mRNA_C-linearis_contig9.16466.1 (mRNA) Chordaria linearis ClinC8C monoicous

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

Overview


Name	mRNA_C-linearis_contig9.16466.1
Unique Name	mRNA_C-linearis_contig9.16466.1
Type	mRNA
Organism	Chordaria linearis ClinC8C monoicous (Chordaria linearis ClinC8C monoicous)

Homology

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: D7G2W3_ECTSI (Glutathione peroxidase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G2W3_ECTSI)

HSP 1 Score: 389 bits (999), Expect = 2.090e-128
Identity = 190/209 (90.91%), Postives = 200/209 (95.69%), Query Frame = 3

Query:  552 STAETRP-LRELGFEVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYNN 1175
            +  ET+P LRELGFEVPYTGKS+PL+KFLGSRATLVVN K+DDPE+LHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRV+RIK YQFYGFGQ+PKAVVFDKIDIVGNTIHP YRYLCR LKNPNGIARITLNYEKFLLD+DGKVVRRYPRKLEAADFEADVKAV+ GDPLPAE RDYKLSWLKADQEATKSEYAFKLGLNYYNN
Sbjct:   82 AATETKPSLRELGFEVPYTGKSVPLNKFLGSRATLVVNGKLDDPEALHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVIRIKFYQFYGFGQYPKAVVFDKIDIVGNTIHPFYRYLCRALKNPNGIARITLNYEKFLLDQDGKVVRRYPRKLEAADFEADVKAVIAGDPLPAENRDYKLSWLKADQEATKSEYAFKLGLNYYNN 290

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A835Z1R8_9STRA (Thioredoxin-like protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z1R8_9STRA)

HSP 1 Score: 268 bits (686), Expect = 5.610e-83
Identity = 125/194 (64.43%), Postives = 153/194 (78.87%), Query Frame = 3

Query:  594 VPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYNN 1175
            +PY GK +P+ K LG +ATLV+N K+DDP ++ QMP I  +A++Y ++GL+V++ PTDQG FEADEDRVV+IK YQFYGFGQ+P AVV DK+DIVGNT HPLY+YLCR LKNPNGIARITLN+EKFLL  DG+ +RRYPR+L     E D+ A + G PLP   R Y  SW+KA  EA +SEYAFKLGLNYYNN
Sbjct:    1 MPYNGKQIPVGKLLGPKATLVINGKLDDPAAMQQMPDIVNMANKYGREGLHVIVVPTDQGYFEADEDRVVKIKFYQFYGFGQYPVAVVTDKVDIVGNTAHPLYKYLCRSLKNPNGIARITLNFEKFLLGADGRPLRRYPRQLALGLVEDDIAAAVRGAPLPPPGRPYATSWVKAQAEAERSEYAFKLGLNYYNN 194

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A7S2UVM6_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UVM6_9STRA)

HSP 1 Score: 256 bits (655), Expect = 7.390e-77
Identity = 124/210 (59.05%), Postives = 159/210 (75.71%), Query Frame = 3

Query:  552 STAETRPLREL-GFEVPYTGKSLPLSKFL-GSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYNN 1175
            + AE +P++ +  FE PY    +PL+KFL  ++A LVVN K+DDP SL QMP + +LA+ YSKDGL +L+FPTDQGTFE D+D  VRIK YQFYGFGQ+P A V DKIDIVG + HP+Y++LC  L NP G+ RITLNYEKFLL+ DG  VRRYPRK+E AD+E DV+AVL+G+ LP E   ++ +W+ A +EA  SEYAF+  LNYY+N
Sbjct:   94 AAAEEKPVKRITDFEAPYNRNPVPLTKFLKNAKAILVVNSKLDDPVSLQQMPPLVELATRYSKDGLRILVFPTDQGTFEPDDDETVRIKNYQFYGFGQYPVATVMDKIDIVGTSAHPIYKFLCSSLPNPYGVKRITLNYEKFLLNADGVPVRRYPRKMELADYEKDVQAVLKGEQLPDESLAFRKAWVAAKKEAAMSEYAFRKNLNYYDN 303

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A7S3XXI6_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XXI6_HETAK)

HSP 1 Score: 256 bits (653), Expect = 2.560e-76
Identity = 122/196 (62.24%), Postives = 151/196 (77.04%), Query Frame = 3

Query:  588 FEVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYNN 1175
            FEVPY GK +PLSKFLG +ATLVVN KIDDP SL QMPG+  L     + GL +  FPTDQG FE DE+ V+RIK YQ YG+GQ+P +++FDKID+VGNTIHP Y++LC  LKNP GI R+TLNYEKFLLD +G+VVRRYPRK  A + E D+K +L G+PLP E   +K +W++A +EA  S+YAFK GLNYY+N
Sbjct:  114 FEVPYNGKQVPLSKFLG-QATLVVNIKIDDPVSLQQMPGLVALTQTLGRKGLRIWCFPTDQGYFEPDENDVIRIKNYQIYGYGQYPISMLFDKIDVVGNTIHPFYKFLCSSLKNPYGIRRVTLNYEKFLLDGEGRVVRRYPRKYPATEMEKDLKPLLAGEPLPEESPAFKKAWVEAKREAATSQYAFKKGLNYYDN 308

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: W7TC45_9STRA (Glutathione peroxidase n=3 Tax=Monodopsidaceae TaxID=425072 RepID=W7TC45_9STRA)

HSP 1 Score: 234 bits (596), Expect = 1.190e-67
Identity = 117/194 (60.31%), Postives = 141/194 (72.68%), Query Frame = 3

Query:  588 FEVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYY 1169
            + VPY G  +PL  F G +A +V N K DDPESL Q+PG+T L  +YSK GL V +F T+QGTFE DEDRV+RIK YQ YGFGQ+P ++VFDKIDIVG    P Y++LC+ L+NPN IARITLN+EKFLLD +G+ VRRYPR+  A D E DVKAVL G+PLP        +W  A  EA +SEYAFK GLNYY
Sbjct:  141 YAVPYDGVRVPLGNFRG-KAVVVCNAKTDDPESLAQIPGLTYLTGKYSKKGLKVWVFTTEQGTFETDEDRVIRIKYYQQYGFGQYPNSLVFDKIDIVGKRADPFYKFLCKTLRNPNKIARITLNFEKFLLDANGRPVRRYPRRYTAYDMEEDVKAVLAGEPLPPPSPKLIKAWRDAYVEAERSEYAFKKGLNYY 333

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A7S2CSS9_9STRA (Hypothetical protein n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2CSS9_9STRA)

HSP 1 Score: 213 bits (541), Expect = 9.820e-61
Identity = 107/203 (52.71%), Postives = 137/203 (67.49%), Query Frame = 3

Query:  561 ETRPLRELGFEVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYY 1169
            E +P  E  F+VPY  K +P SKF G +A +V N K DDPE+L Q P +  L  +Y  DGL +L FPTDQG +E +   +VR +  Q +GFGQFP AVVFDK+DI+G+T HPLY YL R L NPNG + +TLN+EKFL+D  GK VRRYPRK      E D++A+L GDPLP E   +  +W  A++EA KSEY+F+ G N Y
Sbjct:   43 EEKPFPE--FDVPYKRKPVPWSKFRG-KAMIVCNVKNDDPEALKQYPALAYLNKKYYTDGLRILAFPTDQGWYEPEVSEIVRQRALQAFGFGQFPYAVVFDKVDILGSTSHPLYNYLMRALPNPNGKSSVTLNFEKFLVDGSGKPVRRYPRKYSGFQMERDIEALLAGDPLPEESDAFLTAWKDAEREAIKSEYSFRSGYNVY 242

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A7S0E1J0_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0E1J0_9CRYP)

HSP 1 Score: 202 bits (514), Expect = 1.210e-56
Identity = 102/195 (52.31%), Postives = 131/195 (67.18%), Query Frame = 3

Query:  594 VPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKA--VVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYN 1172
            +P  GK   LSK +GS+AT+V+N K+DDPE++ Q+P +  L  +Y+  GLN + FPTDQG +E D+   VRIK+ Q YG     K   VV DK DIVG   HPLYRY+   L NPN I RITLNYEKFLLD +GKV+RRYPR   A   E DVKAVL G PLP     ++ +W +AD+EAT+S Y+F+   N+Y+
Sbjct:   39 IPVNGKQKSLSKLIGSKATIVMNIKLDDPETVTQIPALKTLVLQYADQGLNAICFPTDQGDYEPDDSATVRIKVAQQYGMKSSVKGPIVVTDKTDIVGKFTHPLYRYMTTNLPNPNNITRITLNYEKFLLDANGKVLRRYPRLWSAERMEKDVKAVLAGQPLPPMDPQWQFAWKEADKEATRSIYSFRKHYNFYD 233

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: L1JD48_GUITC (Uncharacterized protein n=2 Tax=Guillardia theta TaxID=55529 RepID=L1JD48_GUITC)

HSP 1 Score: 199 bits (506), Expect = 1.440e-55
Identity = 101/195 (51.79%), Postives = 129/195 (66.15%), Query Frame = 3

Query:  594 VPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKA--VVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYN 1172
            +P  GK   LSK  GS+AT+V+N K+DDPE++ Q+P +  L  +Y+  GLN + FPTDQG +E D+   VRIK+ Q YG     K   +V DK DIVG   HPLYRY+   L NPN I RITLNYEKFLLD DG+V+RRYPR   A   E DVKAVL G PLP     +  +W +AD+EAT+S Y+F+   N+Y+
Sbjct:   33 IPVNGKQKTLSKLKGSKATIVMNIKLDDPETVTQIPALKTLVLQYADQGLNAICFPTDQGDYEPDDSATVRIKVAQQYGMKSSLKGPIIVTDKTDIVGKFTHPLYRYMTTNLPNPNNITRITLNYEKFLLDADGQVLRRYPRLWSAERMEKDVKAVLAGQPLPPVDPQWLFAWKEADKEATRSIYSFRKHYNFYD 227

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A0G4FMZ4_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4FMZ4_VITBC)

HSP 1 Score: 199 bits (507), Expect = 5.920e-55
Identity = 100/198 (50.51%), Postives = 137/198 (69.19%), Query Frame = 3

Query:  585 GFEVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNP---NGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYY 1169
            G E+P   KS+P+ KFLG RATLVVN K+DDPES  Q+  +  L  +Y K GL V++FPT QG  E D D  +RI++YQ +GFGQ+P+AV FDK+D++G   HPLY YL R L+NP        I+LNYEKFLLD DG  VRRYPR+ +  + E D++A+L+G  L A  ++++L+WLKA++E  K  YA++   NY+
Sbjct:  126 GLEIPLRKKSIPIEKFLGRRATLVVNIKLDDPES-RQIGELKYLVDKYWKQGLTVMMFPTLQGWAEPDTDDTLRIRVYQTFGFGQYPQAVCFDKVDVIGPQAHPLYTYLGRQLRNPIAGKSWENISLNYEKFLLDGDGVPVRRYPRQWDPLEIEYDLRALLDGRQLGAPSKEFQLAWLKAERERKKDTYAYRENYNYF 322

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BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Match: A0A6U4LLP0_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A6U4LLP0_HEMAN)

HSP 1 Score: 199 bits (507), Expect = 1.460e-54
Identity = 98/196 (50.00%), Postives = 132/196 (67.35%), Query Frame = 3

Query:  591 EVPYTGKSLPLSKFLGSRATLVVNPKIDDPESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFYGFGQFPKA--VVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLLDKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEATKSEYAFKLGLNYYN 1172
            ++PY G+  PL K LG  AT+V+N K+DDPE+  Q+P +T L  +YS+ GLN +  PTDQG +E D+   VRIK+ Q +G     K   VV DK DIVG   HPLY+Y+     NPN + RITLNYEKFLLD +G V+RRYPR+  +   E DVKAV+ GDPL    + ++L+W +AD+EAT+S Y+F+   NYY+
Sbjct:  125 DIPYNGRRKPLRKMLGETATIVMNIKLDDPETNRQIPALTTLVEKYSQQGLNAICVPTDQGDYEPDDSTTVRIKVKQQFGMSSALKGPIVVTDKADIVGKFAHPLYKYMTTHAPNPNNVTRITLNYEKFLLDGEGNVLRRYPRQWGSDLIEKDVKAVISGDPLEPVSKKWQLAWSEADKEATRSMYSFRKHYNYYD 320

The following BLAST results are available for this feature:

BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot

BLAST of mRNA_C-linearis_contig9.16466.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G2W3_ECTSI	2.090e-128	90.91	Glutathione peroxidase n=1 Tax=Ectocarpus siliculo...	[more]
A0A835Z1R8_9STRA	5.610e-83	64.43	Thioredoxin-like protein n=1 Tax=Tribonema minus T...	[more]
A0A7S2UVM6_9STRA	7.390e-77	59.05	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S3XXI6_HETAK	2.560e-76	62.24	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
W7TC45_9STRA	1.190e-67	60.31	Glutathione peroxidase n=3 Tax=Monodopsidaceae Tax...	[more]
A0A7S2CSS9_9STRA	9.820e-61	52.71	Hypothetical protein n=1 Tax=Florenciella parvula ...	[more]
A0A7S0E1J0_9CRYP	1.210e-56	52.31	Hypothetical protein n=1 Tax=Hanusia phi TaxID=303...	[more]
L1JD48_GUITC	1.440e-55	51.79	Uncharacterized protein n=2 Tax=Guillardia theta T...	[more]
A0A0G4FMZ4_VITBC	5.920e-55	50.51	Uncharacterized protein n=1 Tax=Vitrella brassicaf...	[more]
A0A6U4LLP0_HEMAN	1.460e-54	50.00	Hypothetical protein n=1 Tax=Hemiselmis andersenii...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
C-linearis_contig9	contig	C-linearis_contig9:255488..269558 -

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
OGS1.0 of Chordaria linearis ClinC8C monoicous	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	392.9
Seed ortholog evalue	1.7e-106
Seed eggNOG ortholog	2880.D7G2W3
KEGG rclass	RC00011,RC00982
KEGG ko	ko:K00432
KEGG Reaction	R00274,R07034,R07035
KEGG Pathway	ko00480,ko00590,ko04918,map00480,map00590,map04918
Hectar predicted targeting category	chloroplast
EggNOG free text desc.	glutathione peroxidase activity
EggNOG OGs	COG0386@1,KOG1651@2759
EC	1.11.1.9
COG Functional cat.	O
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko00001,ko01000
Exons	5
Model size	1944
Cds size	1104
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622930712.08396-UTR-C-linearis_contig9:255487..256250	1622930712.08396-UTR-C-linearis_contig9:255487..256250	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig9 255488..256250 -
1690881210.0239441-UTR-C-linearis_contig9:255487..256250	1690881210.0239441-UTR-C-linearis_contig9:255487..256250	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig9 255488..256250 -
1622930712.1907535-UTR-C-linearis_contig9:269481..269558	1622930712.1907535-UTR-C-linearis_contig9:269481..269558	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig9 269482..269558 -
1690881210.093963-UTR-C-linearis_contig9:269481..269558	1690881210.093963-UTR-C-linearis_contig9:269481..269558	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig9 269482..269558 -

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


Feature Name	Unique Name	Species	Type	Position
1622930712.1046398-CDS-C-linearis_contig9:256250..256382	1622930712.1046398-CDS-C-linearis_contig9:256250..256382	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 256251..256382 -
1690881210.0370522-CDS-C-linearis_contig9:256250..256382	1690881210.0370522-CDS-C-linearis_contig9:256250..256382	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 256251..256382 -
1622930712.1223977-CDS-C-linearis_contig9:257152..257297	1622930712.1223977-CDS-C-linearis_contig9:257152..257297	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 257153..257297 -
1690881210.0461428-CDS-C-linearis_contig9:257152..257297	1690881210.0461428-CDS-C-linearis_contig9:257152..257297	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 257153..257297 -
1622930712.142526-CDS-C-linearis_contig9:261259..261393	1622930712.142526-CDS-C-linearis_contig9:261259..261393	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 261260..261393 -
1690881210.0590057-CDS-C-linearis_contig9:261259..261393	1690881210.0590057-CDS-C-linearis_contig9:261259..261393	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 261260..261393 -
1622930712.1558275-CDS-C-linearis_contig9:261721..261796	1622930712.1558275-CDS-C-linearis_contig9:261721..261796	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 261722..261796 -
1690881210.071916-CDS-C-linearis_contig9:261721..261796	1690881210.071916-CDS-C-linearis_contig9:261721..261796	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 261722..261796 -
1622930712.1709466-CDS-C-linearis_contig9:268863..269481	1622930712.1709466-CDS-C-linearis_contig9:268863..269481	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 268864..269481 -
1690881210.083666-CDS-C-linearis_contig9:268863..269481	1690881210.083666-CDS-C-linearis_contig9:268863..269481	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig9 268864..269481 -

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


Feature Name	Unique Name	Species	Type	Position
mRNA_C-linearis_contig9.16466.1	prot_C-linearis_contig9.16466.1	Chordaria linearis ClinC8C monoicous	polypeptide	C-linearis_contig9 256251..269481 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at C-linearis_contig9:255488..269558-
coding sequence from alignment at C-linearis_contig9:255488..269558-

protein sequence of mRNA_C-linearis_contig9.16466.1

>prot_C-linearis_contig9.16466.1 ID=prot_C-linearis_contig9.16466.1|Name=mRNA_C-linearis_contig9.16466.1|organism=Chordaria linearis ClinC8C monoicous|type=polypeptide|length=368bp
MTSTSTKAVSALALALTCFRQASAFVAPATTAAGPGISVDIEMRRLHRKE
QPSLSLSLRRRRRSVPRLSMLKGDDVSKLGRDSDDLSGGDGGASTRLEFG
AGLGAAAAAIVLGGTTAALAEDASTAVAGDAAAAGAEEAAQESSPEVAAP
PPAAAASTSTAETRPLRELGFEVPYTGKSLPLSKFLGSRATLVVNPKIDD
PESLHQMPGITKLASEYSKDGLNVLLFPTDQGTFEADEDRVVRIKLYQFY
GFGQFPKAVVFDKIDIVGNTIHPLYRYLCRGLKNPNGIARITLNYEKFLL
DKDGKVVRRYPRKLEAADFEADVKAVLEGDPLPAEKRDYKLSWLKADQEA
TKSEYAFKLGLNYYNNN*

mRNA from alignment at C-linearis_contig9:255488..269558-

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_C-linearis_contig9.16466.1 ID=mRNA_C-linearis_contig9.16466.1|Name=mRNA_C-linearis_contig9.16466.1|organism=Chordaria linearis ClinC8C monoicous|type=mRNA|length=14071bp|location=Sequence derived from alignment at C-linearis_contig9:255488..269558- (Chordaria linearis ClinC8C monoicous)
GCCGAGGCGGAGCGTTGTTGTTTAGGTGTGTCCACAGCATCAGCACAAAC
CTCACCAGTGTGTAGGAGGCTAGACTCATGACTAGCACCTCCACGAAAGC
GGTGTCCGCGCTCGCCCTAGCTCTAACATGTTTCCGACAAGCATCAGCCT
TCGTCGCGCCAGCCACAACAGCAGCAGGGCCTGGCATCAGCGTCGACATC
GAAATGCGCCGGTTGCATCGAAAAGAACAACCGAGCCTCAGCCTCAGCCT
CAGGAGGAGGAGGAGAAGCGTCCCACGGCTCTCGATGCTCAAAGGCGACG
ACGTCAGCAAACTGGGCCGTGATAGCGACGACCTGAGCGGCGGCGACGGC
GGCGCGTCGACCAGGCTAGAGTTCGGGGCAGGACTGGGAGCGGCGGCGGC
GGCCATCGTGCTCGGAGGCACCACGGCCGCTCTTGCGGAAGACGCTAGCA
CCGCCGTTGCTGGGGATGCTGCCGCAGCGGGCGCGGAAGAGGCAGCGCAA
GAATCTTCGCCGGAGGTTGCGGCGCCGCCCCCGGCCGCCGCTGCTTCGAC
TTCGACGGCGGAGACGCGGCCGTTGCGGGAGCTGGGGTTCGAGGTGCCCT
ACACTGGCAAGTCTCTGCCGTTGAGTAAGTTCTTGGGTAGCCGGGCGACG
CTCGTGGTGAACCCCAAGATCGACGACCCAGAGTCGCTGCACCAGGTGTG
TTGGTGTGTTTCGTGTGCAAGCGTGGGTGTTGGGAATGCGTGTCCTGTTA
TGCGTGTACATCCGTTTTCCTGCGTATATTTGAAACATGTGTCGCATTGT
GTGCACATGACACCGATGGTAAGACTATGGCAACAAATCTCAATCTAAAT
CTTGATTTTTGATTGGGGGGGGGGTCGAACCAAGAAAAATATTTTGACGT
ACGCTCCTTTGTTGTTGTTGTTGTTGTTGTTGTTGTCTTCACATTAAAAA
CCATCCCGGTCCCGTCTCTATCGAGTACCTCCTTCTGTCTCAACCTCTCC
GTACTAATCCATCACTTGACGCGGCCAATTTCCGTGGTCACAAGCTAACT
TACCTAAAAAGGTACTGAAAAATAAAACGGACCCCAAGGGCCAGCAGAGC
AATAGAATACGAGAAAAATTAAAGAATCAGGAAACAAATAGTCTGGAGCC
CTCCGCTCCCCTCTACACGCTATGTGAGGCAAAAATAAAAATAAAACAAT
AGTGGAGCGCCAGCATCACCAACCAGGGGTATAACCTCCCGATTCTATCT
TGCTACCCCTACGAAGCCGGGGTGTTCCGTCCCAGTTCCTTAGACCAATG
CTAATGGGACCCGAAATCTTAATCTTAATCTTGATTTTTGGTGGGGGGGG
AGGGGTCGAGTCAAGAAATATCGCGGGTGTACACTTCTTATGGAAGCAAA
ATCTTGCCTCAAAATCTTGGCAAGATTTGGAATGACAACGAAGAGCCCCC
TTTTGCCCAAATATTTCACCAAGATCCGGACGAGACAAGGCCCTCTCAAA
TCTTGTTGGTGGGGGGGGGTGCGGCTCAACTAATTCAACACCCAAGCACC
ACCATCAGCAAGTGCGACCGTAGTTCTCAACGTATCGCTTCCATCAAGAG
CTCCGAGCAACCCTAGGCTGGCGGTGCTGCAGGTATGCCCGCTGGTTGGT
GATGATCGCTCGCGAGGCGAGCGCAAAAAATAACATTTCGAACCACACGC
CACACGAACAAGTCAAACCGCCTCTATGCAGCAGCAAAGGAAGCTTTTCG
GCAGAGACAGGAGGATGAAAAAATCGAGTTCTCCCTCGCTACCCCAGGGA
TCGACGTAGAACCTGGCAAGATGTCACCTCTGTTCCCTATACCTCTTCGG
TGCATCGTGGCTTAGCAATCCGTTCAATCAATCGAGAGAGATACGCATCT
GCGTGTACACAGGCCGTCTGTTGAAATTGGTTTTCAGGCGTTCAACCAAC
CACTCTATTTTCAAGTCAGCAAAAAAGGGAAAAACATCATTTCGAAAAAG
CACTTGACACCACGCGCGATGCTTGTATCTGTCGATTGAGAGCGCCAACC
GCTAAACCAAGCTCCTCCGAAGGAGAATAGGGAATAGAGGTGACACACTG
TGCCAGGTTTTTTACGTCGATCTGTGCTGTAGCGAGCGAGAAATCGAAAG
CGGTGTCCTCGTCTCTCGGTAAAAAAGCTGCCTTTTTTGAGGCAAAGAGA
CGGTTTGACCTCTTCGTGTTTTGGGTGATTCGAAATGTTTTTTTCCCGCT
CCCCTCGCGAGCAACCATCACCAACCGGCGGGCATACCAGCAGCACCGTC
AGCCAAAGGCTGCTCGGAGCCCTTTGTGGGAGCGATACGTTGAGAAGTCA
TGACGCAGTTGGTGATTGTCTGGACCGAAGGGTGTTGCATCCACCCCCCC
TCTAAACCAAGATCAAGATTACGTTTTCCACAAACACGCACACGTGGTAA
TCTTAATCTTGATCTTGGGGTGGGTCATCATAATCTTGCCAAGATTCAGA
AAAATTCAAGATCAAGATTTATTTCCCATAAGCTAGGTCTTATGGGGCCA
AATCTTGCCAAGATATCTTGGCAAGATTTGAAATGACAGCAAAGCACCCC
CTTTCTCCCCAATATTCGGCCAAGATCGGGGAGACAGCAGGCCTTGTCAA
AACTTGTTTGGCGGGGGGGGTGCGACGAGGCCCAATCGATACAATCAGCG
AGTGCGACCTGGGTTCTTAACATATCACTCTCCTCAAGGGCTCTGAACAA
CCCTAGGCTGAAGGTCTGGCTATTGTACACGCTGGCTGGTGATGATTGCT
TGCGAGGCGAGCGTGAAAAAAACATTCCACACCGTACCGAAAACGAACGA
GTCAAACCGCCTCCAGAGAGCAAAAACGGCAGCCTTTTGGCGGAGATTGG
AGGACACTGCATTCGATTTCTCGCTCGCTAGAGCACGGATCGCCGTAGAA
TCAGACAGGATGTCACCTCTGTTCCCTATCCTTCTTCGGTGGAAGGTGGC
TCAGAAGGTTGTTCACTGTTCACGCATTCGACAGATAGAAGGGTCGCGCG
TGGTGTAAGTTGCATTTTCGAAATGAAAATAATCCTGTTTTTTCTCACTT
AAAAATAGACTGATTAGTTGAAGGGCAGAAAATCGATTTCAGCAGACAGC
TTGTGTGCACGCACATGCTTCTCTCTGTCGAATGCGTGAACCGCCTTCTG
AGCCACCTTCCACCGAAGAAGGATAGGGAACAGAAGTGACATCCTATCTG
ATTGTACGGCGACCCGTGCTCTAGCGAGCGAGAAATCGAATGCGGTGTCC
TCCTGTCTCCGCCAAAAGACTGCCGTTTTTGCTCTCTGGAGGCGGTTTGA
CTCGTTCGTTTTTGGTATGGTGTGGAATGTTTTTTTCACGCTCGCATCGC
AAGCAATCATCACCAACCAGCGTGTATAATAGCTAGTCCTTCAGCCTAGG
GTTGCTTGGAGCCCTTGAGGAGAGCGAAACGTTAAGAACCCAGGTCGCAC
TCGCTGATTGTGTCGACTGAAAGTGCATTGTATGCCCCCCACCCCGTATC
AAGATTAAGATGCTTTCAGATACACACGTATGTACACGTACAAATCTTGA
TCTTTGGGTAGGGTATATAAATCTTGGCAAGATTAAGATTTGGAAATATC
GAGATTGAGATTTTTTTGCCATAACCAGTGGTGTGATCAACCACATACTG
TACCTGGGCAGCCCCCCTGTTTCTCGAGGTTTGACCGCATCCTTCGGAGA
AATTATGCAATATAAACCAGTGATGATGTGAAAAACCGCTAACCGGTTAT
AACCGGTTCTCACTTTCGCGGTAAGTTGCATGGAAATTCCCAGTTATTTT
CTCAGTTTTTTCTTTTCCTTCTTTCTTTTTTCTTTTTTTGCCACACGCAT
TTGCGTGCGATCTGCGATCTGTGGGGAGAGTCACAGCAGTAGCACAATAT
TAGTCTATAATAGTGCCTATTTCTTATTTCTTATTATTTCGAAGCTTTTA
GTCTTTGTTATTTTCTACAACTTAGGACACTAAACGATCAAGACTCATGA
ACCATCAGTCATGTTTACTCCGGAGTATTTTTTATTTTTTGGTCTCCGGG
GGTACCATATATCACAACCAAAATTAGCATTAATTGCAACATTCTAACAG
GGCACAGAGCATACGCGATAAAAACACATAAACATACAGCAGCAACAGCA
CAGCAGTGACGAACCGCAATGTCATACAGCAATACAGCACGTCTCGAGAG
CTCGAGAGCCTTTTCAAACGAACGCTATTAACGTTGTTTAACACCCCGGG
GATGGGTCGTTTTCGTCCCCGGTAGGCGCGGTTATAACCGGTAAGTTACA
TCAAAGGCTGATTTGCGGTTAGCACCGGTAAGTTACATGGCTGAACCACG
TTTAAAAAAAAAAAACACGACCATTATTGTGCTACTGTACTGACGCCCCC
CACAGATCGCAGATCGCACGCAAATGCGTGTGGCAAAAACTAAAAACAAA
AAAACAAGGTAAAAAACTAAAAAAGAAAGAAGGAAAAGAAAAACTGGGAA
AATAACCGGGAATTTCCATGTAACTTACCGCGAAAGTGAGAACCGGTTAT
AACCGGTTAGCGGTTTTTCACATCACTGATATAAACGGTCGTACCGGCAA
CTACCCGCCGACTAGACAGATATGGGCACTGATGTAGGAGGCTTGATAAC
TGTCTACCAGTATAATATACCAATGAGCAATACAGCAGTCCTGCATAGCT
CTATGGGTTCCTGTCCTTGGGTGCGGCACCAAAGCTTGCATAGATTAAAA
AAATAAAAAAAATCTCGCGCTCCTCCTCTTCACTACAACTACGGATATAT
AAGCTAGGCTACCATCCTCATCAACAATGAAATCGAAAGTTCAATGTAAC
ATGTCAGTTACCAGGGATCTGCCTCCTTCAGAGAGGTTGTGTAGCTAAAA
TATATATTGTAGACTCTCCCTTCTTCCCCTCGCTGCCTTGGCAAGGCTTT
TGCTTAGGCATGGCCCATAGCGAGGGGGGGGGTCTTTCTAGCGAGCAAGG
CTAAACTCACCCTCAGGTGGACCGATACCTTCTTGCTGCTGCGCACCCGC
CGCGAGGCGTGCGCAGCGGTGGAGTTAGGTCGGCACTGGTGCGTCAGGCA
CAAACGTTCAGATGCACGAGTCTTTAATTTATGGCCGTCGGTGTAGACAG
CAATGTCCATCTCATTTTGTGCGCGGAGGCAGACGCCACCAGAAAGGTGA
AGGACACTACGTACACGGCCCTAGGTTTGCTAGAGGGAGCTGTACTGTCT
CGGTAACCTGGCTTCGCTGCGCCATCTAAGGAGGATGGATGGGTGGCGAC
GAGCTGAAGACTGGGCTGGTTGACCCCTCCGGCGCGAGATTTTGTTTTTG
AAGACCAAGCACCCTAAGTGCAACGAGGGAGAAAGCGAGGGACCGGCTGG
GAAGGACAGCGAAGAGAGCGTGTACGGACGGAGCGGGTCGAGTGTGGTCG
TGCTAGGACTGGCCACAGCGGCACCAGAGCAGCGGCACCGGAGCATGCGG
ACGACATGGAACCGTGGCGCACGGACAAACATTATGCGTTGGCAATTATT
TCTTTTTTTTCTGGATGTTGGTGCTGGGTTTTTGTGATGACGTCACTGAT
TTTGTAGAGAGACGCGACAGCGATGGCGCGGATACCCCGGGTGCCTTAAG
TGTGTACCTGCATCGTGGAAGACCCTTCAATGTGGAACGATTCCTAGTCA
GTGTCGATGTTTACAATGCTGTGCCTAACACAGGCGTTCGGGATAGACTC
GGGTTATTGTCAAATGATGTGATGGCTTTGTTTGGTTTGCTGTTCTTTTT
CACTACTGTATGTCCGCGGAATGTCATTCTGGCAGCACTTCAGACAGCAG
CTGCGTGCTCCATTCTTGTTCCCACGCCTACCGTGTGTTTTTTGTACAGA
CAGCACTTCAGACAGCAGTTCGGCTGTAGTCGGCTAATTCATCGGTAGGA
AGTGGGAAGGGGGGGGTGGGGGGCGATGCTGCTGTAGTCGAATGGACACT
GCGGGCGTGCAGTTCAGTTTTAGACACGCATAACTTGCTGTAGGTATTGA
AGCTGTGCCTCTTCGGGCTTGTGTACCCTTTCCGTGCTAAAAGTGTGCGT
GTTCTTTAGGATTCTCTGATGGCTCTAGCACTTTTGTGACCACGGGCTGT
GATCTTGCTAGATTTCAGGGATTAGCAACTGTAACGAGTTTAGTGTGAAG
ACAACAACAACAACAACAACAACAACAACAACAAATAGCGGCCACTACTC
GTTGATAAAGGCATAGCTGTGCAACAATTGACGGTCACAGCAAAGCGTGG
TTTTGAAATGGCAAAAAAATCAAAAATTGGACTCGACAAACCAGGGCGAG
GGGGCGATGACAACATTGAACATTACAACAATGGGGGTTAGCATTCCATC
TCATCTCGGGATGAAGCACCCCACCAGCGCATACTACTTTTGACTCGACG
CTTCAAACATAAGGCAACGGCAGCCGGACACTGAATGTAGACTGGCCATC
AGCAAAACATCTCGGGTCGAACTAACTCTCTCGCGGGCCATTGTATAAAA
AGTGGTGTTTTTTTGTTTGTTTTTTCTGACTCCTGTCAGCAACGACACCT
CCTGCCACAGGCGGCGAGCGGCCCCCAGTAGGGATATGCAAGCGTCTGCT
TTCGGGGAAATGCAAACAGATTTCCAGCCGTACTTTTGTTCTCACTCTCC
CACAGTTCCATGTTGTACCGTAGGCTGCTTGCTGAATCTGAAGACAGGTA
GGTACACAGTATCAACATATACAATGCACATACAATGTGAATGTGTATCA
TCATTTATCCTGGTACTGCACTTGCTGCTCCAAGTAGGCACAACAAATTT
AAACCGAGCGCAGAAAAACGTCACATCAGTCGGAGAGCAGCTTCGTTTTC
CGGCAGAGGCGTGTCCCGATGTTGATATTGATATTGATATTGGTTGTAGG
ATATTGAATGGCGTTTGCTTGTGGAGCTGCTGATTTTCCTCAACCCAAAG
CGATCCGACAGAGCCTTCTGGTAACCTAGAGCCAACAACTTAGGTTACTC
TGTAGCAGCAGATAAGTTCGTAGTCGATTGACTACTCCCGATAGTTGTGG
TTGCTGTCGCGATGTCGGTGTGTCTGCGATATCCTTACTGCATGGCTGTT
TTCTCTCGCTTTCGTTCCTGTCGGTGGAAAGCGCTTAGTTCGTGTGTACG
CTTGAGGGAGAGACGGCTGAAACCCTCTCACTTTAAAAACTACCAGGCAA
GCACCGCAGAAGGTGGGTGGGGGCCTCAGGGGGAGGAGCCTTCTGTGTGA
CCACGGTTCAGATGTTCTGGCAAGATGCCCCGCGTGGCAAGGCGCCCCTG
CGAACTCTGGAAATAAGTATGAAGACGAAAAGAAAAAGAAAAAAAAATGG
CTGACTCGTAAATTTTGTTTACTACGGTGCCAGTAAGACTGTCGGGGCAA
TTTGCTTGCGACTTCACTTATGTTATATTCGTATATAGATTATCCATATC
GAGAAGTACTTGTATGCCGTTCTTAACACTCTCATGAGCAGACTCAAGGT
GCGGTGGGTGGGAACAGCTGTCCAGATGCATCAACAAGCAGGGAATAAAA
CACGCCCCGAACACGTCCGGTTTTTTTTTTTTTTCTCATTTCGGCCGGGT
TCTGTCTACATCCACCGCCGTTTTGCTGTCGCTGTGCCAACATGTACACC
TGACCATAATAGATGCCGGGGATCACCAAGCTGGCGTCGGAGTACTCTAA
GGATGGGCTCAACGTGTTGCTGTTCCCGACGGACCAGGTGACGGTTTCGT
CTTTTTCTTGCCTTTTTCCCGTTTCGTTTCGTTTCGTTTCGTTTCGTTTC
GTTTCGTTTCGAGGTGGTACATACCTGTAGCCGATGGACGGTTCAAGGGA
GACAGACATGGGTCTCGGGGGATGTGGATTAACAATGTTGGACAAAGCGC
GTCCCAGCAGGCACACCGTATAGTACATAGCTGGTATTGTAACGGAAGTG
ACCAGTTAGAAAGGAAAAAAAAATGCAATGCAAACCAACAATGACAATGA
CAGTGACAAATGATCGCGGCGGGTTGTGGTCGCTGTCGCGGTGGTTGATG
GTTGGTGGATGACAGGGCACGTTCGAGGCGGACGAGGACCGCGTGGTGCG
AATCAAGTTGTACCAGTTCTACGGTTTCGGGCAGTTCCCGAAAGCCGTCG
TGTTCGACAAAATCGACATCGTGGGAAACACGATACACCCATTGTACAGG
TGGGTGGTGTCTAACATTACAGGGTGGTGTTCTACATACTGCTGTATGAG
ATGATATTATACCGCAACCCTGGTGACTATGACTATTTGGCGTTTCGCAA
CTCTGTACTGCTGTGGCGTTGTTGTTGTTGTGGTTGTTGTTGGTGTGATG
ATGATGGCAACTAGGGTTGAAGGTACTTGGTGTTGTGGCGGAGTGGAGTT
GGTGCCTTGTTGCTCGCAGCTGAGGTCATCGCACCGCAACGTATCTTTCG
TATTTCGCTTTGCTCGTCGGCTCTCCTTCTATTGCTTCCTTTCCGATTGA
TGTGAGCGGAGTGTGTTGCACTTCCGCGCAGTTTTGCACACTCTCACAAC
CCGCTATCTTGCACACAGCGGTACCAAGTTTGGTGGAGGCGGGGTGAACC
CTATACGGCAGCATGGCAGCAAACGGGGGTGGAAATATGGATGAGTGCGA
TCTTTTCAGAACAACAGAGACACGTGTATACTACATATGGTATTACGGAG
GAACACAGTAGTCAGGACCAAATTAGAAACAAATCGTAACTTCTTCAATA
CGAAGGCCCCTTTCACAAACTATAGCGCAAATTGACGACCAAGTAAAGAG
CTATCATCCTACTTCCAAAAAAAAAAAAAAAAGCGCCATGTCTCGGAGAT
ATGATACGAAGTAGGTATTTAGTGTGTAATCGTACCAGTGGTGTCTCATT
TTTTTTTGAAACGCGGTGTTGAAACGATACTGCCCACAGTTTGCACCAGT
GATCGATGTTTTGTGTCAACAGGGTGATACAGCCATCTCAAATGCAAAAT
ATCAAACAATATAACAGCTTGCACCCAAGATTGCACCTTCTGCGCAGCAC
CCTTGGTGTCGTTGTTCGTGAATCAAAGTCGAAAAATATTGGCCCAAAAA
AAGGGCATTTTTTATAGCAATTTTGTTTTCAGCCCTCAGTGGCATCTTCC
GCGTCCTCACCCAGCCACTCATATGTCTGCTCCTCCACCCCATCCTCTAT
CTCATCCTCGGCCGTAGCCTCGAGGTACTCCGCCGCCGGATACACGAGGC
TACCGATCGTGCCGCTTAGGTTTCCACCATACAGGCTGATCCACTCGTTC
ATCTTGCCAATGGCATGTTCCACCAACTTTCCACAATTGGCTGCCTTCCA
CCCCCCTTCCTGCCCGTCCCATTTCGGGTCTCCGTACCAACCCAGACGAA
CTTGCTTCCAGACATCCAACATGTTCCGCCCCTTCTCAAAATGTATGCTC
ACGTATTGCTTGCCGTGCTGCCAGAACAGCTCGATCGGCTGGAAAGTCGG
CATGTACGGCGGTGTCCAAATTAACCCCCACCCCTTCTCTCTCATGTACG
ACTCCGCCTTTTCCTCGAGCTTCTCTGGGTAACTCTCTTTGAAGAACCTC
CGAGTGACGGAGGCTACCTCCTCTTTGCTGACGCCGTTTTTGCGGTTCGC
ATTGGGCAACGACCCCTCCGCCGGCACCTCAAAGTTGCGCTGAACAGCCT
CACCCTCTGACTCACGCGAAACCTTGAACGACTTGCAACCGTACTTACGC
AAGAGTTCAACGTTGTACTTCTTACTGTTGGTTTCGGGCACCTTGAGCTC
CTCGTCAAAGCAGTGGTGGTAAGAGGCGTTATCGAGAACGAGAAACATCT
TCTTGTTCTTGAACTGCGCGTCGAAGGCCGGGGTAAGCCGGTGCTTCAGC
CACTGCATGAACATCCCATCCGTCATGGCGTTGTGATAATCGCCAGTTGC
CAACTTGGCCTGCCACAGAAATTCCGCTGTCTGCTCGTCTGACATTACGA
AATCCGCCTCTCCAGGCTTAATCTTCTTCTTACGGTTTTCCTTAGCCTTG
AACCAACCCTCACGGACAGGAAACCCCTCCTCCTGTAGCTTGGCCAAGGG
CCCGTGCTTCGTGATCGCATGCACCATGATAATACGCAAACCCTTCCCCG
TTGTACGGCCTATCCCATCCTGCACAACTCCTTTATCGTCAACAGGGAAG
TACGAGTACGCGGAACCATGCGCCTGGTGAACAAAGCTCTCATCCATGTA
CACAATGACTGCGATCCCAGCGTCCTCGACCCTCTTTGCGAGGTCCATCT
TCACGAGAAAGAGGCGGATGCGTTTTTTCCTATCCTCGTTCAACGGGGGT
ATTTTGATCCTACCCCTACGGCGCTTGAAGCCAAGGCGCTGCAGCAACCC
TCCCACCGCACGATTCGACATCTCTAACCCGCACGAACACTCCAAGTGAT
CCTTGACGGTACGACGGAAGACCTGACGTCCCGCCTCGTGCTCGCTCTTG
ATGAACTCGTGCAGTCCGTCCTCTTGCTCCTTGGTGAGGACCCGTCGCTC
GTCGTCGTCACCGGAGACCTTGCCTCGCCCCTTCCCGGTGGTCTCGTACA
ACTCCTGCTTATCATACCAGAGGGTACGAACAGCCAGGACCTTGTCCGTT
CCGATCTTCAAGGTTTTGGCGACCTGATACCCATATGCCAACGAACAGAG
AGATGGTGGAAAGTCGTCAGCAGTGTTGCGTTGCGCATATTTGAAAGCAG
CAGTACTGCTGTAAATGTAAACAGTACTGCTGTAAATGTAAACAGTACAA
CAGTACTGCTGTAAATGTAAACAAGTATGCTGTAAATGTAAACAGTACTG
CTGTAAATGTAAACAGTACTGCTGTAAATGTAAACAGTGCTGCTGTAAAT
GTAAACAGTACAACAGTACTGCTGTAATGTAGACAGTACTTACTGCTCTA
AACGTAACAATACTGCTGTAAATGTAGACGTACTGAAACGGCATTGTCAT
GCAGCACTGTTGTACACAGAAGTACAGATATACACAGCAGTTATAGATTT
TCGATTCCACAGCAGTTTGTTGTTCAATACTGCTGTACAGATACATACAC
GGAACACAGACACACTCCATGTACACAGCAGTTTTGCTGCTGTAAACAAC
ACGCACACACACAGCCTCACTGACCTGATCCTTTGCCTGGTTCTCAGAGC
TTCCCCCTTTCACGAGGTCGAAGTACAGCATGAGGATCATCCTCGACTGG
TGCCGGGATGTCACCTCCCCAGTCTTTGGCTTCAGGTTGTCCATAGAGTT
GTTCATGAAGTCGAGCGCCAGAGCAGGAAGCTTGGACATCGCAGCTTCAG
CAGCTTTGGCGACACGATCATGCTCTCGCTGCTCCTTCTTCTGCTGGAGC
GCTTCCCAGTTCGCGATGTCACGCGCGAGCTTCTCCTCCCTCTTGGCGAT
CGACGCTTTGGTAGCCTCGACCTCCTGCTGCTGGGACGCAACGGCTGCTT
TCTCCGTCTCGAGTACATCCAGTTGCTTGTTGATCAGCATCTGGCTTCTC
GCGACCGCGGCATTGGCTCTCTTTGCCGCCTTTGGCGGACGGCCATTGGT
ACCGCCAGTGGCTTTGAACCTGCCGCGCTTCGCCATGCCGAGTGCCCGTC
TTCGTGGACGCGTTGCTCGAGAGATGTGTACTCGATTTCAAAAAAAAATT
TGGTGTTGCACGCGCTCGGTTCCATAGTTTTGAAAGGGTTCCATTTTAGA
ACCTATTTTTTTTTCCTTGGACCGCAACAACCCCTCCCGTGCAAAATTAG
TGGTCTGAAGTACCTGTTTTCAACGCCCTGCCTCTTGTGTTGTAGCTTTG
CGATGGGCACAATTTCAGCACCATTCAAAAGATAATAAAAAGAGCAATCG
ATTGGACCCGCCACCTGTGCTTTTTACATGCATACTGCCTGAAAAAATTG
CGAAAAGGTGCTTAGGTTTGGTCATTTTTCCCAGACAATAAAAAAAAAAC
ATTTTTTTTCTTTGGCAGAAAAAAGGCCAAATTTAGTCTTGATTAATATG
TGCCTCCGTGATAGTAAACTGGGACAGGTTGCGTATCCTGAATTGAGTAC
CGCTGCTGGTGCTACTGCTTCTGCTGGTGCTGCTGCCTGCTGGTGCTTCA
TTCTTCCACAGGTATCTCTGCAGAGGGCTGAAGAACCCCAACGGTATTGC
GCGCATCACGCTCAACTACGAGAAGTTCCTGCTGGACAAGGACGGGAAAG
TGGTGCGACGGTATCCGCGAAAGCTGGAGGCGGCTGACTTCGAGGCGGAC
GTCAAGGTGAACCCCGCCCTCCACGGCAACGGCATGGTCAATCCCGCTAA
GCGCTCCGTTGCGGATGCATCACGCATGTATCAATCGGGGCTGTCTGTGC
GTGTTGTTCTTCGTGGTTTACTTCACCATCGCAACTGTTTTGTCGCCCCA
CATATACGCAAAAGAAAAACGGACGCCGTTGCTGTCCCCGTTTCATTTCG
TCAAGAGCACCCGCCCTATCATATGTCCTATCATATGTTGCTGCTTCTCT
GTTCTAGTTGGAGTTGCAACGATGCTTCATGAGTCTTACGTGATGATGAG
GCTGGCTAATGGTGCTGCGCACAAGCGTGTGCGCAGCGCAGCGCGCAAAC
GCCCTCCGGCCGCAGAGCGAAGACTAAAAAACAAGAATCGGGTCTGAAGC
ATTGCGACGCGCTTGTTGTGCCTCCGGTCCGCGACGTCCCCTGCCGTGCG
GCAAGAAGTAACTGACGCCAGAGCAAGCGACGCTACAGTAGGGTTGTTTG
TGCACGCCCATCCTTTTGGCATTGGTGCGCATAAAAACAGACAAAGCAAA
ACCTTGTACTCGTACTCACGGTTATTCTGTGATGACACATGCACAAGTGC
TATTAACTATTAACAATGCTGCTGCATGGAGAGGTTTGTCGCTGCCTCCA
CTGAAGATGGAATGGAAACGGCCCGTCTCTCGCCATCTGATGCTTGTCGG
GCGCCCGCCTCCCTCCTCACGCCCCTACCCCGATCCTCCCGTCCCCTTCC
ATCCTGTCTCCCTTGACTCGACTTAGGCGGTGTTGGAGGGGGACCCCCTG
CCCGCAGAGAAGCGCGACTACAAGCTGTCATGGCTTAAGGCGGACCAGGA
GGCGACCAAGTCCGAGTACGCTTTCAAGCTCGGTCTCAACTACTACAACA
ATAACTAGTCTCGTTTTTGTCTATATTGTCTAATTAGTCTTTAGTCTTGG
CTTGAAGGTGTTTGGTACACGCATTGCTCGGGTTGGAGGGGGGGCGAGCA
AGGGATAGAGGGGTAGGTGTTGGTCGTAGAGATGCTGCTCCAGTGCGTCA
AGTCAAGTCAAGGCAAGTCAAGGCAAGGCAAGGCAAGTCAGGAGGGGTTT
TGTTTCTGATTTGTGAGGCGTTTTCACAACATGACACGTGTTGGTCGGTG
CACTTGGAGGAAAACAAAAACACTTAACACTAACACTAACACTAACACTG
CTGCAAGCGCTTGTCGTACATGACACACGACACACGAGGGGTAAAACCAA
CGTGAAGGGCGTGAAAAAAAAGGTGAAATTATGAAATTATAGTATTCTGT
TCGTTGTTGATGACAATTAGACGAAGAGACGGGAAGGACGCGAAGAGAAG
AGCAATTAGATACACACCAGTGTCAGTGTCGGCGTTCAGTGTTGTTTTTG
CCAACGTGTGGGCGTTGCAGCGCGAGAAGCCCTCGATAGATTCATTTCAA
AGATTCAACTCAATGAAGAGTTTATCAGTGATGCACAAGGCGCTCACAGA
TTTTTCTTAGCAAGCAAGCGCACCGCGGCACCGGCACAGTATGTGTGCAC
ACGCACATGGAAAACGCCGGCGTTAACGTTTCGTGTATGGGGTTTCGACG
GGGCGGCGGCTGCGACTTAGCGTACTGTGAGGCCCTTGGGATCTCTGTGC
CAAATTCAAGACAACAGACGA

Coding sequence (CDS) from alignment at C-linearis_contig9:255488..269558-

>mRNA_C-linearis_contig9.16466.1 ID=mRNA_C-linearis_contig9.16466.1|Name=mRNA_C-linearis_contig9.16466.1|organism=Chordaria linearis ClinC8C monoicous|type=CDS|length=2208bp|location=Sequence derived from alignment at C-linearis_contig9:255488..269558- (Chordaria linearis ClinC8C monoicous)
ATGACTAGCACCTCCACGAAAGCGGTGTCCGCGCTCGCCCTAGCTCTAAC
ATGTTTCCGACAAGCATCAGCCTTCGTCGCGCCAGCCACAACAGCAGCAG
GGCCTGGCATCAGCGTCGACATCGAAATGCGCCGGTTGCATCGAAAAGAA
CAACCGAGCCTCAGCCTCAGCCTCAGGAGGAGGAGGAGAAGCGTCCCACG
GCTCTCGATGCTCAAAGGCGACGACGTCAGCAAACTGGGCCGTGATAGCG
ACGACCTGAGCGGCGGCGACGGCGGCGCGTCGACCAGGCTAGAGTTCGGG
GCAGGACTGGGAGCGGCGGCGGCGGCCATCGTGCTCGGAGGCACCACGGC
CGCTCTTGCGGAAGACGCTAGCACCGCCGTTGCTGGGGATGCTGCCGCAG
CGGGCGCGGAAGAGGCAGCGCAAGAATCTTCGCCGGAGGTTGCGGCGCCG
CCCCCGGCCGCCGCTGCTTCGACTTCGACGGCGGAGACGCGGCCGTTGCG
GGAGCTGGGGTTCGAGGTGCCCTACACTGGCAAGTCTCTGCCGTTGAGTA
AGTTCTTGGGTAGCCGGGCGACGCTCGTGGTGAACCCCAAGATCGACGAC
CCAGAGTCGCTGCACCAGATGACTAGCACCTCCACGAAAGCGGTGTCCGC
GCTCGCCCTAGCTCTAACATGTTTCCGACAAGCATCAGCCTTCGTCGCGC
CAGCCACAACAGCAGCAGGGCCTGGCATCAGCGTCGACATCGAAATGCGC
CGGTTGCATCGAAAAGAACAACCGAGCCTCAGCCTCAGCCTCAGGAGGAG
GAGGAGAAGCGTCCCACGGCTCTCGATGCTCAAAGGCGACGACGTCAGCA
AACTGGGCCGTGATAGCGACGACCTGAGCGGCGGCGACGGCGGCGCGTCG
ACCAGGCTAGAGTTCGGGGCAGGACTGGGAGCGGCGGCGGCGGCCATCGT
GCTCGGAGGCACCACGGCCGCTCTTGCGGAAGACGCTAGCACCGCCGTTG
CTGGGGATGCTGCCGCAGCGGGCGCGGAAGAGGCAGCGCAAGAATCTTCG
CCGGAGGTTGCGGCGCCGCCCCCGGCCGCCGCTGCTTCGACTTCGACGGC
GGAGACGCGGCCGTTGCGGGAGCTGGGGTTCGAGGTGCCCTACACTGGCA
AGTCTCTGCCGTTGAGTAAGTTCTTGGGTAGCCGGGCGACGCTCGTGGTG
AACCCCAAGATCGACGACCCAGAGTCGCTGCACCAGATGCCGGGGATCAC
CAAGCTGGCGTCGGAGTACTCTAAGGATGGGCTCAACGTGTTGCTGTTCC
CGACGGACCAGATGCCGGGGATCACCAAGCTGGCGTCGGAGTACTCTAAG
GATGGGCTCAACGTGTTGCTGTTCCCGACGGACCAGGGCACGTTCGAGGC
GGACGAGGACCGCGTGGTGCGAATCAAGTTGTACCAGTTCTACGGTTTCG
GGCAGTTCCCGAAAGCCGTCGTGTTCGACAAAATCGACATCGTGGGAAAC
ACGATACACCCATTGTACAGGGCACGTTCGAGGCGGACGAGGACCGCGTG
GTGCGAATCAAGTTGTACCAGTTCTACGGTTTCGGGCAGTTCCCGAAAGC
CGTCGTGTTCGACAAAATCGACATCGTGGGAAACACGATACACCCATTGT
ACAGGTATCTCTGCAGAGGGCTGAAGAACCCCAACGGTATTGCGCGCATC
ACGCTCAACTACGAGAAGTTCCTGCTGGACAAGGACGGGAAAGTGGTGCG
ACGGTATCCGCGAAAGCTGGAGGCGGCTGACTTCGAGGCGGACGTCAAGG
TATCTCTGCAGAGGGCTGAAGAACCCCAACGGTATTGCGCGCATCACGCT
CAACTACGAGAAGTTCCTGCTGGACAAGGACGGGAAAGTGGTGCGACGGT
ATCCGCGAAAGCTGGAGGCGGCTGACTTCGAGGCGGACGTCAAGGCGGTG
TTGGAGGGGGACCCCCTGCCCGCAGAGAAGCGCGACTACAAGCTGTCATG
GCTTAAGGCGGACCAGGAGGCGACCAAGTCCGAGTACGCTTTCAAGCTCG
GTCTCAACTACTACAACAATAACTAGGCGGTGTTGGAGGGGGACCCCCTG
CCCGCAGAGAAGCGCGACTACAAGCTGTCATGGCTTAAGGCGGACCAGGA
GGCGACCAAGTCCGAGTACGCTTTCAAGCTCGGTCTCAACTACTACAACA
ATAACTAG