mRNA_D-herbacea_F_contig106.640.1 (mRNA) Desmarestia herbacea DmunF female

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

Overview


Name	mRNA_D-herbacea_F_contig106.640.1
Unique Name	mRNA_D-herbacea_F_contig106.640.1
Type	mRNA
Organism	Desmarestia herbacea DmunF female (Desmarestia herbacea DmunF female)

Homology

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A6H5KCE4_9PHAE (ABM domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KCE4_9PHAE)

HSP 1 Score: 221 bits (563), Expect = 7.240e-68
Identity = 125/215 (58.14%), Postives = 150/215 (69.77%), Query Frame = 1

Query:   52 ITLTCCCSDVVAFVAPLASRMAVATRATTVRAARPGAPAAGSASL------NMRYVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGGXXXXXK------GPGVVAGGMSKMGDLIVERPVPGLYDAVIIEPIPPEHQGGLWDFEDEPSYFDGDM 660
            + L  CCS+  AFV PL SR  +      +RAA+  +P A  ++       NMRY+AMN+FKVKLGCE+EFE MWRERES LA FSGFEQFMLL+VD  +     ++E        +TEF+SHT W HQ D+++WK+SQAFKKSH G XXXXX       G  V AGGM KM DLI+E PVP LY+A I+EP+PPEHQGGLWDFEDEPSYFDGDM
Sbjct:   26 LALLACCSNASAFVMPLGSRAEL-----NMRAAQLPSPQARRSTRCNNTPPNMRYIAMNRFKVKLGCEEEFETMWRERESKLASFSGFEQFMLLRVDTREAEKKEEEEGAPAARPGYTEFVSHTTWAHQMDFEEWKRSQAFKKSHGGXXXXXXXXXXELGGFVVAAGGMGKMRDLIMEPPVPSLYNAAIVEPVPPEHQGGLWDFEDEPSYFDGDM 235

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: D8LB88_ECTSI (Antibiotic biosynthesis monooxygenase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LB88_ECTSI)

HSP 1 Score: 176 bits (445), Expect = 2.120e-51
Identity = 87/142 (61.27%), Postives = 101/142 (71.13%), Query Frame = 1

Query:  253 MWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGGXXXXXKGPG------VVAGGMSKMGDLIVERPVPGLYDAVIIEPIPPEHQGGLWDFEDEPSYFDGDM 660
            MWRERES LA FSGFEQFMLL++D  +     ++E        +TEF+SHT W HQ D+++WK SQAFKK H GG     K  G      VVAGGM K+ +LIVE PVP LY+A IIEP+PPEHQGGLWDFEDEPSYFDGDM
Sbjct:    1 MWRERESKLASFSGFEQFMLLRLDTREVEKNEEEEGAPAARPGYTEFVSHTSWAHQMDFEEWKNSQAFKKGHSGGGGGEGKAKGESGGFVVVAGGMGKIRELIVEPPVPSLYNAPIIEPVPPEHQGGLWDFEDEPSYFDGDM 142

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A835YW22_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YW22_9STRA)

HSP 1 Score: 90.5 bits (223), Expect = 1.650e-18
Identity = 62/164 (37.80%), Postives = 86/164 (52.44%), Query Frame = 1

Query:  190 MRYVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLK-VDNGDEAAGGDDEFFGDLSA-AHTEFISHTVWTHQNDYDDW--KKSQAFKKSHKGGXXXXXKGPGVVAGGMSKMGDLIVERPVPGLYDAVIIEPIPPEHQ---GGLWDFEDEPSYFDGDM 660
            MR+V  + FKVK+G E++FEE WRER+ SL   SGF  FML++  D+ DE   G     G L+      F + TVW H+ D+DDW  KK    KK             G +A     +  +++  P   LY+ V+  P   E     GGL+D+E+ P YFDGD+
Sbjct:    1 MRFVVKDTFKVKIGNEEKFEEFWRERKLSLEGQSGFSSFMLVRGEDDFDETQEG-----GRLARDGFATFETTTVWLHRMDFDDWRSKKDSPDKKR------------GFLAMSAEDVAAMLLAPPEQRLYETVVTLPKAAEENVRLGGLFDWEENPDYFDGDL 147

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A424SI21_9BACT (Antibiotic biosynthesis monooxygenase n=1 Tax=bacterium TMED46 TaxID=1986782 RepID=A0A424SI21_9BACT)

HSP 1 Score: 83.2 bits (204), Expect = 2.150e-16
Identity = 38/91 (41.76%), Postives = 58/91 (63.74%), Query Frame = 1

Query:  205 MNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGG 477
            MN+F++ LG E +FEE+W+ RE+ L D  GF++F LLK   G E               HT + SH++W  ++D+++WK S+AFKK+H+GG
Sbjct:    1 MNRFRIALGKESQFEEIWKNRETHLGDVKGFQKFNLLKGPTGKE---------------HTLYTSHSIWKSKDDFENWKTSEAFKKAHRGG 76

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A7Z9HQJ0_9GAMM (Antibiotic biosynthesis monooxygenase n=1 Tax=Methylococcaceae bacterium TaxID=1933926 RepID=A0A7Z9HQJ0_9GAMM)

HSP 1 Score: 82.8 bits (203), Expect = 3.320e-16
Identity = 48/129 (37.21%), Postives = 69/129 (53.49%), Query Frame = 1

Query:  196 YVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGGXXXXXKGPGVVAGGMSKMGDLIVERPVPGLYDAVI 582
            Y+A+N+FK+ +G ED+FE +W+ RE+ L D SGF+QF L K               G+    HT +ISH+ W  + D+ +W KS AF+ +HKG            AGG S   D+ +  PV   +D VI
Sbjct:    2 YIAINRFKIVIGKEDDFETIWKNRETHLDDVSGFKQFHLAK---------------GNTEETHTTYISHSTWDSKEDFINWTKSDAFRAAHKG------------AGGHS---DVYIGHPVFEGFDVVI 100

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A1I3KI52_9HYPH (Heme-degrading monooxygenase HmoA n=1 Tax=Aquamicrobium aerolatum DSM 21857 TaxID=1121003 RepID=A0A1I3KI52_9HYPH)

HSP 1 Score: 82.8 bits (203), Expect = 3.700e-16
Identity = 42/92 (45.65%), Postives = 58/92 (63.04%), Query Frame = 1

Query:  196 YVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHK 471
            Y+AMN+FKVK+G E +FE++WR R+SSL+   GF +F LL+        G   E  G     +T + SHTVW  Q+D+  W KSQ+F+ SHK
Sbjct:    2 YIAMNRFKVKIGLETDFEDVWRNRDSSLSSMKGFREFHLLR--------GATHEAEG-----YTLYASHTVWESQDDFTAWTKSQSFRDSHK 80

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A2A5CNF7_9BACT (Antibiotic biosynthesis monooxygenase n=2 Tax=Candidatus Marinimicrobia bacterium TaxID=2026760 RepID=A0A2A5CNF7_9BACT)

HSP 1 Score: 82.4 bits (202), Expect = 4.140e-16
Identity = 39/91 (42.86%), Postives = 55/91 (60.44%), Query Frame = 1

Query:  205 MNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGG 477
            MN+FK+ LG ED+FEEMWR RE+ L    GF QF L+K               G  +  +T + SH+VW  +ND+++WKKS+AF+ +H  G
Sbjct:    1 MNRFKISLGREDDFEEMWRNRETHLEGVKGFRQFNLIK---------------GSTNDGYTLYASHSVWESKNDFENWKKSEAFRAAHNSG 76

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A382J9J8_9ZZZZ (ABM domain-containing protein n=4 Tax=root TaxID=1 RepID=A0A382J9J8_9ZZZZ)

HSP 1 Score: 82.0 bits (201), Expect = 6.770e-16
Identity = 35/95 (36.84%), Postives = 61/95 (64.21%), Query Frame = 1

Query:  193 RYVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGG 477
            +++AMN+FK+ +G E +FE++W+ RE+ L D  GF++F LLK               G  +  +T + SH+ W  ++D+++WKKS+AF+++H GG
Sbjct:    3 KFIAMNRFKIAIGRESDFEDIWKNRETHLDDVKGFQKFNLLK---------------GSTNEEYTLYTSHSTWDSKSDFENWKKSEAFRRAHSGG 82

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A381UY61_9ZZZZ (ABM domain-containing protein (Fragment) n=1 Tax=marine metagenome TaxID=408172 RepID=A0A381UY61_9ZZZZ)

HSP 1 Score: 81.6 bits (200), Expect = 9.390e-16
Identity = 36/94 (38.30%), Postives = 60/94 (63.83%), Query Frame = 1

Query:  196 YVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKGG 477
            Y+AMN+FK+ +G E +FE +W+ RE+ L D  GF++F LLK    D+               +T + SH++W  ++D+++WK+S+AF+K+H GG
Sbjct:    4 YIAMNRFKIAIGRESDFEGIWKNRETYLDDVDGFQKFNLLKGSTNDD---------------YTLYTSHSIWDSKSDFENWKRSEAFRKAHSGG 82

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BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Match: A0A520PBQ3_9PROT (Antibiotic biosynthesis monooxygenase n=1 Tax=Proteobacteria bacterium TaxID=1977087 RepID=A0A520PBQ3_9PROT)

HSP 1 Score: 81.3 bits (199), Expect = 1.270e-15
Identity = 37/95 (38.95%), Postives = 59/95 (62.11%), Query Frame = 1

Query:  190 MRYVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVDNGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKG 474
            M+++AMN+FK+ L  E++FE +W++RE+ L D SGF +F L+K               G     HT + SH+ W  + D+++W KS+AF+K+HKG
Sbjct:    1 MKFIAMNRFKIALNRENDFENIWKKRETHLNDVSGFIEFHLVK---------------GKTEDTHTLYASHSTWNTRKDFENWTKSEAFRKAHKG 80

The following BLAST results are available for this feature:

BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot

BLAST of mRNA_D-herbacea_F_contig106.640.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5KCE4_9PHAE	7.240e-68	58.14	ABM domain-containing protein n=1 Tax=Ectocarpus s...	[more]
D8LB88_ECTSI	2.120e-51	61.27	Antibiotic biosynthesis monooxygenase n=1 Tax=Ecto...	[more]
A0A835YW22_9STRA	1.650e-18	37.80	Uncharacterized protein n=1 Tax=Tribonema minus Ta...	[more]
A0A424SI21_9BACT	2.150e-16	41.76	Antibiotic biosynthesis monooxygenase n=1 Tax=bact...	[more]
A0A7Z9HQJ0_9GAMM	3.320e-16	37.21	Antibiotic biosynthesis monooxygenase n=1 Tax=Meth...	[more]
A0A1I3KI52_9HYPH	3.700e-16	45.65	Heme-degrading monooxygenase HmoA n=1 Tax=Aquamicr...	[more]
A0A2A5CNF7_9BACT	4.140e-16	42.86	Antibiotic biosynthesis monooxygenase n=2 Tax=Cand...	[more]
A0A382J9J8_9ZZZZ	6.770e-16	36.84	ABM domain-containing protein n=4 Tax=root TaxID=1...	[more]
A0A381UY61_9ZZZZ	9.390e-16	38.30	ABM domain-containing protein (Fragment) n=1 Tax=m...	[more]
A0A520PBQ3_9PROT	1.270e-15	38.95	Antibiotic biosynthesis monooxygenase n=1 Tax=Prot...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
D-herbacea_F_contig106	contig	D-herbacea_F_contig106:886175..901031 +

Analyses

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


Analysis Name	Date Performed
Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef90	2022-09-19
OGS1.0 of Desmarestia herbacea DmunF female	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Bacteria
Seed ortholog score	81.3
Seed ortholog evalue	6.2e-13
Seed eggNOG ortholog	395492.Rleg2_3012
Hectar predicted targeting category	signal peptide
EggNOG free text desc.	Antibiotic biosynthesis monooxygenase
EggNOG OGs	1MZKW@1224,2UC1E@28211,4BFCK@82115,COG2329@1,COG2329@2
Ec32 ortholog description	Dimeric alpha-beta barrel
Ec32 ortholog	Ec-27_004790.1
COG Functional cat.	S
Best tax level	Rhizobiaceae
Best eggNOG OG	NA\|NA\|NA
Exons	4
Model size	982
Cds size	639
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_D-herbacea_F_contig106.640.1	prot_D-herbacea_F_contig106.640.1	Desmarestia herbacea DmunF female	polypeptide	D-herbacea_F_contig106 886199..900712 +

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


Feature Name	Unique Name	Species	Type	Position
1622927474.3077202-UTR-D-herbacea_F_contig106:886174..886198	1622927474.3077202-UTR-D-herbacea_F_contig106:886174..886198	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig106 886175..886198 +
1690790190.6444848-UTR-D-herbacea_F_contig106:886174..886198	1690790190.6444848-UTR-D-herbacea_F_contig106:886174..886198	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig106 886175..886198 +
1622927474.3634229-UTR-D-herbacea_F_contig106:900712..901031	1622927474.3634229-UTR-D-herbacea_F_contig106:900712..901031	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig106 900713..901031 +
1690790190.684121-UTR-D-herbacea_F_contig106:900712..901031	1690790190.684121-UTR-D-herbacea_F_contig106:900712..901031	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig106 900713..901031 +

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


Feature Name	Unique Name	Species	Type	Position
1622927474.3193488-CDS-D-herbacea_F_contig106:886198..886386	1622927474.3193488-CDS-D-herbacea_F_contig106:886198..886386	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 886199..886386 +
1690790190.6540263-CDS-D-herbacea_F_contig106:886198..886386	1690790190.6540263-CDS-D-herbacea_F_contig106:886198..886386	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 886199..886386 +
1622927474.3336666-CDS-D-herbacea_F_contig106:886566..886614	1622927474.3336666-CDS-D-herbacea_F_contig106:886566..886614	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 886567..886614 +
1690790190.6616828-CDS-D-herbacea_F_contig106:886566..886614	1690790190.6616828-CDS-D-herbacea_F_contig106:886566..886614	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 886567..886614 +
1622927474.3448975-CDS-D-herbacea_F_contig106:894592..894778	1622927474.3448975-CDS-D-herbacea_F_contig106:894592..894778	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 894593..894778 +
1690790190.6693535-CDS-D-herbacea_F_contig106:894592..894778	1690790190.6693535-CDS-D-herbacea_F_contig106:894592..894778	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 894593..894778 +
1622927474.3543792-CDS-D-herbacea_F_contig106:900495..900712	1622927474.3543792-CDS-D-herbacea_F_contig106:900495..900712	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 900496..900712 +
1690790190.676645-CDS-D-herbacea_F_contig106:900495..900712	1690790190.676645-CDS-D-herbacea_F_contig106:900495..900712	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig106 900496..900712 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at D-herbacea_F_contig106:886175..901031+
coding sequence from alignment at D-herbacea_F_contig106:886175..901031+

protein sequence of mRNA_D-herbacea_F_contig106.640.1

>prot_D-herbacea_F_contig106.640.1 ID=prot_D-herbacea_F_contig106.640.1|Name=mRNA_D-herbacea_F_contig106.640.1|organism=Desmarestia herbacea DmunF female|type=polypeptide|length=213bp
MVRTVFLLAITLTCCCSDVVAFVAPLASRMAVATRATTVRAARPGAPAAG
SASLNMRYVAMNKFKVKLGCEDEFEEMWRERESSLADFSGFEQFMLLKVD
NGDEAAGGDDEFFGDLSAAHTEFISHTVWTHQNDYDDWKKSQAFKKSHKG
GGGGGGKGPGVVAGGMSKMGDLIVERPVPGLYDAVIIEPIPPEHQGGLWD
FEDEPSYFDGDM*

mRNA from alignment at D-herbacea_F_contig106:886175..901031+

Legend: UTRpolypeptideCDS

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

>mRNA_D-herbacea_F_contig106.640.1 ID=mRNA_D-herbacea_F_contig106.640.1|Name=mRNA_D-herbacea_F_contig106.640.1|organism=Desmarestia herbacea DmunF female|type=mRNA|length=14857bp|location=Sequence derived from alignment at D-herbacea_F_contig106:886175..901031+ (Desmarestia herbacea DmunF female)
CACGAGCCGCTTCTTCGAGGTAACATGGTCAGGACAGTATTCCTTCTCGC
GATAACGCTGACCTGCTGCTGTAGCGATGTGGTAGCATTTGTTGCGCCTT
TGGCATCGAGGATGGCAGTGGCAACACGAGCAACGACTGTAAGAGCAGCC
AGACCAGGCGCACCAGCAGCGGGGAGCGCCTCGTTGAATATGCGATATGT
CGCAATGAACAAGTGCGTGCAATGCGTGAGATGTGTGCATGTTTTTGTGC
TCGCCGGGATTAAGCAGGAAGCTGCCATCAATGGCTACGACTGAGTGCTC
TAGTACTGCACAACATTGTACTTGCTATATGTATGTTCTGATGGCACGGC
CAACGGTCTTCCGCGCATTATTTGTCTTTTGTTTCCATCCAGATTCAAGG
TCAAGCTTGGCTGCGAGGACGAGTTCGAGGAAATGTGGAGGTAAGTGGCC
GCGACCCACAGACCTCTCGCATATTTTGGCACACTGCAATAAAAAAAACA
ATGGAAAATGAGGTGCTGGTAGTACCGCACCTCGTTACCTGCAGTAGGCC
GTGTGCGTTGCAAGTTGTCGACGAGAAAGCGGCTGTGTGGTGTCAGAAAA
AACAAAAGTCGACACCACCAAGGTTCGAACTCAGACCAAAAAACAAAATA
TGATAATAGTACGTTCAACAGACAAGTAACTGCTTATAATAGACTACCAG
GTATAATTTACGAGTACCACAAACACACAACAGACAGTACGAGTAGTACT
CTGAGTGTTGTCTTCACGGTAAAAGTCGTTATTTCTACCTGACGATATCC
AGTAGCGTACTCAGAGTCTGTATTGGATCTCCATCCTAGAGAGACAAGAA
ATTCCGTGGTCACAGGCTACGTATATGTCACCAAACACCAAACAGATTAA
TATTGAGTATTCGGGCAAGAACTGCTGGTACGCGTAGAGCGTACGAGAGC
TCGTTTGGTTTTTTGTTTTTTGCCTCGCTTTTTGTTTGGTTGAGTCGACG
AAGCAAGCAAGAAAGTACTCATTGTTGATATCGCGAGACAGAAGCTACGA
AAGGAACTGAAAGTTGGCCACGCCTGAACGTGTGTACGTCAGCGTTTAGA
TGTCGTCACTACTACTACTGTACTTGTACTTGTAGGTTGTTTGCGTTGCA
AGTTGTCGACGAAATAAAGAAAGAAAAGGGTCGTGCCGTGCCAAAAAACA
AGGCGACACGACTTGCTCGAATTCAGACAAAACTTACGAGTAGGAAAAAA
TAAGTAAAAAGTCTATAGAGCCTACGAGTACTTTTTTGATTGATTCACAC
ATTAGCTCATCGTCCAAGATCTAGCTCGTGGTCACACAAGTGCTGAGCCC
TATGTAAGAAGATCCGGAAAACACAGAAAAAAGCAAAAAGAACGGGTACA
CAGGACCGAATCGTAGGTACACCAACTCATACTGGGCGATGTGTAAACTG
ATTTACTAACACTACTGCAGGTATCCATTCGACTACGGCACCAACCGTGT
TCTCCCACCTTTCCCACTACTAACGAAATCGTGGTTGCTAGCGACAGCAG
TTGCTGTCTGGAGTGCTGCCTGCACCGTATACTGTGTACGAAGCACGGTA
GTTCGGAAATAAAAACAGAACGGGAGGAGGATATCATAATTTTACTGCCG
TCTGGTGTGCTGTCAGAATGATGACCCGCGGACAGTGCAGTGAAAAAAGA
ACCACCAAAGCCACCAAAGTTATTGACAATCACCAGGTCTTTGTGGAGCC
GTCTATAGTAGGCACATACTTCTCGAAGTACACAGTATCCACGTTACTGA
TATTGCAAGGGGGTCGTTCCACAATAAAGGGTACAACACAGGCAACAACT
AAGTAGGCCACGGAGGTAACACAGGCATTTCTACCGCATCTCTCTACAAA
CCAACAAGTAAGTACCTCTTGAAAGAGGTCAAAAGAAAAACGAAATTTTT
GCGACAGCCATGATGATGTGCGCCGTCGCGGTGCCGATCTTCACCGTGTG
CTGCTGCTGATGTCGCCCATGGCCACCCCCAGCACCAGCCTAGACCCGCT
CCATGGTCACCCCCAGCACCGCCAATCTCGATCTGCTCCGGACACATGCT
CGTGATGTTGATCCTTTCCGACCGGTTCCACTCTCAGCTACGTAGCCGCT
CCTTACACTTGAGGTGCTGGTCTTATGAAAAAAAGTTCACGCTCAAGGTG
AGTTCAACCACGCTCTTCCCCGTTCGTCGCCGCTCGTCTCCCTCCCACTT
TGGCGGCGAATCCGGCTTCTGGACGGCATAGTTTCCTCTCTGCATCCTAG
ACCGTGCCGTCCTTTAGCTTATGGTGGCGCCTGCCTTCGCGTACACACGG
TTTTTAGGATGCACATTACTGTGCTACCGCTGTTGCCAAAAGGACCGCAG
ATCCGCACGTTTGTACCTGACGCACCAATTCGACCCAACTCTACCGCTAC
GCCGCTGGGCACGCGACCACAGGGCAGCAGCAAGAAGGTATCACTCCTTG
AGGGTGAATCCAGCCTCAAACCCGCCAGAAAGACCTATCCCCTTCGCTAT
GAGCCATGCCGAACAGCAGGCCTTGCCGAGGCAGCGAGGGGAACGTACTG
TACGTACATAAATAAATAGGGAAATGGCGAACTCTGGTAGTGTTTGAGGT
GAAGAGAATGATATGCTGTAGTGACTGCGCGCACCAAAAATATTACGACT
GCGAGAGCTAATACTCCGACGCTGCTCCACTCTCAGCTCTGCACTAACAG
GTGAACTAAACTTTTTTTTTTGCCGTGGTTTGCATATGAGGAGCTAAATT
AGGTGCACAAATTTTGAAGGAGTGACATAAAGGGGACATGTACTCCTTCA
CCGCGTGCTGACCTTAATTAACCTGCACTGGAAAAGCGATGCAGCTGGCC
TGGACTACAAGCCTGACTATCTACTACGCAGCTTCACCAAATCAGGGAGT
CTTGAAACGTATTGGACTTTTCTGTTCTTGTCTATTTGGTTTTGCTTGCT
ATTTATTTGCTTCGTATGTTTCTATTTTTGCTTGGCTTGTCTTGTATTCG
TGGTTTGATTTTTGACCTCGTTCGATTTAGTTTGTTCGCTGTTTTCCCCA
TTCCCCTCAGAAAGGTTGTAGTCTATCATAGTGCACAAGATGATTTTTTT
TTATTTTTTTTTTATAGTGCACAAGATGATATTGAGAACCAAATTACCCT
TCTGGCCATTATCCTGTAGAGCCGGGGACACCCCAGGGGAGTCACTGCGT
TGCACCTTATCTGAGGACCGATAGACTCCGCGCGACCGAAGTATTACACA
GTGAGGTTGACTATTATCCCCTGGCCCCCCGAACCAGTTTGGAACGTCAC
GGCTGATTTACTTGTACAACATGTGTAATAATAAATAATAAATAAATATG
GAAAGCGCGCAGCAGGACATGATCCAGACTATAATTTTTCATATTGAGCT
TGTTTTGGCATTATTTTTTATTCCACGAAGTAGGGAAGGACGCAGTCGAG
CCGCCTTAGGCCACTGCTTATGGGACAATAATCTTGACAAAAATCTTGAT
CTCAGCCAAGATTTCCAAGAACGAGATTTTTGTACACTCGCTATAGGAGC
AAATCTTCCCTGAAATCTCCGCCAAGATTGTGAGATGGCCGACATGTTGC
TATATTTGGGAAATTTTGGGCTGAGGCCACAGCTTATGGGAAACTAATGT
TGACAAAAATCTTCGCCTATAATTATTTCACGACCGAAGATTAAGATTTA
CATTGCCAAGATTTTTGACACAACGGTATGGGATAAATATCTTCGATTCA
CAATACTCGTAGAGTGGACCTAGGAAAAAATGTGATGTTGTAATTTATAT
ACTAAAATTAGTGTGGAGCCTGTCCTCGTGACGATGAGGTGCTATTATAC
TACCGTTGTATAGAAAAATAGAAACAGCAAACATCTCCTCTGTGCACGTG
TGCAACAGGAGGTCGTCCGACACGTTACACACTGCTGCTGTAACTACTAT
ATTTTATACTACTGTTGTAGAGAGCTCAACGAGCTCACAACATACCCGCC
ACTACACGTGCCTTCAGCGGGAAGCGGATGCGGCATGGCAGTGGGCGACG
TCCCAGGTACCACCGCCTCGCCATGTCGATCAATGAGACACAAAAATCGC
AACGGACACGAAAAAAATTGTCCCCATGCGAGTATCTCTTTGCCTTCATT
GCAGTCGGGATCAAGCGTTCAATTTTTCTATCATAGCCCCACTCCCCGCG
CGTGGGTAACTGGGTCGAGTCGTGGGTAGCACGGGAGGGCCGCTTCGCTT
GACTTGAGTCATCACCATCTGCAGTTGTGATAAACTTGTCATCGAGTATA
TTGACAACAGAAGAACTCAAGTCAAGCAGCAAATCGACCCGCGTGTCCAA
GCCAAGACCCGATTGAGACAGCTCCCGCACGGGGAGTGCATGGTGCTACA
GTAGAAAATTGAATATTTGACCCCACTGCAAGGGTACCAAAGAGTTCACG
GGGCTCTTTCGTGTCCTTTTGCGAGCTTGGTACCTGGTTGATCGACATGG
TGAGGCATTGGCCCACGACGGCGGTAACCCGAAACATCTCACACCCCAAT
GCCGCGCTTTCCGCTGAAAGTACGTGCAGCTCTCGTACGGTGCGAGCTTG
GTCGAACACCTCGGCCAGGCCCTGCCTCATAATCTATCTACAGATAGGTC
AGGGCGGCAGCTGCCAAGGTGGTCATGGGTGCCGCGGCCGAGGTACAATC
GTCTCCATGCCTGATGTGGTGTTCATTGTAATTCCGTGTTACTACTACAG
TAGTAGTACTACTTGTACGATTAATATCATACTACTACTGTCTGTACTGT
TGTAGTACTTCGAAGTACAGTATACAAATTTGTCCGGCGGGAGATTTCGA
TAGGCATTTCGTTTTCGAAATCTCAGCCAAAGATTTCCCAAATATAGCAA
ATATTTCGGCCATCTCACAATCTTAGCGGAGATTTCAGGGAAGATTTGCT
CTTATTATAGCGAGTGTACAAAAATATCGTTCTTGGAAATCTTGGCTCAG
ATCAAGATTTTTGTCAAGGTTATTGTCCCATAAGCAGTGGCCTGATGAAA
TTTCGAAAACAAATGCCCATCGAAATCTCCCGGCCGACAAATTTGTACCA
GGTATACTATTATGCAACAGTACAGTTTATGTTCAATTATTTATTGTGAT
AGAATACCTCCTCTCTATGTTGTTCACGTTTACCATAATTTGTAATACTC
GAAGTATGTGTACGCATACCTGACACTGTTGGGTTTTGGGTTTTGGTTCT
GATTTTGCTTCTGTTTGGTGGCTCAGCATAAATAAAAACAATAATGCTAG
GTGCTTTTCGTTGCTTGTTTGCCTGCGTTTACTTGTTTGTTGTAGTAGAG
TAGTATGCTATTATTTTGTTGGCGTTTACCATATTTTATAATTTTGAGTA
TGAAATACTTGGCGCTGTTGGGTTTCGGATTTTGGTTTTGATTTTGGTTT
TGTTTGGTGTCTCCTCGTAGTTGTATGTGATGTGATTTAATTACGGTGAT
GACACCGATAACATGTTACATTCGGAGTTGTATGTGATGTAAGTTTGTTG
TGGTAGCGTATTGGTGTATTGGTGAAACCGATAACGTCATGTAAGTTTGG
TGTGGTAGTGTATTGGTGTATTGGTGTCACCGATAACGCCATTGCCTTCG
TATCTAGCCTGCGTAGTAAGTGTGAGTTCGCATAGTATAGGTTCAGGTAC
GTACACATGATGTGAAAATGCCACACATGCACAGTTACTTCCCGTCGCCC
TTCGAAATATTATAATCCAGTGCACACGATGATGGAGCCTGTTTCCCAAA
ATTATCCTGTAGAGCCTGGGACACCCCCGGGGAGCCACTGCGTTTTAACT
TATCTGAGGACCGATAGAATCCGCGCGACCGATGTACGAAGTATCACATA
GAGAGGTTGACAATTATCCCCTGGCCCCCGAACTAGTTTGGAACGTCACG
GCTGATGTCTTTGTAAGTAAAAATAGTAATATCCATGTTACTGATATTGC
AAGGGGGTCGTTCCACAATAAAGTGTACAACGCAGGCAACAACCAAGCAG
GCGACGGAGGTAACACAGGCATTTCTACCGCATCTCTCTACAGACCAGTA
ACGAAATCAACAAGTACATCTCCAAAGAGATCCACAGAAAAACGAAATTT
TAGTAGCGAGTCGAAACCTCTTGTCAAGATTCTGTAAATTTCCGTCCTAC
GACCATTGTTAAACCTACTGACGCAGTCATTGATACATTGATGTGATATC
GCGAGGCAGAAGCTACAACATGAACTGAATGTTGGCCACGCCTATACACG
GGTACGGCACAGCTTTTAGATTCCGTCACTTGGGTTTAATTTTTTTTTTA
CGTACAAAGACATCAGCCGTGACGTTCCAAACTGGTTTGTACTACTGTGA
TCACAACCGTTTATTATTTACGTATAATACTACTGTTGTTACTTGTAGTA
CAGATAGACCCACCAACCGTCCTTTCTCAAACGAAAAAGTCGCCGCCGTC
AATGACACCTCGAGATAAAGAGGACGGAAGGAACCGAAAGTTGGCCACAG
AGTAAATGGATATTTCAGCTTTCAGATGTTAACCGCTGTGGCTGGTTGTA
CTTGGTTCAACGAACAACTACATCATTGTGTCGAGTTGGTGTACACTTGA
TCACAGCGAGGAGATTGTTTTTACAGTACAACAATTCACAGAACAAAGCA
TAAGAGCTTTATATGAAACAACGACATTATGATACAGAGGCTGCCGTGCA
TGGAGCTGGTAGTTGGCCACGCCCAAGATGGATATGCTAGCTTGGAGCTT
GGAAGTGTGGTATTATAGCTGCGCATTATTGCTTTTGCGCCTGGTGTGGT
GTGCCAGCGTACTGTTGCTGGCGCTGGTGGGTGCAGGAACGTACTTATCG
TGCCTACCTAAATAAATAAGAACGCCTCGGGAAGGAAGGAGTTATTCGCA
CTCTGTCGCGGCGGTTGGCTCGGCGAACCGGGCACGACTTACGATGGAAA
CAGCGCTAGGAGGTAGCCCTTGGACCAAAGCCTCGTAGGTAGGGTTTAAC
GTGAACTGTTGAAATTTCGGATGTGGCGTGAACAAAGCGGTTTTAGCTGG
TTCAAGTCCAGTTCGAAGCAGATTCACTGCAAGTCTATGTCCGGCGCCGA
CCTGCCTTAATGGCGAGCACTATAGAGATGTAGGTTCTGAACAGGGTTGG
GAGGCGTCCCCCCGGGCGCATGAAAGTTGCCCAACCGTGGCTGATATAAG
TGTGGGGCAAAAGAGAGCTCCCGTCAGTTAAGAAAGAGGGAGATAAGAGT
CTTTATTCCGAGCTGAAAGTAGGAGGTAGCCCTTGTGCTGTGTGTCCCTC
CAAATCCGGGTTTAGTGAATAAGGTTCATCGTTGTTGGCCTGCTCTTCAA
ATAGTGAAATCAATGTTAAAAAAAGTGCAATAAAGGCTTCAAACACTACA
ATCACACAGACAGACAGACAGACGGAGGAAATTATGATAAATTAAATGTT
CGCACCCTCGGCTGATTTTTTTTCATTTTTTCGGTTACTTTTTTGTGCGT
GCATCACTCAATCGCGACCCACTAGTATTGAGGTTAAGTTTTTTTAAACA
AAAAATCGTAAACTCGCGCTGACACGCGCGGGTTTTTATGCACCTTATCT
ATGACAGGCAGACGACTTGTTGACTTGTTAACCATCTCGATCGGTTGCGT
CGTTGTAGAGCACAATGTTACCCCCCCAGGTAGTGATTTGCTGGAAAAGC
TCACCCACCAACAAAAACCCCAGACGGTGTTGCCTTGCTCGCCGGACTCC
GTCCAGTTACGATCCACCCTACCGTTATCCTCGTGTTTGTACATCATGCG
GTGGGATGTGCAGGCCACGAAACCTTGTGCTCGTCCAACTTGGCCTACTA
ACCACTGATGATGCAACCGCTCAGTACCCGAGTTCCCCACTAGCTCAGGA
TATGATACGAGGGTCTTAAGACGTATCACACGGCGAAGCTTCAGCTTCTG
TAGACATGCGGTATGTCGGTTATTCTTGGTGTTGTGTTTTTCTCTTTTTC
CGTTTTTTCTTTTTTTCCTTGTCACCTTTCACATCCCCGATCCCCGACCT
GATCGACGGCCTCATCGACGACAAAAGAAGAGAAGAAGAAAAAACAAAAT
CGGACTAGATTGCTTCCGTAACATCCGGCGTATAGTACATATGACAAGTG
CTTCGCATCTCCGCGTTATGGTGCAATGCGATGCTACAAGAATCTCGCAA
ACCTCCCACAGATGGTGGCCCCCCGTTCCTTCTTCCGCGGCCCACGATAT
CGACCAAAACGACGCTACGAGTATTTTGCATAATGTACTGTATTTTTACC
CTCGCGTAAACAAAACAGGGAGCGAGAGAGCTCGCTGGCAGACTTCTCGG
GCTTTGAGCAGTTCATGCTTCTCAAGGTTGACAACGGCGATGAGGCTGCA
GGTGGGGACGATGAATTTTTCGGCGACCTCAGCGCCGCCCACACGGAGTT
CATTTCTCACACCGTGTGGACGCACCAGAACGACTACGACGACTGGAAGA
AGAGGTGCGTGTTCGTAATATGGACACGAAGGGGAACGAACGTTTTTTTT
TTTTGTTATGCAGTATTTTAAAGTACACCTATCGAAAGGATCTTAAGGGG
AGGTTTGTTCTTCCTGTTACTATTATTTAACTTGAAAAAACATCAGCCGC
GACGTTCCAAACTGGTTCGGGGGCCAGGGGATAATCGTCAACCTCACTGT
GTGATACATCGGTCGCGCGGATTCTACCGGTCCTCAGATAAGTTATAACG
CAGTGACTCCCCTGGGGTGTCCCAGGCTCTACAGGATAATTTTGGGAAAC
TGGCCCCATCATCATCGTGTGCACTGGATCATAATCTTTCGGAGGGGGAC
GGGAAGTAACTGTGCATGTGTGACTTTTTCACATCGTGTGTACGTACCTG
AACCTATACTACGCGAATTCACACTCACTTCGCACACTAGATACGACGGC
AACGGCGATTATAGTGTGGTCGTTAGGTTAAGGGTCAGTTGTAGAATTTT
TTCTCAACTGTTGAACAGCCCACGTTGGTACTATTATTAGTATAGTAAAA
CGAACATCCTAAAGGTCCAGTCGGTATAATAGGTATGTAAAGGAGGGGCT
CGTTTTTTGTTGTGTGTGTGTGTGTGTACGTGTACAACACGGTGGTAGAT
TGTAGATTTTTGTTTTGATTGTACGGTATGGTATCACAAAAGGTCAGCCG
ACCGTGTGTACGTCCGCATGTTTTTTTTTTTGCGATCGAGCTCCACTTGT
AGTAAGAAGCCCAGATACCATACCTTGGTAGGGAGCTGGTGATATTTTTC
CTAGCCCAGCCCCAACGTGGTTTTTTGTTCGTAGGGAAGGCGAGACCGCG
TGTTCGGTCCACAAGTTTTTTCACGGATGGGGCTCTAGCCACGGATACCA
TACCTTGGTAGGGAGCGAGTGGCATTTTTTCTACAAACCCAACCCCAACG
TATGATAGTTTGAGTTGTTCTTTCTCGTAGGCAGAGGTGAGGCCTCCTCC
ACATGGATATGATGTAGTGCCAAGTTTTGGACGGCTCTTATGTATGCAGG
GTAAGTGCTGCTATCACTCACAGGGGACGTCGCGTGCGGTAGATTGTTTG
CGTCTTTGGGAACGACGTACGTGTGTTTTGGTGTGTTGCGCTTAGATTGA
ATAGGCGCTTTTGCGATCGCTCCGTGTCTACTACATCATCGCATCAGATA
AAAGTTGACGAGTGAAGGGAACGCCGAACCCTGTGCGCGATTAAAAACAA
TGGTTGGCATGTACCGGGGGGCGAAGGGAAGACACCTGTGACCACGGGTT
GCTCTGACAGGCGCGCGTAGCGATCAGTAGAAGAGCTTTTGTGAGCTATG
ATAGATGATAGATGATGAATAATAGATGATAGATATGGACTGGGAAGTTA
AAGTGATGGATAAAGTAAAAACGAAAAAATCAGTGGGGAGTGTTTACAAA
ACGAAGTCCATATCGATGCACTCGCGGTGTTGACGTACACGTGCAGCAAC
TGGTAGCCGCAGCCGATCATGCCCCGCAGTCAATTATCAACGTCTTCAAC
AACGACCGAACGGGTATATGATAGGGTAGACCGTAACTGAACCGAGTCCG
GCGGGCAAGGCGAAACGGCCTGGGTTTTTGTTAGGGCGTGAGCTTGCGCA
AGTCTCACACTACCGCGGGAGGTTTACTTACTTCCATGGGTGGCCATCTC
CGGGGCCTGATATACTCCAATGGGAGCAGAAGTGCCTCCGACGTACCCGC
GCCGTGATGGCAATCAACCCTCGTGTTGTACAATATGTTTAACAGGGTTA
AATCGGCAATCAGAAGCAGCTATCATAGCTGTCGAAGGTTGTTGGGAGCT
TGACCTACATTCGTACCCATCCGCTGTTGGACAACAACAAAATATAGTTA
AAAACAAAACAGGCGGATCGCCAGAAGCGAGAAGCGAGGATCTTTCGGTA
TTTGTGGTAGCTCCAAAGCTGAAGGACCGTTTCTCCTCCCGTATGTTGCT
CTGTAGTCGTCGCCAGAGTGCTGCAAACAATGGTGTGCTCTGCGACAGAG
AGTCAAGTCGGCATGAATACAGAGCTTGCTGTGGAAGTGTGGTGAGGTTA
AGCTTTTTTCCCCGTCCACCGGAGGTTTTAACAAATAAAAAAAATAAAAA
AACAGTACGTAGCACATGACAAAGCGACAATACCACATAATTCGTGTCGA
AGTTTCCTTTCGTGCATACGTGATCGTCGTTGACACACATGATGTCAACC
TATCGATAGGATTTGTAGGCAGATTTTTACAGTGACTACGAGTAAAATAT
TCGTGTCACCTTGCAAACTCTTAACTTACACGGAAACGGGAGAGATGGGG
GCTAGAGGAGGCTGCCATCACCTCTTCTTTTTTTCTTTTCTTGACGTACA
CTTTTTTGGAGGACCTATATGCATAACCTGGTCACGGGATAGTGATTGGT
AGGCCGATTGGATGGAAGCGAGGAACCAAACAACACGTGAGCTGATGTGG
CCAAGACTTGCCCTCGGTGTTATAATCGGAAATGCAAGATACTTCGTATA
CAGTTTGCAATTTATCGAGGTGAAATGTTGTACCTGGTATCGTTTTTTTT
CTATTTTTTTTTCTCCGTCCCATTTATTATCTTCGCCCTGTTCTTTCTCT
AGCTCCATTTCTCTTCGTAACTCAGATCCGGGGTCACATAATAGGCGCTC
CTCCCGCCTTCCCACTACGACGGTACGTGCCTACGTTTTTGTCGCGAGAA
GAGTGCAGCACTTTCTTCCCTCCTCGTCGACTTTCATCGAATTGTGCTTA
CTCAAGCTCCCGCGTTTTCCGCGACGGAAGATGGCACAGAAAAGTGCCAC
CGGAAATTGAACTCCCAACTTCCGCCAACGGAGGCGAACGCTTAGTCTCG
TAGACCATGACGCCACCCCTGTCATAGACTACGTTGATTCTCGAGAGTGT
AACAAAAATGAAACAAAAGCACAAAGCACCCCTTGAACAAATATTTGTTG
TAGTGAAGCGCGGCTGTGGTTGCTGTTGTTGTCTTGACATTAAAAATCAT
CCTTTTTACCCTGCGAGACATCCAGTAGCGTACTCTATGAGATAATGTTT
TCCGGGAAAAACTGGGTTTATTTTTTGGTCGAAAACCTGACAAGAAAAAA
AAACGTCGATGTTGTTTTTATGGATGCCTCGGCGGGAGCGCTACTGTGAA
TCACTTGTAAAGCGTTCCGGGAATAAAAGCAAAAATATACGGGCTTTGCA
TTTCCTGATTTCGCTACTTGTCCTTTGTGGTTGCTTGTTTTTTTGTATGG
GGCAACGCATGTGCGGTCATAATCCTTGATGGGGTAGCGATTAGGGCTAT
ATACCAGACGTCGAGCGTTTTGGTATGCCCCCAGGAACGTGCACATCAAG
TGCAACTGTTTTTCTGTTTTGATACCTGTGATGATGTGCGAGATTTTGCC
GGTTTTGCATTGCGAAAGTGTAGAGTTTCGGATTCATTTTTTTTTTTTTC
CTTCAGATTCCGTAAACACCAGCCTCAGATATGACCGATCCTGGGACGAT
CCTTGATTGAATAGTTTCAGATTTTGGAAATGTGACGTCAGTTGATGACT
CGATGTGATTGGTCAGAGTATTGCAACCCAGCAGAGCAGCAGTGGCAGGT
AGGATAGTATTGTAGTAGTACAACAGTAGGTATACTCGTAGGCAGGCACA
GCAGCAGCGACTTTCAACTTGCAAGCGACTCAACAAAAGCAGTCATCAGC
TAAACGCCAACGTCCACAGTCCATCCCTTATTTTGCCTCCACGATCCGTG
TTTCTTTGCCTTTCTTTGCTGCCTGCCCAATGCTACTACATGTAAGAGGA
ACCACCTATTTTTCATCTTGCTTGATTGATGGCTTTTGCCACTATAACGA
GCAGCAGTCTCCTTCACCGAGAGAGAGAGAGAGTCTTCTCCATCTAAATT
CACCACACCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCGTCCCAT
TTATTATCTTCGCCCTAGGCTTTCTCTAGCTCCATCTCTCTTCGTATCTC
AGATCCAGGGTCACATAGTAGGCGCTCCTCCCTCCTTCCCACTACGGTGC
GTGCCTACTTTTTTATCGCGAGAAGAGTGCAGCACTTTCTTCCCTCGTCG
ACTTTCATCGAATTGTGCTTACTCACGCTCTTCTTGCGTTTTCCGCGACG
GAAAATGACACAGAAAAGTGCCACCGGGAATCGAACCCCCTACTTCCGCC
AACAGAGGAAATACCCTAGCCATTAGACCACTGGGCCACCCATGGACCCT
GAGTATTCCAATTGCGGCGATCCATGAAAGACAGGCACTTCGATGTGCCC
TTGTCCTGCCTTCTTTGAGCCTCATCACGAGAGGCGGCCAAGGCTTTCTT
CGCGGATGGGACCACGGTACTGTTGATGTAGTCCTCTGGCTTTGCCCACA
GCGATCGCTGCTGTTGCACCATGTTCTATGATTGTCCTCTGGCTGTGGCT
GATAGCCATAGCCCTTCTGCTTGTCGCCGCGTTCCCCGAAATACAGACTA
CGCTTGCTTCGAGTTGTCCTTGTCCTGCCTTCTTTAAACCTCATCACGAG
AAGATGCAGCAAGGCTTTCACGGATGGGACCACAGTACTTTAGTCCTTTG
GCGCTGCCAAGTAGCGATCGCTTCTGCGTGCACCACATCCTGTGCTTGTC
GCCGCATTCCCCAATGGAGAGACTCTTCTCCCTCCAAGGCAACGGGCTCC
TGGGCGTGCATGCATGTCGCCGCGCTCCTGGAATGATTGACGATCCCTTG
TCGCTTCCTTCCCTCTCTGAGCCTCGTCACGAGAGGCACTCAAGGCTTTC
CGCGACAGGCGATGAGATCACATGCTCCACGTGTGTGTGTAGTGTGTGGT
GGTTTTTATAGAGTCGTGAGGAGGAACACGAGAAGAATCTGATACTGTGA
GCAGGAACAAACGCTTCAAGACTCGGGACGTCATTTCGCTCTTTTGAACT
GAAAACCTCGGGCATGCTCTCAGTTTTTGCCCTATTTTGGGGACCAATCC
GAGGATCGGAGCCAGTAATCTGATAATTCAAGCAATCTGAGAGCAAAAAA
ATGAATCGAAACTCTCTAATTCCAAAAAAAAAAAAAAAACAGTTCTACAA
TTCTTTTTTGCTATTGGTAGCACCCTCCAATAACCAAAACGTTTATTTAT
GTTGGCTCGTAGGACATTGCCAGATACCGAAAACGCGACCAAAGCAGGTT
GTAATGAGGTCGGTGGTGCATCTTTGCCCGTGATTGGCTGAATTGTAGTA
GGATGTGCGTACCATCATGGCACGATTCGTCGACCTTTGTTTCTGAGGTG
TGACTGATGGAACATTTGTTAGTTACAGACCACGTGCAATAAGGAAGAAA
AAAACGAAAATCGCCCTCTGGGGGGACATCGCATGGGGAAAAAAATCCAG
ACGAGTTCGTGTAGCGGATGGATGTACAAGGAATCGAATCGCCCACAAGG
ATGGTGTATATCACCTTATTCTTGCGAGTCTTCGGGGCAGGTTCGCCATG
CATGCTGCTCGTTTGCGTGCTACAAGAACTGCGATGTTGCCCAAGCGTGC
TCGGAGAACAGCAAAAGTGCCGTTGTAGTAATGTGGAGTGGGTCGGCATT
CCCCAATGTTTTGACTCTTGATCTGAAATATTCATTTTGCAAAATCCCCC
CCCCCCGCCGCACTAACGCAGCCAAGCATTCAAGAAGAGCCATAAGGGCG
GCGGAGGCGGGGGTGGAAAAGGTCCTGGCGTGGTTGCCGGGGGCATGAGC
AAGATGGGCGACCTTATTGTGGAACGTCCCGTGCCGGGGTTGTACGATGC
GGTGATCATCGAGCCGATTCCGCCAGAGCACCAGGGTGGCCTCTGGGACT
TCGAGGACGAGCCTTCGTACTTCGACGGCGACATGTAACAAAAGGGTTTT
TTGAAATGAGAAGCGATCGTTTTTTGTTTTATGTTGCTGTCTCTTCCAGC
GCGTGACAGCTGAGATCGAGTGAAGATTTCGCTCCCGCAAGTTTGATGAA
AGTCGATGAGCTATGGGAACCTGTGCTCGATGAAAGCTGAGGCATGTACC
GGGGGCGAGAAGGGAAGACATCAGTAACCACGGCTTGCTCAGACAGGCGC
GCTGAGCGATGAGTAGAAGAGCGCTCCTGTGAGGTATGATAGATGATGGA
TGATAGATGATAGATATGGACTGGGAAGTTAAAGTAATGGATAAAAAAAA
AAAAAAA

Coding sequence (CDS) from alignment at D-herbacea_F_contig106:886175..901031+

>mRNA_D-herbacea_F_contig106.640.1 ID=mRNA_D-herbacea_F_contig106.640.1|Name=mRNA_D-herbacea_F_contig106.640.1|organism=Desmarestia herbacea DmunF female|type=CDS|length=1278bp|location=Sequence derived from alignment at D-herbacea_F_contig106:886175..901031+ (Desmarestia herbacea DmunF female)
ATGGTCAGGACAGTATTCCTTCTCGCGATAACGCTGACCTGCTGCTGTAG
CGATGTGGTAGCATTTGTTGCGCCTTTGGCATCGAGGATGGCAGTGGCAA
CACGAGCAACGACTGTAAGAGCAGCCAGACCAGGCGCACCAGCAGCGGGG
AGCGCCTCGTTGAATATGCGATATGTCGCAATGAACAAATGGTCAGGACA
GTATTCCTTCTCGCGATAACGCTGACCTGCTGCTGTAGCGATGTGGTAGC
ATTTGTTGCGCCTTTGGCATCGAGGATGGCAGTGGCAACACGAGCAACGA
CTGTAAGAGCAGCCAGACCAGGCGCACCAGCAGCGGGGAGCGCCTCGTTG
AATATGCGATATGTCGCAATGAACAAATTCAAGGTCAAGCTTGGCTGCGA
GGACGAGTTCGAGGAAATGTGGAGATTCAAGGTCAAGCTTGGCTGCGAGG
ACGAGTTCGAGGAAATGTGGAGGGAGCGAGAGAGCTCGCTGGCAGACTTC
TCGGGCTTTGAGCAGTTCATGCTTCTCAAGGTTGACAACGGCGATGAGGC
TGCAGGTGGGGACGATGAATTTTTCGGCGACCTCAGCGCCGCCCACACGG
AGTTCATTTCTCACACCGTGTGGACGCACCAGAACGACTACGACGACTGG
AAGAAGAGGGAGCGAGAGAGCTCGCTGGCAGACTTCTCGGGCTTTGAGCA
GTTCATGCTTCTCAAGGTTGACAACGGCGATGAGGCTGCAGGTGGGGACG
ATGAATTTTTCGGCGACCTCAGCGCCGCCCACACGGAGTTCATTTCTCAC
ACCGTGTGGACGCACCAGAACGACTACGACGACTGGAAGAAGAGCCAAGC
ATTCAAGAAGAGCCATAAGGGCGGCGGAGGCGGGGGTGGAAAAGGTCCTG
GCGTGGTTGCCGGGGGCATGAGCAAGATGGGCGACCTTATTGTGGAACGT
CCCGTGCCGGGGTTGTACGATGCGGTGATCATCGAGCCGATTCCGCCAGA
GCACCAGGGTGGCCTCTGGGACTTCGAGGACGAGCCTTCGTACTTCGACG
GCGACATGTAACCAAGCATTCAAGAAGAGCCATAAGGGCGGCGGAGGCGG
GGGTGGAAAAGGTCCTGGCGTGGTTGCCGGGGGCATGAGCAAGATGGGCG
ACCTTATTGTGGAACGTCCCGTGCCGGGGTTGTACGATGCGGTGATCATC
GAGCCGATTCCGCCAGAGCACCAGGGTGGCCTCTGGGACTTCGAGGACGA
GCCTTCGTACTTCGACGGCGACATGTAA