Rad54l2 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Rad54l2
Entrez Gene ID	110301171
Full Name	RAD54 like 2
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021171453.1	XP_021027112.1	helicase ARIP4
XM_021171453.2	XP_021027112.1	helicase ARIP4

Pathways from BioSystems
Gene Ontology

The following Rad54l2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Rad54l2 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)
OMv08053	XM_021171453.2 Latest version!	Mus caroli RAD54 like 2 (Rad54l2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
View Old Accession Versions >>
OMv08053	XM_021171453.1	Mus caroli RAD54 like 2 (S. cerevisiae) (Rad54l2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
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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)

Rad54l2 ( XM_021171453.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021027112.1 Mus caroli RAD54 like 2 (S. cerevisiae) (Rad54l2), mRNA.

Price & Availability↑

CloneID	OMv08053
Clone ID Related Accession (Same CDS sequence)	XM_021171453.1 , XM_021171453.2
Accession Version	XM_021171453.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4401bp) 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	2017-05-20
Organism	Mus caroli(Ryukyu mouse)
Product	helicase ARIP4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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 :: Mus caroli 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##

ATGTCAGACG AATCCGCCTC AGGGAGCGAT CCAGACCTGG ACCCGGACGT GGAGCTGGAG 
GATGAGGAAG AGGAGGAGGA GGAGGAGGAG GTGGCAGTGG AGGAGCATGA CAGGGATGAC 
GAGGAAGGCC TGCTGGATGA CACATCCCTG GAAGGCATGT GTGGCACTGA GCATGCCCAG 
CTGGGGGAAG ATGGGCAGCG GCCGCCGCGG TGCACTTCAA CTACCTCATC TCAGTCTGAG 
CCTTCAGAGC AGCTTAGGCA CCAAGGCAAG ATCCTAGCGT CCGAGGACCC CAAAAAGAAG 
CGAGCTCAGA AGCCCTCTCA CATGAGAAGA AACATACGAA AGCTACTCCG GGAGGATCAG 
TTGGAGCCCG TAACCAAAGC AGCACAGCAG GAAGAATTGG AAAGAAGAAA GCGCCTGGAG 
CAGCAGAGGA AAGAATATGC AGCCCCCATT CCTACTGTCC CTTTGGAGTT CCTACCTGAG 
GAAATTGTCT TACGAGCTAG TGATGGTCCC CAACTCCCTC CTCGGGTCTT AGCCCAGGAA 
GTCATTTGTT TGGACAGTAG CAGTGGCAGT GAGGATGAAA AAAGTAGTCG AGACGAGGTA 
ATTGAGCTGA GTTCTGGAGA GGAGGATACG CTGCACATCG TGGACAGCAG TGAGTCTGTC 
AGCGAGGAGG ACGAGGAAGA GGAGAAGGGT GGCACCCATG TGAACGACGC CTTAAACCAG 
CATGATGCTC TCGGGCGGGT CCTTGTCAAC CTGAATCACC CTCCAGAGGA GGAGAATGTC 
TTCCTGGCCC CCCAGTTGGC ACGGGCTGTG AAACCTCATC AGATTGGTGG GATCCGGTTC 
CTATATGATA ACCTAGTGGA GTCCTTAGAA AGGTTTAAGA CCAGTAGTGG CTTTGGCTGT 
ATCCTGGCCC ATAGCATGGG TCTGGGGAAA ACTCTGCAAG TAATCTCCTT CATTGATGTC 
CTTTTCCGCC ATACGCCAGC CAAAACAGTC CTTGCCATTG TGCCGGTGAA CACTCTTCAG 
AATTGGTTGG CAGAGTTCAA CATGTGGCTC CCGGCTCCTG AAGCCCTCCC AGCCGACAGC 
AAGCCTGAAG AAGTCCAGCC TCGGTTCTTT AAAGTTCATA TCTTGAATGA TGAACACAAG 
ACGGTGGCAT CCCGTGCTAA AGTGACGGCT GATTGGGTTT CAGAGGGTGG AGTGCTGCTG 
ATGGGGTATG AGATGTACAG ACTACTCACG CTGAAGAAGT CCTTAGCCAC AAGTAGGCCG 
AAGAAAACCA AGAAACGCTC TCATCCCGTC ATCATTGATC TGGATGAAGA AGACCGGCAG 
CAGGAGTTCC GGAGAGAGTT TGAGAAGGCC TTATGCCGCC CTGGTCCTGA TGTGGTGATC 
TGTGACGAGG GACACCGCAT CAAAAATTGC CAAGCCAGCA CCTCACAGGC TCTGAAGAAC 
ATACGTTCTC GTCGGCGGGT AGTGCTGACT GGCTACCCTC TACAGAACAA CCTCATTGAG 
TACTGGTGCA TGGTGGACTT TGTGCGCCCA GATTTCCTTG GTACTCGTCA GGAGTTTAGC 
AACATGTTTG AACGCCCTAT CCTAAACGGA CAGTGTATTG ACAGCACACC TCAGGATGTC 
CGCCTCATGC GCTACCGGAG CCATGTTTTG CACAGCCTCC TGGAGGGCTT TGTGCAGAGG 
AGAGGCCACA CTGTGTTGAA GATTCACCTC CCTGCCAAAG AAGAGAATGT GATCCTGGTG 
CGGCTTTCTC AGATCCAGCG AGATTTGTAC ACACAATTCA TGGACCGTTT CCGGGATTGT 
GGTACCAGTG GCTGGTTAGG GCTGAATCCT CTGAAGGCTT TCTGTGTATG CTGCAAGATC 
TGGAACCATC CTGATGTGCT GTATGAAGCC CTTCAGAAGG AAAACCTAGC CAATGAGCAA 
GACCTAGATG TGGAAGAACT TGGCTCAGCG GGGACCAGTG CCCGCTGCCC ACCACACGGC 
ACAAAAGTCA AGGGAGAAGA TAGTGCCTTG CCTTCCTCAA TGGGAGAAGC AACCAACAGC 
AAGTTCCTAC AGGGAGTTGG CTTTAACCCT TTCCAGGAAC GGGGCAATAA CATTGTTACA 
TATGAGTGGG CCAAGGAGCT TCTGACTAAT TATCAGACTG GCGTCCTGGA GAACTCTCCC 
AAGATGGTAC TGCTTTTCCA CCTGATTGAA GAAAGTGTGA AGCTCGGGGA CAAGATTCTT 
GTATTTAGCC AGAGCCTTTC TACCTTGGCT CTCATCGAGG AGTTCCTAGG GAAACGAGAC 
ATGCCTTGTC TGCCTGGTGC CGAGGGGCAA GGAACACAGA AGTGGGTTCG AAATGTCAGC 
TACTTCCGGC TAGATGGTAG CACCCCTGCC TTTGAGAGGG AGCGGCTCAT TAATCAGTTC 
AATGATCCCA GCAACCTCAC CACCTGGCTG TTCCTTCTCT CTACAAGGGC CGGATGCTTG 
GGTGTGAATC TGATTGGTGC CAATCGAGTG GTGGTATTCG ATGCTTCCTG GAACCCTTGC 
CATGATGCCC AGGCAGTATG TCGGGTATAC CGTTATGGCC AGAAAAAGCC CTGTCACATC 
TATCGACTTG TGGCTGATTA TACTCTTGAA AAGAAGATCT ATGACCGGCA GATTTCCAAG 
CAGGGCATGT CAGATCGGGT AGTAGATGAT CTAAATCCAA TGCTGAACTT CACCCGGAAG 
GAAGTGGAAA ACCTGCTGCA CTTTGTTGAG AAGGAGCCAG CTCCCCAAAC ATCTTTGGAT 
ATAAAGGGGA TCAAGGAGTC AGTCTTGCAA CTTGCCTGCC TGAAGTACCC TCACCTCATC 
ACCAAGGAGC CTTTTGAGCA CGAGTCATTG CTCCTCAACC GAAAAGATCA CAAGCTGACC 
AAAGCTGAGA AGAAAGCAGC AAAGAAAAGC TATGAGGAGG ACAAACGCAC ATCAGTACCC 
TATACCCGTC CATCATATGC GCAGTATTAC CCTGCCAGCG ACCAGAGCCT GACCAGCATC 
CCTGCCTTCA GTCAGAGGAA CTGGCAGCCA ACACTGAAGG GTGATGAAAA GCCTGTGGCC 
AGCGTTCGTC CTGTACAGTC CACCCCCATT CCCATGATGC CCCGGCATGT CCCACTCAGT 
GGTGGTGTAA GCTCTGCCTC CAGCACAAAT ACATCCATGA ACTTCCCTAT CAACTACTTG 
CAGCGGGCAG GAGTCCTTGT GCAGAAAGTG GTTACCACGA CAGATATTGT TATCCCTGGA 
CTCAACAGCT CCACAGATGT TCAGGCAAGA ATCAATGCTG GTGAGAGCAT CCACATCATC 
CGAGGGACGA AAGGGACATA CATCCGCACC AGTGATGGAC GCATCTTTGC TGTCCGGGCG 
ACCGGCAAAC CAAAGGCCCC TGAAGATGGT CGGATGGCTG CCTCAGGTTC CCAGGGGCCT 
TCTCTTGCGT CCACAAGCAA TGGCAGACAT AGTGCCTCAT CACCCAAAGC CCCTGATCCC 
GAGGGGCTGG CCCGGCCGGT CTCTCCTGAC AGCCCAGAAA TCATCAGTGA ACTCCAGCAG 
TATGCAGATG TGGCCGCTGC TCGGGAATCC CGGCAGAACT CCCCAAGCAT CAGTGCTGCC 
CTGCCTGGCC CCCCGGGCCA ACTTATGGAC AACAGCACCA TTCCTGGGAC AGCTCTTGGA 
ACTGAGCCAT GCCTTGGGGG TCATTGCCTC AATAGTTCCC TCTTGGTGAC TGGCCAGCCC 
AGTGGTGGCA GGCACCCAGT GCTGGACTTA AGGGGCCATA AGCGAAAGTT GGCTACTCCG 
TCTCTCACCC AGGAATCAGT CCGTCGACGG TCTAGGAAGG GCCATCTGCC AGCCCCTGTG 
CAGCCCTATG AACATGGGTA TCCAGTCTCT GGCGGGTTTG CAATGCCGCC TGTCTCCTTA 
AATCATAACC TCACCACCCC CTTCACCTCC CAGGCTGGGG AGAATTCCCT ATTTATGGGC 
AGTAATCCCT CCTACTACCA GCTGTCCAAT TTGTTGGCAG ATGCCCGCCT GGTGTTTCCA 
GTGACTACTG ACCCTCTGGT GCCAGCAGGC CCTGTCAGTT CCTCTTCCAC GGCTACCTCA 
GTCACTGCCA GCAACCCCTC CTTCATGCTC AACCCCTCTG TGCCAGGGAT GCTACCCAGC 
TATTCACTCC CATTCTCACA GCCACTCCTG TCCGAGCCCA GGATGTTTGC GCCTTTCCCT 
TCCCCCGGCT TGCCCAGCAA CCTTTCGCGG GGCGTGTCTG TCTACCCAGG CTATATGTCC 
CCACATGCAG GCTACCCAGC TGGTGGCCTC CTCCGGTCCC AGGTGCCTCC ATTTGACTCA 
CACGAGGTTG CGGAGGTGGG GTTCAGCTCC AATGATGATG AGGATAAAGA TGATGATGTG 
ATAGAGGTCA CTGGGAAGTA G

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

RefSeq	XP_021027112.1
CDS	266..4666
Translation	MSDESASGSDPDLDPDVELEDEEEEEEEEEVAVEEHDRDDEEGLLDDTSLEGMCGTEHAQLGEDGQRPPRCTSTTSSQSEPSEQLRHQGKILASEDPKKKRAQKPSHMRRNIRKLLREDQLEPVTKAAQQEELERRKRLEQQRKEYAAPIPTVPLEFLPEEIVLRASDGPQLPPRVLAQEVICLDSSSGSEDEKSSRDEVIELSSGEEDTLHIVDSSESVSEEDEEEEKGGTHVNDALNQHDALGRVLVNLNHPPEEENVFLAPQLARAVKPHQIGGIRFLYDNLVESLERFKTSSGFGCILAHSMGLGKTLQVISFIDVLFRHTPAKTVLAIVPVNTLQNWLAEFNMWLPAPEALPADSKPEEVQPRFFKVHILNDEHKTVASRAKVTADWVSEGGVLLMGYEMYRLLTLKKSLATSRPKKTKKRSHPVIIDLDEEDRQQEFRREFEKALCRPGPDVVICDEGHRIKNCQASTSQALKNIRSRRRVVLTGYPLQNNLIEYWCMVDFVRPDFLGTRQEFSNMFERPILNGQCIDSTPQDVRLMRYRSHVLHSLLEGFVQRRGHTVLKIHLPAKEENVILVRLSQIQRDLYTQFMDRFRDCGTSGWLGLNPLKAFCVCCKIWNHPDVLYEALQKENLANEQDLDVEELGSAGTSARCPPHGTKVKGEDSALPSSMGEATNSKFLQGVGFNPFQERGNNIVTYEWAKELLTNYQTGVLENSPKMVLLFHLIEESVKLGDKILVFSQSLSTLALIEEFLGKRDMPCLPGAEGQGTQKWVRNVSYFRLDGSTPAFERERLINQFNDPSNLTTWLFLLSTRAGCLGVNLIGANRVVVFDASWNPCHDAQAVCRVYRYGQKKPCHIYRLVADYTLEKKIYDRQISKQGMSDRVVDDLNPMLNFTRKEVENLLHFVEKEPAPQTSLDIKGIKESVLQLACLKYPHLITKEPFEHESLLLNRKDHKLTKAEKKAAKKSYEEDKRTSVPYTRPSYAQYYPASDQSLTSIPAFSQRNWQPTLKGDEKPVASVRPVQSTPIPMMPRHVPLSGGVSSASSTNTSMNFPINYLQRAGVLVQKVVTTTDIVIPGLNSSTDVQARINAGESIHIIRGTKGTYIRTSDGRIFAVRATGKPKAPEDGRMAASGSQGPSLASTSNGRHSASSPKAPDPEGLARPVSPDSPEIISELQQYADVAAARESRQNSPSISAALPGPPGQLMDNSTIPGTALGTEPCLGGHCLNSSLLVTGQPSGGRHPVLDLRGHKRKLATPSLTQESVRRRSRKGHLPAPVQPYEHGYPVSGGFAMPPVSLNHNLTTPFTSQAGENSLFMGSNPSYYQLSNLLADARLVFPVTTDPLVPAGPVSSSSTATSVTASNPSFMLNPSVPGMLPSYSLPFSQPLLSEPRMFAPFPSPGLPSNLSRGVSVYPGYMSPHAGYPAGGLLRSQVPPFDSHEVAEVGFSSNDDEDKDDDVIEVTGK

Target ORF information:

RefSeq Version	XM_021171453.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli RAD54 like 2 (S. cerevisiae) (Rad54l2), mRNA.

Target ORF information:

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

XM_021171453.1

ORF Insert Sequence:

ATGTCAGACG AATCCGCCTC AGGGAGCGAT CCAGACCTGG ACCCGGACGT GGAGCTGGAG 
GATGAGGAAG AGGAGGAGGA GGAGGAGGAG GTGGCAGTGG AGGAGCATGA CAGGGATGAC 
GAGGAAGGCC TGCTGGATGA CACATCCCTG GAAGGCATGT GTGGCACTGA GCATGCCCAG 
CTGGGGGAAG ATGGGCAGCG GCCGCCGCGG TGCACTTCAA CTACCTCATC TCAGTCTGAG 
CCTTCAGAGC AGCTTAGGCA CCAAGGCAAG ATCCTAGCGT CCGAGGACCC CAAAAAGAAG 
CGAGCTCAGA AGCCCTCTCA CATGAGAAGA AACATACGAA AGCTACTCCG GGAGGATCAG 
TTGGAGCCCG TAACCAAAGC AGCACAGCAG GAAGAATTGG AAAGAAGAAA GCGCCTGGAG 
CAGCAGAGGA AAGAATATGC AGCCCCCATT CCTACTGTCC CTTTGGAGTT CCTACCTGAG 
GAAATTGTCT TACGAGCTAG TGATGGTCCC CAACTCCCTC CTCGGGTCTT AGCCCAGGAA 
GTCATTTGTT TGGACAGTAG CAGTGGCAGT GAGGATGAAA AAAGTAGTCG AGACGAGGTA 
ATTGAGCTGA GTTCTGGAGA GGAGGATACG CTGCACATCG TGGACAGCAG TGAGTCTGTC 
AGCGAGGAGG ACGAGGAAGA GGAGAAGGGT GGCACCCATG TGAACGACGC CTTAAACCAG 
CATGATGCTC TCGGGCGGGT CCTTGTCAAC CTGAATCACC CTCCAGAGGA GGAGAATGTC 
TTCCTGGCCC CCCAGTTGGC ACGGGCTGTG AAACCTCATC AGATTGGTGG GATCCGGTTC 
CTATATGATA ACCTAGTGGA GTCCTTAGAA AGGTTTAAGA CCAGTAGTGG CTTTGGCTGT 
ATCCTGGCCC ATAGCATGGG TCTGGGGAAA ACTCTGCAAG TAATCTCCTT CATTGATGTC 
CTTTTCCGCC ATACGCCAGC CAAAACAGTC CTTGCCATTG TGCCGGTGAA CACTCTTCAG 
AATTGGTTGG CAGAGTTCAA CATGTGGCTC CCGGCTCCTG AAGCCCTCCC AGCCGACAGC 
AAGCCTGAAG AAGTCCAGCC TCGGTTCTTT AAAGTTCATA TCTTGAATGA TGAACACAAG 
ACGGTGGCAT CCCGTGCTAA AGTGACGGCT GATTGGGTTT CAGAGGGTGG AGTGCTGCTG 
ATGGGGTATG AGATGTACAG ACTACTCACG CTGAAGAAGT CCTTAGCCAC AAGTAGGCCG 
AAGAAAACCA AGAAACGCTC TCATCCCGTC ATCATTGATC TGGATGAAGA AGACCGGCAG 
CAGGAGTTCC GGAGAGAGTT TGAGAAGGCC TTATGCCGCC CTGGTCCTGA TGTGGTGATC 
TGTGACGAGG GACACCGCAT CAAAAATTGC CAAGCCAGCA CCTCACAGGC TCTGAAGAAC 
ATACGTTCTC GTCGGCGGGT AGTGCTGACT GGCTACCCTC TACAGAACAA CCTCATTGAG 
TACTGGTGCA TGGTGGACTT TGTGCGCCCA GATTTCCTTG GTACTCGTCA GGAGTTTAGC 
AACATGTTTG AACGCCCTAT CCTAAACGGA CAGTGTATTG ACAGCACACC TCAGGATGTC 
CGCCTCATGC GCTACCGGAG CCATGTTTTG CACAGCCTCC TGGAGGGCTT TGTGCAGAGG 
AGAGGCCACA CTGTGTTGAA GATTCACCTC CCTGCCAAAG AAGAGAATGT GATCCTGGTG 
CGGCTTTCTC AGATCCAGCG AGATTTGTAC ACACAATTCA TGGACCGTTT CCGGGATTGT 
GGTACCAGTG GCTGGTTAGG GCTGAATCCT CTGAAGGCTT TCTGTGTATG CTGCAAGATC 
TGGAACCATC CTGATGTGCT GTATGAAGCC CTTCAGAAGG AAAACCTAGC CAATGAGCAA 
GACCTAGATG TGGAAGAACT TGGCTCAGCG GGGACCAGTG CCCGCTGCCC ACCACACGGC 
ACAAAAGTCA AGGGAGAAGA TAGTGCCTTG CCTTCCTCAA TGGGAGAAGC AACCAACAGC 
AAGTTCCTAC AGGGAGTTGG CTTTAACCCT TTCCAGGAAC GGGGCAATAA CATTGTTACA 
TATGAGTGGG CCAAGGAGCT TCTGACTAAT TATCAGACTG GCGTCCTGGA GAACTCTCCC 
AAGATGGTAC TGCTTTTCCA CCTGATTGAA GAAAGTGTGA AGCTCGGGGA CAAGATTCTT 
GTATTTAGCC AGAGCCTTTC TACCTTGGCT CTCATCGAGG AGTTCCTAGG GAAACGAGAC 
ATGCCTTGTC TGCCTGGTGC CGAGGGGCAA GGAACACAGA AGTGGGTTCG AAATGTCAGC 
TACTTCCGGC TAGATGGTAG CACCCCTGCC TTTGAGAGGG AGCGGCTCAT TAATCAGTTC 
AATGATCCCA GCAACCTCAC CACCTGGCTG TTCCTTCTCT CTACAAGGGC CGGATGCTTG 
GGTGTGAATC TGATTGGTGC CAATCGAGTG GTGGTATTCG ATGCTTCCTG GAACCCTTGC 
CATGATGCCC AGGCAGTATG TCGGGTATAC CGTTATGGCC AGAAAAAGCC CTGTCACATC 
TATCGACTTG TGGCTGATTA TACTCTTGAA AAGAAGATCT ATGACCGGCA GATTTCCAAG 
CAGGGCATGT CAGATCGGGT AGTAGATGAT CTAAATCCAA TGCTGAACTT CACCCGGAAG 
GAAGTGGAAA ACCTGCTGCA CTTTGTTGAG AAGGAGCCAG CTCCCCAAAC ATCTTTGGAT 
ATAAAGGGGA TCAAGGAGTC AGTCTTGCAA CTTGCCTGCC TGAAGTACCC TCACCTCATC 
ACCAAGGAGC CTTTTGAGCA CGAGTCATTG CTCCTCAACC GAAAAGATCA CAAGCTGACC 
AAAGCTGAGA AGAAAGCAGC AAAGAAAAGC TATGAGGAGG ACAAACGCAC ATCAGTACCC 
TATACCCGTC CATCATATGC GCAGTATTAC CCTGCCAGCG ACCAGAGCCT GACCAGCATC 
CCTGCCTTCA GTCAGAGGAA CTGGCAGCCA ACACTGAAGG GTGATGAAAA GCCTGTGGCC 
AGCGTTCGTC CTGTACAGTC CACCCCCATT CCCATGATGC CCCGGCATGT CCCACTCAGT 
GGTGGTGTAA GCTCTGCCTC CAGCACAAAT ACATCCATGA ACTTCCCTAT CAACTACTTG 
CAGCGGGCAG GAGTCCTTGT GCAGAAAGTG GTTACCACGA CAGATATTGT TATCCCTGGA 
CTCAACAGCT CCACAGATGT TCAGGCAAGA ATCAATGCTG GTGAGAGCAT CCACATCATC 
CGAGGGACGA AAGGGACATA CATCCGCACC AGTGATGGAC GCATCTTTGC TGTCCGGGCG 
ACCGGCAAAC CAAAGGCCCC TGAAGATGGT CGGATGGCTG CCTCAGGTTC CCAGGGGCCT 
TCTCTTGCGT CCACAAGCAA TGGCAGACAT AGTGCCTCAT CACCCAAAGC CCCTGATCCC 
GAGGGGCTGG CCCGGCCGGT CTCTCCTGAC AGCCCAGAAA TCATCAGTGA ACTCCAGCAG 
TATGCAGATG TGGCCGCTGC TCGGGAATCC CGGCAGAACT CCCCAAGCAT CAGTGCTGCC 
CTGCCTGGCC CCCCGGGCCA ACTTATGGAC AACAGCACCA TTCCTGGGAC AGCTCTTGGA 
ACTGAGCCAT GCCTTGGGGG TCATTGCCTC AATAGTTCCC TCTTGGTGAC TGGCCAGCCC 
AGTGGTGGCA GGCACCCAGT GCTGGACTTA AGGGGCCATA AGCGAAAGTT GGCTACTCCG 
TCTCTCACCC AGGAATCAGT CCGTCGACGG TCTAGGAAGG GCCATCTGCC AGCCCCTGTG 
CAGCCCTATG AACATGGGTA TCCAGTCTCT GGCGGGTTTG CAATGCCGCC TGTCTCCTTA 
AATCATAACC TCACCACCCC CTTCACCTCC CAGGCTGGGG AGAATTCCCT ATTTATGGGC 
AGTAATCCCT CCTACTACCA GCTGTCCAAT TTGTTGGCAG ATGCCCGCCT GGTGTTTCCA 
GTGACTACTG ACCCTCTGGT GCCAGCAGGC CCTGTCAGTT CCTCTTCCAC GGCTACCTCA 
GTCACTGCCA GCAACCCCTC CTTCATGCTC AACCCCTCTG TGCCAGGGAT GCTACCCAGC 
TATTCACTCC CATTCTCACA GCCACTCCTG TCCGAGCCCA GGATGTTTGC GCCTTTCCCT 
TCCCCCGGCT TGCCCAGCAA CCTTTCGCGG GGCGTGTCTG TCTACCCAGG CTATATGTCC 
CCACATGCAG GCTACCCAGC TGGTGGCCTC CTCCGGTCCC AGGTGCCTCC ATTTGACTCA 
CACGAGGTTG CGGAGGTGGG GTTCAGCTCC AATGATGATG AGGATAAAGA TGATGATGTG 
ATAGAGGTCA CTGGGAAGTA G

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

Rad54l2 ( XM_021171453.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021027112.1 Mus caroli RAD54 like 2 (Rad54l2), mRNA.

Price & Availability↑

CloneID	OMv08053
Clone ID Related Accession (Same CDS sequence)	XM_021171453.1 , XM_021171453.2
Accession Version	XM_021171453.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4401bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	helicase ARIP4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021171453.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGACG AATCCGCCTC AGGGAGCGAT CCAGACCTGG ACCCGGACGT GGAGCTGGAG 
GATGAGGAAG AGGAGGAGGA GGAGGAGGAG GTGGCAGTGG AGGAGCATGA CAGGGATGAC 
GAGGAAGGCC TGCTGGATGA CACATCCCTG GAAGGCATGT GTGGCACTGA GCATGCCCAG 
CTGGGGGAAG ATGGGCAGCG GCCGCCGCGG TGCACTTCAA CTACCTCATC TCAGTCTGAG 
CCTTCAGAGC AGCTTAGGCA CCAAGGCAAG ATCCTAGCGT CCGAGGACCC CAAAAAGAAG 
CGAGCTCAGA AGCCCTCTCA CATGAGAAGA AACATACGAA AGCTACTCCG GGAGGATCAG 
TTGGAGCCCG TAACCAAAGC AGCACAGCAG GAAGAATTGG AAAGAAGAAA GCGCCTGGAG 
CAGCAGAGGA AAGAATATGC AGCCCCCATT CCTACTGTCC CTTTGGAGTT CCTACCTGAG 
GAAATTGTCT TACGAGCTAG TGATGGTCCC CAACTCCCTC CTCGGGTCTT AGCCCAGGAA 
GTCATTTGTT TGGACAGTAG CAGTGGCAGT GAGGATGAAA AAAGTAGTCG AGACGAGGTA 
ATTGAGCTGA GTTCTGGAGA GGAGGATACG CTGCACATCG TGGACAGCAG TGAGTCTGTC 
AGCGAGGAGG ACGAGGAAGA GGAGAAGGGT GGCACCCATG TGAACGACGC CTTAAACCAG 
CATGATGCTC TCGGGCGGGT CCTTGTCAAC CTGAATCACC CTCCAGAGGA GGAGAATGTC 
TTCCTGGCCC CCCAGTTGGC ACGGGCTGTG AAACCTCATC AGATTGGTGG GATCCGGTTC 
CTATATGATA ACCTAGTGGA GTCCTTAGAA AGGTTTAAGA CCAGTAGTGG CTTTGGCTGT 
ATCCTGGCCC ATAGCATGGG TCTGGGGAAA ACTCTGCAAG TAATCTCCTT CATTGATGTC 
CTTTTCCGCC ATACGCCAGC CAAAACAGTC CTTGCCATTG TGCCGGTGAA CACTCTTCAG 
AATTGGTTGG CAGAGTTCAA CATGTGGCTC CCGGCTCCTG AAGCCCTCCC AGCCGACAGC 
AAGCCTGAAG AAGTCCAGCC TCGGTTCTTT AAAGTTCATA TCTTGAATGA TGAACACAAG 
ACGGTGGCAT CCCGTGCTAA AGTGACGGCT GATTGGGTTT CAGAGGGTGG AGTGCTGCTG 
ATGGGGTATG AGATGTACAG ACTACTCACG CTGAAGAAGT CCTTAGCCAC AAGTAGGCCG 
AAGAAAACCA AGAAACGCTC TCATCCCGTC ATCATTGATC TGGATGAAGA AGACCGGCAG 
CAGGAGTTCC GGAGAGAGTT TGAGAAGGCC TTATGCCGCC CTGGTCCTGA TGTGGTGATC 
TGTGACGAGG GACACCGCAT CAAAAATTGC CAAGCCAGCA CCTCACAGGC TCTGAAGAAC 
ATACGTTCTC GTCGGCGGGT AGTGCTGACT GGCTACCCTC TACAGAACAA CCTCATTGAG 
TACTGGTGCA TGGTGGACTT TGTGCGCCCA GATTTCCTTG GTACTCGTCA GGAGTTTAGC 
AACATGTTTG AACGCCCTAT CCTAAACGGA CAGTGTATTG ACAGCACACC TCAGGATGTC 
CGCCTCATGC GCTACCGGAG CCATGTTTTG CACAGCCTCC TGGAGGGCTT TGTGCAGAGG 
AGAGGCCACA CTGTGTTGAA GATTCACCTC CCTGCCAAAG AAGAGAATGT GATCCTGGTG 
CGGCTTTCTC AGATCCAGCG AGATTTGTAC ACACAATTCA TGGACCGTTT CCGGGATTGT 
GGTACCAGTG GCTGGTTAGG GCTGAATCCT CTGAAGGCTT TCTGTGTATG CTGCAAGATC 
TGGAACCATC CTGATGTGCT GTATGAAGCC CTTCAGAAGG AAAACCTAGC CAATGAGCAA 
GACCTAGATG TGGAAGAACT TGGCTCAGCG GGGACCAGTG CCCGCTGCCC ACCACACGGC 
ACAAAAGTCA AGGGAGAAGA TAGTGCCTTG CCTTCCTCAA TGGGAGAAGC AACCAACAGC 
AAGTTCCTAC AGGGAGTTGG CTTTAACCCT TTCCAGGAAC GGGGCAATAA CATTGTTACA 
TATGAGTGGG CCAAGGAGCT TCTGACTAAT TATCAGACTG GCGTCCTGGA GAACTCTCCC 
AAGATGGTAC TGCTTTTCCA CCTGATTGAA GAAAGTGTGA AGCTCGGGGA CAAGATTCTT 
GTATTTAGCC AGAGCCTTTC TACCTTGGCT CTCATCGAGG AGTTCCTAGG GAAACGAGAC 
ATGCCTTGTC TGCCTGGTGC CGAGGGGCAA GGAACACAGA AGTGGGTTCG AAATGTCAGC 
TACTTCCGGC TAGATGGTAG CACCCCTGCC TTTGAGAGGG AGCGGCTCAT TAATCAGTTC 
AATGATCCCA GCAACCTCAC CACCTGGCTG TTCCTTCTCT CTACAAGGGC CGGATGCTTG 
GGTGTGAATC TGATTGGTGC CAATCGAGTG GTGGTATTCG ATGCTTCCTG GAACCCTTGC 
CATGATGCCC AGGCAGTATG TCGGGTATAC CGTTATGGCC AGAAAAAGCC CTGTCACATC 
TATCGACTTG TGGCTGATTA TACTCTTGAA AAGAAGATCT ATGACCGGCA GATTTCCAAG 
CAGGGCATGT CAGATCGGGT AGTAGATGAT CTAAATCCAA TGCTGAACTT CACCCGGAAG 
GAAGTGGAAA ACCTGCTGCA CTTTGTTGAG AAGGAGCCAG CTCCCCAAAC ATCTTTGGAT 
ATAAAGGGGA TCAAGGAGTC AGTCTTGCAA CTTGCCTGCC TGAAGTACCC TCACCTCATC 
ACCAAGGAGC CTTTTGAGCA CGAGTCATTG CTCCTCAACC GAAAAGATCA CAAGCTGACC 
AAAGCTGAGA AGAAAGCAGC AAAGAAAAGC TATGAGGAGG ACAAACGCAC ATCAGTACCC 
TATACCCGTC CATCATATGC GCAGTATTAC CCTGCCAGCG ACCAGAGCCT GACCAGCATC 
CCTGCCTTCA GTCAGAGGAA CTGGCAGCCA ACACTGAAGG GTGATGAAAA GCCTGTGGCC 
AGCGTTCGTC CTGTACAGTC CACCCCCATT CCCATGATGC CCCGGCATGT CCCACTCAGT 
GGTGGTGTAA GCTCTGCCTC CAGCACAAAT ACATCCATGA ACTTCCCTAT CAACTACTTG 
CAGCGGGCAG GAGTCCTTGT GCAGAAAGTG GTTACCACGA CAGATATTGT TATCCCTGGA 
CTCAACAGCT CCACAGATGT TCAGGCAAGA ATCAATGCTG GTGAGAGCAT CCACATCATC 
CGAGGGACGA AAGGGACATA CATCCGCACC AGTGATGGAC GCATCTTTGC TGTCCGGGCG 
ACCGGCAAAC CAAAGGCCCC TGAAGATGGT CGGATGGCTG CCTCAGGTTC CCAGGGGCCT 
TCTCTTGCGT CCACAAGCAA TGGCAGACAT AGTGCCTCAT CACCCAAAGC CCCTGATCCC 
GAGGGGCTGG CCCGGCCGGT CTCTCCTGAC AGCCCAGAAA TCATCAGTGA ACTCCAGCAG 
TATGCAGATG TGGCCGCTGC TCGGGAATCC CGGCAGAACT CCCCAAGCAT CAGTGCTGCC 
CTGCCTGGCC CCCCGGGCCA ACTTATGGAC AACAGCACCA TTCCTGGGAC AGCTCTTGGA 
ACTGAGCCAT GCCTTGGGGG TCATTGCCTC AATAGTTCCC TCTTGGTGAC TGGCCAGCCC 
AGTGGTGGCA GGCACCCAGT GCTGGACTTA AGGGGCCATA AGCGAAAGTT GGCTACTCCG 
TCTCTCACCC AGGAATCAGT CCGTCGACGG TCTAGGAAGG GCCATCTGCC AGCCCCTGTG 
CAGCCCTATG AACATGGGTA TCCAGTCTCT GGCGGGTTTG CAATGCCGCC TGTCTCCTTA 
AATCATAACC TCACCACCCC CTTCACCTCC CAGGCTGGGG AGAATTCCCT ATTTATGGGC 
AGTAATCCCT CCTACTACCA GCTGTCCAAT TTGTTGGCAG ATGCCCGCCT GGTGTTTCCA 
GTGACTACTG ACCCTCTGGT GCCAGCAGGC CCTGTCAGTT CCTCTTCCAC GGCTACCTCA 
GTCACTGCCA GCAACCCCTC CTTCATGCTC AACCCCTCTG TGCCAGGGAT GCTACCCAGC 
TATTCACTCC CATTCTCACA GCCACTCCTG TCCGAGCCCA GGATGTTTGC GCCTTTCCCT 
TCCCCCGGCT TGCCCAGCAA CCTTTCGCGG GGCGTGTCTG TCTACCCAGG CTATATGTCC 
CCACATGCAG GCTACCCAGC TGGTGGCCTC CTCCGGTCCC AGGTGCCTCC ATTTGACTCA 
CACGAGGTTG CGGAGGTGGG GTTCAGCTCC AATGATGATG AGGATAAAGA TGATGATGTG 
ATAGAGGTCA CTGGGAAGTA G

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

RefSeq	XP_021027112.1
CDS	266..4666
Translation	MSDESASGSDPDLDPDVELEDEEEEEEEEEVAVEEHDRDDEEGLLDDTSLEGMCGTEHAQLGEDGQRPPRCTSTTSSQSEPSEQLRHQGKILASEDPKKKRAQKPSHMRRNIRKLLREDQLEPVTKAAQQEELERRKRLEQQRKEYAAPIPTVPLEFLPEEIVLRASDGPQLPPRVLAQEVICLDSSSGSEDEKSSRDEVIELSSGEEDTLHIVDSSESVSEEDEEEEKGGTHVNDALNQHDALGRVLVNLNHPPEEENVFLAPQLARAVKPHQIGGIRFLYDNLVESLERFKTSSGFGCILAHSMGLGKTLQVISFIDVLFRHTPAKTVLAIVPVNTLQNWLAEFNMWLPAPEALPADSKPEEVQPRFFKVHILNDEHKTVASRAKVTADWVSEGGVLLMGYEMYRLLTLKKSLATSRPKKTKKRSHPVIIDLDEEDRQQEFRREFEKALCRPGPDVVICDEGHRIKNCQASTSQALKNIRSRRRVVLTGYPLQNNLIEYWCMVDFVRPDFLGTRQEFSNMFERPILNGQCIDSTPQDVRLMRYRSHVLHSLLEGFVQRRGHTVLKIHLPAKEENVILVRLSQIQRDLYTQFMDRFRDCGTSGWLGLNPLKAFCVCCKIWNHPDVLYEALQKENLANEQDLDVEELGSAGTSARCPPHGTKVKGEDSALPSSMGEATNSKFLQGVGFNPFQERGNNIVTYEWAKELLTNYQTGVLENSPKMVLLFHLIEESVKLGDKILVFSQSLSTLALIEEFLGKRDMPCLPGAEGQGTQKWVRNVSYFRLDGSTPAFERERLINQFNDPSNLTTWLFLLSTRAGCLGVNLIGANRVVVFDASWNPCHDAQAVCRVYRYGQKKPCHIYRLVADYTLEKKIYDRQISKQGMSDRVVDDLNPMLNFTRKEVENLLHFVEKEPAPQTSLDIKGIKESVLQLACLKYPHLITKEPFEHESLLLNRKDHKLTKAEKKAAKKSYEEDKRTSVPYTRPSYAQYYPASDQSLTSIPAFSQRNWQPTLKGDEKPVASVRPVQSTPIPMMPRHVPLSGGVSSASSTNTSMNFPINYLQRAGVLVQKVVTTTDIVIPGLNSSTDVQARINAGESIHIIRGTKGTYIRTSDGRIFAVRATGKPKAPEDGRMAASGSQGPSLASTSNGRHSASSPKAPDPEGLARPVSPDSPEIISELQQYADVAAARESRQNSPSISAALPGPPGQLMDNSTIPGTALGTEPCLGGHCLNSSLLVTGQPSGGRHPVLDLRGHKRKLATPSLTQESVRRRSRKGHLPAPVQPYEHGYPVSGGFAMPPVSLNHNLTTPFTSQAGENSLFMGSNPSYYQLSNLLADARLVFPVTTDPLVPAGPVSSSSTATSVTASNPSFMLNPSVPGMLPSYSLPFSQPLLSEPRMFAPFPSPGLPSNLSRGVSVYPGYMSPHAGYPAGGLLRSQVPPFDSHEVAEVGFSSNDDEDKDDDVIEVTGK

Target ORF information:

RefSeq Version	XM_021171453.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli RAD54 like 2 (Rad54l2), mRNA.

Target ORF information:

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

XM_021171453.2

ORF Insert Sequence:

ATGTCAGACG AATCCGCCTC AGGGAGCGAT CCAGACCTGG ACCCGGACGT GGAGCTGGAG 
GATGAGGAAG AGGAGGAGGA GGAGGAGGAG GTGGCAGTGG AGGAGCATGA CAGGGATGAC 
GAGGAAGGCC TGCTGGATGA CACATCCCTG GAAGGCATGT GTGGCACTGA GCATGCCCAG 
CTGGGGGAAG ATGGGCAGCG GCCGCCGCGG TGCACTTCAA CTACCTCATC TCAGTCTGAG 
CCTTCAGAGC AGCTTAGGCA CCAAGGCAAG ATCCTAGCGT CCGAGGACCC CAAAAAGAAG 
CGAGCTCAGA AGCCCTCTCA CATGAGAAGA AACATACGAA AGCTACTCCG GGAGGATCAG 
TTGGAGCCCG TAACCAAAGC AGCACAGCAG GAAGAATTGG AAAGAAGAAA GCGCCTGGAG 
CAGCAGAGGA AAGAATATGC AGCCCCCATT CCTACTGTCC CTTTGGAGTT CCTACCTGAG 
GAAATTGTCT TACGAGCTAG TGATGGTCCC CAACTCCCTC CTCGGGTCTT AGCCCAGGAA 
GTCATTTGTT TGGACAGTAG CAGTGGCAGT GAGGATGAAA AAAGTAGTCG AGACGAGGTA 
ATTGAGCTGA GTTCTGGAGA GGAGGATACG CTGCACATCG TGGACAGCAG TGAGTCTGTC 
AGCGAGGAGG ACGAGGAAGA GGAGAAGGGT GGCACCCATG TGAACGACGC CTTAAACCAG 
CATGATGCTC TCGGGCGGGT CCTTGTCAAC CTGAATCACC CTCCAGAGGA GGAGAATGTC 
TTCCTGGCCC CCCAGTTGGC ACGGGCTGTG AAACCTCATC AGATTGGTGG GATCCGGTTC 
CTATATGATA ACCTAGTGGA GTCCTTAGAA AGGTTTAAGA CCAGTAGTGG CTTTGGCTGT 
ATCCTGGCCC ATAGCATGGG TCTGGGGAAA ACTCTGCAAG TAATCTCCTT CATTGATGTC 
CTTTTCCGCC ATACGCCAGC CAAAACAGTC CTTGCCATTG TGCCGGTGAA CACTCTTCAG 
AATTGGTTGG CAGAGTTCAA CATGTGGCTC CCGGCTCCTG AAGCCCTCCC AGCCGACAGC 
AAGCCTGAAG AAGTCCAGCC TCGGTTCTTT AAAGTTCATA TCTTGAATGA TGAACACAAG 
ACGGTGGCAT CCCGTGCTAA AGTGACGGCT GATTGGGTTT CAGAGGGTGG AGTGCTGCTG 
ATGGGGTATG AGATGTACAG ACTACTCACG CTGAAGAAGT CCTTAGCCAC AAGTAGGCCG 
AAGAAAACCA AGAAACGCTC TCATCCCGTC ATCATTGATC TGGATGAAGA AGACCGGCAG 
CAGGAGTTCC GGAGAGAGTT TGAGAAGGCC TTATGCCGCC CTGGTCCTGA TGTGGTGATC 
TGTGACGAGG GACACCGCAT CAAAAATTGC CAAGCCAGCA CCTCACAGGC TCTGAAGAAC 
ATACGTTCTC GTCGGCGGGT AGTGCTGACT GGCTACCCTC TACAGAACAA CCTCATTGAG 
TACTGGTGCA TGGTGGACTT TGTGCGCCCA GATTTCCTTG GTACTCGTCA GGAGTTTAGC 
AACATGTTTG AACGCCCTAT CCTAAACGGA CAGTGTATTG ACAGCACACC TCAGGATGTC 
CGCCTCATGC GCTACCGGAG CCATGTTTTG CACAGCCTCC TGGAGGGCTT TGTGCAGAGG 
AGAGGCCACA CTGTGTTGAA GATTCACCTC CCTGCCAAAG AAGAGAATGT GATCCTGGTG 
CGGCTTTCTC AGATCCAGCG AGATTTGTAC ACACAATTCA TGGACCGTTT CCGGGATTGT 
GGTACCAGTG GCTGGTTAGG GCTGAATCCT CTGAAGGCTT TCTGTGTATG CTGCAAGATC 
TGGAACCATC CTGATGTGCT GTATGAAGCC CTTCAGAAGG AAAACCTAGC CAATGAGCAA 
GACCTAGATG TGGAAGAACT TGGCTCAGCG GGGACCAGTG CCCGCTGCCC ACCACACGGC 
ACAAAAGTCA AGGGAGAAGA TAGTGCCTTG CCTTCCTCAA TGGGAGAAGC AACCAACAGC 
AAGTTCCTAC AGGGAGTTGG CTTTAACCCT TTCCAGGAAC GGGGCAATAA CATTGTTACA 
TATGAGTGGG CCAAGGAGCT TCTGACTAAT TATCAGACTG GCGTCCTGGA GAACTCTCCC 
AAGATGGTAC TGCTTTTCCA CCTGATTGAA GAAAGTGTGA AGCTCGGGGA CAAGATTCTT 
GTATTTAGCC AGAGCCTTTC TACCTTGGCT CTCATCGAGG AGTTCCTAGG GAAACGAGAC 
ATGCCTTGTC TGCCTGGTGC CGAGGGGCAA GGAACACAGA AGTGGGTTCG AAATGTCAGC 
TACTTCCGGC TAGATGGTAG CACCCCTGCC TTTGAGAGGG AGCGGCTCAT TAATCAGTTC 
AATGATCCCA GCAACCTCAC CACCTGGCTG TTCCTTCTCT CTACAAGGGC CGGATGCTTG 
GGTGTGAATC TGATTGGTGC CAATCGAGTG GTGGTATTCG ATGCTTCCTG GAACCCTTGC 
CATGATGCCC AGGCAGTATG TCGGGTATAC CGTTATGGCC AGAAAAAGCC CTGTCACATC 
TATCGACTTG TGGCTGATTA TACTCTTGAA AAGAAGATCT ATGACCGGCA GATTTCCAAG 
CAGGGCATGT CAGATCGGGT AGTAGATGAT CTAAATCCAA TGCTGAACTT CACCCGGAAG 
GAAGTGGAAA ACCTGCTGCA CTTTGTTGAG AAGGAGCCAG CTCCCCAAAC ATCTTTGGAT 
ATAAAGGGGA TCAAGGAGTC AGTCTTGCAA CTTGCCTGCC TGAAGTACCC TCACCTCATC 
ACCAAGGAGC CTTTTGAGCA CGAGTCATTG CTCCTCAACC GAAAAGATCA CAAGCTGACC 
AAAGCTGAGA AGAAAGCAGC AAAGAAAAGC TATGAGGAGG ACAAACGCAC ATCAGTACCC 
TATACCCGTC CATCATATGC GCAGTATTAC CCTGCCAGCG ACCAGAGCCT GACCAGCATC 
CCTGCCTTCA GTCAGAGGAA CTGGCAGCCA ACACTGAAGG GTGATGAAAA GCCTGTGGCC 
AGCGTTCGTC CTGTACAGTC CACCCCCATT CCCATGATGC CCCGGCATGT CCCACTCAGT 
GGTGGTGTAA GCTCTGCCTC CAGCACAAAT ACATCCATGA ACTTCCCTAT CAACTACTTG 
CAGCGGGCAG GAGTCCTTGT GCAGAAAGTG GTTACCACGA CAGATATTGT TATCCCTGGA 
CTCAACAGCT CCACAGATGT TCAGGCAAGA ATCAATGCTG GTGAGAGCAT CCACATCATC 
CGAGGGACGA AAGGGACATA CATCCGCACC AGTGATGGAC GCATCTTTGC TGTCCGGGCG 
ACCGGCAAAC CAAAGGCCCC TGAAGATGGT CGGATGGCTG CCTCAGGTTC CCAGGGGCCT 
TCTCTTGCGT CCACAAGCAA TGGCAGACAT AGTGCCTCAT CACCCAAAGC CCCTGATCCC 
GAGGGGCTGG CCCGGCCGGT CTCTCCTGAC AGCCCAGAAA TCATCAGTGA ACTCCAGCAG 
TATGCAGATG TGGCCGCTGC TCGGGAATCC CGGCAGAACT CCCCAAGCAT CAGTGCTGCC 
CTGCCTGGCC CCCCGGGCCA ACTTATGGAC AACAGCACCA TTCCTGGGAC AGCTCTTGGA 
ACTGAGCCAT GCCTTGGGGG TCATTGCCTC AATAGTTCCC TCTTGGTGAC TGGCCAGCCC 
AGTGGTGGCA GGCACCCAGT GCTGGACTTA AGGGGCCATA AGCGAAAGTT GGCTACTCCG 
TCTCTCACCC AGGAATCAGT CCGTCGACGG TCTAGGAAGG GCCATCTGCC AGCCCCTGTG 
CAGCCCTATG AACATGGGTA TCCAGTCTCT GGCGGGTTTG CAATGCCGCC TGTCTCCTTA 
AATCATAACC TCACCACCCC CTTCACCTCC CAGGCTGGGG AGAATTCCCT ATTTATGGGC 
AGTAATCCCT CCTACTACCA GCTGTCCAAT TTGTTGGCAG ATGCCCGCCT GGTGTTTCCA 
GTGACTACTG ACCCTCTGGT GCCAGCAGGC CCTGTCAGTT CCTCTTCCAC GGCTACCTCA 
GTCACTGCCA GCAACCCCTC CTTCATGCTC AACCCCTCTG TGCCAGGGAT GCTACCCAGC 
TATTCACTCC CATTCTCACA GCCACTCCTG TCCGAGCCCA GGATGTTTGC GCCTTTCCCT 
TCCCCCGGCT TGCCCAGCAA CCTTTCGCGG GGCGTGTCTG TCTACCCAGG CTATATGTCC 
CCACATGCAG GCTACCCAGC TGGTGGCCTC CTCCGGTCCC AGGTGCCTCC ATTTGACTCA 
CACGAGGTTG CGGAGGTGGG GTTCAGCTCC AATGATGATG AGGATAAAGA TGATGATGTG 
ATAGAGGTCA CTGGGAAGTA G