Homology
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
D7G0P1_ECTSI (Metacapase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G0P1_ECTSI)
HSP 1 Score: 453 bits (1165), Expect = 1.060e-149
Identity = 224/298 (75.17%), Postives = 253/298 (84.90%), Query Frame = 1
Query: 58 TGGAAPENSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDGSGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMK 951
TG APE++E YA+KV++AI+ADVRMFSGC DSQTSADV+DVSKFGLP++DG+GGACTNA+LLTL++ +SWL +LKGMQ LK KRF+QVPQLS SR IDVND F L N G G+ K LLIGINYIGQQGEL GCHNDV +M++YI THGY MDP C V+MDD H PDH+GV++GFRWL A A AGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDY+ +GQITDD ILKELVMVLPEGVTLTVVMDCCHSGSILDLPY +KADEGTIS+VEAGE SS + NP FD K
Sbjct: 40 TGTRAPEDAEAYAKKVAEAIKADVRMFSGCMDSQTSADVKDVSKFGLPDADGAGGACTNAMLLTLSDEHSDSWLGLLKGMQSVLKTKRFSQVPQLSTSREIDVNDKFSLRNTAGGGSTKCLLIGINYIGQQGELAGCHNDVDMMKKYITTHGYSMDPADCKVLMDDNVHGMPDHKGVIEGFRWLTADAKAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYKSSGQITDDEILKELVMVLPEGVTLTVVMDCCHSGSILDLPYALKADEGTISAVEAGEVSSTISANPGFDFAK 337
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
D8LJ59_ECTSI (Metacaspase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LJ59_ECTSI)
HSP 1 Score: 355 bits (910), Expect = 8.130e-112
Identity = 173/295 (58.64%), Postives = 225/295 (76.27%), Query Frame = 1
Query: 85 EEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDGSGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAAR 969
EE+ +++ I+ADVRMFSGC+D QTSADV DV+KFGLP++ G+GGACTNA+L + +++ +SW+S+LKGM+ TLK K+F Q+PQL+ S+ +D++ PF LS + SG K+LLIGINY G +GEL+GCHNDV MREYI THGY D + ++ DDG+H P + +L +WLV GA AGDSLFMHYSGHGGSVKD +GDE DN DET++PVDY ++GQI DD ILKELVM LPEGV L+VVMDCCHSGSILDLPY+ A +G + VEAG S ++ NF++ K + A+
Sbjct: 58 EEFDAEIAGGIRADVRMFSGCEDVQTSADVHDVAKFGLPDATGAGGACTNAVLANVKDSKPDSWMSLLKGMRSTLKEKKFKQIPQLATSKKMDIHSPFDLSGGDESGNHKALLIGINYTGGKGELKGCHNDVKQMREYITTHGYPADGANLKIVSDDGEHEEPSKENILKAIKWLVHGAKAGDSLFMHYSGHGGSVKDNTGDEEDNKDETMIPVDYMKSGQIKDDEILKELVMPLPEGVVLSVVMDCCHSGSILDLPYSFDAKDGALELVEAG-GSGVMQKKKNFNVKKKMHKAQ 351
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A836C803_9STRA (Metacapase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C803_9STRA)
HSP 1 Score: 354 bits (908), Expect = 3.240e-111
Identity = 181/326 (55.52%), Postives = 231/326 (70.86%), Query Frame = 1
Query: 64 GAAPENSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDGSGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAARDIYAMVKSGDMDIMKIGKIAKVAL 1041
GA EYA+K A+ A+VRM SGCQD+QTSADVQDVS FGLP+S+G+GGACTNALLL+ A N+W S+L+ MQ LK K++TQ+PQLS SR +D++ PF + P+ K+LLIGINY+GQQGEL+GCHNDV M+EYI GY PD+ +V+MDDGKH P + F WLV GA GDSLFMHYSGHGGS+ D +EAD DET+VP+DY+ GQI DD + K LV LP GV +T+VMDCCHSGSI DLPY I +++VEAGE SL+ N NF + K+++ A D+Y M ++G+ D+M +G+ A AL
Sbjct: 50 GAGTRGDPEYAKKAEAAVCANVRMISGCQDAQTSADVQDVSSFGLPDSEGAGGACTNALLLSAAQGS-NTWTSLLQKMQAVLKTKKYTQIPQLSTSRDLDLSAPFDIMLPDSKN-HKALLIGINYVGQQGELKGCHNDVEAMKEYIIEQGYTDSPDTMMVLMDDGKHKDPTAANLAKAFAWLVDGAQEGDSLFMHYSGHGGSMPDDESEEADAKDETMVPLDYQTVGQIRDDDLYKMLVAPLPVGVEMTIVMDCCHSGSIFDLPYNIAMTGDLVAAVEAGEQPSLVA-NENFSVSKVLKVAMDLYKMQQAGNTDMMAMGQTAAKAL 372
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A7S0YNU0_9CRYP (Hypothetical protein n=1 Tax=Hemiselmis tepida TaxID=464990 RepID=A0A7S0YNU0_9CRYP)
HSP 1 Score: 332 bits (850), Expect = 1.990e-102
Identity = 164/310 (52.90%), Postives = 218/310 (70.32%), Query Frame = 1
Query: 79 NSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG---SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYI-ATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAARDIYAMVKSG 996
N +E+A + + A+ ADVRMFSGC+D QTSADV DVS FGLP + G +GGACTN+++L+L +W +L+ M+ L+ K FTQ+PQLS+SR + +N F + NP G+G K+L IGINY+GQQGELRGCHNDV +M+ YI G+ DP + V+MDDG+H +P H +L GF+WLV GA +GDSLFMHYSGHGGS+ D +GDE+D DET+ PVDY GQI DDVI ++LV +LP+G LTVVMDCCHSGSILDLPY +A + + + +G + NP FD K ++ A ++ M + G
Sbjct: 68 NPQEFASRAAQAVAADVRMFSGCKDEQTSADVYDVSSFGLPANTGPGGAGGACTNSIVLSLHKQPECTWTQLLQNMRQVLREKNFTQIPQLSSSRSLSLNSQFTVKNPAGNGRTKALYIGINYVGQQGELRGCHNDVEMMKTYIEGKQGF--DPSNAKVLMDDGRHESPSHLNILQGFQWLVNGAQSGDSLFMHYSGHGGSMPDDNGDESDGRDETMCPVDYASAGQIRDDVIYEQLVAMLPDGCQLTVVMDCCHSGSILDLPYNFEASDNNLQAASSGAMPQSMP-NPGFDFSKALKVAVKLFKMYQGG 374
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A7S1H0Z8_HEMAN (Hypothetical protein n=3 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S1H0Z8_HEMAN)
HSP 1 Score: 317 bits (812), Expect = 3.030e-97
Identity = 160/310 (51.61%), Postives = 213/310 (68.71%), Query Frame = 1
Query: 79 NSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG---SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIAT-HGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAARDIYAMVKSG 996
N EE+A + + A+ ADVRMFSGC+D QTSADV DVS FGLP G +GGACTN+++L+L +W +L+ M+ L K F+Q+PQLS+SR + +N F + NP G+G K+L IGINY+GQQGELRGCHNDV +MR+YI G+ DP + V+MD+G P +L GF+WL A +GDSLFMHYSGHGGS++D +GDE+D MDET+ PVDY R GQI DD+I ++LV + PEG LTVVMDCCHSGSILDLPY +A + +++ +G L N +FD K ++ ++ M + G
Sbjct: 39 NPEEFASRAAQAVAADVRMFSGCKDEQTSADVYDVSSFGLPADSGPGGAGGACTNSMVLSLHKQPECNWTQLLQNMRGVLSEKGFSQIPQLSSSRSMALNSQFSVMNPSGNGRSKALYIGINYVGQQGELRGCHNDVEMMRQYIEEKQGF--DPSNAKVLMDNGSDEEPTAANILQGFQWLTEDAESGDSLFMHYSGHGGSMRDDNGDESDGMDETMCPVDYARAGQIRDDIIYEQLVSMCPEGCQLTVVMDCCHSGSILDLPYNFEASDSNLAAAASGSMPQSLP-NGSFDFNKALKVGMKLFKMYQGG 345
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
L1I610_GUITC (Uncharacterized protein n=2 Tax=Guillardia theta TaxID=55529 RepID=L1I610_GUITC)
HSP 1 Score: 306 bits (784), Expect = 1.210e-92
Identity = 157/295 (53.22%), Postives = 210/295 (71.19%), Query Frame = 1
Query: 79 NSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG---SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKM 954
N+ ++ +K + A+ A+V MFSGC+D QTSADV D S FGLP G +GGACTN+++L L+ N +W+ +L M+ LK K FTQVPQLS+S+ I ++ F L+ S + K+LLIGINY+GQ+GELRGCHNDV+ M++YI +GY DP S V+MDDG + P +LD +WLV A +GD LFMHYSGHGGS+KD +GDEAD MDET+VPVDY TGQI DD+I +ELV LP+GV LTV+MDCCHSG+ILDLP++ A++ + +G + L +N NF+ K+
Sbjct: 83 NATDFKQKAAQALPAEVHMFSGCRDEQTSADVYDTSSFGLPADSGPGGAGGACTNSIMLALSENPNPTWIDLLNRMRTILKEKGFTQVPQLSSSKEISLDGNFQLA--AASSSTKALLIGINYVGQKGELRGCHNDVLQMKDYILKNGY--DPASMRVLMDDGSNMNPTRANILDSIKWLVKDAKSGDCLFMHYSGHGGSMKDDNGDEADGMDETMVPVDYTSTGQIRDDIIFQELVAPLPQGVKLTVIMDCCHSGTILDLPFSFTANDQNTQNYTSGMT---LPMNGNFNWKKI 370
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A7S0EWY7_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0EWY7_9CRYP)
HSP 1 Score: 305 bits (782), Expect = 1.970e-92
Identity = 157/295 (53.22%), Postives = 208/295 (70.51%), Query Frame = 1
Query: 79 NSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG---SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKM 954
N E+ +K + A+ ++V MFSGC+D QTSADV D S FGLP G +GGACTN+++L L N +W+ +L M+ LK K FTQVPQLS+S+ + ++ F L+ S + K+LLIGINY+GQQGELRGCHNDV+ M++YIA +GY DP S V+MDDG + P+ +LD +WLV A +GD LFMHYSGHGGS+KD +GDEAD MDET+VPVDY GQI DD+I +ELV LP+GV L V+MDCCHSG+ILDLP++ KA++ + G + L +N NF+ K+
Sbjct: 83 NPTEFKQKAAQALPSEVHMFSGCRDEQTSADVYDTSSFGLPADSGPGGAGGACTNSIMLALTENPNPTWIELLNRMRTILKEKGFTQVPQLSSSKEVAMDSTFQLA--AASSSTKALLIGINYVGQQGELRGCHNDVLQMKDYIAKNGY--DPASMRVLMDDGSNMVPNRANILDSIKWLVKDAKSGDCLFMHYSGHGGSMKDDNGDEADGMDETMVPVDYASAGQIRDDLIFQELVAPLPQGVKLIVIMDCCHSGTILDLPFSFKANDQNTQNYTNGMT---LPMNGNFNWQKI 370
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
D8LTK1_ECTSI (Metacapase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LTK1_ECTSI)
HSP 1 Score: 328 bits (840), Expect = 1.360e-91
Identity = 160/297 (53.87%), Postives = 219/297 (73.74%), Query Frame = 1
Query: 85 EEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG-SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQG-ELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAAR 969
+++ +++D I+ADVRMFSGCQD QTSADV DV+KFG+P SDG +GGACTNALL+ + ++E +SW+S+LKGM+ TL K+F Q+PQ++ S+ +D++ PF L+ EG G ++LLIGINY+G + EL+GCHNDV M++YI HGY + + ++MDDG+H P +++ W V GA GDSLFMHYSGHGGSV+D +E D DET++PVDYR +G I DD +L ELV+ LPEGV L+VVMDCCHSGSILDLPYT ADEG + V+ G S+++ F++ KM +A +
Sbjct: 37 DDFDTEIADGIKADVRMFSGCQDQQTSADVHDVTKFGVPKSDGGAGGACTNALLVNVKDDEPDSWMSLLKGMRTTLSTKKFKQIPQMATSKKLDIHSPFSLAGGEG-GKHRALLIGINYVGDKSAELKGCHNDVAQMKDYIVEHGYSGEGEDLKIVMDDGEHTAPTRANIIEAIEWFVEGAAPGDSLFMHYSGHGGSVEDNDNNEKDKRDETMIPVDYRVSGHIKDDELLAELVLPLPEGVVLSVVMDCCHSGSILDLPYTFDADEGALQLVDDG-GSAVVHKKAKFNMSKMKKAQK 331
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A7S4NNH9_9EUKA (Hypothetical protein n=1 Tax=Paramoeba aestuarina TaxID=180227 RepID=A0A7S4NNH9_9EUKA)
HSP 1 Score: 301 bits (770), Expect = 9.560e-91
Identity = 150/301 (49.83%), Postives = 212/301 (70.43%), Query Frame = 1
Query: 91 YAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNSDG---SGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAARDIYAM 984
+ ++ A+ +DVRMFSGC+D+QTSADV +++ FGLP + G +GGACTN+++L L NN SW+ +L M+ LK K ++Q+P+LSASR +D+N+ F L+NP G G KK+LLIGINYIGQ+GEL GC NDV M++Y+ G+ D ++ D+ A P ++ +++G WL GA AGDSLFMHYSGHGG + D GDE D DET+VPVDY+++GQ+ DD I K L+ LP V LTVVMDCCHSGSILDLP+ + D+ ++ + E G + S+L NP F+I +++ A+ +Y +
Sbjct: 42 FVQQCKKAVPSDVRMFSGCKDNQTSADVSNIASFGLPPASGPSGAGGACTNSMMLALENNPDVSWVQLLDDMRKILKQKGYSQIPELSASRDLDLNEKFTLNNPVGGGKKKALLIGINYIGQKGELSGCINDVARMKKYVEGQGF----DDIQILTDETS-AKPTYKNIMNGLLWLADGAAAGDSLFMHYSGHGGRLADQDGDEKDGYDETMVPVDYQKSGQMRDDDIFKALIAPLPADVHLTVVMDCCHSGSILDLPFMLIGDDASMEAFEGGAAMSMLA-NPGFNIQFVLKIAKQLYQL 336
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Match:
A0A7S4R0W6_9DINO (Hypothetical protein n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4R0W6_9DINO)
HSP 1 Score: 305 bits (780), Expect = 1.680e-90
Identity = 156/305 (51.15%), Postives = 205/305 (67.21%), Query Frame = 1
Query: 64 GAAPENSEEYAEKVSDAIQADVRMFSGCQDSQTSADVQDVSKFGLPNS---DGSGGACTNALLLTLANNEVNSWLSVLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGINYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQGVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDYRRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGTISSVEAGESSSLLGLNPNFDIMKMIRAAR 969
G P + E A K + + V MFSGC+DSQTSADV + + FGLP+ G+GGACTN+++ L+ + +W+S+L+ M+ L + +TQ+PQLS+SRP+D+N PF +SNPE SG ++LL+GINY+G ELRGCHNDV M Y+ HGY V+MDDG+H P + + + RWLV GA+AGDSLF HYSGHG SV+D GDEAD DE L PVDY G + DD + K LV LPEGVTLT V+DCCHSG+ILDLPY KAD+G+++SV G + + NPNFD K+ +
Sbjct: 181 GKGPSDRAERAAKAREVMPGTVIMFSGCKDSQTSADVSNTASFGLPSDAGPGGAGGACTNSMIKALSERDDYTWVSLLQAMRQILDGE-YTQIPQLSSSRPMDLNAPFTISNPEPSGNYRALLVGINYVGTSSELRGCHNDVETMSRYLEDHGYSQ--SGMKVLMDDGEHENPSREAMAEAMRWLVDGASAGDSLFFHYSGHGASVRDDDGDEADGKDECLCPVDYDSAGLMRDDEVFKLLVGPLPEGVTLTCVLDCCHSGTILDLPYMFKADDGSLASVADGTFNEMQE-NPNFDFGKIFEVIK 481
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1017.1.1 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 1.06e-149 / Id = 75.17 Expect = 8.13e-112 / Id = 58.64 Expect = 3.24e-111 / Id = 55.52 Expect = 1.99e-102 / Id = 52.90 Expect = 3.03e-97 / Id = 51.61 Expect = 1.21e-92 / Id = 53.22 Expect = 1.97e-92 / Id = 53.22 Expect = 1.36e-91 / Id = 53.87 Expect = 9.56e-91 / Id = 49.83 Expect = 1.68e-90 / Id = 51.15 Sequence D7G0P1_ECTSI D8LJ59_ECTSI A0A836C803_9STRA A0A7S0YNU0_9CRYP A0A7S1H0Z8_HEMAN L1I610_GUITC A0A7S0EWY7_9CRYP D8LTK1_ECTSI A0A7S4NNH9_9EUKA A0A7S4R0W6_9DINO
Pages
back to top
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig1017.1.1
>prot_A-nodosum_M_contig1017.1.1 ID=prot_A-nodosum_M_contig1017.1.1|Name=mRNA_A-nodosum_M_contig1017.1.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=305bp
MFSGCQDSQTSADVQDVSKFGLPNSDGSGGACTNALLLTLANNEVNSWLS VLKGMQHTLKAKRFTQVPQLSASRPIDVNDPFYLSNPEGSGAKKSLLIGI NYIGQQGELRGCHNDVMVMREYIATHGYRMDPDSCLVMMDDGKHATPDHQ GVLDGFRWLVAGATAGDSLFMHYSGHGGSVKDTSGDEADNMDETLVPVDY RRTGQITDDVILKELVMVLPEGVTLTVVMDCCHSGSILDLPYTIKADEGT ISSVEAGESSSLLGLNPNFDIMKMIRAARDIYAMVKSGDMDIMKIGKIAK VALS* back to top mRNA from alignment at A-nodosum_M_contig1017:68743..94831+
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1017.1.1 ID=mRNA_A-nodosum_M_contig1017.1.1|Name=mRNA_A-nodosum_M_contig1017.1.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=26089bp|location=Sequence derived from alignment at A-nodosum_M_contig1017:68743..94831+ (Ascophyllum nodosum dioecious)GCAAAAAGGGCCGCGAAGAAAGCGTTGTCGGATGCCTGCAAGAGCGACGA
TACGAAAACAGGCGGGGCGGCGCCAGAGAACTCCGAGGAATATGCCGAGA
AGGTGTCTGATGCTATCCAGGCAGACGTCCG GTACGTGCTTGACCTCGAT
TTCGACATGTGCTTATGCGTATGTAACGCGACGCTGCTTATACTCCGCAG
CTCTAGTCACGGTTGGGGCTAGATGGTTTGTTTGTTGTTGGTCAGTTTAG
CGGTCACTCTGTCGGGTCTCTTAAAGTTGTTGTACGTATTCCTTGCAAGA
TGGAATGCTACGTAACTAACAACTCTCTTCAGTCGGGGAACGACCGCCAA
CATTCCTTCAACAACGCGCATGACAGAACTAGAACTGTCCCGCTAATTCT
TCATGCTGAGCTGACTCCAAGCCGAAGAGAGAGTAAATCAAACCACCTTT
TCGTGGGAGAATTCCCCCTGGATGAGTGCCCCCTGAAAGGTGCATACAAT
CAGTTCTTTCACCAGCTGGAGCAGTAGAGCGAGCTATTACGAGCGGTAAC
GGCGAGGGCATTGAGCAATATCTGGAGTTTTCTCACATTCAGCGTATTGG
TTGCCAAGCTGATATACCAGTATGGAAGAAACAAAACAAAACACAACAGC
ATTCAGATTTTTCTTTAAACAATTCTTTAAACAACGTACAATAAAGTGGA
CAAAAAGAACAGATGATCAGAGAAGAACCGCGTGACACATCATCTTTCCT
GGGCGCTACGCAGGTCTTGGTCCCTCTTGTGCCCGTACAGGAGTACTTCG
GCTCAACCAGGCGCAATCGGTGTCGCTTCGGAGGTTCTACTCTTCACGAT
AACTTCTCAATTTTACGACAGTATTCATTCCATCTTGTAAACGTACCATA
GAAAATTTCGTCCGACCAACAGCCAGCAGTCCCTCGCGCTACAGACGGCT
TTTGACAACGATGCCCAGCATCACTCCTGAAGTACACCTTAACTGAGGGG
GACGATCTCATGGGATGATATCAACGAAGATTTCAAGAATGGACTGTGCG
TCAGGATACGTTTTTGCTGCTGGTATTATTACTCATGACGTTGAATCTTC
CTCTGCATGTACAGGTTACTCTAGTGCTGATGATACTGGTGGTGCTGTTG
CTGAGGCCACTGTTGGTGTGTCGCCCCACATGTTACTCCTCCTGGTTCTG
CTGCAGTCGCTGCTGTCTACTGCTTTCACGTCTACTGCTCCCACTACGGA
TGCTGCTACTGCGTGTTTCTCCGCGCGATGCCGCGCTTTTCCGGGCACAC
CACCAAGCGCAGCGATGCGTTCGGCGTGTCAAACCCCTTGGCCTCCTGAA
TACTGTACCTCCGTAATGGGCCCGCTTTTGTTGTTGTTGATTCACACATT
CAGCGTATTGTCCTTGCAACTGAAGAAACTACGGTGACACAACAAGTCAG
CCATAGACCTATCAAATGCCAATCCCGCTTGTGGTCACAAAGAGGTACGA
AGGTCAACGGGTCACATCATGGTGACAACCCGCTACTCAGACCAACAGGG
ATCCAAATCGCGACAAAAAGTTGGTGCGGCTCTACAAGCAATGGCACCGA
CCAATATCAAAACGGTTCATCAAACCTCCTTACTCCATATCGAGAGCAAC
CTCGATCGACTCGGAATGTTGTCGCCTACCCACGACCAGCGTTCTCAGCA
AAAAACCGGAAAATTACGCTCCAACCAGTTTTGATCAACAAGTCCAAGTT
TCTCAAGGCCACATTTTGTACAGAAATAAGGAAAATTGAAATACCGAGGT
CCATGGTGGTGGAGGCCTTTGAACTGGTGAAGCCGGCGCGCGAGCCAGCC
TCCAGCCGTCCAAAGCCCTGTGCATTCTTGAAAAACCCCACGAATCTTGC
CCGTTCGCCGCTCCTTGTGGTCCTCGTAGGAAGAAAAATGACCGTGGTCA
GACATCAGCTTTTCCTCGAAACCTCCCGGTTCAAGCCTGTGATTCTCGCG
CACGGGGTTCAGCCTCCCCTGGCTCGTCAACGATCGAGCTGCCCTCCGCC
TTCGCCGAATCTGGTGCGTACCCACCCGATAGTAGAGTACTACCAGGCTC
TCCGCGACAGTGCTCCTGCCTCTCGCGTGCCGCCACCTCCCGAAGGGCCC
CAAATTGGGGCTCGGGAAGAGGCGCGCACCTGGGAACACCATCATCCTCA
GCCAACCATACCGCCGCCGCGTCTCAACCGACAGGCTGAATCGCGAAGGC
AGCCAATTGGCTGCATCTCTTGAGGGTGAGCCCGGCCCTACACCCGCCGG
AAAGACCCTCCCACACTCATTCCCCGAAACCAGCAGGTTTCGGAGGGAGC
GGGCACGATTGAGCAATGTCGGTACGCAGCTGGCGTTTTATTCACACCGC
CTGTTACTCGGAACGAAGCCAGCGTCCGTTGCAAACCTCTTACCTGGTAT
GTATTTAAAGAAAAATCTGAACGCATCTAGACCCTCTGAGCATCCCCCAG
TCAGGGTGGAAAATGTCAAAACGTTTATGTGGGATCATAGGCTGCAAATA
TTGGTCAACAGTAATATACCAGGGAGAAACCCACCGTTATGCATATTGCA
GTACCTAATTAAATAGGTCAAATATAATATACAAAAGTAATATTGTCGTA
CAAAGGTTTATGGTCTAGAACACAAGAAACGTTACAATATTGTAATAGGT
GAAGAGAAATACATTTACGTTTTACGACTGTATCATATTTTCTTTCTCTG
GGTCTTTTTTTATTTTATTTTATTTTTCTGTACCTTATTTTGCCTTGGAG
AGTAAGACAGAGAAGGTACTGGATAGAGAGGTCTTGACGGTTTTTAATGT
GAAGACATTTTCTGGGTCTTGTGACCACGGAAATTCGTTTCCACGGAAAT
TCGTTTCTTTGCCTTGAAGAGGAAGACAGAGAAGGTACTGGATAGAGGTC
AGAACGGTTTTTAATGTGAAGACAACAACAAGTCAACAAGTCCGTAGGGA
CTTCCCACTAGACTACGTGTATAGCTCTAAAATTGTTGTTCCAGAGGCTG
CAAATACAAAACCTCTTACATGACATGTTAATGATTAATAGAGCTAGCTC
TACAGCTACAGTATCATACGATTAAAGTCTAACAGTACAGTACAGACAGT
ACGGTAGTAGTAATATACTCTAGTAGATTGCAGTTTACAGCGCAATTCCC
CCAAAATTGCGAATTTGCTGGGAATCCAGGTACACTTTGTGATGACTCAA
CAGACGACTGTCACTGTTCTCTCTGGTGTCCCTTCATACTCTATAAAGTC
ATTAAGAGAAGCTTCGAAGTTGTGGTGCTCGCTCGATATATACGATGGTT
GGTAAACTTCGAATGCGAGGCGAATAGCGTGGGTGCGCCTGGCGTACCGT
ACAAGGAATCCGGTCCTCGTCATAGACCACGTTCGACGAAGTGCAGTAAG
CCCGCTATCGCTCGCGGAGGAATCTCGTTAGCTGTTGATCGGGGTGGTTT
TGATGCACGCTCTGGTAATCGACTTTCTATTGGTTCCAATGAGATCATTT
GCGAATGATGCCTTACCAACTTTAATAGTGTAGTCGATAATCGTATCTGA
ACAGGATCACACATCAGATTTTTCTTTTCCTTTAAACAGTAGTTATTAAT
ATTACTTGGAGAAAAATCTGAACTCATCTACAGTAAACTGTCTGCATGTG
CCATTTTGTGCCATTTATTGTACTACTGTTCGTAGTTTAATGTCTTACCG
ATGTTTTCTGTAGTTTTGTATTTTTATTTTTCCCTATAATAGCAGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGATTCACACATTCAGCGTAT
TGTCCTCGCATCTGAAGAAACTACGGTGACACAACAAGTCAGCCATAGAC
CTATCAAATGCCAATCCCGCTTGTGGTCACAAAGAGGTACGAGGGTCAAC
GGGTCACATCATGGTGACAACCCGCTACTCAGACCAACAGGGATCCAAAT
CGCGACAAAAAGTTACGCGGCTCTACAAGCAATGGCACCGACCAATATCA
AAACGGTTCATCAAACCTCCATACTCCATATTGAGAGCAACCTCGATCGA
CTCGGAATGTTGTCGCCTACCCACGACCAACGTTCTCAGCAAAAAACCGG
AAAGATTACGGAAAAATTACGCTCCAACCAGTTTTGATCAACAAGTCCAA
GATTCTCAAGGCCACACATTGTACAGAAATAAGAACAAATGAAATACCGA
GGTCCATGGTGGTGGAGGCCTTGAGCTGGCGAAGCCGGCGCGCGAGCCAG
CATCCAGCCGTCCAAAGCCCTGTGCATCCTTGAAAAAGCCCCACGAATCT
TGCCCGTTCGCCGCTCCTTGTGGCCCTCGTAGGAAGAAAAATGACGACCG
TGGTCAGACATCAGCTTTTCCCTCAGAAACCTCCCGGTTCAAGCCTGTGA
TTCTCGCGCACAGGGGTTCAGCCTCCCTGGCTCGTCGACGATCGAGCTGC
CCTCCGCCTTCGCCGAATCTGGTGCGTACCCACCCGATAGAGAACTACCG
GGCTCTCCGCGACAGTGCTCCCTGCCTCTCGCGTGCCGCCACCCTCCCGA
AGGGCACCAAATTGGGGCTCGGAAGAGGTGCGCACCTGGGAACACCATCA
TCCTCAGCCAACCAAACCGCCGCCGCGTCTCAACCGACAGGCTGGATCGC
GAAGGCAGCCAGTTGACTGCATCTCTTGAGGGCGAGCCCGGCCCTACACC
CGCCGGAAAGACCCTCCCACACTCATACCCCGAAATCAGGTTTCGGAGGG
AGAGGGCACGAGATAGTACCGCTGACCATCTCTCAACCCGATACTCAAAC
CAACAGGATCCAAATCGCGACAAAAGCCTTGCCAGGTCCAACCAACCGAG
GACATAGGTAAATTTTCTGCGTTAAGACGATGTCTTCTAATACGAACTAG
AGCTTATACAACCAATTGCTGTCACTATTCCAGAATCTGAATAACAGGCT
TACAGAGAAGAGTGTTTGATGTCCAGTAAGGTTTCCAGCAATCGAAGGGT
TACATTTAACATGTAATGGTTCGGCAAAAATATGCTCAGAAGGCTTAGAT
GCGTTCAGATTTTTCTTTAACATATTTACTCCATACCGAGAGCATCCCCG
ATCTACTCGGACTGTTGACGCCTACACACGGCCAGCGCTCTCAGCATCAA
AGCGGATAAATCTCGCTCCAAGAAGTTTTGATCAACAAGCCCAAGTGTGT
CAAGGCTATCAACAATACTATCCTGTTAATATCACACTTCATGCAGAAAT
GGGCGAATTTTTTAGACTCCGGGACAGGTTTTTGGGAGTTTAATTACGCG
GGCGAAGCCTGCGAAGCCCGCGTGTATTCAAACCTGGGTTCTGAGGGTTG
CTGGTTGGTTGTCTTTTATTTTGTGTTGACGTGACTGATGGTGAACAGCA
GGGCTGTGTTTTGCAGGTGATCAGCGGTGATATTGATGGCATCATCCACA
GGCAATCACTCCTGCTGCGCGGGGCTCGGGTGTTGGTTCTTTTCATTCTT
TTCGTTTTCACAAAAGAGCGGTGTTCTGTACACATATTACTTCATACACT
TTCTTACCTAGACAAAAAAAATACTCTTGTGATACATTTTTGCGCGTAGT
ACTCTGATCTACTAGATTTGATCATGCTGAGTAAGACTACGAAGAAGTCG
AATGTCTTTGCTGCCCGATCACGCCAGCCCTGAGTGCCATGTAGGTCGCT
ATCGTTTCAATAGCCATCCCAATTGCGACAGAGGAGAATTTTCCAACCTC
TCTTTGAGAATGCACAGAAAGTCTAGGGTCGAACAATACATGAGAAAATT
TGTACCCCTTGCCAGGCCTAAATGGCGGAACCCTTCTATAATATACACAA
CGGTGGAGCATTCCCAAACGCGTAGACTAGAGTAGATCCTGTACGAGAGC
AGTGAAGCAGCTCAACATGAGCGTACCGCTACCGCACTTTAGACAGTATT
GTACCTACAGATACTCGAAGTGGCGTCGCAATACGCAGGCGGACGCAGTA
TCATCACAGTCGAAATCGAGCTGTTTTGCTTATTGTATGCTCTGTACTAA
ATTTTTCCTCGTGTATTCGAGCTTTCCTGTACTCTAGTATTACATCGAGC
GAATAAAGTTTGAAGGCTGTCGAAAACAAACTGTGCCAATATTTAGGGGC
GGCGTAAATTGATGGCTATGTCAAAAACAGCCAAGTGAGCCAAGTGATTG
GTCCGTGCTATATGCAACAACGGCTTCTGATTTGCCCGTGTTATGTCGAT
TCTGTACCGGAGCGTACAACACTCGCAAATGAGGATATCAACTTCATCGT
GGCCTTGAGCTGGTGAAGGTGAAGCCGTTGCGCGAGCCAACATCCAGCGG
TCGAAACGCCCTGTACATCCCTGAAAAACGCCCCAGGAATCTTGCCCGCT
CACCACTCTCTGGTGTGTGTGTGTGTGTATTTATTAAATTGCACACAACC
GCACAATCCGGCCCTGTAATCTACTCATTCTATGCTACTGCATGTAACCC
ACCTGGGGGTTACTTATCGTAAACATATTGTTGGCTAGAAATGCGCGTGC
ACACAGCTACGACTCCTCTCCCCGCTACGATCGTTCTCGGCCGGAACCCC
GCTCCCTCGACATCAACTACAACGCTCTGCCCAAATAAAAATATGGGGAC
GAAAACGCGGGAAATGGTGGACAGGCTTGTTCCCTTCCAACACATGGGTA
AAGCTGGTTTCTCGCCGCTTGGCGCAACGAATAGAGACGGGAATCCGACA
GACAGGGAGCACCATGGCCAACTCTCCTTGTAACCTCCCCCTCCAAACCC
AAAAATCTCGCCCCCCCCATCAAACCGTGTGACGTACTGCAGCATTGGTG
TCGTCATTCCGCCCTCTTCCCCCTTCAACACCCAATCGGTGCGTGTCCCG
ACTACACCCGCACATCTTTTCTTTCTACGTAAGAAAATCTCCGCCAGCCA
TAGGGCCCGGGTTGGAACATCAACCGTAAGTTTCGCACGGGGCGGTAATC
GTGAGGGTAAGGAGAGAGTCAAGGGTAAAGCTAGTCGGGTACAAAGTACC
AGAATAGGGTCTGCACTCGTGTGTGTACGCCGGAACGTCCAACATCGTGA
GCTAAAACTCTCCAAGTCCACACGATTTGCGCTCGATACTGTCGTCATGG
TCGCTGTACCCACCGGTTGCGTAGTAAGTCCTCCTCCTCTATTTTCCCAA
AACATACAGTCAGACGCAAAATCCCCCACATGCCATAGGGCATAGGGTGT
ACCACCAACCGTAAGTCTGGCGCTGGGCGCGAATCGTGAGGGCAAGGGAT
GAGTCAAGGGTAAAGCTAGTCGGATACAAAGTAGCCGAATAGGGTCTGCG
CTCGTGTGTGTGTGTGTGTATTGCTCCCTATTAAATAGCACATAACCGCT
CAATCCGGTCCTGTCATCCGAATCAATCTGTGTTTGTGTTTGTGTGACCT
TTGAGGTTTGGATCTACTGACAACCGCAACTATCCCTTTGACCTCAAGTA
TCTGGTATTATAGTAATTACTACCAGTAAGTAGTGTACGAGGTAGTCTAA
AGACCTAAGCCCCCTGTACTTTTCAGCAACGGTGAAAAAAATCGGCGACC
CCACCCGCTGTACTCCTATAATGAGCATTTTCAACAAGTAATGAAGCAAC
TCTAGCTGTAAAGCTGTTCACAGAGATATCTAGCCCTTTTGGGGGTGTAG
ATATGCCTTGTTTTTCCAACTTCAAATGAAAGGCGTACCTCCGCTCTTAT
TTTTTGCATTATGCCGTCACACCAGACATATAGTTTCTGTTATAGAACGA
TGTCATCAAAGTCATGGCTTCTTTAAGGGGCTCTCGTCGGGAACACGGGA
CAGAAAGAACAGGGAATCGTCACACACGTCAAGACGAGAAGGGAGCGGGA
CGGGAATCATCCCCGCCAATGATGGTTGGAACGGGATAGGTTGATAGGTC
CGGAACCAGAATTGAAAAAAATGAGCTGAACGGGATAGGCTGCACAAATC
AATTTCCGTTCCGTCCTGTCTGTATCGACATTACTGTATCTCACCGTCCC
GTCGCTAGCCGGGTTGTAGCTAAAATCAAGTTGTAATTCCTATGCAAGGT
TTTAACGATATGGGACGGGACAAATATACCTCGTTTTCAACTAGTAACGG
GGGTGGGACGGTTCCGTACCGTATCCCTGTGGGATCATGTTCTGTTTACA
AAACCTTGCTGATCTCCATTTTGTGTGACTTGTAAAAAGACAGAGCGCCG
TCCGTATCGTCGCAAAACATGTTCACTACTGTGTTCCACCATACATTTGA
TCGCGGGGGGAAGTATGTGCATATCTAGTAGTGCCTCCTTCCTCCCAACC
CCTTGTCAATTCAAGTACCAGTACAAGTCAAGAAGCCTGAGAACCCCAGG
AGAACGGTGTTGTCGATGTTATGCCTTTGGGTGCAAATGCGAGGTATTAT
TAATAGTAATAGTTGCAATCCGAGGGGTGGTGATGGTGGGAGGGGAATCG
GATGCGCTCGCGGCTGGCGCTATACCAAAACCTTCCTAGAGAGTGCCCCG
GTTTGTGTAGCGCGCATGCATGCACCCACACCTTTCTGCGCCGTGCCTAA
ATTAAATAGATGTACCATTTTTGGTATTTGTTTGTTTTTTTGCTTTTTTT
TTGCTCTCGTCGGAGCTTTGTGGATATATTGCTCTGATATTTTGCGATCC
AGCAGACCACCTCCGGCGGATTGGCAGCCGCGTATATTACTGGGTATGGT
TGAGATCTAATCGATTAATGTGAAGAAACACACACACACACACACACTTG
ATCCCCCCTTGGGAGGATCAACGCGAGTGGCATAGAATGACTAGGATGAC
AAGGCCGGATTGCGCGGTTATGTGCAATTTAATAAATACACACACACACA
CAACAAGTATCATTGATCCCCCCTTGGGAGGATCAACGCGAGTGGCATAG
AATGACTAGGATGACAAGGCCGGATTGCGCGGTTATGTGCAATTTAATAA
ATACACACACACAAACACACACACACACCATAATTATCCGTTAATGATAT
TAAATTAAAAATAAAAGGCAACACACACACACACACACCCGTCGCGTCTG
ATCAGAGGTTTTCGTAACAAGTATCATTGATCCCCCCTTGGGAGGATCAA
TGCGAGTGGCATAGAATGACTAGGATGACAGGGCCGGATTGCGCGGATAT
GTGCAATTTAATAAATACACACACACAAATAGCTGTAGACGCCGTGTGGG
AAACGGGGGAGACATGGGTCGAAAGCGAAAAAAATGTAGAAAAGAAAGGG
TTGGTACAGTAGCTGCTAACCCGGATAACCTAGGGAGCAATAAGAAGCAG
GGGGGGGGAGCACAAGGTGCTCAGGGCTCAAGTAAGATTTGTACAAGTAG
AGAGAGTGTGTCCCCCTTGTCGCGTCTGATCAGAGGTTTTCGTAACAAGT
ATCATTGATCCCCCCTTGGGAGGATCAATGCAAGTGGCATAGAATGACTA
GGGTGACAGGGCCGGATTGCGCGGTTATGTGCAATTTAATAAATACACAC
ACACACACGCACGCACGGTCCCCTTTGTCGCGCCTGATCAGAGGTTTTCG
TAATCAGTATCATTGATCCCCGCTTGAGAGAATCAATGCGAGTGGCATAG
AATGATTAGGATGACAGGGCCGTATTGCGGGGTTATGTGCAATTTAGTAA
ATCCACACACACACAGTCGCGTCTGATCAGAGGTTTTCGTAACAAGTATC
ATTGATCCCCCCTTGGGAGGATCAATGCGAGTGGCATAGAATGACAAGGA
TGACAGGGCGGTATTGCGCGGTTATGTGCATTTTAATAAACACACACACA
TTAATAAATACACATACACACACGGAGCAACAAGGAAGCAGGGGGGGGAG
CACAAGGTGCTCAGGGCTCAAGTAAGATTTGTACAAGTAGAGAGAGTGTG
TCCCCTTTGTCGCGTTTGATCAGAGGTTTTCATTGATCCCCTTGGGAGGA
TCAATGCGGTGGCATAGAATGACTAGGATGACAAGGCCGGATTGCGCGGT
TATGTGCAATTTAATAAATACACACACACACATACATACACAACAAGTAT
CATTGATCCCCCTTGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGA
TAGAATGACTAGGATGATCCCCTCGGGAGGATCAAGGCCGAATGATTGCA
GGGCTGATTGGATTGCGGTTATGTGCAATTTAATAAATACACACACACAC
ACACACACACACACATACACTACTAATACGATGTATTTTCTGTGTCTCCA
TGGCAGC ATGTTCTCCGGATGCCAGGATAGCCAGACCTCCGCGGACGTGC
AGGACGTGTCGAAGTTTGGTCTCCCCAACTCCGACGGGTCCGGAGGAGCT
TGCACGAACGCCCTCCTCCTAACGCTG GTGCGTCTAACTGCCACACGAAA
CCTCTTTAGGGTGCCTAGCGGTACTATTAAATAGAAAGGTAGCTAGCCCC
TGTTAAGGACACCCCAAGTCTTTCGATCTATAGTAATAATACAGTAGTAC
ACCACTAGGCTGCAGTATGGTCTGCCATATACGACGATAGCTCTCGCATG
CTCGTGTGCTGCCTTAAGTGTCTTGCGCCTCTGGAAAGCGGTACTCGTAC
GTGGAGGGCCTCGGGCTAGAGTACCTGTACACGGCGTCCCGCACGCCTTA
TGTTGCCCGTCGCCGTTGTAGACTTAATTATTTATAGACTAATATAGact
attagggggcattTTGTGGTTGATTGACGAGCCCAAGTCGAGAGAGGTGC
CCAAAGCATTGTGAATAATGTAGTATTAATATAAGTGTCATTTGTGATGC
GATTTGCCAGGGAAAATAGGGTTTAAATGTGGTTAGTTAGCCTTCTTACT
GTTTACACATTTTTATTAGTTGTTGCGTGTTGTCGGTTGAACAGCACGCA
cgacCGACCGACCGACCGACCGACCTCTCCGCCCATGGTGTATCTGACAC
CCAGTACGAGGTACGATGTACAGGGTACGAGTGCAATGCCATGTTTTGTT
AAATGCAATGCCATACGACGTTATGTGACGTGACACCACTCTTCCGGCAC
TCGTCAGGCGAACAACGAGGTCAACTCGTGGCTGAGCGTTCTCAAGGGCA
TGCAGCACACCCTCAAGGCGAAGCGGTTCACTCAG GTGCTGAATAAACAT
TTTTCAAGTGTTGTGAAGATTTATTATGCCTTTCGAAATCTAGGGCGTAT
AGGTCAGGTCAAGACGCGTAGATGCGATTGAATTTTGAGAGCATCATCAG
CCCTCGTCGCCCGAGTGGTCTATTACAGGTAACCTGCACACCTGCTAGTG
CGTAAGTCGTGAGTTCGATTCCTACCAAAGTAGGATTTGTGTTCTTTCTT
TCGTAACGGAAAGCGTGGGAACGTGAGTAAGTAAAATTCAACCATTGGTT
GACGAGTTGTAAGAGTGCTGAACTTGCATCGCGAAAAAGAATTGTAATTG
TGAACCAGGGAGAGATGGGAAGATCCTTAGTGACCACAGGCAGGATGGTA
ATGATGAGGTCCATCGGCTATAAGTGAAATTAAAAGAAGAAAAAAAAAAG
TCTACAACAGTAGTACATGATTTTATGATTTTATCAAACAAGGACCAAGC
AAAAGAGGATGTGTTTGAAACTCTTGTTGGGGGACTGATCGAATACCTAC
ACCGTGCGGACACTGGAGTACAGTAGTATTCCTACTGTAGAATAAATGGT
TTTAAGAATAGGCATATTATACACGTTATTTCTATATATTTAATAGTCTA
TACAGAAGGGCGGGTGTATACGACCGTACAGATGCTAAACCGAAGAGATG
TCACGCACGCGTCGCTCGTCGCCAACCTTGTCCGAGGTGGTATACAGTAC
AGTATATATAATATTTTGTTGATAGTTCTCAGCGGTGAGCATTCATATTA
ACTAACCAATATTAACAGTTTCATGTAAGCACGAGCGCATCTCTGATTCC
TTCCTTGCTTGGTGGTGTTACAATGTATAAGTACTACCTGTATTAACCCT
TTTGGTACTATCGGTCTGACAACGGCTATTTTTTTCTTCTTGACAGTCCT
GTGCTGCTCGCGCTTTTTTACATGGGCCAGCCACCATGATCAGTCATTTT
ACAGTAGACTGTTTACATACCCCAAGTAGTATACGCCTGCTTCGTCTCTA
ACCGTGGGTGTTGAGAGGTTGTTAGTACCAAACTAGTACGACATTTTTCA
GGAAAGTTACAGTAAAGTCAAGTCAAGAACAAAGTTGGTTTGGGGTTTGC
ATTTTGTACCGTGCACAAGTTTGCGGGGTTGATTCATGGTAGATCCTTGC
TGAGCCGTATCTTGGGACTGCTTTTAGTTTGGGAAGGTGGTGTACTCGGG
CTCCTGATCTCGCTGCCCAAACAAGGCTGGAAAATAAACAGGTGGTCGAC
CGCCTGTTAAGCCCTCTCAAGTACCAAAGGGGTTAATATTGTTTTTGTTT
TTTTGGCTGTTTTGGCTGTTTTTTTCTTTCTCTCTTTTCGTTTTGTACTT
GGGCCACTTCTTATGCTGTTAGAAAATGATATCAGAAAACGGCTTTTCTG
ATATGGGACCCAAAATCCGCTTCTTATGTTATCAGAAAAGGCTTTTTCCA
ATACATTATCTGATAACATTTTCTAATAGCCCCATCTTTGGAAAATCAGG
TTTTTCTAACAGGATGCACATATCAGAAAACGTTTATTAGAAAAGGGTTT
GAATTCCCACCGGATGTCAAGTTGCAGCGGTGACGATCTTAGTGGCAGCA
TATCGACGCCGCAAGCAGAGAATAAAAATATCAATCAGTTGGCACTCGTT
CTAGGGTTACTCGACGAGGAAGACCAGTTGTGTCTAGAAATATTATCTGT
ATGTAGCCTTTGCAGCGTGCGTCGTGCAGCAGTTACGTCCTCGGTACAGA
TTATTAGATGCTGTCGTAGGCCGCTTGCACAGCAGTACTGTTTGCATGGC
ACGTTGCGGCCTTCGAGCTGCATTTGTGTGGCTGTGCAAGCCCCAAACGA
TTGAAGACCACCGGCTGTACCGTGCCACGGTTCTAAGTAGGTGCACAAAG
TAATGCGCCTACCCGCAGCAGCAATCCTTCGCTATGTGTTGTGGGCGTGC
CTCGGACGGACGGACGGAAAAATTCAAATAATCCGCCTCCAAACACAGAC
CTCGTGTAGGTTGGAGACAGGCATGGATGACTGTGTCGCAGCGATGATGG
CCACGGTGGCAGCATACATGACGCCGCACGCAGAGAATAAAAAATGTCTT
ATCAGTTGGCACTCGTTCCACGTGGAAGATGCAATCGTGGCTCGAAAACA
CATATGTAGCCTTTGCAGTGTGCATCGTACAGCAGTCACGTTCTCGGCAC
AGATTACATGTTTTTGTTGGAGGCCGCTTGCTGCACAGTACTGCTTTCAT
GGCACGCTACGGCCTTCGAGATGCATTTGTGTCGTTGTGCAAGTCCGAAA
CGATCTTAGACCACGTGCTGTACTACGTCGCGGTTGTAAGTAGGTGCACA
AGCTAGGCAATGAGCCTACATGCAGCAGTCCTCCGCGACGTGTTGTTGGT
GACATTATCTAAAACATACGGCAGACTGTGTATACATTAAACAGACTCTC
CAATAGAATACAACGTGCAGACGCCTCCTAGTAACCGACCGGTGAAAGCT
ACTTTTTGGTTGCTCTTTTTTATTTTGACAAGCTGTAAGATAAGAACGGG
TGCTTGGAAAATACTGTTGGAAAATTGATTATCAGAAAAGACGTTTTCTG
ATATCATTTTTCTAACAGTATAAGAAGTGGCCTTAGAACCTGTCTTAACG
AGGAAATAGAATCTGTTCACTAGAATCTAGCGATAGAATCTGTCGAAAAT
ATAGCTCTGTGATTGGCCAAAGGGCGCTCGACGCTACTAGTAATAGACGG
CAAGTTCTGAACACGGCAGCATCTGTCGGTGGACGGATTCTAACTATAGT
ATTACAGTATAATAGGTGGGGCGATTAATAGAAGGGCATTGGCCCAAAAC
GTGTGTACTTAAATGCAATAGCGACAGAGAGTGTTGTTGGCCATATCTGA
TTAGCCAACACCCATTTTCACCCGTTTTTGGCCAAAAACGACCGTGTGCT
CCCGATTAGTGAAAGAAAAATCTGAATGCACCTAGACCTTCTGAGCATCC
CCCAGTCAGGGGGAAAAAATGTCAAAACGTTTAGGTGGGATCAATAGCTG
AAAATACACAACCCCTTCATGGCATTTAAACGGGTTCCCCGATGGTAATA
ACATTGGGTCAACAGTATAATGTCGGGGAGAAACCCACCGTCATACTGTA
CACTTAATTAATCGGCATGCAGGGACACCAACAAAAGGGAAGACAAAACA
ATACATCATCAAACAATAAAGACAAATCCAATCCAATAATTGAAACGAGC
ACAGCAGAGGACCATGATGAGAATCTTCATAATCCGAGTACACGACCCCG
TTATTCACCTGGAAGTAGACGAAGAGCAGTAGGCGATCACACAAGGAGGT
AAGAGGCAAGCGGAAAGAACTGGGTTCCTCGCTCCATCACTTGTCAGGGC
TACGACACACAGATGCTCCTCATGCATGGACTTAGCTATGGTCCCGCGTT
GGCCAGAAACACAAAGGAAAGAGCATATGTATATCAAAGTGACAAAGTAG
GCCTCAAACCAACTCGTGTAAGCTCCCATACGATTCCCCCTACTTTGCTC
AGCTTCCACCCGTTTTTGGCCAATTTATGTTCCCTTCCGGTGGGCTACTC
GAACAGATCAGCACGGGCCACAACATATTTATTTCCGAACCATTGAAATA
AATTTAGTTATAAAAGCATACGTAGTTAACCATACATAATGATACAACCC
CTCTTGCTGAAGTTAACCATGGACTGATAATGAGTTATTAACTTCATGTG
GCTCTCGAGACCTGAAGATTCGGGAATTTATGGTTCTTTGGGAATAAGGA
TGGGCTGGTCAATGGATCCGCCATTTATTTGCTCATCTACTTTCAGGTGA
ATACCGATGTCTCGTACTTGCTGGATTAATGTCGAAGATATCTACGATGG
TGGTCCTCTCTGCCCCTGCTTCAATCCTTGATCCAAACCCTATGTATTTA
CCACCACCACTAGGTGTCCTATACTTTAACCAAAATATACCACTCTTCAT
CAGTTATAACATCATATAACGTTTTTTTTATGTTCTAGACTATTAAACCC
TTTTGCTGTATGGTTCGATGGCAATATTATCGTATATTAAGATAGGTTAG
CTATCGCTATACGCTCGCTAAAGGATAGATGTGTAACTATCGTCAGCTTA
ACACAGGTGCTGGTGTAATGTGTGGTTGGTGTTTGGCTTATTGTACTGGC
GTCGTCCTCAACACCGTACGGAAAGTGCTACGCCTGATTCTAAAGAGAAC
AAGCAGGCGGACGCAGGCAGTTGTCGTTTCAAAGGCATTTTCTGTGCGGC
GCGTTGTGTAATTTTTATCTGCAGAGCATGAAGGTCTATCTACATGTCAA
CGGGGAATGTTCAGCAGAACCGTTTTATGCCCATCATTGTCACTAAGAAT
CTTCACATCTCCCCGGTTCTCGCCTAATATTTTTTATCAAGATGCAAATT
GAGTGCTCCTACTAGCACCCCTTTTGAACAGCAGCATTATTAGGCTCTAT
CCGCAAAACCCTGTGTCTAAAATTGTTCATGATGAAAGCGTGTGTTTGTG
TTTTCTTCCCATTCATTCTGGACTTCAATGGACGTACCAGCCGGGTCACA
GGAAGAAAGTAACACAGGATTTTCCATCCACCTTCTTTCTGCGGTGCTTG
CCTTAATTTTTTCTCGCGAGAAGGATTCAGCCATTCCTTCCCTCGTCGAC
CGTGAAGTCAATTTTGTGTACTAACGATTTAATCGTTCTCCACCCGTTGG
GCATTTTGATTTTCATTTTTTAGTTTTTCAGTGAGAAAATCCCGTTTGCC
GGGATCGAACTCACGTCCAACGTGTCAGAGGTTACATGGTACCTCTGAGC
TACCGGGGTGACCGAAAATTGTAAAATACTCTAAACAAAAACAACACACA
CAGTAGGTATCAACAGATTCTGCCTGAAGTACAGAATTTGTTGCCACATG
ACTACATAAAATCGTGTACTGTATATACTGTTGTACAGCAATATGTTTTT
TTTGTTTTCTTCCCATCCATTCTGGACATCAAGTTCGTTGGACGTACCAG
CCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTTAATCCACCTTCCT
TCTGCGGTGCGATGTCTTTATGATTTTTGTCGCgaGAAGGATTCAGCCAT
TCCTTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTACTAACGAATTAA
TCGTTCTCCACCCGTTGGGCATTTTTATTTTTGTTTTTTTGTTTTTAGTG
AGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAGAAG
GTTACGAGGTGCCAACTGAGCTACCGGGGTCGACCGGCCTATGTACTTGT
TGATTACTGACTGTTGTTTTCATCTAACTTACCCGCTCCTCTCCTTGTTG
AACAGCAAAAGTGGTATCAACAGATTCTGCCTAAAGTACAGAAAGCGACA
TGACTACATAAAATCGTGTACTGTATATACTGTTGTACAGCAGTATGTGT
GTGTGTGCGTGTTTTTTTTCTTCCCATTCATTCTGGACATCAAATTGGTT
GGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTCCA
TCCACCTTCTTTCTGCGGTGCGTGCCTTAATTTTTCCTACGAGAAGGATT
CAGCCATTCCTTCCCTCGTCGACTGTGAAGTCGAATTTTTGTGTTATTAT
TATTATTATTATTATGTATTTCCTTTTATAAGTCCGATCTCTCGAACCCG
TGGTCACATACGCAGGCTTCCCTTTCCCATACCATCGCTACATCAAAAAA
AAAAAAAAACGATTTAATCGTTCTCCACCCGTTGGGCATTTTTGTACTTG
TTGATTACTGTTGTTTTCATCTAACTTCCCTATATTATTCCCCGAAACAT
GAAGCGCTTCTTCCTGTCACAACCAGCGCTCTGAGAAGGTTTGTTGAGAA
AAAGTACCAATTGTTTGATATAATAGGCCCTCTAATCATTCTAGTCCAAG
TGAACCTCTCTTCCCCGGTGGAGCGAGTTTAAAAGTTCAAGACGTACGCA
GTACGTGGACGCCGGAATAGAACCTAGGCCGATTCAGCCATTCCTTTCCC
GTTCTCCACCCGTTGATCATTTTCAGTACTGTGCACACTGACCAATCAGA
AGAATATTGGTTTACACCGAGGGTATACAAAAATGGTACACCCGAGCTCA
AATTGATACACCTGCCGGATTAGAAGCTCACTACGCTCGCAATTACTATC
CTAAATGAAGGTAACAACTTTTACCTCCAAGCCTTAGGCCTCGGAAAACG
CAGCGGGTCAACTCAACCACACTGAGATCAAGATGTGTTTTTCAAAGTGT
TCCAATCGGAGGCATATTTTCTTCAGCGTCTACCCAACCAGAGGCCTGTT
AGCGAAGCGGGTCAACTCAACCCCTTTGAGATGAAGATGTTTTCTATGGC
GTCTACCCATTCAGCGCACACCTACCCAATCAGAGGCCTGTTTATTTTTT
TGCAACAGTGCCGGCAATGGAAAAAACACTAAACATATATACCTGTAGAC
GAAGTTTTTCCCTCACTAAAACAAAAGCAATAAAATAAAGCGAAGCGGGT
CAACTCAACCCCTCTGAGATGAAGATGTTTTCTTCAGCGTCTACCCATTC
AGCGCACACCTACCCAATCAGTGGCCTGTTTATTTTTTTGCAACAATGCC
GGCGATGGAATAAACTTCTCCCCGACATTATACTGTTGACCCAATGTTAT
TACCATCGGGGAACCCGTTCAAATGCCATGAGAGAGGTTTTGTATTTGCA
GCCTTTGATCCCACCTAAAAGTTTTGACATTTTCCCCCCTGACTGGGGGA
TGCTCAGAAGGTCTAGGCGCGTTCTGATTTTTCTTCAAACATTAAAAATG
TTCCACACACAACCCAGCAGCGATATTACAATGAGGCAGCTCGGCAGGAG
TTTGGGTCTGTGCGTAGCCTGACATTTCCCCCCCCTGACTGGGGGATGCT
CAGAAGGTCTAGGCGCGTTCTGATTTTTCTTTAAACGTTAAAAATGTTCC
ACACACAACCGAGCAGCGATATTACAATGAGGCAGCTCGGCAGGAGTTTG
GGTCTGTGCAAAACACCTCCTCGCACTCGAGGACGGGAGGCCTCACGCCG
TAGCCACTTCGTATGCAGCTCGTGCGTACCGCTCAATCGAAACACAAAAT
AAACCTCCTCGCACTCTCAACGGAGGACGGAGGGCCTTACGTCGTGGCCA
CTTGGTATGTAGTATTAATAGTACCGCTCAATTCAAACACAAACACCTCC
TCGCACTCTCCACGGAGGACGGGGGGCCCCCAGGCCCCCGCGTCCGGAGT
CCTTGTAATTATATACTACATTGATTTTGGTTGGTTTTGATTGTGGTATG
TACTACAAAGATTTTGTTTGTCGAGGTGTTTTTGTCTGGTGTCCCTGCAT
GGCGATTAATGTAAGTGTACAGTATAACGGTGGGCTTCTCCCCGACATTA
TACTGTTGACACAATGATACTACCGTCGGGGAACCCGTTTAAATGCCGTG
AAGATGTTTTGTCTTTGCAGCCTATAGTCTTCCCCTGTGTGGGATGCTCA
GAGGGTCTAGATGCATTCAGATTTTTCTTGATACAATTGACAGGAAAATT
TCGCCCATGTGGCGTGGAGATTGATGAAAATTTCCCATTTTTGGGACCAA
CAATTTTTCCATCTGTCTGGGGGATGCCGATACTCCAAAACAAGATGCGT
GTTATTGCGAGTTTTATTGGGCGGTTAACTTTGTACCTGGTAGTACGTGA
CACGGTGACCATCCCCTAATCATCTGACGGAGGACACAAAAACTTTTCGA
TTTAGATCTGATTTGTATAGTCCTTCTGACACCTCGAGGGTGTTGAGTGT
TGAGTGGGGTTGGCCTGGTCGACGGGAAAACCCGACGATGAACACTAACA
CTCCCCGGCTTCGTAGGGGTGGGAGGATAGCTTATTTGTAGTGGTAGTCC
AAAGTATATTTTGTTCGTGACTCGGCTTCCGAGTTGGACCGATGGGCTCT
ACTTTCTTTTTGGGGTTTTCCTGCCCTAATCTCCTTCTTGTTTTTCTGAG
CTTGTTATTTTAGGAACTTGTTGAATATTTTTTCTTGAGTGTTGGGACTT
TCTCTGGGTCTTGACCACGGAAAATTGTTTTTTTTTGCCTTGGAAGAGTA
AGAAAGAGAAGGTATTGGATAGAGGTCAAAACGTTTTTTATAATGTGAAG
ACAACAATAACAACTTTAAACAGGCTCCAGCTGCTCGCACCATCCAAAAA
ATGTTTGCTTTGTAAAGATAAACCACTGGGCATTGTCAGTTTCTGCTCAT
TCTCATTGGTCATATCTGAAGAAGAGAAAATTACATTTTTCCTGTCCTCG
TTCGCGCCAGAGAATGTGGTGTCGCGAGACGGCTTCGGTGGTCCCTTCCA
TCGTCAGCCTGCTCATTCTCCACACTCAAGGCTGAATCTGGTGCTTACTT
GTTTTTTGCATACAGTACTACTTGTGTCGTAGAGCAAACTGCCTCTGCAA
TACTGCCTCTGCAATACTGCCTCTTCAATAGGCCTCTGCATATAAAATCA
CGCGTGCGTGCGTGGGAAATCGTGCAATCCAGTTCGAATCTCGGTGCAGT
CACACGAACTGAGTTTTTCCCTCACAAAAAACAAACAAAAACATGCCCGT
CGAGTGGAGAACGATTAATTTGTGGTGACACAAAATTCGACTTCAAGGTC
GACGACGAAAAGGGACGGCTTAATCCTTCTCGCGATAAAAATTAAGGCAA
GCGCCGCAGAAGGAAGGTGGATGAGAAATCATGTGTGACCCCGGCTGGTG
CATCCACAAGTCTGACGTCCAGAATAAATGGGTGACAACACACACACACA
CACACTCACATTGGAATATGTGTCTACAGCACCCTATGATGCATTTGGTA
CTACTGCTGATGCCGTATTTGCGTTGTACTGTAAGTATTAATAATAAGTT
GTTTTATGTGGCACAGTTCATCTCTGGTATGAGATCATCTCAAGCTATTT
CTCCTGAACGACCCCACCCACAGCACCACTATCCCGTGTAACTCCTGTGA
ACGCTTCACGCCCTCGTGGGATCTCCGGAAGTCCCCGCAAAAACCCGTGG
TCTCGGGGGCGATCCTAGGCTTAAGGGCCGAGGACACCTGCTCGAGCTCC
TACTGCTGCAGACGCTGCGCCACGCAGAACGCCGAATCACTCACACAAGA
AAATACATGTACACAAGAGAGATCTCGAATTCCCCTTCAATGAGGTCTGC
GTTGTTTGTCATGGGCTATGCACGTACACACGTACCGGAGATTTCAGCCT
CCTACACCGAGCCAGTCGCCCGGGTGGTTCAGTTGGTAACCTCGAAACCT
TCTGACGTTGGGACGTGAGTTCGAATCTCGGTGCAGTCACACGAACTGGG
ATTTTTCCTCACAAAAAAATAAAAATGAAAATGCCCAACAAGTGTGTGGG
GCCCCGCTGAGACAGGCCCTTAGTAACTCTGGATGTCAGTTGAAAGAGAA
TCGCGGCGTCTTCGAAAACCGGAGTCGTGTCTACTAAATAATCGAATACT
TCGTATTGACTGCTTCGAAGGACCGGTACCTAACAGCTTCTTCCTCCTGA
GTCGCATCGCTGACCCCTCCTTCAAAAAATGAATATGTATAAAAAAAACA
GCAGTAAAAAACAACAGTTTTAAGTACATTTAAGATTTTGTGGTGGTGTA
GTACGAGAGCTGTTCATCAGAGTCAGTCACGGTATATCACCTTCCACCCT
TGCGCGGTCGTCTCGTGTCTTATCCCCCCCCTCATCATTTTCCCTTTTTT
TTGCCGCCTCTATCCTCTATCTCTACAGGTCCCCCAACTTAGCGCTTCTC
GCCCGATCGACGTTAACGATCCCTTCTACCTGAGCAACCCGGAG GTAGGT
TGTCATAAGTCGGGGACGGGGACACACGGTGCAGGAGGCACGAAAAACGT
TACCCAGGAAGATTGTTTCCTCAGGACCTCTGCGGTACATGATTTGATTA
CAAGAAACGCATTTCACTTAAATGCAAGGAAACTTGTGCGATCGTTTTAC
AGAGTAGGGTGGCCGCGTCTTGACCTGACCTGGACCGGCGTTAGCCGACC
CTCCAATCGCCAATGCTCTGCCGCCTCTGGAATCTCTGACCCGTCGACTT
CTGTCCGCTTTGTCGGCGGGCCTTGACATGACGTTACGGTTGATGCGGGG
CGGGGGCGGTGCTGAGCGCAGGGCTCTGGCGCCAAAAAGTCGCTTCTGAT
AGGTATCAACTACATCGGACAGCAGGGAGAACTGAGGGGCTGCCACAATG
ACGTCATGGTGATGAGAGAGTACATTGCTACACAC GTGAGAGAAGGTTAT
TGGATCGTGATCTCAAGGGTTAATGATTGAGGAGAGATCAAAGGCAGCTT
TGCTGTTGTGACGGGGAGCGCAAGAATCAGAGGGAGGAGAAAAACTATTT
ATTTTCCCTTGTGTGCTTGAAAAGCGTTTGCATGTGTCTTTTTTGTCGCT
TCCTGTCGCGAAAAGGAGACCGCAGCACCGTTTTTCAGTAGTTTGATTGT
TCACCCGTTTGTCTTGGGTTTCATACTGGCTTGAGAGGGCTAAGTGCTGC
AGGGCGTGTACGTGTAACGGAAGGTCACTCGTTCTCATCCCCTTCTACCG
AGACTTGAGTGTTCGCTTTCTTTGACTGCTGTATCTGGTACATCATACAC
TAGACCTTGCCCCCGCTTCTTTTTGGCAACGCTCTCTCCTCCCCCTCCAG
CTGCTACTGTTTTTTTTTTTTTTGTATCTCACTTATGGCCGATGGGCCTC
AACGTGGTAGGCTACCAATCTCACCTAGGGCAACTTGGTCGTCCTGGCTG
TGGTCACGAACGATCTTCCCATCCCTCCCCGGTTCTCGCCTTATTACTAT
ACTATTACTGTATGCGTTTTTATAGCGATGCAGGTTCAGCATTCTTACAA
CTCGTCAACCAATGGTTGAATTTTACTTACTCGCGTTCTTGCGCTGTCCT
CGTGTCCTCGTGTGATCCTATCCCTCCGTCTACCCCCCACACCTCGAAAC
ATAATGAAACAAAAAAACACAAAGGGCTACAGAATGGACCCCGACAGCTG
CTTGGTCATGATGGACGACGGGAAACACGCCACCCCAGACCACCAGGGCG
TACTCGACGGATTCAG GTGATCCCTTGGAGCCCTTCACTCTCGACTCAAG
TCAGTTTCGTTGCTGCGTCAGTCGGCTTCCCCGGCACGTCATGACTTCCG
TCGTCTCCTGACCCTTCTCCCCCCCCAGGCTCAACTGACCGAAAGATTTC
GCACGCGCTTCGGTTTCACTCGACCAGCGACTCGTTTTTTGTAATTCTCT
TCGCATGAGTGATCACAACCATGCCATAATCATGCCGTCGTAATGTCATA
ACTATGTCACAGTCATGTCATAATAATACCATCGTCATGTCATGACCATG
TGGTAGCCGCGTCATGATCATGTTTTACCTGACCGTGATGCCCAGCAAGG
GGTGGCGGTTGCGGCCGAGTTGCGGTCGAATCAAGGAAAGGCGCACGCCT
GTACCGTTTTCTGTAGTGGCGTGCTGTGACTGTGCTTGCAACGTTTTCTA
ATGCTGTCTAAACTCTTCGCCCCCTACCCCACCTGACTCCCTTCTCTTGT
ATCTTGTCCCTTGAATCTGCATGTATGTGTGTGGTATGCTCCTGGACGAC
GGCGACTCCCTGGGCAACGGCTGGCCGCATCGCGCTCCGGGGGGAAAAGG
TGGCTGGTGGCGGGGGCGACTGCAGGAGACTCGCTCTTCATGCACTACTC
GG GTACGACGGGCTGGAGATCAATGCTATGCTAAGATGGCATCTATTGCT
GTTGCAGTGGTTTTACTCGATTGAAACGCTGAACGTCAATTGAACTGGAG
GGGTGTCACACATATTTTGAGGCGTTCTCCGCCACTCCCACTTTGGATTC
GGTTGTCTTTTCCTTATGTTTGGGGTACTATTTCACCAACATCGTCTGGC
CTGTGCACTTGCTTGTTGTGTTGTGTGTGTTTGCTTGGACCTTCCAGGCC
ACGGTGGGTCTGTCAAAGACACATCGGGCGACGAGGCAGACAACATGGAC
GAGACCTTGGTTCCCGTGGACTACCGGCGTACGGGACAGATCACCGACGA
CGTCATCCTAAAAGAG GTATTACTGCTGCTGCTGCGTTAGCTGAAGGGGT
GTATGTTAGAGGAGAGTCATAATTTATTATATGCTGTAGTTATGGATCAT
GTTAAGGAGAGGGGCGGGCGTGCGGGTGGATAAATGCCGATATATGCCGA
CAGGTTTAACGTGTCGTTCTTCTCCCTTGTCACACAAACTTGACGAAACA
TAGTGAAACGCGGCGGAACTCACCAGGAGCAACAACTTCCGTCTCGGTCA
GGGAAAGACAGGCGCCTTCTCGATCATGAAGCGGGTGTTTTCAGCAAATG
AAATGCATGCCCGTTTGAGCGCGCACGCGTGCGACTCTTCGCTTTTATTT
ACCCCCCACCCCCCTTTTCTATTCTCCCTTCTGTTTGCGTTCCTTTGCTG
CTGTCACTCCCTCCCAATCATTAATGTGTTAAAAATGTGTTGTTTCACAA
CAGTTGGTGATGGTTCTTCCTGAGGGAGTGACGCTGACCGTGGTGATGGA
CTGCTGCCACAGCGGCTCCATCCTCGACCTCCCGTACACAATCAAGGCCG
ACGAGGGCACCATTTCCTCCGTAGAGGCCGGAGAGTCCTCGTCGCTCCTC
GGCTTGAACCCCAACTTCGACATCATGAAG GTAAGACCAGAATGGAAAAT
GGAACACCAAGTTCCAAGTGAACGGATTCGGCCTGGCGTCTTTTACTGCA
GCAGTTGCTAAAACAGAAAGGGGTTACTCGGCATTAGAAGGGTGTCGAGA
GCGAAGCAAGTTGATCCCCTTTATTTGTTCAAACGCCAAATACCGAACGC
GTTTAAGTAATGTTCCGTCGACAGTCACCGTCTCTTCGGGCTTGAAACAA
ACGGGGAAGGTTTAGGAGGGGGAAATAAAGTAATAAGAACTCCTAGGCGT
TTTATGTGATACTCTGTTGTATTATCGGTCGGTGACGTCGATTGTTTTTC
TTTGCCGTGATGCCCCCCCCCTTAAGTCTCTGACCCTCTTTCATTGATTT
TTACGCCCTCGTCGAAACAACGCCCCGCCTCGCGCTACGAAACGTCACGC
AGATGATAAGGGCCGCCAGGGACATTTACGCGATGGTGAAGAGCGGTGAT
ATGGACATCATGAAGATTGGCAAGATCGCGAAGGTCGCTCTCTCTTGA TT
GAAATAGCACGTCTCTCATGCTTGAATATTGGGGCAAAGACCGCCAGACA
TCCAAGTTGGTGAAAAATTGGTAGAAACGTTGACGGACTACATCGCTAGT
TGTATGGTCACACATATAGCAAGAGTTGAAACAACGTGATACTACTTTTT
ATCCCCCCCTCCTTCCCTATTCCCCTTCCACGGTGATACGGTGGTAACTT
TCTTTTTTATATGTAGTTTTAATCTCAACACGCCACGTGGTGACCGAGAA
GGTGTCAGCCGCAACGTGTCAAATCTACTCGTTTACGAAAAGCTTGTTAC
GCAACAGCTTCAGTGACAAATCTCCGTAGGGGTAAACACCTCGTCGCGGT
AGTGCCCCGCTGTTTCGCTCGTTTTCCGCCTCCTGGTGTGTTTATCCGAT
CGCCGAACACGTGGTGGATGTCTCGGGGGGTTGATAGGCGGAGAATATGG
AGCGTTTTCACCCTTTGTAGGATTGTTTTTGTTTTTTTTCAATTTTTTCT
GTACGCGATCTCGGCGCCCCTCGTCCTTGTGCGGCCCCCTTGCCTTGGCT
TGCCTTGACTTGCCTTGATCTGCCTTGGTCTGCCTGCGGTGGGGTGGCGC
TCTCTCGTTGGCTGTGCTTTTTTATTTACAAACAATTCGTTTGTTACATT
ACCAGAGTACTTGATGGAGGGGCATAAGAGTAGAGAGGGCTTTTTTCCCC
ACGAGATAAAGCGATCGGCTGTAACCTACGTGCGCCTTGGATGAACGGCA
GCATAGCGGGAGGCGCGGATGGATGCCTTTACTATACAGTTGGAAGTGTC
GCGATATCTTCGAAAGAAATGCTTTCTAGGAGGAGTCGCAGAGTAAACCC
ACTATTAGGACGTCTTCAAGCGAAGTTTTTTTTTAGGGGGGGGGGTATCG
TTTTCGTGTGTGTGTGTATGTTTATTAAATTGCACATAACCGCGCAATCC
GGCCCTGTCATACTATTAATAGTCATTCTATGCCACTCGCATTGATCGTC
CCAGAAGGGGATCAATGATACTTCTTCCGAAGTGTGTGTGTGTGTGTTTT
GTGGTAGTTGTCTGTCCATATTATAGGCCCGCGGTGTGCGCTCTGCAGTC
GCTGATGAAATGGTATCATGTATGATGTACAGTTAGAAACGAAAAAAAAA
AATAGGTCCGTCGAGCCGTATACTTGCAAACCTCGATAATAATTATAGCA
CCAAAATGTGCACTGTACCGGTATAAAACAAGCATCATCTTGTCTTTCTT
CCTACGTTTCTTTTTGTTCGAAAGATCTTGATGTGCATGCCGTTTTTTAA
TGCAGAAGGGTCTCTAGCATGAAGAGGGTGGCGATGTTTTGCTCTCTGAC
GTAATATAAGCACGTGATAGTCGCGAAAGAAAAACAGTCGATGGTGATGA
CGGTTACCAGGAGGCAGGATTCAAACGAAGGCAAGCGATCGCCATCACTT
TGCCCATCCAGACTCATGGTGAACCTTCGTACAACAAAC back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1017:68743..94831+
>mRNA_A-nodosum_M_contig1017.1.1 ID=mRNA_A-nodosum_M_contig1017.1.1|Name=mRNA_A-nodosum_M_contig1017.1.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=915bp|location=Sequence derived from alignment at A-nodosum_M_contig1017:68743..94831+ (Ascophyllum nodosum dioecious) ATGTTCTCCGGATGCCAGGATAGCCAGACCTCCGCGGACGTGCAGGACGT GTCGAAGTTTGGTCTCCCCAACTCCGACGGGTCCGGAGGAGCTTGCACGA ACGCCCTCCTCCTAACGCTGGCGAACAACGAGGTCAACTCGTGGCTGAGC GTTCTCAAGGGCATGCAGCACACCCTCAAGGCGAAGCGGTTCACTCAGGT CCCCCAACTTAGCGCTTCTCGCCCGATCGACGTTAACGATCCCTTCTACC TGAGCAACCCGGAGGGCTCTGGCGCCAAAAAGTCGCTTCTGATAGGTATC AACTACATCGGACAGCAGGGAGAACTGAGGGGCTGCCACAATGACGTCAT GGTGATGAGAGAGTACATTGCTACACACGGCTACAGAATGGACCCCGACA GCTGCTTGGTCATGATGGACGACGGGAAACACGCCACCCCAGACCACCAG GGCGTACTCGACGGATTCAGGTGGCTGGTGGCGGGGGCGACTGCAGGAGA CTCGCTCTTCATGCACTACTCGGGCCACGGTGGGTCTGTCAAAGACACAT CGGGCGACGAGGCAGACAACATGGACGAGACCTTGGTTCCCGTGGACTAC CGGCGTACGGGACAGATCACCGACGACGTCATCCTAAAAGAGTTGGTGAT GGTTCTTCCTGAGGGAGTGACGCTGACCGTGGTGATGGACTGCTGCCACA GCGGCTCCATCCTCGACCTCCCGTACACAATCAAGGCCGACGAGGGCACC ATTTCCTCCGTAGAGGCCGGAGAGTCCTCGTCGCTCCTCGGCTTGAACCC CAACTTCGACATCATGAAGATGATAAGGGCCGCCAGGGACATTTACGCGA TGGTGAAGAGCGGTGATATGGACATCATGAAGATTGGCAAGATCGCGAAG GTCGCTCTCTCTTGA back to top