Cps1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Cps1
Entrez Gene ID	110289777
Full Name	carbamoyl-phosphate synthase 1
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021156158.2	XP_021011817.1	LOW QUALITY PROTEIN: carbamoyl-phosphate synthase [ammonia], mitochondrial
XM_021156158.1	XP_021011817.1	LOW QUALITY PROTEIN: carbamoyl-phosphate synthase [ammonia], mitochondrial

Pathways from BioSystems
Gene Ontology

The following Cps1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cps1 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)
OMv22653	XM_021156158.2 Latest version!	Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
View Old Accession Versions >>
OMv22653	XM_021156158.1	Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

Cps1 ( XM_021156158.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021011817.1 Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.

Price & Availability↑

CloneID	OMv22653
Clone ID Related Accession (Same CDS sequence)	XM_021156158.2 , XM_021156158.1
Accession Version	XM_021156158.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4485bp) 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	LOW QUALITY PROTEIN: carbamoyl-phosphate synthase [ammonia], mitochondrial
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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_021156158.1. ##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## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGACGAGGA TTTTGACAGC TTGCAAAGTG GTGAAGACAC TGAAGAGTGG CTTTGGTTTT 
GCCAATGTGA CTACGAAGCG ACAGTGGGAC TTCTCCAGAC CTGGCATCAG GCTCCTTTCT 
GTGAAGGCAA AGACAGCACA CATTGTTCTG GAAGATGGAA CCAAGATGAA AGGCTACTCC 
TTTGGCCATC CCTCCTCTGT TGCTGGTGAA GTGGTTTTTA ATACTGGCTT AGGAGGGTAC 
CCGGAAGCAC TTACTGATCC TGCCTACAAG GGCCAGATCC TCACCATGGC CAACCCTATC 
ATTGGGAATG GTGGGGCTCC CGACACCACT GCCCGAGACG AACTGGGACT GAATAAGTAC 
ATGGAGTCTG ATGGGATCAA GGTGGCAGGT CTGCTGGTTC TGAATTACAG TAATGACTAT 
AACCACTGGC TGGCTACCAA GAGTCTGGGT CAATGGCTGC AGGAGGAGAA GGTCCCTGCA 
ATTTATGGAG TGGATACAAG AATGCTGACT AAAATAATTC GGGATAAGGG TACCATGCTT 
GGGAAGATTG AATTTGAAGG CCAGTCTGTG GATTTTGTGG ATCCCAATAA GCAGAATTTG 
ATTGCTGAGG TTTCAACCAA GGATGTCAAG GTGTTTGGCA AAGGAAACCC CACGAAAGTG 
GTAGCTGTGG ACTGTGGGAT AAAAAACAAT GTCATCCGCT TGCTAGTTAA GCGAGGAGCT 
GAAGTGCATT TGGTCCCCTG GAATCACGAC TTCACCCAGA TGGAGTACGA TGGACTTTTG 
ATTGCTGGGG GACCTGGGAA TCCAGCTCTT GCACAGCCAC TAATTCAGAA TGTGAAAAAG 
ATTTTGGAGA GTGACCGCAA AGAGCCATTG TTTGGAATCA GTACAGGAAA CATAATAACA 
GGATTGGCTG CTGGTGCCAA ATCCTACAAG ATGTCCATGG CCAACAGAGG ACAGAACCAA 
CCTGTTTTGA ATATCACAAA CAGACAGGCT TTCATAACTG CTCAGAATCA TGGCTATGCT 
CTGGACAACA CACTCCCTGC TGGCTGGAAA CCACTGTTTG TGAATGTCAA TGATCAAACA 
AATGAGGGGA TTATGCATGA GAGCAAACCT TTCTTCGCTG TGCAGTTCCA CCCAGAGGTC 
AGCCCGGGGC CAACAGACAC TGAGTACCTA TTTGATTCCT TCTTCTCCCT GATAAAGAAG 
GGCAAAGGCA CCACCATTAC CTCAGTTCTG CCCAAGCCAG CGTTGGTGGC ATCTCGTGTC 
GAGGTCAGTA GATGTGGACT TGGTTTTGGT TTTGCATTTG AATGGGAACA TTTAGGTTAG 
AACACTCGAT TCTTCTTCCA GGAAGAAAAT GTCAAAACAG TCCTGATGAA CCCAAACATC 
GCATCTGTGC AGACCAACGA GGTGGGATTG AAGCAGGCAG ATGCAGTCTA CTTTCTCCCT 
ATTACCCCCC AGTTTGTCAC AGAAGTTATC AAGGCTGAAC GGCCTGATGG GCTGATTCTG 
GGCATGGGTG GCCAGACAGC TCTGAACTGT GGAGTGGAAC TATTCAAGAG GGGTGTGCTC 
AAGGAATATG GTGTGAAGGT CTTGGGAACA TCAGTTGAGT CCATTATGGC CACAGAAGAC 
AGGCAGCTTT TCTCAGACAA GCTGAATGAG ATCAACGAGA AGATTGCTCC CAGTTTTGCA 
GTGGAATCAA TGGAGGATGC CTTGAAGGCA GCAGACACCA TTGGCTACCC TGTGATGATT 
CGGTCTGCAT ATGCTCTGGG TGGCTTAGGC TCTGGCATCT GTCCCAATAA GGAGACCTTA 
ATAGACCTTG GCACAAAAGC ATTCGCTATG ACCAACCAGA TCCTGGTGGA GCGGTCAGTG 
ACAGGTTGGA AAGAAATAGA ATATGAAGTT GTCCGAGATG CAGATGATAA CTGTGTCACA 
GTCTGTAACA TGGAAAATGT TGACGCCATG GGTGTTCACA CAGGTGACTC GGTTGTCGTG 
GCCCCAGCCC AGACACTCTC CAATGCAGAG TTCCAGATGT TGAGACGCAC TTCAGTCAAT 
GTTGTTCGTC ACTTGGGCAT TGTGGGCGAA TGCAACATTC AGTTTGCTCT TCACCCCACT 
TCCATGGAAT ACTGTATCAT TGAAGTGAAT GCCAGGCTGT CCCGGAGTTC TGCCCTGGCC 
TCCAAGGCCA CTGGCTACCC ACTGGCATTC ATTGCAGCAA AGATTGCTCT AGGAATCCCA 
CTTCCAGAGA TCAAGAATGT TGTATCTGGG AAGACCTCAG CCTGCTTTGA ACCTAGCCTG 
GATTACATGG TGACCAAGAT TCCTCGCTGG GATCTTGACC GTTTCCATGG AACATCCAGC 
CGAATTGGTA GCTCAATGAA AAGTGTGGGC GAGGTCATGG CCATTGGTCG CACCTTTGAG 
GAAAGTTTCC AGAAGGCTCT GAGGATGTGC CATCCATCTG TGGATGGGTT CACTCCCCGG 
CTCCCAATGA ATAAGGAATG GCCAGCAAAC CTGGATCTGA AGAAAGAGCT GTCTGAGCCC 
TCCAGCACCC GCATCTACGC CATTGCTAAG GCCTTGGAGA ACAACATGCC CCTTGATGAG 
ATTGTGAAGC TCACGTCCAT CGACAAGTGG TTTCTGTATA AGATGCGTGA CATTTTAAAC 
ATGGATAAGA CACTGAAAGG GCTTAACAGT GAGTCTGTTA CAGAAGAAAC TCTGAGAAAG 
GCCAAGGAGA TTGGGTTCTC AGACAAACAG ATTTCAAAAT GTTTGGGACT GACTGAAGCC 
CAGACAAGAG AGCTGAGATT AAAGAAAAAC ATCCACCCTT GGGTTAAACA GATTGATACA 
TTGGCTGCAG AATACCCATC AGTAACAAAC TACCTGTATG TTACCTACAA CGGCCAGGAG 
CACGATATCA AATTTGATGA ACATGGAATA ATGGTTCTGG GCTGTGGTCC ATACCACATT 
GGCAGCAGTG TGGAATTTGA TTGGTGTGCT GTCTCCAGTA TCCGTACACT GCGCCAACTT 
GGCAAGAAGA CAGTGGTGGT GAATTGTAAC CCAGAGACTG TGAGCACTGA TTTTGATGAG 
TGTGACAAAC TCTACTTTGA AGAGCTGTCT TTGGAGAGAA TCCTAGACAT CTACCACCAG 
GAGGCATGTA ATGGCTGCAT CATATCAGTT GGGGGCCAGA TTCCAAACAA CTTGGCGGTC 
CCGCTGTACA AGAATGGTGT CAAGATCATG GGTACAAGCC CTCTGCAGAT CGACAGGGCT 
GAGGATCGCT CCATCTTCTC AGCTGTCTTA GATGAGCTAA AGGTGGCCCA GGCTCCATGG 
AAAGCTGTGA ACACTTTGAA TGAAGCACTG GAATTTGCAA ACTCTGTGGG CTACCCCTGC 
TTACTGAGAC CTTCCTATGT TTTGAGTGGG TCTGCCATGA ACGTGGTATT CTCTGAGGAT 
GAGATGAAAA GGTTCCTTGA GGAGGCCACT CGAGTCTCTC AGGAACACCC GGTGGTGCTG 
ACCAAGTTTG TGGAGGGGGC CCGGGAAGTA GAGATGGACG CTGTTGGCAA AGAAGGACGG 
GTCATCTCCC ATGCCATCTC TGAACATGTT GAAGATGCAG GTGTCCACTC AGGAGATGCC 
ACCCTGATGC TACCTACACA GACCATCAGC CAAGGAGCCA TTGAAAAGGT GAAGGATGCC 
ACACGAAAGA TTGCAAAGGC TTTTGCCATC TCTGGGCCAT TCAATGTCCA GTTTCTTGTC 
AAAGGAAATG ATGTCTTGGT GATTGAGTGC AATCTGAGAG CATCAAGATC CTTTCCCTTT 
GTCTCCAAGA CTCTTGGGGT GGACTTCATT GACGTGGCTA CAAAGGTGAT GATCGGGGAG 
AGCATTGATG AGAAGCGACT TCCCACGCTG GAGCAGCCCA TCATTCCCTC TGACTACGTT 
GCCATTAAGG CTCCAATGTT TTCCTGGCCC CGATTGAGAG ATGCTGATCC TATTCTGAGA 
TGTGAGATGG CTTCTACTGG AGAGGTGGCG TGCTTCGGTG AGGGTATTCA CACCGCCTTC 
CTGAAGGCCA TGCTGTCTAC AGGGTTTAAG ATACCTCAGA AGGGCATTTT GATTGGAATC 
CAGCAATCAT TCCGTCCAAG ATTCCTTGGT GTTGCTGAGC AGTTGCACAA TGAAGGTTTC 
AAGCTTTTTG CCACAGAAGC TACATCAGAC TGGCTCAATG CCAACAACGT CCCTGCCACC 
CCTGTGGCTT GGCCATCTCA GGAAGGACAG AATCCCAGCC TCTCTTCCAT CAGAAAGTTG 
ATAAGAGATG GAAGCATTGA CCTAGTGATT AACCTCCCTA ATAACAACAC CAAATTTGTC 
CATGATAATT ACGTGATTCG GAGGACAGCT GTGGACAGTG GAATTGCTCT CCTCACTAAT 
TTCCAGGTGA CCAAACTTTT TGCTGAAGCT GTGCAGAAAT CTCGCACTGT GGACTCCAAG 
AGTCTGTTCC ACTACAGGCA GTACAGTGCT GGAAAGGCAG CCTAA

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

RefSeq	XP_021011817.1
CDS	16..4500
Translation	MTRILTACKVVKTLKSGFGFANVTTKRQWDFSRPGIRLLSVKAKTAHIVLEDGTKMKGYSFGHPSSVAGEVVFNTGLGGYPEALTDPAYKGQILTMANPIIGNGGAPDTTARDELGLNKYMESDGIKVAGLLVLNYSNDYNHWLATKSLGQWLQEEKVPAIYGVDTRMLTKIIRDKGTMLGKIEFEGQSVDFVDPNKQNLIAEVSTKDVKVFGKGNPTKVVAVDCGIKNNVIRLLVKRGAEVHLVPWNHDFTQMEYDGLLIAGGPGNPALAQPLIQNVKKILESDRKEPLFGISTGNIITGLAAGAKSYKMSMANRGQNQPVLNITNRQAFITAQNHGYALDNTLPAGWKPLFVNVNDQTNEGIMHESKPFFAVQFHPEVSPGPTDTEYLFDSFFSLIKKGKGTTITSVLPKPALVASRVEVSRCGLGFGFAFEWEHLG*NTRFFFQEENVKTVLMNPNIASVQTNEVGLKQADAVYFLPITPQFVTEVIKAERPDGLILGMGGQTALNCGVELFKRGVLKEYGVKVLGTSVESIMATEDRQLFSDKLNEINEKIAPSFAVESMEDALKAADTIGYPVMIRSAYALGGLGSGICPNKETLIDLGTKAFAMTNQILVERSVTGWKEIEYEVVRDADDNCVTVCNMENVDAMGVHTGDSVVVAPAQTLSNAEFQMLRRTSVNVVRHLGIVGECNIQFALHPTSMEYCIIEVNARLSRSSALASKATGYPLAFIAAKIALGIPLPEIKNVVSGKTSACFEPSLDYMVTKIPRWDLDRFHGTSSRIGSSMKSVGEVMAIGRTFEESFQKALRMCHPSVDGFTPRLPMNKEWPANLDLKKELSEPSSTRIYAIAKALENNMPLDEIVKLTSIDKWFLYKMRDILNMDKTLKGLNSESVTEETLRKAKEIGFSDKQISKCLGLTEAQTRELRLKKNIHPWVKQIDTLAAEYPSVTNYLYVTYNGQEHDIKFDEHGIMVLGCGPYHIGSSVEFDWCAVSSIRTLRQLGKKTVVVNCNPETVSTDFDECDKLYFEELSLERILDIYHQEACNGCIISVGGQIPNNLAVPLYKNGVKIMGTSPLQIDRAEDRSIFSAVLDELKVAQAPWKAVNTLNEALEFANSVGYPCLLRPSYVLSGSAMNVVFSEDEMKRFLEEATRVSQEHPVVLTKFVEGAREVEMDAVGKEGRVISHAISEHVEDAGVHSGDATLMLPTQTISQGAIEKVKDATRKIAKAFAISGPFNVQFLVKGNDVLVIECNLRASRSFPFVSKTLGVDFIDVATKVMIGESIDEKRLPTLEQPIIPSDYVAIKAPMFSWPRLRDADPILRCEMASTGEVACFGEGIHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQEGQNPSLSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIALLTNFQVTKLFAEAVQKSRTVDSKSLFHYRQYSAGKAA

Target ORF information:

RefSeq Version	XM_021156158.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.

Target ORF information:

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

XM_021156158.2

ORF Insert Sequence:

ATGACGAGGA TTTTGACAGC TTGCAAAGTG GTGAAGACAC TGAAGAGTGG CTTTGGTTTT 
GCCAATGTGA CTACGAAGCG ACAGTGGGAC TTCTCCAGAC CTGGCATCAG GCTCCTTTCT 
GTGAAGGCAA AGACAGCACA CATTGTTCTG GAAGATGGAA CCAAGATGAA AGGCTACTCC 
TTTGGCCATC CCTCCTCTGT TGCTGGTGAA GTGGTTTTTA ATACTGGCTT AGGAGGGTAC 
CCGGAAGCAC TTACTGATCC TGCCTACAAG GGCCAGATCC TCACCATGGC CAACCCTATC 
ATTGGGAATG GTGGGGCTCC CGACACCACT GCCCGAGACG AACTGGGACT GAATAAGTAC 
ATGGAGTCTG ATGGGATCAA GGTGGCAGGT CTGCTGGTTC TGAATTACAG TAATGACTAT 
AACCACTGGC TGGCTACCAA GAGTCTGGGT CAATGGCTGC AGGAGGAGAA GGTCCCTGCA 
ATTTATGGAG TGGATACAAG AATGCTGACT AAAATAATTC GGGATAAGGG TACCATGCTT 
GGGAAGATTG AATTTGAAGG CCAGTCTGTG GATTTTGTGG ATCCCAATAA GCAGAATTTG 
ATTGCTGAGG TTTCAACCAA GGATGTCAAG GTGTTTGGCA AAGGAAACCC CACGAAAGTG 
GTAGCTGTGG ACTGTGGGAT AAAAAACAAT GTCATCCGCT TGCTAGTTAA GCGAGGAGCT 
GAAGTGCATT TGGTCCCCTG GAATCACGAC TTCACCCAGA TGGAGTACGA TGGACTTTTG 
ATTGCTGGGG GACCTGGGAA TCCAGCTCTT GCACAGCCAC TAATTCAGAA TGTGAAAAAG 
ATTTTGGAGA GTGACCGCAA AGAGCCATTG TTTGGAATCA GTACAGGAAA CATAATAACA 
GGATTGGCTG CTGGTGCCAA ATCCTACAAG ATGTCCATGG CCAACAGAGG ACAGAACCAA 
CCTGTTTTGA ATATCACAAA CAGACAGGCT TTCATAACTG CTCAGAATCA TGGCTATGCT 
CTGGACAACA CACTCCCTGC TGGCTGGAAA CCACTGTTTG TGAATGTCAA TGATCAAACA 
AATGAGGGGA TTATGCATGA GAGCAAACCT TTCTTCGCTG TGCAGTTCCA CCCAGAGGTC 
AGCCCGGGGC CAACAGACAC TGAGTACCTA TTTGATTCCT TCTTCTCCCT GATAAAGAAG 
GGCAAAGGCA CCACCATTAC CTCAGTTCTG CCCAAGCCAG CGTTGGTGGC ATCTCGTGTC 
GAGGTCAGTA GATGTGGACT TGGTTTTGGT TTTGCATTTG AATGGGAACA TTTAGGTTAG 
AACACTCGAT TCTTCTTCCA GGAAGAAAAT GTCAAAACAG TCCTGATGAA CCCAAACATC 
GCATCTGTGC AGACCAACGA GGTGGGATTG AAGCAGGCAG ATGCAGTCTA CTTTCTCCCT 
ATTACCCCCC AGTTTGTCAC AGAAGTTATC AAGGCTGAAC GGCCTGATGG GCTGATTCTG 
GGCATGGGTG GCCAGACAGC TCTGAACTGT GGAGTGGAAC TATTCAAGAG GGGTGTGCTC 
AAGGAATATG GTGTGAAGGT CTTGGGAACA TCAGTTGAGT CCATTATGGC CACAGAAGAC 
AGGCAGCTTT TCTCAGACAA GCTGAATGAG ATCAACGAGA AGATTGCTCC CAGTTTTGCA 
GTGGAATCAA TGGAGGATGC CTTGAAGGCA GCAGACACCA TTGGCTACCC TGTGATGATT 
CGGTCTGCAT ATGCTCTGGG TGGCTTAGGC TCTGGCATCT GTCCCAATAA GGAGACCTTA 
ATAGACCTTG GCACAAAAGC ATTCGCTATG ACCAACCAGA TCCTGGTGGA GCGGTCAGTG 
ACAGGTTGGA AAGAAATAGA ATATGAAGTT GTCCGAGATG CAGATGATAA CTGTGTCACA 
GTCTGTAACA TGGAAAATGT TGACGCCATG GGTGTTCACA CAGGTGACTC GGTTGTCGTG 
GCCCCAGCCC AGACACTCTC CAATGCAGAG TTCCAGATGT TGAGACGCAC TTCAGTCAAT 
GTTGTTCGTC ACTTGGGCAT TGTGGGCGAA TGCAACATTC AGTTTGCTCT TCACCCCACT 
TCCATGGAAT ACTGTATCAT TGAAGTGAAT GCCAGGCTGT CCCGGAGTTC TGCCCTGGCC 
TCCAAGGCCA CTGGCTACCC ACTGGCATTC ATTGCAGCAA AGATTGCTCT AGGAATCCCA 
CTTCCAGAGA TCAAGAATGT TGTATCTGGG AAGACCTCAG CCTGCTTTGA ACCTAGCCTG 
GATTACATGG TGACCAAGAT TCCTCGCTGG GATCTTGACC GTTTCCATGG AACATCCAGC 
CGAATTGGTA GCTCAATGAA AAGTGTGGGC GAGGTCATGG CCATTGGTCG CACCTTTGAG 
GAAAGTTTCC AGAAGGCTCT GAGGATGTGC CATCCATCTG TGGATGGGTT CACTCCCCGG 
CTCCCAATGA ATAAGGAATG GCCAGCAAAC CTGGATCTGA AGAAAGAGCT GTCTGAGCCC 
TCCAGCACCC GCATCTACGC CATTGCTAAG GCCTTGGAGA ACAACATGCC CCTTGATGAG 
ATTGTGAAGC TCACGTCCAT CGACAAGTGG TTTCTGTATA AGATGCGTGA CATTTTAAAC 
ATGGATAAGA CACTGAAAGG GCTTAACAGT GAGTCTGTTA CAGAAGAAAC TCTGAGAAAG 
GCCAAGGAGA TTGGGTTCTC AGACAAACAG ATTTCAAAAT GTTTGGGACT GACTGAAGCC 
CAGACAAGAG AGCTGAGATT AAAGAAAAAC ATCCACCCTT GGGTTAAACA GATTGATACA 
TTGGCTGCAG AATACCCATC AGTAACAAAC TACCTGTATG TTACCTACAA CGGCCAGGAG 
CACGATATCA AATTTGATGA ACATGGAATA ATGGTTCTGG GCTGTGGTCC ATACCACATT 
GGCAGCAGTG TGGAATTTGA TTGGTGTGCT GTCTCCAGTA TCCGTACACT GCGCCAACTT 
GGCAAGAAGA CAGTGGTGGT GAATTGTAAC CCAGAGACTG TGAGCACTGA TTTTGATGAG 
TGTGACAAAC TCTACTTTGA AGAGCTGTCT TTGGAGAGAA TCCTAGACAT CTACCACCAG 
GAGGCATGTA ATGGCTGCAT CATATCAGTT GGGGGCCAGA TTCCAAACAA CTTGGCGGTC 
CCGCTGTACA AGAATGGTGT CAAGATCATG GGTACAAGCC CTCTGCAGAT CGACAGGGCT 
GAGGATCGCT CCATCTTCTC AGCTGTCTTA GATGAGCTAA AGGTGGCCCA GGCTCCATGG 
AAAGCTGTGA ACACTTTGAA TGAAGCACTG GAATTTGCAA ACTCTGTGGG CTACCCCTGC 
TTACTGAGAC CTTCCTATGT TTTGAGTGGG TCTGCCATGA ACGTGGTATT CTCTGAGGAT 
GAGATGAAAA GGTTCCTTGA GGAGGCCACT CGAGTCTCTC AGGAACACCC GGTGGTGCTG 
ACCAAGTTTG TGGAGGGGGC CCGGGAAGTA GAGATGGACG CTGTTGGCAA AGAAGGACGG 
GTCATCTCCC ATGCCATCTC TGAACATGTT GAAGATGCAG GTGTCCACTC AGGAGATGCC 
ACCCTGATGC TACCTACACA GACCATCAGC CAAGGAGCCA TTGAAAAGGT GAAGGATGCC 
ACACGAAAGA TTGCAAAGGC TTTTGCCATC TCTGGGCCAT TCAATGTCCA GTTTCTTGTC 
AAAGGAAATG ATGTCTTGGT GATTGAGTGC AATCTGAGAG CATCAAGATC CTTTCCCTTT 
GTCTCCAAGA CTCTTGGGGT GGACTTCATT GACGTGGCTA CAAAGGTGAT GATCGGGGAG 
AGCATTGATG AGAAGCGACT TCCCACGCTG GAGCAGCCCA TCATTCCCTC TGACTACGTT 
GCCATTAAGG CTCCAATGTT TTCCTGGCCC CGATTGAGAG ATGCTGATCC TATTCTGAGA 
TGTGAGATGG CTTCTACTGG AGAGGTGGCG TGCTTCGGTG AGGGTATTCA CACCGCCTTC 
CTGAAGGCCA TGCTGTCTAC AGGGTTTAAG ATACCTCAGA AGGGCATTTT GATTGGAATC 
CAGCAATCAT TCCGTCCAAG ATTCCTTGGT GTTGCTGAGC AGTTGCACAA TGAAGGTTTC 
AAGCTTTTTG CCACAGAAGC TACATCAGAC TGGCTCAATG CCAACAACGT CCCTGCCACC 
CCTGTGGCTT GGCCATCTCA GGAAGGACAG AATCCCAGCC TCTCTTCCAT CAGAAAGTTG 
ATAAGAGATG GAAGCATTGA CCTAGTGATT AACCTCCCTA ATAACAACAC CAAATTTGTC 
CATGATAATT ACGTGATTCG GAGGACAGCT GTGGACAGTG GAATTGCTCT CCTCACTAAT 
TTCCAGGTGA CCAAACTTTT TGCTGAAGCT GTGCAGAAAT CTCGCACTGT GGACTCCAAG 
AGTCTGTTCC ACTACAGGCA GTACAGTGCT GGAAAGGCAG CCTAA

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

Cps1 ( XM_021156158.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021011817.1 Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.

Price & Availability↑

CloneID	OMv22653
Clone ID Related Accession (Same CDS sequence)	XM_021156158.2 , XM_021156158.1
Accession Version	XM_021156158.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4485bp) 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	LOW QUALITY PROTEIN: carbamoyl-phosphate synthase [ammonia], mitochondrial
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034570.1) 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## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGACGAGGA TTTTGACAGC TTGCAAAGTG GTGAAGACAC TGAAGAGTGG CTTTGGTTTT 
GCCAATGTGA CTACGAAGCG ACAGTGGGAC TTCTCCAGAC CTGGCATCAG GCTCCTTTCT 
GTGAAGGCAA AGACAGCACA CATTGTTCTG GAAGATGGAA CCAAGATGAA AGGCTACTCC 
TTTGGCCATC CCTCCTCTGT TGCTGGTGAA GTGGTTTTTA ATACTGGCTT AGGAGGGTAC 
CCGGAAGCAC TTACTGATCC TGCCTACAAG GGCCAGATCC TCACCATGGC CAACCCTATC 
ATTGGGAATG GTGGGGCTCC CGACACCACT GCCCGAGACG AACTGGGACT GAATAAGTAC 
ATGGAGTCTG ATGGGATCAA GGTGGCAGGT CTGCTGGTTC TGAATTACAG TAATGACTAT 
AACCACTGGC TGGCTACCAA GAGTCTGGGT CAATGGCTGC AGGAGGAGAA GGTCCCTGCA 
ATTTATGGAG TGGATACAAG AATGCTGACT AAAATAATTC GGGATAAGGG TACCATGCTT 
GGGAAGATTG AATTTGAAGG CCAGTCTGTG GATTTTGTGG ATCCCAATAA GCAGAATTTG 
ATTGCTGAGG TTTCAACCAA GGATGTCAAG GTGTTTGGCA AAGGAAACCC CACGAAAGTG 
GTAGCTGTGG ACTGTGGGAT AAAAAACAAT GTCATCCGCT TGCTAGTTAA GCGAGGAGCT 
GAAGTGCATT TGGTCCCCTG GAATCACGAC TTCACCCAGA TGGAGTACGA TGGACTTTTG 
ATTGCTGGGG GACCTGGGAA TCCAGCTCTT GCACAGCCAC TAATTCAGAA TGTGAAAAAG 
ATTTTGGAGA GTGACCGCAA AGAGCCATTG TTTGGAATCA GTACAGGAAA CATAATAACA 
GGATTGGCTG CTGGTGCCAA ATCCTACAAG ATGTCCATGG CCAACAGAGG ACAGAACCAA 
CCTGTTTTGA ATATCACAAA CAGACAGGCT TTCATAACTG CTCAGAATCA TGGCTATGCT 
CTGGACAACA CACTCCCTGC TGGCTGGAAA CCACTGTTTG TGAATGTCAA TGATCAAACA 
AATGAGGGGA TTATGCATGA GAGCAAACCT TTCTTCGCTG TGCAGTTCCA CCCAGAGGTC 
AGCCCGGGGC CAACAGACAC TGAGTACCTA TTTGATTCCT TCTTCTCCCT GATAAAGAAG 
GGCAAAGGCA CCACCATTAC CTCAGTTCTG CCCAAGCCAG CGTTGGTGGC ATCTCGTGTC 
GAGGTCAGTA GATGTGGACT TGGTTTTGGT TTTGCATTTG AATGGGAACA TTTAGGTTAG 
AACACTCGAT TCTTCTTCCA GGAAGAAAAT GTCAAAACAG TCCTGATGAA CCCAAACATC 
GCATCTGTGC AGACCAACGA GGTGGGATTG AAGCAGGCAG ATGCAGTCTA CTTTCTCCCT 
ATTACCCCCC AGTTTGTCAC AGAAGTTATC AAGGCTGAAC GGCCTGATGG GCTGATTCTG 
GGCATGGGTG GCCAGACAGC TCTGAACTGT GGAGTGGAAC TATTCAAGAG GGGTGTGCTC 
AAGGAATATG GTGTGAAGGT CTTGGGAACA TCAGTTGAGT CCATTATGGC CACAGAAGAC 
AGGCAGCTTT TCTCAGACAA GCTGAATGAG ATCAACGAGA AGATTGCTCC CAGTTTTGCA 
GTGGAATCAA TGGAGGATGC CTTGAAGGCA GCAGACACCA TTGGCTACCC TGTGATGATT 
CGGTCTGCAT ATGCTCTGGG TGGCTTAGGC TCTGGCATCT GTCCCAATAA GGAGACCTTA 
ATAGACCTTG GCACAAAAGC ATTCGCTATG ACCAACCAGA TCCTGGTGGA GCGGTCAGTG 
ACAGGTTGGA AAGAAATAGA ATATGAAGTT GTCCGAGATG CAGATGATAA CTGTGTCACA 
GTCTGTAACA TGGAAAATGT TGACGCCATG GGTGTTCACA CAGGTGACTC GGTTGTCGTG 
GCCCCAGCCC AGACACTCTC CAATGCAGAG TTCCAGATGT TGAGACGCAC TTCAGTCAAT 
GTTGTTCGTC ACTTGGGCAT TGTGGGCGAA TGCAACATTC AGTTTGCTCT TCACCCCACT 
TCCATGGAAT ACTGTATCAT TGAAGTGAAT GCCAGGCTGT CCCGGAGTTC TGCCCTGGCC 
TCCAAGGCCA CTGGCTACCC ACTGGCATTC ATTGCAGCAA AGATTGCTCT AGGAATCCCA 
CTTCCAGAGA TCAAGAATGT TGTATCTGGG AAGACCTCAG CCTGCTTTGA ACCTAGCCTG 
GATTACATGG TGACCAAGAT TCCTCGCTGG GATCTTGACC GTTTCCATGG AACATCCAGC 
CGAATTGGTA GCTCAATGAA AAGTGTGGGC GAGGTCATGG CCATTGGTCG CACCTTTGAG 
GAAAGTTTCC AGAAGGCTCT GAGGATGTGC CATCCATCTG TGGATGGGTT CACTCCCCGG 
CTCCCAATGA ATAAGGAATG GCCAGCAAAC CTGGATCTGA AGAAAGAGCT GTCTGAGCCC 
TCCAGCACCC GCATCTACGC CATTGCTAAG GCCTTGGAGA ACAACATGCC CCTTGATGAG 
ATTGTGAAGC TCACGTCCAT CGACAAGTGG TTTCTGTATA AGATGCGTGA CATTTTAAAC 
ATGGATAAGA CACTGAAAGG GCTTAACAGT GAGTCTGTTA CAGAAGAAAC TCTGAGAAAG 
GCCAAGGAGA TTGGGTTCTC AGACAAACAG ATTTCAAAAT GTTTGGGACT GACTGAAGCC 
CAGACAAGAG AGCTGAGATT AAAGAAAAAC ATCCACCCTT GGGTTAAACA GATTGATACA 
TTGGCTGCAG AATACCCATC AGTAACAAAC TACCTGTATG TTACCTACAA CGGCCAGGAG 
CACGATATCA AATTTGATGA ACATGGAATA ATGGTTCTGG GCTGTGGTCC ATACCACATT 
GGCAGCAGTG TGGAATTTGA TTGGTGTGCT GTCTCCAGTA TCCGTACACT GCGCCAACTT 
GGCAAGAAGA CAGTGGTGGT GAATTGTAAC CCAGAGACTG TGAGCACTGA TTTTGATGAG 
TGTGACAAAC TCTACTTTGA AGAGCTGTCT TTGGAGAGAA TCCTAGACAT CTACCACCAG 
GAGGCATGTA ATGGCTGCAT CATATCAGTT GGGGGCCAGA TTCCAAACAA CTTGGCGGTC 
CCGCTGTACA AGAATGGTGT CAAGATCATG GGTACAAGCC CTCTGCAGAT CGACAGGGCT 
GAGGATCGCT CCATCTTCTC AGCTGTCTTA GATGAGCTAA AGGTGGCCCA GGCTCCATGG 
AAAGCTGTGA ACACTTTGAA TGAAGCACTG GAATTTGCAA ACTCTGTGGG CTACCCCTGC 
TTACTGAGAC CTTCCTATGT TTTGAGTGGG TCTGCCATGA ACGTGGTATT CTCTGAGGAT 
GAGATGAAAA GGTTCCTTGA GGAGGCCACT CGAGTCTCTC AGGAACACCC GGTGGTGCTG 
ACCAAGTTTG TGGAGGGGGC CCGGGAAGTA GAGATGGACG CTGTTGGCAA AGAAGGACGG 
GTCATCTCCC ATGCCATCTC TGAACATGTT GAAGATGCAG GTGTCCACTC AGGAGATGCC 
ACCCTGATGC TACCTACACA GACCATCAGC CAAGGAGCCA TTGAAAAGGT GAAGGATGCC 
ACACGAAAGA TTGCAAAGGC TTTTGCCATC TCTGGGCCAT TCAATGTCCA GTTTCTTGTC 
AAAGGAAATG ATGTCTTGGT GATTGAGTGC AATCTGAGAG CATCAAGATC CTTTCCCTTT 
GTCTCCAAGA CTCTTGGGGT GGACTTCATT GACGTGGCTA CAAAGGTGAT GATCGGGGAG 
AGCATTGATG AGAAGCGACT TCCCACGCTG GAGCAGCCCA TCATTCCCTC TGACTACGTT 
GCCATTAAGG CTCCAATGTT TTCCTGGCCC CGATTGAGAG ATGCTGATCC TATTCTGAGA 
TGTGAGATGG CTTCTACTGG AGAGGTGGCG TGCTTCGGTG AGGGTATTCA CACCGCCTTC 
CTGAAGGCCA TGCTGTCTAC AGGGTTTAAG ATACCTCAGA AGGGCATTTT GATTGGAATC 
CAGCAATCAT TCCGTCCAAG ATTCCTTGGT GTTGCTGAGC AGTTGCACAA TGAAGGTTTC 
AAGCTTTTTG CCACAGAAGC TACATCAGAC TGGCTCAATG CCAACAACGT CCCTGCCACC 
CCTGTGGCTT GGCCATCTCA GGAAGGACAG AATCCCAGCC TCTCTTCCAT CAGAAAGTTG 
ATAAGAGATG GAAGCATTGA CCTAGTGATT AACCTCCCTA ATAACAACAC CAAATTTGTC 
CATGATAATT ACGTGATTCG GAGGACAGCT GTGGACAGTG GAATTGCTCT CCTCACTAAT 
TTCCAGGTGA CCAAACTTTT TGCTGAAGCT GTGCAGAAAT CTCGCACTGT GGACTCCAAG 
AGTCTGTTCC ACTACAGGCA GTACAGTGCT GGAAAGGCAG CCTAA

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

RefSeq	XP_021011817.1
CDS	8..4492
Translation	MTRILTACKVVKTLKSGFGFANVTTKRQWDFSRPGIRLLSVKAKTAHIVLEDGTKMKGYSFGHPSSVAGEVVFNTGLGGYPEALTDPAYKGQILTMANPIIGNGGAPDTTARDELGLNKYMESDGIKVAGLLVLNYSNDYNHWLATKSLGQWLQEEKVPAIYGVDTRMLTKIIRDKGTMLGKIEFEGQSVDFVDPNKQNLIAEVSTKDVKVFGKGNPTKVVAVDCGIKNNVIRLLVKRGAEVHLVPWNHDFTQMEYDGLLIAGGPGNPALAQPLIQNVKKILESDRKEPLFGISTGNIITGLAAGAKSYKMSMANRGQNQPVLNITNRQAFITAQNHGYALDNTLPAGWKPLFVNVNDQTNEGIMHESKPFFAVQFHPEVSPGPTDTEYLFDSFFSLIKKGKGTTITSVLPKPALVASRVEVSRCGLGFGFAFEWEHLG*NTRFFFQEENVKTVLMNPNIASVQTNEVGLKQADAVYFLPITPQFVTEVIKAERPDGLILGMGGQTALNCGVELFKRGVLKEYGVKVLGTSVESIMATEDRQLFSDKLNEINEKIAPSFAVESMEDALKAADTIGYPVMIRSAYALGGLGSGICPNKETLIDLGTKAFAMTNQILVERSVTGWKEIEYEVVRDADDNCVTVCNMENVDAMGVHTGDSVVVAPAQTLSNAEFQMLRRTSVNVVRHLGIVGECNIQFALHPTSMEYCIIEVNARLSRSSALASKATGYPLAFIAAKIALGIPLPEIKNVVSGKTSACFEPSLDYMVTKIPRWDLDRFHGTSSRIGSSMKSVGEVMAIGRTFEESFQKALRMCHPSVDGFTPRLPMNKEWPANLDLKKELSEPSSTRIYAIAKALENNMPLDEIVKLTSIDKWFLYKMRDILNMDKTLKGLNSESVTEETLRKAKEIGFSDKQISKCLGLTEAQTRELRLKKNIHPWVKQIDTLAAEYPSVTNYLYVTYNGQEHDIKFDEHGIMVLGCGPYHIGSSVEFDWCAVSSIRTLRQLGKKTVVVNCNPETVSTDFDECDKLYFEELSLERILDIYHQEACNGCIISVGGQIPNNLAVPLYKNGVKIMGTSPLQIDRAEDRSIFSAVLDELKVAQAPWKAVNTLNEALEFANSVGYPCLLRPSYVLSGSAMNVVFSEDEMKRFLEEATRVSQEHPVVLTKFVEGAREVEMDAVGKEGRVISHAISEHVEDAGVHSGDATLMLPTQTISQGAIEKVKDATRKIAKAFAISGPFNVQFLVKGNDVLVIECNLRASRSFPFVSKTLGVDFIDVATKVMIGESIDEKRLPTLEQPIIPSDYVAIKAPMFSWPRLRDADPILRCEMASTGEVACFGEGIHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQEGQNPSLSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIALLTNFQVTKLFAEAVQKSRTVDSKSLFHYRQYSAGKAA

Target ORF information:

RefSeq Version	XM_021156158.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli carbamoyl-phosphate synthase 1 (Cps1), mRNA.

Target ORF information:

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

XM_021156158.1

ORF Insert Sequence:

ATGACGAGGA TTTTGACAGC TTGCAAAGTG GTGAAGACAC TGAAGAGTGG CTTTGGTTTT 
GCCAATGTGA CTACGAAGCG ACAGTGGGAC TTCTCCAGAC CTGGCATCAG GCTCCTTTCT 
GTGAAGGCAA AGACAGCACA CATTGTTCTG GAAGATGGAA CCAAGATGAA AGGCTACTCC 
TTTGGCCATC CCTCCTCTGT TGCTGGTGAA GTGGTTTTTA ATACTGGCTT AGGAGGGTAC 
CCGGAAGCAC TTACTGATCC TGCCTACAAG GGCCAGATCC TCACCATGGC CAACCCTATC 
ATTGGGAATG GTGGGGCTCC CGACACCACT GCCCGAGACG AACTGGGACT GAATAAGTAC 
ATGGAGTCTG ATGGGATCAA GGTGGCAGGT CTGCTGGTTC TGAATTACAG TAATGACTAT 
AACCACTGGC TGGCTACCAA GAGTCTGGGT CAATGGCTGC AGGAGGAGAA GGTCCCTGCA 
ATTTATGGAG TGGATACAAG AATGCTGACT AAAATAATTC GGGATAAGGG TACCATGCTT 
GGGAAGATTG AATTTGAAGG CCAGTCTGTG GATTTTGTGG ATCCCAATAA GCAGAATTTG 
ATTGCTGAGG TTTCAACCAA GGATGTCAAG GTGTTTGGCA AAGGAAACCC CACGAAAGTG 
GTAGCTGTGG ACTGTGGGAT AAAAAACAAT GTCATCCGCT TGCTAGTTAA GCGAGGAGCT 
GAAGTGCATT TGGTCCCCTG GAATCACGAC TTCACCCAGA TGGAGTACGA TGGACTTTTG 
ATTGCTGGGG GACCTGGGAA TCCAGCTCTT GCACAGCCAC TAATTCAGAA TGTGAAAAAG 
ATTTTGGAGA GTGACCGCAA AGAGCCATTG TTTGGAATCA GTACAGGAAA CATAATAACA 
GGATTGGCTG CTGGTGCCAA ATCCTACAAG ATGTCCATGG CCAACAGAGG ACAGAACCAA 
CCTGTTTTGA ATATCACAAA CAGACAGGCT TTCATAACTG CTCAGAATCA TGGCTATGCT 
CTGGACAACA CACTCCCTGC TGGCTGGAAA CCACTGTTTG TGAATGTCAA TGATCAAACA 
AATGAGGGGA TTATGCATGA GAGCAAACCT TTCTTCGCTG TGCAGTTCCA CCCAGAGGTC 
AGCCCGGGGC CAACAGACAC TGAGTACCTA TTTGATTCCT TCTTCTCCCT GATAAAGAAG 
GGCAAAGGCA CCACCATTAC CTCAGTTCTG CCCAAGCCAG CGTTGGTGGC ATCTCGTGTC 
GAGGTCAGTA GATGTGGACT TGGTTTTGGT TTTGCATTTG AATGGGAACA TTTAGGTTAG 
AACACTCGAT TCTTCTTCCA GGAAGAAAAT GTCAAAACAG TCCTGATGAA CCCAAACATC 
GCATCTGTGC AGACCAACGA GGTGGGATTG AAGCAGGCAG ATGCAGTCTA CTTTCTCCCT 
ATTACCCCCC AGTTTGTCAC AGAAGTTATC AAGGCTGAAC GGCCTGATGG GCTGATTCTG 
GGCATGGGTG GCCAGACAGC TCTGAACTGT GGAGTGGAAC TATTCAAGAG GGGTGTGCTC 
AAGGAATATG GTGTGAAGGT CTTGGGAACA TCAGTTGAGT CCATTATGGC CACAGAAGAC 
AGGCAGCTTT TCTCAGACAA GCTGAATGAG ATCAACGAGA AGATTGCTCC CAGTTTTGCA 
GTGGAATCAA TGGAGGATGC CTTGAAGGCA GCAGACACCA TTGGCTACCC TGTGATGATT 
CGGTCTGCAT ATGCTCTGGG TGGCTTAGGC TCTGGCATCT GTCCCAATAA GGAGACCTTA 
ATAGACCTTG GCACAAAAGC ATTCGCTATG ACCAACCAGA TCCTGGTGGA GCGGTCAGTG 
ACAGGTTGGA AAGAAATAGA ATATGAAGTT GTCCGAGATG CAGATGATAA CTGTGTCACA 
GTCTGTAACA TGGAAAATGT TGACGCCATG GGTGTTCACA CAGGTGACTC GGTTGTCGTG 
GCCCCAGCCC AGACACTCTC CAATGCAGAG TTCCAGATGT TGAGACGCAC TTCAGTCAAT 
GTTGTTCGTC ACTTGGGCAT TGTGGGCGAA TGCAACATTC AGTTTGCTCT TCACCCCACT 
TCCATGGAAT ACTGTATCAT TGAAGTGAAT GCCAGGCTGT CCCGGAGTTC TGCCCTGGCC 
TCCAAGGCCA CTGGCTACCC ACTGGCATTC ATTGCAGCAA AGATTGCTCT AGGAATCCCA 
CTTCCAGAGA TCAAGAATGT TGTATCTGGG AAGACCTCAG CCTGCTTTGA ACCTAGCCTG 
GATTACATGG TGACCAAGAT TCCTCGCTGG GATCTTGACC GTTTCCATGG AACATCCAGC 
CGAATTGGTA GCTCAATGAA AAGTGTGGGC GAGGTCATGG CCATTGGTCG CACCTTTGAG 
GAAAGTTTCC AGAAGGCTCT GAGGATGTGC CATCCATCTG TGGATGGGTT CACTCCCCGG 
CTCCCAATGA ATAAGGAATG GCCAGCAAAC CTGGATCTGA AGAAAGAGCT GTCTGAGCCC 
TCCAGCACCC GCATCTACGC CATTGCTAAG GCCTTGGAGA ACAACATGCC CCTTGATGAG 
ATTGTGAAGC TCACGTCCAT CGACAAGTGG TTTCTGTATA AGATGCGTGA CATTTTAAAC 
ATGGATAAGA CACTGAAAGG GCTTAACAGT GAGTCTGTTA CAGAAGAAAC TCTGAGAAAG 
GCCAAGGAGA TTGGGTTCTC AGACAAACAG ATTTCAAAAT GTTTGGGACT GACTGAAGCC 
CAGACAAGAG AGCTGAGATT AAAGAAAAAC ATCCACCCTT GGGTTAAACA GATTGATACA 
TTGGCTGCAG AATACCCATC AGTAACAAAC TACCTGTATG TTACCTACAA CGGCCAGGAG 
CACGATATCA AATTTGATGA ACATGGAATA ATGGTTCTGG GCTGTGGTCC ATACCACATT 
GGCAGCAGTG TGGAATTTGA TTGGTGTGCT GTCTCCAGTA TCCGTACACT GCGCCAACTT 
GGCAAGAAGA CAGTGGTGGT GAATTGTAAC CCAGAGACTG TGAGCACTGA TTTTGATGAG 
TGTGACAAAC TCTACTTTGA AGAGCTGTCT TTGGAGAGAA TCCTAGACAT CTACCACCAG 
GAGGCATGTA ATGGCTGCAT CATATCAGTT GGGGGCCAGA TTCCAAACAA CTTGGCGGTC 
CCGCTGTACA AGAATGGTGT CAAGATCATG GGTACAAGCC CTCTGCAGAT CGACAGGGCT 
GAGGATCGCT CCATCTTCTC AGCTGTCTTA GATGAGCTAA AGGTGGCCCA GGCTCCATGG 
AAAGCTGTGA ACACTTTGAA TGAAGCACTG GAATTTGCAA ACTCTGTGGG CTACCCCTGC 
TTACTGAGAC CTTCCTATGT TTTGAGTGGG TCTGCCATGA ACGTGGTATT CTCTGAGGAT 
GAGATGAAAA GGTTCCTTGA GGAGGCCACT CGAGTCTCTC AGGAACACCC GGTGGTGCTG 
ACCAAGTTTG TGGAGGGGGC CCGGGAAGTA GAGATGGACG CTGTTGGCAA AGAAGGACGG 
GTCATCTCCC ATGCCATCTC TGAACATGTT GAAGATGCAG GTGTCCACTC AGGAGATGCC 
ACCCTGATGC TACCTACACA GACCATCAGC CAAGGAGCCA TTGAAAAGGT GAAGGATGCC 
ACACGAAAGA TTGCAAAGGC TTTTGCCATC TCTGGGCCAT TCAATGTCCA GTTTCTTGTC 
AAAGGAAATG ATGTCTTGGT GATTGAGTGC AATCTGAGAG CATCAAGATC CTTTCCCTTT 
GTCTCCAAGA CTCTTGGGGT GGACTTCATT GACGTGGCTA CAAAGGTGAT GATCGGGGAG 
AGCATTGATG AGAAGCGACT TCCCACGCTG GAGCAGCCCA TCATTCCCTC TGACTACGTT 
GCCATTAAGG CTCCAATGTT TTCCTGGCCC CGATTGAGAG ATGCTGATCC TATTCTGAGA 
TGTGAGATGG CTTCTACTGG AGAGGTGGCG TGCTTCGGTG AGGGTATTCA CACCGCCTTC 
CTGAAGGCCA TGCTGTCTAC AGGGTTTAAG ATACCTCAGA AGGGCATTTT GATTGGAATC 
CAGCAATCAT TCCGTCCAAG ATTCCTTGGT GTTGCTGAGC AGTTGCACAA TGAAGGTTTC 
AAGCTTTTTG CCACAGAAGC TACATCAGAC TGGCTCAATG CCAACAACGT CCCTGCCACC 
CCTGTGGCTT GGCCATCTCA GGAAGGACAG AATCCCAGCC TCTCTTCCAT CAGAAAGTTG 
ATAAGAGATG GAAGCATTGA CCTAGTGATT AACCTCCCTA ATAACAACAC CAAATTTGTC 
CATGATAATT ACGTGATTCG GAGGACAGCT GTGGACAGTG GAATTGCTCT CCTCACTAAT 
TTCCAGGTGA CCAAACTTTT TGCTGAAGCT GTGCAGAAAT CTCGCACTGT GGACTCCAAG 
AGTCTGTTCC ACTACAGGCA GTACAGTGCT GGAAAGGCAG CCTAA