CHD2 cDNA ORF clone, Acanthisitta chloris(rifleman)

Gene
Clones
gRNAs

Summary

Gene Symbol	CHD2
Entrez Gene ID	103808999
Full Name	chromodomain helicase DNA binding protein 2
Gene Type	protein-coding
Organism	Acanthisitta chloris(rifleman)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009081812.1	XP_009080060.1	chromodomain-helicase-DNA-binding protein 2

Pathways from BioSystems
Gene Ontology

The following CHD2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHD2 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
OAc121950	XM_009081812.1 Latest version!	Acanthisitta chloris chromodomain helicase DNA binding protein 2 (CHD2), 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)

CHD2 ( XM_009081812.1 ) cDNA ORF clone, Acanthisitta chloris(rifleman) -> XP_009080060.1 Acanthisitta chloris chromodomain helicase DNA binding protein 2 (CHD2), mRNA.

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CloneID	OAc121950
Clone ID Related Accession (Same CDS sequence)	XM_009081812.1
Accession Version	XM_009081812.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5094bp) 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	2014-09-04
Organism	Acanthisitta chloris(rifleman)
Product	chromodomain-helicase-DNA-binding protein 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008690458.1) 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 :: Acanthisitta chloris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACCTACA TTTCTGACCG TAGAATTAAG TGGAAAAGAG AGGTCTCTGG TGGAGAAGAG 
GATGAAGATG GAGGGGAGCA AGGCACCAGT GGAGAGAGTG AGCCTGAACC GAAGAAAGTT 
AAAGCAAGAA GACCTGTCCA AAGGAGAACA GTGGCCAAAA CTGGTGTTAA AAAGCCCCAC 
AAAATCCAGC GTGGGAAGAG AAAGAAACCA GACTCCTCTG AAGATGACGA TGATGACGAA 
GACGATGAGA CCCCCAAGAG ACAAACTCGA CGAAGAGCAG CCAAAAATGT CAGTTACAAA 
GAGGATGATG ATTTTGAGAC GGATTCTGAT GACCTGATAG AGATGACTGG GGAAGGAGCT 
GATGAACAAC AAGACAACAG TGAAACTATT GAGAAAGTCT TGGACATCAG GCTTGGAAAA 
AAGGGAGCCA TTGGTGCTTC CACCACAGTG TATGCAACTG AAGCCAACGG CAACCCCAGC 
GCGGACTTCG ATCCGGAGAA GGATGAGGGA GAAGTTCAGT ACCTGATCAA ATGGAAAGGC 
TGGTCCTACA TCCATAGCAC GTGGGAGAGT GAAGAGTCCT TGCAGCAGCA GAAAGTGAAG 
GGCCTGAAAA AGCTAGAAAA CTTCAAGAAA AAAGAGGAGG AGATCAAGCA ATGGCTGGGC 
AAGGTATCAC CTGAAGATGT AGAATATTTC AACTGCCAAC AAGAGCTGGC TTCAGAGCTG 
AACAAACAGT ATCAAATAGT GGAGAGAGTA ATTGCTGTGA AGACCAGCAA GTCTGCCACG 
GGACATTCAG ATTTCCCAGC AAACAGTCGC AAAACATCCT CAAATGACCC TGAATACCTG 
TGTAAGTGGA TGGGGCTGCC CTATGCCGAG TGCAGCTGGG AAGATGAGGC TCTGATAAGC 
AAGAAATTTC AGCACTGCAT CGACAGCTTC AACAATCGTA ACAACTCCAA AACGATTCCC 
ACCCGGGACT GCAAGGTATT GAAGCAGAGA CCAAGGTTTG TTGCCTTGAA GAAACAGCCC 
TCGTACATCG GCGGTGAGAA CCTGGAGCTG CGCGATTACC AGCTGGAAGG TCTCAACTGG 
CTCGCTCACT CCTGGTGCAA GAACAACAGT GTAATCCTGG CTGACGAAAT GGGACTAGGC 
AAAACGATTC AGACAATATC ATTCCTGTCG TACCTATTCC ATCAGCACCA GCTCTATGGC 
CCTTTCCTGG TGGTTGTGCC CTTGTCCACT CTCACCTCTT GGCAGAGAGA GTTTGAAGTG 
TGGGCGCCAG AGATAAACGT GGTGGTTTAC ATTGGAGACC TCATGAGCAG GAACATGATA 
CGTGAATATG AGTGGATCCA TTCTCAGTCT AAAAGACTGA AATTCAATGC ACTTATCACA 
ACCTACGAGA TCCTCCTCAA GGATAAGACT GTTTTGGGAA GTATTAACTG GGCCTTTCTA 
GGCGTGGATG AAGCCCATCG GTTGAAAAAT GATGACTCTC TGCTGTACAA AACATTGATT 
GATTTCAAGT CCAACCACAG GCTGCTGATC ACTGGCACCC CTCTTCAAAA TTCACTCAAG 
GAACTCTGGT CCCTGCTGCA TTTCATCATG CCAGAGAAGT TTGAGTTCTG GGAGGATTTT 
GAAGAGGATC ATGGGAAAGG TAGAGAGAAT GGCTACCAGA GCCTTCACAA AGTCCTGGAG 
CCATTTCTCC TACGCAGAGT GAAGAAGGAT GTGGAGAAAT CTTTGCCAGC CAAAGTGGAG 
CAGATCCTCC GGGTGGAAAT GTCTGCTCTG CAGAAACAGT ATTACAAGTG GATTTTGACA 
AGAAACTACA AAGCTCTTTC AAAGGGAACA AGGGGTAGCA CATCTGGTTT CCTAAACATT 
GTGATGGAAT TGAAAAAGTG CTGCAACCAC TGCTACCTTA TCAAACCTCC TGAGGAAAAC 
GAGAGAGAGA ATGGCCTTGA GACCCTGCAG TCTCTGATCA GGAGCAGTGG AAAGCTAATT 
CTCTTGGACA AACTGCTGAC CAGGCTGCGG GAGAGAGGCA ACAGAGTGCT GATCTTCTCC 
CAGATGGTGA GGATGCTGGA CATCTTGGCA GAGTATCTGA CTATCAAACA CTACCCTTTT 
CAGCGCTTGG ACGGCTCGAT CAAGGGGGAG ATCCGAAAAC AGGCGCTCGA CCACTTCAAC 
GCTGACGGCT CCGAGGACTT CTGTTTCTTG TTGTCAACAC GAGCTGGAGG GCTGGGAATT 
AATTTGGCCT CTGCTGATAC TGTTGTTATC TTTGACTCAG ACTGGAACCC CCAAAATGAT 
CTCCAGGCTC AGGCCCGAGC TCACCGCATT GGACAAAAGA AGCAGGTGAA TATTTACCGC 
CTGGTCACAA AGGGGACAGT GGAAGAGGAG ATCATTGAGA GAGCCAAGAA GAAAATGGTG 
CTGGATCATT TGGTTATCCA GCGCATGGAC ACCACTGGCC GCACTGTTCT GGACAACAAC 
TCTGGGAGGT CCAACTCAAA TCCTTTCAAC AAAGAGGAGC TGACAGCTAT TCTGAAGTTT 
GGAGCTGAAG ATCTCTTCAA AGAACTTGAA GGGGAAGAGT CAGAGCCTCA GGAGATGGAC 
ATCGATGAGA TCCTGCGTCT GGCTGAAACA CGGGAGAATG AAGTGTCCAC CAGTGCCACT 
GACGAGCTCC TCTCCCAGTT CAAGGTCGCC AACTTTGCAA CCATGGAAGA GGAGGAGACA 
GAGCTGGACG AGCGGTCCCA AAAGGACTGG GATGATATTA TTCCAGAGGA GCAGAGGAAA 
AAGGTGGAGG AGGAAGAAAG GCAGAAAGAG TTGGAGGAAA TCTACATGCT GCCTCGAATC 
CGGAGCTCGA CTAAAAAGGC TCAGACAAAT GACAGTGAAT CAGATGCAGA AACTAAGAGA 
AGGCTTCAGA GATCATCTGG ATCAGAAAGC GAGACTGACG ACACCGATGA CGAGAAGAGA 
CCAAAGCGCA GGGGACGGCC TCGGAGTGTT AGAAAAGATA CTGTGGAAGG ATTTACTGAT 
GCTGAAATCA GGAGGTTTAT CAAGGCTTAC AAGAAGTTTG GATTGCCTCT TGAACGACTG 
GAGTGTATTG CTCGGGATGC TGAGCTGGTG GATAAGTCTG TGGCTGATCT GAAACGGTTA 
GGGGAGCTCA TCCACAACAG TTGTGTGTCA GCAATGCAAG AATATGAGGA GCAGCTGAAA 
GAAAATCCAG GGGAAGGGAA AGGACCTGGA AAGAGACGAG GTCCTACTAT CAAGATTTCT 
GGTGTCCAAG TCAATGTGAA ATCCATCATC CAGCATGAAG AGGAGTTTGA AATGCTGCAT 
AAATCCATTC CCACGGACCC AGAGGAAAGG AAGAAGTACC GCCTGACGTG CCGTGTCAAA 
GCTGCTCATT TTGATGTAGA CTGGGGAGTG GAGGAGGATT CTCGCTTGTT AGTGGGAATT 
TACGAGCATG GTTATGGAAA CTGGGAGCTA ATTAAAACAG ATCCGGAATT GAAGTTATCC 
GATAAGATCC TACCTGTTGA GACTGATAAG AAACCTCAGG GAAAACAGCT CCAGACTCGA 
GTTGATTATC TACTGAAACT GCTGAAGAAA GATCTAGACA AGAAAGAAAA CATGAAAGAT 
GGGGAAGAGG GCAAGCTAAA GAAGAGGAAA CCACGAGTAA AGAAAGAGAA CAAGGCTCCC 
AAAGTCAAAG ATGAGCATGG GAATGAACTC TCCTCTCCTC GGCACTCAGA CAACCAGTCA 
GAAGAAGGTG AAGTCAAGGA GGATGGCTTG GACAAGAGCC CTGTGAAAAA GAAACAGAAG 
AAGAAAGAGA ACAAAGAGAA CAAGGAAAAG CAGACATCCA CTAAGAAGGA AAAGGAAAGT 
GATAAAGAGA AAAAGAAGAC AAAAGACAAG AAAGAGAAGC CTAAAGGTGG TGAGGCCAAA 
TCTGGAAGTA AAGGGAAGAG ATCACAAGGT CCTGTGCACA TTACTGCAGG GAGTGAGCCG 
ATCCCCATTG GAGAAGATGA GGATGATGAT CTGGACCAAG AAACATTCAG CATATGCAAG 
GAAAGGATGA GACCAGTCAA AAAAGCACTG AAGCAACTTG ATAAGCCTGA TAAGGGACTG 
ACAGTTCAAG AACAGCTGGA GCACACACGC AACTGCCTCC TAAAAATTGG TGATCGCATC 
TCTGAGTGCC TTAAAGCCTA CACTGACCAG GATCACATCA AGCTATGGAG AAGGAACCTA 
TGGATATTTG TGTCAAAATT CACAGAATTT GATGCCAGGA AACTACACAA ACTCTACAAG 
ATGGCTCATA AGAAAAGATC ACAGGAAGAG GAGGAGCAGA AAAAGAAGGA GGACATGTCC 
AGCATGAAGA AGCCGTTCCG CCCAGAGCCT TCAAGCTCCA GCCGCGATTC CGTGATGTCC 
CAGTCTCACG TGCCTCACAA TCCTCATTCC CAGAAGATCC ATATGCCCCC TTCCCACACC 
CAGCAGCAGA TGCATGGGCA CCCACGTGAC AACTATGGCC ATCCAAACAA GAGGCACTTC 
AGCAACACAG ACCGAGGAGA CTGGCAGAGG GATCGAAAGT TCAACTATGG TGGCAACAGC 
AACCAGATGT GGGGTGGGGA ACGGCACCAC CAGTACGAGC AGCACTGGTA CAAGGACCAC 
CACTACGGGG ACCGGCGATC CCGTGGGGAT CCTCACCGGA GCTCTGGGAA CTACAGACCA 
AATAACCTCT CCCGCAAGAG GCCGTACGAG CAGTACAACA GCGACCGAGA CCACAGAGGC 
CACCGAGACT ATTACGACAG GCACCACCAC GATTCCAAAC GTCGACGATC CGATGACTTC 
AGGCCTCAGA ACTACCACCA GCAGGATTTC CGACGGATGT CTGATCACAG ACCACCCATG 
GGATACCATG GCCAAGGACC TTCGGACCAC TACCGGTCCT TCCACACAGA CAAACTGGGA 
GACTACAAAC AGCCCCTCCC TCCGTCTCAC CCCGGAGTGT CGGACCCTCG CTCACCCCCC 
TCTCAGAAAT CCCCACACGA TTCCAAGTCA CCTCTCGATC ACAGGTCACC TCTGGATAGG 
TCATTGGAAC AGAAAAACAA TCCAGATTAT AACTGGAACA TTCGGAAAGT ATAA

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

RefSeq	XP_009080060.1
CDS	1..5094
Translation	MTYISDRRIKWKREVSGGEEDEDGGEQGTSGESEPEPKKVKARRPVQRRTVAKTGVKKPHKIQRGKRKKPDSSEDDDDDEDDETPKRQTRRRAAKNVSYKEDDDFETDSDDLIEMTGEGADEQQDNSETIEKVLDIRLGKKGAIGASTTVYATEANGNPSADFDPEKDEGEVQYLIKWKGWSYIHSTWESEESLQQQKVKGLKKLENFKKKEEEIKQWLGKVSPEDVEYFNCQQELASELNKQYQIVERVIAVKTSKSATGHSDFPANSRKTSSNDPEYLCKWMGLPYAECSWEDEALISKKFQHCIDSFNNRNNSKTIPTRDCKVLKQRPRFVALKKQPSYIGGENLELRDYQLEGLNWLAHSWCKNNSVILADEMGLGKTIQTISFLSYLFHQHQLYGPFLVVVPLSTLTSWQREFEVWAPEINVVVYIGDLMSRNMIREYEWIHSQSKRLKFNALITTYEILLKDKTVLGSINWAFLGVDEAHRLKNDDSLLYKTLIDFKSNHRLLITGTPLQNSLKELWSLLHFIMPEKFEFWEDFEEDHGKGRENGYQSLHKVLEPFLLRRVKKDVEKSLPAKVEQILRVEMSALQKQYYKWILTRNYKALSKGTRGSTSGFLNIVMELKKCCNHCYLIKPPEENERENGLETLQSLIRSSGKLILLDKLLTRLRERGNRVLIFSQMVRMLDILAEYLTIKHYPFQRLDGSIKGEIRKQALDHFNADGSEDFCFLLSTRAGGLGINLASADTVVIFDSDWNPQNDLQAQARAHRIGQKKQVNIYRLVTKGTVEEEIIERAKKKMVLDHLVIQRMDTTGRTVLDNNSGRSNSNPFNKEELTAILKFGAEDLFKELEGEESEPQEMDIDEILRLAETRENEVSTSATDELLSQFKVANFATMEEEETELDERSQKDWDDIIPEEQRKKVEEEERQKELEEIYMLPRIRSSTKKAQTNDSESDAETKRRLQRSSGSESETDDTDDEKRPKRRGRPRSVRKDTVEGFTDAEIRRFIKAYKKFGLPLERLECIARDAELVDKSVADLKRLGELIHNSCVSAMQEYEEQLKENPGEGKGPGKRRGPTIKISGVQVNVKSIIQHEEEFEMLHKSIPTDPEERKKYRLTCRVKAAHFDVDWGVEEDSRLLVGIYEHGYGNWELIKTDPELKLSDKILPVETDKKPQGKQLQTRVDYLLKLLKKDLDKKENMKDGEEGKLKKRKPRVKKENKAPKVKDEHGNELSSPRHSDNQSEEGEVKEDGLDKSPVKKKQKKKENKENKEKQTSTKKEKESDKEKKKTKDKKEKPKGGEAKSGSKGKRSQGPVHITAGSEPIPIGEDEDDDLDQETFSICKERMRPVKKALKQLDKPDKGLTVQEQLEHTRNCLLKIGDRISECLKAYTDQDHIKLWRRNLWIFVSKFTEFDARKLHKLYKMAHKKRSQEEEEQKKKEDMSSMKKPFRPEPSSSSRDSVMSQSHVPHNPHSQKIHMPPSHTQQQMHGHPRDNYGHPNKRHFSNTDRGDWQRDRKFNYGGNSNQMWGGERHHQYEQHWYKDHHYGDRRSRGDPHRSSGNYRPNNLSRKRPYEQYNSDRDHRGHRDYYDRHHHDSKRRRSDDFRPQNYHQQDFRRMSDHRPPMGYHGQGPSDHYRSFHTDKLGDYKQPLPPSHPGVSDPRSPPSQKSPHDSKSPLDHRSPLDRSLEQKNNPDYNWNIRKV

Target ORF information:

RefSeq Version	XM_009081812.1
Organism	Acanthisitta chloris(rifleman)
Definition	Acanthisitta chloris chromodomain helicase DNA binding protein 2 (CHD2), mRNA.

Target ORF information:

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

XM_009081812.1

ORF Insert Sequence:

ATGACCTACA TTTCTGACCG TAGAATTAAG TGGAAAAGAG AGGTCTCTGG TGGAGAAGAG 
GATGAAGATG GAGGGGAGCA AGGCACCAGT GGAGAGAGTG AGCCTGAACC GAAGAAAGTT 
AAAGCAAGAA GACCTGTCCA AAGGAGAACA GTGGCCAAAA CTGGTGTTAA AAAGCCCCAC 
AAAATCCAGC GTGGGAAGAG AAAGAAACCA GACTCCTCTG AAGATGACGA TGATGACGAA 
GACGATGAGA CCCCCAAGAG ACAAACTCGA CGAAGAGCAG CCAAAAATGT CAGTTACAAA 
GAGGATGATG ATTTTGAGAC GGATTCTGAT GACCTGATAG AGATGACTGG GGAAGGAGCT 
GATGAACAAC AAGACAACAG TGAAACTATT GAGAAAGTCT TGGACATCAG GCTTGGAAAA 
AAGGGAGCCA TTGGTGCTTC CACCACAGTG TATGCAACTG AAGCCAACGG CAACCCCAGC 
GCGGACTTCG ATCCGGAGAA GGATGAGGGA GAAGTTCAGT ACCTGATCAA ATGGAAAGGC 
TGGTCCTACA TCCATAGCAC GTGGGAGAGT GAAGAGTCCT TGCAGCAGCA GAAAGTGAAG 
GGCCTGAAAA AGCTAGAAAA CTTCAAGAAA AAAGAGGAGG AGATCAAGCA ATGGCTGGGC 
AAGGTATCAC CTGAAGATGT AGAATATTTC AACTGCCAAC AAGAGCTGGC TTCAGAGCTG 
AACAAACAGT ATCAAATAGT GGAGAGAGTA ATTGCTGTGA AGACCAGCAA GTCTGCCACG 
GGACATTCAG ATTTCCCAGC AAACAGTCGC AAAACATCCT CAAATGACCC TGAATACCTG 
TGTAAGTGGA TGGGGCTGCC CTATGCCGAG TGCAGCTGGG AAGATGAGGC TCTGATAAGC 
AAGAAATTTC AGCACTGCAT CGACAGCTTC AACAATCGTA ACAACTCCAA AACGATTCCC 
ACCCGGGACT GCAAGGTATT GAAGCAGAGA CCAAGGTTTG TTGCCTTGAA GAAACAGCCC 
TCGTACATCG GCGGTGAGAA CCTGGAGCTG CGCGATTACC AGCTGGAAGG TCTCAACTGG 
CTCGCTCACT CCTGGTGCAA GAACAACAGT GTAATCCTGG CTGACGAAAT GGGACTAGGC 
AAAACGATTC AGACAATATC ATTCCTGTCG TACCTATTCC ATCAGCACCA GCTCTATGGC 
CCTTTCCTGG TGGTTGTGCC CTTGTCCACT CTCACCTCTT GGCAGAGAGA GTTTGAAGTG 
TGGGCGCCAG AGATAAACGT GGTGGTTTAC ATTGGAGACC TCATGAGCAG GAACATGATA 
CGTGAATATG AGTGGATCCA TTCTCAGTCT AAAAGACTGA AATTCAATGC ACTTATCACA 
ACCTACGAGA TCCTCCTCAA GGATAAGACT GTTTTGGGAA GTATTAACTG GGCCTTTCTA 
GGCGTGGATG AAGCCCATCG GTTGAAAAAT GATGACTCTC TGCTGTACAA AACATTGATT 
GATTTCAAGT CCAACCACAG GCTGCTGATC ACTGGCACCC CTCTTCAAAA TTCACTCAAG 
GAACTCTGGT CCCTGCTGCA TTTCATCATG CCAGAGAAGT TTGAGTTCTG GGAGGATTTT 
GAAGAGGATC ATGGGAAAGG TAGAGAGAAT GGCTACCAGA GCCTTCACAA AGTCCTGGAG 
CCATTTCTCC TACGCAGAGT GAAGAAGGAT GTGGAGAAAT CTTTGCCAGC CAAAGTGGAG 
CAGATCCTCC GGGTGGAAAT GTCTGCTCTG CAGAAACAGT ATTACAAGTG GATTTTGACA 
AGAAACTACA AAGCTCTTTC AAAGGGAACA AGGGGTAGCA CATCTGGTTT CCTAAACATT 
GTGATGGAAT TGAAAAAGTG CTGCAACCAC TGCTACCTTA TCAAACCTCC TGAGGAAAAC 
GAGAGAGAGA ATGGCCTTGA GACCCTGCAG TCTCTGATCA GGAGCAGTGG AAAGCTAATT 
CTCTTGGACA AACTGCTGAC CAGGCTGCGG GAGAGAGGCA ACAGAGTGCT GATCTTCTCC 
CAGATGGTGA GGATGCTGGA CATCTTGGCA GAGTATCTGA CTATCAAACA CTACCCTTTT 
CAGCGCTTGG ACGGCTCGAT CAAGGGGGAG ATCCGAAAAC AGGCGCTCGA CCACTTCAAC 
GCTGACGGCT CCGAGGACTT CTGTTTCTTG TTGTCAACAC GAGCTGGAGG GCTGGGAATT 
AATTTGGCCT CTGCTGATAC TGTTGTTATC TTTGACTCAG ACTGGAACCC CCAAAATGAT 
CTCCAGGCTC AGGCCCGAGC TCACCGCATT GGACAAAAGA AGCAGGTGAA TATTTACCGC 
CTGGTCACAA AGGGGACAGT GGAAGAGGAG ATCATTGAGA GAGCCAAGAA GAAAATGGTG 
CTGGATCATT TGGTTATCCA GCGCATGGAC ACCACTGGCC GCACTGTTCT GGACAACAAC 
TCTGGGAGGT CCAACTCAAA TCCTTTCAAC AAAGAGGAGC TGACAGCTAT TCTGAAGTTT 
GGAGCTGAAG ATCTCTTCAA AGAACTTGAA GGGGAAGAGT CAGAGCCTCA GGAGATGGAC 
ATCGATGAGA TCCTGCGTCT GGCTGAAACA CGGGAGAATG AAGTGTCCAC CAGTGCCACT 
GACGAGCTCC TCTCCCAGTT CAAGGTCGCC AACTTTGCAA CCATGGAAGA GGAGGAGACA 
GAGCTGGACG AGCGGTCCCA AAAGGACTGG GATGATATTA TTCCAGAGGA GCAGAGGAAA 
AAGGTGGAGG AGGAAGAAAG GCAGAAAGAG TTGGAGGAAA TCTACATGCT GCCTCGAATC 
CGGAGCTCGA CTAAAAAGGC TCAGACAAAT GACAGTGAAT CAGATGCAGA AACTAAGAGA 
AGGCTTCAGA GATCATCTGG ATCAGAAAGC GAGACTGACG ACACCGATGA CGAGAAGAGA 
CCAAAGCGCA GGGGACGGCC TCGGAGTGTT AGAAAAGATA CTGTGGAAGG ATTTACTGAT 
GCTGAAATCA GGAGGTTTAT CAAGGCTTAC AAGAAGTTTG GATTGCCTCT TGAACGACTG 
GAGTGTATTG CTCGGGATGC TGAGCTGGTG GATAAGTCTG TGGCTGATCT GAAACGGTTA 
GGGGAGCTCA TCCACAACAG TTGTGTGTCA GCAATGCAAG AATATGAGGA GCAGCTGAAA 
GAAAATCCAG GGGAAGGGAA AGGACCTGGA AAGAGACGAG GTCCTACTAT CAAGATTTCT 
GGTGTCCAAG TCAATGTGAA ATCCATCATC CAGCATGAAG AGGAGTTTGA AATGCTGCAT 
AAATCCATTC CCACGGACCC AGAGGAAAGG AAGAAGTACC GCCTGACGTG CCGTGTCAAA 
GCTGCTCATT TTGATGTAGA CTGGGGAGTG GAGGAGGATT CTCGCTTGTT AGTGGGAATT 
TACGAGCATG GTTATGGAAA CTGGGAGCTA ATTAAAACAG ATCCGGAATT GAAGTTATCC 
GATAAGATCC TACCTGTTGA GACTGATAAG AAACCTCAGG GAAAACAGCT CCAGACTCGA 
GTTGATTATC TACTGAAACT GCTGAAGAAA GATCTAGACA AGAAAGAAAA CATGAAAGAT 
GGGGAAGAGG GCAAGCTAAA GAAGAGGAAA CCACGAGTAA AGAAAGAGAA CAAGGCTCCC 
AAAGTCAAAG ATGAGCATGG GAATGAACTC TCCTCTCCTC GGCACTCAGA CAACCAGTCA 
GAAGAAGGTG AAGTCAAGGA GGATGGCTTG GACAAGAGCC CTGTGAAAAA GAAACAGAAG 
AAGAAAGAGA ACAAAGAGAA CAAGGAAAAG CAGACATCCA CTAAGAAGGA AAAGGAAAGT 
GATAAAGAGA AAAAGAAGAC AAAAGACAAG AAAGAGAAGC CTAAAGGTGG TGAGGCCAAA 
TCTGGAAGTA AAGGGAAGAG ATCACAAGGT CCTGTGCACA TTACTGCAGG GAGTGAGCCG 
ATCCCCATTG GAGAAGATGA GGATGATGAT CTGGACCAAG AAACATTCAG CATATGCAAG 
GAAAGGATGA GACCAGTCAA AAAAGCACTG AAGCAACTTG ATAAGCCTGA TAAGGGACTG 
ACAGTTCAAG AACAGCTGGA GCACACACGC AACTGCCTCC TAAAAATTGG TGATCGCATC 
TCTGAGTGCC TTAAAGCCTA CACTGACCAG GATCACATCA AGCTATGGAG AAGGAACCTA 
TGGATATTTG TGTCAAAATT CACAGAATTT GATGCCAGGA AACTACACAA ACTCTACAAG 
ATGGCTCATA AGAAAAGATC ACAGGAAGAG GAGGAGCAGA AAAAGAAGGA GGACATGTCC 
AGCATGAAGA AGCCGTTCCG CCCAGAGCCT TCAAGCTCCA GCCGCGATTC CGTGATGTCC 
CAGTCTCACG TGCCTCACAA TCCTCATTCC CAGAAGATCC ATATGCCCCC TTCCCACACC 
CAGCAGCAGA TGCATGGGCA CCCACGTGAC AACTATGGCC ATCCAAACAA GAGGCACTTC 
AGCAACACAG ACCGAGGAGA CTGGCAGAGG GATCGAAAGT TCAACTATGG TGGCAACAGC 
AACCAGATGT GGGGTGGGGA ACGGCACCAC CAGTACGAGC AGCACTGGTA CAAGGACCAC 
CACTACGGGG ACCGGCGATC CCGTGGGGAT CCTCACCGGA GCTCTGGGAA CTACAGACCA 
AATAACCTCT CCCGCAAGAG GCCGTACGAG CAGTACAACA GCGACCGAGA CCACAGAGGC 
CACCGAGACT ATTACGACAG GCACCACCAC GATTCCAAAC GTCGACGATC CGATGACTTC 
AGGCCTCAGA ACTACCACCA GCAGGATTTC CGACGGATGT CTGATCACAG ACCACCCATG 
GGATACCATG GCCAAGGACC TTCGGACCAC TACCGGTCCT TCCACACAGA CAAACTGGGA 
GACTACAAAC AGCCCCTCCC TCCGTCTCAC CCCGGAGTGT CGGACCCTCG CTCACCCCCC 
TCTCAGAAAT CCCCACACGA TTCCAAGTCA CCTCTCGATC ACAGGTCACC TCTGGATAGG 
TCATTGGAAC AGAAAAACAA TCCAGATTAT AACTGGAACA TTCGGAAAGT ATAA