mRNA_C-linearis_contig105.931.1 (mRNA) Chordaria linearis ClinC8C monoicous

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

Overview


Name	mRNA_C-linearis_contig105.931.1
Unique Name	mRNA_C-linearis_contig105.931.1
Type	mRNA
Organism	Chordaria linearis ClinC8C monoicous (Chordaria linearis ClinC8C monoicous)

Homology

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: D7FMQ6_ECTSI (Dihydroflavonol-4-reductase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FMQ6_ECTSI)

HSP 1 Score: 438 bits (1126), Expect = 4.310e-147
Identity = 251/342 (73.39%), Postives = 275/342 (80.41%), Query Frame = 1

Query:   64 MPWTVLFATLLASCFMPHN-AFYAPQVCSRQPAAAATNGVGGMRQQASQSRLGFSTDRSSGSGSRLRATAASMSADVAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL 1086
            M W V    LL S F+PH+ AF++P    R     A +        A ++R G       G+ +   + +A+   +++ GD VVVVGASGGIGRLVTQSLASTGKY+VKGLVRNLEKAKEAL S    G  LEIELEQGDILDE+SL AAMKGAACVVACTGTTAFPS+RWNGGNTPD VDN+AVGNMLRAAA GGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVR+AA+EGGF YSIVRPGQIKG+PFL YS +G AA SPDAPEKGSAK MVSLRQGD+EAGDVNPSSVAE FTQTVGQA A GKSYTVINSLGDAPSQ TWD LFAKL
Sbjct:    1 MAWAVSAVVLLTSSFLPHSEAFFSPGSTVRVVGREALSHTPAKCSSAGRTRAGAKL----GAAASRASMSAAAGGEISEGDTVVVVGASGGIGRLVTQSLASTGKYKVKGLVRNLEKAKEALLSSA--GGGLEIELEQGDILDESSLVAAMKGAACVVACTGTTAFPSKRWNGGNTPDAVDNLAVGNMLRAAAGGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRKAAKEGGFGYSIVRPGQIKGDPFLAYSNSG-AAVSPDAPEKGSAKRMVSLRQGDSEAGDVNPSSVAEAFTQTVGQAGAIGKSYTVINSLGDAPSQGTWDELFAKL 335

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A836C875_9STRA (Dihydroflavonol-4-reductase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C875_9STRA)

HSP 1 Score: 194 bits (492), Expect = 1.630e-53
Identity = 125/270 (46.30%), Postives = 162/270 (60.00%), Query Frame = 1

Query:  289 VAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAA--GGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQ-IKGEPFLTYSKAGGAAPSPDAPEKGSAKCM-VSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL 1086
            VA GDV+ V GA+GG+G  V + LA+TG Y+V+ +VR+  +A    +   DV +   +EL + DI D   + AA++GA  VV CTGTTAFPS+ W GGNTP  VD VA+ N+L  A    G  LKRFV LSS+GVTR    PF ILNAFGVLDA A GE A+   A+E GF Y+IVRPGQ I  +  +  +K  G         K  A    V+L +GDA  GD++    AE   Q + Q  A+ +++T I   G  P+Q  WDALFA L
Sbjct:   13 VAKGDVIAVCGATGGVGAGVVKRLAATGDYKVRAIVRSTARAATRFA---DVPNSDALELVEADIRDPQGIAAALEGAHAVVCCTGTTAFPSKAWQGGNTPFEVDYVALKNVLTGATGQRGARLKRFVHLSSIGVTRRASLPFSILNAFGVLDALAMGEEALITEAQEAGFDYAIVRPGQLIDDDEEIDVNKPSGVQALLLGLVKPRAVLQAVALARGDAAVGDISRGGAAEVLCQALLQRGASNQAFTAIAQAGPPPTQAQWDALFAAL 279

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A0G4EQC9_VITBC (NAD(P)-bd_dom domain-containing protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4EQC9_VITBC)

HSP 1 Score: 176 bits (445), Expect = 8.520e-47
Identity = 113/275 (41.09%), Postives = 156/275 (56.73%), Query Frame = 1

Query:  298 GDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAK------EALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPE----KGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKS--YTVINSLGDAPSQDTWDALFAKL 1086
            GD +VV GA+GG+G+LVTQ LA  G+++V+ L R+ E+A       EAL++ G       +E+ +GD+ D +SL +A+  A+ VV CTGTTAFP+ +W GGNTP  +D      ++      G LK+F L +S+GV R  + PF ILN FGVLDAK  GE AV  A++E G+ Y IVRPG++ G P+           +PD       +G  K  V +  GD  AGD    SVAE   Q +   A  G S  +++INS GD P+   W     KL
Sbjct:    7 GDTIVVAGATGGVGQLVTQRLAQLGRFKVRALSRSPERASGPGGPLEALAAQG-------VEVARGDVRDPSSLPSALADASAVVVCTGTTAFPTGKWKGGNTPKAIDEEGTRAVVEQLRKQGGLKKFALPTSIGVRRPGQLPFSILNLFGVLDAKKSGEEAVMSASKECGYDYVIVRPGRLIGGPYT----------NPDVATLLKIEGGDKQRVEIAPGDQMAGDCLRVSVAEAIVQALLCPALDGVSIDFSIINSKGDPPTDADWGEAMTKL 264

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A7S2M4K4_9STRA (Hypothetical protein n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2M4K4_9STRA)

HSP 1 Score: 158 bits (400), Expect = 4.870e-40
Identity = 106/264 (40.15%), Postives = 154/264 (58.33%), Query Frame = 1

Query:  301 DVVVVVGASGGIGRLVTQSL-ASTGK-YRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL 1086
            D VV+ GA+GG+G+LVT+ L A  GK Y++    R+  +AKE L +  D  D +E+ L   +   +A L AA++GA  VV   GTTAFP++RW+GGN P  +D  AV  +  AA+   S++R VLL+SVGV+R ++ PF+ILN FGVLDAK  GE AV+ AA E GFSYSIVRPG++ G P+     A           +G A+  V +  GD   GD    + AE   Q +   +     ++++++   A + D W + F  +
Sbjct:   56 DKVVIFGATGGVGQLVTKKLSARDGKNYQLTIAARDAARAKETLDN--DNIDVVELNLVGDNKATDAELQAAIEGATGVVVSVGTTAFPTKRWDGGNNPKAIDMEAVTRIANAASNVESVRRMVLLTSVGVSRTNQMPFLILNLFGVLDAKRAGEDAVKSAAGEAGFSYSIVRPGRLVGGPYTNLDLANLFK------IEGGAENGVDVAGGDVMLGDCKRDACAEAVVQCLENESCVDLEFSLVSNEDTALTNDGWSSAFTSM 311

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A7R9UAD0_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UAD0_9STRA)

HSP 1 Score: 159 bits (401), Expect = 8.910e-40
Identity = 114/272 (41.91%), Postives = 153/272 (56.25%), Query Frame = 1

Query:  298 GDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAK----EALSSGGDVGDDLEIELEQGDILDE-ASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLR---AAAAGG----SLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALF 1077
            GDVV VVG +G +GRLVT  LAS G + V+G+ R+LEK +    E L S  +      I L +GD   E   L  A+ GA+ V+  TGTTAFP++ W GGNTP+ VDN+ V N++    +A A G    +LKRFVL+SSVGVTR  +FPFVILN  GVL+AKA  E  +  AA   GF Y+IVRPGQ+ G P+      G         +K +    + +  GD   GD   S+ AE     +  A      + V+N  G + S++ + ALF
Sbjct:   75 GDVVTVVGCTGNVGRLVTARLASMGSFSVRGVCRSLEKGEACFDERLRSKPEDSPG-SIRLFEGDTRSENPGLREALTGASAVIVTTGTTAFPTKAWAGGNTPENVDNLGVKNVIDTWISANADGPGSAALKRFVLMSSVGVTRRAQFPFVILNLGGVLNAKAAAEEYLMEAAAGKGFDYTIVRPGQLFGGPYDNNYYLGTLLKL----DKDANSQNIVVETGDKLLGDTLRSTTAEALATALELAETRNTDFVVVNKNGPSTSEEEFRALF 341

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A1Z5KP62_FISSO (NAD(P)-bd_dom domain-containing protein n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KP62_FISSO)

HSP 1 Score: 155 bits (391), Expect = 8.390e-39
Identity = 112/293 (38.23%), Postives = 163/293 (55.63%), Query Frame = 1

Query:  220 FSTDRSSGSGSRLRATAASMSADVAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEA---LSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGD-APSQDTWDALFAKL 1086
            FS+  SS    R  A      + +  GD VVVVG SGG+G+LV++ LA  G Y V+   RN     +    L+S        +++L +G    +  L  A++GAA +V   GTTAFP+ +W GGNTP  +D++AV  +  AA+A  SLKR VL++S+GV R D+ PF ILN FGVLDAK KGE AVR+AA E    Y+I+RPG++ G PF     A           KG A+  V++  GD   GD    + AE   Q +  AA +   ++++++  + A S + W + F ++
Sbjct:   35 FSSSSSSSHFPRTNAVPLLFLSAIGEGDTVVVVGGSGGVGQLVSRKLAQAG-YFVRVTSRNNPSTTDTNPNLTS-------TKLDLVKGS---DQELQQAIQGAAALVISVGTTAFPTLKWKGGNTPQAIDDIAVTRLAYAASALQSLKRIVLVTSIGVDRTDQMPFFILNLFGVLDAKKKGEEAVRKAANEN-IDYAIIRPGRLIGGPFTNLDVAKLLQ------LKGGAENGVTVAAGDVLLGDCKRDACAEAIVQCLTNAACSNVEFSIVSNENETAWSVEQWTSAFQRM 309

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A4D9D7C0_9STRA (NAD(P)-bd_dom domain-containing protein n=3 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9D7C0_9STRA)

HSP 1 Score: 152 bits (384), Expect = 2.480e-38
Identity = 104/278 (37.41%), Postives = 152/278 (54.68%), Query Frame = 1

Query:  277 MSADVAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGG---SLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFL-----TYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL 1086
            M+ ++   D V V+G++GG G+L+T  L   G+Y+V+ + R+  K ++ L      G+  ++E  + D  D  SL   +    CV+  TGT+AFPS RW GGNTPD VD   V N+L+A  +     ++K+ V LSSVGV R  + P+ ILNAFGVLDAK   E  +R+ A   GF   IVRPG++ G P+      T  K           E+G+ K +V + QGD+  GD    SVAE   + + +  A G++  ++N  G   S+  W ALF  L
Sbjct:    2 MAVELKVNDRVCVIGSTGGCGQLITARLVDEGRYQVRAVGRSDAKLRKVLG-----GESPKLEFAEADSRDIGSLYGPLSDVDCVIIATGTSAFPSPRWRGGNTPDAVDRKGVQNILKAITSKPRKRAVKKVVFLSSVGVLRTKQLPYSILNAFGVLDAKRDSEDLLRQMASTEGFDILIVRPGRLVGGPWTNTDVSTLLKV----------EEGARKRVV-VEQGDSLVGDAARVSVAELVVRALERPEAVGRALCLVNEEGPPFSEGQWTALFEGL 263

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A7S4LC74_9EUGL (Hypothetical protein n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S4LC74_9EUGL)

HSP 1 Score: 154 bits (389), Expect = 3.440e-37
Identity = 99/265 (37.36%), Postives = 149/265 (56.23%), Query Frame = 1

Query:  289 VAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAG--GAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDT-WDAL 1074
            +A GD VV+ GASGG+G+L+ Q LA   KY V+ +VR+LE+ ++ L  G D      IEL +G   D  S+   + GAA V+  TGTTAFP+ +W  G+TP  +D   V N++ +     +LKRF+L++S+G+ R D+ PF +LN+FGV+D K KGE AV   AE+ GF Y +VRPG++ G P+     A    A  + D  +       V + +GD    D    S +E+  + +   +A   + ++ N  G  P+    W AL
Sbjct:  199 LAAGDTVVIYGASGGLGQLLVQKLALQKKYNVRAVVRDLERGRD-LFKGYD------IELVEGATTDPPSVTRTIAGAAAVIVTTGTTAFPTMKWFQGSTPAAIDYEGVANVVNSTP--DTLKRFILVTSIGMERKDQMPFALLNSFGVIDEKRKGELAVIEGAEKKGFDYQLVRPGRLVGGPYTNPDIASLTNADLADDCQD-------VDIIKGDVGVNDAGRWSCSESIVEMLENTSAVNMALSICNKKGSPPADSAAWQAL 447

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: G6FRV1_9CYAN (NAD-dependent epimerase/dehydratase n=3 Tax=Fischerella TaxID=1190 RepID=G6FRV1_9CYAN)

HSP 1 Score: 147 bits (372), Expect = 1.490e-36
Identity = 106/290 (36.55%), Postives = 154/290 (53.10%), Query Frame = 1

Query:  307 VVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWN-----------------------GGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTY-------SKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL 1086
            V+V GA+GG+G+LV   L   G ++V+ L RN +KA++          D ++E+  GDI +EA+L AAM   + ++ CTGTTAFPS +W+                         N+P++VD   V N+++AA +G  LKRFV +SS GV R DKFP+ ILNAFGVLDAK KGE A+  +    G  Y+I+RPG++   P+ +Y       +K GG             K  V +  GD   G  +   VA    + +  +    K + ++N+ G  PS   WDALF+KL
Sbjct:   12 VLVAGATGGVGQLVVGKLLEKG-FKVRVLTRNTDKAQKMF--------DDKVEIAVGDIREEATLPAAMVDVSYIICCTGTTAFPSAKWDFEQTPNLITWIKLFFNPSDAKAKAKNSPEKVDIQGVTNLIQAAPSG--LKRFVYVSSCGVLRKDKFPYSILNAFGVLDAKQKGEEAIINS----GLPYTIIRPGRLIDGPYTSYDLNTLLKAKTGG-------------KLGVVVGTGDKLTGQTSRIDVATACVECITNSHCERKIFEIVNT-GSRPSAIDWDALFSKL 272

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BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Match: A0A1Z5KHV6_FISSO (NAD(P)-bd_dom domain-containing protein n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KHV6_FISSO)

HSP 1 Score: 146 bits (369), Expect = 2.360e-36
Identity = 98/267 (36.70%), Postives = 155/267 (58.05%), Query Frame = 1

Query:  289 VAGGDVVVVVGASGGIGRLVTQSLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLGAAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSLKRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYSIVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVNPSSVAETFTQTVGQAAAAGKSYTVINSLGD-APSQDTWDALFAKL 1086
            +A GD VVVVG SGG+G+LV++ LA  G       VR   +   +  +  ++    +++L +G    +  L  A++ A+ +V   GTTAFP+ +W GGNTP  +D++AV  + +AA+   +LKR VL++S+GV R D+ PF+ILN FGVLDAK +GE AVR+AA E    Y+I+RPG++ G PF     A           +G A+  V++ QGD   GD    + AE   Q +  AA +   ++++++  + A S + W + F ++
Sbjct:    4 IAPGDTVVVVGGSGGVGQLVSRKLAQAGSS-----VRVTSRNPVSNENNPNI-TSRKLDLVKGS---DEELQHAIEKASALVISVGTTAFPTLKWKGGNTPQAIDDIAVTRLAQAASQSKTLKRIVLVTSIGVDRTDQMPFLILNLFGVLDAKKQGEEAVRKAANES-IDYAILRPGRLIGGPFTNLDVAKLLQ------IEGGAENGVTVAQGDVLLGDCKRDACAEAIVQCLTNAACSNVEFSIVSNENETAWSVEQWTSAFQRM 254

The following BLAST results are available for this feature:

BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot

BLAST of mRNA_C-linearis_contig105.931.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FMQ6_ECTSI	4.310e-147	73.39	Dihydroflavonol-4-reductase n=2 Tax=Ectocarpus Tax...	[more]
A0A836C875_9STRA	1.630e-53	46.30	Dihydroflavonol-4-reductase n=1 Tax=Tribonema minu...	[more]
A0A0G4EQC9_VITBC	8.520e-47	41.09	NAD(P)-bd_dom domain-containing protein n=2 Tax=Vi...	[more]
A0A7S2M4K4_9STRA	4.870e-40	40.15	Hypothetical protein n=1 Tax=Skeletonema marinoi T...	[more]
A0A7R9UAD0_9STRA	8.910e-40	41.91	Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi...	[more]
A0A1Z5KP62_FISSO	8.390e-39	38.23	NAD(P)-bd_dom domain-containing protein n=1 Tax=Fi...	[more]
A0A4D9D7C0_9STRA	2.480e-38	37.41	NAD(P)-bd_dom domain-containing protein n=3 Tax=Mo...	[more]
A0A7S4LC74_9EUGL	3.440e-37	37.36	Hypothetical protein n=1 Tax=Eutreptiella gymnasti...	[more]
G6FRV1_9CYAN	1.490e-36	36.55	NAD-dependent epimerase/dehydratase n=3 Tax=Fische...	[more]
A0A1Z5KHV6_FISSO	2.360e-36	36.70	NAD(P)-bd_dom domain-containing protein n=1 Tax=Fi...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
C-linearis_contig105	contig	C-linearis_contig105:65324..83650 -

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	448.0
Seed ortholog evalue	4.1e-123
Seed eggNOG ortholog	2880.D7FMQ6
Hectar predicted targeting category	chloroplast
EggNOG free text desc.	divinyl chlorophyllide a 8-vinyl-reductase activity
EggNOG OGs	COG0702@1,KOG1203@2759
Ec32 ortholog description	Dihydroflavonol-4-reductase
Ec32 ortholog	Ec-23_001220.1
COG Functional cat.	GM
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
Exons	7
Model size	1891
Cds size	1035
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622927392.632667-UTR-C-linearis_contig105:65323..66125	1622927392.632667-UTR-C-linearis_contig105:65323..66125	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig105 65324..66125 -
1690879673.329045-UTR-C-linearis_contig105:65323..66125	1690879673.329045-UTR-C-linearis_contig105:65323..66125	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig105 65324..66125 -
1622927392.7342103-UTR-C-linearis_contig105:83596..83650	1622927392.7342103-UTR-C-linearis_contig105:83596..83650	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig105 83597..83650 -
1690879673.4269872-UTR-C-linearis_contig105:83596..83650	1690879673.4269872-UTR-C-linearis_contig105:83596..83650	Chordaria linearis ClinC8C monoicous	UTR	C-linearis_contig105 83597..83650 -

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


Feature Name	Unique Name	Species	Type	Position
1622927392.6446528-CDS-C-linearis_contig105:66125..66230	1622927392.6446528-CDS-C-linearis_contig105:66125..66230	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 66126..66230 -
1690879673.3417141-CDS-C-linearis_contig105:66125..66230	1690879673.3417141-CDS-C-linearis_contig105:66125..66230	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 66126..66230 -
1622927392.6576629-CDS-C-linearis_contig105:66718..66929	1622927392.6576629-CDS-C-linearis_contig105:66718..66929	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 66719..66929 -
1690879673.3542516-CDS-C-linearis_contig105:66718..66929	1690879673.3542516-CDS-C-linearis_contig105:66718..66929	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 66719..66929 -
1622927392.6718535-CDS-C-linearis_contig105:67286..67418	1622927392.6718535-CDS-C-linearis_contig105:67286..67418	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 67287..67418 -
1690879673.3651059-CDS-C-linearis_contig105:67286..67418	1690879673.3651059-CDS-C-linearis_contig105:67286..67418	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 67287..67418 -
1622927392.6827836-CDS-C-linearis_contig105:73335..73460	1622927392.6827836-CDS-C-linearis_contig105:73335..73460	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 73336..73460 -
1690879673.373565-CDS-C-linearis_contig105:73335..73460	1690879673.373565-CDS-C-linearis_contig105:73335..73460	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 73336..73460 -
1622927392.6921685-CDS-C-linearis_contig105:74139..74299	1622927392.6921685-CDS-C-linearis_contig105:74139..74299	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 74140..74299 -
1690879673.3939817-CDS-C-linearis_contig105:74139..74299	1690879673.3939817-CDS-C-linearis_contig105:74139..74299	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 74140..74299 -
1622927392.7071447-CDS-C-linearis_contig105:74597..74815	1622927392.7071447-CDS-C-linearis_contig105:74597..74815	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 74598..74815 -
1690879673.4063506-CDS-C-linearis_contig105:74597..74815	1690879673.4063506-CDS-C-linearis_contig105:74597..74815	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 74598..74815 -
1622927392.7202969-CDS-C-linearis_contig105:83512..83596	1622927392.7202969-CDS-C-linearis_contig105:83512..83596	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 83513..83596 -
1690879673.4168825-CDS-C-linearis_contig105:83512..83596	1690879673.4168825-CDS-C-linearis_contig105:83512..83596	Chordaria linearis ClinC8C monoicous	CDS	C-linearis_contig105 83513..83596 -

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


Feature Name	Unique Name	Species	Type	Position
mRNA_C-linearis_contig105.931.1	prot_C-linearis_contig105.931.1	Chordaria linearis ClinC8C monoicous	polypeptide	C-linearis_contig105 66126..83596 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at C-linearis_contig105:65324..83650-
coding sequence from alignment at C-linearis_contig105:65324..83650-

protein sequence of mRNA_C-linearis_contig105.931.1

>prot_C-linearis_contig105.931.1 ID=prot_C-linearis_contig105.931.1|Name=mRNA_C-linearis_contig105.931.1|organism=Chordaria linearis ClinC8C monoicous|type=polypeptide|length=345bp
MCAMPWTVLFATLLASCFMPHNAFYAPQVCSRQPAAAATNGVGGMRQQAS
QSRLGFSTDRSSGSGSRLRATAASMSADVAGGDVVVVVGASGGIGRLVTQ
SLASTGKYRVKGLVRNLEKAKEALSSGGDVGDDLEIELEQGDILDEASLG
AAMKGAACVVACTGTTAFPSQRWNGGNTPDRVDNVAVGNMLRAAAAGGSL
KRFVLLSSVGVTRADKFPFVILNAFGVLDAKAKGEAAVRRAAEEGGFSYS
IVRPGQIKGEPFLTYSKAGGAAPSPDAPEKGSAKCMVSLRQGDAEAGDVN
PSSVAETFTQTVGQAAAAGKSYTVINSLGDAPSQDTWDALFAKL*

mRNA from alignment at C-linearis_contig105:65324..83650-

Legend: UTRpolypeptideCDS

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

>mRNA_C-linearis_contig105.931.1 ID=mRNA_C-linearis_contig105.931.1|Name=mRNA_C-linearis_contig105.931.1|organism=Chordaria linearis ClinC8C monoicous|type=mRNA|length=18327bp|location=Sequence derived from alignment at C-linearis_contig105:65324..83650- (Chordaria linearis ClinC8C monoicous)
GTTCTGAGTTCGGACGCTTTGCCCACGCCAGCACGCGTTTGAAGGGGCGG
TGCGATGTGTGCTATGCCGTGGACAGTGCTGTTCGCCACGCTTCTTGCGT
CGTGCTTTATGCCGCACAATGCCTTCTATGCTCCTCAGGTAAGCACGAAA
TAACATGAACACTTCTGTAGACTATGCAGTATACTAACCAGCACACAGCA
GTGGGGGTGTTGCTTTATTGTGTGCTCTTGCCGAAGAACCCACACCGTTG
CTGCATAGCACGGCACAAAGAAAACTTCATCAGGGTGGGCCTGTTCCCTG
GGGCAGCAAAAACGCAAAAAATCTACAAATAGATTATATTGCAGCTATGC
TCTCGTGCACCCGTGGAGGACATGTATCTCCGGAGAAGCTTAAGTTGCGA
GGTAACCTTTGTTTTTTTGTCCAAGTGTTTTTGACTACCGTATGTGTTAT
GTAGACTGCTGTACCTCTCTTGAAGAGGGAGAAAAATCCACGCAGATATA
AGATCACGCCGACAAATCATGACATGTAGACAAGGTAGATCCTCCCCCAC
ATCATCTGCAGCTTACTCTGATATTTCCCCTCGACAATAAATTTAGCAAT
AATATCGTGTGCACTCAAGCGCGCAGCAGGTTCACGGGTTCGAATCCCGG
CGCAAGCGACTTTTTTTCACACGAAGTGAGTTTTTTCTCTCGCTTTCGTT
CCTGTCGTGGAAAGCGCTTATAGGGCCATTCTTAGGGCCATTCTTAGGGC
CATTCTTAGGGCCATTCTTATAGGGCAGTTCTTATCGAGCAAAAAAAATC
ACGGATTCGTTAAAAGGAAATTCACAAATTCACGGATTCGTCATAAAATC
CGCCGCGTTCTTGTCGCATATCCCCTCTGGTCCTCTGCTACTGTATTGCG
TGTATTGCGACTTACCCTCTCGCCTAGCCTCACCGAAGGACTTAAGCAAC
AGGTTGCACACTACTCGCCGATAGTACGATAGGCTAGCTATTTCCGACAG
AGGGAATTAGCCTCTGGCGTGCTCTATTAGAGGTGATATCGTGAAGTTGA
TCATCGTGCTGGACGTTCGGTCGCTTTGGCGGGCACAGAGCAACTCATCC
CACAACAACAGCAAAACCATCGACTCGTGACATTTTTTTTTGTCGGTAGC
GGCCTGTGACTGACCCTCTGAGGGGTTGGGACAAGTTTTGCACACTTTTG
TGCGTAATAGCAGCGCTCCTACCGCGTCTGCCCGATCCCTCCTCTGTTTC
CTCGGATTCGTGAATCGAACAGCGGCGTTTTTTTCGCCGCCCTTGTTTTC
CTCGGATTCGAGGGAAATGAATTCACGAATTCACGAATCCGTGAAAAACT
TAAACTTGTTCGATAAGGGCCATTCTTAGGGCCATTCTTATCGAGCGAAA
AAAAATCACGATCGAGTTTTGGTGGAGTGAGCGCTCTAACACCACCAAAA
CTGGGGGGTGATGTGGGTACCCTATGTCACTGTGAGCCATACGTCCTACC
GGGAGAACTTTACTGTGTCTGTCTCGTACTTCGAAGTATGAGCGCATGTG
CGCTGGTACACAAGTCATCCGCACAAGTACGTTGCGCGTGCCCTGGTTTT
CGCCCCGCCTTTGGCAGGACGTTTCCCCGGCTGCTTCCACGTCAGCACGC
CGACGTAGGCGTCATCGCTGTAGGCGCGTCATCATTGTCGACGCGTTACC
GCTCTCGCGCCCTCACGAGGTCGCCCCCTTCTGTCACAACTCAAACCCGC
CCCTGATCCTCACTTCCGTTCCAAGGATCTGTGGCTCTTCATCGTCTACT
CTGTCCTGTCCCGTGTGTCCTCACGGCTCCCATCCTTTGGCTGTTGCTCT
CGAGAGGACTCACTGTCAACCCAGCGAGTCGAGGGATCGAACCCTCCAGC
AGTGTGTGAGACAAACCCTTAGATTCGTGAAAAGGAAATTCACGGATTCG
TAAAAAATTCCGCCGCGTTCTTGTCGCATATCCCCTCTAGTCCTCTGCTA
TTGCGACTACCCTCTCGCCTAGCCTCACCGAAGGACTTAAGCAACAGGTT
GCACACTACTCGCCGATAGTACGATAGGCTAGCTATTTCCGACAGAGGGA
ATTAACGTCTGGCATGCTCTATTAGAGGTGATATCGTGAAGTTGATCATC
GTGCTGGACTTTCGGTCGCTTTGGCGGGCACAGAGCAACTCATCCCACAA
CAACAGCAAAACCATCGACTCGTGACAATGTTTTGTCGGTAGCGGCCTGT
GACTGACCCTCTGAGGGGTTGGGACAAGTTTTGCACACTTTTGTGCGTAA
TAGCAGCGCTCCTACCCCGTCTGCCCGATCCCTACTCTGTTTCCTCGGAT
TCGTGAATCGAACAGCGGCGTTTTTTTCGCCGCCCTTGTTTTCCTCGGAT
TCGTGAATTCGTGAAATTATTTCCCTCGAATCCGAGGAAAACAAGGGCGG
CGAAAAAACGCCGCTGTTCGATTCACGAATCCGAGGAAACAGAGTAGGGA
TCGGGCAGACGGGGTAGGAGCGCTGCTATTACGCACAAAAGTGTGCAAAA
CTTGTCCCAACCCCTCAGAGGGTCAGTCACAGGCCGCTACCGACAAAAGA
AATGTCACGAGTCGATGGTTTTGCTGTTGTTGTGGGATGAGTTGCTCTGT
GCCCGCCAAAGCGACCGAAAGTCCAACACGATGATCAACTTCACGATATC
ACCTCTAATAGGGCATGCCAGAGGTTAATTCCTTCTGTCGGTAACAGCTA
GCCTATCGTACTATAGGCGAGTAGTGTGCAACCTGTTGCTTAAGTCCTTC
GGTGAAGCTAGACGAGAGGGTAGTCGAAATAGCAGAGGACCAGAGACCAG
AGGGGATATGCGACAAGAACGCGGCGAATTTATTTATGAATCCGTGAATT
TCTTTTCACGAATCCGTGATTTTGTTTTGCTCGATAAGAACGGCCCTTAG
TTCGTGTGTACGCTTGAGGGAGAGACGGCTGAAACTCTCTCGCGTTCAAA
ATTACCAGGCAAGCACCGCAGAAGGTGGGTGGGGCCCTCAGGGAGAGGAG
CCTTCTGTGTGACCACGGTTCAGATGTTCTGGCAAGATGCCCCGCGTGGC
AAGGCGCCCCTTCGAACTCTGGAAATAAATGTGAAGACGAAAAAAAAAAA
ACGCGAGTTTTTCTCTCAAATACGTCCCTGGTTGTGGAAAGCGCTGTTGT
ACTCTGTAGTCGTGTGTCCACAGAGGGAAGAGATTGCCGCGTATTTCGCA
TTAAAAATCAAGGGTGAAGCACCGCAGGAGGGGAGGGGAGGGGGCCTCAG
GGAGAGGAACCCTTCTGTGTGACCACGGGCTAGAGCTCCTATCCGGCAGA
AATTAGGGCTGTGTATCGGAGCCGATACGTTTGATTTTATCGGTCGATAT
ATATCTAATCGAATATCTATCGCCAGCTCCGACATGCGGGCCGATATTTT
GGGGGAGGTTCCGTGAATCGAAATGGGGGCATATATTTCAAAATATGCAC
ATACGGAGCCCCGCAAAAATAACATACACATGATCAGTGTATTTGGTTCG
TGCCTCAAGGCGGCGCAGAAATGAGCTCCTTTTCGAAGCGTTCCCGCTGC
CGAGTCCAAAACTCAAAGCTGGTGATGCGGAAACAACCTTCCTCGAGGGT
ATAGCAAAAAGAACGAAGCGAATCCGGCCTCGAGTCGCGGTGTAGGGATG
ATTTACCTCGATTTTCAACTACCGCGGGGACCCGCAGACGAAAATCGCGA
TCATTCAATATCCCCCCACCAAAAAAACCCGGACGTACCTTCCCCCGAGA
CAGGCCCATAGCCGCCACCCACTGCTGTATGTTAGGCACCCAGCAGTGCC
TCGAATCACTTTGCTACTCCACTTCAGGGTTTGGTCCAAAAAATTCGGTT
AGGGTTATAGCTCTGTGAGGGCATACCAGACCTGTCTGAGACCATATTTT
GGACACGCGGAACAACTCGGTGCGGCCGACAGCAGCAGCCCACGTTACTG
GGGTACCCAATTGCAGCTGCTGTCAGGTGGGGGTAACTGTAGCAGAAGTC
TTGCAGTTTGGTCAGGTCAAAGGTTTTTTTGATCACTCTCTGTGGGCGAC
GAAACCGGTGATTCGGTCAGCAGCTGGAAATCGCCATGTTCAACGTTTTT
TCGGCATGCGGCGGGGTCCTCGAGCCTCCTGTGGCAGAGTTGTGCATGGC
AAACGAACGGCAGAGGGGGGGCTTCCGCTATGCTTCGCATGCGACCGCCC
CGGCAGTCGTGAAACGTGCTCCCGGAAGTGGAACCACGTAGGGGATACCG
AGTATTGGGAAGAAGTGAGCGAGTGGTCTGCGAAAGTAGGGGTAGAGGGT
GGCGTCACGCGCGAAACCTCCGGCAAGATCCTCTCACGATGGGAGAGTGC
ATCTGTTCCCGGCCCGACTGCGTCGCTAATATGACCGCGTGTTCAAGTGG
CACCGCCAGAAGCAAGAGAGCGGGGGGCAAAAGAAGATGGAGCTCGGACA
GAAAGCAGTGGTGGGCCGGTACCCGTCGACGCACTCTCAGGTGTGATGCC
ATGGTCATGTTTAGGATCGTAAGGTGTCCCCTCCAGCAGCTGTAGAGCCG
CACCAGTTTGTACACCATGTATGCATGCAACACCGCAGCAGTTGCGGCGC
CGGAGATAAGAAAATTAATTTAGGGTAGTGGGGCTTAATTAGGTAGTTCG
GGAGCAAACACCAGCACAAGTAGGATAATTTCTTGTATGTGCTAATTTCG
ACGTTTACTTGTAGCCTTGTCGGTGCACTAAACAGCAGTGGCGTGGCGCA
GGTCGGCTTCAAAGCTCAAAAACACTCGAAACACGTAAAACCAGCCCCGC
CCCCCCCAGAGTAACATGTGCACACATCCTTTCTACAAGGGCAGCAGCAG
AATTCCGTCCCTTTTCTGGAGCCGCTTCCGCACCTTTGTTTCAGCAGTTC
CCAAGTGTGTTTACGGGATCCACGGGACGACACCGGCGACAACAACGCCA
TCGCGATGAACAATGCACGACGCTGAACGTCCGGGTAGATGGCAGATACG
AATCTCAATCTCAGGCGTTCACTGCGTTTTTGAAAAACAAACATTTTTCT
CGACGGAACGCGAATTCAGGTGCGAGCTCTTCTGGAACACGTGGAGATGG
CAGGCGGCGTGCTTGATTGGTGTGGCGGCATCAACGATGCAGTTTGCGCC
GTGCTGACGGAAAGCAGTTTCGGTGTGGCAACCAACGACTTCGATGGCAG
GTACGTGGATTTCAGATTGTCTACTTGTATGGTGTCCTCCGTTGTATCCT
TTTGTAGCAATATTTTAAGACAACGAGCTTGGTGAGCCTTGTGGCAAAAA
TTCAAAGGTACATGTAGTTTAGAAGCAACATCTGCGGTGGCTTGGCGGCG
GTGCACTATTCGAAATTTGAAGTCGGTCCGTGCTGTCAGGTGTGATGTGT
GTCCATAAATAAATTTCGGTCGTAAACCTGCCCCTTTTCCGCCTTAACCT
GGTCCTTTCCCCCTTCAGGGTGGTCGCAGACAGTCATATGGATGCCACCA
CGAACGCTTTTGCGGAGGCCTTCGGCGAGGGAGTGCGGCGCCCGGAGTGG
GTCGTGACGAGCCCGCCGTACAAGCACGCATTCCCTATTTTGAAACACGC
TCTGAGGATTGGGCGTGTGGGAGTGGCATTCAAGCTGAGGCTGACTTTCC
TTGAGCCCACAAAAAGCAGGGGGCAGTGGCTAAAGGACAACCCACCCCAT
AGTATTGTAATGCTCTCCCGCGCAACCTACCGGGGTAGAAAGTGTAGCTC
TACGGAGGCGTGGTTTTTATGGCGGAGTGGAGGGGTGGATAGAGAAGAAA
GCAAAAGGCCAGCGTTTTTCTTTTCCTTGCCCGTGTAGGATCTGAAGTCT
TCGGGAATTTTCTCCGTAGGACGGATGAGAAGTACCCAAGTATGAAGAGG
TGTCGAATGCTGCACAATGTTGACAAAATGCACACATCGTTTAAGGGTGC
AAGTTGTTTGTTTCCCCCCCCGTCGATATTATAATGCGACAGACGACAGG
TGTGGAATTATTTCTTCATGCGTAGCCTATGTGGCGGATGTTGTGGACAT
ACAGCGAAATGGACGGGGCGGCGGTCGCAACTTAGCACGTACTCTGTGAT
GGGGGGGGGAGCTATGTACGAGGTTAGGAGTTGACCGGGTGCAGTGGCGG
GAGTATAAAAAAAAAGTCAAACCATTTTTGTACTTGAGACTCCTTCAAAA
GCAACAAACACGCTGACCAAAAACAAATCCACGCGGCGACGGGATGGTAA
TGCAGACAACCACACAGCTGCGCCCCGTTACTTAACTGAGAGTCGTAGTA
AAGCAGTTGCTCTGTGTGGGTGGGGAGCGAACACGATGCACCAGGGTTTT
GGCCATGACTCGTTGACATTCTACATACAACCTTGGGAGCAGCATCGGAA
AAAATCCTCGAACCACTTTGGCCTTCAACAACGATCGTCTTCAGGCCCGA
CGAAAAAAAAGAACTAGGGGTTGCCTCTGCTAACAAAACTGCTAACAAAA
CTGTCCTCATGCGACGTCGGGAACGTGCCCTACACAAGCAGCGCGCACCA
GCACCGGCGGTGGTCCCTTAGCCGTTAGGCGAAAGCCCACCGATGTGCGA
GACTACGACAAGACGAACAGGTTTCGAAGCAGACCGGTAGGGGGAGGGAT
AGGGGGATCCAGCCTCAGGTGTTTGAGTCATGCAAGCCGGGCGAACGTCA
ACGCTCCCTACGTCTCATGGAAAAGCACGTCCTCAAGGGCCAAAAAACTT
TCCACAGAATAGGCACGAAGCGTGGGCTCCACGTAGGTGTTCCTCTTGCC
ATATGCATTCGTGCAAAACACACGCAGCACCCAATAAACTTTCCAGAATT
CTGACGCACCTGTGCAACTGGTTAAAAACCATCGTCGTACTCGTAGGCAC
CAAACTCGCCGTCCATGTCGTCGCATCGCTCCTGCTGTATTAGGCTAACC
CTGATCCTTACCACCTCACTGTTGCAAAACTAAATCTGAAGCCTGCAATC
TGCAACACTTAGGGTTAGCGGGCACGCACACACGCACAGAGTAGCAGAGG
GTGGCACAAACATGATGTGTAGCTGCTGCTGCTGACTTTCTGTGCCGCAC
CAATCTCAATATTTACACTGAGATAACAAACAGACACCCTGGGCCTAGAG
CAAGCGCTGCACGTCATGGAGAACGGATGGGAAGGTGTTCTTAGATACAC
ACCATCCCTCCCCCTATTCCGTGCTTCGGGGGTGCTTTCGTCGTGCTTGA
AACGTGGGTTTGCATACCACATATGGTAGTCTGTATATCTATGATAGTCT
ATATCCACACATGATACAGGCTTTGCCGCCGTGGGCGTGCGTGTTGTGAG
CTCTAGGCTACGCCAACTGGTACATGTGCATTACTACTCCCATAAAAGTC
CTTCACTCGAGTAGGGTTGGAGGTGACTGAGTGATCCCAAAGCGTGTGGA
GTTTGTTCAATGCGGCGGCACACGCTGCTGCTGTGTGTCCAACCTGCTGT
GCTGGTGCTGACAAATGCCCGTTTTCACCCGTATCGAAGGCCGTTTGTGA
GAGGCCAAGGGTTGCTGCGGTACCCAATTTCACACGGAACTTTAGGTCTA
TCTCTCTAGTCACACACCTGATCCACACAACCTCGAAGTTCCGTTTTGGA
TTACCTTCTCATGGCGGAGCTATCCGCTTCTCTGGATCGGTGCTCAGCTG
GTACACTCAGGCCAAGTGATTCAGGGGAACAATACCCGGAAAATGAAGGG
GGTGCCACCCCGTCTGCGTGTGCCCTTGCGCGGTAAAAAATAAAAAAGGG
AACCAAATAACACTCTGTCTGTGATCATTCATCTTTCATTTTCATTGATT
CTTGGTAGTTTTCAAGATTTCTAGCGTTTTCAGTGTGTCACCCCACAAAA
ATGGCATGATCGAAGTAGCCCCAAATCACCCAAAAAATATGTTCTACATA
GTGAAGCCAAATCGCGTAAAAAAGTGCCTCCGGCGGGGCGCCTCCCCCTC
CGGGGGCACCTCCGGCAGGGTCCCTCACCAGCCGGAGGGCCTAAGGGGGC
TCGCACTGACGAGCTTCGAGCGCGTTCGCGCCTCAGCTCGCCTGTGCTCG
CCTGGCTCGCTGCGCTCGCCGATATTTGTTCGATAAATTTATATCGGTGC
CAACAAACATCGTTATATCGGCTGCGCCGATCTTCGATATGTATCATATC
GTTTAAACCTGAAGATACGCAGCCCTAGCAGAAATGCTGTGAGCTCTGGT
TGTTGTTGCTCTTGTTGTTTTATTTTACTCTTTTATCTCCACATAAAAAC
AGAGCTCACAGCATTTCTGCCGGATAGGAGCTCTAGCCCGTGGTCACACA
GAAGGGTTCCTCTCCCTCAGGCCCCCCACCCTCCCCTCCTGCGGTGCTTT
ATATGTTGTTGTCGTTGTCTTCACATTAAAAACCATCCCGTCTCTCTTCA
CCAGTACCCCCCTTTGTCCGTACTGATCCAACAGACACGGCCAATTCCCG
TGGTCACAGGTTAACTTACCCTAAAAAGGTATACTAAAAGTGCAATGGAC
CCGAAGGGTCAGCAGAGCGATAAAATCAAGACAAAATCAAAGCAAATAGT
CTGGAGCCCTCCGCTCCCCTCTGAACGCTATGCGAGTTATATGTGACGAT
AAAAAAATAAAATAAAAATAAAAATTGTAGAGCAACCAGCGGTAGGTAAG
ATATCTGATCCGGTGTACATGTACTGTAGTTGTCTTCTGAAATGACTATA
TCCGACGCTTGGCTCACCACACGACGATGGTGCAGGTGTGCTCTCGGCAA
CCAGCGGCTGCTGCGACAAACGGTGTCGGGGGTATGAGACAGCAAGCCTC
ACAGTCGAGGCTTGGGTTTTCAACAGACCGAAGTAGCGGCAGCGGCAGCC
GGTTGAGAGCCACGGCAGCGTCCATGTCGGCGGACGTTGCGGGGGGAGAC
GTTGTAGTCGTTGTCGGCGCCTCGGGTGGTATCGGGCGCTTGGTGACTCA
AAGGTACGCGCTTTGGTTGCCCCAAGCATGCTAGCGAAACACTTGGTTTT
GACGTTGGAAGCACAGAGACGCTTTGGGCGACTTCGCAGTCTGGGTGGCT
TGCAGGCGCACTACTGGGGGAAACATGAGCCGCCTTAGGCGCAGCAGCTG
TAGATTGCCGCTGTGTTGCGGGGTACGTGGTCGTCCCGGCTGAATCAGTA
GCCTGGGTTCCGTGAAGCTTGCGCACCCTGTCACCCTTTCTACAGGCACC
CGTTTTCGCCCTGTCCCTCTTCGTGTATTTGGATTGATTGTCGGCGGCCA
GCCTCGCCTCGACGGGCAAGTACAGGGTGAAGGGCCTGGTTCGGAACCTC
GAGAAGGCCAAGGAGGCGCTATCTTCTGGGGGTGATGTTGGTGATGACCT
GGAGATCGAACTTGAGCAGGGAGACATCTTGGACGAGGCGAGTCTGGGAG
CGGCGATGAAGGTGAGGGATACCGCCGTGGTCGGCTTTGGTTTCCCCCCG
GGGTGTCCTGTACAGGACGAATTTGAAAGCCGATTGTCTCCATACAGTAC
AGTCAAGATTTTCTCCGAAATGGGGAGGGTTGCTATTGTCTAGCGATGCG
CCGTTGGAGAAGTCTCGTCGAAATCTAACCAGACATAGTATTTTCGTTCA
TCGTACGAGTACCCTCTTGATTGTGTGGAGAAAATCGGAGTTGGGGTTCG
TCTGCACCCCGGGGGGAAATCAAAGGCGAAAGCGGCATTTTGTTCTGTTC
GTCGTTCGGCAGCAGCGAAGGCATGGCGAACAAGGTCGCGCTTCGGATGC
AGCTACTACATTAGTCTATACTTGGTATATAACTGTATGCTGTATCCCCT
CTCAACCGTCACTTTCGCCCCCGCCCGCGCCGCATGAGGCCCTTGTGTTG
GTCTTACACCTCTGGCCACCGATGCCAATCATCCCCTAGAGAGCTCGCGA
GGAAGCAACCTCCCAAACCCTATCCTTTCCGACTGCTGTAGCGAGCATCG
TTCATCAACATCCCCGACATCCTGTCTGATACTCCGTATATTCTAACCGT
TAACTGTGCGTATCGCACGCCTCCCTCCCTGTCGGACGTGTGCGCACCCA
TCTGCTTGGGTGTACGTTGTGTTCTTGTGCTCCATGACAGGGCGCCGCTT
GCGTGGTGGCGTGCACGGGCACGACGGCTTTCCCGTCGCAGCGTTGGAAC
GGGGGTAACACTCCGGACCGCGTGGACAACGTGGCTGTTGGCAACATGCT
GAGGGCGGCGGCAGCGTGAGTTTCTGAAGTGGCTCTCGTGCGTCTTGTGT
TGCAACCGAGGGAAGAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG
AGAGAGAGAGAGAGCAAAGGAAAATCTAAGATGGCAGACAGGTGAACGAT
CTTCGTTGTTCACCAAGTCATTCGGCACTATGCTCTGAACCCGCTCTTTT
TGCGTTTGTTGGGCAGGAAGCGTTGTCTTCGAATTCTGTAATAGTGCCTT
GTGTGCACGGCCGTCCGATCTATCTGTCTTCTTCGACAAGAGAATCCGGG
CGACTTTCCTCTCTTGGCCTCTCCACAACCCAGAACTAAATCAGCCGGGT
AGAGTCCTCCCACAAAGTCTTGCCTGACCCCGAAGCGGCCTGGTTTTTCC
AGGGTGATACGTGGTGTTGTGATGGGATGGTATACCCATCACTTGATGGG
ATGGTAATGGGATGGGATGGTAATCGGGTCGGAATTTTGGCACCATCACA
AGATACCATCCCATCACCACCACACCAGTCGGAGACACCATCAGTACAGA
GGTGCTGATTTTTGAACGCTTCCCATCTAGGGCTGGGTATCGGCGCAGCC
GATCGATATCTTATATATCGAGATCGGCGCAGCCGATATCACGATATTTT
GTCGATATATCGGCGACAAAATATCGGCGAGCGCAGCGAGCCCGCGAGCG
CAGCGAGCCCGCGAGCACAGCGTGCTTCGGCGCGGAGGCGCTCGAAGCTC
GCTGTGCGAGCAAAATCGGCCCCCCCCGGCTGGCGAGGGGGCCCCGCTGG
AGGCGCCGCCGGAGGCAGAAAATTTGGGGCGTTTTCGCTTCATTTCCAGT
CAAAATGATATCAAAGTTGCCCCCAAGACAGGTATCGAACTTCTTGCTTG
ATATCAAAGTTGCCCCCAAGACAGGAAATTTTCGTGACGAAACACCAAGC
AAGAAGTTCGATACAAAAAACGCAGTAAAAAGAAGGGCTCAAAAGCTGTG
GCAGCAGATGAGAGTCACGAATTTATAATTCTCGTCACAGTAAATTGGAG
GTGGAATGGACTGATAGCTAGCTCGAATCGTTAATCGTAACCACACACCA
CACCATAATGCAGTGCGCAGTGCGGTGATTTCTCCCTCCTTCCCTTTCTC
TTCATCGGCACGTTCCTACAAGTTCCTCCTACAAAACAACGATGAATAAC
AGCCCAACTCCGCCCATCCCAGAACAACTTCAAGCTGCAGACCGCCCAGC
AGACGGCAGACAACCACACTAAATTACCTGCTCGAATCACATGAGCTTCT
GACACGACATGCAAAATAAAAACGCCAAAACACCAACGAAACCACGAAAC
GCTACGAAACAGCACGCTTCTTCTTTTTTTTTTTTGCTAACAGCAGACTT
CTTCCACTCGTCCACCACACCCCACACGTTCCGCAAGTACACGAGTAGCT
CGACGTTCGAATCTGCAAGGCAACTCCGGTTCGGCGTCACCGTGAGCCCT
GCCGTAGAAAACATGCGTTCGGATTGCGCTTGAGATGACGGAATGGCAAG
CACACGACGAGCCAGCGCCGCCAGGAGAGGGTATTCCAACTGCCTCTTGC
GCCACCAGTCGAGGGGATTAGGAAAGACCGTCGTCGTTGCCATAACCCCT
GATGCCGTCTTGGTAGGCTTCGACTCCGAAACCCGTATCCCAGGTGCGGC
CTTGAAGGCAGCGACCTCCAGGTCGACGATGGTCGCGTATTGCTGGCGTT
TGTCGTCCATAGAAACACCAGCAACACCGCTAGCCTGTGCATCCTCAGCA
TGGGCAGCAGCGGCAGGCTCGAACGCGCTCATGCGAGGGCGCTTCGGGTC
TCCCTGGGGTGGTGGTGAGACCGGCGGCGACTGGTCAGGCTCGGAATTAG
AACTCTCCGCCGAGGCGGGCGTGTTATTGCTGGCGTGCTTCTCCATAGCA
ATGTCCACCGCCGCGTCAGCGACAGCGCGCCATACGGCTGGGTGCTCGCT
CGGCTGTATCCCGTAGAGGTGCTTGCACCTCGGGTCGAGGCCCGTTGCGA
ACACCTGAACCAGCTTGAAGCCCTGGGGTTGGCGCCGCCTGCCTTCCATG
TACTTCATGACGTTCGTGCCGTCGCCCCAGCGGTTGGTGAGATCCTCCAG
CAGGCCCTCCGCGTCCGGAAGAACGGATTCCATCGCCTTCTGCCTCGTCG
TTGTGAGCCCTTGTCTCGAAGCATTGCGGAGATTGTTGATTGCGTCCTTA
ACCCCGTCCCGCAACTGCGCAATGTTTGGGATGGTCATGCTGCCCGTCAC
GTACTTAGCTCCCTCCAGGTCCTTCTGCGTCCTCATGAAAGGCTCCAGGA
TCGGTTCAACCAGCTGCAGCACCTCCCAGTCCTCGTCCGACAACAGGGGA
GGGACGCCGTCCAACGACTCGTGCATCTTGATGGCCTTCTCGAGGTAGAG
CAGACGGGCGATCATCGCCCATGTCGACCACCACCTCGTCTCCACTTCTT
GCATCACGCAGAGCGCGACTATCTCGAGGATGCCGCACAGGGCAGCGAGT
CGAGCTGCCATCTGGCTCGACTTCTTGTAACGCCCTACTAGCGTCCGCGC
AAGGCTCACAGCGCGCAGACTCCTGCCGTTGAACACGGATGACGTCGTCG
ATTCCATGCGGTGGTTGGCGCAGCCGACGTGCGAAATCGTACCCCCGCCC
ACCTCAAGCAGGCGACCCGCCTTGACCATAGACGGCTCGCAATCGGTGAC
GCATGCAGTCACCCGACCGGTTAGGTCGTGGCTTTCGATCATGCCCGCTA
TCAACTTCGCCAAGTCCTCACCCGTAGTTGTCCCGGTGTGCTTCGCGCAG
TCCAGGGAAAGGTGCTGCAGCTCCCACTCGGAGTTGATGTAGGCCACCGT
CAGCGACATGTACGACTCGTTCCTTCGAGATGTCCAGCCGTCCGTGGTGA
TCGCGACGAACTCTTCATCGAGCATGAGGGCGACCTCGGTTTCGAGACCC
CTTTTAACAGCGCGCATCCTCGAAAGAAGGCCTTTGCGGTCGGGAACCTT
GGCCTTCTTGTTGAGTCTCTGGACGACGACCCTGAACTCCGGGTACTCGA
CGAACTAGCGAATGGTCGAGAGGGCCGAAGGGGAGGAGGGGGGTTCATCG
GGAAATAGTTAGATGCGCTGCATATCGTTTCGAAAGGTGCTGCCGCCTGT
CAAGTTGGAAGTGGCAGCTGTGGACAGCAATTTTCTACAACCTTGCCTTG
GTAAAAAAGCGTCACAGGTACCTATAGTCACGTAGAACGGCAGTAATTAT
TGCTTTAAGAGTACACATCTAATCAACGTACAACACGCGCCTGCTTCGAA
AAACACTGCTGTATCGCTCCAAATATTTACACATCTAATCAACGTACACG
CGCCTGCTTGAAAAAACACTGCTGTATCGCTCAAATGTGTACACATTAGT
ACACATGGGTGCGTGCGATACGCGCCTGCTTGAATTGTACTCGCTGAAAC
ACTTTTTACTTTTTACTCTACACTTTTAAAAAAACAAAGAAACAACACGG
CTACCTTGCTGTGTACTGCTGTGCAGACTACCTGGTACTACAGTAAAATT
GTTATTTTTTTTTTCAACTTGCGCTGAAAAAATGCACAAAAACTTACCGA
CAGAGCGAGGTAGTTGTTGACGATGAGACGAACCAAATCATCGTGCCACT
CTGGCAACGCCTCCAGGAAGTGCTTCTTGATCCCTCCTGCTGCTGCTCCT
CCTCCTGCTGCTGGTGAGGTGGCGGAGCCGAGCTTCTTGGCACGCTCGAT
CTCGTGGAATGCATCCCTGTGTCCAGGCCTGGTGGTGTTGAGATGAGACA
AGAGGTTGCTCGGCGATCCCTTTCCGAACTTGGCCTCCGCGATGTGAAAG
TTGCCGCTGGCAACGCACAACTGACAGATCGCGATGTTCGAGAGAGTGGA
CTTTCGATACACCCTGAAATGCTTCCACGCAGCGTGGTGGGCGTTCGCGG
GCTTGGGCAGCGTCGGCTCTGACTGTACCCTCTCCGCTTTCTTGGCACTC
TCGGTAGCCTTCACATCTCTGCTGTTTGGAACTGGTTCAACGGAATCCCC
CGACGTGGCGGACCCTCCACCTTGGTCCGCTGGTGGCTGGGTGCTGTTTG
GGTCCATATGTCTACTGTTGTTCTGTGGCTGGTGGTACACAGCACGCTGC
GTCCGCAGTGTTTTTAGAGGGGGCTCCGTACGTGTATGTGATGATCCAAG
GAGCCCCTTTTCGATTCACGGAACCCCCTCAAAAAAATATCGTGGGCATA
TCGGTGCCCACGCTACGCTATCCCTACGCTATATATCGCCGCGATATATC
TTACATATCGATACCGATACCCAGCCCTATTCCCATCCCATCTAGTATAC
CACCACGCCAGTCGGAGACACCATCAGTATAAGAGGTGGTGGTTATTGAA
CGCTTCCCATCCCATCTAATTTACCATCACAGCTATTGAAGTTACCACCA
TCCCATCGATTACAGTCTTCTCTCACCGATTCCTCTTTTCAGAGATCTAC
CACGAATACCACCCCGTACATCTCGGCACCTCCCCCCCCCCTCATCCAGC
ACAGCGTGTTTTCTGAGGGAGGGGTGTGTAAGGGCAGAAAATGTGTGGGA
TAGGGGGGGGGAAGGGGGTAGGGGAGGGGGTTCGACCCGCTACACACACA
CACACGCAACACGTGGCAGGGAACGTTGTAGTGCCTGCTCGCTGGCCGCA
TGTGGGTTTGTTTGCTATTATAGCACGTTTGTACGCAGGCGTAGATACCA
CCAGTTGTCAAGCGGAGAGGGAATTTTCCGCCCTCAAGCAGGTCCTTATA
TTAGTGACTCGCGTGCCGGTACCCTGCCCCGTAACATCGAGCAGATGCTG
TTGCTCAGGCTTCACAGGCGCCTCATCCCTGGCTTTGCGAAAGTAGAGCA
AGAGCTAGCCACATTGAAGGCAAAGTACGATGCAATCGCAAAAGTGGCGG
TTTGCCGCCCAGCAAGCCAGGAAAGGTAATACTGTTACCCTGAACAAGTA
GGGTTGCTGTCCGACGTTTCAAATACCAGTTTTTGTTTCTTGTTTTTGTT
TTCTTATTTTTGTTTTTTGCTTTTGTTTTATACCAGTATTTTTTAAGCGT
TTTGTGGCCAAAACTTCAAGAACACAGCAGTAATAGCAGTACATTTTAGA
ACTTCGGCTGGAGTTAGTGCCTGCAGTTGGCTGTGGTCTAAAGAACGTTA
TTTTAAGGAAACCCTGTTATTGCTGTTTTTGACAAGGTGGGCAGACGGAA
GTAGATTAGTCTCGTGCTACAGTACTACGCGGTTGTGGTATTTTCGTATT
TTCCATTTCCAGGGGACAACTTATTTGAATACGAAGTATTTGTTTTATTT
CCTGTTGTTTATTTGTATGTGTATGCAAGCGGGAGGATGGGTAGCACTGG
TAACACCTCTGTGTACCAGAGTTCTTTGTGTTACCATTTTCTCGCCACCA
CGCCAAGGCAAAAGCTCCCCCATCCCATCACACTCACTCACCGTCCCACC
AGTTACCATCCCATCCCATCACGACAAGTACGATACCATCCCATCCCATC
GTATTACATCAGATGTGCGCGCAAACACCATCCCATCCCATCACGACAAG
TACGATACGATCCTATCCCATCGTAATACCATCAAAAGTGGGCACAAATA
CTATCCCATCCCACGTGATGGGAACCCCTAAAACAATTTCCACCTGCGGT
AGGCTTTCAGGCGCCACGTACCACCCTGGTTTTTTCCTTCCTCGGGTAGG
GCGCATTCTGAGTTTAGACACGAAAACAATATCCCAGCTCTCTCGCGCTC
TCGCTCTGATTTCTCCGCACCTTAGATCTAGTGCTTTTGGCTCTCTTGCT
GTCATTTTTTCCATCGTTGGTTTTTTGGTCAGCGGCGGGAGTCTGAAGCG
CTTCGTGCTTCTGTCTTCGGTCGGGGTGACGAGGGCCGACAAGTTTCCGT
TCGTAATCCTCAACGCCTTCGGGGTGCTGGATGCCAAAGCGAAAGGCGAG
GCCGCGGTCAGACGGTGAGAATCATGTAATTCATCTTGACGTTGGGTTCG
TGAGTTACCCTGTTGGAGTTAGGGTTTGTCAACCCTTGCGGTTCGTCCCG
CGAGGATGGTGGTGAGAAGCATCTCTCTTCGTTTCTTTCTGTTCTGTTAG
TCGTGTGTGAGGGTCTACTGCCGCCGCTGATGACGGGGTCCCGTGAGTGC
GTGACAAGGAGTGGTTTCCTTTGGGTCAAGTTTGACCCATCAAGTCACCC
CCTCCTCCTCCCGATACCGTTGTCTCACGTTCTCGCGGAGTTGAAAGACT
TTTGTTTAGATTGCCGTCGAAAGTGTGTGTGTGTGTGTGTTTTTTTTTTG
TCTCCCGCGCAAACCGATCAGAGCCGCCGAGGAAGGGGGGTTCAGCTACT
CCATCGTACGGCCCGGCCAGATCAAAGGCGAGCCGTTCCTCACGTACTCC
AAGGCTGGCGGGGCGGCGCCCTCCCCCGACGCGCCGGAAAAGGGATCCGC
CAAGTGTATGGTGTCGCTGCGGCAAGGGGACGCGGAAGCCGGCGATGTTA
ACCCGAGCTCGGTAGCGGAAACGTTCACGCAGGTAACGGGTTGTCCATTG
GCCCATGGCTTGTGTATGTGGACGCGCCATGTCTGCCTTGCTGCAGCACT
TTTTTTTTAGGGGTTCGAGGGTTTGCGTTGCATGGAGTACAGACACAGTT
CTCGGGGAGAAACGGTTGAGCTGCCCGTTACGAAAATTAGACCACATTAT
TTTATTTGTCTGTCCGCTTGGGTGCTAGTCCGTACGGGATTCAAGAAAGG
GGTGAAAGGCAAAGCGTTTGGCAGTCACGCGACCAAGTTCTTGGCTGTCG
CCATTGCACTGCATGTATGTGTCGTGGTCATGGGCATGTGTTGTTTTGTT
GGGAGCGAGCACCCCCGATCTCACATTCGGGTGTTCTTGTGTTGCTTGGC
GCATCGAAGGCTTGCCACTTTTTTCGTCAGTTTGAGCAGGTCGAAAAACT
ACAGGTCGGCAGCCGGGGAGCGCGTGTTTTAACCCCCCCCTTTTCTCGCT
CAACTATCCACTGGTGGCAGACTGTGGGGCAGGCGGCAGCGGCGGGCAAG
AGCTACACGGTGATTAACTCTCTCGGGGATGCTCCAAGCCAGGACACCTG
GGATGCGCTTTTCGCGAAGCTCTGATCCATCAAGTTCATAGATTTCCACG
GGAATGTTACCGGCTGTTTTAAGCATGTCAGACCGACGAATGTCTAGAAG
TTTTTCGAGTCTCCAAGGGGCGTCAGATCGGTGCTGTGCCAAGCTACATT
CCGAGCATTGCTTGCGCTTGTTTTTGAAAGAGGTGAGGGTCCTTCGATGG
AATGAAATCATGTTTTGAAGATTTGATAGAGCGTAGTGCAACCGCTTGAA
CCCGTTGTTCCTGGAATCGGCCTCGGCTGTGATGGCGGCACAATAACCTT
CGAGAATGGGTAGCGCGAAGATAAACGGATTGATCGTCACGTAAAAGTGT
AAATGTTGATTCAAGACGGAAATGGGCGTGTCTTGTGGAGTACAGTTGTG
GGCCCGGAGAGATCGTGTATCGTCGACGATGCGACCCCCATTCTGCCAAT
TAGGACTGCGGGGTGGGGGCTAGCGTATTGAGCCGCACTTTTCCTTCTTT
CTGTCCTGAAACATCTCGACCTTTCACCAGGCCACAGGGCAAAGGTGCTG
TCACGTATACATTGCCACCCGGTACAGAATTTCTTGGTACTCCAGTGCCG
TCTAAGACTCTATTAGACACGGAAGGAACGCCACATGTTTACGGATAGAA
TATTTCATGTAGTGCGCTGAAATCTGCGGCAAGAGTGGCTTCCGGCATCT
GTTACATCTAGAGGTGGTCATCAGGTTACAGAACATATCGAAGACATTAA
CGAAAATGGCGTTGATGCTGCGGAGAGGGGCTCTTTTTGTTTACGGTTTT
GAAGATGGTGCATCCCACCAAGTCTCA

Coding sequence (CDS) from alignment at C-linearis_contig105:65324..83650-

>mRNA_C-linearis_contig105.931.1 ID=mRNA_C-linearis_contig105.931.1|Name=mRNA_C-linearis_contig105.931.1|organism=Chordaria linearis ClinC8C monoicous|type=CDS|length=2070bp|location=Sequence derived from alignment at C-linearis_contig105:65324..83650- (Chordaria linearis ClinC8C monoicous)
ATGTGTGCTATGCCGTGGACAGTGCTGTTCGCCACGCTTCTTGCGTCGTG
CTTTATGCCGCACAATGCCTTCTATGCTCCTCAGATGTGTGCTATGCCGT
GGACAGTGCTGTTCGCCACGCTTCTTGCGTCGTGCTTTATGCCGCACAAT
GCCTTCTATGCTCCTCAGGTGTGCTCTCGGCAACCAGCGGCTGCTGCGAC
AAACGGTGTCGGGGGTATGAGACAGCAAGCCTCACAGTCGAGGCTTGGGT
TTTCAACAGACCGAAGTAGCGGCAGCGGCAGCCGGTTGAGAGCCACGGCA
GCGTCCATGTCGGCGGACGTTGCGGGGGGAGACGTTGTAGTCGTTGTCGG
CGCCTCGGGTGGTATCGGGCGCTTGGTGACTCAAAGGTGTGCTCTCGGCA
ACCAGCGGCTGCTGCGACAAACGGTGTCGGGGGTATGAGACAGCAAGCCT
CACAGTCGAGGCTTGGGTTTTCAACAGACCGAAGTAGCGGCAGCGGCAGC
CGGTTGAGAGCCACGGCAGCGTCCATGTCGGCGGACGTTGCGGGGGGAGA
CGTTGTAGTCGTTGTCGGCGCCTCGGGTGGTATCGGGCGCTTGGTGACTC
AAAGCCTCGCCTCGACGGGCAAGTACAGGGTGAAGGGCCTGGTTCGGAAC
CTCGAGAAGGCCAAGGAGGCGCTATCTTCTGGGGGTGATGTTGGTGATGA
CCTGGAGATCGAACTTGAGCAGGGAGACATCTTGGACGAGGCGAGTCTGG
GAGCGGCGATGAAGCCTCGCCTCGACGGGCAAGTACAGGGTGAAGGGCCT
GGTTCGGAACCTCGAGAAGGCCAAGGAGGCGCTATCTTCTGGGGGTGATG
TTGGTGATGACCTGGAGATCGAACTTGAGCAGGGAGACATCTTGGACGAG
GCGAGTCTGGGAGCGGCGATGAAGGGCGCCGCTTGCGTGGTGGCGTGCAC
GGGCACGACGGCTTTCCCGTCGCAGCGTTGGAACGGGGGTAACACTCCGG
ACCGCGTGGACAACGTGGCTGTTGGCAACATGCTGAGGGCGGCGGCAGCG
GCGCCGCTTGCGTGGTGGCGTGCACGGGCACGACGGCTTTCCCGTCGCAG
CGTTGGAACGGGGGTAACACTCCGGACCGCGTGGACAACGTGGCTGTTGG
CAACATGCTGAGGGCGGCGGCAGCCGGCGGGAGTCTGAAGCGCTTCGTGC
TTCTGTCTTCGGTCGGGGTGACGAGGGCCGACAAGTTTCCGTTCGTAATC
CTCAACGCCTTCGGGGTGCTGGATGCCAAAGCGAAAGGCGAGGCCGCGGT
CAGACGCGGCGGGAGTCTGAAGCGCTTCGTGCTTCTGTCTTCGGTCGGGG
TGACGAGGGCCGACAAGTTTCCGTTCGTAATCCTCAACGCCTTCGGGGTG
CTGGATGCCAAAGCGAAAGGCGAGGCCGCGGTCAGACGAGCCGCCGAGGA
AGGGGGGTTCAGCTACTCCATCGTACGGCCCGGCCAGATCAAAGGCGAGC
CGTTCCTCACGTACTCCAAGGCTGGCGGGGCGGCGCCCTCCCCCGACGCG
CCGGAAAAGGGATCCGCCAAGTGTATGGTGTCGCTGCGGCAAGGGGACGC
GGAAGCCGGCGATGTTAACCCGAGCTCGGTAGCGGAAACGTTCACGCAGA
GCCGCCGAGGAAGGGGGGTTCAGCTACTCCATCGTACGGCCCGGCCAGAT
CAAAGGCGAGCCGTTCCTCACGTACTCCAAGGCTGGCGGGGCGGCGCCCT
CCCCCGACGCGCCGGAAAAGGGATCCGCCAAGTGTATGGTGTCGCTGCGG
CAAGGGGACGCGGAAGCCGGCGATGTTAACCCGAGCTCGGTAGCGGAAAC
GTTCACGCAGACTGTGGGGCAGGCGGCAGCGGCGGGCAAGAGCTACACGG
TGATTAACTCTCTCGGGGATGCTCCAAGCCAGGACACCTGGGATGCGCTT
TTCGCGAAGCTCTGAACTGTGGGGCAGGCGGCAGCGGCGGGCAAGAGCTA
CACGGTGATTAACTCTCTCGGGGATGCTCCAAGCCAGGACACCTGGGATG
CGCTTTTCGCGAAGCTCTGA