Homology
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A6H5K8A3_9PHAE (N-acetyltransferase domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5K8A3_9PHAE)
HSP 1 Score: 276 bits (706), Expect = 7.600e-86
Identity = 126/170 (74.12%), Postives = 150/170 (88.24%), Query Frame = 1
Query: 436 DGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFTHASGDEGWMQKVAIEMNLSETCFLELLP 945
+ GE+ G+VCGTC QG EL+HESM HD +GQTLCIHSVVV++KFRRRGYAT +LKAY+E +A+TQPGV+R+CLIAK+ LLG+YASCGF+ KGLSP+V GKDPWFEM I+LDS+EPRLLRF+QVDAF++R F GNPAAVFFT A GD WMQKVA+EMN+SETCFLEL P
Sbjct: 21 EAGEVVGFVCGTCSQGEELSHESMHLHDPNGQTLCIHSVVVAEKFRRRGYATEMLKAYVENVALTQPGVRRVCLIAKAGLLGMYASCGFTLKGLSPVVHGKDPWFEMRIDLDSSEPRLLRFVQVDAFSDRKFCGNPAAVFFTQAGGDADWMQKVAVEMNISETCFLELQP 190
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A7R9UDB1_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UDB1_9STRA)
HSP 1 Score: 193 bits (490), Expect = 2.020e-53
Identity = 104/227 (45.81%), Postives = 138/227 (60.79%), Query Frame = 1
Query: 262 LEVRELSEEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFT--ERAFSGNPAAVFFTHASGDEGWMQKVAIEMNLSETCFLE 936
L+ R+L E ++ F +E AS+P DEA + D ++FR A A +F A S + G+VC T G ELT E+M EH G TLCIHSVVV+ RR+G ATA+L+ Y + +A+ P + R+ LIAK++LL LY GF+ G+SP+V G+DPWF++ E LQ DAF ++ +SGNPAAV FTH GD WMQ VA+E NLSET FLE
Sbjct: 40 LKWRKLRETEVDAAFALETASYPADEAASLDSLQFRQAHAGEYFYGAFDGSEA---------LRGFVCATVAPGDELTQETMAEHHPDGSTLCIHSVVVASDLRRKGVATAMLREYCKAVALGNPRLARIALIAKANLLRLYVKAGFTVNGMSPVVHGRDPWFDLTAECQDFAGE--EMLQADAFIVDDKPYSGNPAAVVFTHRDGDATWMQNVALENNLSETSFLE 255
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A8K1C3G3_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1C3G3_PYTOL)
HSP 1 Score: 189 bits (481), Expect = 2.390e-52
Identity = 107/228 (46.93%), Postives = 137/228 (60.09%), Query Frame = 1
Query: 292 LSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFT-----HASGDEGWMQKVAIEMNLSETCFLELLPGGSPG 960
+ R+ +E AS+P DEA TPD +RFR A +FF A L+ D + G+V GT + EL E+M+EH+ SG TLCIHSVVV RR+G+A A+LK Y+ I + VKR+ LIAK+ L G Y SCGF+ LSP+V GKDPWFE+ ++ ++ R L +QVDAF+ F GNPAAV H G E WM VA E NLSET +L GGS G
Sbjct: 15 IERVIALEAASYPADEAATPDMIRFRQQHAGAFFYAAYLAE-------DENALVGFVNGTLTKSQELEEETMSEHEPSGTTLCIHSVVVDAAHRRKGFAGAMLKEYVRIICEQELQVKRIALIAKAYLTGFYISCGFTATRLSPVVHGKDPWFELVLDCEAA--RRLTVVQVDAFSSEIFDGNPAAVVVMPPAQFHKPGVEKWMLSVAKENNLSETAYLARREGGSNG 233
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
W2QBI4_PHYPN (N-acetyltransferase domain-containing protein n=10 Tax=Phytophthora TaxID=4783 RepID=W2QBI4_PHYPN)
HSP 1 Score: 189 bits (481), Expect = 3.030e-52
Identity = 107/221 (48.42%), Postives = 134/221 (60.63%), Query Frame = 1
Query: 283 EEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFT-----HASGDEGWMQKVAIEMNLSETCF 930
E+ + R+ ME AS+P DEA T +RFR A SFF A LS+ ++E + G+V GT EL ESM+ HD G LCIHSVVV FRRRG A +LK Y++ I +QP VKR+ LI+K+ L+G Y CGFS LSP+V G+DPWFE+ LD + RL +QVDAF+ F GNPAAV H G WMQ+VAIE NLSET +
Sbjct: 15 EDDIRRVAAMEVASYPADEAATESGIRFRQKNAGSFFWVAYLSTDAQESE----TLVGFVNGTLTARDELDDESMSRHDPHGSLLCIHSVVVDQAFRRRGLAVKILKRYVDIILDSQPQVKRIMLISKAHLVGFYVKCGFSVTRLSPVVHGQDPWFEL--SLDCEKARLPPMIQVDAFSSEPFQGNPAAVVLLSPTAYHKDGVSEWMQRVAIENNLSETAY 229
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
D0P3S0_PHYIT (N-acetyltransferase domain-containing protein n=1 Tax=Phytophthora infestans (strain T30-4) TaxID=403677 RepID=D0P3S0_PHYIT)
HSP 1 Score: 185 bits (470), Expect = 1.220e-50
Identity = 105/221 (47.51%), Postives = 136/221 (61.54%), Query Frame = 1
Query: 283 EEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFT-----HASGDEGWMQKVAIEMNLSETCF 930
E+ + R+ ME AS+P DEA T +RFR A FF + L K++ + + G+V GT +L ESM+ HD G LCIHSVVV+ FRRRG AT LLK Y+E I +QP VKR+ LI+K++L+G Y +CGFS LSP+V G+DPW E+ LD + RL +QVDAF+ F GNPAAV H +G WMQ+VAIE NLSET +
Sbjct: 15 EDDIRRVAAMEAASYPADEAATESGIRFRQKNAGPFFWVSYLP----KDDQESETLVGFVNGTLTAKYQLDGESMSRHDPHGSLLCIHSVVVNQTFRRRGLATQLLKRYVEVILDSQPHVKRIMLISKANLVGFYVNCGFSVTRLSPVVHGQDPWLEL--SLDCEKARLPPLIQVDAFSSEPFQGNPAAVVLLTSAVYHKAGASEWMQRVAIENNLSETAY 229
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A8J5I6M3_9STRA (N-acetyltransferase domain-containing protein n=1 Tax=Phytophthora aleatoria TaxID=2496075 RepID=A0A8J5I6M3_9STRA)
HSP 1 Score: 183 bits (465), Expect = 6.130e-50
Identity = 104/224 (46.43%), Postives = 133/224 (59.38%), Query Frame = 1
Query: 283 EEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFT-----HASGDEGWMQKVAIEMNLSETCFLEL 939
E+ + R +E AS+P DEA T +RFR A FF A L K++ + + G+V GT EL ESM HD G LCIHSVVV FRR+G AT +LK Y++ I +QP VKR+ LI+K++L+G Y +CGFS LSP+V G DPW E+ LD + RL +QVDAF+ F GNPAAV H G WMQ+VAIE NLSET ++ L
Sbjct: 15 EDDIRRAVALEAASYPADEAATESGIRFRQKNAGPFFWVAYLP----KDDQESETLVGFVNGTLAAKDELDDESMGHHDPHGSLLCIHSVVVDQAFRRQGLATQMLKRYVDVILDSQPQVKRIMLISKANLVGFYVNCGFSVTRLSPVVHGHDPWLEL--SLDCEKSRLPPLIQVDAFSGEPFQGNPAAVVLLSPAAYHKDGASEWMQRVAIENNLSETAYVSL 232
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A6A3QWN0_9STRA (N-acetyltransferase domain-containing protein n=3 Tax=Phytophthora TaxID=4783 RepID=A0A6A3QWN0_9STRA)
HSP 1 Score: 181 bits (459), Expect = 4.870e-49
Identity = 105/221 (47.51%), Postives = 131/221 (59.28%), Query Frame = 1
Query: 283 EEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFTHASGDEG-----WMQKVAIEMNLSETCF 930
E + R+ ME AS+P DEA + +RFR A +FF A L S +E + G+V GT EL+ ESM++HD G LCIHSVVV FRRRG A +LK Y+ I +QP V R+ +IAK+ L+ Y SCGFS LSP+V G+DPWFE+ ELD R +QVDAFT AF GNPAAV +S WMQ+VAIE NLSET +
Sbjct: 15 ESDIQRVASMEAASYPADEAASESGIRFRQKNAGAFFWAAYLPSGDKTSE----TLVGFVNGTLTANDELSDESMSQHDPHGSLLCIHSVVVDHAFRRRGLAAQMLKRYVRIICDSQPQVTRIMMIAKAYLVKFYVSCGFSVTRLSPVVHGQDPWFEL--ELDCDAARRPPMIQVDAFTSEAFQGNPAAVVLLSSSAFHRPEATEWMQRVAIENNLSETAY 229
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A3R7GBQ3_9STRA (N-acetyltransferase domain-containing protein n=2 Tax=Phytophthora kernoviae TaxID=325452 RepID=A0A3R7GBQ3_9STRA)
HSP 1 Score: 182 bits (462), Expect = 3.360e-48
Identity = 101/213 (47.42%), Postives = 130/213 (61.03%), Query Frame = 1
Query: 310 MEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFT-----HASGDEGWMQKVAIEMNLSETCFL 933
ME ++P DEA T +RFR A++FF A L+ + G G+V GT ELT ESM+EH+ G LCIHSVVV +RRRG+A+ +LK Y++ I QP V+R+ LIAK+ L+G Y +CGFS LSP+V G+DPWFE+ ELD R +QVDAFT A+ GNPAAV H WMQ+VAIE NLSET ++
Sbjct: 1 MEATAYPADEAATESGIRFRQKNAEAFFWVAYLADN-------GDTPVGFVNGTLTTHGELTDESMSEHEPDGDLLCIHSVVVDGAYRRRGFASQMLKKYVQGIIDNQPQVERIMLIAKAYLVGFYVNCGFSVTRLSPVVHGEDPWFEL--ELDCEAARQPPIIQVDAFTSEAYQGNPAAVVLLSPAAFHNKEASEWMQRVAIENNLSETAYV 204
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A1Q9DHM3_SYMMI (Putative isomerase n=5 Tax=Symbiodinium TaxID=2949 RepID=A0A1Q9DHM3_SYMMI)
HSP 1 Score: 179 bits (455), Expect = 5.050e-48
Identity = 101/232 (43.53%), Postives = 133/232 (57.33%), Query Frame = 1
Query: 262 LEVRELSEEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQ--PGVK--RMC-LIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFTHASGDEGWMQKVAIEMNLSETCFLELL 942
L R + +E L +E AS+P DEA +P+ + R A FF A S+ G + G+VCGTC G+ LTHESM +H G+ LC+HSVVV RR+G A+A+L+ Y+ +A PG R C LIAK+ L+ LY + GF GLSP+V G DPWFE+ + +Q DAF +GN AAV F+H GD WMQKVA+E NL+ET F+ELL
Sbjct: 47 LAFRRVRKEDLEACASLEAASYPADEAASPENLALRQRVANDFFWGAFEKSN--------GSLVGFVCGTCAAGTSLTHESMEKHVPGGELLCVHSVVVQKHLRRKGVASAMLRGYLRAVAALHAAPGSSPPRACALIAKAGLVSLYVNAGFQLVGLSPVVHGADPWFELQVRDIVRTASGEHMIQCDAFAAVPCTGNSAAVVFSHRGGDASWMQKVAMENNLAETAFVELL 270
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Match:
A0A7S2RT05_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2RT05_9STRA)
HSP 1 Score: 179 bits (453), Expect = 5.250e-48
Identity = 105/229 (45.85%), Postives = 135/229 (58.95%), Query Frame = 1
Query: 262 LEVRELSEEKLSRLFEMEKASFPEDEAGTPDKMRFRCAKAKSFFLEASLS----SSVGKNEGDGGEMAGYVCGTCCQGSELTHESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVKRMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLRFLQVDAFTERAFSGNPAAVFFTHASGDEGWMQKVAIEMNLSETCFLE 936
L +R L+ E + R +E S+P DEA + ++M RC +A F S V G + G++ GT +G LT ESM EH G++LCIHSVVV++K+RR G A A L+AY++ A + RM LIAK LL LY GF G S +V G+DPWFE+ LD R L F+QVDAFT F GNPAAV FT GDE WMQ++A+E NL+ET FLE
Sbjct: 20 LRLRRLALEDVPRAAVIEAESYPADEAASAERMAERCREAGEHFWGVFASPVPQGDVASASFPGAALVGFINGTRAEGDTLTDESMEEHMPEGRSLCIHSVVVAEKYRRCGVARAALQAYMKTQA-QDTRLDRMLLIAKGKLLTLYLGAGFKLVGPSSVVHGQDPWFEL--GLDMCLARQLDFVQVDAFTAVPFRGNPAAVVFTQRGGDEAWMQRIAVEFNLAETAFLE 245
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1012.3.1 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 7.60e-86 / Id = 74.12 Expect = 2.02e-53 / Id = 45.81 Expect = 2.39e-52 / Id = 46.93 Expect = 3.03e-52 / Id = 48.42 Expect = 1.22e-50 / Id = 47.51 Expect = 6.13e-50 / Id = 46.43 Expect = 4.87e-49 / Id = 47.51 Expect = 3.36e-48 / Id = 47.42 Expect = 5.05e-48 / Id = 43.53 Expect = 5.25e-48 / Id = 45.85 Sequence A0A6H5K8A3_9PHAE A0A7R9UDB1_9STRA A0A8K1C3G3_PYTOL W2QBI4_PHYPN D0P3S0_PHYIT A0A8J5I6M3_9STRA A0A6A3QWN0_9STRA A0A3R7GBQ3_9STRA A0A1Q9DHM3_SYMMI A0A7S2RT05_9STRA
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Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
Property Name Value
Stop 1
Start 1
Seed ortholog 2880.D7G2Q8
Preferred name AANAT
PFAMs Acetyltransf_1,Acetyltransf_10,PhzC-PhzF
Model size 1126
Max annot lvl 2759|Eukaryota
KEGG rclass RC00004,RC00096
KEGG ko ko:K00669,ko:K19952
KEGG Reaction R02911
KEGG Pathway ko00380,ko01100,map00380,map01100
KEGG Module M00037
Hectar predicted targeting category other localisation
GOs GO:0001101,GO:0003674,GO:0003824,GO:0004059,GO:0004060,GO:0004145,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005829,GO:0006325,GO:0006464,GO:0006473,GO:0006474,GO:0006576,GO:0006586,GO:0006725,GO:0006807,GO:0006996,GO:0007623,GO:0008080,GO:0008150,GO:0008152,GO:0009058,GO:0009308,GO:0009309,GO:0009314,GO:0009411,GO:0009416,GO:0009605,GO:0009628,GO:0009648,GO:0009649,GO:0009719,GO:0009725,GO:0009987,GO:0010033,GO:0010035,GO:0010038,GO:0010043,GO:0010243,GO:0010467,GO:0010817,GO:0014070,GO:0014074,GO:0016043,GO:0016407,GO:0016410,GO:0016740,GO:0016746,GO:0016747,GO:0017144,GO:0018130,GO:0019438,GO:0019538,GO:0030186,GO:0030187,GO:0031365,GO:0031960,GO:0032868,GO:0033993,GO:0034097,GO:0034641,GO:0034644,GO:0034694,GO:0034695,GO:0034754,GO:0036211,GO:0042221,GO:0042401,GO:0042430,GO:0042435,GO:0042445,GO:0042446,GO:0042752,GO:0043153,GO:0043170,GO:0043412,GO:0043434,GO:0043543,GO:0043603,GO:0043604,GO:0044106,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044267,GO:0044271,GO:0044424,GO:0044444,GO:0044464,GO:0046219,GO:0046483,GO:0046683,GO:0046688,GO:0048471,GO:0048511,GO:0048545,GO:0050789,GO:0050896,GO:0051276,GO:0051384,GO:0051385,GO:0051412,GO:0051591,GO:0051592,GO:0051604,GO:0051716,GO:0065007,GO:0065008,GO:0070141,GO:0070542,GO:0070887,GO:0071214,GO:0071310,GO:0071320,GO:0071407,GO:0071417,GO:0071478,GO:0071482,GO:0071492,GO:0071495,GO:0071704,GO:0071840,GO:0071889,GO:0097305,GO:0104004,GO:1901360,GO:1901362,GO:1901564,GO:1901566,GO:1901576,GO:1901652,GO:1901654,GO:1901698,GO:1901699,GO:1901700,GO:1901701
Exons 7
Evalue 3.8e-109
EggNOG OGs COG0384@1|root,COG0454@1|root,KOG3033@2759|Eukaryota,KOG4144@2759|Eukaryota
EC 2.3.1.87
Description aralkylamine N-acetyltransferase activity
Cds size 798
COG category K
BRITE ko00000,ko00001,ko00002,ko01000,ko04131
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866370.6339576-UTR-A-nodosum_M_contig1012:34295..34428 1680866370.6339576-UTR-A-nodosum_M_contig1012:34295..34428 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1012 34296..34428 -
1680866370.735767-UTR-A-nodosum_M_contig1012:55784..55979 1680866370.735767-UTR-A-nodosum_M_contig1012:55784..55979 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1012 55785..55979 -
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866370.6443555-CDS-A-nodosum_M_contig1012:34428..34527 1680866370.6443555-CDS-A-nodosum_M_contig1012:34428..34527 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 34429..34527 -
1680866370.6554291-CDS-A-nodosum_M_contig1012:34805..34895 1680866370.6554291-CDS-A-nodosum_M_contig1012:34805..34895 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 34806..34895 -
1680866370.6737154-CDS-A-nodosum_M_contig1012:35484..35685 1680866370.6737154-CDS-A-nodosum_M_contig1012:35484..35685 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 35485..35685 -
1680866370.6838639-CDS-A-nodosum_M_contig1012:36482..36665 1680866370.6838639-CDS-A-nodosum_M_contig1012:36482..36665 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 36483..36665 -
1680866370.6929207-CDS-A-nodosum_M_contig1012:41835..41988 1680866370.6929207-CDS-A-nodosum_M_contig1012:41835..41988 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 41836..41988 -
1680866370.7129934-CDS-A-nodosum_M_contig1012:47860..47913 1680866370.7129934-CDS-A-nodosum_M_contig1012:47860..47913 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 47861..47913 -
1680866370.726938-CDS-A-nodosum_M_contig1012:55765..55784 1680866370.726938-CDS-A-nodosum_M_contig1012:55765..55784 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1012 55766..55784 -
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig1012.3.1
>prot_A-nodosum_M_contig1012.3.1 ID=prot_A-nodosum_M_contig1012.3.1|Name=mRNA_A-nodosum_M_contig1012.3.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=266bp
MGDSNEALRFSPEVTRLLRSKGLEVRELSEEKLSRLFEMEKASFPEDEAG TPDKMRFRCAKAKSFFLEASLSSSVGKNEGDGGEMAGYVCGTCCQGSELT HESMTEHDASGQTLCIHSVVVSDKFRRRGYATALLKAYIERIAVTQPGVK RMCLIAKSDLLGLYASCGFSTKGLSPIVLGKDPWFEMCIELDSTEPRLLR FLQVDAFTERAFSGNPAAVFFTHASGDEGWMQKVAIEMNLSETCFLELLP GGSPGGTGTARDSSV* back to top mRNA from alignment at A-nodosum_M_contig1012:34296..55979-
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1012.3.1 ID=mRNA_A-nodosum_M_contig1012.3.1|Name=mRNA_A-nodosum_M_contig1012.3.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=21684bp|location=Sequence derived from alignment at A-nodosum_M_contig1012:34296..55979- (Ascophyllum nodosum dioecious)CGCAGTCATTCGCATTCAGTCCCTTTTGTACCAGGTTGTGCGCACCGGTG
AGGCCTGGCGTCAAGGGGTGTTGATATTATTCTACGTCTACCATCCCAGT
CTTCACCCGATAAAAAGTGTTAACTATCAGGAGTGGCTTGAGTGCTACGA
TTTAACACCGCGTTGGAGGAGAAACGCCTGGTGCAAATCCGCATC ATGGG
GGATTCGAACGAAG GTACTTCCTTTTGGTACGATTTGTCACATGCTCGAT
ATCCGTGATACGGTGAACTACACACATTACTTCTGATTTTAGTAGGCGAT
GTCCTTAGGAATATCCAGCACCTTCAGTTGACTCGTTTCCGGAGTTATCC
TGGTGGTATCCTGAAATCCCAGCTGCTCGACATCTGTGAAATCGAATTGG
TTAGATTTTCCCTCTCATTGGTTTCTGTAGGCTCGACGAGTACTGTAAAA
AAAACAAATAACTTCACCCTCTAGCACGAACCTTTGGAATTTTCAATTTT
CTCATCCAGAGGAAAATTCCAGTTCCCTGTCACCCTGTCCGGCGCCCGTG
AATCTGACTGCGCAGTCAGGCGAATAACCACAGCGGCAAAAAAACGCTTA
CAGAACCTTTGTGTGCGTCTCTTGTTCGGTTTTGTCTTGGTCAACCCGAC
CCAACGGCCAACCTGACCCAACCCGACCAATATCGCTAACGCTAACCCAA
ACCCCCCAACCCCAGCTGACCGCGTGGTCCCAGTTCATAGCTGACGCTTG
GTCATAGTACCGTGTGGGCTGATTTTGTGAGCGTCTCTGGTTCCGTTTTG
CAACGCAGGAGCAGCAGCAGCAGCAGCAGCAGCAGCTGCTGCTGCAGAGT
CTGTGCGCTGTGCGGTCCATAATTCAAAATTATGGGTTTGTATATAACGG
CCATCCCGACCCAACCCGACCAATATCGCTAACGCTAACCCAAACCCCCC
TACCCCAGCTGACCGCGTGGTCCCAGTTCATAGCTGGCGCTTGGTCATAG
TACCGTGTGGGCTGATTTTGTGAGCGGCTCTGGTTCCGTTTTGTCTCAAC
GCCAGGAGCAGCAGCAGCAGCACAGCTGCTGCTGCTGCAGAGTCTGTGCG
CTGTGCGGTCCAGAATTCAAAATTATGGGTTTGTATATAACGGCCAACCC
GACCCAACCCGACCAATATCGCTAACGCTAACCCAAACCCCCCTACCCCA
GCTGACCGCGTGGTCCCAGTTCATAGCTGGCGCTTGGTCATAGTACCGTG
CGGGCTGATTTTGTGAGCGTCTCTGGTTCCGTTTTGTCTCAACGCCAGGA
GCAGCAGCAGCAGCAGCAGCTCCAAAATTCAAAATTCAAAATTATGGGTT
TGTATAATAGGTTCTGTAAGCGTTTTTTGCCGCTGTGATTATTCGCCTGA
CTGCACAGTCAGATTCGCGGGCGCACCACCCTGTCTACCAAAAATTGGAG
TCGCTGAATAACGATATGGCCAACCACGCGCTCGATTTCCAGGATAGCAG
AAAAACCTTTGGGATACTTGTAGGTTACTTTAAAATTGAAATCGGTCTTG
TAGTGAAGCTATGGCGCCGACATGGTCAATTGATCTATTACAACGACGAA
GATAACCAGCCAACATCCCCAAAACAGCGCACCCGACGCCGGTGGTGTCT
CTGTTTTAGCGCATCCATCAGCGGTGCTCCTGTCTGTTGAGCGGCGCTCG
TTTTTGTTCTTGCTGGGCCATGTCTGATCTTTTACCTGATCTTGCCTGAT
CTGATCTGATCTGATCTAATCTGATTTTTGTGATGAAAGGGGCAACCAAG
TATCCACTGCTGATCTACTCGCACTGCTCTTTGTGATGAAAAGTACTTGC
TCTGGCCGGTGTCGAGGAGTGAAACTTGCTTTATTTCCAAGTGTTTTTAC
AGACGGTCAGAGGTGCAAAAAAACAGATGAAGACTCTCGCATTGCCTGGT
CACGTAGCAGCACTTCAGCACGATGCATTCCACATCACACGCTTTGGCCT
AATAGAGTGGAGGCAATCACAAACAAATATCCCGCGTGGGCGGGTGGCTG
CCTCTTTATAGACTTATAGTCGTGGTGGCTGTCGTGGTGATTGTAAAGCA
GCTATTGATAATGCTACGGGAATGGCTCATCTCTCTCTCATACTCCTCGC
TCCGGCGTGGCATTGCTACAGGGATAAACCCTAAAAGAAGCAGCAGCAGA
TAAGCCTCTACTCCTATTTTTTTCCGTCTAGCTCCTCCTCATGCTAAACA
AGTAACAATATTGCGTGCCACTCTGGGTCCGATAGTAATTCGAAATTATA
TACCTGGTAGTAATTCGAAATTATATAGTGATTCGAAATTATATAGTAAT
TCGAAATTATGTAGCAATTCGAAATTATAGTTACCTCTGTGAATGCCTCC
CAGTTATACAACTCCATTTTTCAGCGCCCGGATCCCAGGTTGGAAATCGC
TGAAAAATGGGGGCTCATTTTTCAGCGGGCGATTGGTGAAAAATTGTCGA
TTTCAGCCCCATACAACGCCCTCCTGGGAAAATGGCGGCTGAAAAATGGC
GATTTCGTTCCTTAGCGACCTCCATTTTTCAGCCCATACAAGATACTTTA
TAGAGCTAGTCTTACAGGCATTTACAATCTTCAAGGGCTTTATTTTGAGA
TGGAGAGCTATGCGATTCAGATTGCATAAACCTTGCGCGGGTTGTTTGTC
TCCATGAGTTCTAGTTTATGTCTCTCTATTCCTTGCTATACTGTTACTGC
CTTGCGCCTTACGATTTTTTATCGCGATGCAAGTTCAGCAATCTTACAAC
TCGTCAGCTAATGGTTGAATTTTACTTACTCACGTTCCAACGCCTTCCGT
TACGGAAGAAAGATCACAAATCCTACTTAGGTAAGAATCGAACTCACGAC
TTCCGCACCAGCAAGTGTGCAGGTTACCTACTAGACTACTCGGGCGACGA
GCGCCTTGGTTTTGTGAAAATAAAACTTGATCTGCCTCTCGTAGTTACAG
CGGTACGAGTCGTATTGTCATTGTCTTATGACTGCTGTTTGCACACAGCA
GCGGTGCCGGCCATGCAGCACCACTCGTCTATCAAACCGAGCCCACCGCA
CAGCGCTCCCGACATAAGCACCAGGAAATGTCTTGTGAATCTCAAGTTCG
TCAAATCCGAACTCGTTGTGTACACATGCAGCTACAGAGTATAGTGCATG
TTTTTTTGCAAACGAAGCCCTCTCCAGCCAGCTCCAATCAGCTATGCTTG
ACTTTTACGATCTCCCGGGAAAATAGAAACGGTACGCGGAAGCATCTATC
TGCGAAGCAGCTTCGGTTCGCGTGGCGATGGGTGCTATGAATAGAGTGTC
CTCTCCTCGAGCATGAACTGGCTTCCTGCGCACAGTCTTATTCGCTACCA
TCGAGTGAATCTACCAGCGCACCCTAGCAATGGTAGATGCTTGCTTTCTT
TCACTTATTTTCTCTTGATGAGCGAGCGCTCTTTGCCGGTGAAGCACCAG
GAACCTGAGTTTCCAGGGTATTTTAAGCTGGATCGCACCAATGGAAAAAA
TTTGTTGTTGACAGGAAAATTGTCGCTGGCCGATGAAAACATCCCCGCGG
ATGAGAATTTCCCCGCTATGTTGTTGTTGTTGTTGTCTTCACATTAAAAG
CCGTTCCGATCTCTACTCAGTACTTTCTAACATCCGTACTGGTCCAACTG
ACGCGAACGCCTTCCGTGGTCACAGGCTAACTACCCAGAAAGGGTACACA
TATCAGAAAGAAATAAAAGGACCCAGAAAAGTCAACACACACGCGATAAT
TGGAAAATAAAATAAAACCCCCAGAAAAATAAGGCTCCAGACAGTCAGAC
GTCGCAGGCGACATGTCAGACAAAGGACATAGATAGAGCCCATCGCTCCC
ACTCGACACGCGAGGCCAAGCAAAATGAAACAAACGAGAAGAATCAAGGA
TCACCAATCAAGACAATAAAATCGCATGATTCTATCCTTGTACCCCTACT
AGGCCGGGGTGTATTCAGGTTTGCACCGCCCAGGCCATAAGAACTTATTG
GGGTAAATGTATCATTCCAGGGGGGCTTTTTAGGTGACAAAATGATATTT
TCCCCGAGAGAACTTTCGGAAAATTCAATTATCAGGGGGAAATGAATCCT
TGTACACAAACAATCAACCTTTTTATTTTAGGTGGCAAAATGATATTTTC
CCCAAGAGAACTTTCGGAAAAATCCAAACATCAGTGGGAAATGAATTCTT
CTACACAAGAATCAACCCTTTAGGACGATATCATTCGTTAATTTGCTACC
CGTGGTCGTAGAGGGTCTACTGAATGCGGCCGCCTCTCCGCAATTCACGC
CTACCCCTTACTAACTTTCTCACTCTTTCGGCTACGGACATAGGGGACTC
GCAAAATACGCTCTGGTGAACTGCGAAGCTGTCCGTTAGTGACATTTTTG
TATTTGACGCGGAAATTTCAACGGACGACGTTCTATATTTGCCGGCCGCT
GCTTCTCCCGCGTGCCTCGGCGAACCACTCTTGTTGCCTGTGATACAACG
TCACTCAGCGATTCGATAGGAATACACGATACGGCGATCCACAGCTTTCC
GGATCAGCTTGACCTCGGGGTAGCTTTTGAGTCATCAGCGCGATCGGCTA
GCTGACCATGAGCCCGATCGGCCAGTTTTCTGGAGGTCCTTCCAACTGTG
GGCTTCGAACTTGCGCACGCCACGGAGGCTTACATTTCAGCATCTCCTTG
CTGCCCTGTAGATGCCAACATTAAGCTTTCGTCAATACATACTACTGATG
TACGCTTGCGGTGGAAGCGGTTTGCCTCGAACCAAGCCATGCAAGAATTT
GGGGATGACCCCCGACAGCCCCCAGAATTCTTCCAAAAAATCGGTGTTAA
GCGCACAATTCGGACATTCTTCCCCCGGATTTTTTTTTCCCCCGGTATGT
TGCGAGTTTTTTTTTGTCCACAACATCGGCACCACGGATTTTCCGCACGG
AATTTTTGTTTTCATTTGGGGGAAAGGTGGAATTCTTGTGTCCATAATGT
TTGGCCTAAAATCGGAAAGAAAAATTGTGAGCTTGAAATTTTGACGCGAA
CACCGTTTGTAAAGAGAGCGGCTTAGGTGTGTGTGTGTGTGTGTTTTCTT
CCCATTCATTCTGGACATCAAGTTCGTTGGACGTACCAGCCGGGGTCACA
CAGGAAGAAGGTCACACAGGATTTTTCATCCACCTTCTTTCTGCGGTGCG
TGCCTTAATTTTTCTCGCGAGAAGGATTCAGCCATTCCTTTCCCTCGTCG
ACCGTGAAGTCGATTTTTTTGTACTAACGATTTAATCGTTCTCCACCCGT
TGGACATTTTTAGTTTTAGTTTTTAGTTTTTTAGTGAGAAAAATCCCGTT
TGCCCGGGTCGAACTCACGTCCCAACGTGTCAGAGGATTACGAGGTACCT
CTGAGAGGTATGTATGGTCATGTCACATATAGTCGGCTGGGCATTAGCCG
GTATGGTTGCCAAGTTGCCAATCTTGCCCGTGGTCAGCTGAACAGGGAAA
GTTTGACTTTCCTGTCCATGTTCGCGCCTACCAGACCCTGGCGAGGGGAG
AGCCCCGGAAATTACTGTTCGCGGCGGGTTTATTCTACCCCACAAAATTC
ATATTTCATCCGTTAGGAAGGCAATAACCCCTTAAGCTACCAAGGCACGT
GGCTAAGTAGCCAAAGGGGTTATCGCCTTGAAAACGCTCAAAAGGTTTAT
TTTATAGCTTCCAGCTCTTTTTAATAGTAACAGATTCGTTTCCAACCTGT
TCACTGATTGAAGAAAAAAAAATGCGTCGACCTGATGCTCATTTCCGGAT
TCATGGCGTAGCCGTAAAATATAGCCTAAAAATATATATATAGGCTCTTT
CTGACGGGCTCGCCTGCTTGGCATGGACTCCACTAGTTTCAGCCTATGGC
ATGAACCTTGGCTAGCGTTGTGTCGATCCGCTCATCGAATTTTCTACGTT
CCGGGTTATGCCGCTCGACCTCCAACCACGCTGCTGAAGATAGCTCTGCT
GTGGGGCTCGCCACGATGTCAATATTTTGGGCGGCGTAGTGGATGCAGGT
ATAACTTCGAGTTTCGGACAGCGGGGTCGCCATGGTTTTGATCCGTGTGA
GATGGAGACTCATCTGCGGACGGCTCAGACAAGGTGTTCGAACGTGGCCC
ATTTCCCCAAATCGGACCTTTCCAAAACATTATACAATATGTGTATACCA
GGTATATATTTATGTATCAGACTGGTCGTCATCCGACTTTTGTGTGCCAA
TCTTGCTCGGGGTCAGCTGAACCGGAAAAATTGCAGAGAAAACATTTTTT
TCCCTGTCCCCGTTCGCGCCTGAAAATACGACCTCACGAGGCAGGATTGA
CCGTCCCGTCCCGCATAAGCCTCCTTTTTCTCCACACCCCAGAGGCTGGA
AAACAACAACAAACAACTCACGGACTCCGCTTCTTCCTCTCGGTTTCCTC
GACGGCGTCCATTTATATCGTCAAACCGCCATTGGGTCAGCCCCGAGTTT
ATCGGGTCGCGCAAACGCGTGCCGATGGCAATCACCGCCAAGAGTCCGCC
GGCGTTTGGAGCGGCCTATTCCAAAGTTTTGGGGTGCTCTGAGAGGTTTG
CGCGGAGGCTTTTCCCCCAAAGATTGGATTTTCGTATATATACACAGAAA
ATCCTATTAATATCAGTTATAAACATAATCCTGGAACAGTATACAGTATT
CCCATATCTCGTTTCATCCTGGCAGCATTTTCGAATGTGAGCCTACCGTT
TGTAACTCCTGGCTTCAATCATGTGTGTGTGTGTGTGTTTTCTTCCCATT
CATTCTGGACTTCAATGGACGTACCAGCCGGGGTCACACAGTAAGAAGGT
AACACAGGGTTTTCCATCCACCTTCTTTCTGCGGTGCTTGCCTTGATTTG
TCTCGCGAGAAGGATTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCG
AATTTTGTGCACTAACGATTTAATCGTTCTCCACCCGTTGGGCATTTTTA
TTCTTCATTTTTTATTTTTTTCAGTGAGAAAAATCCCGTTTGCCGGGATC
GAACTCACGTCCCAACGTGTCAGAGGGTTACATGGTACCTCTGAGCTACC
GGGGCGACCGGTTAATCATATACTATAAATAAGTGTACTATACCGGCCCT
GTGTAGTCGTAGCTATTTTGTAGTCGTACACCTATTCCGAGCACTTGGGG
AAGTGACCGCTTCACTAAAACGTTACTATTTAATGGACCCGACGGCGGTT
GACGGCATGATGAATAGATGAACCCCGTCGCTGAGAGCGAGAGGAACGAG
AGGAGTCCGTGAGTAGGCGCCAGCTTCAGCCTCGGGGTGGAGAATGAGCG
CGCTGACGCGGGGTTCAACGATTGGGGAGGGCGGGGATACGACGATTTCG
TCCCCGGGGATGTCACCAAAACATCCCCTTCCGGGGATTAGACTACATGA
TCCCCTACGTGGTCGGCAAGCTTGCCCCAAATTCATCGCATTTGACCAGG
GGGTTGGTCAAATTTGTCCCCGTAGGGACTATTTTCGTGCCGTTTCCTCC
CAAAACGGGGACAAATATGTTACATCCCCTCCCCCCCCCAATCGTGACGA
CGCAGGACGGGACGGCCAAACCCATCTCTCGCCGAGAGACCAATTTTTCG
GACGCAAACGGGGACAAGGATTTGTTTGTTTTCCCCTGTTTTGTTTTTCC
CTGTCCTGCTGACCACGAGCAGAATTGGCAACCATATCCGGTTGATACGT
ACTCCGCTATATGTAATGACGATACATAACAATATACATCCGATTACTGA
CAGCATGTCATTTCCTCCAACAACCGAATTAAAAATCGCGGGAACTAGAG
TACGAGTACCTATTCCTTCGCGAAGCCCGTTCTCCCTGGATGGATCATAA
ATCGCTCCGTATCGCGGTCGTACTTGCTTCCCGTCATCCGCGTGGTGAAT
CAATCGGCCCTGTCATCAACCATGTGGTGCCATCAACAATCATTCGGAAA
TCGGTCGTGCCATCAGCATTGCGCTTCAGCCCCGAAGTAACTCGTCTCCT
GCGGAGCAAAGGCCTTGAG GTGAGTCCGCACAAAATCTGTTGCCGTAGGT
TCTTATTTGAAATGCAATCATCGTGTTTGCAACAGATATAGCTAGCTCTA
ACTGTAGTAATGCTGTGGTCATACCTCTGTTATAGGAACATTTTTTGTCA
GTTACACGTTTCTTTTACCAAGGTAACCATTTTTTTTTACCAAGGTAACC
GTTACATGTAACCGTCGGGACCTCAATGCCCTCAAATTGAGTTTTTGTGG
CCACGTTGTTGTCATCCACAATGCCATTCCAGTGTACGGACAGTACCCAT
CATGGTACTACTGTACCACTCTGCTGTAATCAATAACGACTGGTCTACTG
TACTTGTCGATGGTTAGTTTCAGACCACAAAGCTGATTGGTCTGTTGTGT
TGTGTTGTCATCCAATTAATTCTGGACGTCAGGCTTGTGGACGTACCAGC
CGGGGTCACACAGGAGGAAGGTCGCACAGGATTTCTCCACCTTCCTTCTG
CGGTGCTTGCCTTATCTTTTATCGCGAGAAGGATTCAGCCGTCCCTTTCC
CTCGTCGACCGTGAAATCGAATTTCTTGTATCCACGAATCAATCGTTCTC
CACTTGTTGGGCATTTCTTTTCTTTTTTTGTGAGGAAAAATCCCACGGTA
TTTTTGTTGAGTCCATCATTTTTATTTATGTATTTTATTTATTTATTGCG
AGGAAAAATCCCAGTTCGTGTGACTGCACTGAGATTCGAACTCACGTCCC
AACGTCAGAAGGTTTAGAGGTTACCAATTGAACAATCGGGGCGAACGGCG
GTTCTAATAGGTGGTTTGTTTCCCACCACTGTACACGCAGTACAAAAGTT
GCGGTCGACAGGTCCAGTAAAGAGGATACTTTTCTTGTTCTGTTACTGTA
CATGGTATAGTACAGTAGATTTTATAGTACATTGTATAGCTCATCGTATA
GTATATTGTACAGTACATTGTACAAGGCAGCACTCGTTCAGAACTACCTC
GAGGTTTACTGGCCCTGTGCCCGCGGACTCTCGGCAGTGAAGGCCATCGT
TACGCATTTGCGTGACCCGGTAAACTCGGGACTGACCCGATGGTGTATGG
CGGTTTTAAACAAATAAATGGACGCCGCCGCGGAAATCGGGAGGAATCCC
GCAAGTAAGCACCAGATTCAGCCTGAATATGGAGATGAGCAGGCTGACGC
GGGACGGGACTGCCGAACCCGTCTCGCGAGACCAAATCATCAGGCGCGAA
CGGGGACAGGGAAATATTCATTTTCCCTGTTCAGCTGACCACGAGCAGGA
TTGGCTACCTTACCCGGTTGATCCATACTCTTGCTATATGTGATGACCAT
ACACAAATACATACATAGTACATTGTAAAGTACATTGTGTAGTACATTGT
GTAGTACATTGTATAGTACCCGATGGACCTAATCATTACCATCCTGCCTG
TGGTCACAAAGGATCTTCCCATCTCTCCCCGGTTCACGCCTTACAAATTT
TTTATCGCGATGCAAGTTCAGCACTCTTACAAGTAGTCAACCAATGGTTG
AATTTTACTTACTCACGTTCCCACGCTTTCTGTTACGAAAGAAAGAACAC
AAATCCTACTTTGGCAAGAATCGAACTCACGACTTCTTCCGCACTAGCAG
ATGCGCAGCTTACCTACTAGACCACTCGGGCGACGTTGTATAGGTAAAGT
CTGATAGGGTTCCTCTTTCACGACTGTCCCCCATGTTGATCACAGCTCGT
GGGATTCGCACCCATTACGCAGCAGTTTCACGTATTTTTTTAGATCTGTT
TATTTTTCAAGACAAGTCAGCTCTAAACTAGTCAGTATGTATGTATGGTC
ATCACACATACTCTGCGAGAATGTGTGTGTTTTCTTCCCATTCATTCTGG
ACATCAAGTTCGTTGGACGTACCAGCCGGGGTCACCCAGGAGGAAGGTCA
CGCAGGATTTCTCATCCACCTTGTTCCTGCGGTGCGTGCCTTAATTTTTC
TCGCGAGAAGGAGTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGAA
TTTTGTGTACTAACGATTTAATCGTTCTCCACCCGTTGGGCATTTTTCCT
TTATTTCCTATTTTTTTTTTTTAGTGAAAAAAATCCCGTTTACCGGGATG
GAACTCACGTCCCAACGTGTCAGAAGGTTACGAGGTTACCTCTGAGCTAC
CGGGGTGACCGGCAGAATACGCATTATTATTTTTCTGCATGCATGTAAAC
TCTACTAGCTCGCTGTAGCTCTACTGTACCTCTAGAGCTGTACCACGCCT
GCACGAAGCGGACAACAAACACCTGCTCACTGCGTGGACCCGAGTTTGTA
CGGCCTCGGCGCCCGCTAGAAACCCCCTAGATACCGCCGTGGATAATGTA
CCAACCTGTTGATAGATACCTAACCTATGGATAGGTACAACTTCCGGGGG
GCGGGAATTTGTCAGTTAGGTCGTGCTCAATGCTGCATGAGTTCCACGCC
GCGAAAACATTTCAAAGTGTCACCTGTGGCATGCGCTGCCCTAAAAAACA
CTCGGCACGCAGCTCTTGGAAAAACTTTCTCCCTGCCGACAAGATGGACG
CTAAGCTATTTTCCTCTGGGCACCCTCCAAATAGTACTTGGATTTGGTTT
GTGTGTGTGTGTGTATGTGTATTTATTAAATTGCACATAACCGCGCAATC
CGGCCCTGTCATCCTATTAATAGTCATTCTATGCCACTCGCGTTGATCCT
CCCGAGGGGGGATCAATGATACTTGCTACGAAAACCTCTGATCAGGCGCG
ACAGAGGGGACACACTCTCTCTACTTGTACAACTCTTACTTGAGCCCTGA
GTAACTTGTGCTCACCCCCCTGCTTCCTTGTTGCTCTCTAGATTATCTGG
GTTGGCAGCTACTGAATCAACCCATTCTTTTCTACATATTTTTCTCTTTC
CACCCGTGTCTCCCCCGTTTCCCGCACGGCGTCTACAGCTATTTTGCGGT
TTCTTGCGCTTTTTCGCCTCTCTTCCGCCCTCCCCGATCCTATTCTCGTT
CCCGTTCTCGTTACCGTCGTCCCCGTTCCCATCTCCGCTTCCGTCCCCGT
TCCCGTCCCCGTTCCCATCCGGTGTTCGTCTACGGGTCCCCACCCCCGTC
CCCGTCCCCGTCCCCGTCCTGGGCTCCTTCGTTCACTTCCACCCCCGTTC
CCGTTCCCGCTTCGTCCCCGTCCCAATGAGTGTATGTGTGTGTGTGTATT
TATTAAATTGCACATAACAGCGCAATCCGGCCTTGTCATCCTAGTCATTA
TATGCCACTCGCATTGATCCTCCCAAGGGGGGAGGGTTCAATGATACTTG
TTACGAAAACCTCTGATCAAACGCGCGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTATTTATTAAATTGCACATAACCGCGCAATCAGGCCCTGTC
ATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCGAGGGGGATCAAT
GATACTTATGTGTGTGTGTGTGTGTGTGTATTTATTAAATTGCACATGAC
CGCGCAATCAGGCCCTGTCATCCTAGTCATTCTATGCCACTCGCATTGAT
CCGATCAATGATACTTGTTACGAAAACCTCTGATCAGACGCGACAAAGGG
CACACACCCTCTCTACTTGTACAAATATTACTTGAGCCCTGAGCACCTTG
TGCTCCCCCCCCTGCTTCCTTGTTGCTCCTTAGGTTATCCGGGTTGGCAG
TTACTGAACCAACCCTTTCTTTTCTACATTTTTTTTGCTTGCCACCCATG
TCTCCCCCGTTTCCCGCACGGCGTCTACAGCTATTTTGCGGTTTCTTGCG
CTTTTTGTCCCCCTTCCGCCCTCCCCAATCCTATTCTCGTTCCCGTTATC
GTCGTCCCCGTTCCCATCTCCGCTACAGTCTTCGCTTCCGTCCCCGTTCC
CGTCCCCGTTCCCATCCGGTGTTCGTCTACGGGTCCCCACCCCCGTCCCC
GTCCCCGTTCCCGCCCCGTCCCCGCTCCCGTCCCCGTTCCCGTCCTGCGC
TCCTTCGTTCACTTCCACCCCTGTTCCCGCTCCCGCTCCGTCCCCGTTAC
CGTCTCCGTTCCCACCCCCGACTCCAATCCCGCCCCCGACCCCGTTCGCT
CCTTCCTCCCCCTCGGATCCGGTTACCCCCCCGGTACGATGCGCTTGTAC
CGACGCCGGGCCTTGCGAATGGGGCCGTCGGGTGCTCGCAAGCGCCACCC
CCTGTCTGCAGAGATGGTGACGCGTGCGGAATGAGAGTGTTTGCTGTAAA
TCAAAAGAGAATCGCCGCCGCAGACGTGCTACTTCTGTCCCTTCCGCCAG
ATGTTGGGACTCATTGGAGTATGTCTCCGACCTGTGCTGTACCCGTCTGA
TGGCGAGCTCCTTGATGAGGGCATGCACGTCTGAGCCAACGTCACCACAT
GTCGACATAGCGAGAGGAAGGAGGGAGTAGGTAGCGGGGAACGAGCCCCG
AGACTTGTTTTTCTTCCGCTCGACTGCGTCGGCGAGGTATTTTCCTACAT
GACGTGCTGCATTCCCCAGATTGGAGCCGGCGCAAGGGTTGACGATTGTA
ATGTTGAATAGAAGCGCCTTATTCTTGAGTCGAGGGTGGTTGTCGAAGAG
TGCATACGTAACGGGTTCAGTCTTCCGTTTTGTTCGCTAGCTCTCTGTCG
GAAGGGCCATGTATCTTCAACCACAAACTGGACTTTACTCTCACGAAGGG
ATCGAGCCAGTGCCTGGTGGAGCACCCGATTGGGTGAGAGAGCTCCATCC
CGTCTTTGAGCAAGATATGGCGTGGAGGCGGGTGGTTTCCTGCCGGCAAC
CATTGTCGTGACACATCCCACCAAGTGTGTGTGTGTTTGTGTGCGTGTTT
GTGTGCGTGTTTGTGTGTATTTATTAAATTGCACATAACCGCGCAATCCG
GCCTTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCAAGGG
GGGATCAATGATACTTGTTACGAAAACCTCTGATCAAACGCGACAAAAAG
GACACACTCTCTCTACTTGTACAAATCTTACTTGAGCCCTGAGCACCTTG
TGCTCCCCCCCCTGCTTCGTGAGTGTGTGTGTTTGTGCGTGTGTGTTTGT
GTGTGTGTGTTTGTGTGTGTGTATGTGTGCGTGTTTGTGTTTAGTATCAA
GTATTTGTGTTTGTGTATGTATTTTTTTCCAGTCCTTCAGCTTCAGTACT
TTTTTAAAAATATTTTTTTGAATACAGCAACCGTCTGTCTCTTCTTTGAA
ATAATCAGGCCTGGTGTAGACGCGCGTAGAGGGTTCGTTCCTTCGTCGCC
TCCCTGAGATACCTGTCAATAAATGGACGTCGGCGCGGAAATCGGGAGGA
ATCCCGCAAGTAAGCACCAGATTCAGCCTGAGTATGGAGAATGAGCAGGC
TGACGCGGGACGGAACGGCCGAACCCGTCTCGCGAGACCAATTTCTCAGG
CGCGAACGGGGGCAGGGAAATTTCCATTTTCCCTGTTCAGCTGACCACAA
GCAGGATTGGCAACCTTACCCGATTGAACCATGCTATGCTATGTGTGATG
ACCATACATACATACATACGTACATACATCGTATCAATTACACCTATTCT
TTAATAGTAAACCTATTACTGCGTGTGGGGGAAAAATATATAGTCTCGGC
GGTAGGTCCCGTCGAAGGTGTTTTTTAAATACAACAGAACAGAGATGAAA
AAACAGAAGAAAAAAAAACAGAAAAAAAAAACACAAACGGCGCACGATTT
TTTAACATTTGTTGACGCAACGAAAGAAAAATGTGAAAAAAACGTGCAAC
TCCCTCCTTCTTCTCTGAATATTTCTCCGTGGCCACGACAGGTTCGAGAA
CTTTCGGAGGAGAAGCTCTCAAGGTTGTTCGAGATGGAGAAGGCCTCTTT
CCCTGAGGACGAGGCTGGGACACCCGATAAAATGCGTTTTCGCTGTGCTA
AGGCGAAAAGTTTTTTCCTGGAGGCCAGCCTGTCATCATCGGTT GTAAGT
TGACGCAAGCGATGACCCCAAAACCAAACTGCTGCTGCCCCCCTCACATA
CTCTAGTGCAGTACATCCTCAGAAAGGTACATTAATTAGTGTTGTTGTCG
TACTAGGTACATTGATCAGTGTTGTTATTGCAGCCGCGGGTGTGGGGGGA
GCGAAGAGCGACATTTTTTACTGTCTGAACACCCTGAAAAGCAGCACGCG
AAAAGGGAAGTTTGGATAAATGCAGTACCAGGAACAACGGTATATTATGC
GGTAGGAAACGCTTTTAGAAGGCGCCAAAATTGAGGCGCTGATACTTTCA
ACATGCCCACTTCATACCAATAGTGGGTGTGGGAAAGAGAGGCGTATATT
AATTGGTCCATGGTGACCTGCTAAGCACTCGTTCGGAACTACCTTGAGGT
TCGCTGGCTCTGTGCCGGCGGATTCTCGGCGGTGAACGCCATCGGTACGC
AATTGCGTGACCCGATAAACTCGGGACTAATCCGATGGCGTATGGCGGTT
TTAAATAAATAAATGGACGCCGCCGTGGAACTCGGGAGGAATCCCGTAAG
TAAGCACCAGATTCAGCCTGAGTATGGATGCTGAGCAGGCTGACGCGGGA
CGGGACTGCCGAACCCGTCTCGCGAGACCAAGTTCTCAGGCACGAACGCG
GACAGGGGAATTTCATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGC
AACCTTACCCGGTTGATCCATACTCTTGCTATATGTGTGACCACATGGTC
GTCATATATAGCAAGATCAGGATCAACCGGGTAAGGTTGCCAATCGTGCT
CGTGGTCAGCTGAACAAGGAAAATTCATATTTCCCTGTCCCCGTTCCACG
TCAGCCTGCGCACCTCTATACTCAGGCTGAATCTGGTGCTTACTTACGGG
GTTCCTCCCGAGTTCCGCTGCGGCGTCTATTTATTTAATTCAACCGCCAT
ACGCCATCGGGTCAGTCCCGCTTTTATCGGGTCACGCAATTGCGTACCGA
TAGCGTTCACTACCGATATTCAGCCGGCACAGGGCCAGTAAACCTCAAGG
TAGTTCCAAACTGCTGCTGCCTTGGCAGGTCGCTATGGACCAATTAATAT
GCGCCTCTCTTCCCACACCCACTACTGGTATGAAGGGGGCATGTTGAAAG
TACCTGCGTGTATACCCTTATGATTCCGCGCCACATGAGGGCATATATGT
ATGGTCACACATATTGTACATAGCAAGAGTATGGATCAACCGGGTAAGGT
TGTCAATGTTGGACGTGGTCAGCTGATCAGGGAAAATGGCGTACTCCTTG
AGCACGGTCTTTTAACTGGTGAACTCCTTGAGCACGGTCTTTTGATTGGC
GGAAAGGACATATTACCTTGAGCACGGTCTTTTGATTGGCGGAAAGGACA
TACTACTCTACCCCTATTGGAAGTGAAAGCCAGTACATGTTCGCTCCAAA
AACAACACAGAGTAGGGTATACGCTGATATTTGAGATTAAGAAAATGTAG
TATAGCTGTCGCTACGAACTCGCGTTCGATGATATTTGTAACTATCGTCA
GCTGTGTGCGTTGGTGTGTGTGTGTGTTTGATCCCATATATTCTGGCGCC
AGTCTACGCCTTTCGGTGTGGTATGTTCGACGTATCAGCCGGGGTTTGAA
AAGAAGAAAACAAAAACAATGCTAAGACATGTTTTCGTTTTTGAAACCGA
ACCAATGACTGTCGCGCCGTCCCACACGACGATGAAGAACTTCTACCCTC
GATACCGGTCACTATCCCAACCGCTGTCTAGTTTATACCGCGAACCGCCT
GGGTCTAACCTCCTCTACGCGCCTTGCTCTGTGTTTTTGTTTTTTGTTTT
TGTAAAAGAAATGTTCCCTATTTTTTTGTTTTTCTTTCCCCTCTGTTAGG
TACAAAAAGTCAAAAGTGCGTTGCAGCATGTAGTACTGGCACCGTAGCGT
AGTGGCCCAGTAGGGACGTTTTATAATCCTCTAGAAATGAGTTCAAATCC
CCTTCTTTTTTTTTTTAAAGGAATGTTCGCTCTCCTAAAAACACGTGTGA
ACGGAGCTCGCTATCGCTCGCCGGAAGGATCTCTGTAAGCTAGACGGACC
CCACCGCGGCGTGAACGGTGCTCGCTGTCGCTCGCCGGAAGGATCTGTGT
AGGCTAGGCGGACCCCACTGCTGCGGCGTGGACGGTGCTCGCTGTCGCTC
GCCGGAAGGATCTGTGTAGGCTAGGCGGACCCCACTGCTGCGGCGTAGAC
GGAGCTCGCTATCTCTCGCCGGAAGGATCTCTGTAAGCTAGATATACCCC
ACCGTGGCGTGGACGGTGCTCGCTGTCGCTCGCCGAAAGGATCTGGCTAG
GCGGGACGGAGCTCGCTATCGCTCGCCGGAAGGATATCTGGCGCCAGAAT
AGATGGGAAGGACTGTACGTACAGTAGTATTCAAGGATATGATTGGCCAG
TAATTGCACCGCCGCGGTCGGCGACGGCGGACGTTCTTTTGCGTACTCTT
TTTTTTTCCCATCGTAGATTAGCCATTGGTCGATGAGTTGTAAGAGTGCT
GAACTTGCATCGCAATAAAAAGTCGTAAGGCGTGAACCGGGGAGAGATGG
GAAGATCCTTAGTCTAGCGACCACAGGCAGGATGGTAATGATGAGGTCCA
TCGGCTATAAGTGAGATTAAAGAAGAAAAAAAAAGTACGAACAGTGTAGT
AGTTTTTTTTTTTTCACCATGTCCCCTCGGAATGTTTGATATTTTTTGGG
GGGGGAGGGGGGATTTGGAAAGAGAGCTACGAGTGCAATACATATACCCC
TTACTAACCAGAGCGATAGGTTAAAAGGTACACACGCCCAGCAACCGCGA
TGACCGGGTCCACCCACAAAATCAAATACTAATAAAGCCATCTTTTATGG
GCATCGGATTTGGATCTGGAATATTATTGGATTTGGTGCTTTTCGCGGAT
CGTATAATTGCGGAGCCCAAATCCAATAGGTCTATTTTGTGGGACATGGA
GGTTTGCAACGATTTGAACGGCGTGTGTGCATTCTTCTAGCCGTCTGTTT
TCAAAATACATGAATGCATCGCACGCGCCTCGCCAACAGGTAGCAGCACG
GCAACTTGAGAGTGGACTCTCGTACATAGAGGGATCATCGCCATCGTAGC
TGAGTCTCTGTATTTCGCGAAGAACGATAGATTACAACAACACAACACTC
GTCCTTCAGGTTTAAACCAAATACACGTCTTGTACTGGACTGTCTGCACA
GCAGGCCAGTATGGTCTACTGTATTACAGTATAGTACAGTCTACTGTAGT
ACAGTACAGTACGTTGTGTCTGTGCTGCTTGGAGTCATCTCGAACCCAAA
TCATACACATCGCATTTTTAGCAGAATTGGCAACAACTTTGACTGCCCTT
CAGCACTACAGGTAGACACTGTCTCCATGCCACCTCCCTCGCAGCCAATG
AGAACCACTTTTGGTGCTTTGCCAGCTGCACAAGCTCCAAGATCTCGTAC
GGGATGCGAAAATGTCTGCGAAACTTTCGTGGGTGGAATCGAGAGTACCA
GCTCTGGAGTCGCGTTGTTCCAGCTCTGTTTTTTTAGCATTAGATCATCT
GGAGAAATCCGTTCGTGGGTGGAATCGCCAAGTACGCTTGACTCGGGAAT
CATCGCCATCCTCGCTCTCTTACCTCTTAGACGTCTCCATGTAATACTAT
GTCCTCTAGCCCGTCCAAAATCAGAGCCTACTCGGCCAAGGTCCGGGCTC
ATCGCCGTTTCTCGTAGGTCAAGATCACAACGAGAGCTACAGCGAGCGCT
CCCCAGAAGGCGTCATCGCGATCGTCCGACGCCATGAGATCGATCGACGT
GTTGTGTAGATGCTTGAAGTGCTGTGTGCCGAGGACAGCCTTCTCTGCTT
TGATGGGAGCTCAACGTGTGCTTGGTTTACAGCTATGCTTGATGGAGACT
TCGTACTTTCAAAGGCACACGCCTACAAGTCAAATCGAAAACAGCAAATA
CGATTGTCTTCGACTCCATCGTATTTGGCTTCCAAATACGATGGAGCCGA
GGGGGAAAAAAAAAATATAGGATTTGAGATTATCGTATTTGGCCAAATAC
TACCCCATAAAATAGGCGTATTGGATTTGAGGTCCCCAAATTCCCAGATC
CAATTCCCATATACCCCAAATACGACGCCCATAAAAGATGGCTAAATATC
AAGTAACACTTTTTGTTTTTGTTTTTTTCTAGATTTCGTACCCACCTCAC
GCGTGCTACGAATTTTACTTTTTTCAATTATGGGGCTTATGTATTTTATT
TCGTTTTTAAAGAAAAATCTGAATGCACCTAGACCTTCTGAGCATCCCCC
AGTCAGGGGGAAAAATGTCAAAACGTTTACCAGGTAGGTGGGATTAATAG
CTGAAAATACAAAACCTCTTCATGGCATTTAAACGGGTTCCCCGATGGTA
ATAACATTGGGTCAACAGTATAATGTCGGGGAGAAACCCACCGTCATACT
GTACACTTACATTAATCGCCATGCAGGGACACCAACAAAAGGGAAGACAA
AACGATACATCATCAAACAATAAAGACAAATACAATACAATAATTGAAAC
ACGCACAGCAGAGGACCATGATGATGAGAATCTTCATAATCCAGAAACAG
TACAAGACGCCGTTATTCACCTGGAAGTAGACGAAGAGCAGTAGGCGATC
ACACAAGGCGGTAAGAGGCAAGCGGAAAGAACTGGGTTCCTCGCACCCTC
GTTTTCTTTGTTTCCTGTTTTTAAAACTGTGGTTCCATATTTATTTTACC
TCAGTTACTTTTGTTCATTCTATTTTATTTTACCTTATCTCTTACTGCGG
GTATTCATTATCTTTTGTTGCTGTTTTATTAGTTACGTGCACCTTTCCTC
TTGTTCATTTTTTATTTTTAGTGTACCTATATTTAATTCCTGTTGATATA
CTTTTAAAAGCCATCGTTTGATTATCATCCCTGGTATTTTGTCCAACCGT
TTGTTTTGTTTTGTTTTGTACTATAATTTATTATTCACTCATATTTCATA
GTTTTCAACAAGTCGTTTCAGAAACCGACTTCAGTTCAGTTCCATGCAAG
GTATTGTCTTTTATTTCATCCGTTTTTTGCCATGTACCGTACCGTACCGT
ACCGTACGCTACAGGGCAAAAATGAGGGCGACGGCGGCGAGATGGCCGGT
TACGTCTGCGGCACCTGCTGCCAGGGGTCAGAACTTACACACGAGTCCAT
GACCGAACACGACGCCAGCGGTCAGACGCTCTGCATTCACTCTGTGGTGG
TCAGCGACAAATTTCGCCGCCGAGGTTATGCTACGGCGCTACTCAAG GTA
CTTGATGTACAGAATTGTTACAGTTTGTCTTTTAGTACAAGTCTTACCAT
AAGTACGATAGTCTGGATTACTTCAGCGCTCTACTCTAAACAACAGTGTC
GGCGTATTGCGCGGGCTTGTTAAACATACTTCTGCGGTAATAGCAGTCAA
GACTACACCATACACCATACACCGTACACCATACACCATACACCATATAC
ACCGTACACCGTACACCATACACCGTACACCATACACCATACACCATACA
CCGTACACCATACACCATATACACCGTACACCGTACACCATACACCATAC
ACCATATACACCGTACACCGTACACCGTACACCATACACCATGTAATCAT
GTAATCACGTCCCGTCGAGATAGGTTTTAGAGCAGTGGTTGAACCTCTTC
GCTTGACTTGAAATAAGCACCACCGTTAGTACCACTGTTAGTGCAAGGAT
ATAATTTCGGAAAGACTCAGACGAGCCATGACATAACTTTTTTGCTCACA
TGGGGGATCCAGTCATTGTCATGGTCATGGTAAACTGTATGTATCTCGAA
AAAAATATGTTGGGAGCAAACCCCGCCGAGTCAGCATTTGCCAAGTGTGT
CTGCTGGTTACATGTAACTATTGCACAGCGGTTAAAGGTCATGTGGTCGT
GTGATCTCTTTTGTGGTGTGGTCTCTTTTGTCGTATAGTCAAGGGACGAG
GGAACGTTAGTCGAATGGACTGCTCTTCGTTATGTTCTGACTGTGTGCGC
CTACTGCTCTCCTGTATTGTATTATATGTTGTGGTATACTGCAGGCGTAC
ATAGAGAGGATTGCCGTTACTCAGCCGGGGGTGAAGCGCATGTGCCTGAT
CGCGAAATCCGATCTGCTGGGTTTGTACGCCTCCTGTGGGTTTTCTACGA
AAGGGCTCAGCCCGATAGTGCTCGGAAAGGATCCATGGTTCGAGATGTGC
ATCGAGTTGGACAGCACTGAGCCTCGACTGCTGAGATTTCTTCAG GTCTG
AACGGGTTTGCGATACGTTACAAAAATATGTCGCACGATGGAAGTGCTCA
GCGTAGTCCAATGATCTTGTTAATATAAATAATTAACGCGCGGCTGCCAA
AGTGACGCCGGTCGTTCCATCGAACATAATACAACGCACTTTTGCACGAT
TTTCTTCGAGCGCTAATAGTTACTTGTAGGGGCGTGACGCTATAGACTAT
AACCCTTATGCGAGTCTGAATGTTGTGGCACGCATGCTTGTGGTACTCAG
ACGTTTTGTGATCGGACACTAGCCCGAGATTCCGGCTTGCTGGTGGCACC
GACTGCCCCGATCGTCCTATCACGCGGCGGTTCGGATTAGGGGAGGGGGA
GGGTGTGTCGTGTCCCCTGTCCTGGGGGACGAAATAGTTCATCCACCAGG
GGGAGAGCGTGCCGTGTCCCCTGTCCTGGGGGACGAAATAGTTCACCCAC
GAGGGGGAGGGCGTGCCGTGTCCCCTGTCCGGGGGGACGAAATAGTTCTC
CCACCCAGCCCCTTTCTGTCGCCTTCTCCCGCTCTCTGTATTTCCTAACT
GCTTTTTTTCGCCTATTTTTTCCGACCCAAAAAGGTGGATGCCTTCACCG
AGAGAGCGTTCAGCGGCAATCCGGCGGCAGTATTTTTCACCCACGCAAGT
GGGGACGAGGGCTGGATGCAGAAG GTGATACACATAGATGCATACACTTC
GTAGCCCTTTCACGCGTGCAAACGAAGCACCAAGTGTACTGTTTTCTGTT
TTATGGCGTGTCGGTGTCTCGGTCGGCGACAACCCCTGCGCGTCTGCTAA
TGTACGGTGTACGCGCGGCAGGGGCATGTGCTTTGATATGACTGCAGCCT
TATTTCCCAGGGTTTTCCAAGATGAACACTTGCATGCTCAAAGAAGAACC
GATTCCGCTTGCAATACCGCTCTCAACGATGGTGATTTATCGCCCGTCAC
AGGTAGCGATAGAGATGAACCTCTCCGAAACATGCTTCCTGGAGTTGCTA
CCCGGCGGGAGCCCCGGGGGGACAGGTACCGCACGTGATTCGTCTGTTTA
A GGGCACAAGGACAGCCGCAGTACTTGATTGCCCGTTTGATGACACTTCT
GTTTGGTCGGTTTAAGGATACAAGAGCAAAGTACTTTCATGCTCAAAGTA
ATATATATATAATATACCAGGTATATCTATAGGC back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1012:34296..55979-
>mRNA_A-nodosum_M_contig1012.3.1 ID=mRNA_A-nodosum_M_contig1012.3.1|Name=mRNA_A-nodosum_M_contig1012.3.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=798bp|location=Sequence derived from alignment at A-nodosum_M_contig1012:34296..55979- (Ascophyllum nodosum dioecious) ATGGGGGATTCGAACGAAGCATTGCGCTTCAGCCCCGAAGTAACTCGTCT CCTGCGGAGCAAAGGCCTTGAGGTTCGAGAACTTTCGGAGGAGAAGCTCT CAAGGTTGTTCGAGATGGAGAAGGCCTCTTTCCCTGAGGACGAGGCTGGG ACACCCGATAAAATGCGTTTTCGCTGTGCTAAGGCGAAAAGTTTTTTCCT GGAGGCCAGCCTGTCATCATCGGTTGGCAAAAATGAGGGCGACGGCGGCG AGATGGCCGGTTACGTCTGCGGCACCTGCTGCCAGGGGTCAGAACTTACA CACGAGTCCATGACCGAACACGACGCCAGCGGTCAGACGCTCTGCATTCA CTCTGTGGTGGTCAGCGACAAATTTCGCCGCCGAGGTTATGCTACGGCGC TACTCAAGGCGTACATAGAGAGGATTGCCGTTACTCAGCCGGGGGTGAAG CGCATGTGCCTGATCGCGAAATCCGATCTGCTGGGTTTGTACGCCTCCTG TGGGTTTTCTACGAAAGGGCTCAGCCCGATAGTGCTCGGAAAGGATCCAT GGTTCGAGATGTGCATCGAGTTGGACAGCACTGAGCCTCGACTGCTGAGA TTTCTTCAGGTGGATGCCTTCACCGAGAGAGCGTTCAGCGGCAATCCGGC GGCAGTATTTTTCACCCACGCAAGTGGGGACGAGGGCTGGATGCAGAAGG TAGCGATAGAGATGAACCTCTCCGAAACATGCTTCCTGGAGTTGCTACCC GGCGGGAGCCCCGGGGGGACAGGTACCGCACGTGATTCGTCTGTTTAA back to top