++  RKGFIKLAM TGSEV+P Y+ GNT+ L +LR   L+  SR LGAS+T  WG  GLP+P P K + V       PK
Sbjct:   16 LAGALAVSTFSTCYFYAVLWLPTVGLLFFFVSRTAAAAALVPYAVSAVLPTKALP-WLLNTWFFRCALKYHDFDEVEETSQEEISLIEKDKKIIFAAQPHGVMSITGICSAINMAPRP--TPPTCTADVIRRIPIMKHVFGVFGLVGASSRSLKSALRRTSVVLYVGGIAELFLSNPAEERLYVGKRKGFIKLAMQTGSEVIPCYYFGNTTCLEILRHPVLTSVSRKLGASITILWGRWGLPIPMPGKSMCVVGKPIGIPK 273
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A835YX01_9STRA (Acyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YX01_9STRA)

HSP 1 Score: 209 bits (533), Expect = 1.440e-61
Identity = 124/274 (45.26%), Postives = 169/274 (61.68%), Query Frame = 2 
Query:   17 HPTCG-RSRSLSDAVPLHFFSLAYYYVGIYLLSCVVICIWYPGIWS--LASFAPLGISFLFPVSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKKIIFAAVPHGVMSFCGMCHGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTVAADRWVFPKL 829
            H T G R   L   + +  FS  YYY  +Y L  VVI +   G  +  L    P+ +S L P SR    +L T FF+C LKY +++E+ E +  E+ ++ +++  I AA PHGVMS  G+C+ I  A     IPP+A ASV+L+IP+++ +FG + LIDAS+KSL K LKK SV+IY+GGMAELFLS P+ E L +  R GF+KLAM TGS+V+P Y  GNTS L V R + L   SR LG S+T  WG  GLP+P P K++ V       P++
Sbjct:   26 HTTAGTRFERLCGMMAIGIFSTCYYYSVLYPLF-VVIMLTAKGFTTTTLLLALPVLLSILLP-SRQLPHLLATKFFKCALKYHEFEEIQETTDEELHELSKTRNFIMAAQPHGVMSVAGICYAINRAPG--EIPPSAVASVLLRIPLMKQVFGSFNLIDASRKSLTKALKKQSVVIYVGGMAELFLSHPSEERLFIAKRTGFLKLAMQTGSDVIPWYLFGNTSTLVVARGSFLMALSRTLGVSITLLWGRWGLPLPMPRKIMCVMGRPMGLPQI 295
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A7S2CLT2_9STRA (Acyltransferase n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2CLT2_9STRA)

HSP 1 Score: 189 bits (480), Expect = 1.170e-53
Identity = 109/258 (42.25%), Postives = 158/258 (61.24%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVV-ICIWYPGIWSLASFAPLGISFLFPVSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKKIIFAAVPHGVMSFCGMCHGI-----KCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKKG-SVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTVAADRWVFP 823
            FSL YY    Y+L  +  I ++   +W+    AP+ IS   P    S  IL ++ FR I KYFDY E+LE S  E  K   +K +I A  PHGV S+ G+C  +     K   E  ++ PTA A+V+L +PIL++I G++GL+DA K+SL+ ++KKG S ++Y+GG+AELFLSSP +E +    R+GFIKLA+  G++V+P+Y  GNT+ L+V     L + SR  GA++T  WG+ GLP+P P  +  V     V P
Sbjct:   43 FSLTYYIAPFYVLFALARILLYTTSLWTYVYLAPIMISASLPNFGMSRRILSSWVFRQIPKYFDYVEILEYSDEETAK--HAKPLILAVQPHGVFSYGGVCSAVVDYSSKIRMEIVHMFPTAVAAVLLSLPILKHILGVFGLVDAGKQSLVNRIKKGKSTVLYVGGIAELFLSSPEKEAI--KSRRGFIKLAIQQGADVIPLYLFGNTTVLKVFTHPTLEKVSRKAGATLTLFWGICGLPLPFPKAVTYVRGKPLVLP 296
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A6V4FAM1_9EUKA (Acyltransferase n=1 Tax=Prymnesium polylepis TaxID=72548 RepID=A0A6V4FAM1_9EUKA)

HSP 1 Score: 188 bits (478), Expect = 2.250e-53
Identity = 115/257 (44.75%), Postives = 158/257 (61.48%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVVICIWYP---GIWSLASFAPLGISFLFP---VSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKKIIFAAVPHGVMSFCGMCHGIKCADE-----GYNIP---PTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKK--GSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMV 793
            FSL Y    +Y+L  +V+ +  P     W++A  APL IS + P    SR+  ++L +Y  R I KYF+Y+E  E + +E+K     K  I AA PHGV SF G+C  +   ++     G  +P   PTAAASV+   P+L+++ G++G+IDA  K L K L K   SV+IY+GGMAELF SSP RE + L  RKGFIK+ + TG++V+P+Y  GNT+ L  L S  L+  SR LG SVT  WG  GLPVP+P K+V
Sbjct:   36 FSLVYVVAPLYVLGALVLVVCAPFAMSTWAVA--APLIISLMLPGSLPSRYGPYVLSSYAARQIPKYFEYEEYHEATDAELKA--SGKNYICAAHPHGVFSFVGVCGAVASLNDEKEGFGKELPRVVPTAAASVLKVFPLLKDVLGVFGVIDAGGKVLSKHLSKPKSSVVIYVGGMAELFRSSPKREAVFLKKRKGFIKMGLRTGADVLPLYLFGNTTVLSALTSGPLASLSRKLGVSVTLFWGRFGLPVPKPVKLV 288
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A7S4FD25_CHRCT (Acyltransferase n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4FD25_CHRCT)

HSP 1 Score: 183 bits (465), Expect = 3.520e-51
Identity = 110/254 (43.31%), Postives = 155/254 (61.02%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVVICIWYP-GIWSLASFAPLGISFLFPV---SRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEES-KKIIFAAVPHGVMSFCGMCHGIKCADEGYNIP------PTAAASVILKIPILRNIFGLYGLIDASKKSLIKQL--KKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMV 793
            F+L Y    +YLL+ V I ++ P G        P+ +S L P       S  IL ++  R I KYF Y+E  E + +E+K+  ++ K+ I  A PHGV SFCG+C  I        +       PTAAASV+   P+L+++ G++G+IDAS   L  +L  ++GS ++Y+GG+AELF SS  RE ++LN RKGFIKLA+ TG +V+P YF GNT+ L VL++  L+  SR LG SVT  WG  GLPVP+P K+V
Sbjct:   59 FTLIYILAPVYLLATVGILLFMPWGYTHAVMLTPIVVSMLTPAWVPVALSPHILGSWACRQIPKYFSYEEYHETTDAELKEAHDAGKRFILVAHPHGVFSFCGVCGFIASVSSNNGVANLATEVPTAAASVLRFFPLLKDLLGVFGVIDASAAVLKSRLSRRRGSFVLYVGGIAELFASSSQREAVYLNKRKGFIKLALRTGGDVIPAYFFGNTTVLSVLKAGPLAALSRKLGVSVTLFWGRWGLPVPKPVKLV 312
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A7S0PXT3_9EUKA (Acyltransferase n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0PXT3_9EUKA)

HSP 1 Score: 182 bits (461), Expect = 6.520e-51
Identity = 112/257 (43.58%), Postives = 160/257 (62.26%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVVICIWYP---GIWSLASFAPLGISFLFP---VSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIE-ESKKIIFAAVPHGVMSFCGMCHGIK--CADEGY--NIP---PTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKK--GSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMV 793
            F+L Y    +Y+L+ + + + +P     W L   APL +S   P     + S +I+  +  R I KYF Y+E  E +  E++    E K+ +  A PHGV SFCG+C  I   CA +G   ++P   PTAAASVI   P L+++ G++G+IDAS   L ++L +  GSV++Y+GG+AELF SSP RE ++L  RKGFIKLA+ TG++V+PVYF GNT+ L VL +  L+  SR +G SVT  WG   LPVP+P K+V
Sbjct:   29 FTLVYVLAPLYVLAALTLLLLFPLNPRTWLLL--APLIVSLALPPWVAVQLSPYIMGNWASRQIPKYFAYEEYHEATDQELQAAHAEGKRFLLVAHPHGVFSFCGVCGFIASMCASDGIGASLPIEVPTAAASVICFFPFLKDVLGVFGVIDASGSVLNRRLSRNRGSVVLYVGGIAELFASSPAREAVYLKKRKGFIKLALRTGADVLPVYFFGNTTVLSVLTAGPLAMLSRNIGVSVTLFWGRFFLPVPKPVKLV 283
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A7S2Q253_9STRA (Hypothetical protein (Fragment) n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2Q253_9STRA)

HSP 1 Score: 179 bits (453), Expect = 1.790e-50
Identity = 109/248 (43.95%), Postives = 153/248 (61.69%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLS---CVVICIWYPGIWSLASFA-PLGISFLFPVSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKKIIFAAVPHGVMSFCGMCHGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKKG-SVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTV 799
            FS AY  + IYLLS   C+++   YP   +  ++A P+ +S + P    S +ILR    + +L YFDY+ +     +  + I   K  +FAA PHG++SF GMC  +   D+   +P TAAAS +L+ P+L+N+ G++ L+DAS  +L K LK G SVLIYIGG+AELF S    E L+L  RKGFIKLA+  G +VVP+Y  GNTS L  L+   L+  SR L  S+TW WG   LP+PR +K++ V
Sbjct:   27 FSFAYLIIPIYLLSSACCLILR--YPTTNASITYALPMFLSIIIPPLP-STFILRL--LKPMLYYFDYEAIYTDDKNVRQAIAGGKNFLFAAQPHGILSFVGMCAAVSKPDDAMKVP-TAAASAVLQTPLLKNLMGIFNLVDASAHNLKKILKGGGSVLIYIGGIAELFKSCRAEERLYLKKRKGFIKLALREGVDVVPIYLFGNTSVLSALKHGPLATLSRKLQVSLTWFWGKYYLPIPRDEKILYV 268
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A7S2W5Y2_9STRA (Acyltransferase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2W5Y2_9STRA)

HSP 1 Score: 180 bits (456), Expect = 4.410e-50
Identity = 114/262 (43.51%), Postives = 159/262 (60.69%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVVICIWYPGIWSL-ASFAPLGISFLFPVSRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEESKK-IIFAAVPHGVMSFCGMC-----HGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQL--KKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTVAADRWVFPKL 829
            FSL YY   +Y++   V+    P   S     AP  IS   P S  S   L+++  R + KYF Y EVLE +  E+      +K +I A  PHGV S+ G+C     +G     E     PTA ASV++  P+L+++ G++GL+DASKKSL+KQL  KKG+V++Y+GG+AELFL SPT E++    RKGFIK+AM  G+++VPVY +GNT+ L+V+R   LS  SR LGA++T  WG  GLP+P P  +V V       PK+
Sbjct:   43 FSLVYYIAPVYMIVAPVLLFRQPTAMSTWLILAPAIISAALP-SGHSPAFLKSWLMRQMPKYFQYSEVLESTDRELIDYSAKRKPLILAVQPHGVFSYGGVCSALIDYGASERAEVVARFPTAVASVVMGFPVLKHVLGVFGLLDASKKSLMKQLSGKKGNVVLYVGGIAELFLCSPTEEKVLA--RKGFIKVAMQAGADIVPVYLLGNTTVLQVVRHPILSFISRKLGATITLFWGRWGLPLPLPRPVVYVRGAPIDIPKI 301
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A0M0JHH3_9EUKA (Acyltransferase n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0JHH3_9EUKA)

HSP 1 Score: 177 bits (450), Expect = 2.840e-49
Identity = 113/258 (43.80%), Postives = 159/258 (61.63%), Query Frame = 2 
Query:   71 FSLAYYYVGIYLLSCVVICIW---YPGIWSLASFAPLGISFLFPV---SRFSAWILRTYFFRCILKYFDYDEVLEISHSEVKKIEES-KKIIFAAVPHGVMSFCGMCHGIKC-ADE----GYNIP---PTAAASVILKIPILRNIFGLYGLIDASKKSLIKQL--KKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMV 793
            F+L Y    ++LL+ + + ++    P  W+L   AP+ IS L P       S ++L  +  R I KYF Y+E  EI   E+K    + K+ I  A PHGV SFCG+C  I   AD+    G  +P   PTAAASVI   PIL+++ G++G+IDA+   L K+L   +GS ++Y+GG+AELF SSP  E + L  RKGFIKLA+ TG++V+PVYF GNT+ L  +R A +++ SR +G SVT+ WG  GLPVP   K+V
Sbjct:   29 FTLVYILAPLHLLAAICLLMYDFRSPLTWTLI--APIAISMLTPAWVSVALSPYVLGNWCARQIPKYFRYEEYHEIGDDELKANHAAGKRYILVAHPHGVFSFCGVCGAIATMADKKGGIGPALPLEVPTAAASVIRFFPILKDVLGVFGVIDAAGPVLKKRLARNRGSFVLYVGGIAELFASSPKEEAVVLKARKGFIKLALQTGADVIPVYFFGNTTVLSTVRWAPIAKLSRKMGVSVTYFWGRFGLPVPNAVKLV 284
[Close]
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Match: A0A812R5N3_SYMMI (DGAT2 protein n=1 Tax=Symbiodinium microadriaticum TaxID=2951 RepID=A0A812R5N3_SYMMI)

HSP 1 Score: 172 bits (437), Expect = 1.230e-48
Identity = 97/201 (48.26%), Postives = 133/201 (66.17%), Query Frame = 2 
Query:  242 ILKYFDYDEVLEISHSE-VKKIEESKK----IIFAAVPHGVMSFCGMCHGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKSLIKQLKKG----SVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVVPVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTVA-ADRW 814
            +L YFD++   E S  + V ++EE KK    +IFA  PHGV+SF G+C GI  AD  +    TAAA  +L  P+++++ G+YGLIDAS KSL ++L +G    SV++Y GG+AELF +S T E L +N RKGFIKLA+ TG+++VP+YF GNTS L VL+S+ L   SR+   S+T  WG  GLP+PR  K  T    D+W
Sbjct:    1 MLDYFDFETAFETSDDDLVARLEELKKEGRSMIFAGQPHGVLSFGGLCAGIA-ADSRFTDLVTAAAGAVLATPVVKHVVGIYGLIDASAKSLTRRLARGGAQGSVVLYTGGIAELFKTSDTEEILFINSRKGFIKLALRTGADIVPMYFFGNTSVLSVLKSSLLESLSRSYQISLTIFWGEFGLPIPRKHKEPTDEDVDKW 200
The following BLAST results are available for this feature:
BLAST of mRNA_H-akashiwo_Contig1215.6.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LD78_ECTSI3.350e-6945.98Acyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepI... [more]
A0A835YX01_9STRA1.440e-6145.26Acyltransferase n=1 Tax=Tribonema minus TaxID=3033... [more]
A0A7S2CLT2_9STRA1.170e-5342.25Acyltransferase n=1 Tax=Dictyocha speculum TaxID=3... [more]
A0A6V4FAM1_9EUKA2.250e-5344.75Acyltransferase n=1 Tax=Prymnesium polylepis TaxID... [more]
A0A7S4FD25_CHRCT3.520e-5143.31Acyltransferase n=1 Tax=Chrysotila carterae TaxID=... [more]
A0A7S0PXT3_9EUKA6.520e-5143.58Acyltransferase n=1 Tax=Coccolithus braarudii TaxI... [more]
A0A7S2Q253_9STRA1.790e-5043.95Hypothetical protein (Fragment) n=1 Tax=Skeletonem... [more]
A0A7S2W5Y2_9STRA4.410e-5043.51Acyltransferase n=1 Tax=Rhizochromulina marina Tax... [more]
A0A0M0JHH3_9EUKA2.840e-4943.80Acyltransferase n=1 Tax=Chrysochromulina tobinii T... [more]
A0A812R5N3_SYMMI1.230e-4848.26DGAT2 protein n=1 Tax=Symbiodinium microadriaticum... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-akashiwo_Contig1215contigH-akashiwo_Contig1215:125488..153164 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Heterosigma akashiwo CCMP452 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LD78
PFAMsDAGAT
Model size1076
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons6
Evalue6.16e-45
EggNOG OGsKOG0831@1|root,KOG0831@2759|Eukaryota
Description2-acylglycerol O-acyltransferase activity
Cds size582
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-akashiwo_Contig1215.6.1prot_H-akashiwo_Contig1215.6.1Heterosigma akashiwo CCMP452polypeptideH-akashiwo_Contig1215 125837..153019 +


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

Feature NameUnique NameSpeciesTypePosition
1681387123.8418725-UTR-H-akashiwo_Contig1215:125487..1258361681387123.8418725-UTR-H-akashiwo_Contig1215:125487..125836Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1215 125488..125836 +
1681387123.91785-UTR-H-akashiwo_Contig1215:153019..1531641681387123.91785-UTR-H-akashiwo_Contig1215:153019..153164Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1215 153020..153164 +


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

Feature NameUnique NameSpeciesTypePosition
1681387123.8532865-CDS-H-akashiwo_Contig1215:125836..1258611681387123.8532865-CDS-H-akashiwo_Contig1215:125836..125861Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 125837..125861 +
1681387123.862791-CDS-H-akashiwo_Contig1215:127530..1277011681387123.862791-CDS-H-akashiwo_Contig1215:127530..127701Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 127531..127701 +
1681387123.8724096-CDS-H-akashiwo_Contig1215:138365..1384551681387123.8724096-CDS-H-akashiwo_Contig1215:138365..138455Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 138366..138455 +
1681387123.8823893-CDS-H-akashiwo_Contig1215:149576..1496261681387123.8823893-CDS-H-akashiwo_Contig1215:149576..149626Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 149577..149626 +
1681387123.8999293-CDS-H-akashiwo_Contig1215:149795..1499241681387123.8999293-CDS-H-akashiwo_Contig1215:149795..149924Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 149796..149924 +
1681387123.9097886-CDS-H-akashiwo_Contig1215:152902..1530191681387123.9097886-CDS-H-akashiwo_Contig1215:152902..153019Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1215 152903..153019 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-akashiwo_Contig1215.6.1

>prot_H-akashiwo_Contig1215.6.1 ID=prot_H-akashiwo_Contig1215.6.1|Name=mRNA_H-akashiwo_Contig1215.6.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=194bp
MSFCGMCHGIKCADEGYNIPPTAAASVILKIPILRNIFGLYGLIDASKKS
LIKQLKKGSVLIYIGGMAELFLSSPTREELHLNDRKGFIKLAMVTGSEVV
PVYFIGNTSGLRVLRSAALSRASRALGASVTWTWGLLGLPVPRPDKMVTV
AADRWVFPKLITLHKKILTSGMQNMSGRSRGFLKNTKLQTQTM*
back to top

mRNA from alignment at H-akashiwo_Contig1215:125488..153164+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-akashiwo_Contig1215.6.1 ID=mRNA_H-akashiwo_Contig1215.6.1|Name=mRNA_H-akashiwo_Contig1215.6.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=27677bp|location=Sequence derived from alignment at H-akashiwo_Contig1215:125488..153164+ (Heterosigma akashiwo CCMP452)
GGGAGATCTAAACCATCATCCAACATGTGGTCGTTCGAGAAGTTTGTCGG
ATGCTGTGCCGCTTCATTTTTTCTCATTGGCTTACTATTATGTCGGCATT
TATTTACTCTCTTGTGTCGTTATCTGCATTTGGTACCCCGGCATTTGGTC
TTTGGCAAGCTTTGCTCCGCTGGGGATCTCTTTTCTTTTCCCGGTCTCCA
GATTTTCGGCATGGATTCTGAGAACTTATTTTTTTCGTTGCATATTGAAG
TATTTTGACTACGATGAAGTTCTGGAGATCTCGCACTCAGAGGTCAAGAA
GATTGAGGAGTCAAAGAAGATAATCTTTGCTGCTGTGCCCCATGGAGTGA
TGTCCTTCTGTGGGATGTGCCATGGTAAGATTCAACAGCAAGCACTAGAA
CGAACACTGTATCATTGTAAAGTGGACCAAAAATTATTTCTCCCCCCCCA
CCCAAACTTCATATAATGAAGAGGCCTAAAATCAACTCTACCGAATTATA
TATGCCATCACCCATCATCGTTACCTGGACCTGGAATTGCCTGTAGAGAC
CCAAACGGCATAAGATTGCCCCATGCTTTCAGCAACTAGTGTCTAAGGTC
TGGAATCCAATTTTCTCACAAAATCATGCGAATATTTAAGGTCTAGGAAC
CCACCCAGAAATCCCCCAGTCTCCTCAGTCCCTCCACCTTCATCCTGCAA
AGAATCACAAATAAATGGTTCAGTGGGTTTTCTGAATGAGGAAGGAGTTG
GGCTGCCACAAAATGATGATTATTAAATCAAGCACACAATGCTCGAAAGC
AGCACACGGGGCAGCCAGTAGAGCTCATACCAACCAATTTTCCTGCTGCT
GGCTAGAACCTTTTTTCGTGGTTTACAAAGATCACTCTTGCTACCTTCCA
GATGCCAGGGCACAGTCTTGCCGGTCGTCTACAAAAGTGTGGTGTGTGCG
TGTGTTGTAGCAGAGTTACACCAACTGCTGGCTACCATGCTCCCCCCTAT
CTGTCTCTAGACTAGGCTGTGTGTGTGCATCAGTCAGCAAAATCTTTCTG
TAAGTCGTGCGTGCACCGTATACATTTAAAACTATTTCCCCCTTCATCCG
CATGTCATACTGCCCCCCAGTTTTCTTTTCATGCACAAATACTTCACATT
CACCGGCCATATCTATCTATACCTTGCCAGGACCTGGGACAACACCGTGA
CACGAGGCGCGCGCCTCGTGTCTCGGTTGGCGCGCCTCGTGTTCAGCGAA
ATCGTGTGAAATCACGAGGCGCTGCGCGCCTCGTGTTTTCGAGCTCAGAG
TTTGGGGTGGTTACTTTCTGGTCTTGGGCGATTTAAAATTTTCCGATGTA
TAAATAGATTGGCCAATCAAAAATATCAGAAAAGGTTGAGACTTTTCAGA
ACCAATCAAAAAATAATATTTGTGGATAGTGCTGCTATACTGCTGCTGCT
TCTGCTGGTGGTGCTGCTTACCCTCGAGAAAAATAAGTAGAGGGGTAGAA
TGGTATAAATAGTCCGAAGGAAAATCGAGGAGGAAGTTAGGAGGGAGGGT
TGGTAGGTCTGCGAGGTTTGAATCGGTTGAAACTGCTGCGTTCTGTCTCC
GTATTGTCGGAATCATATACCCTTTAAAACGGGCCTGCCAGTAAGACTGC
GGGGGCGTTCGACTGTTTGCCATTTAAGCGTACTCAAGTGTACTTGGGGC
ACGCAAGTACACTGAGTACCACTAAAAATCGGGCGACTCAGTACTTCCCA
GGCCATGCCAGAGGCTCTTTTCGGATTGACTTTTGGAATATGCATTGAGT
TTAGCTTCTTTACTATATGCCATCAACAAAGAAGAAGAAACAAATGACGG
GGGCAGCAGTTTTTTGGCTGAGCAGACTGATACAGCTCAGCAAGTGGGGT
GAAGAGTTTGTTTGTTTGATTGATTGACAGTTTTTTTTTTTTTTTTCCCC
GCCTTGTGCTCCTCCTGTTTGAGTGAGCGCCTCCTAATTTGCAAAGTGTT
GGAAATAATTGTCCTGGGCCCTGCCTCGCTGCTTTATATGTAGGCATCAA
GTGCGCAGATGAGGGTTACAACATCCCTCCGACCGCAGCTGCATCAGTCA
TCCTGAAAATTCCCATTCTCAGAAATATTTTTGGATTGTATGGGCTTATT
GATGCTTCGAAGAAGAGCTTGATCAAGCAGCTGAAAAAAGGATCTGTTTT
GATCTATATTGGAGGTACATTCACATATATCTTTTTTCGTTTTCCCAATC
ATGGGCCACAGTTTTGTTTGAATTATTTTTTACTAGAGGAATCTATACAT
ATATAAATATGTTTTCTGTGGTTGTTTTATATCTAATCTATGATATATTA
GTAATAAACAAACAAAGTTTTATTTTATTTTAATAGCATTAAAAAATGAT
ATTGTTAGTAAAATAACTTAGTAGTTCTTCATTTTTCTGCTTCGGCAGGT
CCAGAAATCTACTTATATAATAAAAACGGTTGTTGAGCTTTGCTTTGAAA
CTCACAGTTGTTCACCATGTCAGTCCAAGGATTTGTTTATTGTATCATGG
CCGGTGCTTGTACCTGGTGGTGATGATGATGCCCAGATCAGCAGCAAGCA
TGAAGAAGGAGTGCAGAATATTTCCTTGTAGTCTGCAGCTGGTTGGTTTA
AACTATCTTTTAACAAGGTGGAGAAGAGGCAGCAAGAAGAGCTACCGTTG
CATGTCTGTGGCTCATTTTCTTTTTGTCTGCTGCTATACTTACTTCCCTC
ACATCACTTTACTCATCTTCTTCATTTCGTGAGTTAATAATAATAATTAT
TATTGTGCTGACTACTACAACAAAAAGCGTGCTGATGAGGCGAGCCACCA
GCTACGGCTGGTGCTATGCCAGAAACAGCGTTGTCTGTGTCAAATCTTTG
TATAATGATGATTTGAAACCTTGGACACACATGGACTTGAAAATATGGAG
CTACACTCGCTGATAATGAAAGCGGCCTTCCTGTTTATAACCCAATACCT
CACAAGTTTGTTCGACTGTTCAAATTGGGATCTGCTCTGATGTATTCTAA
TAAGCAACCGAAACAACCAGATTTCCCTTCCATTGTGCAATAATGGTTAA
CCTGCTCTTCTTTGGCTCCCTGCTGCTGGTGTTGGATGGCACATGCCAGC
TGGCCTGACAAAGGTATAAACTACTGTTGTTTAGAATGGTGGCCACAAAC
CTTCTGCACAGTATACACAACACAAACACTACATTTGAGAGGGTTCTCAT
GCCTCAACTGGGTGCGTTTCTGCTTCCACACATCCCAGAAGAACAGTTTG
GGTTCATTTCTGATACAGGCACTCTGGATGTGGGTGCCGTACTTGCAGAC
CAGATATACTATAGCTCAAGCACTGCAGGCTAAAAAAGATGTGCGGCTAG
TTGCCCTTGATTCAAGGGAGCTTTCGACAAGGTGTGGTGGCGTGGGCTTC
CTTCTCGCACATCTGTGGGCTGTAGGTAGGGGTGCGCGCCAAAAGAGCTG
TCTCTTTTAGCCTGCAGTGCTTGAGCTCTTAATCCACCATAGAGGTATGT
TGGATCATACGGAGAAATGTCCCCCATCGCGATGATTTTTTCCCTGGGGA
AATCGTCGTCTGGGGGAATCGGCGTCCCGGGGACGGCGACCACGAAAAAG
GGAAAATCCCGGGGACCAATTCGCCCGGGGGACTGAGAAACTAACATTTT
TTCGAACGGCGAGCGGCGACAAATCCCGAGGGACGACCAAAAAGGGAGAC
AGAGACCATTCCCAGGCGGTACCACGACAACATGTCCCCGGGGATTCGGC
GTACCTGGGGACGTCACGTACCCCCGGGGGGACATCAAGAAACCTCAATA
TCTCCTGTGCGACAACTTTTTAGTCCTTCTCCTTGGTACAGTAGATGGAG
AATGACTTGCTCTTTCGGGGGGTGTACATAGCTTAAAGTGGCGCCCGATG
CCGGGAAGGTCGAAAATCAAGAATCTTTTCGCCCTAGACGGGTTCGGGCG
CCATTTTTGATAATTTTTCTGGAATCTATACGTTAAATTTGCGATAGTAT
GGTATGCCGGGGGTCCTTATATACGAGTTGTTGCAACCGGAAATCGACAG
AGGACATTCCTCCGTATAATCCACCATAATGGTGAGATCTTAGAGCATGT
AGGCATCAAGTCCGGCGTTCCTCAGGGCGCCATCTGGTCTCCTCTTCTCT
TTGACCTCTTTGTGAGAAACGTTCCCTAACAGGTGCGGGCAGCTCTGCGG
AAGGCGTGCCACTTCTACGCTGATGATCTCACTCTTGTCAAAGAGGTGGA
GAGGGAGGAGCGGGCGGCGCGGCTGGCACGGCGGGAGCTGGACACCGACC
TCCATCAGTTGTACCTGTTTGGCAAGGAGTGGCTGCTGGAGTTTGAGCCC
AAGAAGTCCCAGGGCTGGTCGTCTCCAACACCAAGAAGAAGCGGAAGAAC
ACGGAGAAGCTTCACCCCCCCCTCTGCATGGGAAGAATCACAGTCAAGAG
AAGAAGAAGATGGAAATTCTTGGTTTGACTATAGATCCTAGGGGAACTGC
TGGTCTCAGCATATACAAGCAATAGCCTCAGATGCCCACATAAGCGCTTG
GGGAGCAATCAGAAGGATGAGCCACATGCTTGATGACAAGAGCATCATGA
GGGCTTACAAAGCTTTTGTGCGCTCAAAGATTTAGTATGGCAGCCTGGCC
TACTGGGGAGCTGCAGAAAGCCATTTGCACAAAGACGCTTGATAGAATTC
AAGAGAGTGCTGTGGCCCTACTCCGCAACCCTGACCCTTCTCTACTACCC
CCTTCACTGGAAAGTAGAAGAGAACAAGCTGCCATTGGATTCACCTGCAA
GCTGCTGGACGGGCGAGGGCGTGGTATGGCTCGCACCTTGACATCAGAGT
TTGATGACCCCTTTGCCCCAAAACCTCAGAGATCAGCTCGGCTGGCTGCA
GCACGCCCACAGCACCTTCATCAACTGAGACCAGTTCATCTTCCGCCCAA
CTcCCTGGCAACTTTCAAACGACGCTATAGAGCTAGAATTCCGGGCATAT
GAAACGATCTAAGACACCCCGCTCTCCAACAGCAGCATGTACAAGAATAC
CTTCCTCTTAAAAGACAACTGCACACACATGGACGATAATGGGTAGAGGT
AGCAACAGTTACAACAAGCAATTTTTGTCACTTAAATGCTAAAACGTAGA
AAAAAAAATAAAAAATCACTGACATGCATGGTGGGCACTTCCCCAGGCCC
ACACTGGAGCAAGGTCAGAGTCTGGTCCACATTTTTCTGCTTTGGCAGGC
CCAGAAGACATCTACTTAATAACATTTAAAGCTTGAGCTTTTTGCTCTTC
TTCTGGAATTACAGTCAGTCCAAGGAGTTGTTCTTTATACATACCATGGC
TGTTACTTGTATACTTGATTGTGATGATGATTCTCAGATCAGCAGTAAGC
ATGAAGAAGAAGGAATGCAAAATCTTTCCTTAGTCTGTAGCTGGTTTCAG
TTAACAGTTGGAGAATTTGGCGAGGTTTGGTATTTCGGCCGAATTCCGTG
GTCGCGAATCGAGGTCTATCGCTGGCGGGCGCTTACTCAGTGAAAATTCC
AGGAATTGGAAAGTTCTTCGAACTTGTGCAAATTCCTCGGAAAAATTCCT
GAGGGCTGCGCGGAATGTCCTCGCGTTAGCTGTAGACGATCGATGATCCA
CGAAGTGGCGGTTGTTGAAACATGAGCACTACCTACTGTTCATGAGGGCG
GTTTGTGGAAGTTACATTCCATAAGCTTGAAAATGGGCTAGGAAGGAGCA
CACTCGTGCTCGAAGCGAGAGGGGACTGCGTCTGTCTAGATGATACCCCC
TCGACTCGCGGGAAGGAGAAGATGCACTCGTCGATGGATGTGAATTGTCG
GAGGAAGCATACGGTAGAGACAACTGAAAGAGGGAGATGAGGCCAAGGAC
AATAGAGCATGTAGGGTTAAGGATAGCTGGAACCCGGTTGGTCAGTAATC
ACACTTGGCTCAAGAAATGCATCAGATGTCAAGGCAGCCTGCAAATAGAC
GGTGGTTGTGTGGTTCAGGATGTGAAGGAACGCTTTGCAAGTAGAACGTA
TACAAAAAAAAAAAAAAAAAAAGAAGAAGCAGGCAGCAAGAGAAGAGCGA
CCGTTGGGACGATATGCAGAACCCGAGGGCACACAGACAGATCCGCTCAG
CATCGTTGGCCATTATCATTTTCAAAATACACGGCTTTTGTGTGTGTGTG
TGTGTGTGTGTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGTTAGAGG
AACTGGAACTGCTTGGCCTGGCTGGGCCTGTGGGATTTGCTGGTTTGGAA
TTGGTGGCAGAAGTATACGTTGAGGAAGTGCCTGGAGATTTTGGTTTGCA
GGACCAAAATTGATTGAGGGGCTGTCCTGCAAGTGGGATTTGTTTAGTCT
CCTTCTATTGGCTGGATGCGTTGGCATCTTAATGGAGAAGATAAATGTTC
AATTGGCAGCATGGGAAAGGTTTTTATTTTCACTATACGGAAGGAGGAAG
GTAGGAGGAAGTCGGTGTCCTGCTCTTACCTCGTTCTAAATCACCTTTTG
CTCCTATAATCTCTCATCATCATCATCATCATCTTTCACATCGCGAAGAA
TCAGAAGAAGAAATTATTCCAGGCCATCAAGAATAGTTAAAAAAAAAAGC
CGACTTTAGTGCCTTCTTCATATTTTATTTGTAAAATATTCCTCTTCAAA
CTTGAAATATGTTTTCAACCATTGTATGCATTCTCGAAGAATATTTTTGT
CGCCAAAAAACAAGGAGGAAAATTATTGTTTTAGGTATGGTGGCACCATA
TTCGTCATATGTATTTGGGTTGACAATTTAAAATAGCCTGAAAAATTTTA
AACAGTCGAAATGTTGAACACCCTTATCTACTGATTTGCTTTTTCCGAAT
TCGTCACCTCGACACGTCATGTCAACCCTGGGGCAAACAGCCAATCAGCA
ACAGCCCTGGGTCAGGCTTCAGCCCTTGCCTGACCGAAACCGCTCAAACA
CCGAAATGAAATCATATTTAGGTCAGGCAAGGTCAGTTCTCAGAGGCCAG
GCAGCCGTTAATGATCCAATTAAACGATGTCGCCGGTCAAGCCGGCGGTC
AAGCGCGGTCAGCAATTGATTCTATTGAGCCAAAAGACCCAATGGAATCA
TCGTTTTTGGCCAGCTGTTCAACCTGATGATGGTCGGCGAAAATGTTGGT
GGCTCCGAAATGGAATCGTTTGAGATTCATTTACTTTTTTAAAAGTTAGA
GGAATAATAAAGCTGCATGATTTACGTGGGCGACAGGGTACATTGGTCGC
GACGCTCGGTTGACCTCGGGTCGAAGGTACATCAATCCGCGGCCCGAAAA
GGTACATTCGGGGTCAGCCAGACTGACTGGCTTGACCCTTATTTCGAGGT
CTGCGCATGTGGCTGGTTTTTCTTTTTTCTGCTGCTGGACTGTACTTCAT
TCCCACTCACATCACTACTCATCTATGTTTGGTTTATTATATTGTGAGGT
GTTGGATTTGACAGAAAAGCCGCTCCCATCACCAGTGATTATAGCTCCAC
ACTTCCAAAGAGACTATATGGCAAAGGTTTTTAAATTATTACAAGATCTG
ACGTGGACAGCGTTGTTTCTGGCATAACACCAGCCGAGGCTGGTAGCTGG
CCTTTGTCAACACGCCTTGTCAGTAATAATAACCAAATAAAGATGGATAA
TGTTTTGAAGAGGTGGGAGGATTTATTATTATTATTATTTATATATATAC
CAGAAGATGCGGGGGCTTCGCTTCCGGACCCCCCCAGACGGTGATGCTCA
TGTTGGGGGTTGATTTGTGCTGTTGTGGTACTGCTTCAGGTAGGTTCTGC
TTTGTAATGAGGAGACGACGATGATGGCCGGTGCTGATCTTGCTATTTAG
TGCGGCTGGTGGTGGTGGTGCTGCTGCGGATGGTGTGGTGATGCTGGCAG
TTGTTTCAACGATGGTGATGCTGCTGCTGTTGTTTGTTAGTAGTATTATT
GGTTGAAAAGAAGTTAGTCATATAGTTTTTGTGTTTGTTTCAGTCGTTAG
TGGTGAGGTTGAAGGGAAGGTCTTGGTGTTGCCATTAATAAGGGAAGGTC
TTGGTGTTGCCATTAATAATACATAGTATGAAAACAAAAACAGTTTCACC
CTCCTAGGTGTGAGAGCTGAGGAGATCACATGATGAGAACATATTATAAT
AACAATGCCCAAGTACGTAGAAAAAAAATGAATGATAATGTGATGATGGA
CATTTTCTTCCTTTGTTTTTTTTTGTTCAGAAGAAGATGGAAAAACATTT
AGTGTTGGTCGATATAGGTTTCCTTCAAGAAGAGGGTTGGGGCTTTTGCT
AGCTGCGTTGAAGAAGAAACTGAACATAACAGAAGAAGTGTAGTATAAGT
ATAGAATCACGTGCCCATGCCAACGAAGCAAATATATGCATCAACTTCCT
TTCAGCACAAAAAGTTTGTTCATGTTTACTACTGACTGTAGGCTCGTACA
TAGCCCATGATGATGCTGCAGTGCTCATCATGATACATGATTGCTGTTGT
GCCAGGTGGTGCTGCGGTCTCGCGTGCACTGCATCATGGGCTCGATCGCC
GTCAGATTATTATGAAATACCTTCAATCATCCTTCACAATTGTCATGGAT
CATTGTCGGCGTCAGCGGTAGGTCAGTGGAAGACATCATTGTTGATTTAT
TTTTGTTGAATGAAGTAAAATATCCAGGTTATACATGGAATGTGTTTCTT
CTCGATTCAAGCTGTTTCACCTGGCAACAACTGAAGAAAAGTTGTGGTGG
TGGTGATGCTGGCAGTTATTTCAACAACAATTTTGATGCTGCTTTTGTTG
TTATTAAAATTTTGGTTGAAAAGAAGGTATTTTTTTTTTTTTTTGGTTCA
GTTGTTGTTGGTGGTGAAGTTGAGGGAAGGTCATGGCGTTGCCATTATAG
TGATTATATTGGTGTTGCCATCATATAGTAAGAAAACAAACACAGTTGCA
TCCTCCTTGTGAGAGTTGGAGGGTTGAGGAGATCTAATGATGAACATATA
ATGGTCACGTAGAAAAAATGAATGATGATGTTGAACAACATCTGTTTTTG
CTTTTTGTTGAAGAAGAAAAAGAAGAAGGAAAACAATTGGACTGGGTCGA
TATATAGGTTTCTTCCAAGAGGGTGGGGGCTATTGCTAGCTGTGGTGTTG
AAGAAGAAACCGTTTAAACACAACAGAAGAGAATTAGTATACAGAATTAC
GTGCCTATGTCATGAAGCAAATGAATGCATGCGCCAACTTCTTTAGAGCA
CAAAAATAAAAAGTTTCGAGTTTCCTATTGTAGGTTGATGCAGTTCTCAC
GATGCGTTGCTGTTGTGCAAGATGGTGCTGTGTGCGTACTGCATCATGGG
CTCAATCGCCGCCGTATTAGATATCTCCAATCATCCATCTCAATCGCGAA
GCCTTGTTCATTGTTGATTTATTTTTTTAATGAAGAAGTATGCCCAGCAG
GTTAGGGAAATGTGTTTCCTTTATCCTCGCTGTTCCACCTGGCAACAACT
GAAGATGGAAAAAATGATGCGGGTGCCGATATAATATAACCTAGAAAGTC
TGAAGGCGATCTAAAATCTAAACTCTGTACTTCAAGTTTACTTCTTCTTT
CCGGCGGCGATGATGATGTGGTGGCGGCGCCACTACTATATAAAGTGGTC
TGAGTCAGAACATTGCGCACTGCATTTTAGAACGATTTGGCTTATTTTTT
GGGTCACGGTTTCTAATTTTGTTTTCTACTCCCGAATTGCTTTATTTTTC
GGGTCCCGATTTTCAATTTAGCATTTGAGACGGTTTGCCTTCTTAGTTTT
TGGATCACGGTTTCAATTTTGTTTTCGTTAAAATTCTTCTCCCGAATTGC
CTTATTTTTCGGGTCCCGGTGTTCCAATATTGTTTTTTCGGCGACAAAAT
CGTCTCGCGTTTTTTTTTTTTAATTGAATTGAAATATTTTTGAAATTCAA
AACTTTAACTTCCCATTTTTCATATAGTTCAACGTTGAAGTTGAACATCT
TATACTTTTACTTCGGCCTCGTCTTTCGAAGTTGAACATCACCTACTTCT
TGTTCGGCCTCCTCTTTTTTGGGTTGGAAAAAGCCAGCCCAAAAAACATA
AAAATCCAACAGCATAAAAATTCACGTTATCCAATGGGTTTTTTAAAAAA
CTCGCACCTTCTTCTTCTGTATTTTTCCTGCTGTCACCCTGCTAGTGCAA
CTCTTGGCGAAACCAAAACGATTTTTAGGTAGAGCCAAATCGTGACAGCA
GCAGTAGCTTCATCAGCAGCATAACCATCAGCAGCATCAGCAGCAGCACT
AGCAGCAGCACCAGCATCAGTATAGCAGTAGTAGCAGCATCAGAACGACG
ACGACGGCCACCACTACGGATATCCGAAGTTCCTGTTTCAAAAAATGTCA
TTTATTTGGGAAAAACAGGATTTTTTTGGGAAAAGATCCCTCCTGTACAC
ATCTTCTTCTTCTATTTTTGACTCTGAGAACATAAAAGAAGAAAAAGAAA
TGTAAAGCATAAACAAAACAAAATTGATGGGAAAAGTAACGGGAAATGAA
CGATTTTGGGTGGAATTTTCCGGGAAAAGCATTTTTTCAAAAATTCCAGT
TTTCCCTTTCCTAAAAGGGAATTTTCAAAGTTTTGGTGAGAATTTCGGAT
ACCCCTATCACGACGACGAAGACATCCACTACTACTATACTACATCACAT
TGAGTTCCTTATTCCTGGTAGAAGGTCATGGCTATCCGAAGTTGCAGAAG
TCCTAAACACGAAGTCTCTTCTTGTTTCAGCTTTTCGGCTAATGCTGTAA
AGGGTCGTTGCCAATCACTGTCCTACCAACACGACTCGCCGAATGCCTTT
ACGCATGTCGTGAGGAGAATGAGCACAACTTGACATGAGATGCTTGGCAT
AGTCTCATATGCTTCCAGTTGTTCAGCTACCTTTCACAAAAGGTTCGCCT
GGGCGCCGGTCGTTGGCGGGCGGGCGCTGCGGGGGGGCGCCACGGGCTCC
GGGCCCCGGGCCTGTGGACAAGCCACCACCGGCACGGGACCTGGCAGGCT
GTGTATGCCAAGAGCAAGCCCTTTGCTTGTCAACACACATATTGAGCCTG
AATGTATTGAATCTTTCGTTTGTCCTCGCACCGAAAAGGCCTGTGCGCAG
CCTCTCCTTTTAGGCAAAGGGGCCGAATGAGTTGATACAAATATCCATTG
GGTGCTCAACATGCATTTTTCAAGTGACCTTTAGCTTTAACCACTCTGAA
GAAGGCTGTCTTTAGCTACACAAACAAATATTTTAGCTGCACAAACAGCT
CTTACCTATCTGTTCTTCACTGTTGATCCCGATGTTGTTGAAACTCTATC
AACTCTTCCTGGAACCCTTGCGCCAAGTAATTGCTGAAACATACATGAAG
GCGTGGAGGTGAAGGGTTGAATGATTGAGTTGATGAACATCATTGGATCA
GATGGGGTTATCAAGCATAGGTTGTGTAAAGAGAAATGTGGTTCTTAGTC
GCACCAAAAAACTCTTACCTATCTGTTCTTATTCACTGTTGATCCTGATG
TTGTTGAAACTCTCTCACTCTTCCTGGAACCTTTGCGCTCAAGTAATTGC
TTAAACATACATGAAGGCGTGGAGGTGAAGGGTTGAGCGATTGAGTTGAT
GAACATCAATGGATCAAATGGGTTGTTTTAAGGATAGGTTGTGTAAAGAG
TAATGTGGTTCTCACCACAATGTGGCAATCATCTTGCCTGTAATAACAAC
AGTACTTTTACATATTAATACTCTACTACTGTATTACTAAGCTGTTAAAA
AAAAAGTAAATGAAAATACTACTGTATTACCGCTAACCTGTTAAAAAAAT
TAGATGAAAAGGAATCGAGTACAGAATAATTTGTGACAGAATAATTTTTG
CAAAAGTTTAGAGAGAAACGCAGAAATGTAAGAGTTCTATATATATATAT
ATATATACCTTCGTCTGTGGCTCGTAGCCAGAACCTGTGCCGGTTTTATG
ATGATGATGCTCAGATTTGTTGTGAACATGGAGGAGAAGGAAGGCAGAAT
GTTTCCTTAACCTGTTGCTGTTTTTCAGTTAACAGCTAAGGTATACATGA
AAACATGGATGACTGGTGGTGGTGGTGGCTCTTGCCGCTTGCCGTTGCTT
TTTCACTTTTTGTTGTTCACTTCTCTTCCTCTTCATTTCCCCATCTTCAA
TTGGTTTCATTTTAGTCAAAGGCAGCCTGAAAAGAGGCTGGTGGGGGAAG
GAGAGCCGCCAGCCGTGGCTTGTAGTAGCCGAAATGCAGCATAGTTGTCA
TGGACTTAATGATTGAAAACCTTTGACATATTGCCTTCTTGGCAGTATGG
AGCTATACTCGTTGATGATGGAAGCGGTTTTCTGTGGTCTACATCATCAT
CAAATCTTTGTACTGATGACTTCACTCGTTGATGGTGGAAGTCGCCTTCC
TGTTATAGGTGATGGTTTTCTATACTTGGTGCCTATGCATAACCGCTGTA
AGCATTAAATCGATGAAAGAATGGAAAAAAAAAAAAAAAAAAAAAAAATA
TAATAAGCAGCAGGTTGTATTAGATTTTTGGTGGTGGTCTTATCAATCAA
AAAAGAATATATATTACTCCAATAACTGTTTTAGCTACTTATGTATGAAA
TAAAATGAACTTTTCAAGATTTTTTTCATGATGTCATGCATTAAGTAGCA
TTTGACAGGGCAATGTTGCCCTTTGCGGTACACAATGCGGTCATCGTAAA
CATCTATACCTGTCTATTCACCTTGCAGGCATGGCTGAGCTGTTCTTATC
AAGCCCTACCCGGGAAGAGTTACATTTGAATGATCGCAAGGGTTTCATCA
AGCTTGCCATGGTTACTGGTGAGAAAGGCACACAACTATACTAATGTTAC
CTATTATTATAGAGAATGCCGAAGCTGAAATTATGCACAAAAATGATGCA
AGTTGGTGTCAGGCTAAAGGGTACGGCCCTCTATGGGAAATTCGGCAAGA
TTTTTACGAAATTTTCTAAAGTTCCAAAAATCATAATGATGCATGGTAAT
GTAGTTAGGTACACTCAGAACACATTTAAAATATTTTTGAAGGGCCCAAT
ACTTCATTTTTGGCCATTTAAGCATGCCGACTTTCATGTTTAGTAGTGTA
ATGCGTTAAAAATACTGCTGTTCAAGCTGTGCCACCAGATCTCCACAAAA
AAAAAACTCTGCTAAATAGATTTTACTTGTTTTAGGGTCTACACTTGTTT
GGATTCTATCAGTTGGGGCCTTTCTGGGGGTACCTCGGGTCTACTGTGGG
CCACTGAAGGGTTTTAGGCCATTTCTCCTCCTAAACAGTATAGTGTAACT
CAATATTGGTAAAAAAAGTCGTTAGTTTCAACACATCTGTTCATCCAAGT
GGATTTACTAGTGAACATTCATACTAGAAAATGATTTAAATCGCATGAAA
GCGGCTTGAAAGTCCCATATCGCACCATTCTACACATAAATGCCAAACCA
CAGAACAACGAAACGGCTCAACTTTCCACGTTAAATGGGCTTCGAGGCCC
TTACATTTGCACTGCAAGACACAGACCGCTGAGATGCGTTACTCTAGGTT
GTTGAAGTTGAATTTATTCGAATACGTCGTCCAGCATAATGCCATTCGAA
ATTATCGTCCAGCATAATGTATTCATTCGAAAGCAGTGATGTGGTGGTGG
TGGTGGTGGTGGAGGAATCGAATTCTTCGAAAGGAAGTGGAAGATATAGC
ACTTTGCTACAGTATCATGTAGCCCAAAAACATGGCGTTTTTGACACTTT
AATCTTAATCTTTAATATTTAAATTGTTGTTGTTGTTAAGTCTGTTGAAC
TGTTGTGGGTTTTCAGTCTGTTTTACAGTGAGGCGATGAGTTCGTGAATT
TTTGTCATTTCGTGGTTCTCGACTCCCTATAAAGGCGGGGAAAAAAAAAA
AATCCTAAAAAGTTCGTTTGGGAAAATCCCGGCAAAGAGCTAAAAATTCT
TATCTGTTGCAAATGTACATTTTCAGCTATTCTCCGGGATTTTCCCAAAA
GCGGAACGCGTTTTTTTTTTCGGGGGTTATTCGCCAAATTCTTGTATACT
TCAGCGTGACACCAACTTGCAGCAGATGATCCACCAACAATATTTTAATT
TCTACAGAGGATCTACAACTCAGCACTAGCTGACTTGTTGATTAATCGCT
GAATAAACTCAAGCTCAAATATCTTCTTGATATTGCCAGTTGACTATACA
TGTTTAGTCTCAGCAAAGCTTGAACCGCTTGCATTATATCAACGCCACAC
TGTCAAGTTTGTTTTGTTAGCCCTGAACAGACCTTTCTGTGATAGATGAT
GAATCTCGGATGCTCTGATGATTAGCACCAGTATGGGCTTTTGTGGCAGT
CTCTGTCAAGACAGGGTTATAATCATTTTTTTCTACTTTGACATTATTGT
CTTTGACGTGGAGCAAATCTGGCACTGGTCTAGGCTTGCTTAAATCACAA
ACCACTTCTTAGGCAGGTGTATTCATTTTTAATGATTAGAAAAAAGCTAT
CCTACAACATCCAATCTATGCTGACGATGCCTGCATTTCGGGGACTCCAC
CCCAATGACTCAGGCTCTGCAACAGCCTTTTGTCTCCTCAGGCCAGCTGT
GATTTGATGATGGGAGTGACTACAGCATCCTCCTCTACAAAACGTGAAAA
TCATAGCACATGACGGCTATTTCTCACAGAAGTTTTCATCTTTGATGACA
AGAAAAAACAAATCAATCATTATGATTTGCTCTTAGCCTTTACTGTTGAA
CCATCCACCAATCACAGTAGAGATTCCAGCTTGCTGAGTCTGTTATAAGA
TGATGAAACTGCTTCTGTCCAAAAACTTTCCAACTGGGCATGAGAAAGTG
AGTATGAGCtTACCATAAAACCTTCTCTTCAAAAAATCAGATTGCTTCCA
TAGCTTTGTGTCCCCCGACAGCTGTTTGGTGGCACGCAGAAAATGTCAGT
GGTTGAGTGGGCTTGGGAATGTCACTCGAGAGGGCTGTTTGACCGGGAGA
GTCAACTTCTGTGAGAAATAGCCGTCATGAGCTATGGTTTTCACGTTTTG
TAGAGGAGGATGCTGTACATAGTCACTCCCATCATCAAATCACAGCTGGC
CTGAGGAGACAAAAGGCTGTTGCAGAGCCTGAGTCATTGGGGTGGAGTCC
CCGAAATGCAGGCATCGTCAGCATAGATTGGATGTTGTAGGATATAGCTT
TTTTCTAATCATTAAAAATGAATACACCTGCCTAAGAAGTGGTTTGTGAT
TTAAGCAAGCCTAGACCAGTGCCAAATTTGCTCCACGTCAAAGACAATAA
TGTCAAAGTAGAAAAAGAATGACCAGTATGGGCTGTTTTTCTTTGTCTGG
TGCTTCAAGTTTAATGAGGAGTTCTAACCCTGCTTCTTATATCATTCTCG
GATTCATCTGATCTTGAAGTTGAAGAATGGTTCATTTCTTGACCCAGACT
TTGGACTCTATGTTGAACTTGCATATCTGTCTGACCTAGTGGTTCTTCCG
ACAACTTCATATTTGACTAAATCTCTGTATAGTCCCCTATAATAGTTTTT
CTATGTTTCTTTTTTTTCTCTTATTGCACCACCACCAGCAATCATCAAGT
GTAGTTTTTGAAGGCCGCCACCAGTACAAGTGGCGGGGCACGCTGTTCAT
AGTATACACCAACAAAACATCATTGCCATTTACCACCACCTTGTGATCTA
TCGATCATAAAAACTAAACAAGAAGAAAAAAACATCTAGTTAGTCCTCTG
ATTTGATATTGAGGTTTTGAGTGAATCAAAACTTACCACTGCGTGCCATG
CTGGAGTCACAGGTTTTGGGCCCTCTAAATCCGCAAAAAGGAGATGACAC
TGACCAAAACTCAACGGAAGACAATCACGGCTATTGAATCGCTGAACTGC
ACACTGTTTCAAGATCGCTGGCTCAAAGACAAGGACACTGATTTTTAAAT
TTTGCTGACTACTAGGTATAAACTTTTTTTTTTCTTGACAAATAATGAAC
CCCTCCAGAACCGCAGGCCTAGTGCTAGCTAATTTAGAAATCCTACTTCC
AGCAGATTTGGTGGCACCAAATGTCGATAAGCACAGAACCAAATGGATAT
ATACTTGACAGTGGATGCAGTGTGACGATGGTCAACTCAGTGGAATCACT
GTGTTGTGCCCGCACAACGAAAGTGCCAATCACAGCTGGAAATATCGAAC
ATCAGGGCTTTGCCACAATGGTTGTTTTTACTGTTTTGTTTCTCGCTCAT
GACTGGAAAGGCGGAACAACAAACCCGCCCGGAGAATTGCTTATACAGCA
AGACTCTACCCTACAATTTGCTTTCGGTTCGCCAATTGACTCATCTTGGG
TTCACAGTACTCTTTGCGCAGGACAGAGCTGAGATCAAAGATCACGATGG
CAACTTGATGGTATGGCAAAACGACTTGCTGGTGCCCCCCACTATTGATG
ATGATGGCGACTTCAGCATCATCTTGAAATTCTGGGAGATTGATATCCAC
TCCACATGAAAATTACTTAGGTGCAAGTGAAATGCGGGATCATAAATGGT
TAGGAGCATAGCTCACAAAGAAGAGAGAGAAGAAAAAATGAAGAACAACA
AACCATGACTCAGTCAACCTACATCACCAGCCAGTTTAGATAGCGTGTGA
TGTTCCCTAGAATGTCATTGAACCAATCAGGAAATAACAGAGATATACTT
CATGAGGCCATGCGAAAGAGAGAAAAACCAGGGTGGATATTCTGACTTAG
GATGCACAGCGCATAGCTTTGGGGCAGCATTGTCAAGGGAACTTGAAGTT
GTGCTGTCACGAAAGGCGTTGTAGTGGACGATCCAAAGCCCCCCCCCCAA
CGACGACAGTCTTCGAAGGAACTTAGGAGGAGTCATGTCATCCTCGCTGG
AAGTATCAGGGGTAATTTGGAAAAGGTTCCCACATCGTTCCCGAATCCCA
CATTCGTCCCACGAAATTTCGTGTAAATGGGAAACTGGTGGGAAAGTGGT
CCGGGAAAACTTCAACTGTACATTCAAGATTCGTCGATCGCAAAGATACA
ACGGTCATCAACAGCAGCAAATTACAACGCAAGCGATCAAAGACATCATC
AATAGCGATCACCAACAGAGGGCCCTAAGAAGAGAGTAACAAATAACATT
GACAGCTGACAGCATAACAGCATGGCCAGAAGTCAGAATACTATAACGGT
CACAATATAATGAATGACGTGGTGGATTACTCTTTTCTACTCGTTATCCT
TCTGAGCCTTCTCACTATGCGTGCGCACGTGCGCAAACGGCAGGAGAAGG
ACAACAAAGAAGACCAATAAAATCATAATAACTGGTCAAGTCTGCCGTTT
AAAATATTTCAGTTTTTCGTCGAAATCATTAATAATCATTTTTAAAACTA
TTATGATGATTGGCCCTTTTTTCGAGGAATTTTTTTCTCTTGTATATATG
AAAATATTGATTCTTTTTTATTTCTTTTCAGGGATATATCCCGGTATTTC
GAATTACTTTTCAAACTTTCCCATGTTTTGTTATTTCAACCAATTTGAAA
ACGTTACCCCATATTATGGATCACCTTTCAAAAATACAAATGTTTTGTTA
TTTTAACCGAATTAGAATTTGCAAATATGCCTAATATTGACCTTCAGACC
CGTTCGAGTTTGCGAAATTCCTGCGAAAGTTTTGCGATTTCCCATTTTTG
AGCGGGAAAACGGGATTTTTGAAATAATGCTATTCCAGAAAGTTCTTCAA
AATTTGGTGATTTCCCATCACTTTGCCCGCCAGTTTCGTGAAGTTTATGC
TTGAATAGATCTTTCTCTTCTCTTTTCTGCTTGAACCCAAAAGAGAACAA
GAAGATGTGTAGAGAGGGGGTTTCCTCCACCAAAATCCCATTTTTTCCAT
AACAATGAACTATTCTTAAACGTTTTAGTGATGGCAATCACCAAGTACGC
TCGCACAGTTCACACCGGCAGCGACCCGCAGCGACAGCCTGGACAGCCCG
AGGCAGCCCACGGCAGCCCGCCGCACCCCGCGGTCTTGAACCCGTGTTTC
TCTTCTACTGAGTATTGTTTGTTGCGTTTGAAGATACAAAAAGACGAACT
GGCAAAAGGCGGCCACGTCAGCAATATCTTTCTGTCTCTCTATGAGAAGT
AGAACAGGTAGCCCAGCAGTACAAGAAGGAGAAGCACAACACACATCATC
ATCACCACCACATTCCGCCAACAGGCAGGCCATATTACCACACCCTTGTA
TTGAACCAGTAAAACTACATTGATTGGCAACCTTTGCTGTTCCCCCTAGT
GGGGTTGGCTGAATCCGCTGAGCCCCACTTAAACGGTTATGATGCCCTCG
ATAACTGCATATTCCTTTGCGTTTCTGCGGTATCTCTCTGTGGCCCCAGT
TTTCCCTCTGTGGTGGCGGCGTTTCGATAGTCAACGACAGTGATGATCCG
GTTCTCTGATGCGTTTTTGATGGAAGCGTAGTGGACACCTTTTTTCTGCG
ATGTAACTGGCCAAGCCCAAGTAATGTTTTGTCAACATAAAAGACTGTGA
GGGTAATGTGCTGTGTCGATTGCGTGTTACGAGTGTAACCATGCGGTATA
CAGCTGCTGAACTAAGCCTCGGTGTAGACTGCCAAAGCCGAAGCTGAAAA
GGCTCCTGTCCGACAGACAATGCTATCTGGCTTTGTTTGGGTCACGCGAT
TTTATCAGTTCGAAGGTTCTTTCCTCCCCTGGCTACAAAATTTCACTGGT
GGTTTCTTCTACTGCTGGTGGCTAAAAAGGCGGCTTTTTGATTTTTCCCT
CCCACCCGGAGAGCGTGCTGGGCTTTTTGATTTTGATGAAGAAACAACGA
TGAGCGAGCGAGGTAACCATTGTGGCTGTTCACGAGGATGACGGCAATGG
CGATGATTATGGCGATGACTGGTCACGAGGATGACCGAACAATACAAAAC
AAAACTCTTGGCAGCGAATCGATCGACTCACATTGACGGTTTGGCTTTGT
ACAGTGCTGCTGTGTGCACGTTGTGGAACTTACGGTGAATACAATTCTTC
TCTGACTCTCGCTTATTTGGACTGGTCTCTTGGTTCTTCTGGTTTACGGT
GTATTCTAGTACCTTTCAGCTCTCTTCTATGGTCACATCGATCTGCTGCT
GTTCCTTGGTGCTGTAGTAACGACCTTCTTTTTAAGCATCTTCTTCTCGG
GTCAAAAATATAAAAGACACAAAAAGCAATATAATTGGGTATCTCTTCTG
CCTGGCTCCAGTTGATCAAAGTCAAGTGTGAGGGATGCTCAGCAAAATGT
TCAAGAAATGGAGGGGCTCATACATGGAAATGGAAGGCTTTTCTGAAATG
GAGGGGTGGCTAATGCAGTACTACATGTACTACCTTCTTGGTACCACTGC
ATACTTCTTGGCACATGTGATGCACAGTTCACTTGATAAGCTGAAGCAGC
TTAGGAGGGACTTCGTTCACTGTGCTCACTCCCTTGATGATTGTGGAGGG
GCGTTTTAGTGATGGCAATCACCGGGCACGCCGCACAGTTCACACCGGCA
GCGACCGCAGCGACAGCCTGACAGCCCGAGGCAGCCCACGGCAGCCCGCC
GCACCCCGCGGTCTTGAACCCGTGTTTCTCTTCTACTGAGTATTGTTTGT
TGCGTTTGAAGATACAAAAGACGCAACTGGCAAAGGCGGCCACGTCAGCA
ATATCTTTCTGTCTCTCTATGAGAAGTAGAACAGGTAGCCCAGCAGTACA
AGAAGGAGAAGCACAACACACATCATCATCACCACCACATTCCGCCAACA
GGCAGGCCATTTTTACCACACCCTTGTATTGAACCAGTAAAACTACATTG
ATTGGCAACCTTTGCTGTTCCCCCTAGTGGGGTTGGCTGAATCCGCTGAG
CCCCACTTAAACGTTAAACAAGAATTTCGCAAAGCTTTAAAATCCGCCCC
CCCCCCCCCTTTTTTTTTTTTTTTTTTCCATTCCCACCACTATCCCTACC
ATAACATCCCTACCATAACAACAAAGGACTGGCAACCTTCTTGCGCCCTC
TCCTGATGATGGACATTCAGACGATGGTATCGGACACCTGTTCGCGGAGC
CTCCAGCTCACCTCCTGTCGTTAGTGATGCTACTTTTCCAGCGCAAAACA
TGACTGGTCTGACACACCGAGAAGTTCATCCCAAGAACCTTTTCTGGCGT
GTGGGCAACTGTTTGTCCCGGCCACGATCGCAAGATGCTTGACGACAGGA
ACTGCTGCAAGGCCCGTTAGACTGCAAGTTCTAGCGCACTCGCGACTGCA
CTGGTCATGGCACTTGCCGTGTACTGGTGCTCTTATAACAGCCGAATAAT
GGCACATCTTTTCTCAAGGAATGGATCGTCGCAGATTTCAGTGCCCCAAG
GCTTGATCATGGGCCGATGAAAACACGTATTGAGCCTAGATCCTTGGTGC
TATGAGAGAGTTCCACCGATTTTTCACCCAGTTTCATGATTGCATCAAAT
TCCAGCTGCTTACTGGCGTGGTTTATATTTGAGGAAGAGGAGCTAGAGTA
CTGATGCATGCATCTGCTATACAATTAGAAATGCTCATTTTAAATCAAGA
TCGGCAATGGTGCAAATGGCCATGAACATATATCAGAATCATTGGTACCT
TGAGAACATCATTTTGCACACAGCCGTAGTAATGAACGGCACTTGGAGTG
GGGAGGGGACGGTGTGTTGTGGCCAGTTCTGCCTATGACAAGTTCCGACG
TTAAAGCCTAGCGCCACAAGCACCCTCGCACCGATCTCACTTGCATGAAC
TGCGTTGCTAAGGGTCATGGCTCCAGATCCAGCCCCAATAAGTGAGCTGC
TGCTGCTGCCCTGCCGCCTGCGGCTGATTGTGCTGGCGCTGGCCACCATT
GCCCCTTTTTTTTTTTTATTTTTTTTTACTCCCAGCAGCTTCTTGATTCT
GTTCATGTGGACCACCACCTGCTGGGTTCCGCCCGCCAAGCCTGCCGTCA
AGCGCCCCAGCACCGATCTGACCTGCATGAACTGCCTTGCTAAGGGTCAT
GGCTCTAGATCCTGCCCCAAAAAAAAACAGAAGAAGTGAGCTGCTGCTGC
CCTGCTGCTCGTCTTGTGCTGGTGCTGGCGGCGCTGGCCATCATTGGCCT
TTTTTTTTTTTTTTGGAAGATTTAAAAAGTGAAACAAGGACCCCCCCTCC
ATATTACTGCATTATTATTATTTTGTTCCCGTATTTTTCCCTCTTGATCC
CCCGTATTTTTCCGACTGTTTTTTTTGTTTTGTTTTCTCGTATTCTTCCC
ACTTGATCCCCCGTATTTTTCCCATTTCCCATATATTTGTCCGAGTTGTT
GTTCCCCCTCCCCCGTATTTGCCCTACTTGTTCCCCCCCCCCCGTATTTT
TTCCCATTTCCCATATTTGTCCCGAGCGGCTGTTGGCAGCTGCTGGGAAG
TATTTGGGAAAGATTCAAGATTCATCACTATTTGGGAAAGATATGGGAAA
CCTTATGGTGGGAAATATATGGGATTTGGGAAAGGCATGGGAAACCCATC
CTGGCGATCAGTATCAGGCGATCAGTATCAGGCAGCCCTCAGAACTTGTT
ACTTGGCACCGTGTTATTCTCAAAGAACTCAGCCACGTTGTGGGAAAGAG
ACCCCCCACCAGCTTCTCCTGTAATGCTTGCAAATGATTTACTGGTAGAC
TGGTGGGTAAGGGATGGCGCAAAATTAAATTCGCGCAGTTAAAAACGGCA
TATGCCGTTAGGCCCCAGACCCACCCACCCACCCACTTAACGGAAAAAAA
ACTGCACAAATTTCCCCCCCCCCCAAAAAGCGATCATCTTCAAAAGGTGA
GAAGAGAGACCTAGCGCAAGCGGGGCCAGTTGCTACGAGCGCTTCGAGGA
TTGGGCCTCGAGGCTCTGCAAGAGGAATGTTTATGATTGTCAGCTTGAGG
AGAAAGAATGGTTGTTTTGATCTTGAGAAAGAATGGTTGCATAATATTCT
GCTGCTGCTGCTGCTGCTGCTGCTGCCGCCGTGGAGGAGGAGCATTAAAA
AGCAGCAGCTGCAGCAGCAGCAGCAGCGATGTATTTTTTTTATTGGCTTA
GAAAAATCTCAATGTTTCCTGATATTTTCTGATTGGCTAATATGAAACCA
CGACGAGTGTCGATAATCGATTTTTTTTCTCGAAAAAGTTGGGACGATGG
AAAGTTGGGATGGGTGGTTCGTAGTATATGGAGCTACCTCGTACGGAAGC
CTTCTATTTCGTACGATTGAGGCTCATTTTGTACGGAATTCCATATACCT
CCATACTCTTCTTACTCGAGGCCTGGACTTTTGTGGAATTCCTAAGAAAA
GCTGGGATTTTTGTCAATTTTGAAATGCCCATACTCTCGGAAAAATTCTC
ATTAAAAAGGTGCGATTGCCGTTAAAATACTACCAATTTGTTTTAGGCTT
CCTCTTTGACAAGAAGAAGAGGTGTACATGGGGGCTTAAAGTAGTAAAGC
TTTTGTAAAAAAAAGCCATTTTAAAAAAGGTTTTTGAAAACTTACTATAT
ATATACATTCTTTCTCCTCTTCCCATTATTTTGTGAATTGCTTCATCCTT
CTCCTACTAGCATTTTCGCGAGGAGTGCTACTACTGCGAATGCGACCGTC
TCGCTGGTGGTGGGCAACCATCATGGTAATTCGTGCAGTTTCCTAAACGG
CATGGGCTACCCCCCACCCACCCACCCCAAACGGCATATGCCGTTAATAA
CTACGCGAATTTAATTTTGTGCCATCCCTAAGCGCGCCTATTTTGGTTTC
CATACTTGCCACAAACAATCTTTCACCATAGTCATGGATTATTTGAGCTC
ACCAACCTCAATCTGTCGCAGGAGAAGCTGTGTCTGGCACTGGAGCTGCA
AGAAGAGATATCTGTCCCTGAACAGCGGTTCGTGAGGGTGAATCCGCACT
GTCACGGTCAACACGGGAGGGGCGAAGAAAGTTGTTCTTGACACGGTCCG
GCGTAGCTGCATCAATTGCGCCGATCTGGACCTGAAGGCCACGCCTCTTC
TTAAAACACGTCTCAGAAGTGTGCCTTCCATTTCCACAGTAGTCGCAGTT
GCCTGGAGATCTGAGGGTACGGGTTGGGCgGGGTGCAGGAGGAGCGGGTG
CAGGAGCTGCAGCAGGAGTCTGCCGAGCCCCAGGATTCACAGTAAAGCCG
TTTCTCGGCAAGAGACCTTGAGCAGCAAGGATGCCGTTGGCAGTAGTGCC
TTGGCGCTTCTCAATGTCACGTTCCAGCAAGATAAGTTCATTAGCAACCT
CAACAGGTGTGTACTTCTTGCCAGTGTCATCACCAGTCCACTTATCCAGC
TGGATTGCAAAGAACTCTTGATCGATACACCGCAGTGAAGGACACCATTA
ATTTCAGCATCAGAGATTTCTTGACCAGCAGCACGAAGTTTCTTCACAGC
AGAGAATACCCGTTCAGTAAACTTCTTCATGGACGAAAAACGTTCACGGG
TCAGAGAGTGTAGCTAAATATGAAGCCTAGCAGGGTTTTGCCTCAAAACG
TTCGGAATATGGGTAACCACCTCTGCCCAGACTTCGGAATATGTTTTGCC
TCAAAACGTTTGAACAGATCTGGTCCTTTCCGGGGAGGGAGCATTAAAGG
TGTCGCCCAAAACTTAATGGCAGATCATGAGGAGTGATGATCGAGAGGCC
CGAATTTTGGACGGAACTTTTGGAAGAACAAAATACATCCCTGCCAAAAC
TATACTACAAGTCCCCCACAGTCACAACATATATGTATGTATAATAGTAT
AGTGGATTTTATGTCTTGTCAGAAACTAACTACTTAATTTTTCTGCTATT
TCCTTACATACGATGTATATATACAAATCTGGTCTCGATATGCTGGAAAA
CTATATCAACTGTTTACTTCTTCTGCTGTACATCACCAGGGTCGGAGGTT
GTTCCTGTTTACTTTATTGGAAACACATCTGGGCTCAGGGTGAGTTGGTT
TCATTATTTTTGCCACAACTATGGTAGGTAGCAGAGGAGGAGGAAAGGGG
AACTCCGGCCATCGCAGCCTCCTCACAGAATCCAATCTCGGAAGCAGCAG
GCAGAAGAGGCGGTTCCTCTTGACCGAGCCCCCCCCCCACGGCGGGGGAG
GGCGGCAGGTGCTGCGCTCGGCGGCCCTCTCCCGCGCGAGCCGCGCCCTC
GGCGCCTCCGTGACCTGGACCTGGGGGCTGCTGGGACTGCCCGTGCCCCG
CCCGGACAAGATGGTCACCGTCGCGGCCGACCGCTGGGTGGGGGCGGGCC
GCCTGATTGGGCCCGCCGCCGCCGCCGTTTTGTTGACGCGTTCACTGTTT
CAGCTGTAGTAGTTCAGTGTTGGCTTTCATGTGTGTTGTGCTGGAGCGAT
GACAAATCCTTCCTCCTCCTACTCCTCATTCCTGCTGCTGGTGGTGGCAT
CTATTCTACATTGAAGTTAATGTGGTGGTGTGATGTCAGTCAGAACCTCC
ACGTCTTCTCCATTTTCCAACCTCCACCTGTTCTTCTCAAAAGAAAAACA
AACTTTAACACACGGGGTCATCACAGCGGGTTGCAGCGGGCCACGGTTGG
TCTCCAGGCTGCTGCTGTGGACCGCGACCTGTGAGAGCCTTTATACTTTG
TTTAATAATGCCATCACAATTTCATGCCTTTTCACGTTCACCAAGGGCGT
GCAGCACAGTGAGCAAATCCCCTCTCCTAAGAAGCTCCTAAGAAGCTGAT
CCAGCCAATCAACTGAAGTGTGCATGACAAGCAAGACTCAAGTGTGCAGT
GGTACACACTCCACCAAAGAAATACATGTAGTGCTGCACTGGTTTTGAGT
CGCCCCTCCATGCTTGAAGAAGCACCATCACAATAAATAGGCCCCTCCAT
TTTCAAAAGTACCCTTGAACCCAGAAGAAGAAAAGACTATTGAGCTACTA
TTATACTGACTATACATATGGTGCGCTGTACCAAGCTGAATCAAGGGTAA
GTAGAAAAGCAGAACCACAATTTCCCCAAAAAATATTCAAGGGTCAACTC
AGCTATTTGGTAAAAGTGTAGTTATGTCTCGACGACTATGTAGATGATGG
TGATGATGCTGATTTTTTTTTTATTTATATTTAAGGTACAGAGCAGAAGA
AGTTAAGCGATGGTTTCCAAGACTGAGACTACCGACAGCAGATCAGTATC
ATATGGAGGAGGAAGACGAAAGACAGCTACTCAGGATTTTATTTCTACAA
ACTAATGATGGCAAACTGACCAACAGCCTTCTGAATTTGATTGACAAAAC
TGTGAATGAGAGAATAGGCAGCGCTAAGAAGAGCTGGCTGATTCCGCATG
ATAGAAACCCAGCCCTGACCGGGCGGCCCTTGTCCGTGTTGTTGTCTTCC
TTTGTGCATAATAGTGGTTTACAGACAGCAGCAGGGCTATGATTTGTGCA
CAGTGTCGTTTGACCACACCTGGTGTTTTGTGACACTTGACTATAAAACT
TATTTAAGGTCCAGCCACTCGGATAACTCTAGTAGTGCACGAAGCCCCGG
CCTCCACAGGCGGACCCTTTCACTTCTACATAGACCCCACCTTGTCGCAT
ATACTCCAATTCATCACCAAAATTTAATAATAAAGCACCCACTGACTTCC
AACTCCAACTGCACGCATTCCACTTGCCAGTCGTCATCTCCCCATCCCCC
CCCCTCTTCCCCTGCTGCCCCCTAAAATATACTTCCCTCTGCTATAATTC
CAGTGTTGTCGGTAAAGGTCCCTGGTCCCTGGATACCCATCATCTGTTTC
AGCGTCCTCCCTCTTGGAGTACGTCTGTCCCGTCGCCCAGGCACCATCAC
ACCGACCCCTCCCTCCCCCCTCCCACACACTGCTGCAGAAGTGACAGGCC
CCTGGCACACACTTCTCCTGGCTTGGGTGGTAGTACGTACAGCAGCATCA
ACGGTTTTATTTTAGTTAAATATTGTTTTTCACAGCTGTTGAAATTGTTT
AAGCGTGATGACGTGGTGCTGGTGTATTAGCAGAGGAGAAGAAAAAGAAG
CTTGGAAGGGACAAAAATAGTAGATGTCGCGCACACTAATACGGGCGTTG
TCGTTGCTTGCCACAACATTTTTTTTTTTTTTTGGCAGAGTAGCAGTACC
CCTAGACCAACCGAGTAATTTTACATTATTACTGTTGAACCAGTCTCGAC
TGATTTCCTCCCAAATTATTAACTCCTAATAAGCAAGCGCTTAAGGCTGC
TCTAGAGCAGCCCAAACTTGCAATTTTGATTGGTCATTTTCAAATCATCA
TCATCAACAAATTTCCGAATAACGATGATAGGCCGAAACTTCCCGAAAAT
CCCAAGACAAAAGATGGGCTGCCTCGAGCAGCCATAACGATTTTTCAGGT
TTTGGCACTTTTTTGCCTCTCCTGATGTCCAGGGATACTACTACCGCTTA
TTCTGCGCATGTGATTTTTTGGGAAACAGGGATAGGTGTTTTTTTGCTGA
AAATCAACATCCAATAATCAATCAAATATATGTGCCTGCCCATTATTATT
GAAATTAGAATGTCATGGTGACCAATGAAAAGTTAATAAATATAAGTAGG
GGAATCTTTGTTCTCATGTGCCCAGAAGAACCCGTTGAAGATAGCATGGA
TGATACGCTTGACGACAGACACAAAGATCACAAGAAAATTCATCTAAACG
GAAAGAAGTGTTTCATATTGAACGGAGGAACTCCGTGAAGAAAAATGTAT
TAAAAAAGTGTTTCGTCTGATTCAATAATACATCAAAATATTCAGTTCTA
GATGAAAATTCCGGTTCATTCCGGATACTTGGATACATAAAGATGATTGG
TATACGCAATACACAAGCGCTGTCCGTTTTTTAACCAATGAAACTGAGAG
CTGAATTTGCACAAATGCAAAATACGGCAACATGATTATTAGTCAATTAA
GTTGGGCTGCTTTAGAGCAGCTTTCGTAAATCCAGGTTATTATTAGGAGT
TAAGTAAGCATTAAATTAAGCCTGTGATGATACCCGATCAAAACAAAAAA
CTCCTCTTCTTCTTCTTTGTTATTTTTCCCGGGGGGGGGGGGGCTTTCAT
ATCTCTTGGATGGGTTGACACTTTGCAGGGTGGGCTCGCTCATGCGTAGT
GTTGTTGACTGGATCTGGCTGTGCACTGCAGTGCGCCAGCAACTCCACCA
CTGCAAAATGATTATAAGTACATATATGGTATACTTTTTCTGAACTTCCT
GCCCCCCACCACCAGGTATTCCCAAAATTGATAACCCTACACAAGAAGAT
ATTGACAAGTGGCATGCAAAATATGTCGGGGAGGTCAAGAGGCTTTTTGA
AAAATACAAAGTTACAAACCCAAACTATGTGAACAAAGAGCTCATCATTT
CGTAAAAACAAGATTTTCGCAGCATGATGACATTATCATACATGTATTGT
AATATAATAGTAGTTATAGCAGTAGCACAACTTTATGATCAAACATTTGT
GAGAAGGTGTTAATACTTTTTATATTT
back to top

Coding sequence (CDS) from alignment at H-akashiwo_Contig1215:125488..153164+

>mRNA_H-akashiwo_Contig1215.6.1 ID=mRNA_H-akashiwo_Contig1215.6.1|Name=mRNA_H-akashiwo_Contig1215.6.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=582bp|location=Sequence derived from alignment at H-akashiwo_Contig1215:125488..153164+ (Heterosigma akashiwo CCMP452)
ATGTCCTTCTGTGGGATGTGCCATGGCATCAAGTGCGCAGATGAGGGTTA
CAACATCCCTCCGACCGCAGCTGCATCAGTCATCCTGAAAATTCCCATTC
TCAGAAATATTTTTGGATTGTATGGGCTTATTGATGCTTCGAAGAAGAGC
TTGATCAAGCAGCTGAAAAAAGGATCTGTTTTGATCTATATTGGAGGCAT
GGCTGAGCTGTTCTTATCAAGCCCTACCCGGGAAGAGTTACATTTGAATG
ATCGCAAGGGTTTCATCAAGCTTGCCATGGTTACTGGGTCGGAGGTTGTT
CCTGTTTACTTTATTGGAAACACATCTGGGCTCAGGGTGCTGCGCTCGGC
GGCCCTCTCCCGCGCGAGCCGCGCCCTCGGCGCCTCCGTGACCTGGACCT
GGGGGCTGCTGGGACTGCCCGTGCCCCGCCCGGACAAGATGGTCACCGTC
GCGGCCGACCGCTGGGTATTCCCAAAATTGATAACCCTACACAAGAAGAT
ATTGACAAGTGGCATGCAAAATATGTCGGGGAGGTCAAGAGGCTTTTTGA
AAAATACAAAGTTACAAACCCAAACTATGTGA
back to top