mRNA_C-linearis_contig91.16848.1 (mRNA) Chordaria linearis ClinC8C monoicous

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

Overview


Name	mRNA_C-linearis_contig91.16848.1
Unique Name	mRNA_C-linearis_contig91.16848.1
Type	mRNA
Organism	Chordaria linearis ClinC8C monoicous (Chordaria linearis ClinC8C monoicous)

Homology

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: D7FP06_ECTSI (Chalcone Isomerase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FP06_ECTSI)

HSP 1 Score: 366 bits (939), Expect = 1.040e-112
Identity = 193/232 (83.19%), Postives = 208/232 (89.66%), Query Frame = 2

Query: 3053 MGAFKACSTAAGAAGALLLILLAQPRHYCAEADVKEKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLLE 3748
            MGAFKAC++   AAGALLL LLA P++ CA ADV E+AT ISFRE+V LPGGS S+LMGTGVRVKKIGPAGVKVYAVGLYV+EK A KEL+ H GE G+SLGKN+GFF RVAKS FEKTMVLKMAREVGTEKMVSALAESVKPR+SGS KPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKD GTIKSGPLS AMVDVYLGKKAVSP A+K+FA G+A LLE
Sbjct:    1 MGAFKACTSTLAAAGALLL-LLAAPQNLCARADVTERATKISFREKVSLPGGSGSSLMGTGVRVKKIGPAGVKVYAVGLYVDEKAAAKELEVHKGEDGESLGKNDGFFTRVAKSNFEKTMVLKMAREVGTEKMVSALAESVKPRISGSKKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDAGTIKSGPLSSAMVDVYLGKKAVSPGAKKAFATGVAALLE 231

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A835Z9G1_9STRA (Chalcone isomerase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z9G1_9STRA)

HSP 1 Score: 227 bits (578), Expect = 5.850e-64
Identity = 122/203 (60.10%), Postives = 152/203 (74.88%), Query Frame = 2

Query: 3146 ADVKEKATSISFRERVKLPGGSSS-ALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMS-GSSKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLLE 3748
            ADVKE AT ISF++ +KLPG S++ +L GTGVRVKKIGPA  KVYAVG+YV+   A  EL +H+     +L K++ FF     + FEKT+VLKMAR+VG EKMV+ALAESVKPR++ G    L+ FQ +LL AV KEGAA KGMQFGFVCKPG+LCVS++GK  GTI S  L  AM+DVYLGK AVSP A+ SFA G++ + +
Sbjct:   17 ADVKEHATGISFKDTLKLPGASTAGSLAGTGVRVKKIGPAAFKVYAVGMYVDSAKARSELSKHSSTESRALSKSDAFFKDARSASFEKTLVLKMARKVGAEKMVNALAESVKPRLAPGGDAALEEFQTVLLDAVTKEGAANKGMQFGFVCKPGSLCVSIDGKTAGTINSEQLRSAMLDVYLGKDAVSPGAKTSFAEGMSSMFK 219

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A6S9FSE1_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6S9FSE1_HETAK)

HSP 1 Score: 158 bits (400), Expect = 3.680e-40
Identity = 96/210 (45.71%), Postives = 125/210 (59.52%), Query Frame = 2

Query: 3101 LLLILLAQPRHYCAEADVKEKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGK--NEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFA 3724
            LL+I++A      A ADV E  T I F +R          L G GVRVK+IGP  VKVY VG+Y++E  A++E+  + G      GK  + GFF+R+ K   +K +VLKMAR VG+E M  ALAES+KPRMSG    L SFQ +LLK + ++G+AKKG +  F    G L V +NGK  G ++S  L  A VD Y+  K VSP  R S A
Sbjct:   10 LLVIIVA-----LALADVTEPKTGIKFADRF-----GGLGLAGVGVRVKQIGPLSVKVYGVGMYMDESSALEEISEYAG------GKKADSGFFSRLRKPSIDKKIVLKMARSVGSETMSEALAESIKPRMSGDLPALSSFQTVLLKGLSEDGSAKKGTELAFDASGGKLNVKINGKSAGDVESSSLCDAFVDTYMDDKGVSPTLRDSIA 203

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A7R9YAW0_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9YAW0_9STRA)

HSP 1 Score: 156 bits (394), Expect = 3.170e-39
Identity = 96/221 (43.44%), Postives = 126/221 (57.01%), Query Frame = 2

Query: 3098 ALLLILLAQPRHYCAEADVKEKATSISFRERVK---LPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLLES 3751
            ALL + LA P     +      AT I F  R+     PG     L GTGVRVKKIGP  VKVYAVGLYV+++     L+       ++L  ++ FF  + K+ F+K   LKMAR VG EKMV+AL+ESV+PRM    + L  FQ +L   + K G+  K   FGF    G L VS+NGK  G + S  L  A+ D YLG+ AVSP A+ SFA G+  +L++
Sbjct:    8 ALLALALALPSRGAVDV-----ATGIEFPNRITDKDFPGVGDGTLAGTGVRVKKIGPVAVKVYAVGLYVDQRAVQSSLNSFEAFPEETLLGSKAFFKAIRKAPFDKCFQLKMARTVGGEKMVNALSESVRPRMKSELEALSEFQSVLQSGL-KGGSCVKNTSFGFAANKGKLIVSINGKQEGVVASRELCDALTDTYLGEGAVSPDAKASFAKGLCNMLKN 222

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A7S1XYD8_9STRA (Hypothetical protein n=2 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1XYD8_9STRA)

HSP 1 Score: 147 bits (371), Expect = 4.170e-36
Identity = 84/201 (41.79%), Postives = 120/201 (59.70%), Query Frame = 2

Query: 3158 EKATSISFRERVK---LPG-GSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLLE 3748
            E AT + F+  +     PG G  + L G G R+K+IGP  VKVYAVGLYV+++     L+       ++L  ++ FF  + K+ FEK  +LKMAR VG++KMV+ALA+S+KPRM    + L  FQ +L   + K G+  K   FGF    G L VS+NGK+ GT+ S  L  A  D Y+G  AVSP A+ +FA G+  +++
Sbjct:   24 EAATGLDFKPTMSDSDFPGVGGDAKLAGMGCRIKQIGPVKVKVYAVGLYVDQRAVQSSLNSFEAFPEETLLGSKAFFKAIRKAPFEKCFMLKMARTVGSDKMVNALADSIKPRMKNEMEALTEFQGLLSAGL-KGGSCTKNTAFGFAASKGKLVVSINGKEEGTVNSRELCDAFTDTYIGDNAVSPDAKSNFAKGLCAMIK 223

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A7S4J4F7_9EUKA (Hypothetical protein n=1 Tax=Prymnesium polylepis TaxID=72548 RepID=A0A7S4J4F7_9EUKA)

HSP 1 Score: 109 bits (273), Expect = 3.820e-23
Identity = 77/199 (38.69%), Postives = 109/199 (54.77%), Query Frame = 2

Query: 3158 EKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAV---GKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLL 3745
            E +T ISF E+    GG S  L+G GVR K  GP  +KVY VG+YV+   +   L +      + +  +  F+    +  F KT+VLKM   V  EKM  A+A+SVKPR+SG    +   ++ LL       K+G A  G +F F  +  ++ VSVNGK V TI S PL  A+++ YL   +VSP  + + A G+ GLL
Sbjct:   27 EPSTKISFPEK---RGGQS--LVGVGVRKK--GP--IKVYGVGMYVDGFASKMSLSKFKSTAAEKV--DSSFYKACVEGGFGKTLVLKMKFGVSKEKMAGAIADSVKPRISGDKSAVAKLEESLLVGCDKYAKDGRAGPGTEFCFAIRGASMGVSVNGKSVATISSKPLCKALLNCYLDGSSVSPGLKSTCAEGLIGLL 214

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A7S0Q024_9EUKA (Hypothetical protein n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0Q024_9EUKA)

HSP 1 Score: 108 bits (269), Expect = 1.120e-22
Identity = 80/217 (36.87%), Postives = 116/217 (53.46%), Query Frame = 2

Query: 3095 GALLLILLAQPRHYCAEADVK-EKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILLKAV---GKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGI 3733
            GALLL+        CA    + E AT + F++ +     +   L+G GVR K  GP  +KVY +G+YV+  G+   L ++  +   +L     FF  +    F KT+VLKM   V  EKM  ALAES+KPRM+G    +  F+ +L+       K+G A  G +F F  +  +L V VNGK VGTI S PL  A++  Y   K+V+PA + + A G+
Sbjct:    6 GALLLL--------CAGTHARVEPATKVGFKDSL-----NGQPLVGVGVRKK--GP--IKVYGIGMYVDAMGSKMSLSKYK-QHESALKLPASFFEDILGG-FGKTLVLKMVYGVSKEKMAGALAESIKPRMTGGLAAVSEFEQMLMDGCETHAKDGRACAGTEFQFGVRGSSLGVHVNGKKVGTINSKPLCRALLKCYFDSKSVAPALKSTSAEGL 203

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A8J5XVP0_DIALT (Uncharacterized protein n=2 Tax=Diacronema lutheri TaxID=2081491 RepID=A0A8J5XVP0_DIALT)

HSP 1 Score: 105 bits (263), Expect = 6.700e-22
Identity = 70/198 (35.35%), Postives = 106/198 (53.54%), Query Frame = 2

Query: 3155 KEKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSS-KPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGIAGLL 3745
            K+ AT I F +       + S L G G R K  GP  +K+Y+  +YV    A  +L +  G   D++ K+  FF  +  S   K +VLKMA  +  EK+ SAL++SV+PRM G     +  F   +L     +G A  G +  F  +  ++C++VNGK  GT+KS  L  A++  Y+  KAVSPA ++S A G+  +L
Sbjct:   20 KDSATGIVFPDTY-----AGSKLAGLGTRYK--GP--LKIYSAAVYVSPSAAKFKLGKFKGVAPDAVKKD--FFEALVSSSAAKVIVLKMAMGISKEKLASALSDSVRPRMGGGDLDAVPKFAGAILSGFQPDGKAASGTELAFGLQGSSMCITVNGKKCGTVKSAKLVDALLKCYMDDKAVSPALKRSCAQGVLSML 206

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A7S0IHP3_9EUKA (Hypothetical protein n=1 Tax=Calcidiscus leptoporus TaxID=127549 RepID=A0A7S0IHP3_9EUKA)

HSP 1 Score: 106 bits (264), Expect = 6.720e-22
Identity = 75/202 (37.13%), Postives = 108/202 (53.47%), Query Frame = 2

Query: 3158 EKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFE-------KTMVLKMAREVGTEKMVSALAESVKPRMSGSSKPLDSFQDILL---KAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGI 3733
            E AT ++F++ +     S   L+G GVR K  GP  +KVY +G+YV+  G+   L ++         K     A + K  FE       KT++LKM   V  EKM  ALAES+KPRMSGS   +  F+ +L+   +A    G A  G +F F  +  +L V VNGK VGTI S PL  A++  Y   K+V+P+ + + A G+
Sbjct:   30 EPATKVAFKDSL-----SGQPLVGVGVRKK--GP--IKVYGIGMYVDSLGSKMALSKY---------KKHASAAELPKQFFEDVLGGFGKTLLLKMVYGVSKEKMAGALAESIKPRMSGSLSAVAEFEQMLMAGCEAHAMGGRAAGGTEFQFAVRGSSLGVQVNGKKVGTISSKPLCQALLKCYFDGKSVAPSLKSTCAEGL 213

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BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Match: A0A830H745_9CHLO (Chalcone_isomerase domain-containing protein n=1 Tax=Pycnococcus provasolii TaxID=41880 RepID=A0A830H745_9CHLO)

HSP 1 Score: 92.8 bits (229), Expect = 4.960e-17
Identity = 71/198 (35.86%), Postives = 96/198 (48.48%), Query Frame = 2

Query: 3152 VKEKATSISFRERVKLPGGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDSLGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGS----SKPLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGPLSVAMVDVYLGKKAVSPAARKSFAAGI 3733
            VKE +T + F   V+         +G GVRVKKIGP  VKVYAV LYV+  GA    D                   +    +E+ +V+K+ R V  +    ALA++++PRM       S+     +D   +A   E  +   + +    KP  LCV  NGK V +I S  L+ A+ DVYLGK  VSP A KSF  GI
Sbjct:   64 VKEPSTGVEFDGTVE-----GLKCVGAGVRVKKIGPVRVKVYAVALYVDANGAKAANDAEN----------------LMTGSYERKVVVKLVRNVKADTFWGALADALRPRMGAKAFEGSEASKKLKDFFHEAGKLENGSAVTLHWK---KPSELCVGANGKKV-SIASKELATALFDVYLGKDPVSPPALKSFKEGI 236

The following BLAST results are available for this feature:

BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot

BLAST of mRNA_C-linearis_contig91.16848.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 21


Match Name	E-value	Identity	Description
D7FP06_ECTSI	1.040e-112	83.19	Chalcone Isomerase n=2 Tax=Ectocarpus TaxID=2879 R...	[more]
A0A835Z9G1_9STRA	5.850e-64	60.10	Chalcone isomerase n=1 Tax=Tribonema minus TaxID=3...	[more]
A0A6S9FSE1_HETAK	3.680e-40	45.71	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
A0A7R9YAW0_9STRA	3.170e-39	43.44	Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi...	[more]
A0A7S1XYD8_9STRA	4.170e-36	41.79	Hypothetical protein n=2 Tax=Phaeomonas parva TaxI...	[more]
A0A7S4J4F7_9EUKA	3.820e-23	38.69	Hypothetical protein n=1 Tax=Prymnesium polylepis ...	[more]
A0A7S0Q024_9EUKA	1.120e-22	36.87	Hypothetical protein n=1 Tax=Coccolithus braarudii...	[more]
A0A8J5XVP0_DIALT	6.700e-22	35.35	Uncharacterized protein n=2 Tax=Diacronema lutheri...	[more]
A0A7S0IHP3_9EUKA	6.720e-22	37.13	Hypothetical protein n=1 Tax=Calcidiscus leptoporu...	[more]
A0A830H745_9CHLO	4.960e-17	35.86	Chalcone_isomerase domain-containing protein n=1 T...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
C-linearis_contig91	contig	C-linearis_contig91:677730..694376 -

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	368.6
Seed ortholog evalue	2.1e-99
Seed eggNOG ortholog	2880.D7FP06
Hectar predicted targeting category	signal peptide
EggNOG free text desc.	Chalcone isomerase-like
EggNOG OGs	2E0MF@1,2S81H@2759
Ec32 ortholog description	Chalcone Isomerase-like
Ec32 ortholog	Ec-05_001880.1
COG Functional cat.	S
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
Exons	13
Model size	5022
Cds size	702
Stop	1
Start	1

Relationships

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

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


Feature Name	Unique Name	Species	Type	Position
1622930789.1081214-CDS-C-linearis_contig91:678997..679106	1622930789.1081214-CDS-C-linearis_contig91:678997..679106	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 678998..679106 -
1690881251.049929-CDS-C-linearis_contig91:678997..679106	1690881251.049929-CDS-C-linearis_contig91:678997..679106	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 678998..679106 -
1622930789.1225219-CDS-C-linearis_contig91:679680..679805	1622930789.1225219-CDS-C-linearis_contig91:679680..679805	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 679681..679805 -
1690881251.061553-CDS-C-linearis_contig91:679680..679805	1690881251.061553-CDS-C-linearis_contig91:679680..679805	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 679681..679805 -
1622930789.135389-CDS-C-linearis_contig91:680988..681096	1622930789.135389-CDS-C-linearis_contig91:680988..681096	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 680989..681096 -
1690881251.0719945-CDS-C-linearis_contig91:680988..681096	1690881251.0719945-CDS-C-linearis_contig91:680988..681096	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 680989..681096 -
1622930789.1493583-CDS-C-linearis_contig91:681555..681634	1622930789.1493583-CDS-C-linearis_contig91:681555..681634	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 681556..681634 -
1690881251.0827785-CDS-C-linearis_contig91:681555..681634	1690881251.0827785-CDS-C-linearis_contig91:681555..681634	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 681556..681634 -
1622930789.1597493-CDS-C-linearis_contig91:682310..682424	1622930789.1597493-CDS-C-linearis_contig91:682310..682424	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 682311..682424 -
1690881251.0926218-CDS-C-linearis_contig91:682310..682424	1690881251.0926218-CDS-C-linearis_contig91:682310..682424	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 682311..682424 -
1622930789.173877-CDS-C-linearis_contig91:684870..685037	1622930789.173877-CDS-C-linearis_contig91:684870..685037	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 684871..685037 -
1690881251.1014702-CDS-C-linearis_contig91:684870..685037	1690881251.1014702-CDS-C-linearis_contig91:684870..685037	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig91 684871..685037 -

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


Feature Name	Unique Name	Species	Type	Position
mRNA_C-linearis_contig91.16848.1	prot_C-linearis_contig91.16848.1	Chordaria linearis ClinC8C monoicous	polypeptide	C-linearis_contig91 678998..685037 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at C-linearis_contig91:677730..694376-
coding sequence from alignment at C-linearis_contig91:677730..694376-

protein sequence of mRNA_C-linearis_contig91.16848.1

>prot_C-linearis_contig91.16848.1 ID=prot_C-linearis_contig91.16848.1|Name=mRNA_C-linearis_contig91.16848.1|organism=Chordaria linearis ClinC8C monoicous|type=polypeptide|length=234bp
MGAFKACSTAAGAAGALLLILLAQPRHYCAEADVKEKATSISFRERVKLP
GGSSSALMGTGVRVKKIGPAGVKVYAVGLYVEEKGAVKELDRHTGEGGDS
LGKNEGFFARVAKSKFEKTMVLKMAREVGTEKMVSALAESVKPRMSGSSK
PLDSFQDILLKAVGKEGAAKKGMQFGFVCKPGALCVSVNGKDVGTIKSGP
LSVAMVDVYLGKKAVSPAARKSFAAGIAGLLES*

mRNA from alignment at C-linearis_contig91:677730..694376-

Legend: UTRpolypeptideCDS

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

>mRNA_C-linearis_contig91.16848.1 ID=mRNA_C-linearis_contig91.16848.1|Name=mRNA_C-linearis_contig91.16848.1|organism=Chordaria linearis ClinC8C monoicous|type=mRNA|length=16647bp|location=Sequence derived from alignment at C-linearis_contig91:677730..694376- (Chordaria linearis ClinC8C monoicous)
TCCTTGTTGTGGATCTTAGTTTTCTCCCCCCCCGAAGAAAATACCTGCAG
TAGGCTGAACTGAACCACACACAACACACAACACAACACAACACAACAAC
ACAACACACAATCAAACCACAGGTCCGCAGAGGGAGAGAGAACAGGTCGC
TATCCATCACACCGTCCCGCCGAGCGCCGGCGCCCGGGAATCTGGGAATC
TGCCCTCGCGCACATGGTCCGCAGATAGATGTATAGAAAAATGGTGGGGG
GGGGGGGGCGGGGTGGACACACCCAACACAAAACACCGAACCCCCGCCGC
CACGACTTCCTCCGGCGAGGCTGCGCAGTGTTTGACGGCGACCCACGAAG
TAGGCGGCCCACACAACAAACACATGGCATGCACACCTAGAACCTGCTGC
TGTACATGTTTTTGTTGCCTGGGAGGGGAGTTTGAGCGAGTCACGGAATT
CATGCGGAGTTCTGAACACGCACACACCAAAGACTCGCGCTAGCTCGGCG
CCGCGGGCATCGATCGTGATGCTGACTGGTGGATGCGACTCCATGGACCT
AAATAGCCCCTGTCCCGGTAGTTTGGAATTTGGCAGCGCCGAACGTGCCA
AAATCAGGCAGGGCAACGCTAAATTGACCACAAGCACCGAGTCAACGCCG
CCGACTGCTGTAGACGATTTCGAAAATCGACAGGTGCACATGCTGTCTTA
GCGTCAAAGTAAAAGCTTTCCTATGCACTCTTCGTTTTCGCGATTGGTGG
TCTGTAGCGTTTGTTAGGGCGAAAAGATCGGTCATGCACGAACGAACGAA
CGAACGAACATGGATAGGCCAAATTGCCCCCCCCAGCAAGTTCTGGGGGC
TCGTGTATCGTACATGCAAGGAGGTGTTGACAGGAAAGTTGTTTTTGCGC
CTCAAAGAAAACTAATACAAGCGAGAATGAACGCAGTCACGAATCTGCTT
TTTTTTGTGGCGTAATTTAGCTTGGGGGCATAAAAAGCGAAAAAACGAAA
AACAAAGTTATCACACCGAGACTCGAACCCCCGTCTCGGGCGAACCCGAA
CTACCAGTTAGGTGTAACTAAATTATCAACGAAACAGTTGCTTTTTTGTC
CTCAGGACGGGAGTTCGAGTCCTACTTGTACGAAGGTCGTTGTTTTTCCC
TTTTTTTCTTTCTCCCGTCTTTTTTTTTTAAGATAATTTTTTGTGACTCC
TCGCTTCGTGTGTTGACCTCAATGGGCAAAAAAACGAAAATAGTTGCTAA
AGTAGTTGTACAGTGTGTGCAAGATTCACCTAAATTTTGCGGAATATTAA
TATGTACCTCGAGGGCTCTGGAGCCCTCGAGGTAAATTTTCCGCACGCAG
ACTGGGAACGGATGGCAAACCCACACATCTTCCCACCGCGCACAATCCGG
CGTGGAATTCAAGCAAAAGATATTATAGTACTTTTCAGGGCCGAGTCGGT
GAAGATCGTGCGACATGCAGACCAGTGCCTCCGGGGCGAGTGTTTCGCAG
CAGCCGTTTCAGGCACAAGAACTCTCTGCTGAGGGGTTGGCGGAGTGGGA
GACTGCTGCCCCGTCGAACACTCCCGTGAACAGCAGCCCGCAGTTCGGGC
AAGCGTCAGCTACCGCCACGCCTCCTAACCCCCACCGGCCAGTCGCCAAC
TGCACTGCTCTCCAGCTCCAGCTTCTCCGCGCTCAGCAAAAACATGCGCA
GGGGGTGGCGGGAGACCAGATTGTCACCCAGCAAAATGTGCGACAGAACT
TAGGGATACTCCAAGAACAGCACCGCGAGCATAAACAGCAGCGAGAAGAG
AGTCGGCGGGAGCCGGAACAACTAGTTTTGTTGTCTGAACGGCGCGCTGC
TGAGGCTGTGTCCGGGAAAGCGTGGTCCCCTACGTCGCTGCCAACGGGTG
AGTTGCCCGCTAGGATGAGGATGCTAAGCAACACTCAACTCGTCATACTG
CTGGTTTTTTTTTTGCCATAACGATCCCCTCGTTTTGACAACACTCAAAC
GCTCGATCACGATAGTCAAGTCTTCGTATGAGGCGAATTAGTGTTGTAGT
CTCCTTGCCTGTAAACCGAGCGGTTGGTTCGTGGTAGATATAAGCAGTGG
TGGCGTTCAGACAACCCTAGTGTTTCGTACCACCATGAAGAAACGGCGCG
ATTATTTCCTGGAACTGAGATACTATCAGCAGGTTCGGCAGCAGAAGATT
CAAATGAACAGGTGGATCGGACCACGTACAGACATATTAAAATTCGATGC
ACACAGACCACACCCCGCAAAAAATAATCGGATGAAGCCCGAATTTTAAC
GCCCACCTCGGCGTCGGTCTTGCCCCCCCTCTTCCCACCCTCCCCCCACG
GCAGGAGGATTACCCGGCTTCGGCGCTGGTGCCGCTGCGGCAGGAAAAAC
GATCGGCTTCATCGGTGGCGCCCCCCCCTCCTTCCGCCCCTCCCCCTCCG
GCAGCGGGAGCGGCCGGCTTCGGCGCTGGTGCCGCCGCGGCAGGAAGAGC
GGCCGGCTTCGTCGGTTGTGCCCCCCCTCCTTCCGGCCCTCCCCCTCCGG
CAGGAGGAGCAGCCGGCATCGGCGCTGGCTCTGGACCGTCTGCCGGCCCT
CTCGATGCGAGAGGAGGAGGCGAGGGGCGGCGAGCAGCAGACGCATGAAC
TTAGTCTTCAAGGGCATGTGCCTCAGGGAGATTTCGCGCGCATGTTTATA
CTGGAAGACGACGGATGCCGACTATAGCAAGACACAGGTTCCGCTGTTCG
AAGCTTTAGGAGCGGCGTGGCGACAGCTCGGTGTAGATGCCCGAAAGGAG
TTCGGATGCAACAACGTCACCGACTCCAACTACCAACTACCCCGCGAGGA
ACACAGCCAAAGTCTTCCTCACTAATGCCAAGAAATATTGGGGAAAGCAC
AAGTGAGTTCTTGGCCTTCTGTTTGATTTAAAGCCATGGCAAGGTAACCT
TCGTACGCGCAGTAACCCTAGGGCTCTAACCCCCCCCCCCAATTGACTTG
TCTTCCTGAAGGTCATCGCCCTACACCGGAATGTTCGGCTGACCCGCTAC
CCTGCTGTGCCCAATGCCCATTGTCGCCTGTATCCAGTGATTTATTGTTT
ATTGACGGCAGAACTAACTCAAGAAAGCAACACTGGACTGTTTTGGGCGT
CCATGACACCGGTCATGAACGCCCTCAACGAAGTGGACAAGGCTTACTCC
AATTATGGCGACGGCACAGGCGCCAGAAACGAGGCCGCCGCTGAAGCGCG
GAAGGAGCTGGAGCAGAGGGTGAGAACTGCTGCACCCTCTGTATCCTCTG
TCGAGGAACGACGGGGAGGTTCTAGGTTAGTTGTGTTGAGAGCCATCCCC
CCCTTCGCCCTCGTTTGGATTAGTTAGGTTTTGTGCTCTGCCTAACTCTG
AACGAGACCCCCCCCCACACACGCACAACACCCCTAACAATGTGTGTTTT
CGATGTTATTTACCCTATATTTTTTTGCGCCCCGGGGCGAATGATATGGT
ATTTTTGGCCACTCCATCGTTGAGAACGTCCTATTTTAATTTTGGGACGG
CTCACGGGACGTCCGTGTGTGTCCACCGCATCTATTACGGTAGCGCCCTT
TCTTCTTGGCAAATAAATTATTCAGCGGTGCCAGTCTTCATTAACGAGGC
GAGAGGGATTCTGCCGCCCCCTTCCCTCGTGAAGCGTGTTTGCTCCTGGG
TTTGGCGCTCAGCTCCAAACGATAGTAAAGGGTCTATCGTACGGCAGGAG
GTATCTCCCTCTCGTGGCTGCTAGGAGTTAGCCTCGTCCAGCTGCAGCTT
CTTTTGAGTGCCCTAACCAACGGTAAGCCTCTCAACCCCCTTTCTACTCG
TCCCGCTGCAATCGCTGCAAACAGAAGCAAGACGGGACGAAGGAGTCCCG
AGCGTCCGGCAGCATTCCGGAGGTGCTGTGTAGAAACTCTTTTCGGGCCA
GGCATCGACCATTGGGCCCAGCAATCACGCGGGAGTGGAAATGGCAGAGG
AGCAAGTGTCTCTCGCCAAACACAACTTGCGGGTGATGACGGACAATGCG
GAGTACCAAAAATCCCCAAGACGCGAAGACGGATAGGCACCGGGGGGAGC
AAACCGAGCTAGCCGAGAAACGTCGGGTGGAGCAAAGAAGGATGGCTGAA
GCACGCCGGAAAAAAACTGACACCCAGGTGAAGCTTGCCAGGATGTTGCA
CCGAGTCTCAATCCCAAGCGTCACCAGAGGTCGGCGAGGCATAAGGTTGG
GGCCTGAGTGTTGTCGCTGTTGAGCCATGCCCGAGCCTACGTAGGTTGTG
GGGTGGCGTGGGACTGGAACTAAGGATCTTCGGCCCTCGTTGGCTTTCAC
CATGCTTCGCCATGCTCCGCCTGCACGGACTTGGCTGCGAAAACACTTAC
GTACATAAATCCTGCGCTTTTAGCATCGCCCACCGACCGACGGCATTCCT
TTCTCCGCTTGTGCGCATCCTGTTCGTGTTCCGTCGTCTTGCCGCGCGAC
TACAGCTCGGCGAAATGGCGAATCTATTCTCACCCACTCAAGGTGCCGGA
AGGCGGCGTGGCTGGCCATACCATGGGGTTCGTATGATATGAGGAGTTTT
GGTCGGCGCTTCCCAACGTCGCAGAGGCTGCGCGCAATACTGTTGTTGTG
GATAACCTTCCAACCCTAAGAGGACCTCGTGACCTCGGCTGCTGAAAAAT
AGTTCGCGAACGCCCTTCAGGAGGCGGGGGTCCCTGTTCTAGTAGCAGGG
AGGGTAGCGAAGTTTGTCCGCAAGTCTTGTCATTGAAAGCTTTGAATTAT
CAGCCCTCCGAGGATAAAGCAGCCGATCTAGATTTGTCCTGCTAGATTTT
CCGAGTTTGGCCTCGTTTACGAGGTCCTGTCGCCTGCCTTCGGTTTTGGT
CTTGCGTGGGTTCCTGTGTACAGGACATTTTGGGTTACTCTTGTAGCTGG
AAAGCGTTCAGTAAGCGGGGCGCAAGTCTGGGAATACATCGCTCGCGTTC
AGTAACGTGTACGAACCAAAGCTGGCAAGAGCCCCAGCAAGGGTATGTGT
TTGTTACCCAATGATACTGATTGTTGTGCGGTGACCGGCCGAGGTTGAAA
CAAGTTGGCTCCGAATTGGTTGCTGTTTTACGCAACAAAGAGGGACATTT
TTTCCCCGGAACACGGGAATTCGTGTGCGTCCTTTGTATTGTACCATGCA
TTTATCCATTTTCGCTCCAAATGTCCTGGAACGTCTCATTCCAAAAAAAG
ATATCGCGGAGAGATTGACTGCCGCACGACAACATTTAGGACCTCGATCC
CCCGCCCGGCTCCCCGAAGACTCCCCCCTTAGACACTAGTTTAACAAGAC
CCAAACAAAAAAACTGCATAATTTGCTTTCGCAAATAAATAAAATACACA
GAACAGAAAACCCAAAAATGCAGTCACTGCTGTCTGAAGAAAACACCAGT
CACCGAAATAGACGCAACACAAGTATCTCCCTTCCTGTCGAAGAGGGTAA
CTCTACGCCCACTACACTATACAAGTACAGACCTATCTCCACCCCAACAC
TGTCTGTGTCGCCTACGTAAGGGGAAACAGACACGCTCAGTCCTCCATCC
AAATTGAATCCCAACGCTGCTGCAAGTCGGTGGCAATTCCCTCGGCAACG
GTGTCGCACGCCAACTTTTCGGCCTCGCCGTGCAGCAAGTAGCTCCCCGG
ATCCTCGTAGTCCCAGTAGCAGTGGATACCGAGCTTAGACTCCCACAGCT
CCTTCTTGTCGCCGATCCACTCAAGCGCTTCGCGGGTACTTGTTTCGCAC
CCTCATGATGCGCGCCGTGAGCCTGGCGCACACGTTGAACACATACGTGC
TTCTCGAATCCGCGCCGGTGTCTGAACGCCTTTACGTTCCCCACGGTTTT
GAACTTCTTGATCTGACCGATTGTGTTCTCCACAACGACGCGATACCGGC
GCTGTTCGCTGTTGAATCGTTTGGCCTCGGGAGGCAGTTGCCCTCCGGAG
TGAGGCACGCACGTGTACAGCACGTCACTGTCCGCCCGGGCGCGTCCTCT
GTAGTTGCCGTCCCCCATACCGACTTCGCCGTCCGAGAGGAACTGTTCGG
GGTGTAGGAACACGTCGGAAGAAAGGTGCGCCCCCCTGTCTGAACATGCC
CCGCGCACCGTCTCGATCTGCGGCGGCCGGTTGAGCAGCAAGACGCCGAA
TACATCGTCGGCGGTGGCACATCGATCCTCGCCTCTTGGTTTCATCAGCT
TGCAAGGCTTACCCCTAAATCCTCTGAGATAGTCCCGGGGGGGGGGAGGC
ATCTACCTTTTTTGCCCTCAACGGCCTCCCCGGCACTATCTCTACGTAGG
GAGGACATCGTAAAAAAGTACGTCCCTGGAATAAGTGAGCGTGTTTTATG
CCTATTTCGGTTCATGAAAAAGGGGGGGGGGGCGCTATTTTAGAGGATAT
TACGGTAGTTTCGGGTCATGTGCGCGTACCTTAACCCTACGTCGCTGTGC
TGCACTCATGGATTCCAAAAAAGAAAAAAAAAGCACGCACCCTGAAAGGC
TTTCAGCGGATGTTGACATACGGGATGTGGCTTGTACCCAGGCCCTTGTT
GCCGGAATAGTTTTCCGCGTGCACTGCGTCGTGAGGCTCATCTCTCCCCT
TCCCAACCTGTGGAGCAGCCCGGCAACACAACATAGTGGCCATCCCGAGT
TACAGGACGTAACAGCAGAAGCATCAGGTGCCCGTTTCTAATTTGCCACA
CGTATCGTTACGGTAAAGGAGCACAATAACTGCATTCGCGCGGCAGTGTT
TTTTTAAGAACTCACGAACTGCCTCCCGATAGTGGAAGTCTCGATGCGCA
GGGGTACCAAAGCGTGGACACATCAACCTAAAAAACCACGGCGTTTCCTT
TTCATTCGTCTTACCTTCGACGGATTGCGCATGCCGACCATGGTCCCGTC
CGCCAATGTAGACCATACGAGGGTTCTCGGGGTGGCCCGCCATACCTCTG
AAAGAAATCAGCATGAGCCGCCCGCTCCACTGCGTCCGGCCATTTCATTT
CCTGTCAAAAGGCGGTGGAAAATCTCAGCGGTAGTTGATGCTCGTACTCG
TATACCTCTCATGACAACCAAGCCGTCGCCGGTCGAGAATGTATCCCCGT
GGTGCCAAAAGCGTGTGTATCTGGAACACAAAACATCGGTGAAATCTCAT
GTATGAATCGCACACAGCAGTACGCATGCATACGTACGGGCGACATATCG
CTTGCAACACTCGTTGACACAACAACTTCTGTACGTTCTTTCGTTTACAA
AAATGCACGAGCTATGATACGAGCTAGGACGGATCCTTCACATATCAAGC
AAGAGATTTATTTATTTATTTTTATCTCACCTCTTGCAAACACGGCATGT
CCTGTGCGGCCGTGAACATGTCGTGGAACTCGTTGGGCCATGTACCCTGG
CAGCGTCCGTACTTCAGCGCCATATCCTCAAAAGTCAAAGTTGTGTCCCT
CCTGAGCATCTCCAGCCATCCGATGACTCTGTCCCGATCGTTCATGCCAC
CTCTGATCGTGCGCCGAGACACGTATCCTCGATTCGGTTAGGGTTAGGGT
TAGGGTTAGGTGCGGTGTACTTGCCGAGGTTGTTCCTAGGTTGTCCAAAC
AACCACGACCGGGGCAGCGCATTCCCTTCTCTGTCCAGGTGTGTGTCGGC
TAAGAATGCGTCGAACTCATCCTTATCCAGCCCCGTCATGTACTTCAGCT
GGCTGCTGGTGCGTGCCCTGTAAATGCCGCCTTCTTCTTCGGGAAACGCA
AGGGCCGTAAACGCAAGGACCGTCCGAGTACGCGAAGCCTCGAAGTTAGC
TTCGCTGTTACCCCTCCCTACCCCTGGAACAAGAGGTGTGGGCTTCTTCA
GCTGCTGCTTGTACGCCGTGGCTCACCGCATGTCCTCCTCGATCTCTTCG
GCATCGTGTGCATCTAAATTACAACTTGAGGAAACCGCATCGTCGCCGAC
ACAGCAGCCAGCGGCTTCCAGTTGTCGCTTTTCTCGCGTCCTGCTCCTCC
TCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCGTCCATCTC
ATCATCACCATCTTCTTCGGCGCCACCCTCGGCTCCACCGACAAGGGCGA
AGGGTTGTAGAGGATCATGAGCTGCGCGGCGTCGATGCTGCAAAAGAGCC
AACAGGCGCAGCCGCGAAGTGTCCATCCACCCTCTGAGCAGAGGCCGCTG
CAGTCACGCGGTGCGGTGTGCCTCGTGTGTTGAGCGTGTGTTTCTTCTCC
TGTCTTCGAGCTGACAGCAGTCCCACGAATTTATCTAAATCCTGAGTTTT
ATATCGAGGGGGCATGGAGCCCGAATTTACATAAAACGCGAACCTGGCTC
CAAAAGCTCACGCGACCGAAATTTTGAGTTTTATAAACTCTAATCATGTT
TTTTCGTAGCCTGCCTCCTCCTCTTCACTACAACTAGCTAGGCTATACCA
TCCGGGGTCACACATTCCGGGGTCACACAGGAGGAGATATCTCCACCTCT
CCACCTAACTCCTGCGGTGCTGTATATATGTCGGCGAATCTACCCTTGAG
TTGTTTTCGGTGGAGAATGAGCGAACCACAGCAAAGCTTCCAATCCAACG
CACGCGCGACGCAGCCCACCGAGGAAGGGGTCTTCGGTGGGCCAACTTCT
CTCTACTCCTTACTTACTTGTCGTGTTTGTGGATGACTTTTATTTTGTGC
CATTGCCGTCTGTCCAGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCGCTCTCTCTCTCTCGCTCTCCTCTCTCTCTGCGGAGGGCACGCA
CTGAGACGCATCACCTTCCATCCCAGTCATACCGTAAACGACACAAGAAA
GCACGCCCGTGTGATGATTTTTGGGGGTTAAATAACACTCCGTGTTACCA
CACGGTGTGCTTTCTATCTGATCTGATGTCGCCCCTGTAACTTGGTCGTA
TGGTATGATAAGAGTACTTTTGTTTTCCCTGTAACTTGGTCGTATGGTAT
GATAAGAGTACTTTTGTTTTTCGGTTACGTTTTTTTTGTTTTATTTAGTG
CCCAAAGAGACTTATCTATCTACCAGTACTTCGTATCTATTTACATATGC
ATCACACGGTGTGCTTTCTCGTGCTTTTACCGTGGGGGTGTGCTTTCTTG
TGTCGTTTACGGTACACCGTATCTTCCCTCGCGGCGTTTGTGGCCTCCGC
CTCCGTCAGAAACCTTGTGAGACCGAATCGCGCAAGACCCGCAACGCACG
CACACAGAGGGAGAAAATAAAACTGCATCAAGGACAAGGATGGGAGCTTT
CAAGGCCTGCTCCACCGCGGCCGGGGCCGCGGGCGCGCTGCTGTTGATCC
TGCTGGCCCAGCCCAGGCACTACTGTGCGGAGGCGGACGTGAAGGAGAAG
GCCACCAGCATCTCCTTCCGAGAAAGGGTCAAGCTCCCCGGCGGCAGCTC
GAGCGCGTGAGTGAACAAACTTGTTGCCCGGTTTATTGTTGATGTTTTTC
CCGTTTGAAAGCCATGTCTGGTGTGTCTTTACCAGCTGCTCGATTGTTCC
TCTCCTCTCCTCTGCTCTCGCTTTTGTTGCAGCCGTTCTCGTGGGTGCCC
CACTTTCAACGGGAAGATCCTGATGAAGGAGGAGGAGGTCACAAGTGTTT
GAAACTACCCCTACCATTGCCAAAATTGTGTGCGGTGTCGTAGACCCCCC
CCCTCTCCGGCATACCCTGGCCGAGGTTTCCAGAGCAATTTCTGATTCGA
ATCGCGGGAGTGAAGGAGAAGAGGGGGACCCGCCGGGTAGTAAACACAAT
TTTTGAGGGTCAAGTACACAGCAGTGTACAACGCCACCGACCAACCGCGT
TCCGGGGGGCTTGCAGTGTAGCCACGCGGCGGCGAGGGCAAACTAAGCAC
GACCACCTCCCCCCGTGAGTGTTTTAGCGCGTGTTTTCTATTACGTCGTG
CGACGGCGATGGCCAGATTTTAGCGGTAAATTAGCCTCCATTTCTTCGGT
TCCTCCCTCCCCACTTTTGTTGTGGTCGGAGCGATATCATATCAGTCTCG
CAGGCAGTTTTGTCAGTTTTCGAGCGTGGCAGACAAGAAAACAAATGCCT
CTGTTTCCTGCTCAACTGCGGTCGATAGGGAGACGCGAAAGCTTGGCTTC
TGGCCCCATTTCCATATGCAGTAGGCGCCCGCTCTTGAGAACCTCCTACG
AAGTGTATGTATTTATTTTATTTTATTTTTCTCGCCCATTAGTGTTTTAT
CGTAGCCTGCCTCCTCCTCTTCGCTACAACTAGCTAGGCTACCATCCGGG
CGGGTCACACAGGAGGGTGATGTCTCCACTTACCTCCTGCGGTCATATGT
ACAGGCAGTCTGGACTTCTTCTTTTTTTTAACTTTTTTCCAGCACGTGTC
CCACCCTTTTTCTCGTTCGATTTTGAGAGTTGAAACGAGAAATGAAGTTG
GCACGAACCGCACCGCCAAGAGGAATCCAAATCAGGTGTAAAAAAAAACG
GACAAAAATGGCCGTTTTCGAAAATATTTACCCCGAAATTACCCCGACAC
GATACCGAGTTGGCCCGAGAGACGAAATAATTCCCCCGAGCGACCGCAAT
CGACCCGCTCTAGACAAAGAACGCGTAAGTCACACAAAATATATCGCGCC
CATACAATATATAACTATTCCCTTATACATCTCTGCGGTGTGGCCAGTCT
AGATGCCCAGATACCGCCGTTCGGCCCAACATCGGGTCGACAACGAACGA
CAAGCAACAGGGTTATCAGATTCAACAGGCGCCGAACCTCCCTTGTATTT
ACATATCTAGCTGGGGCGGCGCTGCTGGCCCTCATCTCTTTAGAGAGATT
GGGGCCCAAGTCTCCTTGATAACATGTGTAGGTGTCATGTCCTGGTGGAA
CAATGAGTTCCGCAGGTGGTGCTGCAGCTTTTCCCCCGCCTACCCGGCCA
GCTGTTATATAGTTTGAAAGCCGCCGCGCTCCATTTTCTTACCGGGAGGA
CGCCCAAACCCTTCCCCAGATCCTTCGTATGTGTGGATGTGCTCCCTGTG
TGTGTAAGTACTGCTGGAGGAGTGGTGTGTTTCTGGTGTGTGAACACCAA
AACTTGGAAAGGCCACATCTCGCTCAAAAAAATGTTTTTTTAGGAAAATG
AAAAAAATGCCGCCTGGGTCCAGGTCCAATTCGTGCGAATCCGTTTGAGT
TTTTCGTGTTCTATCGGTCCACATCTCTCTCAATAAAACCGGTCCAGTGA
GCCTCCCTCAACGCTGTTTGCTGCCCGTTTTTCCATCAAAATTCAGCGGG
AAAAAAATTAAGTTCGGTCGCCGTGAGCCCCGTGGCGAGAGCTGTTCAAA
ACCGGTGTAAAACAAAATGGACCTCGCACTCGGCCAAATAAAACCGTACA
AAATTCTCCCAAAAATCTCGACGCGATCGCGATTTTTCTCTCCCACGAAA
AAAACAATCTGCTCCGATCAAACGATCCGCCTGAAACAGGACTTTCTTCG
ATGTGTTCTATCATAATGTCACCAGGGGATATGCCAGTCACCCAGAAAAA
ATCCCGGAGTGACTCTGGGAGTTGGTGGAAAAAATTAACTGTCCTGACTC
TATTTTGAACGAGGCTCGGGTTCTTATTTCTCTGTGGGGAAGCCAGTTGC
CTGTATATTGCCCTTGTATAGGTTTTGATGTAGAGGTTCTGATCCTGGCA
TCTCAACTGTGGGCAAGTTGTTATCTTTTGAATTCCGTAGAGCCTGGGTT
TCTACTACCATAAGTTCTTGAGTGGAGGGGCCCTACTGCTGTATCTGCTG
AATCCATTCCCCCCCCTCCCCCTCACCTCCCTTCCCGACCACCGCCGTAC
CGCTTTGTCGGCGGGGCCGTTTTTTTTTTCTGTTTGCGCCATGCCCACCC
AGCCTAATGGGAACGGGGGTTAGGGTGAAGAAGATCGGCCCCGCCGGAGT
GAAGGTGTACGCGGTGGGGCTTTACGTGGAAGAAAAGGGGGCCGTCAAAG
AGCTCGACCGCCACACGTGAACCCTACGTTATTATTATTATTATTATTAT
TATTATTATTATTATTATTATTATTATTATTATTATCACTTTTATTATTA
TTCTACATGTTATTATTTTTTTTATTATTGTTTCGTTTGCCCTCCGACAA
ATGCAGGGATACCGTACACATCAGTGACGTAAGATATCACACCCCTGCCT
GCCTGTGTGTGCGACAACTTTAAAAACTAGCAACTGATTCACGGGCTGTG
GTATTTTGTGCAAGGGTTGTCTTCTGTTACCCCTGCTGCTTGGTGTTATT
TATAGGGTATCTACTTGGCGCTTTCTTTTGTGCCCCCCAAAAGTATGTAC
CACACGGTGGGGTGTTGCTTGCGGGGTGTTTGGGGGCCTCTTATCTTCTG
TAGATACGTGTGCTATGTCTTAAGTAGTCACTTAACGATAGTTTTGCGTA
TTTGCTGCTGCTGCTGCTGCTGCTGCTGATTTTGCTGCTGATACTTTTGC
TGCTTCTGCTGATGTAATTTGTGATTGTTGGTTTACTCGCCACGGCGGTG
CACAATCTTTTTTCGCTGGGCATTGGTCATGGTCATGGTCGTGGTTGTGA
CAGAAAAGTGGCCTTTCTATCTCGTGTACAGAGTAATTTATCGCAACTGA
ACCAACAAAACACCAACGAAATAAACACTAACGCGAACACAGGGGAGAGG
GCGGCGACTCACTCGGAAAGAACGAGGGCTTCTTCGCACGAGTCGCCAAG
TCTAAGTTCGAGAAGACCATGGTGAGGGGCACCGCCGTGTCATGTTGCTG
TTGTTGCCATGTTGTTGTTGTTTTGTTTCTCACATTAGCTCGTGTTATCG
AACCTGCAGGTGGCAAAATCCGGCAAAATCACGGCCCGTGGTGGTCACAA
GAATGCTGGAGCCATCAGAAGATCGAAACACACACACACACGCGCGCTCC
CCCGCGTTTAGGCACACGCGGGAATCCCACCTTGCCTGAGCTGATTTTCA
GGAGCTCGACTTCTCCACACCACGAGAGTTTCACCGGTGCCCTGAAAATG
CCGTCGGTTTCAGTCGGCCCGTCGTGGCAATGAATTGCAGCGGCAACCCT
CTCCATTGCGGGGGGCGATTGAGCGCTAAATGACTACGGAATCGGCCATT
GCTGTTTTCATCAGTCACCGTTTTTGTTGTTGTTTTTGTTTTTGTCCGTC
TGACGCACCGCCGCCGTATTTACGCACCAGGTGCTTAAGATGGCTAGGGA
GGTCGGGACGGAGAAGATGGTCAGCGCTCTCGCGGAGAGTGTGAAGCCTC
GGATGTCGGGGTCCAGCAAACCGCTCGATAGCTTCCAGGTTGGTTATGTT
GTTGTTGACAGTCCCGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTTTGTTGTACATATTAGCGGTCGTGTTTTGCTCTCTACTAT
CATAGTACTATTTTTGGTTGTGGGGATACTCTATGGCCGTTTTTTAATGT
ATACATGTGCAGGCCGCTCGCTTCGCCTGTTTCCCTGTGTCGGGTAACCC
TTGTCTTCTCGCGTGTACACACGAAGTACGCCATGTAGATGCGTGCCATT
TTCGTTTGCCGTTTTTGAGGCCTTCCTTCGTCTTTTTGCGTTGAATTAGA
AAACTATGTAGCCGTACATGCATACATGGCTGGTTGCGGTTGTTGTTTTC
GCCCTTGCTAATGTGTGAAAGAAACGTCGTCGAACGCGCGGCGCGCGGTA
ATGTATCGACGGAATCAGTTTTTACACATTGATGATGCTCCGAAGTAGAT
CTTTAGGACTACGCCTCCTCTTTGCGCCCTCTGATTGGTCAAAGCGTGTT
CGCGGGACCACGTTCTGACCTGCGGACCGCGCGCGCGCGCCAGCCGCGTT
CGTGCCCATCTCTCGGCCCCGCGGCCTCGGTTGGCCACCCGTGAGGGTTA
GGGTTGGGTTGGGCCGGTGACGTGTGTGTCTTCTGGTTCTGGGTGTGAAT
AATCTGCAAACCACGTTGTTAGCAGCAAAGAGCTATGATCAGTGTGGAGC
CAAGGCTAGTATTAGTACTTGGACCTCATGTTGAGGAAGGCGAGGGGAAG
AAGTAGGACTCCCAAGGGAATAATCGTCATGCCCCGGACAGACACACGTC
GCCGCCTTGCCACGGCGATGTGTTGTGTTACGCACCCGAAACAAGGGACA
AGACACGTTCCGGCAAGACCTTGTATCTGAAACCACCACCACCACCACCA
CCACCCCCGCTCTCGTATTTGGAAACAATCACAAAAGAGCGCCACCAGCC
GTAGACGGTGCTATGAGGATTGAAAGTCTCACTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCCATCTATCTCTCTCTCTCTCTCGCTCTCGCTCTC
TCTCTCTCTTGGAAGGGAACGCACGGGCGATGATCCAAATTAATGGGGCA
CGGGGGGGTACATAGCAGTTGATGACGTCGCCACGATCGGTTCCCCCCCC
CCCCCTCCCCTCTCAACGCAGGACATCTTGCTCAAGGCGGTGGGCAAGGA
GGGAGCCGCGAAGAAGGGCATGCAGTTCGGCTTTGTGTGCAAGCCGGGCG
CGCTGTGCGTGAGCGTCAACGGAAAGGATGTGGGTACCATCAAGAGGTAC
GGAGCTCCCACGACCGCGGTTTGTTTGTTGGGTTGTGTTGGGTTCTGTTT
TAAGGCTAAGACTGCTCTGTCGAGTTAAGGAGTGCGCCAGCAGCGGATCG
GATCGTGTCAATTGTCTGATTGTCTGCACGCCCAAGAGGCGGAAATAATG
TTCGTAAAAGGGGAAACTGGTGTGAGCACGTTCATACGCTACTCGCTGCT
GTCGCCGCCCCCCAGCCCTACGTAGCGGATATCGTTTTAAGTTTTGTTTT
CTGATCACCTCCCTCCTTGTCGTATCTACAAGGGTCAATACTCCCTGACG
CGAGACGCGGCTTCCACGGCCAAGAACAGCAAAAAAAACGTAGCATCGCA
GCGATAGCTCTCCTGTCCAACCGATGACTCGTACTCGATAAGCCGTCTGC
GCCGTTGCCGATCGTCTCCCCCCGATGCATCATGACCCTCCCCTCTAGTT
GCGCAGTGCCCAGCATCCCCCGGGGGAGCGAGAGTTTTACAGCCGGAAGA
CTTCAGACGAGATGCTGATGCGATTATTTTTCTCCCCGTGTCGGACATGC
CTCTTTGTTTGTGTTTTCAGCGGGCCGCTTTCAGTTGCGATGGTGGACGT
GTACCTGGGAAAGAAGGCCGTCTCGCCGGCGGCACGGAAGTCGTTCGCGG
CCGGGATTGCCGGCCTCCTCGAAAGCTAGGAGGGTTTATTCAATGCGCGT
GCGTGTGCGTGCGTTGCTCTCCCGCTTGGAAGAAAACGCGAGGGCCGCGT
TTCGGCCGCGAACAGCGCGACCGTGTTCACTGGAAAGCGGCGTGACCGCC
GTTTGGCGTCGTCGGAAGCGCGTCCTTCGAAGCGACGAACCACCCGCCGT
ACAATAGCCAAGAGGGAAAATGTTGTTTGTTACTCCGTAGCATTCAGGGC
GTTCGGCAGCTAAGGGGTGCACCCTTGTCCGAGATAACATCTGGGTTGTT
TCGGAAAGTGCTTCGGAGCAGCCCGTCCAGATTTGGCTATTGAATACTTC
TAAGTATTGTATGAGTGTTTTTCCTCCAGCTTGTACAGGAGGGGAGGGCG
GGGGGGCTCAGGGAGAGGAACCCTTCTGTGTGACCACGAGCTGGAGCTCC
TATCCGGCAGAGGCAGAAATGCTGTGAGCTCTGGTTTTATGTGAAGAAAA
AAATAAATAAATACTTCGAAGTACAAGCATCGAGATGGGAGATGGGGGAC
TCGTTGCCCCCAAAGGGTCTGCTGCTCCTGTCTGTTGCACGAAGGGCGTA
ACAACCTAATTAGCCGTTGGACAGAACAGCTCCGGTTGTGCGAGCTTTAG
TAAGAAACGCAAAATGCTCCCGCGCTAATTCACTTCGAAAAAAGCGGTGG
GGATCCCGATAGAAGGCACGTGTCCCAACCGCTGGCTCAGAGAGCAGAAA
TAAGAAATAAGCTGCCGCAAGACCTTCGAAACAAGTTGAGAAAGCCACAG
CAGGGCTACCATTATGTATGGTGGGGGGGAAACCAACTATTAATAGTCTT
CGCCGCCAGAATACGCAGGGTCTAGGGGAACTCGCACGCACACACAGGAG
TAACAGTAGTGGTCATGTAGGTGGTTTGTTTATGTAGGTTTGTTTCGGAG
TGAGTTGGCGTAGTCGTGTCCAGGTTTTTTAGAGGCTTGTTTTGTTGCGC
ACCGCTACAAAAGGCAACAGGGCGACCTGCTCTTCTTGCGGTTGATGTGT
TTTGTCCTGGGCGTGCAGAGTGATATTCCGGCGACGGGTTACGTAGGAAA
ACGAGACATCTTGGTGGCGATACGGGTGTTTGCCCGTCCAATTCAAAGAG
AACACAAAACGACGACACAAAGTAAGAGGGGGTGCTTTGTGCTTTGTGCC
GCGTGACAGGTCAAGATTGCCGGCGTGGGTACTACACCGCAACGTGTAGT
GCGCACCCAAGAAAAGGAGAAGGCAGGCTAGGCCATTGGTGGGACGG

Coding sequence (CDS) from alignment at C-linearis_contig91:677730..694376-

>mRNA_C-linearis_contig91.16848.1 ID=mRNA_C-linearis_contig91.16848.1|Name=mRNA_C-linearis_contig91.16848.1|organism=Chordaria linearis ClinC8C monoicous|type=CDS|length=1404bp|location=Sequence derived from alignment at C-linearis_contig91:677730..694376- (Chordaria linearis ClinC8C monoicous)
ATGGGAGCTTTCAAGGCCTGCTCCACCGCGGCCGGGGCCGCGGGCGCGCT
GCTGTTGATCCTGCTGGCCCAGCCCAGGCACTACTGTGCGGAGGCGGACG
TGAAGGAGAAGGCCACCAGCATCTCCTTCCGAGAAAGGGTCAAGCTCCCC
GGCGGCAGCTCGAGCGCATGGGAGCTTTCAAGGCCTGCTCCACCGCGGCC
GGGGCCGCGGGCGCGCTGCTGTTGATCCTGCTGGCCCAGCCCAGGCACTA
CTGTGCGGAGGCGGACGTGAAGGAGAAGGCCACCAGCATCTCCTTCCGAG
AAAGGGTCAAGCTCCCCGGCGGCAGCTCGAGCGCCCTAATGGGAACGGGG
GTTAGGGTGAAGAAGATCGGCCCCGCCGGAGTGAAGGTGTACGCGGTGGG
GCTTTACGTGGAAGAAAAGGGGGCCGTCAAAGAGCTCGACCGCCACACCC
TAATGGGAACGGGGGTTAGGGTGAAGAAGATCGGCCCCGCCGGAGTGAAG
GTGTACGCGGTGGGGCTTTACGTGGAAGAAAAGGGGGCCGTCAAAGAGCT
CGACCGCCACACGGGAGAGGGCGGCGACTCACTCGGAAAGAACGAGGGCT
TCTTCGCACGAGTCGCCAAGTCTAAGTTCGAGAAGACCATGGGGAGAGGG
CGGCGACTCACTCGGAAAGAACGAGGGCTTCTTCGCACGAGTCGCCAAGT
CTAAGTTCGAGAAGACCATGGTGCTTAAGATGGCTAGGGAGGTCGGGACG
GAGAAGATGGTCAGCGCTCTCGCGGAGAGTGTGAAGCCTCGGATGTCGGG
GTCCAGCAAACCGCTCGATAGCTTCCAGGTGCTTAAGATGGCTAGGGAGG
TCGGGACGGAGAAGATGGTCAGCGCTCTCGCGGAGAGTGTGAAGCCTCGG
ATGTCGGGGTCCAGCAAACCGCTCGATAGCTTCCAGGACATCTTGCTCAA
GGCGGTGGGCAAGGAGGGAGCCGCGAAGAAGGGCATGCAGTTCGGCTTTG
TGTGCAAGCCGGGCGCGCTGTGCGTGAGCGTCAACGGAAAGGATGTGGGT
ACCATCAAGAGGACATCTTGCTCAAGGCGGTGGGCAAGGAGGGAGCCGCG
AAGAAGGGCATGCAGTTCGGCTTTGTGTGCAAGCCGGGCGCGCTGTGCGT
GAGCGTCAACGGAAAGGATGTGGGTACCATCAAGAGCGGGCCGCTTTCAG
TTGCGATGGTGGACGTGTACCTGGGAAAGAAGGCCGTCTCGCCGGCGGCA
CGGAAGTCGTTCGCGGCCGGGATTGCCGGCCTCCTCGAAAGCTAGCGGGC
CGCTTTCAGTTGCGATGGTGGACGTGTACCTGGGAAAGAAGGCCGTCTCG
CCGGCGGCACGGAAGTCGTTCGCGGCCGGGATTGCCGGCCTCCTCGAAAG
CTAG