Homology
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A6H5KR31_9PHAE (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KR31_9PHAE)
HSP 1 Score: 351 bits (901), Expect = 4.410e-117
Identity = 174/214 (81.31%), Postives = 190/214 (88.79%), Query Frame = 1
Query: 4 APGRAFVHGGGAIHASSQARFAAASTLRGGQTGSPGTATG-RSSRQTLAMANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
AP FVHGGG++ S+Q+RFAA S +RGG + A G RSSRQTLAMANP+VFFD+DAGG+ +GRIT+ELRADV PKTAENFRQLCTGEG VKG+KGS FHRIIPQFMCQGGDFT GDGTGGESIYGRTFPDENF+LSH GPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLE+LGSPSGK T VT+KDCG+L
Sbjct: 17 APALGFVHGGGSMVGSAQSRFAATS-VRGGHSAPRAAAAGQRSSRQTLAMANPKVFFDIDAGGKDMGRITLELRADVVPKTAENFRQLCTGEGPVKGFKGSKFHRIIPQFMCQGGDFTAGDGTGGESIYGRTFPDENFELSHTGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLEALGSPSGKTKTAVTIKDCGEL 229
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
D7FHE4_ECTSI (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FHE4_ECTSI)
HSP 1 Score: 306 bits (784), Expect = 3.910e-100
Identity = 142/160 (88.75%), Postives = 151/160 (94.38%), Query Frame = 1
Query: 163 VFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
VFFD+DAGG+ +GRIT+ELRADV PKTAENFRQLCTGEG VKG+KGS FHRIIPQFMCQGGDFT GDGTGGESIYGRTFPDENF+LSH GPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLE+LGSPSGK T VT+KDCG+L
Sbjct: 21 VFFDIDAGGKEMGRITLELRADVVPKTAENFRQLCTGEGPVKGFKGSKFHRIIPQFMCQGGDFTAGDGTGGESIYGRTFPDENFELSHTGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLEALGSPSGKTKTAVTIKDCGEL 180
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A7S1D0F5_CYCTE (Peptidyl-prolyl cis-trans isomerase n=2 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1D0F5_CYCTE)
HSP 1 Score: 269 bits (688), Expect = 3.860e-85
Identity = 124/164 (75.61%), Postives = 142/164 (86.59%), Query Frame = 1
Query: 151 ANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
ANP+VFFD++AGGE +GRIT ELR+DV P+TAENFR LCTGE G GYKGS FHR+IPQFMCQGGDFT +GTGG+SIYGRTF DENF L H G GILSMANAGPNTNGSQFF+CTVD PWLDGKHVVFGSVVDG+DVV+K+ES GSP+G T+ +KDCG++
Sbjct: 51 ANPKVFFDIEAGGEEVGRITFELRSDVVPETAENFRALCTGENGF-GYKGSTFHRVIPQFMCQGGDFTNHNGTGGKSIYGRTFSDENFALKHEGKGILSMANAGPNTNGSQFFICTVDTPWLDGKHVVFGSVVDGIDVVEKVESYGSPNGATSKTIVIKDCGEI 213
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
UPI0001CB95F6 (peptidyl-prolyl cis-trans isomerase-like n=1 Tax=Saccoglossus kowalevskii TaxID=10224 RepID=UPI0001CB95F6)
HSP 1 Score: 265 bits (677), Expect = 3.200e-84
Identity = 124/165 (75.15%), Postives = 135/165 (81.82%), Query Frame = 1
Query: 148 MANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
MANP+VFFD+ AGG +GRITMELRADV PKTAENFR LCTGE G YKGS FHR+IPQFMCQGGDFTRGDGTGG SIYG F DENF+L H GPGILSMAN GPNTNGSQFFLCT WL+GKHVVFG V +GMDVVKK+ES GS SGK T+ + +CGQL
Sbjct: 1 MANPKVFFDVSAGGTPIGRITMELRADVVPKTAENFRALCTGEKGKNTYKGSTFHRVIPQFMCQGGDFTRGDGTGGVSIYGAKFEDENFKLQHTGPGILSMANCGPNTNGSQFFLCTAKTEWLNGKHVVFGQVTEGMDVVKKIESYGSSSGKTSKTIKIDNCGQL 165
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A8C5G9U8_9TELE (Peptidyl-prolyl cis-trans isomerase n=2 Tax=Gouania willdenowi TaxID=441366 RepID=A0A8C5G9U8_9TELE)
HSP 1 Score: 263 bits (673), Expect = 1.240e-83
Identity = 126/165 (76.36%), Postives = 137/165 (83.03%), Query Frame = 1
Query: 148 MANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
MA P+VFFD+ AGG A+GRI MELRADV PKTAENFR LCTGE G GYKGS+FHR+IP FMCQGGDFT +GTGG+SIYG F DENFQL H GPGILSMANAGPNTNGSQFFLCTV WLDGKHVVFG VV+GMDVVKK+ES GS SGK + + V DCGQL
Sbjct: 1 MAKPRVFFDITAGGNAVGRIVMELRADVVPKTAENFRALCTGEKGF-GYKGSSFHRVIPDFMCQGGDFTNHNGTGGKSIYGEKFADENFQLKHTGPGILSMANAGPNTNGSQFFLCTVKTAWLDGKHVVFGQVVEGMDVVKKIESFGSSSGKTNSKIVVADCGQL 164
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A6T5PIT7_HETAK (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6T5PIT7_HETAK)
HSP 1 Score: 264 bits (674), Expect = 3.280e-83
Identity = 122/170 (71.76%), Postives = 138/170 (81.18%), Query Frame = 1
Query: 133 RQTLAMANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
++ L M+ P+VFFDM+ GGE +GRI ELR+DVAPKT ENFR LCTGE G+ GYKGS FHR+IP FMCQGGD T GDG GG SIYGRTFPDENF L H G GILSMANAGPNTNGSQFF+CTV+ PWLDGKH VFG VV+GMDVV+K+E +GSP G+ V V DCGQL
Sbjct: 35 KKHLTMSLPKVFFDMEVGGEPVGRILFELRSDVAPKTVENFRALCTGETGI-GYKGSTFHRVIPDFMCQGGDITSGDGRGGMSIYGRTFPDENFDLPHTGEGILSMANAGPNTNGSQFFICTVETPWLDGKHTVFGKVVEGMDVVRKIEGVGSPQGRTAAPVVVADCGQL 203
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
E1Z6E6_CHLVA (Peptidyl-prolyl cis-trans isomerase n=2 Tax=Chlorella clade TaxID=2511126 RepID=E1Z6E6_CHLVA)
HSP 1 Score: 262 bits (670), Expect = 4.580e-83
Identity = 126/171 (73.68%), Postives = 137/171 (80.12%), Query Frame = 1
Query: 148 MANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKG------YKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
M NP+VFFD+ AG LGRI MELRADV PKTAENFR LCTGE G +KGS FHR+IPQFMCQGGDFTRG+GTGGESIYG F DENFQL H G G+LSMANAGPNTNGSQFFLCTV PWLDGKHVVFG VV+G+DVVKK+ES GS SGK T+T+ DCGQL
Sbjct: 1 MGNPRVFFDVTAGSTPLGRIVMELRADVVPKTAENFRCLCTGEKGTGRSGKPLHFKGSTFHRVIPQFMCQGGDFTRGNGTGGESIYGEKFADENFQLKHTGAGVLSMANAGPNTNGSQFFLCTVSTPWLDGKHVVFGQVVEGLDVVKKVESYGSGSGKTSQTITIADCGQL 171
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A7S2P287_9STRA (Peptidyl-prolyl cis-trans isomerase n=2 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2P287_9STRA)
HSP 1 Score: 263 bits (673), Expect = 4.800e-83
Identity = 125/172 (72.67%), Postives = 144/172 (83.72%), Query Frame = 1
Query: 133 RQTLAM--ANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
R ++AM NP+VFFDM+ GGE GRI ELRADVAPKTAENFR LCTGE G GYKGS+FHR+IPQFMCQGGDFTRGDGTGG+SIYG FPDE+F L H G GILSMANAGPNTNGSQFF+CTVD PWLDG+HVVFG+VV+G++VV +E +GS SG+ TV VKDCG++
Sbjct: 32 RSSVAMMAGNPKVFFDMEVGGEDAGRIVFELRADVAPKTAENFRALCTGEKGF-GYKGSSFHRVIPQFMCQGGDFTRGDGTGGKSIYGEKFPDEDFSLPHVGKGILSMANAGPNTNGSQFFICTVDTPWLDGRHVVFGNVVEGIEVVDAIEEVGSQSGRTSKTVVVKDCGEV 202
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A1Y2BVA4_9FUNG (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Rhizoclosmatium globosum TaxID=329046 RepID=A0A1Y2BVA4_9FUNG)
HSP 1 Score: 262 bits (669), Expect = 4.940e-83
Identity = 124/165 (75.15%), Postives = 139/165 (84.24%), Query Frame = 1
Query: 148 MANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
MANP+VFF++ + G ALG+I MELRADV PKTAENFR LCTGE G GYKGS+FHR+IPQFMCQGGDFTR +GTGG+SIYG F DENFQL H+GPG+LSMANAG NTNGSQFFLCTV PWLDGKHVVFG VV+GMDVV K+ESLGSPSG V + +CGQL
Sbjct: 1 MANPRVFFNITSNGAALGKIVMELRADVVPKTAENFRALCTGEKGF-GYKGSSFHRVIPQFMCQGGDFTRHNGTGGKSIYGEKFADENFQLKHDGPGVLSMANAGRNTNGSQFFLCTVKTPWLDGKHVVFGKVVEGMDVVTKIESLGSPSGATKAKVIISECGQL 164
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Match:
A0A812VDW2_9DINO (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Symbiodinium necroappetens TaxID=1628268 RepID=A0A812VDW2_9DINO)
HSP 1 Score: 263 bits (673), Expect = 1.080e-82
Identity = 129/174 (74.14%), Postives = 137/174 (78.74%), Query Frame = 1
Query: 139 TLAMANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKG------YKGSAFHRIIPQFMCQGGDFTRGDGTGGESIYGRTFPDENFQLSHNGPGILSMANAGPNTNGSQFFLCTVDCPWLDGKHVVFGSVVDGMDVVKKLESLGSPSGKPLTTVTVKDCGQL 642
T+AMA P VFFDM GG GRITMELRADVAPKTAENFR LCTGE G +KGSAFHR+IP FMCQGGDFT G+GTGGESIYG F DENF L H GPGILSMANAGPNTNGSQFFLCTV WLDGKHVVFGSV DGMDVVKK+E++GS SGK V + DCGQL
Sbjct: 54 TIAMAKPVVFFDMSIGGTPAGRITMELRADVAPKTAENFRALCTGEKGTGKSGKPLHFKGSAFHRVIPDFMCQGGDFTAGNGTGGESIYGSKFADENFTLKHTGPGILSMANAGPNTNGSQFFLCTVKTQWLDGKHVVFGSVTDGMDVVKKIEAVGSQSGKTSKPVVIADCGQL 227
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1005.20.1 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 4.41e-117 / Id = 81.31 Expect = 3.91e-100 / Id = 88.75 Expect = 3.86e-85 / Id = 75.61 Expect = 3.20e-84 / Id = 75.15 Expect = 1.24e-83 / Id = 76.36 Expect = 3.28e-83 / Id = 71.76 Expect = 4.58e-83 / Id = 73.68 Expect = 4.80e-83 / Id = 72.67 Expect = 4.94e-83 / Id = 75.15 Expect = 1.08e-82 / Id = 74.14 Sequence A0A6H5KR31_9PHAE D7FHE4_ECTSI A0A7S1D0F5_CYCTE UPI0001CB95F6 A0A8C5G9U8_9TELE A0A6T5PIT7_HETAK E1Z6E6_CHLVA A0A7S2P287_9STRA A0A1Y2BVA4_9FUNG A0A812VDW2_9DINO Pages
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Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig1005.20.1
>prot_A-nodosum_M_contig1005.20.1 ID=prot_A-nodosum_M_contig1005.20.1|Name=mRNA_A-nodosum_M_contig1005.20.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=166bp
MANPQVFFDMDAGGEALGRITMELRADVAPKTAENFRQLCTGEGGVKGYK back to top mRNA from alignment at A-nodosum_M_contig1005:143565..152332-
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1005.20.1 ID=mRNA_A-nodosum_M_contig1005.20.1|Name=mRNA_A-nodosum_M_contig1005.20.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=8768bp|location=Sequence derived from alignment at A-nodosum_M_contig1005:143565..152332- (Ascophyllum nodosum dioecious)GCGGCTCCAGGTCGGGCATTTGTGCATGGTGGTGGTGCAATCCATGCTTC
CTCTCAAGCCAG GTACAGTCCTCCTAAAAGTATCCTCAGTGCTGTCTTGA
GCATGAGCCGTTTGCGACGCGTCTAAAACCTGTCGTTGCGAATCGCTTGA
ACTCCTTGTGCGCCGCTTTGCTCAATAAGATTGTCTAGGTCGCCTATGCG
ATTGCACCTGATGTTAGTTAGAACATATTTCCTCAGGACGAATAGGAGGC
ACCGGTTCAAAGCCGGCTGAATGTTCATTGCATTTGGCCCAGACCTTCTG
GAAAGTAACTCTCTTGAGTAATGTAGTACAAACAGAGTGCACAATACTTT
GTATTCCAGCCCCTCATGTCGTGTGAATACTTGGACAGGACGCCAAAGGA
GTCACGTAAAATCGCGATCGCCTACCTTCTCCTTGGAAGCGATGTTCTGG
CCGATGGGGGGGGCGGGGGGGGCGGCGGTGCATCGGTGATTGTGTAAAGT
TCCCTGCGTGAAGAATGCATGCCACGCCGTCTTTTGCATAGCAAGTTGGT
ATTCCAACATCAATCATTCAACGCGCTCCCTACAAATAGAGCGTAGAGCT
GTTCGTGCCTGGCAGACTCGTGAAAGAACTACTGTACCTAGTACTGTTTT
GTACAACATCGCGGACCTCGTCCAAGGCTGCAGCGCACCAAACCCGGCAG
TTTCACATAGTGGATTTGCATGTACATTGCGGTATTTTCCCACTTTCGCT
ATTCAGCGCTGACATCCGATACCGCAGTTCGCCGAGCATGTGGTTGTAGT
ACAGTAAATATCTTGACCTTCTAGGCTACATCCCTGCTACTAGATTGAGG
TCCTGGGTCGCTCCGTGTCCTTCATCCTGAACTTTGACAGCACAGTTTGT
TTGATGGCATGTCACGTTTGGGAACAGTGAAATGGCACCCTGACGGGAGC
TAACATAGGGCGGTACCGCGCAAGCCACACGTAACCAATACCTGTCGACT
GTCGGACCAACGAGCATTGCGCCACGCGCTGCGAATCGAAATTTGCGAGA
GACTCAGGTTTCCCATTTTTCAACAAAAAATTGAGGTGAAACAGCGCCAT
AGGACCATTTCATGTGCGGCTGACCTGTCTTTTTCCCATTTTTACTTCTG
CTTATTACAGGGAGCTCGTGCGAAACACGTCGAGACTATTTTCTCTGAAA
TCTTAATTAGGAATTTGTATCCTGCAGAAGTTTTGGCATGCAAGAGACGG
TTCGACATTTTACGTAAGAGTGTCTCACCCGCGATACGCGGCTTCCAAAA
CAATTACAGCAGTGGTTGTCCCTGTACGGCAAAGATCCTCGGTGCGGTAC
ACGCGGCTGTACCTACCTCCGATGTATTAGTATCGCATATACTGATACCT
TTACGTGGACGAGTAGTGGGCGTGGGAAAAGAGAGACGCACAATAACCTA
CTGCCTATTTATTAATTGGTCTACATGTAGTCTAGGCGGTTAGCTATAAC
CAGACAGCACCCTATAGTGATTCGAGTTATCTTGACGAAGGCCGGCCCTG
TGCCGGCGGACTCTCGGCGGCGAATGCCATCGGTAAGCAGCTGCTTGATG
ATCTGATAGACTCGAGACTGGCCCGATAGCGTCTGAAGGTGTAGAGCTAT
AGTCTATGGCACTCCGTCGCGGAAGCGGAAGAAAGAAGAGAAGCCTGCGG
GACGGGACAGCAGAACCTGTCTCGCGAGCCCGAATTCTGAGTCGCGAAGG
AGTACAGTGAAAAAAAAAATCACCCTAAACAGTGTTCAGCTGAATGCAAG
AAGGATCGACAATCCTACACACCACGGTTGATGCCCAATCTACTGAACAT
TAACAACTCTTTCTGTTGTACCATTGAGAACATGCGTACAACAGTGATCG
TGAGGAACTACTGGTTAACTGTTGGACTGTTCTTTCTGTTACACCTATAT
TCTGTCATTTCAACATGCCCACTTCATACCAATAATAGTATATAATAGTG
GGTGTGGGGAAAAAGAGGAGTACATTAATTGGTCCATGGTGACCTGCAAA
GGCAGCACCTGTTGCTGGAACTATCTTGAGAACTACTGGCCCTGTGCCGA
TCGGACTGTTGGCAGTGAACGCCATCGGAACGCATTTGCGTCATAACCCG
ATAAACTCGGGACTGATCCGATGGCGTATGACGGTCTTTAAATAAATAAA
TGGAGGCCGCCGCGGTAATCGGGAGGAATTCCGTGAGTAAGCACCAGATT
CAGCCTGAGTATGGAGAATGAGCAGGCTGACGCGGGACGGGACGGCCGAA
CGTGTCTCGCGAGACCAAATTCTCAGGCGCGAACGAGGATAGGGAAAAGT
TCATTTTCCCTGCTCAGCTGACCACGAGCGAGATTGGCGACCTTACCCGG
TCGTTCCATACTCTCCTACAGTATATGCGATGAGCATTAATAACTGTATC
AAATATATCCTGCATGCATTCTCATTCTCACCCAAGGGTTTCGTAGAGAA
TATATTTAGAAAATAAAAGCTCACAAAAAATGGTCCACGGTGACACCTGA
AAAGGCAGCACCCATTACTGGAACTACCTTGAGGATTATTGGCCCTGTGC
CGGCAAACTCTTGGCAATGAACGCCATCGATACGCAACTGCGTGACCTGA
CAAAACTCGGGGCTGACCCGATGGCGGTTGGCGGTATGAATAAATGGACG
CCGCCGCGGAATTATGGAGGAATCCCGTGAGTAAGCACCATATTCAGCCT
GAGTGTGGAGAATGAGCAGGCTGACGCGGGACGAGACGGCCGAACCTGTC
TCGCGAGATCAAATTCTCAGGCGCGAACGGGGACAGGGAAATATTCATTT
TCCCCGTTCAGCTGACCATGAGCAGGATTTGCAACCATAGTACCCGGTTG
ATACAGTATATTCCCTGCTAAACTGCTGACCATTTCAAAGAGGCGTGTCA
TCGTCGGCTACTTAATTTCTTTTTCACATTCTAGAATTGTCAAGCCTGCC
GAGGATCCATCTACACCTTCGTCGAGAATTGACATCATGGAGAGATTAGA
AGGTTGCAATTACTAACTCTACAGACAGAGTTATAGACCTAGCCGTTGAA
ACAAAAATACCGCATGGGATGTTTACCGCGAAGTTTGGAGAGAACGCTCC
CCGGGGAGGAAAAACTCCCCCCCCTCCCACCCATTTTACCCTATTAATAT
TACAGAGTCAGCTCGCGCTCAAAAAATGTTGTGGACCAGCCCTTGGCAAT
TACATCCTTGCGTTGCGGCGTTGTCTGATGGAGTCTCTCTCTGTAATGAA
GAGAAAAGTGAGGCGGTGCCCCCGGGGGGGGCGTGGAGGCGGGGGTTGGG
GTTCTCTGCAAATATTTTGGTGATGGTGTTACCCAATGACCGTCGCATGG
AGTCAAGAGCGCTTAAAATCGGGGCAAAACTCACGGTTACACTACTGCTG
TACAGCACTTTTAGCCCAAGAACAAAACCATCTAGGGACATCAAATGTCA
TAGTACCACTGTTATTATAACTATTAAGAGCATAGTACCAAATTTAGAGG
AGAGCAGCTTGTGTTGTGACTTTGTGGAAAATCGAGGCGTGGATGGCAGG
TAGCTGGTGTAAGTTTTATTTTTTCACCCCCCCCCCCCCTCGGCGAGGAA
GAGCTTGTATCTACTGTCTCTACTAAGTATGGTAATAGTTACACAGTACC
TGGCACCTCCTATTTTGCTTTAATATTACTAGTGTTAGCAGCACATACGA
GAATTGTTAACACTCTTTTTTTCTCGAGGTGGAGAAGCTTACCGTTGTGT
ATCATTTTGCTCATATTATCTTGATGTTTAGGCCATCTTTTATGGGCATC
GGATTTGGATCTGGTGCTTTTCGTGAATCGTACACATGCGGAGCCCAAAT
CCCTCTCGGCCAAGGTCCTGGCTCGGCGCCGTTTCTTTATTAGTGCTAGT
ATTAGAGTATTAGGTTAGTTAGGAACTGTGGGTGGGGAAAGGGGAACGTT
ACAGTTGATACGTTAATATAAGCACATAAGACAGAAAATCAAAAGCGAAA
AAAACTGTGAATATAGGGATGATAGGATGTTCAGCGAGAGGTCGATGGCC
AATCAACAGTTCTCATGATGTCAAGGACACAAGCCGCATCATCTCACGCG
CTCGGAGCAGCAGTAGCAGTAGCTCTGGGGCTGTAATGCTGTAGTGCCGC
CTTTCGACGAGCCAGGCAGCGGGGGATATTTTCATCATCTCATATTTTAG
AGGTGAAGCGATTCTGTCAGTGTTTTTCGTCACACACCGCCATGAGAGAC
GCGGTCTGCCAATCATGGCGCTAAATGCCGCTCTGCCCCGGGTCCCCGCC
ACAGAAACATCGAAAGTTGAAAAATCATGCCCCGTCGCAAGGGAACAAGT
GCTCAGTTGTCCCCGTTTTACAAATTGGCGTTTTTTGTACGTGAAACGTC
CGACGCGGCCAGTTGCCCCCCCCCCCCCCTATATTTGTGTTTTACTCCGC
TTCACAAGGTTTGCCGCGGCCTCCACCTTGAGGGGTGGACAGACGGGATC
TCCTGGGACGGCGACCGGGCGATCGTCTCGCCAGACCCTTGCT ATGGCTA
ACCCGCAG GTGGGGTAACCAAAGCTGACAATGTCCCAATCGGTACTACCT
GTACTTTTTATGGTACAGGAACATGGATGTTTTAGAGCTCTGCCTGATTT
TCTCCAGGATCTTAAACCTGGCGCTGTTGTGCAAAAAACACCTGCGCGGC
AGCGTCCGCACGCGCGTGTTTATGTGTGAGGCCTAACTCGACCCTATTGA
GACCCGCGTGAAGTTGTGGATGGCGGCGGCTTGGAGAACGCTGGCGATCA
GATAATCCCCCCCAACCCACTCGATATGGTTAACCTGCAGCGTGCCCCAC
GCCCCGTGCCCTATTCTCCCGCCTAAAACTTGGAAAACCAACTGTCAGGT
CTTCTTCGACATGGATGCCGGGGGCGAGGCTTTGGGGCGCATCACCATGG
AATTGAGAGCCGACGTAGCTCCCAAGACGGCAG GTATTTCACCTCATCTA
TCTATCAACCTTTACCCCCCTCAGGGGGTTTCCTGGTATCACGAATGGCT
ATCTCCTTCCTACTGTTGCTACTACTGTTCGTATTTTTTTTTACCAGGGG
GATGCTCGGCATCCCGAAGGTGCTTGTGTAGGCACCCCGCGCGCAATCCT
ACCGCGAGTAGCGTGTATCTTCCCGCCCCCCGCCCTACCGCGATCGCTTC
GATCCCATGTCGATCTGCATGTCTGGTTTGATCAACATCTTAAAAGCCCG
TCGTCCGTGTGGTGCCCCCCTCCCCCCCCCCCGCAGTTTTGTTGTCCTGA
ACCTTTCTTTATTAGAAGAGGCGTAACATGTTAAGAGAAAAGGCCACACC
AAAGTATAGATAGCCGCTATCTCGTCCTGCCCTTCGGCGTTGCTCTGTCC
TCTCTCGCGGAATCGCGCTAATTATAGGACGGAAAAGGGAGACGCGCGGG
CAACCGCAGGAGAAGCGTCCATCCAACTAGAAACAGACAAACAAAAAGTG
TTTTCATTGGTTGAAACGATTATGGGTAGGGAAAGTGCACATATGACCCA
AGCAACCAACCCACTAACCAAAGTGTAGGTCTTATGTCGATTATTCTAAA
TTTTGTTAGGCTGTAGCGGTCGAGCTACCCTTGTCAAATTTCCCCCTTTG
TTGATGCTGGTCGCCATTCTCCGCATCGCAACAATACGCGCTACAACCCC
GTAAGCGCTTCTGTCGACTGACGCACGCCCTGCGGCGACCCTCGGGTCAT
GGCTCCCGCCCCAGCATTTCCTGTCGTTTTTCCCAACCTAAACGTCCAAG
GTTTATTTTTCTCACCTTTTACCGCAGAGAACTTCCGGCAGCTGTGCACC
GGAGAGGGTGGAGTGAAGGGCTACAAGGGTTCCGCGTTCCACCGGATCAT
TCCCCAGTTCATGTGCCAGGGGGGCGATTTCACGCGCGGCGACGGCACCG
GTCAGTATTCTTTGTTTATTTTTGTTTTTATGTTATTCTGCTTGATGTCA
GTTTGATTGTTTTTTTTGCTTTTTTTTTTGCTTTTTTTTTTTTTGCTTAG
TCAAATCGAGATGTATACCATACGCCCCCCCCACCCGTGTTTTCCTTTTT
CGTTGTTTTTTTTTGTGGTCTTCTCGAAAAGGTGTTGCGTAATTGAGCCT
GTTTTTGAGGAGATTCTTTCGAGAACATTCCGGCGGGGGGCTGGTCGCAA
AAAAGCTTCTCCCTCTCTGACGCGGTCGTTGGGCAAGGGTGCTCGTCGCC
ACTCGCGCGAATCCCAATCGATCAATAGTGTTTTCGTCGAAAGTTAATCG
GAGGACCACTCCCGCTTCCTCTTGAGTCACGGTCGCAGCATGTAGCGAGA
CAAAAAGCGGGCTCGTTGAGCGACGTCGCGGCACATCTCGTATCAATCGC
AACGGCCACACCGTATCGTTAAGGAAAGTCGGGCGCTTAAACCTAACCGT
CGAGACCACAACCACACCTCTATTTTTTTTTTCAATCAGAAAATCGACGT
AAGAAATAGCTTTGCCGTGCGTCGTGATACGTTTGCGCTTGTTTTGCTTG
GTTTCCACCATCGTCTCGTGTGCCCCCCGCCCCCCCGGTACGATGTCGGT
TGCTGTTTTGCGCCGCGGCGACCGGTACGATTGGATCAGGAGGTGAATCC
ATCTACGGGCGAACGTTCCCCGACGAGAACTTCCAGCTCTCCCACAACGG
CCCGGGGATCCTCTCCATGGCGAACGCGGGACCCAATACGAACGGATCCC
AG GTGGAATAGAAACCCCCTCGCGTGTCGGTATAAAAATCTCAGGCACCC
CCTACGCCCCAACGGGGGGCGCTTACCTCAAGTCTAGCCGAGAAAGTGCT
TCCGGGGCCCGTTCGAGGAGATATACGTGTAGTGTTCGGGCGTTGTTTAT
CGACGGAGGTGTCAGGCATTTGCACATCCTTTTTTATCCCCCTCTCTGTG
CGTGCGGTCGCGGCTGTCCCCCTATGCCAGAGTCTCGTCGTATAAAATAC
CAGCTAATTGTGCGCGCGCGTAGAGGATGTCACGCGTCCCACCGCTACTA
CAGTCTCGTAATCCTCTCTTTTGAACATTCCCCCTCAAAAATCTGGCCTC
CGCCATAAACGCAACACCGTTCTCTTGCTCCCCTCCAACTCCCCCCGTTC
CCTCCGGTGCACCCACTGGGGAATATGCCTTCCTACCCTCCTGCCTCCCG
TCTCCACATTAAAACCACACAAATCCCAACAAAAAGTTCTTCTTGTGTAC
CGTGGACTGCCCATGGCTGGACGGCAAGCACGTGGTCTTCGGTAGCGTGG
TGGATGGCATGGACGTGGTAAAAAAGTTGGAATCGCTCGGCTCACCCTCC
GGGAAGCCCCTGACG GTAAGGGCAAGTTTTTACTTCTCCATTTGTGCGCA
TTTTTCCTTATTTGCTTCGGCGACTGACTGTGTCCGCAGTTAGCCTCAAG
CTCGCACACGCGCACTTACAAACCCGTTATGAAAATGGATGGGGGCGGGG
TTAAGTTAACCCCGCCAATCGAGCGGTAGGTAACGCCTGCTGATCGTGGG
GTCAAACTCGCGCATTGAACTTCGCCCCCCCCTCCAATCATGTTTTGATT
TGATCCGTTTAGCTGGGGGTGGTAAATCCCACGCATTGAGCGATACATAA
CGCCTTCTCGTCGTGGGGTAACAAACTCGCGTACTGGACATTGAACCCTC
AACCTCGTCAATCTGGCAGATACCCCCCCCCCTCCACTCCCGCCTTCTAC
TTCTCTATTCTGACTAGGATACTTGATCGAAGCGTCAAAAAATGATATTC
ATCACGCTTGCTCGCTGGGGAGGTATTGCGAACAAGTGCCGATTAGGCCC
CGTTTTTTCTTTCACTCTTGATCCCCCCCCCACCGTCCCCCACCCTACCA
TTGGCGCGCGTGCCGCCTCGTTTGCTCGATCGTTTCGCAGACTGTTACCG
TCAAGGACTGCGGACAGCTTTAG GGCGGCGCGTCAACGCGCGCCCGCTTT
TCTACCACGCGGGCAGGGGCAGCGCCTACCTCTGTTTCCCCCTTTTCGAG
TCGGGAAGACGACGCGATTCACGTCACACACACTGACAAGTGTCGTAACA
TGTTTTTTTAAGAACTTGAGTATTATATAGCTTTAAAGTATTCTTTTTTT
AGATGCGCAAACGGCGTTTTCTTACTGATCGGTTTCGCGAGGGACAAGCG
CGACTTTGGATCGCCAGACCTCTATTTTAAAACTGCTGCGAGTAGTATTT
TGAGTATAGAGGGGGCGAATTTTGGGTACAGTGAGGATATGATGGGAAAA
AAGGGTCGCGATGTCTTTGTTTTTTTTTGGAGGCATTGAGGGGGGCTGGG
GGGGCTCTTAAGGGGGAAGTTCCGACTGCCCCGAGGCATCGGTCGTGTCG
ATCGATTGTTCACCGTTTTGACTAGATTCAACGGTGTGTCTCGAATGTCG
GGCGTCGATAGCTTTTTGGTAGAATAGAAGAGGGGCCTGACTCGACACAA
ACGCTTCCGACGGAACACACAAAATTTTGCCTCGAGATAGCGCTTCTGAT
GGCACAGGCCGAGCGTGCGTGTCGATGTCGATGTCGGCGTAGGAAGTACC
GGTACGTAGCACAAGCTCTTTCAGCGAACCAGCCCTATGGATGGTGATTA
TCTCTTGCCTTCCAAGAAGCGAAAGGAGACAGGAAAACAAAGTTTTTTAT
CGTTTTTTCAAGAGGGAT back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1005:143565..152332-
>mRNA_A-nodosum_M_contig1005.20.1 ID=mRNA_A-nodosum_M_contig1005.20.1|Name=mRNA_A-nodosum_M_contig1005.20.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=498bp|location=Sequence derived from alignment at A-nodosum_M_contig1005:143565..152332- (Ascophyllum nodosum dioecious) back to top