LOC111148967 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111148967
Entrez Gene ID	111148967
Full Name	methyl-CpG binding domain protein 5
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022505930.1	XP_022361638.1	methyl-CpG-binding domain protein 5 isoform X2
XM_022505853.1	XP_022361561.1	methyl-CpG-binding domain protein 5 isoform X1

Pathways from BioSystems
Gene Ontology

The following LOC111148967 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111148967 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OEn55907	XM_022505930.1 Latest version!	Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OEn55906	XM_022505853.1 Latest version!	Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

LOC111148967 ( XM_022505930.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022361638.1 Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OEn55907
Clone ID Related Accession (Same CDS sequence)	XM_022505930.1
Accession Version	XM_022505930.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3993bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-09-19
Organism	Enhydra lutris kenyoni
Product	methyl-CpG-binding domain protein 5 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATGGAG GCAAGGACTG TGACGGAGGG GACAAAGATG GAGGTCTTCC CGCTATACAA 
GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT 
GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA CGGAACATGC 
AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTGT TTAATTTTGA TCCTGGAGCT 
GCTGTGAAAC AGAGAACTGC AGAAGATGTT AAAGCAGATG AAGATGTCAC AAAGCTATGC 
ATACATAAAA GAAAAATCAT TGCAGTGGCC ACACTTCACA AAAGCATGGA AGCCCCACAT 
CCTTCTCTGG TGCTCACCAG TCCCGGGGGA GGAACAAATG CAACTCCAGT AGTACCTTCA 
CGGGCAGCAA CTCCAAGATC CGTAAGAAAT AAGTCGCATG AAGGAATTAC AAATTCTGTA 
ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG 
CTATATGTAC AAGAATTGCC TGGAAGCCAG CAACAAGAAC TCCACCCCGT CTACCCCCGG 
CAGAGATTGG GCAGCAGTGA ACACGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC 
CTACCCAGCC CAGCATCGTC AGGTTCCCAG ATATATGGAG ATGGCTCAAT CTCTCCAAGG 
ACTGACCCAC TAGGAAGCCC AGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT 
CCCAATTCTA GTCCTATTCA CTTGAGTAGG ACTCCTCTTT CTCCACCGTC GGTAATGCTA 
CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC 
CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT 
ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT 
CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCCG AGAAAGATCC ACTTGGCATT 
CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACTAGT 
TTCCATTCAA ATGTCCACTC TCAGGTACCT GTGATGAATG TAAGCATGCC TCCTGCTGTT 
GTTCCTTTGC CAAGTAATCT CCCTTTGCCA ACCGTAAAAC CTGGTCATAT GAATCATGGG 
AGTCACATAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA 
TCCCCAGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA 
CGCTCATCTT CCACATCATC AGATCACGGA AATTTCATGA TGCCACCTCT AGGACCCCAG 
GCCACTTGTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACGAT AGGGTCCCCA 
AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT 
ATCCCTAACC CATTAATTGC TGGAATGAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT 
TTTCCTACTG CATCTGCAGG AAGTGGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG 
CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC 
TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACTGTAGC 
AGCAGTAGCA ATTCTGGAGC TGTTGCTGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA 
AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCGA CAGGAGAAGG GCAAAGTGGT 
CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACTCATTGCG GAAAAGAAAA 
CAGCCACCTA CCACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT 
CCTAAACCTG GACCCGACTT GCTAAGAAAG CAGGGTCAGG GTTCCTTTCC CATCAGTTCA 
ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC 
CCGGGTTGTG GGGGCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA 
GATCCCAATA TGAACTCCAG TGCTCTTCAG AATTCACTGA CACAGACCAT ACCTTTGAGA 
GGGGAAGCCG TGCACTGCCA CAATGCAAAC ACTAACTTTG TTCACAGTAA CAGTCCAGTC 
CCAAACCACC ATCTTGCAGG TTTAATAAAT CAGATTCAGG CTAGCGGGAA CTGTGGGATG 
CTCAGTCAGT CGGGCATGGC TTTAGGAAAT TCATTACATC CCAATCCACC TCAGTCAAGA 
ATTTCAACGT CCTCCACTCC AGTGATACCA AACAGCATTG TTAGCAGCTA TAATCAAACA 
AGTTCTGAAG CAGGCGGTTC AGGACCATCA TCCTCCATAG CCATAGCTGG CACCAACCAC 
CCCGCCATTA CAAAGACAAC ATCTGTTCTT CAAGATGGCG TCATAGTTAC CACCGCAGCT 
GGAAACCCAC TGCAGAGTCA GCTGCCTATT GGGAGTGATT TTCCTTATGT TGGCCAGGAG 
CACGCACTTC ATTTTCCATC CAACAGCACT TCAAACAACC ATCTTCCACA CCCCTTGAAC 
CCCAGCCTCC TCAGTTCTCT ACCTATCTCT TTGCCAGTGA ATCAACAGCA TCTCCTAAAC 
CAGAATCTAT TAAATATCCT CCAGCCTTCA GCAGGAGAAG GCAAGTCTGA GATCAACCTC 
CACCCTTTAG GTTTTCTCAA CCCGAATGTA AACACTGCTT TAGCTTTTCT CTCCGGTGAC 
ATGGATGGGC AGGTATTGCA GCCTGTTCAC TTTCAGCTCT TAGCAGCCCT GCTTGAGAAC 
CAAGCCCAAG CAGCTGCCAT GCTTCCCCTG CCATCTTTCA ATATGACCAT CTCAGATATT 
TTGCAACAGC AAAATACCCC TTTACCCTCA TTATCACAGA TGACAGCCCC ACCAGACCAT 
TTGCCAAGCA ATCAGTCAGA GAACAGCCGA GCTGAGACCC TTTTAACCAG CCCCCTGGGG 
AACCCTTTAC CAAGCTTTGC AGGCAGTGAC ACTACTTTTA ACCCCCTGTT CCTCCCAGCT 
GTCACTGGGG CCTCGGGATT AATGGCCTTG AATCCCCAGC TGTTGGGAGG TGTCCTGAAC 
TCAGCATCCG CCAACACCGC TAATCATCCA GAGGTTTCCA TAGCAACTTC CTCCCAGGCA 
ACCACTACCA CAACCACTAC ATCATCAGCA GTGGCAGCAC TGACTGTCTC AACACTTGGT 
GGGACAGCAG TGGTGTCAAT GGCAGAAACA TTGCTGAATA TATCTAATAA TGCTGGGAAT 
ACACCTGGTC CAGCTAAACT CAACAGTAAC TCTGTGGTGC CACAGCTACT TAACCCTCTA 
CTGGGGACAG GTCTGCTTGG TGACATGTCC TCAATAAACA ATTCTTTGAA TAACCATCAA 
CTGACTCATC TGCAATCGCT GTTAAACAAC AATCAGATGT TTCCTCCAAA TCAGCAGCAG 
CAGCAGCAAC TTCTTCAGGG GTACCAGAAC CTGCAGGCAT TTCAAGGACA GCCCACAATT 
CCTTGCACGG CTAACAGTAA CCCCATGGCT TGTCTGTTTC AGAACTTTCA GGTGGAGCCC 
GAGAAGTTGA AGACACTAAC AGAAGGTTTA GAAGCCTACA GCCGAGCCCG GAAAAGGAAC 
AGAAAAGGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA 
CTGGACAAAA TGTCTGGGAC CGTTCACCAA ATCCCACAGG GAGACAGACA AATGAGACCC 
CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_022361638.1
CDS	927..4919
Translation	MNGGKDCDGGDKDGGLPAIQVPVGWQRRVDQNGVLYVSPSGSLLSCLEQVKTYLLTDGTCKCGLECPLILPKVFNFDPGAAVKQRTAEDVKADEDVTKLCIHKRKIIAVATLHKSMEAPHPSLVLTSPGGGTNATPVVPSRAATPRSVRNKSHEGITNSVMPECKNPFKLMIGSSNAMGRLYVQELPGSQQQELHPVYPRQRLGSSEHGQKSPFRGSHGGLPSPASSGSQIYGDGSISPRTDPLGSPDVFTRSNPGFHGAPNSSPIHLSRTPLSPPSVMLHGSPVQSSCAMAGRTNIPLSPTLTTKSPVMKKPMCNFSTNMEIPRAMFHHKPPQGPPPPPPPSCALQKKPLTSEKDPLGILDPIPSKPVNQNPVIINPTSFHSNVHSQVPVMNVSMPPAVVPLPSNLPLPTVKPGHMNHGSHIQRVQHSASTSLSPSPVTSPVHMMGTGIGRIEASPQRSRSSSTSSDHGNFMMPPLGPQATCSGIKVPPRSPRSTIGSPRPSMPSSPSTKSDGHHQYKDIPNPLIAGMSNVLNTPSSAAFPTASAGSGSVKSQPGLLGMPLNQILNQHNAASFPASSLLSAAAKAQLANQNKLAGNNCSSSSNSGAVAGSGNTEGHSTLNTMFPPTANMLLPTGEGQSGRAALRDKLMSQQKDSLRKRKQPPTTVLSLLRQSQMDSSAVPKPGPDLLRKQGQGSFPISSMSQLLQSMSCQSSHLSSNSTPGCGGSNTALPCSANQLHFTDPNMNSSALQNSLTQTIPLRGEAVHCHNANTNFVHSNSPVPNHHLAGLINQIQASGNCGMLSQSGMALGNSLHPNPPQSRISTSSTPVIPNSIVSSYNQTSSEAGGSGPSSSIAIAGTNHPAITKTTSVLQDGVIVTTAAGNPLQSQLPIGSDFPYVGQEHALHFPSNSTSNNHLPHPLNPSLLSSLPISLPVNQQHLLNQNLLNILQPSAGEGKSEINLHPLGFLNPNVNTALAFLSGDMDGQVLQPVHFQLLAALLENQAQAAAMLPLPSFNMTISDILQQQNTPLPSLSQMTAPPDHLPSNQSENSRAETLLTSPLGNPLPSFAGSDTTFNPLFLPAVTGASGLMALNPQLLGGVLNSASANTANHPEVSIATSSQATTTTTTTSSAVAALTVSTLGGTAVVSMAETLLNISNNAGNTPGPAKLNSNSVVPQLLNPLLGTGLLGDMSSINNSLNNHQLTHLQSLLNNNQMFPPNQQQQQQLLQGYQNLQAFQGQPTIPCTANSNPMACLFQNFQVEPEKLKTLTEGLEAYSRARKRNRKGGKLNNHLEAAIHEAMSELDKMSGTVHQIPQGDRQMRPPKPKRRKISR

Target ORF information:

RefSeq Version	XM_022505930.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_022505930.1

ORF Insert Sequence:

ATGAATGGAG GCAAGGACTG TGACGGAGGG GACAAAGATG GAGGTCTTCC CGCTATACAA 
GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT 
GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA CGGAACATGC 
AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTGT TTAATTTTGA TCCTGGAGCT 
GCTGTGAAAC AGAGAACTGC AGAAGATGTT AAAGCAGATG AAGATGTCAC AAAGCTATGC 
ATACATAAAA GAAAAATCAT TGCAGTGGCC ACACTTCACA AAAGCATGGA AGCCCCACAT 
CCTTCTCTGG TGCTCACCAG TCCCGGGGGA GGAACAAATG CAACTCCAGT AGTACCTTCA 
CGGGCAGCAA CTCCAAGATC CGTAAGAAAT AAGTCGCATG AAGGAATTAC AAATTCTGTA 
ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG 
CTATATGTAC AAGAATTGCC TGGAAGCCAG CAACAAGAAC TCCACCCCGT CTACCCCCGG 
CAGAGATTGG GCAGCAGTGA ACACGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC 
CTACCCAGCC CAGCATCGTC AGGTTCCCAG ATATATGGAG ATGGCTCAAT CTCTCCAAGG 
ACTGACCCAC TAGGAAGCCC AGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT 
CCCAATTCTA GTCCTATTCA CTTGAGTAGG ACTCCTCTTT CTCCACCGTC GGTAATGCTA 
CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC 
CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT 
ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT 
CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCCG AGAAAGATCC ACTTGGCATT 
CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACTAGT 
TTCCATTCAA ATGTCCACTC TCAGGTACCT GTGATGAATG TAAGCATGCC TCCTGCTGTT 
GTTCCTTTGC CAAGTAATCT CCCTTTGCCA ACCGTAAAAC CTGGTCATAT GAATCATGGG 
AGTCACATAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA 
TCCCCAGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA 
CGCTCATCTT CCACATCATC AGATCACGGA AATTTCATGA TGCCACCTCT AGGACCCCAG 
GCCACTTGTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACGAT AGGGTCCCCA 
AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT 
ATCCCTAACC CATTAATTGC TGGAATGAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT 
TTTCCTACTG CATCTGCAGG AAGTGGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG 
CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC 
TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACTGTAGC 
AGCAGTAGCA ATTCTGGAGC TGTTGCTGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA 
AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCGA CAGGAGAAGG GCAAAGTGGT 
CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACTCATTGCG GAAAAGAAAA 
CAGCCACCTA CCACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT 
CCTAAACCTG GACCCGACTT GCTAAGAAAG CAGGGTCAGG GTTCCTTTCC CATCAGTTCA 
ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC 
CCGGGTTGTG GGGGCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA 
GATCCCAATA TGAACTCCAG TGCTCTTCAG AATTCACTGA CACAGACCAT ACCTTTGAGA 
GGGGAAGCCG TGCACTGCCA CAATGCAAAC ACTAACTTTG TTCACAGTAA CAGTCCAGTC 
CCAAACCACC ATCTTGCAGG TTTAATAAAT CAGATTCAGG CTAGCGGGAA CTGTGGGATG 
CTCAGTCAGT CGGGCATGGC TTTAGGAAAT TCATTACATC CCAATCCACC TCAGTCAAGA 
ATTTCAACGT CCTCCACTCC AGTGATACCA AACAGCATTG TTAGCAGCTA TAATCAAACA 
AGTTCTGAAG CAGGCGGTTC AGGACCATCA TCCTCCATAG CCATAGCTGG CACCAACCAC 
CCCGCCATTA CAAAGACAAC ATCTGTTCTT CAAGATGGCG TCATAGTTAC CACCGCAGCT 
GGAAACCCAC TGCAGAGTCA GCTGCCTATT GGGAGTGATT TTCCTTATGT TGGCCAGGAG 
CACGCACTTC ATTTTCCATC CAACAGCACT TCAAACAACC ATCTTCCACA CCCCTTGAAC 
CCCAGCCTCC TCAGTTCTCT ACCTATCTCT TTGCCAGTGA ATCAACAGCA TCTCCTAAAC 
CAGAATCTAT TAAATATCCT CCAGCCTTCA GCAGGAGAAG GCAAGTCTGA GATCAACCTC 
CACCCTTTAG GTTTTCTCAA CCCGAATGTA AACACTGCTT TAGCTTTTCT CTCCGGTGAC 
ATGGATGGGC AGGTATTGCA GCCTGTTCAC TTTCAGCTCT TAGCAGCCCT GCTTGAGAAC 
CAAGCCCAAG CAGCTGCCAT GCTTCCCCTG CCATCTTTCA ATATGACCAT CTCAGATATT 
TTGCAACAGC AAAATACCCC TTTACCCTCA TTATCACAGA TGACAGCCCC ACCAGACCAT 
TTGCCAAGCA ATCAGTCAGA GAACAGCCGA GCTGAGACCC TTTTAACCAG CCCCCTGGGG 
AACCCTTTAC CAAGCTTTGC AGGCAGTGAC ACTACTTTTA ACCCCCTGTT CCTCCCAGCT 
GTCACTGGGG CCTCGGGATT AATGGCCTTG AATCCCCAGC TGTTGGGAGG TGTCCTGAAC 
TCAGCATCCG CCAACACCGC TAATCATCCA GAGGTTTCCA TAGCAACTTC CTCCCAGGCA 
ACCACTACCA CAACCACTAC ATCATCAGCA GTGGCAGCAC TGACTGTCTC AACACTTGGT 
GGGACAGCAG TGGTGTCAAT GGCAGAAACA TTGCTGAATA TATCTAATAA TGCTGGGAAT 
ACACCTGGTC CAGCTAAACT CAACAGTAAC TCTGTGGTGC CACAGCTACT TAACCCTCTA 
CTGGGGACAG GTCTGCTTGG TGACATGTCC TCAATAAACA ATTCTTTGAA TAACCATCAA 
CTGACTCATC TGCAATCGCT GTTAAACAAC AATCAGATGT TTCCTCCAAA TCAGCAGCAG 
CAGCAGCAAC TTCTTCAGGG GTACCAGAAC CTGCAGGCAT TTCAAGGACA GCCCACAATT 
CCTTGCACGG CTAACAGTAA CCCCATGGCT TGTCTGTTTC AGAACTTTCA GGTGGAGCCC 
GAGAAGTTGA AGACACTAAC AGAAGGTTTA GAAGCCTACA GCCGAGCCCG GAAAAGGAAC 
AGAAAAGGTG GAAAGCTAAA TAACCATTTA GAAGCTGCTA TTCATGAGGC CATGAGTGAA 
CTGGACAAAA TGTCTGGGAC CGTTCACCAA ATCCCACAGG GAGACAGACA AATGAGACCC 
CCCAAACCCA AGAGGAGGAA GATCTCCAGA TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

LOC111148967 ( XM_022505853.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022361561.1 Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEn55906
Clone ID Related Accession (Same CDS sequence)	XM_022505853.1
Accession Version	XM_022505853.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5202bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-09-19
Organism	Enhydra lutris kenyoni
Product	methyl-CpG-binding domain protein 5 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATGGAG GCAAGGACTG TGACGGAGGG GACAAAGATG GAGGTCTTCC CGCTATACAA 
GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT 
GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA CGGAACATGC 
AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTGT TTAATTTTGA TCCTGGAGCT 
GCTGTGAAAC AGAGAACTGC AGAAGATGTT AAAGCAGATG AAGATGTCAC AAAGCTATGC 
ATACATAAAA GAAAAATCAT TGCAGTGGCC ACACTTCACA AAAGCATGGA AGCCCCACAT 
CCTTCTCTGG TGCTCACCAG TCCCGGGGGA GGAACAAATG CAACTCCAGT AGTACCTTCA 
CGGGCAGCAA CTCCAAGATC CGTAAGAAAT AAGTCGCATG AAGGAATTAC AAATTCTGTA 
ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG 
CTATATGTAC AAGAATTGCC TGGAAGCCAG CAACAAGAAC TCCACCCCGT CTACCCCCGG 
CAGAGATTGG GCAGCAGTGA ACACGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC 
CTACCCAGCC CAGCATCGTC AGGTTCCCAG ATATATGGAG ATGGCTCAAT CTCTCCAAGG 
ACTGACCCAC TAGGAAGCCC AGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT 
CCCAATTCTA GTCCTATTCA CTTGAGTAGG ACTCCTCTTT CTCCACCGTC GGTAATGCTA 
CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC 
CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT 
ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT 
CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCCG AGAAAGATCC ACTTGGCATT 
CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACTAGT 
TTCCATTCAA ATGTCCACTC TCAGGTACCT GTGATGAATG TAAGCATGCC TCCTGCTGTT 
GTTCCTTTGC CAAGTAATCT CCCTTTGCCA ACCGTAAAAC CTGGTCATAT GAATCATGGG 
AGTCACATAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA 
TCCCCAGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA 
CGCTCATCTT CCACATCATC AGATCACGGA AATTTCATGA TGCCACCTCT AGGACCCCAG 
GCCACTTGTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACGAT AGGGTCCCCA 
AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT 
ATCCCTAACC CATTAATTGC TGGAATGAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT 
TTTCCTACTG CATCTGCAGG AAGTGGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG 
CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC 
TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACTGTAGC 
AGCAGTAGCA ATTCTGGAGC TGTTGCTGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA 
AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCGA CAGGAGAAGG GCAAAGTGGT 
CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACTCATTGCG GAAAAGAAAA 
CAGCCACCTA CCACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT 
CCTAAACCTG GACCCGACTT GCTAAGAAAG CAGGGTCAGG GTTCCTTTCC CATCAGTTCA 
ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC 
CCGGGTTGTG GGGGCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA 
GATCCCAATA TGAACTCCAG TGCTCTTCAG AATTCACTGA CACAGACCAT ACCTTTGAGA 
GGGGAAGCCG TGCACTGCCA CAATGCAAAC ACTAACTTTG TTCACAGTAA CAGTCCAGTC 
CCAAACCACC ATCTTGCAGG TTTAATAAAT CAGATTCAGG CTAGCGGGAA CTGTGGGATG 
CTCAGTCAGT CGGGCATGGC TTTAGGAAAT TCATTACATC CCAATCCACC TCAGTCAAGA 
ATTTCAACGT CCTCCACTCC AGTGATACCA AACAGCATTG TTAGCAGCTA TAATCAAACA 
AGTTCTGAAG CAGGCGGTTC AGGACCATCA TCCTCCATAG CCATAGCTGG CACCAACCAC 
CCCGCCATTA CAAAGACAAC ATCTGTTCTT CAAGATGGCG TCATAGTTAC CACCGCAGCT 
GGAAACCCAC TGCAGAGTCA GCTGCCTATT GGGAGTGATT TTCCTTATGT TGGCCAGGAG 
CACGCACTTC ATTTTCCATC CAACAGCACT TCAAACAACC ATCTTCCACA CCCCTTGAAC 
CCCAGCCTCC TCAGTTCTCT ACCTATCTCT TTGCCAGTGA ATCAACAGCA TCTCCTAAAC 
CAGAATCTAT TAAATATCCT CCAGCCTTCA GCAGGAGAAG GCAAGTCTGA GATCAACCTC 
CACCCTTTAG GTTTTCTCAA CCCGAATGTA AACACTGCTT TAGCTTTTCT CTCCGGTGAC 
ATGGATGGGC AGGTATTGCA GCCTGTTCAC TTTCAGCTCT TAGCAGCCCT GCTTGAGAAC 
CAAGCCCAAG CAGCTGCCAT GCTTCCCCTG CCATCTTTCA ATATGACCAT CTCAGATATT 
TTGCAACAGC AAAATACCCC TTTACCCTCA TTATCACAGA TGACAGCCCC ACCAGACCAT 
TTGCCAAGCA ATCAGTCAGA GAACAGCCGA GCTGAGACCC TTTTAACCAG CCCCCTGGGG 
AACCCTTTAC CAAGCTTTGC AGGCAGTGAC ACTACTTTTA ACCCCCTGTT CCTCCCAGCT 
GTCACTGGGG CCTCGGGATT AATGGCCTTG AATCCCCAGC TGTTGGGAGG TGTCCTGAAC 
TCAGCATCCG CCAACACCGC TAATCATCCA GAGGTTTCCA TAGCAACTTC CTCCCAGGCA 
ACCACTACCA CAACCACTAC ATCATCAGCA GTGGCAGCAC TGACTGTCTC AACACTTGGT 
GGGACAGCAG TGGTGTCAAT GGCAGAAACA TTGCTGAATA TATCTAATAA TGCTGGGAAT 
ACACCTGGTC CAGCTAAACT CAACAGTAAC TCTGTGGTGC CACAGCTACT TAACCCTCTA 
CTGGGGACAG GTCTGCTTGG TGACATGTCC TCAATAAACA ATTCTTTGAA TAACCATCAA 
CTGACTCATC TGCAATCGCT GTTAAACAAC AATCAGATGT TTCCTCCAAA TCAGCAGCAG 
CAGCAGCAAC TTCTTCAGGG GTACCAGAAC CTGCAGGCAT TTCAAGGACA GCCCACAATT 
CCTTGCACGG CTAACAGTAA CCCCATGGCT TGTCTGTTTC AGAACTTTCA GGTGAGAATG 
CAGGAAGATG CAGCTCTCCT AAACAAAAGA ATAAGCACTC AGCCCGGGCT CACGGCACTT 
CCTGAGAATC CAAACACTAC ACTTCCACCT TTCCAAGATA CATCTTGTGA GCTGCAACAG 
AGGATTGACC CATCTCTTGG TCAGCAGGTG AAGGATGGCC TCGTTGTGAG TGGCCAAGGT 
GATGCTTCTG TAGATGCCAT TTACAAAGCA GTTGTTGATG CAGCCAGCAA AGGGATGCAG 
GTTGTCATCA CCACTGCAGT CAACAGTACA ACTCAGATCA GCCCCATTCC AGCTCTGAGT 
GCCATGAGTG CCTTCACTGC CTCAATTGGT GACCCATTAA GTCTCCCCAG TGCTGTCAGT 
GCAGTCATTC ATGGACGAAA CATGGGCAGT GTCGATCATG ATGGTAGGCT GAGGAATGCA 
AGAGGGGCTC GGCTGCCCAG GAATCTGGAC CATGGGAAAA ACTCAAATGA AGGAGATGGG 
TTTGAATATT TCAAGTCAGC AAGTTGCCAC ACATCCAAAA AACAGTGGGA TGGGGAGCAA 
AGCCCTGGAG GGGAGCAAAA CAGGTGGAAG TGTGAGGAAT TTTTAGATCA TCCAGGCCAT 
ATCCACAGTA GTCCTTGTCA TGAGAGGTCC AACAATGTCT CTACACTGCC ATTTCTGCCT 
GGGGAACAGC ACCCGGTACT GTTACCACCA AGAAACTGTC AAGGGGATAA AATTCTGGAG 
GAAAATTTCA GGTATAATAA CTACAAAAGA ACTATGATGA GTTTTAAGGA GAGACTAGAG 
AACACTGTGG AAAGATGTGC ACACATTAAT GGGAACAGAC CTCGACAGAG TCGGGGCTTT 
GGCGAGCTGC TGAGCGCCAC AAGGCAAGAA CTGGTCCTAG AGGAGCAGTC TCCAAGCTCC 
TCAAATAGTT TGGAAAGTTC TCTAGTCAAA GACTACATCC ATTACAATGG AGACTTTAAT 
GCCAAAAGCA TTAATGGGTG TGTGCCTAGC CCTTCAGACG CTAAAAGCAT TAGTAGTGAA 
GATGACCTAA GGAATCCAGA TTCCCCTTCT TCAAATGAGT TGATACATTA TAGGCCAAGG 
ACGTTCAACG TTGGCGACTT GGTCTGGGGC CAAATCAAAG GACTTACTTC TTGGCCTGGA 
AAATTAGTAA GAGAAGACGA CGTTCACAAT TCATGTCAAC AAAGCCCCGA GGAAGGGAAG 
GTGGAGCCCG AGAAGTTGAA GACACTAACA GAAGGTTTAG AAGCCTACAG CCGAGCCCGG 
AAAAGGAACA GAAAAGGTGG AAAGCTAAAT AACCATTTAG AAGCTGCTAT TCATGAGGCC 
ATGAGTGAAC TGGACAAAAT GTCTGGGACC GTTCACCAAA TCCCACAGGG AGACAGACAA 
ATGAGACCCC CCAAACCCAA GAGGAGGAAG ATCTCCAGAT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_022361561.1
CDS	927..6128
Translation	MNGGKDCDGGDKDGGLPAIQVPVGWQRRVDQNGVLYVSPSGSLLSCLEQVKTYLLTDGTCKCGLECPLILPKVFNFDPGAAVKQRTAEDVKADEDVTKLCIHKRKIIAVATLHKSMEAPHPSLVLTSPGGGTNATPVVPSRAATPRSVRNKSHEGITNSVMPECKNPFKLMIGSSNAMGRLYVQELPGSQQQELHPVYPRQRLGSSEHGQKSPFRGSHGGLPSPASSGSQIYGDGSISPRTDPLGSPDVFTRSNPGFHGAPNSSPIHLSRTPLSPPSVMLHGSPVQSSCAMAGRTNIPLSPTLTTKSPVMKKPMCNFSTNMEIPRAMFHHKPPQGPPPPPPPSCALQKKPLTSEKDPLGILDPIPSKPVNQNPVIINPTSFHSNVHSQVPVMNVSMPPAVVPLPSNLPLPTVKPGHMNHGSHIQRVQHSASTSLSPSPVTSPVHMMGTGIGRIEASPQRSRSSSTSSDHGNFMMPPLGPQATCSGIKVPPRSPRSTIGSPRPSMPSSPSTKSDGHHQYKDIPNPLIAGMSNVLNTPSSAAFPTASAGSGSVKSQPGLLGMPLNQILNQHNAASFPASSLLSAAAKAQLANQNKLAGNNCSSSSNSGAVAGSGNTEGHSTLNTMFPPTANMLLPTGEGQSGRAALRDKLMSQQKDSLRKRKQPPTTVLSLLRQSQMDSSAVPKPGPDLLRKQGQGSFPISSMSQLLQSMSCQSSHLSSNSTPGCGGSNTALPCSANQLHFTDPNMNSSALQNSLTQTIPLRGEAVHCHNANTNFVHSNSPVPNHHLAGLINQIQASGNCGMLSQSGMALGNSLHPNPPQSRISTSSTPVIPNSIVSSYNQTSSEAGGSGPSSSIAIAGTNHPAITKTTSVLQDGVIVTTAAGNPLQSQLPIGSDFPYVGQEHALHFPSNSTSNNHLPHPLNPSLLSSLPISLPVNQQHLLNQNLLNILQPSAGEGKSEINLHPLGFLNPNVNTALAFLSGDMDGQVLQPVHFQLLAALLENQAQAAAMLPLPSFNMTISDILQQQNTPLPSLSQMTAPPDHLPSNQSENSRAETLLTSPLGNPLPSFAGSDTTFNPLFLPAVTGASGLMALNPQLLGGVLNSASANTANHPEVSIATSSQATTTTTTTSSAVAALTVSTLGGTAVVSMAETLLNISNNAGNTPGPAKLNSNSVVPQLLNPLLGTGLLGDMSSINNSLNNHQLTHLQSLLNNNQMFPPNQQQQQQLLQGYQNLQAFQGQPTIPCTANSNPMACLFQNFQVRMQEDAALLNKRISTQPGLTALPENPNTTLPPFQDTSCELQQRIDPSLGQQVKDGLVVSGQGDASVDAIYKAVVDAASKGMQVVITTAVNSTTQISPIPALSAMSAFTASIGDPLSLPSAVSAVIHGRNMGSVDHDGRLRNARGARLPRNLDHGKNSNEGDGFEYFKSASCHTSKKQWDGEQSPGGEQNRWKCEEFLDHPGHIHSSPCHERSNNVSTLPFLPGEQHPVLLPPRNCQGDKILEENFRYNNYKRTMMSFKERLENTVERCAHINGNRPRQSRGFGELLSATRQELVLEEQSPSSSNSLESSLVKDYIHYNGDFNAKSINGCVPSPSDAKSISSEDDLRNPDSPSSNELIHYRPRTFNVGDLVWGQIKGLTSWPGKLVREDDVHNSCQQSPEEGKVEPEKLKTLTEGLEAYSRARKRNRKGGKLNNHLEAAIHEAMSELDKMSGTVHQIPQGDRQMRPPKPKRRKISR

Target ORF information:

RefSeq Version	XM_022505853.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni methyl-CpG binding domain protein 5 (LOC111148967), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_022505853.1

ORF Insert Sequence:

ATGAATGGAG GCAAGGACTG TGACGGAGGG GACAAAGATG GAGGTCTTCC CGCTATACAA 
GTTCCTGTGG GTTGGCAGCG TCGTGTGGAT CAAAATGGAG TGCTTTATGT CAGTCCCAGT 
GGGTCTTTGT TATCTTGCTT GGAGCAGGTT AAAACATACC TGCTTACTGA CGGAACATGC 
AAGTGTGGCT TGGAATGTCC TCTTATTCTT CCCAAGGTGT TTAATTTTGA TCCTGGAGCT 
GCTGTGAAAC AGAGAACTGC AGAAGATGTT AAAGCAGATG AAGATGTCAC AAAGCTATGC 
ATACATAAAA GAAAAATCAT TGCAGTGGCC ACACTTCACA AAAGCATGGA AGCCCCACAT 
CCTTCTCTGG TGCTCACCAG TCCCGGGGGA GGAACAAATG CAACTCCAGT AGTACCTTCA 
CGGGCAGCAA CTCCAAGATC CGTAAGAAAT AAGTCGCATG AAGGAATTAC AAATTCTGTA 
ATGCCTGAAT GTAAGAATCC TTTCAAGTTA ATGATTGGAT CATCAAATGC CATGGGAAGG 
CTATATGTAC AAGAATTGCC TGGAAGCCAG CAACAAGAAC TCCACCCCGT CTACCCCCGG 
CAGAGATTGG GCAGCAGTGA ACACGGACAG AAATCTCCAT TCCGTGGCAG CCATGGAGGC 
CTACCCAGCC CAGCATCGTC AGGTTCCCAG ATATATGGAG ATGGCTCAAT CTCTCCAAGG 
ACTGACCCAC TAGGAAGCCC AGATGTTTTC ACAAGAAGTA ATCCTGGTTT TCATGGAGCT 
CCCAATTCTA GTCCTATTCA CTTGAGTAGG ACTCCTCTTT CTCCACCGTC GGTAATGCTA 
CATGGTTCTC CTGTACAGTC ATCCTGTGCA ATGGCTGGAA GGACTAATAT ACCTCTTTCC 
CCAACCTTGA CTACAAAGAG TCCAGTAATG AAAAAACCAA TGTGTAATTT TTCAACTAAT 
ATGGAAATAC CACGAGCAAT GTTCCACCAC AAACCACCCC AAGGCCCACC TCCCCCTCCT 
CCACCTTCTT GTGCTCTTCA GAAAAAGCCA TTAACATCCG AGAAAGATCC ACTTGGCATT 
CTTGACCCTA TTCCTAGTAA ACCAGTGAAT CAGAACCCTG TTATCATTAA TCCAACTAGT 
TTCCATTCAA ATGTCCACTC TCAGGTACCT GTGATGAATG TAAGCATGCC TCCTGCTGTT 
GTTCCTTTGC CAAGTAATCT CCCTTTGCCA ACCGTAAAAC CTGGTCATAT GAATCATGGG 
AGTCACATAC AAAGAGTTCA GCATTCAGCT TCAACCTCCC TGTCCCCTTC TCCAGTGACA 
TCCCCAGTGC ACATGATGGG GACTGGAATT GGAAGGATTG AGGCATCGCC CCAAAGATCA 
CGCTCATCTT CCACATCATC AGATCACGGA AATTTCATGA TGCCACCTCT AGGACCCCAG 
GCCACTTGTA GTGGTATTAA GGTTCCACCC AGGTCACCAA GGTCAACGAT AGGGTCCCCA 
AGGCCATCAA TGCCATCAAG CCCTTCTACC AAGTCCGATG GACATCATCA GTACAAGGAT 
ATCCCTAACC CATTAATTGC TGGAATGAGT AATGTACTAA ATACCCCAAG CAGTGCAGCT 
TTTCCTACTG CATCTGCAGG AAGTGGTTCT GTAAAGAGTC AGCCTGGTTT GCTGGGAATG 
CCTTTAAATC AGATCTTGAA CCAGCACAAT GCTGCCTCCT TTCCAGCAAG TAGTTTACTC 
TCAGCAGCAG CCAAAGCACA GCTAGCAAAT CAAAACAAAC TTGCTGGTAA CAACTGTAGC 
AGCAGTAGCA ATTCTGGAGC TGTTGCTGGC AGTGGCAACA CTGAAGGACA TAGCACTTTA 
AACACCATGT TCCCTCCTAC TGCCAACATG CTTCTCCCGA CAGGAGAAGG GCAAAGTGGT 
CGAGCAGCAC TAAGAGATAA GCTGATGTCT CAGCAAAAAG ACTCATTGCG GAAAAGAAAA 
CAGCCACCTA CCACAGTGTT GAGTTTGCTC AGACAGTCTC AAATGGATAG TTCTGCAGTT 
CCTAAACCTG GACCCGACTT GCTAAGAAAG CAGGGTCAGG GTTCCTTTCC CATCAGTTCA 
ATGTCTCAGT TACTACAGTC TATGAGTTGT CAAAGCTCTC ACTTGAGTAG CAATAGTACC 
CCGGGTTGTG GGGGCTCAAA TACTGCTTTG CCTTGCTCTG CTAACCAGCT GCATTTTACA 
GATCCCAATA TGAACTCCAG TGCTCTTCAG AATTCACTGA CACAGACCAT ACCTTTGAGA 
GGGGAAGCCG TGCACTGCCA CAATGCAAAC ACTAACTTTG TTCACAGTAA CAGTCCAGTC 
CCAAACCACC ATCTTGCAGG TTTAATAAAT CAGATTCAGG CTAGCGGGAA CTGTGGGATG 
CTCAGTCAGT CGGGCATGGC TTTAGGAAAT TCATTACATC CCAATCCACC TCAGTCAAGA 
ATTTCAACGT CCTCCACTCC AGTGATACCA AACAGCATTG TTAGCAGCTA TAATCAAACA 
AGTTCTGAAG CAGGCGGTTC AGGACCATCA TCCTCCATAG CCATAGCTGG CACCAACCAC 
CCCGCCATTA CAAAGACAAC ATCTGTTCTT CAAGATGGCG TCATAGTTAC CACCGCAGCT 
GGAAACCCAC TGCAGAGTCA GCTGCCTATT GGGAGTGATT TTCCTTATGT TGGCCAGGAG 
CACGCACTTC ATTTTCCATC CAACAGCACT TCAAACAACC ATCTTCCACA CCCCTTGAAC 
CCCAGCCTCC TCAGTTCTCT ACCTATCTCT TTGCCAGTGA ATCAACAGCA TCTCCTAAAC 
CAGAATCTAT TAAATATCCT CCAGCCTTCA GCAGGAGAAG GCAAGTCTGA GATCAACCTC 
CACCCTTTAG GTTTTCTCAA CCCGAATGTA AACACTGCTT TAGCTTTTCT CTCCGGTGAC 
ATGGATGGGC AGGTATTGCA GCCTGTTCAC TTTCAGCTCT TAGCAGCCCT GCTTGAGAAC 
CAAGCCCAAG CAGCTGCCAT GCTTCCCCTG CCATCTTTCA ATATGACCAT CTCAGATATT 
TTGCAACAGC AAAATACCCC TTTACCCTCA TTATCACAGA TGACAGCCCC ACCAGACCAT 
TTGCCAAGCA ATCAGTCAGA GAACAGCCGA GCTGAGACCC TTTTAACCAG CCCCCTGGGG 
AACCCTTTAC CAAGCTTTGC AGGCAGTGAC ACTACTTTTA ACCCCCTGTT CCTCCCAGCT 
GTCACTGGGG CCTCGGGATT AATGGCCTTG AATCCCCAGC TGTTGGGAGG TGTCCTGAAC 
TCAGCATCCG CCAACACCGC TAATCATCCA GAGGTTTCCA TAGCAACTTC CTCCCAGGCA 
ACCACTACCA CAACCACTAC ATCATCAGCA GTGGCAGCAC TGACTGTCTC AACACTTGGT 
GGGACAGCAG TGGTGTCAAT GGCAGAAACA TTGCTGAATA TATCTAATAA TGCTGGGAAT 
ACACCTGGTC CAGCTAAACT CAACAGTAAC TCTGTGGTGC CACAGCTACT TAACCCTCTA 
CTGGGGACAG GTCTGCTTGG TGACATGTCC TCAATAAACA ATTCTTTGAA TAACCATCAA 
CTGACTCATC TGCAATCGCT GTTAAACAAC AATCAGATGT TTCCTCCAAA TCAGCAGCAG 
CAGCAGCAAC TTCTTCAGGG GTACCAGAAC CTGCAGGCAT TTCAAGGACA GCCCACAATT 
CCTTGCACGG CTAACAGTAA CCCCATGGCT TGTCTGTTTC AGAACTTTCA GGTGAGAATG 
CAGGAAGATG CAGCTCTCCT AAACAAAAGA ATAAGCACTC AGCCCGGGCT CACGGCACTT 
CCTGAGAATC CAAACACTAC ACTTCCACCT TTCCAAGATA CATCTTGTGA GCTGCAACAG 
AGGATTGACC CATCTCTTGG TCAGCAGGTG AAGGATGGCC TCGTTGTGAG TGGCCAAGGT 
GATGCTTCTG TAGATGCCAT TTACAAAGCA GTTGTTGATG CAGCCAGCAA AGGGATGCAG 
GTTGTCATCA CCACTGCAGT CAACAGTACA ACTCAGATCA GCCCCATTCC AGCTCTGAGT 
GCCATGAGTG CCTTCACTGC CTCAATTGGT GACCCATTAA GTCTCCCCAG TGCTGTCAGT 
GCAGTCATTC ATGGACGAAA CATGGGCAGT GTCGATCATG ATGGTAGGCT GAGGAATGCA 
AGAGGGGCTC GGCTGCCCAG GAATCTGGAC CATGGGAAAA ACTCAAATGA AGGAGATGGG 
TTTGAATATT TCAAGTCAGC AAGTTGCCAC ACATCCAAAA AACAGTGGGA TGGGGAGCAA 
AGCCCTGGAG GGGAGCAAAA CAGGTGGAAG TGTGAGGAAT TTTTAGATCA TCCAGGCCAT 
ATCCACAGTA GTCCTTGTCA TGAGAGGTCC AACAATGTCT CTACACTGCC ATTTCTGCCT 
GGGGAACAGC ACCCGGTACT GTTACCACCA AGAAACTGTC AAGGGGATAA AATTCTGGAG 
GAAAATTTCA GGTATAATAA CTACAAAAGA ACTATGATGA GTTTTAAGGA GAGACTAGAG 
AACACTGTGG AAAGATGTGC ACACATTAAT GGGAACAGAC CTCGACAGAG TCGGGGCTTT 
GGCGAGCTGC TGAGCGCCAC AAGGCAAGAA CTGGTCCTAG AGGAGCAGTC TCCAAGCTCC 
TCAAATAGTT TGGAAAGTTC TCTAGTCAAA GACTACATCC ATTACAATGG AGACTTTAAT 
GCCAAAAGCA TTAATGGGTG TGTGCCTAGC CCTTCAGACG CTAAAAGCAT TAGTAGTGAA 
GATGACCTAA GGAATCCAGA TTCCCCTTCT TCAAATGAGT TGATACATTA TAGGCCAAGG 
ACGTTCAACG TTGGCGACTT GGTCTGGGGC CAAATCAAAG GACTTACTTC TTGGCCTGGA 
AAATTAGTAA GAGAAGACGA CGTTCACAAT TCATGTCAAC AAAGCCCCGA GGAAGGGAAG 
GTGGAGCCCG AGAAGTTGAA GACACTAACA GAAGGTTTAG AAGCCTACAG CCGAGCCCGG 
AAAAGGAACA GAAAAGGTGG AAAGCTAAAT AACCATTTAG AAGCTGCTAT TCATGAGGCC 
ATGAGTGAAC TGGACAAAAT GTCTGGGACC GTTCACCAAA TCCCACAGGG AGACAGACAA 
ATGAGACCCC CCAAACCCAA GAGGAGGAAG ATCTCCAGAT AA