mRNA_P-littoralis_Contig61.6.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig61.6.2
Unique NamemRNA_P-littoralis_Contig61.6.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A4U6N116_9MICC (Glucanase n=2 Tax=unclassified Arthrobacter TaxID=235627 RepID=A0A4U6N116_9MICC)

HSP 1 Score: 304 bits (778), Expect = 1.630e-93
Identity = 157/338 (46.45%), Postives = 198/338 (58.58%), Query Frame = 3 
Query:  966 SQPMAVWVELKSSAANVQV--KAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEGN-----------------DMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            S P AVWV     A   Q        AAGK  Q+P+LA Y LPFRDC+QYS GGAT +  Y  W+  LA+ I      +VLEPDGL IIP+  ++DG  +WC+P +A+  TA  ERY M   A+  LKA   T +Y+DG+H+ WL   E+++RL+RA VQ ADGFF NVSN+  TERQ+ +   V+KC+++  E N                 D S     D +Y +NVD       +DD+ H +IDTSRN    W     YPDP  WCNPP R LG   T++TG+P  D F ++K PG SDG C+RGLTD GGVDPEWG V P  G WFP Q   LI
Sbjct:   73 SAPQAVWVTGSDPATVTQEVRNTTHRAAGK-KQVPVLAAYNLPFRDCSQYSAGGATDVAGYKAWVDALAAGIEDRAALVVLEPDGLGIIPWNKSLDGASEWCQPAEANPQTAAAERYEMLNYAVDQLKALPNTTVYLDGTHSAWLGTGEISSRLVRAGVQKADGFFLNVSNYELTERQLKFGSWVSKCIYYATEINPGAYGSCGSQYHPASPADFSTWGLTDAWYAQNVDAAPNAPSNDDLAHFVIDTSRNGKGPWVPTAAYPDPQVWCNPPSRGLGYLPTSDTGNPLADAFLWIKVPGESDGECSRGLTDNGGVDPEWGRVDPAAGAWFPEQALDLI 409
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: UPI000CE46F94 (glycoside hydrolase family 6 protein n=1 Tax=Arthrobacter sp. DWC3 TaxID=2058893 RepID=UPI000CE46F94)

HSP 1 Score: 302 bits (773), Expect = 8.210e-93
Identity = 155/341 (45.45%), Postives = 198/341 (58.06%), Query Frame = 3 
Query:  966 SQPMAVWV-ELKSSAANVQVKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLE-----------------GNDMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLIGATG 1934
            S P AVWV +   +A   +V+A    A    Q+P+LA Y LPFRDC QYS GGAT +  Y  W+  LA+ I      +VLEPDGL IIP+   +DG L+WC+P +AD+ATA  ER+ M   A+  LKA   TK+Y+DG+H+ WL   E+A+RL++A VQ ADGFF NVSN+  TERQ+ Y   V++C+++  E                   D S     D +Y +NV         DD+ H +IDTSRN    W     YPDP  WCNPP R LG   T++TG+   D F ++K PG SDG C+RGLT  GGVDPEWG V P  G WFP Q   LI   G
Sbjct:   70 STPQAVWVTDSDPAAVTREVRATTHRAAGKKQMPVLAAYNLPFRDCAQYSAGGATDVAGYTAWVDALAAGIEDRAAMVVLEPDGLGIIPWHRGLDGNLEWCQPAEADAATAAAERFEMLNYAVDRLKALPNTKVYLDGTHSAWLGTGEIASRLVKAGVQKADGFFLNVSNYELTERQLKYGSWVSQCIYYATEIDPGAYGSCASQFYPAAPTDFSTWGLTDAWYAQNVAGARNAPTPDDLAHFVIDTSRNGRGPWVPTATYPDPQVWCNPPARGLGHLPTSDTGNDLADAFLWIKVPGESDGECSRGLTSNGGVDPEWGRVDPAAGGWFPEQALDLIRNAG 410
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A3A5M1Q1_9MICC (Glucanase n=2 Tax=Arthrobacter cheniae TaxID=1258888 RepID=A0A3A5M1Q1_9MICC)

HSP 1 Score: 302 bits (774), Expect = 8.670e-93
Identity = 155/341 (45.45%), Postives = 198/341 (58.06%), Query Frame = 3 
Query:  966 SQPMAVWVELKSSAANVQV--KAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEGN-----------------DMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLIGAT 1931
            S P AVWV         Q        AAGK  Q+P+LA Y LPFRDC+QYS GGAT +  Y  W+  LA+ I      +VLEPDGL IIP+ T +DG L+WC+P +A+SATA  ER+ M   A+  LKA   TK+Y+DG+H+ WL   E+++RL++A VQ ADGFF NVSN+  TERQ+ +   V++C+++  E N                 D S     D +Y +NV         D++ H +IDTSRN    W     YPDP  WCNPP R LG   T++TG+   D F ++K PG SDG C+RGLTD  GVDPEWG V P  G WFP Q   LI  T
Sbjct:   83 STPQAVWVTGSDPTTVTQEVRNTTHRAAGK-RQVPVLAAYNLPFRDCSQYSAGGATDVAGYKAWVDALAAGIQDRAAMVVLEPDGLGIIPWYTALDGNLEWCQPAEANSATAAAERFEMLNYAVDQLKALPNTKVYLDGTHSAWLGTGEISSRLVKAGVQKADGFFLNVSNYELTERQLKFGSWVSQCIYYATEINPGAYGSCASQYYPASPSDFSTWGLTDAWYAQNVGAAANAPSSDELAHFVIDTSRNGRGPWVPSASYPDPQVWCNPPSRGLGYLPTSDTGNELADAFLWIKVPGESDGECSRGLTDNDGVDPEWGRVDPSAGAWFPEQAVDLIANT 422
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: UPI001F0B890B (glycoside hydrolase family 6 protein n=1 Tax=Arthrobacter ruber TaxID=1258893 RepID=UPI001F0B890B)

HSP 1 Score: 300 bits (769), Expect = 4.920e-92
Identity = 159/338 (47.04%), Postives = 193/338 (57.10%), Query Frame = 3 
Query:  966 SQPMAVWVELKSSAANVQV--KAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLE-----------------GNDMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            S P AVWV     A   Q        AAGK  Q+P+LA Y LPFRDC QYS GGAT +  Y  WI  LA+ I      IVLEPDGL IIP+  T+DG L+WC+P +A SATA  ERY M   A+  LKA   TK+Y+DG+H+ WL   E+A RL++A VQ ADGFF NVSN+  TERQ+ Y   V++C+++  E                   D S     D +Y +NV         DD+ H +IDTSRN    W     YPDP  WCNPP R LG   T++TG    D F ++K PG SDG C+RGLT+ GGVDP WG V P  G WFP Q   LI
Sbjct:   84 STPQAVWVTGNDPATVTQEVRNTTHRAAGK-GQMPVLAAYNLPFRDCAQYSAGGATDVAGYKAWIDALAAGIQDRAAMIVLEPDGLGIIPWHRTIDGNLEWCQPAEAKSATAAAERYEMLNYAVDELKALPNTKVYLDGTHSAWLGTGEIANRLVKAGVQKADGFFLNVSNYELTERQLKYGSWVSQCIYYATEIEPGAHGSCAGQFYPASPTDFSTWGLTDAWYAQNVAGARNAPTSDDLAHFVIDTSRNGRGPWVPATTYPDPQVWCNPPARGLGYLPTSDTGHELADAFLWIKVPGESDGECSRGLTNNGGVDPAWGRVDPSAGAWFPEQALDLI 420
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A2L0UDG8_9MICC (Glucanase n=2 Tax=Arthrobacter agilis TaxID=37921 RepID=A0A2L0UDG8_9MICC)

HSP 1 Score: 298 bits (764), Expect = 2.000e-91
Identity = 153/341 (44.87%), Postives = 199/341 (58.36%), Query Frame = 3 
Query:  966 SQPMAVWVELKS-SAANVQVKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEGN-----------------DMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLIGATG 1934
            S P AVWV      A   QV+     A    Q+P+LA Y LPFRDC+QYS GGAT +  Y  WI  LA+ I      ++LEPDGL IIP+   +DG L+WC+P +AD+A+A  ER+ M   A+  LKA   TK+Y+DG+H+ WL   E+++RL++A VQ ADGFF NVSN+  TERQ+ +   V++C+ +  E +                 D S     D +Y ++V         D++ H +IDTSRN    W   V YPDP  WCNPPGR LG   T++TG+   D F ++K PG SDG CNRGLTD GG+DPEWG V P  G WFP Q   LI   G
Sbjct:   74 STPQAVWVTGSDPKAVTQQVRNTTHRAAGKGQVPVLAAYNLPFRDCSQYSAGGATDVAGYKAWIDALAAGIQDRAAMVILEPDGLGIIPWYRGLDGALEWCQPAEADAASAAAERFEMLNYAVDRLKALPDTKVYLDGTHSAWLGTGEISSRLVKAGVQKADGFFLNVSNYELTERQLKFGSWVSQCIHYATEIDPGAYGSCASQYYPASPADFSTWGLTDAWYAQHVAGAPNAPSSDELAHFVIDTSRNGRGPWVPSVAYPDPQVWCNPPGRGLGYLPTSDTGNELADAFLWIKVPGESDGECNRGLTDNGGMDPEWGRVDPAAGAWFPEQALDLIANAG 414
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A1I1FRY5_9ACTN (Glucanase n=1 Tax=Nocardioides terrae TaxID=574651 RepID=A0A1I1FRY5_9ACTN)

HSP 1 Score: 293 bits (749), Expect = 5.230e-89
Identity = 150/342 (43.86%), Postives = 200/342 (58.48%), Query Frame = 3 
Query:  972 PMAVWVELKSSAANVQVKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGE-LDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGL---EG-------------------NDMSECTDDDVFYEENV-DPLIAEKGDDDVPHCIIDTSRNANDVWTAEVD-YPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            P AVW+   +  A    + +   A    Q+P+L  Y +PFRDC QYS GGATS  EY DW+  +A  IG  +  ++LEPDGL IIP+ T + G   +WC+P DAD ATA  +R+AM  +A+ VL+A S T +Y+DG+H  WL   + A RL +A V+ A GFF NVSN+  TE+Q+ Y   +++C+++G    EG                   ND S     D +Y +N+ D      G + + H ++DTSRN    WT     YPD  +WCNPP R LG   TT+TG+P  D F +VKTPG SDG C+RGLTD GG+DPEWG V P  G WFPAQ   L+
Sbjct:   88 PQAVWLTGTAKDAQRDARQVTRRAAARHQVPVLVAYNIPFRDCAQYSAGGATSAAEYADWVRAVARGIGQRRAVVLLEPDGLGIIPFYTPITGSGPEWCQPADADPATAASDRFAMLNDAVDVLEAGSHTDVYLDGTHTGWLGVGDAADRLHKAGVERAAGFFLNVSNYRLTEQQVKYGSWISQCLWYGTNPAEGGWRVGHFDYCGSQYYPADPNDFSTWGLTDQWYVDNLADAANPPSGPEALAHFVVDTSRNGQGPWTPPAGVYPDAQDWCNPPDRGLGLRPTTDTGNPLADAFLWVKTPGESDGECSRGLTDNGGIDPEWGQVDPAAGAWFPAQAADLV 429
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A317JXP5_9ACTN (Glucanase n=3 Tax=Micromonospora globispora TaxID=1450148 RepID=A0A317JXP5_9ACTN)

HSP 1 Score: 282 bits (722), Expect = 1.800e-85
Identity = 152/340 (44.71%), Postives = 197/340 (57.94%), Query Frame = 3 
Query:  972 PMAVWVELKSSAANVQ-VKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEGN--------------------DMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWT--AEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            P AVW+   S  +  Q +KA ++ A     +P+L  Y +PFRDC QYS GGATS+ EY  WI   A+ IG  +V ++LEPDGL I+P+ TT+ G  DWCRP +AD ATA  ER+AM R A+  LKA   T +Y+DG+H+ WL   ++A RL++A V+DADGFF NVSN+  TERQ+ Y   +A+CV +G EG                     D S     D +YE NV  + A++    + H ++DTSRN    WT  A V +PDP  WCNPP R LG   TTETG    D F +VKTPG SDG C+RG T  G      G+  P  G WF  Q   L+
Sbjct:   57 PQAVWITGGSGHSLTQSIKAEVQRAAGRKAVPVLVAYNIPFRDCAQYSAGGATSVAEYEAWIDAFAAGIGDHEVAVLLEPDGLGIVPWYTTISGSQDWCRPAEADPATAASERFAMLRYAVARLKALPRTSVYLDGTHSAWLGVGDIADRLVKAGVRDADGFFLNVSNYETTERQLKYGNWIARCVHYGTEGPEWARGHFDWCASQYYPADPADFSTWGRTDAWYEANVGTVPADR----LAHFVVDTSRNGRGPWTPPAGVTWPDPQTWCNPPDRGLGLRPTTETGDLLADAFLWVKTPGQSDGQCDRG-TGTGHDPARGGITDPAAGAWFDEQALELV 391
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A7W7H1K1_9ACTN (Glucanase n=4 Tax=Actinoplanes TaxID=1865 RepID=A0A7W7H1K1_9ACTN)

HSP 1 Score: 281 bits (720), Expect = 5.740e-85
Identity = 148/341 (43.40%), Postives = 196/341 (57.48%), Query Frame = 3 
Query:  972 PMAVWVELKSSAANVQ-VKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEG--------------------NDMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAE--VDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDP-EWGVVGPDPGDWFPAQVEVLI 1922
            P A+WV   S     Q V+A    A K   +P+   Y +PFRDC+QYS GGATS+ EY  WI   A+ IG  K  ++LEPDGL IIP+ TT++G L+WC+P +AD+ATA  +R+AM   A+  L     T +Y+DG+H+ WL   ++A RL++A V+ ADGFF NVSN+  TERQ+ Y + ++KCV++G +G                     D S     D +Y+  V  +   K    + H ++DTSRN    WTA   V +PDP  WCNPP R LG   TT TG P  D F +VKTPG SDG C+RG     GVDP   G+  P  G WFP Q E L+
Sbjct:   73 PQAIWVTGGSGRTLTQSVRAEARRAAKQKAMPVFVAYNIPFRDCSQYSAGGATSVAEYQAWIDAFAAGIGGSKAAVMLEPDGLGIIPWYTTINGSLEWCQPAEADAATAAADRFAMLNYAVDRLAKLPHTSVYLDGTHSAWLGVGDIADRLVKAGVRKADGFFLNVSNYETTERQLKYGDWISKCVYYGTQGPAEARGHFEQCASQYYPASPGDFSTWPLSDAWYDATVGDVSPRK----LSHFVVDTSRNGQGPWTAPAGVTWPDPQTWCNPPDRGLGLRPTTRTGDPLADAFLWVKTPGQSDGQCDRGTGT--GVDPARGGIADPAAGAWFPQQAEELV 407
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: A0A1C4Z5D9_9ACTN (Glucanase n=2 Tax=Micromonospora TaxID=1873 RepID=A0A1C4Z5D9_9ACTN)

HSP 1 Score: 280 bits (716), Expect = 2.520e-84
Identity = 148/340 (43.53%), Postives = 198/340 (58.24%), Query Frame = 3 
Query:  972 PMAVWVELKSSAANVQ-VKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLEGN--------------------DMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAE--VDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            P AVWV   S     Q VKA ++ A     +P+L  Y +PFRDC+QYS GGATS+ EY  WI   A+ IG  +V ++LEPDGL IIP+ TT++G  +WC+P +AD+ATA  +R+AM   A+  L A   T +Y+DG+H+ WL   ++A RL++A V+ ADGFF NVSN+  TERQ+ +   ++KCV++G EG                     D    T  D +Y ENV  + A++    + H ++DTSRN    WTA   V +PDP  WCNPP R LG   TT TG P  D F ++KTPG SDG C+RG T  G      G+  P  G WFP Q   L+
Sbjct:   77 PQAVWVTGGSGHKLTQSVKAEVQRAAGKKTVPVLVAYNIPFRDCSQYSAGGATSVAEYEAWIDAFAAGIGRHEVAVMLEPDGLGIIPWYTTINGNQEWCKPAEADAATAAADRFAMLNYAVDKLTALPRTSVYLDGTHSAWLGVGDIADRLVKAGVEKADGFFLNVSNYETTERQLKFGNWISKCVWYGTEGPQEARGHFEACASQYYPADPADFGTWTRTDAWYAENVGDVPADR----LAHYVVDTSRNGQGPWTAPAGVTWPDPQTWCNPPDRGLGLRPTTATGEPLADAFLWIKTPGQSDGQCDRG-TGTGHDPARGGIADPAAGAWFPQQALELV 411
[Close]
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Match: UPI001C6814A6 (glycoside hydrolase family 6 protein n=1 Tax=Arthrobacter sp. B1805 TaxID=2058892 RepID=UPI001C6814A6)

HSP 1 Score: 279 bits (714), Expect = 3.580e-84
Identity = 148/338 (43.79%), Postives = 194/338 (57.40%), Query Frame = 3 
Query:  966 SQPMAVWVELKS-SAANVQVKAIMEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGAGKVYIVLEPDGLAIIPYATTVDGEL-DWCRPGDADSATAEIERYAMTRNAITVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVKTERQIGYCERVAKCVFWGLE-----------------GNDMSECTDDDVFYEENVDPLIAEKGDDDVPHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDFFTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLI 1922
            S P AVWV   +      QV+     A    Q+P+L+ Y LPFRDC+QYS GGA+S++EY  WI  +A+ I   +  I+LE DGL IIP+ T  + E  +WC+P +AD  TA  ER+ M   A+  LKA   T +Y+DG+H+ WL   + A RL++A VQDADGFF NVSN+  TE+Q+ +   ++KC+++  E                  ND S     D +Y  +VD   A   +D++ H +IDTSRN    WT    YPDP  WCNPP R LG   TT+TG+   D F +VK PG SDG C RGL   G VDPEWG+V P  G WF  Q   LI
Sbjct:   65 STPQAVWVTSGTPKEVEQQVRQTTHRAEGKGQVPVLSAYNLPFRDCSQYSAGGASSVDEYKAWIDGVAAGIEDREAVIILETDGLGIIPWYTPFNSENPEWCQPAEADPETAAAERFEMLNYAVDTLKALPETSVYLDGTHSGWLSVGDAADRLVKAGVQDADGFFLNVSNYELTEKQLKFGTWISKCIYYATEIDPGNFGACGSQYYPASSNDFSTWALTDAWYATHVDS--AAPAEDELAHFVIDTSRNGQGPWTPTRSYPDPQTWCNPPARGLGITPTTDTGNVLADAFLWVKVPGESDGECGRGL-GAGAVDPEWGIVDPAAGAWFAEQALDLI 399
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig61.6.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A4U6N116_9MICC1.630e-9346.45Glucanase n=2 Tax=unclassified Arthrobacter TaxID=... [more]
UPI000CE46F948.210e-9345.45glycoside hydrolase family 6 protein n=1 Tax=Arthr... [more]
A0A3A5M1Q1_9MICC8.670e-9345.45Glucanase n=2 Tax=Arthrobacter cheniae TaxID=12588... [more]
UPI001F0B890B4.920e-9247.04glycoside hydrolase family 6 protein n=1 Tax=Arthr... [more]
A0A2L0UDG8_9MICC2.000e-9144.87Glucanase n=2 Tax=Arthrobacter agilis TaxID=37921 ... [more]
A0A1I1FRY5_9ACTN5.230e-8943.86Glucanase n=1 Tax=Nocardioides terrae TaxID=574651... [more]
A0A317JXP5_9ACTN1.800e-8544.71Glucanase n=3 Tax=Micromonospora globispora TaxID=... [more]
A0A7W7H1K1_9ACTN5.740e-8543.40Glucanase n=4 Tax=Actinoplanes TaxID=1865 RepID=A0... [more]
A0A1C4Z5D9_9ACTN2.520e-8443.53Glucanase n=2 Tax=Micromonospora TaxID=1873 RepID=... [more]
UPI001C6814A63.580e-8443.79glycoside hydrolase family 6 protein n=1 Tax=Arthr... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig61contigP-littoralis_Contig61:79752..103761 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog649831.L083_5620
PFAMsCBM_2,Glyco_hydro_6
Model size1940
Max annot lvl201174|Actinobacteria
KEGG koko:K01179
KEGG ReactionR06200,R11307,R11308
KEGG Pathwayko00500,ko01100,map00500,map01100
Hectar predicted targeting categoryother localisation
Exons3
Evalue1.96e-85
EggNOG OGsCOG5297@1|root,COG5297@2|Bacteria,2GK39@201174|Actinobacteria,4DHG4@85008|Micromonosporales
EC3.2.1.4
DescriptionGlycosyl hydrolases family 6
Cds size1659
COG categoryG
CAZyGH5,GH9
BRITEko00000,ko00001,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791269.0245845-CDS-P-littoralis_Contig61:79751..813171680791269.0245845-CDS-P-littoralis_Contig61:79751..81317Pylaiella littoralis U1_48CDSP-littoralis_Contig61 79752..81317 -
1680791269.0372665-CDS-P-littoralis_Contig61:85117..852101680791269.0372665-CDS-P-littoralis_Contig61:85117..85210Pylaiella littoralis U1_48CDSP-littoralis_Contig61 85118..85210 -


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

Feature NameUnique NameSpeciesTypePosition
1680791269.0481188-UTR-P-littoralis_Contig61:85210..853101680791269.0481188-UTR-P-littoralis_Contig61:85210..85310Pylaiella littoralis U1_48UTRP-littoralis_Contig61 85211..85310 -
1680791269.059064-UTR-P-littoralis_Contig61:103580..1037611680791269.059064-UTR-P-littoralis_Contig61:103580..103761Pylaiella littoralis U1_48UTRP-littoralis_Contig61 103581..103761 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig61.6.2prot_P-littoralis_Contig61.6.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig61 79752..85210 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig61.6.2

>prot_P-littoralis_Contig61.6.2 ID=prot_P-littoralis_Contig61.6.2|Name=mRNA_P-littoralis_Contig61.6.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=553bp
MYGQCGGIEYDGSTCCLDGYKCEASDEFFSQCLPEEDESRTSSTSEEVEP
SPSSLTTVGDEDDEETLSPTSQPQQTQQPQQPTVQPQPTQQPQQPTQQPQ
QTQQPQQPGKAFYRPGLDETAGATAAAQIDELEAAGRTEDADQIRVMTNQ
AFYRPGLDETAGAAAAAQIDELEAAGRTEDAEQIRVMTNQAFYRPGLDET
AGAAAAAQINELEAAGRTEDAEKIRVMISQPMAVWVELKSSAANVQVKAI
MEAAGKVDQIPILALYYLPFRDCTQYSEGGATSMEEYNDWIADLASTIGA
GKVYIVLEPDGLAIIPYATTVDGELDWCRPGDADSATAEIERYAMTRNAI
TVLKANSGTKIYIDGSHADWLPPREMATRLLRANVQDADGFFTNVSNFVK
TERQIGYCERVAKCVFWGLEGNDMSECTDDDVFYEENVDPLIAEKGDDDV
PHCIIDTSRNANDVWTAEVDYPDPMEWCNPPGRALGQPATTETGSPYVDF
FTYVKTPGGSDGPCNRGLTDQGGVDPEWGVVGPDPGDWFPAQVEVLIGAT
GN*
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mRNA from alignment at P-littoralis_Contig61:79752..103761-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig61.6.2 ID=mRNA_P-littoralis_Contig61.6.2|Name=mRNA_P-littoralis_Contig61.6.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=24010bp|location=Sequence derived from alignment at P-littoralis_Contig61:79752..103761- (Pylaiella littoralis U1_48)
ATATGAATTGATAAGAAACCTTGAGCACTTTTGGAAACTGAGCTAAAGCA
TTACGGAAGCTTGAGCACACACACGGAGATCAGAGGGCTAAACTTGTGCA
CACGCTTGCACACACGCGAGGCGCACTCCGGACAGCACTCTATCGAGCTC
GGCAGGAAGGGGAACACACGCTCTCGCAAAGGTCTGATACGTATTCCCAT
TTATGCGTGATGTTGGTCACACAATCGCTGCCAGCAATGCTGCCAGCTGA
ACACTCGGCCTTGTGGAGGATGCTGTGTGTGGGTTCCCCACCTGTGATAG
AAACATTATTCATAAAAATCCGCCATTTCATTTTTCACCAATTTCGAAAG
TCTCTGCAGACAGGACAGACAAGTTGTTGTACACATACAAAGCATTTTCT
GGTGTTACCTCTTCGTCGATATATACATGAATTGTCACATCACAAAACTC
TCCGGTTTGATTTTTCTTGATCACAACGCTGAGATATATTACAGAATAGA
GGGCCTCACGGGCGGAATTGAGTTACTACGTAATCAACTCCAGCACGTTT
TGTTTCTGTGCCGCCACATACTACTGCTGTTGTTACACATACATACAGCA
GTCGTGAGATATCACACACACACACAGGGAATGCACGCACTGCTGTGACG
CATAATCAGCACGGGTTGTCCATACTTCCAGCACCACTCTCCCTATCCCG
CACCATATCATCACCACAGCAAGCTAGAGGAACGCCCTGTCGCTGGGAGG
CGTGGTTACCTTGCTCTATTAACCCGTGCAAGCAAACGAGAATCCATGCA
TGGCTTGATAAAAACACTGCGTATGGCAGGACCCGGTCAGTAAAGTTTGT
CATCATCCTGTCGGTCGAAACCTCAAACGCTGACACGTACAGCAGCAGCA
ACGACATGCCAGATACCCTCTCTGGCTTGATGATCTCGCTCCTCTTCTGC
CTAGAGAGAGAGGCAGCTGTTTCTGTGGCTGGCCTGCATGTGCTAGCACA
GGACGGTGCTGTGTTGTTGTGCGTTGGGGCTCGAGTGCCTTTATGTACGC
CAGCCTTCGTGTCTCTCGTTATTATCTCGACATGTAGTAAGTGCAGGAAT
TGATCTGACAATGTTTCGCCGCGATTAATAATTTCTTTCAGACTCCTCTT
CATGATCGAGACTCCATTTCACGAAAATAATGATTCATCAGATTCATTCA
TAAACCAGTTTTTTTTATGAAACTGGACCCCTTCTCTCATCATGAAAAGG
GTTTATTCTTGGTGCCAACTTCATGGAGTGTTTCAGCAGAGTCGTTGTAC
CCTTGCGGCGTTTGTTTGCAGGCTTCCCGACAGCTCTTCTTCCGTAAATT
TTACCATGCATGGTCTTTGACAAATCTGCCAACAACGAACGGCGTGTGCA
GTTGTTTTTCCGTTGTTTCCAAGGTTGGTTGGCATATACCAAGTATATAC
CGAACGAAGTAGGTACTTAAAATCCTGCCAACGGTTTCAATTTCGACGCC
ACCGCCCTATCCTCTGGGAAGAGGTGCGGGGGAGAGGTGTGCAGGCGTAG
CCGGACGAAAAAATACTTGCTATTAGAATAGGGCGGAACGGTGCGGAACG
CCTAGATTGGACTGAATCGACGCTTCATCATTTCCTCAAGAAGGCCACGT
TATGAGGTTCGAATCCGTCGAAGACCTTCGTTTTTTTCACCTTTCTCTTT
CACAATGCACTTTTTTTCTCTTGGTTCGTACGGATTCTAAGGTTTCCCCA
CTGTTTTTCAAGTTATGTTTTTCAAGTTATGAAAAACACTGTTAGGAAAA
GCCCCGCCTGTTTTTCAAGTTGAGAAACATGCCGCTGCGTGCCGGTTCGT
AATTGCCCGCCCGGGCCGTTGTCATATACGAGTATTTTTTTTCGCACGCC
ATCACCGCCAAAGCAGTGTTGCACATCAGGACATTGCAAAGAACCAGATT
CACAGAGAGAGTAACTGTTGTAGCTTTCGATTCCCCTCTCTGGACACAGA
ACACGCGCCACGTACAACGCGTGTAGACAGCTCTTTTATGTGAGGTCGTC
GGTACCTAGCTCTCTGCTGTGATGGCAAGCCTCCAGATGTCCATACCAGC
AACTTGAGCTCGTCTGAGAGAGCAAAAAATAATGTAACTGTTTCTCACCT
CCTCCAAGCAGACATCTTTCCGGGTAACCCAAGACACGGCACGACCCTTC
TCATTCTCCCAAGCCCCACATAGCACTACAAACAACATTAGTGGCAGTAG
TGCTGCTGATCACAGAAACGCGGCGAACCGTCCCTGAGAGAATGTGCGTG
CGTGTGCTGTCGCAAAGCTGCTTGCTTGCCGCTCCTGGTCTGATCTGATC
TGTGCTGCTGCTGCTGCTGCTGTGTACGGCTTCTTCTTCGATTCCGCTTC
TTCTCTGATCTGATGATGTAGTACAGAGTTGAACAAACATCATATCACAC
CGTACAGCACAAGCAGCAGCAGCAGTTAGCAGCAGCACGGCAGCAGCCGC
ATCCGACCTTTCATAGGGTTAGGGTTAGGGTTTAGGGCGAGCACGTCTCA
TACGAAGAGGTGCTGACAGATGGTTTGACACTCCGACTGCTGCCGCTGTA
GCTGTGGTGATATCAAAGCGAAGAGGGGTTGTTTTCGCGCTCTCTCTCTG
TGAGTGTATTGGGACAAATGTAAGACAGCAGCAGCAACAAAATTATTACT
GTTTGTGCTTGAAACTACCAAGAAACTACTAGATATTCAAACACACAGCG
AACGACCAACCGGCACAAAGGCATCATCATAACATGAAAAACACGAAACC
ACAAAAGTTTTTCAGACTTTTCCAAAAAAATTTCAAGTTATGAAAATCAC
CTTATGGCGGCGGGGGATTGCTCTAACGTGAAAAAGGAATGGATTTTTCT
GCTTTTTGGACGTTTTTGGCTTACTGTTTTTCGCCGCCGTGTGTGTTTGT
CAAAGCACCATTTTTACTGCTGCCATGTACTTCGCAGCAGTTTTCTTCGG
ATTCTCAGCACTCGTGAACAAAGGGACTTAACTGGCCATCACGCGAACAG
TTTGTTCACGCAAAAAAATAGAACGAAAATGTCATGCTTCGAAGTTTTTA
TCTTATTTTGAGTACAACGGCAGCAGCACAAGAGAGTATCACCACCGTGA
TGCCGCCGTGATGCACGACAAGAAGGGAAGGAACAACACGATCGAACACA
CAATGCATTGGCTACACCTGAGCTCTACATGAAAGCGTAGAACACAAATG
CAACATAAATAAGCGCAGTGCCATTACTGCAAAACCCTTCATCGAGCACT
GGGAATTAGTTTTCTAAATACACATCGCGCGCGGAAACACGCGCGCGGAA
ACACGATCATGTATCACGCTTCCTTCGATTACCATCCCACTCCGCTTGTT
CAAACATCCGCACAAATTCAGATGCTCAGCAATATGCAACGTCTACTGAA
GTGCCGCTTAATCCAGTCGTTCGATCTCAGCGACCGTCATTGGCAAAACG
TCTCCCGGCCCCGTTTTCCCCGCTGCGGAAGGCGACACTGCAACACGATC
GGCCACAGCACGATCGCCTACAGAAGAACCCCTCCTTGTACCCTCCCCTG
CACCCTCTTTCCCCCTCTCTGCACCCTCCCCTGCACCATCCTTGCACCCC
TCCCCCTCCCTGCCTCCTCCCCTGCACTCTCCTTGCACCCTCCTTCCACC
CCTTCCTGCACCCCTTCCTGCACCATCCTTGCACGCCCCCCCCATCCCTG
CCTCCTCCCCTGCACCCTGCTTGCACCCTCCTTGCACCCTCCCCTGCACT
CTCCTCGCACCCCTCCCGCTCCCTGCCTCCTCCCCTGCACCCTCCTCGCA
CCCTCCTTCCACCCCTTCCTGCACCCCTCCCTCCACCATCCTTGCACGCC
TCCCTCTCCCTGCCTCCTCCCCTGCACCCTGCTTGCACCCTCCTTGCACC
TTCCCCTGCACTCTCCTCGCACCCTTCCCGCTCCCTGCCTCCTCCGCTGC
ACCCTCCTTGCACCCTCCTTCCACCCCTTCCTGCACCCCTTCCTGCACCA
TCCTTGCACGCCTCCCCCTCCCTGCCTCCTGCCCTGTACCCTCCCCTGCA
CCCTCCTTGCACCCTCCTTGCACCCCTCCCTGTACCTCTCCCTGTACCCC
TCCCTGCACCCTCCTCTGCACCGTTCCCTGCAATTTCCCTGCACCTTTCC
CCGCACCCTTCCTGCACCTTTCCCTGCCAACTCCCTGCGCCGATCCCCGC
ACACATGCACCACAAATAAATTCCACCACACGTGTGTGTGCGTGTGTTGT
TAAAAGCGAGGACGGGTGCGGAGGCTGGATGTGTGTTGCGCACTCTTCAT
TCACTGCACCCCCTGCATCCCCCCCAACGCCGCCTTGGGTAAGGCGCTGC
CATGACGCTGCGATGAGTCCCCTTCCTGCAGCTGCATGGCGCAGCGGCCG
GGAGGATGGTCCTGAAAAGTGGGATGACGACGGAGAATATCATAGGGGAC
GACTAGTATGGAAAATTAATCACGTCATCTTCGAAAAACAGTGCCTCGCA
CCCGCAACGTAAAGGGCACAGTGCAAGATTGCGGGGCCCAAACCGGCGTT
GGAGGTTGCAGATAAGAGACATGTTTTGCACAGGTAACTGCAACGGGGTT
CCGTTAAGAGCGATCCCGCTAGCCATGTGATGTGTTGGATGTACTCGCAG
CAGCATGCGATCGTTTGTTCATTGGTTGCAGTTCTACGGAGATCATTGTT
CGGGAACATTGTGGATCGATGCGGGAGGTTACGTGTTTCGTATGATGTCG
TAGGTCGCTTCTTCTTGAAGCTTTGAGTGCGCCACCCGAGCGACCGTGTT
GCCTCTGTGCTTCTGATCAATCTATCAAGTTTGGCCCAGCGCCTTCCCAA
ACTACAAGCCCAGGGCCTCCAGACTCCAGGCCCAGAGCCTTTCTCAAGTA
TACGGCCCAGTGCCACGGCCCAGAGCCCACACCACATCACACGGCCCAGC
GCCCACACCTCACCACACAACACCCATACACGGGCAAACTGCACCTCGCA
CCAAATATCCATTATGATGGTCACCTCCCAGGCTATGCGATGTTGATCCA
GATCTCCTTCGCGCTCATCTCAGACCACGCCCTCCTCGACATAAGGTACG
ACTTGATGATGCCCCGCCTGACATCAGTGATGTCACGTTAATAAATTGAA
CATGTTTACCGGCTCCCTATCCGACCGTTTCGGGCCTACCCAGTGTGACT
GCGACTCCAGCTTTTTCTCGAGCTGGCTGAATGCAGAGCCAGAAGTATGG
GGCCAGTTTTACTCAACATCAAACACTACAGTACCAGCACAGCGGCAACA
GCAACAGCAATGCAACCAACGTGGAAACAACAACCAGTCGAATGTCAACT
CACTCGTGAACACCTGTGCAGCATGTGAAGGAGGAAGACGTACGGGGTGA
GTTTTACTCGATCAAACGAACGCAAGAACACAGCATCATTCAGCATTAGC
AACATCAACAGTAATATCACAGCAATGGAAACAACAACATCCAGCATCCA
GCCGACTGTCAACTCACCCGTCAAGACCCTCGTCGGATCAGCAGCACAGC
AGTACAGCAGCAGTGCGAGTACAGCAGCAGAAGCAGCAGAAGCAGCAGAA
GCCGTTGACGCAGTAGTACCAGATTCAACAGAAACAGCAGCAGCTGGAGG
CAGCAGAAGAACCTGCACCACTACCAGCACCAGCACTGCAAACGAGCGCA
GACGACACCCCCTCCATTCCTGCCATCGTGCACTCACACCTTGGGCCGTG
GGTGCCGAGACGTAGGTGCCCTTCCCGACAGAAGAACAGGCGGCGAGTGG
CGAGTTGTGCCGCGCTCCCGCGCTGACAGAGAATGGCGGGACTGTGGGGT
TTCCGTGGGGGTGTGGACCTACCAGAAAGTCTTGTTGAATAGGGTCCTGC
CCCCATCCAAAAGCGAGCAGGCGCTCCAAAGCGGTATTGCGCCGCGTTTG
CATAAGAAAATGTTGCTGAAAAAAATCTTATCTACTGTAGGCTTCAGAAT
GGATCGTCCTGCTATCCCTATGGAACTTTTTTTCGTCCGGCTATCTGGTC
GACAGCAGTAAGTAGTGTAGTCTACTGCTGTAGGGCACAGCATTGTAGCG
CCTGCAAGTCATTCTACTAGCTAAGTGTATGTCCACTCATAGCACGCACG
TGCGTGCGAATAAAGACCGGACGGCCGACGCTGGTCTTTCTTTCACAGCT
TGTTGATATGATATGTACGGGTCAAAGTTCATCATTTCCCTTTCGAAGTA
TACTTGGAGAGGTATGATATGATACTTCGAAGTATTATCTTCATGGGCTT
TTTATTCGGCGTGTGCAACACCAACACTACGATATCTACTGCTGTTGTCT
ATAATGCTGTTTGTTCCTCTCTTCTCTTGTGTTTATTTTCTTCGTGAGGC
GCCTCCTCTCCCTCCATGACGGTGTTTGTGCAAGGCAGGAGACAAAAAAA
ATAACTGTCGATGCAGCGTCTGGCCCGCGTCGTCGCCGCAGCTTTCGCGC
ACAGAAATATTGCTGATGGGACCAGCGGCCACAGCAGTACAGCAAGTAGT
ATTCGAAATAACTGAGATAGTATCACAATAGGTTTCCAAACCACTTACCG
GCACGTAACAAAACAAAATATTCATTATTTTTTTAGTCACATCAGTAAAA
ATTCGGAGTGTCGCCTCGTATTACAAACCTTCGTACTGTTTCCTTCGTAG
GTTAGAGTATGAACACGTACCGCCCGGGGGGTTGTCATGCAAAATTGAAA
TTCGACTCGAAATAAAAGTCGACGAGTAGCCGGACCCATCATGCTAAGCC
AAGCACCGCACGGCGGAGAAAAAAAAAGCTTTGACCTTATCCTGTGCGGC
AACACACACTTGGTATGTCTGTATCTACGAGGATGGTCGCCTTCCCTCCC
TCACGTTTGACAGAAGTATGATTAAAGTATCATATTATTCCCTCTCGATG
ACTATAAGTTCACGAAACAGATGTGGAATCTCGTTTCGTCTCGGCCGAGG
CGTCAACACAACTCAACACAAAAAGAAAAAATATCAACTTTCAGCTCAAG
CGCACATAACAACCAGAACATTTAATAGCCAGTGCCATACCATCCATGCA
AGCCGCTCGTTGAACACTTCTGCTGTAGAGCCCCCCCCCGCGCAAAGAAA
ACCGACGGGCTAATCAATCTATGGAACTCCTCCTGCTGCCGCCATTTCCC
CCTCAGACAGGACCCAACCGGCGGCGATCAACTTTTGCATCAACTTCTCA
GGTTGGGTCGTGTTTGAGCACGCAATTTGCCTTTGTCGGCAAGCCTTCCG
TAATCGATTATCACTAAAACCTCGAAGTTCGACAACCGAGAGCTTTGGGT
GCTCCACCTCTGTCCCTGGCCCAGCCCCAGCCCCAGCCCCAGCCCCCGCC
CCCGCCCCCGCCCCCGCCCCGGCCTCGGCCTCGGCCCCTGCCCCTGCCCC
TGCCCCTGCCCCGGCCCCGGCTCCGGCCCCCGCCGACGCAGGAGTTGCCC
CCCCTGGCACCGCCTGCGCGAAAAGTGCGCCGGAAACCCCGGCCCTCGGC
AATGTCGTGGCAATCGATAAATCCCCCCAGTATTGCTTGAACCGTGTACG
ATCGATGGGGATGAACTTGTACGCGGGGGTGATAGGTTGAAGCGTACCAC
GCATTCTGAGCATGATGCGGTTCAATGAACTGTTGTACTCGGCGGCAGCA
GCCTCCCACACAGCCTCACCCCCCACGCCTTTCGCCAATACCTTTGCCAT
GACGTCGCCCGCAAGCTGCTGCTCGTCCGCACTCGTAGGCATCGCAAAGT
TGTGATTCATTGCGGCCACCCTCCTGAATTCAGGTAGTCTCCCCTGCCTA
ACTCATGGTCCAGCCGCCAGCCTCACACTCTGCTCGGCCACCTTGCCCGC
GCGCGCGCCCGTCCGCCCTCCTGCCCATGCGGTGCCACCGCTCGAGGACC
GGCCGGGTTCGGCCCCTCTCAGCCCAGCTCGAGTATCTGCTGCTGCGGCC
GCTCTCGGTCCCGCCCTGCTACCGCGCTTGCTCTTACCTCTGCTCCCGCC
CCTGCTTGCTCCTCTGCCGCCGCCCCTGCTCCCGTTTCTGCGCCCGTTCG
ACCTGCTGCTGCTGGTGATGACGAGTGTGGGAAGACAAAAAGAGGGCATC
AACATCATGGGTTGCTCGCACGGCAAACAAACGCTCAAATGAACAATACA
CGACTGGGTGCAACCCGATGGGAGTTCAAACGCATTCCTGTCCAACATGC
GTACCTGGCCGCTGTCCAAGGGTTGCCACGCATGCCATGCTAGGGGCACC
TAGTCCGCTCCCCCCCGTGGAGGCGTCGGGGGCACCTGCTCCGCTACTAC
TTCCAAGAGGCGCCGATCCGGTCACCGCCATCTCCGCTGCGCCGGACCCA
ACACTTCCGCCCGCTCCGGCAACGCGTTCGCGACCGCTTCCCCCACGCCG
CCCAAAAGAAGATGACCCCGCCCCTTCACTCGTTGCTCGCGCCTTTCCAA
GCTGCGCTTGTTCTTCGTGATCGAACTCGTTCCCCCCTGAAAGGCAAACA
CGGCGCTGATTTGTAAGGTGACATCGTGTTGTACTCGATGGGGTGTCACG
GCTCTATCGATAGACCCACTAGCAATCGAAATTTCGAGATTACACGCATC
ACGAATTCTATAAACAACAAACCTGGCAAGGGGGCCTCTCCAGCAACAGC
CGGTAAGGAAGAGGCACTGATCTTGGACCAATCCATCTGGTACTCCTTTG
CAAGGGTCATCGCCACCTTGTCTTGGTCGAAAGAGAGGTAGTCGTATCCC
ATCGCGTCTGCCTCGCCCAACTGGTGCAGAGGGACATCAAGACAGGTGGC
AGAGGGGGGTGACAAACGATGAGCGGATAAATGTCAACACGTGTGTCCCC
CTTCTATTTTCCGACAGTGTACTTTGTCACATATAGTGCGACGCATTACC
TCTGGCCGGATCATCAGGTTTTCTCCTGGGGACGGGCCTTGAACGTTCCC
TAACAGCGTTCGAATTCTCTCCTCCTCCCAGAAGTGCCTGAGAAAGTCCG
GCTTGGCTATGCCTCGGTGCTCGTCGCAGGAGCGGTTGTAGTCGTGGACC
CACAACGAAATCTCGCGTTCAGTCCTCGCCTCGTTCATTCTCGAAGCTAT
CGTCGCGATTCTTCCGTTTGCCTGACTGCGAAACGATACACGGGCAGGGC
ACGCGCGTCATCTTCATTCTAGTTGTATGCCCTCGCATGAGACCGGAATA
ACGTGCATCTACACACTACACACAAAGTCATTTTTGTTGCAACCGCTGCT
CGAACACTTCACTTGAAATAAATTCAACACGAAAACCCAGAGCTGTTACC
TGTGCGCTGCTTCGTTTCCCCCTGTGCCCCCGAGCTTCTTCAAGTGGGCG
AGTTCCGTCTTTGCGCCAAACCTGTCGCAGACGCACGTCTCCATGACGTC
ACCCATGGCGATACATCCCTTGTCGACGCAACCGGTGACGTTCTTGAAAG
CAGAAGTAGTGCTTTGTGACGCGCCCCTTCTGTCCCTGTTTTGGTTCGAC
GTGCACAATCGGGACCACACACAGGAAAAAAACGAACACAGTACGGTGAA
GATTTTCGTTTTTGCTGGTACTCTCCGTGGCCACAGCAACACCTGTTAGT
GTTTGGAAAAACAAAAGATACGAGCGACCTATGTACAAACTCAATTGGTA
AAAGACATAACGTCAACAGCTCAAACTCACTGGTAAAGCGGTCTCTCGCC
CCTCTCCACGCACTCGTCGCTGAGCTTCTTGAATTTTTCATAGACAATCC
AAAGACGGGCGGTGCAGTCAGACGGTGTAAACGTGCGGATGTGTCTCCTG
TAGTGGCTGTTCATGGCCAGCTCCATCGCTCTCTCGGCCGTAACGTCCCT
GCTCCTGATGATGGACCCCGCAACGCGGTGAACGTCCGGTTTGTACTTCT
TGGCGATGCAGGCGCTGACTTCCCTGACAAAGGAACGCGGGCACGTAAGG
GAAAGGAAGTTAGCGGGCAAGGGGGTGAGATGGGCGATCATGACCACTAC
GGTTGTTACGAGGGGAAAACGTGCCCGGCGCTCTAAACGCGTCGTATTCA
TCCAGTTGCAGGTGCTCATTACTTTCCCAAAATTAGGGGGGGCAAAACCA
CTGGAGGGCTTGCCGCACATCCTTTGCATGGGAATCTTTCTTGCTTACAT
TTTAATCTAACAGGGTGCAGCGTCTTCAATTACCTGGTAAATGAAGTGTG
CAGGGGATGTGCACTCAGGGTGTGGGTGGACAAAATCTGGACTTTGTGAA
ACAGGTCAGCGTACGGAGTCTTCGTCACGTTCGGAAAAATGTCGACACAC
ACGTGCGCGTGGATGTTCTTCTTCCCTTCGCAGCAGGTGTCTGCAAACAC
CTTCTCCAAGTAGAGGAGTGTCCCCAGCCGGTCCAACCGTTTCCTGAGCC
TGTCCATTGGTGAAATTGTGTGAAACGCAAACATTCGAAGGAAGACACGG
GACTCAGTTTCAACTTCAGTTTCGCGCAGCAGGACAGCGCCCAACTTGGA
CACGGCGGGCATTTCATATATCGTCACCCCTCTGTACATCGTATCTAAAA
AAAATTCACGCGTGGAGCACGGGCAGCAAATTGCTCCACTTGTCGGACCG
AAGAGCGGCCCACGCAATGATGTGCCCGAACTCTCCCAGTAGGAACACGA
TGCAGGAGGCGTCACCGGTGGAGACTTTCGCCAGCCTAAACGTCGCATCC
ACCGAGAACGATCTCCCCGGTGAAAGATTGCAGAGCTCTCTCGTCAACAT
CGGCTTCACCTCGAAACAAGAAAAATCAACGCAAAATGTTTACAGCCAAA
GGTCAACGGAGATTGTTTTTGTGTCTTCGATGGTTTGGATGCTCTTTGAA
CCTATTTCGCGATGCAGAGTTGTAGCATCGTTTGGAGTGTTTCTCACCGT
CTCAAACGACTTCGCGCAGTACGTCTCCATGTACGCCATAGAAGGGCCAG
ATAGAAGGGTGCCGCTTACCACCACGCCCAGCGCCGGGAACAGTCCCCCT
TCCTTGTTGCCGGCTGCGAAGATACTCCAGCACGTATGCCTTTTTCTTTG
CTAGAAGTCGTATGCCTGCAGAAAAATAGCAAAGACGAGTCAAGATCCGA
CACTAAACCAAAACGCCGAACGAGAGACTAATATCATTTTTGGCGTAACA
TCGCGAACGGCGCGTTCATTTTTGAACCGTATTGCTTACGCCGACATCAA
TGTGAGTACCAACTTACTCCAACTGCTGCACAGCTCTTGCAGGGTTCAAA
TTTCCGATAGCAATAAGGACACAGCAGAGGTCCATACCTCCTTTGCTTGG
CGTTGTAGAGCCGCCACGGGCTGCGCCCCTGTCACGGTAAGGTCGAGAAG
AGCATGGTCAGCGCCGCCCTTCCCAAAGCACTCGAAGTCGTACTTGGCGC
GGATTGCCGCCGGCAGCCGACTCATATAACTTTGGAAGTGACAGAGCAGC
GGATTCAGGAATAATGGAAACGGTTAGGAACATCGATAGCACAAACAATT
CAAAAAGGAAAGAAGGAGGCACTCCAACGCCATCAGCGGTCAAATCAAGC
GGTACGAGAACCACACCTTTGATCCGAAATCGTGAAGGACGCGCCTCCGT
TCAGCAGAATCTTGACAGCCCACATGTGCGGCTTGATATCACCTCTGCGC
AACGCTGCCTTGACTCCCTCTGGCGCGCTGTCGACGCCATCCGGCCCCTT
CCTTTTTGCCTGCACCGCCGCCTCGCCGCCTTCGTCTCGCCGTTTCGTCG
CGGCGATCGTACCGTCGATCACAGCTTGACACTCCGGCCCCAAGCACCGG
TGGCGGGCCGAGGAGACAAGAATGTTCTCGCCAGACATGCTGTGAATCGC
CCGGATCTAGTAAGTGTACAGACGCCGCGAAAAGAGAAACGGTGCAGGAC
ACACTAAACCGGCGGCTTGGCATGCATCTCGCTGCTCTGACACAATGGAG
ATACAATGCGGTAACCTAAAAAAAAAGCTGCCCTGCTTTCTACTTGCACT
GCAGCAATCGACGCAAAAACAACAAGGTGCTTTCTCGGGACTTCAGCATG
CTCATGTTCGTCGTCCAAGATGTTATTGTCGGAGGACGTATATATTTGGA
TCTGCTTTGACGGTTTCATGTTTGGACCAATGAGGTGCTTCCCTTTGTGT
TTGGTGTTGCACCGCATTTATTGTGAGCTTGGGCTAGTTTGGGATGTGTG
ATGCTTGGAGCCTAGCCCACTCCTCTTTCTTTCTGTTTCTGTGTCCTAAT
AAAACGTGTTAAACAAGACTCATCATAGCTTCTCTGCTTGAGGCAGTGGA
GCACCGACTAGAAGCATCGAACAGCTCACGCTGTTCCACGAAGCCCAACT
CGTGTGGGTGTTCCTTCCGCATGTGGAGCAAGTCAACCGTTCTCCGGCGA
CCTTGCCACCCACGACCACCTGGAACTCCTTCTCTGCGAATAAAGCTGGC
CTGTCGAAAAACTAGACAATCAGCGGTTGTGTTGAACGTGCATGGTGAGA
AAACCGGCAGTGCTGTTTAAAATGTATTTGACGATCCCAGTACTCGTACT
GCAGCAGTGGAGAACGACACAGCGGAAACATCAGCTTGATTTATTCCTAA
ATTCTACTTCGAAGTATTTATTTTGCTCATGACGGCGAGGCTCCCATCAC
TGCAGCAGCAGCAGTAAAGATAAACTCTGCACAAACCGATACACGCTCCT
CAGTCCGCCGACTATGAAACACCTGAACAGTCAGCGATCATGTAGACACG
GCGGTGCGTAATTCGAGAAATGCCAGTGTTATTTTCTTTTTCTGACAATG
TTTGGATAGGCAAACTCCGCACTGCGGTTGTAGGCTACAGCAGATACAGC
ATCGGTTTCTCTTTTTATTGCATTTTTTTTGCTGCAAACGGTGAGGCTCA
ACACTACAGCAGCAGCAGCGGAGAAAATAAATGTCGTTCAAAATACCTCC
GGCATGACGAAAACAACCGATCCGGTCACCAGGTGGTGTATCCGCGCAAG
CTTCTTCGACTCGTCCGTCCACTGCTGTCCGTGCCCTTTGCACCTCATTG
CACGAGTCGTTGAATCCTCCAGACGCATGTACGCCCCCGGCCACTTCGAC
TGATCCTTCCAACGGTCTCCCCACTTCCGTCGATCCGTCAGGGACCCGTT
CTTCGCCGGCATCGGCATCCCTTTTCTGAGCCCAACCACGACCGTTGCCA
CCGCGTCCTTCACCTCTGTATCCGTGAGCTCCGTGTGTCGCTGGACTCGG
GGTGGCAACACCCGTGGAGTATCAGCATTTTCGTTCGTGGGGCAGGCTTT
CCCACCGAAATAAATTTCCGATAGCCGCCGACTTTGAACTTCTTCCCCTC
CTGGAGTGGGGAAGGCGGCGATCAAAGGTACCTGACCAATACTAGCACCC
GCGCTACTTGCGGAAGGTGGGGCAGTTCCAGCCGCGGAAGCACCTGCCAA
TCTGCCCGCCGTTGACGACGATACACCCACTGTCGCTGCTGCTGCAGTTT
GTGGAAGCACTACCCCGCTCCCGCTCGTGCCCTCCATGATGACTTCGAGC
CAGTGCTTTTCGCAGTATTGCTCCCAGTGCTGAAAGTCGTACGTGCGAGA
GCCGCGCAATCGGCCTGCTACATGATATGCTCCGCGGTAGCCTTTGTTAG
TGCCATCGGTTCCCCCCGTACATCCGCTTCGTTCGGAGTACGCACACTTG
AAATACGTCTCGGCGGGCTTCAAGCCGTAGAAGGAAGCAACACCTGTCCG
CCTCCTTCTCTTCTTTCGAGTGTGCGTAAACAACAGCCGTCTTTTTGGAA
ACAGAAGCAGCACCACCAACAAGATTGTCGCTGGCCGTGGCGAGTGGGAG
ACATGGATGTGGCATCTCCGTTACACACGTCGCGTAAGCGGCCACTGGTT
GTTCGATGACCTGCTGTGCTTGCCGTGTTGCCGTCTTTCCTCCGTTTGAA
AAAGTGAAGCAGACCAAAGTGTTCCACGCGGCGGAATACGGTGGAACGCC
GAGATTTTCGGAGATGACTCTCATTTTCTTTTATAGGCAAGCCCCCGCCT
AAAAATTTCAGCCAAATCCCCCGCCTATGATTGGCTGGCCTCCTCTGACG
CGAGCAGCATATGCAATTGTCACATGCGGACGTGAACTCTGTCTTTTCGT
TATTTTTTTCAATCTAAAATAACATCAATCATCAATGGAAACTATCGCGA
GCCTAAAAAAAACGTTTGTTTGCCAATAAATAAATACCTGGTACGTTTTT
TTTTGGTCGACGATGATAGAAAGCTTCCAGCACACACCTAATAGCAGGAA
ACGCCATTTATTCTGTTGGGACAGCCCCAATAATATTATAAAAATGTCGT
TCCCGGGGGATGTACATTATTGGGTGTTGGGACTGTCATAATAATGTACG
CCCCAAGACAGCTGAGTGAGGCCGGGGATATGGACGGTGGCGTCGAAATT
GATGGCGAACCGCTGGTAGGATTTTAAGATCGATACTGCGAACGTCGGCA
GCGCTTAAAAAACTGCCCACACGTTGGCAGATTTTGTCATGACGGGCGGC
GTCCTTTCCCGCCCAGGAATTTCAGAAACCTTGAGGAGGAAAAAACAGAA
ACAAATCTCCGAAAATGATAATAAATAACCTCCCTACAGCAGAGGGGAGA
TAAAATATTGTCGAAGGTGTGTGGGTCGTGCCGCGTGCTATTCCCTTCGC
GTTTTTTCTTAGTTTGTAGGGCATCGCGACGTCTGTGTGACGCGGTTTGT
CTTTGAACGCACAAAGACGGGCTGGGAATGACGCCGATCAATGTGATATG
ATGCACATTGATGTTCGAAGGCGTGAAGTATGACGAAGTGTGGTCTGATG
CCATCGCACACAGAGCGACTCAAATAAACAGAACAACAGAGAGCGGTGGG
CGTAACGCACAAACGGCATACCCAAGCAATTATCACCGCCGGCGGTGGAT
GTGTTGCAGGCACTGTTCCGCGAGCAAACGTGTAGATATCCTGCGGCAAA
TAATTCAGATAGACAGACGCTGTTCTACAAGATCGCACCCAGCCGCGGAG
CGTTTTGGGTTTGTTTGTCGACAAGAGTTAGTTGTGAATCAACTTGAAAA
GTGCTGATTATTTGATATGATGACTGATTTGATTAGAATACAGTATGACA
ATCAACCATCATATTTCAACACTGTTTGTAGGATAACAGCTCCGAGTCAG
AAGCGCCGGAAAGGTCAACCCTAAGACCTTGATTATTGGAGGGAAATAGC
TCCCAGAGAGTGAGACATCACGTCCCATGATACACATACCCGAGGGTCCC
CGTAGATCAGTATCTAGTGGCGGGTAACCCCAAACAGCCCCCCTACTCGG
TACTCGATACGATCTAGGGAACGCTCTACGTATCACCAGGTACAACGGCA
ATAATTCCAAATTAAAAAAAAACAAAAACCATCCGTCATACTACCAATCA
ATTCAATCAAATCTCCCAATAAAACTTTGTTCTACGAAAACTGTCGATCT
CCCAATATAGCTCTGTTTTACGAGATTTCCCGAATCTCATGATATCAAAT
TATGATTCCCCCCATGTGAACTTGAAACGTCTGTCAATAAAGAAATAGCC
CTCTTGAGAATCAACGACGCCAATCGTCAAAAACAAATTCCCGGGCCGTC
GGAATATCAGACTTAATTATCCTTGGAAACATCCATACAAAAATCAACAT
TCCATCAAAGAAAAGCAAAATAGTAAAAACACACGAGGTGTAATCCCAAC
GTGTTCGGAAACGTCACGGAAAATCTTCATCTTTATTACTACTGTAGCTT
CAACAATATCCAACAGCCCCCCTGCTGTAACATTCCTTCCGAACATGGAA
ACAAATTGAAATGTATCATCAAACTTTCGTGTCTGTTAGCAGCCTCGCAC
CATATTTCGCGGCACTGCAGGTTGAAACCAGAAAGCACGAGGTTCCTCTG
AACTATCCGCAGGAAAATCGCAGTATTAGAAATGTTGTTCGATCATACAA
AGTATTGACTTTCCCGTGCCACCCGTCAACAAGCTGCCCCCCCCCGCCTT
GAGAGGGAAACTGCAAGATAAAACCAGAATAAATGTACTACGACACGGAA
TCCCTGTTTGATTTCTCCAGGAACACCCGAATCAAATACCAAAAATAAAT
GCAAATCGTGAAAAAGTCTGCTGATACTGCGACGAGGATCATGGAACACA
ATCCTCCCCCCCCATGATTTTCGACTGCAGTACAATCAGCACGTACTCTG
AACGTCAACGATCCGGCCAAGCCGGCACGCCAAATAAATCCGTCAGTTAG
ACACTGAAACCACCTTGAAAATGCTGAAAATAAACTATAAATCAACACTG
CAAGTGCGAAAATAAATAAATAAATATACGGAGTATAAATAAAGGCGCCC
CTATCCGTTATAAAATATAAAAACAACAATAGCAGGCAATCAGAAACAAA
AGCAAACACCGGAAAAGAAAAAAAAAATCAATGAATGTTCATGACGTAAT
CACGGTGGGCGCAGAAAGCCTCCTTGGGTAGTGGTTTGGTGAGAAAATCG
GCTCGCTGAAGGTCGAACTGAACGTGAAGCACCTTAAATTCTCCCCTTGC
AACACGCTCACGAATGAAATGGTGGCGGATGTCAATGTGCTTGGAGTTCG
GCGTGGTAGCCGGGTTACTGGCCAAGTGAATGGCTCCGACGTTATGCTCA
TGGACCAAGGTGCAACCCACATCACTGTCCGGAAAGATAAAACTCCAGAG
ATACCGCAAAAAAATAGCCTCCTTCAGCCCGTCCGCCTTGGCCACGTACT
CCGCCTCGGTTGAAGACAGAGCAACACTCTTTTGCGTTCTACACAACAAG
TACATCACACACGAACCGGCAAACATCATGACTAACACACCATGTACATG
ACAAAATAAATCGGGGTGCTCGGCCCCCAGGGGGACACACTAATCGCGAC
CAAACGACTACACCTTTTGAGATGTGCGCCCCTGTGTTCTGAGCTTAGGC
ACACCAAGTGGTGTGCAGGTTGTGAGCGCTGTCTACCGAGAGAGAGTCCG
ATGGCCGAGTAATCCGAGAGGTTCAATTTTCGTGCTCCAGCCGGAAATCA
TGGGGAAAACCTCGGGCATGTTGCCAACCGAAAAATACGAACGAAAATTG
AACCTCGGACCACTGCGCGGTAGACAGAGCTCACAACCTACCCACACACT
TGGTGTGCTGGAGCTTAAACACAGCGAGCGGCGTCCACCCCACAATGTTT
GGTCGCGATTGGTGTCCTGGGGGCCGAGCACCGTGTGGTGTGTTCCAAAG
GCAAGATATCGGGCCAAATTTGGGGGCTCGACCGCTCACCGAATCTAATG
AACTCCCGGCAAGGAGACCCGGCCGTGTAAGAAATATCATAGAGTAAGAA
ACCAGTCTTTTCCTGGACAAAAACAAATCTTCAACATTCGAAAAACACAG
TAAAAAACAACTAAACTTTCTCCCGTCATTACATTCCCTCTGTTTCTTCG
CCCTTCGAGGACACAACGCGTACAAGCCCACGAGCACGAACGAAGTACGC
CAACGGGCACGCCCATGTGCGCGTGTGATGGACACCATTAAAATTACAAT
ACGGTGATGTGGTAGTTTTTGGTGTGGGGAAGACGATATAGCACGCCGTC
ACACAAACAAGCGGTCCGAGTGTAACAATATATATATTGGTGAAATGGAG
ACTCGATTGCAGAAAGGAGACTGAGATGGGTTTGGGCGGTTTTGAGGGGA
AAGACTTCCGATCGGGATCTTTCATATTGGAACTTTTATGACCGCTTCGA
GGGTGCGGTCCACCCCAAAAAAAATATATGTAATAATGTACTTCCTTGGC
GAGATATTGGGCAATCGCCACAGAAATTTCAAGCAGAGGTTCCAGGATTT
AGAAGCTGAAAGGTTTCTCCTCAAAAATTGCCACGAACTCGAAGGGTGTC
CGATGCCGATGACAGTAGCATCAAAGTGACCGCACGTTCAATGCGGTCAA
AAAAGTTCCACCGTGAAAGATCCCGACCGGCGGTCTTTGCCTCCTAAATC
GCCAATAACCGTCTCAGTCTCCTTTCGTAATCGAGTCTCCATTTCACCAA
TATACTGTTGTGTGCGAAACCCAATATTAATAAAACTACTTCGAAGTTAC
AGCATTGTAAAAGCTCGCGTCAGTTTTCACGTAGTGTGATGTACACAGCA
CACCTAAAGGGATCGGGGTAATGAGCCGCGTTCAAGCACGAGCTCATTAT
TTCTTGGAAGATTGCAGCAGTATTTTGATTATCACATCCCGCTGTGTTCC
AGAAGGTTGAACACGTTTTTTATGTCAACATAACGCTGTATCTTTTTTTA
GGGCACCGAATCTGTTTTATCACGGAGCCCTCGAACATGGAGATCACAAT
GGAACATCTGCTGCCGAAGAGCCGGACAACCCCTGCCAGGACCCCGTCGG
GATGTACGGCCAATGTGGAGGCATAGAGTACGATGGGTCTACTTGCTGTT
TGGATGGGTACAAGTGCGAGGCGTCGGATGAGTTCTTTTCTCAGGTGCAA
TATTTATTAGGCTAGGGTCCGTAATACCACTCGTCTTAGTATGTATGGGT
GCGATGCACAAAATGTACGTATCGATGAAAACAATGGAAGCATAACCTTT
GTCACACATAAGCAATCAACACATTTCGCCATTTGAGCAGCAGGCTTCGC
AACGCACACCTCACACACATGCGACGTTTCTCGCTTGAATAAACACGAGT
ATTGTAGACCTCCCATGTCATTAGCACGTTCAGGTGATATGATAATATTA
TCCCAAACAGCAAGTGGACCCATCGTACTCTTTGCCTCCACATTGGCCGT
ACTCCTCCAAGGGGTCCTGGCATAAGTTATTCAGGTCGTCGGAACTGGTA
GTTTCGTCTTCCTTGGGGCGGCACTGGGGAGAATGGAACGCAGGAAGGAA
GGAAGAGAAAAAGAAGGAGGAAAAGAGTGATTCGGGTCGCCTGGGTTACA
ATGTTTGAGGTTGGGATTATTGACCGCAGTACTCAGCCACCACGTACGAT
AACTCGCAGTATTGTTTGCACGGTAACCAGGTGCCACGGTATGTGGCACC
GCGGTATGTAACGGCCCCGGTAACGCGCGGTGGTAGGTTTTACACGGCAT
TGGGCCATATCACGGTGATTTTATCGCGGTTTTCAGCCACTACGATAATT
CGAGGTATTTTTTCCACTGTAATCAGCCACCACGGTAACGAACGGTATTT
ACGTGTTCTTATATATGATATTGCATTTCAGCGTATGGTGTGGCGAAGCG
AGACCTTTTTCAGAAAATCATCAATAATCGGCCCACCCGCTTTAGTATAC
TGTATTTTAAGCAAACCGCCAAGCGTATCTTTGCAACGGAAAAAATACAG
CCTTTCCAGAGATCGGTCAAAGGCAGACTTTTGCAGCCGACTGCAATGAT
CAGAAACCAGATGTGAGCCCCGCGATGTCAATTTCTATACTCTTAACTAC
TCATTACCACACCCGCGACATCAACTACTACTCTTCTTCACACCAAACCA
AAGCAACTCACAACACTAAAGCTGTGAAATAGCCCGGCAGTAATATTTTA
ACCACATTGCACAAGTCTAGAGCGATTTCTGCAACAAAGGGAAGATTTAC
TCGCAGACAAGAAAAATTAAGTAAACCTTTGTCTCGAGGTACGGGAAATA
CTGGGCGTTCTTATTTTGGGGCCCGGGGATATATGGAAATGAAGAGCCGA
GGGCCTCACTCTCCACCACTCCGTAGAAACGGTTTTGTCAGGTAAGAGAG
CGTGGAGAGAGAAAGCAGAAGAGGTTGACATGGAGATACTTCTAGTGGAG
CCAGCTCGGGTAGAATAGCCGACTGCGTCTGTGAGCCTGCCCGTCTCTTG
CAGCAGTCCGTTCCGCAATTCAAAAGAGCAAAAATAAAACAGCAGCTTTA
GTTCAAAACAAACAGGACAAACAGATTGGATTCCCAGGGTTGAAGAGAGT
GGCCATGTCCGCTGTTGCGCTTTCACTTCCGCAACTCTGTTTGCACCGAG
TTGCCGCTTCTCTCTCGGCTTCGACGGCGTCGTGGAAGTCCTTGACACCA
CTAACATTGGCACCACCTCCCATGATTTGGTGCCTGCCCTCGGGCGTGTC
GTGTGCGGTTGTTGGTGTGTTTCTCTGATGCGTCGCTGTGAACCATCAAC
CAATGTTTTTCGTCCAACACAACATAAATAAAACATAAACTCTGTCGTAT
GTTGTTGTTGACAAGTAGTTCCTGTAATAGTGACGGTGACATAAAGCAAT
AAAATAAAAGGAACTAGGAGCAAAATTTGAGGTGGGGAACACTTCACCCT
TGACCAAGCACCGTTCAACTGTGTAATAGCCCCGCCAATTACCCAGTCAA
GGCATTATTCGTGGTACTAGGGAGACGAATTGCCCCCCCCGGACGGGCGG
CCAGAATAAGATGCAGGCAAGTACTGCCGTATTGGGTTATGAAGCACGGT
TGATAGACGATCATGCTGGAGTCGCACATGCCCGCCTTGGTACGAGGAGA
AGGTGAGATTGCAGCACGTTGGTTTGTACAAGAGAGTGGAGCCCCCAATG
GGGGGGGGGGGCAGAATGGGATGCAGGGAAGTACTGCCGTATTGGGTCAT
GAAGCACGGTTGAAAGGTAATCATGCCGGGGTTGCACATGTCCTTGGAAC
GCGATGGCAGCCATTCGAAATATTGTGGGAGTTCCGATGAGTTCCCGGTA
CGTGCTGGCAAAGGCTGACACGCGCAGACGTTGGTCTGCACAGCTAGCTG
GCAGGTACCAGTCGCCACTACTGCTGGAAATGAAGCACGAATGGGCGCTT
CTGGCCAACAAAGACTTGTAGAGTACGATAGACTGCGGTAGTCTATGCAG
TAGAAGATGGAGAAGAAAATTAGTAAGAAGGGTGCGCGAGGCACCACCGC
CGTCTCGTCTCGTGACAGCTACTTTGTACGAAACACTTCTAGACCACGAA
CCTGTTGGAATCGTTTCTAGAACCTTTCTGGAACAGTTTCGAGAACCTTC
TGGAAACCGATATTTTCCCAGAAAGTTTAAGTGCGGTGTAAACTAACTGT
TCACGTACCATGTACGAGTTCCGAGAGATGGAGAGATCGCATACAGCAGG
ATGTATCATAGTATGGTAACGCCGCAGTCACAGTAAAGAACCAGGGTCAC
ACACCTTGGCACTCCTTCGAAGTAAACGTTCACGTCAGGGGTCGTACCCG
CTAGAGAGCTTGGAGATAGAAAGCAGAAGAAGTGGACAGAGAAGAAGCTC
TAGGATGGCCAGCTTGGGTAGTGGCCTAGTGCGTCTGATTGAATATGTGT
GTCTTTCTCTGCCAGGGTAGTCTCTCTCTCTCATCCTTCGGGCTGAAAAA
CAATAATAATACAAGGCAATTCGAAAAAACAAAACAAAACAAAATTGTAT
CGATACGGACAACATGTGCAACGTCTAAGATGACGGTGAGCGATATTATA
AGGACACTGACCTACTGACAATGTCACATGTACCTGAGAATAGAACTCAC
CCGTCGCCTCGCACTGGTACCCACCCAAACAGCAAGTAGGTCCATCGTAC
TCTTTGCCTCCACATTGGCTGTACTCCCCCGCGGGGTCCTGGCAGGGGTT
TTCCGGCTCTTCGGTGCTGAAAGTTCCGTCGTCGAAACTGGTGGTGGTTT
CGTTTCCCTGAGGGCGACACTGGGGAGAATGCAACGCGGTAAAGAAGATA
ATTTTCACGGGGGGAAGAAACGATGAAAGGAAGGGAGGTAGATATGGATG
ACTAGCCTAGGAAAATGCAAGACAGGACGTGGAAGCGGGATGTCATTCCT
TGTGTAAGAAAATCTTCGCGGGAAGACGACGCGTGGGGGGTCTAATAGTG
CACATACGCGTACATATCTAGGCTAGCCTGCGTACTTACAAAAATGCACA
TCTTGAACACGTACCACTTTTGTCTATATCGATACAATACTTGTGCAGTA
GATACAAAACGCCCGACAACGCTACAGCCATCTGATCATCGCCATGTGAG
CAGCTTGCCTCGCGACACATTCAAGAAATAAAACAGCTTGCCGTCGACAA
TATATATTTCGAAGTGCATGTGATCAAGTGTCACCTTTGACACATCACCA
GTGCATTCAGCCAACTACGCGCCATCTTCCCGCGAAGGCTTCCAATAAAT
GACATAGAGCTCCCCGCCTTAGACTCCACATTCCCTTTGTTTGATAAATC
TTCCATCCCTTCCTCCCACCTCACTTTTCTCATTTTTTCCGATGAACTGC
TCATCCTTTCCTTCCTTCGTAACTTCGTTTTAATATCTCCTCAGTGTCTT
CCCGAGGAAGACGAATCTCGCACTTCTTCAACTTCCGAAGAGGTTGAGCC
CTCCCCTTCATCACTCACGACTGTCGGGGATGAAGACGACGAAGAAACCC
TGTCGCCGACCTCACAGCCTCAGCAGACCCAACAGCCCCAGCAGCCGACC
GTACAGCCTCAGCCGACCCAGCAGCCCCAGCAGCCGACCCAACAGCCCCA
GCAGACCCAACAGCCTCAGCAGCCTGGGAAGGCTTTCTACCGGCCAGGTC
TGGATGAAACCGCCGGGGCCACAGCCGCAGCGCAGATCGATGAGCTGGAA
GCCGCGGGCCGCACGGAGGACGCCGACCAGATTCGCGTGATGACTAACCA
GGCTTTCTACCGGCCGGGTCTGGATGAAACCGCCGGGGCCGCAGCCGCAG
CGCAGATCGATGAGCTGGAAGCCGCCGGCCGCACGGAGGACGCCGAACAG
ATTCGCGTGATGACTAACCAGGCTTTCTACCGGCCAGGTCTGGATGAAAC
CGCCGGGGCCGCAGCCGCAGCGCAGATCAATGAGCTGGAAGCCGCTGGCC
GCACGGAGGACGCCGAAAAGATTCGCGTGATGATTAGCCAGCCTATGGCC
GTTTGGGTCGAACTTAAATCATCCGCCGCTAACGTGCAGGTGAAGGCGAT
CATGGAGGCCGCCGGTAAGGTAGACCAAATCCCGATCCTCGCTCTTTACT
ATCTTCCATTCCGTGATTGCACCCAGTACTCGGAGGGCGGCGCGACATCG
ATGGAGGAGTACAACGACTGGATCGCAGATTTGGCATCTACGATCGGGGC
CGGGAAAGTCTACATCGTCCTGGAGCCGGATGGTCTAGCGATAATTCCGT
ACGCCACGACAGTGGATGGCGAGCTTGACTGGTGCCGGCCGGGCGATGCT
GACTCCGCGACGGCAGAGATCGAGCGCTACGCGATGACGAGAAACGCCAT
CACCGTTCTAAAAGCCAACTCTGGAACGAAGATCTACATCGACGGCAGTC
ATGCGGATTGGCTTCCACCGCGCGAGATGGCCACACGACTACTGCGCGCG
AATGTGCAGGACGCGGACGGCTTCTTCACCAACGTTTCCAACTTCGTCAA
GACGGAACGTCAGATCGGCTATTGCGAGCGTGTCGCGAAATGTGTGTTTT
GGGGTCTTGAGGGCAACGATATGTCGGAGTGCACAGATGATGACGTTTTC
TACGAGGAAAATGTCGATCCCCTTATAGCGGAGAAGGGCGACGATGACGT
GCCGCACTGCATAATCGATACCAGCCGCAATGCTAACGATGTCTGGACGG
CGGAGGTGGACTATCCGGATCCGATGGAATGGTGCAATCCACCGGGTCGG
GCCTTGGGACAGCCTGCCACAACGGAAACGGGCTCACCCTACGTGGATTT
TTTTACATACGTGAAGACTCCCGGTGGATCGGACGGTCCTTGCAATCGCG
GATTAACCGATCAAGGTGGTGTGGATCCAGAATGGGGTGTGGTCGGCCCA
GACCCTGGCGACTGGTTCCCTGCGCAGGTGGAGGTGCTGATAGGCGCCAC
CGGCAATTAA
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Coding sequence (CDS) from alignment at P-littoralis_Contig61:79752..103761-

>mRNA_P-littoralis_Contig61.6.2 ID=mRNA_P-littoralis_Contig61.6.2|Name=mRNA_P-littoralis_Contig61.6.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1659bp|location=Sequence derived from alignment at P-littoralis_Contig61:79752..103761- (Pylaiella littoralis U1_48)
ATGTACGGCCAATGTGGAGGCATAGAGTACGATGGGTCTACTTGCTGTTT
GGATGGGTACAAGTGCGAGGCGTCGGATGAGTTCTTTTCTCAGTGTCTTC
CCGAGGAAGACGAATCTCGCACTTCTTCAACTTCCGAAGAGGTTGAGCCC
TCCCCTTCATCACTCACGACTGTCGGGGATGAAGACGACGAAGAAACCCT
GTCGCCGACCTCACAGCCTCAGCAGACCCAACAGCCCCAGCAGCCGACCG
TACAGCCTCAGCCGACCCAGCAGCCCCAGCAGCCGACCCAACAGCCCCAG
CAGACCCAACAGCCTCAGCAGCCTGGGAAGGCTTTCTACCGGCCAGGTCT
GGATGAAACCGCCGGGGCCACAGCCGCAGCGCAGATCGATGAGCTGGAAG
CCGCGGGCCGCACGGAGGACGCCGACCAGATTCGCGTGATGACTAACCAG
GCTTTCTACCGGCCGGGTCTGGATGAAACCGCCGGGGCCGCAGCCGCAGC
GCAGATCGATGAGCTGGAAGCCGCCGGCCGCACGGAGGACGCCGAACAGA
TTCGCGTGATGACTAACCAGGCTTTCTACCGGCCAGGTCTGGATGAAACC
GCCGGGGCCGCAGCCGCAGCGCAGATCAATGAGCTGGAAGCCGCTGGCCG
CACGGAGGACGCCGAAAAGATTCGCGTGATGATTAGCCAGCCTATGGCCG
TTTGGGTCGAACTTAAATCATCCGCCGCTAACGTGCAGGTGAAGGCGATC
ATGGAGGCCGCCGGTAAGGTAGACCAAATCCCGATCCTCGCTCTTTACTA
TCTTCCATTCCGTGATTGCACCCAGTACTCGGAGGGCGGCGCGACATCGA
TGGAGGAGTACAACGACTGGATCGCAGATTTGGCATCTACGATCGGGGCC
GGGAAAGTCTACATCGTCCTGGAGCCGGATGGTCTAGCGATAATTCCGTA
CGCCACGACAGTGGATGGCGAGCTTGACTGGTGCCGGCCGGGCGATGCTG
ACTCCGCGACGGCAGAGATCGAGCGCTACGCGATGACGAGAAACGCCATC
ACCGTTCTAAAAGCCAACTCTGGAACGAAGATCTACATCGACGGCAGTCA
TGCGGATTGGCTTCCACCGCGCGAGATGGCCACACGACTACTGCGCGCGA
ATGTGCAGGACGCGGACGGCTTCTTCACCAACGTTTCCAACTTCGTCAAG
ACGGAACGTCAGATCGGCTATTGCGAGCGTGTCGCGAAATGTGTGTTTTG
GGGTCTTGAGGGCAACGATATGTCGGAGTGCACAGATGATGACGTTTTCT
ACGAGGAAAATGTCGATCCCCTTATAGCGGAGAAGGGCGACGATGACGTG
CCGCACTGCATAATCGATACCAGCCGCAATGCTAACGATGTCTGGACGGC
GGAGGTGGACTATCCGGATCCGATGGAATGGTGCAATCCACCGGGTCGGG
CCTTGGGACAGCCTGCCACAACGGAAACGGGCTCACCCTACGTGGATTTT
TTTACATACGTGAAGACTCCCGGTGGATCGGACGGTCCTTGCAATCGCGG
ATTAACCGATCAAGGTGGTGTGGATCCAGAATGGGGTGTGGTCGGCCCAG
ACCCTGGCGACTGGTTCCCTGCGCAGGTGGAGGTGCTGATAGGCGCCACC
GGCAATTAA
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