Kcp cDNA ORF clone,

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gRNAs

The following Kcp gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Kcp 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
OGr30679	XM_028762632.1 Latest version!	Grammomys surdaster kielin cysteine rich BMP regulator (Kcp), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

Kcp ( XM_028762632.1 ) cDNA ORF clone, -> XP_028618465.1 Grammomys surdaster kielin cysteine rich BMP regulator (Kcp), mRNA.

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CloneID	OGr30679
Clone ID Related Accession (Same CDS sequence)	XM_028762632.1
Accession Version	XM_028762632.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4677bp) 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	2019-04-20
Organism	Grammomys surdaster
Product	kielin/chordin-like protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021604592.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Grammomys surdaster Annotation Release 100 Annotation Version :: 100 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##

ATGGCGGGGG CTCAGGCGGC GCTGCTACCC CTGCTCCTGC ATCTCGGGAG CTTGGCTCTG 
GCCGCACGGG GTGGAGAGGT CTCCAGAGAG CAGCCTAGAC TTGCTGATGC TCGTGACTCT 
CGGCAGCAGG CACACTCCCA CTCCTTCGTC TCTAGTGAGA CCCGCCAACA GCAGTGGTGC 
CCCCTGGAGG AGAGGCTGGA ACGGCTAGAG GCAGAGGTGA CTGACCTCAG AAAGCAGAAC 
AGGGATCTGC AAGCCAGGAT GGTACAGCTG GAGTCCTGCG AGTGCTGCCC AACCTCCCCT 
CAGTGCTGGG GGCCAGGTCG CACCTGTCCC GAAGGAGCTC GCTGGGAGCC TGATCCCTGC 
ACAGCCTGCG TGTGCCGTGA TGGCACCACA CACTGTGGCC CACAGCCCAA CCTGCCCCAC 
TGCCGTGGCT GCAGCCACAA CGGGCAGTCT TATGGTCATG GGGAGACCTT CTCCCCAGAT 
GCCTGTACCA CCTGCCGCTG TCTGGCGGGA GCTGTGCAGT GCCAGGGGCC TTCATGCTCT 
GAGCTCAACT GTCTGGAGAG CTTTACCCCA CCTGGAGAAT GTTGCCCCAT CTGCCGGCCA 
GGCTGTGAGT ACGAAGGGCA GCTTCACCAG GAAGGGACCA GCTTCATGTC CAGTTCCAAC 
CCATGCCTCC AGTGCTCTTG CCTGAGGAGC CTGGTTCGAT GTGTGCCTAT GAAGTGCCAA 
CCAAGCCCCT GCCTCAATCC AGTCCTGAGG CCTGGACACT GCTGCCCAGT CTGTGAGGCC 
TCAGGCTGCA CAGAAGGTAA CTCTCACAGG GACCACGGCC AAGAGTGGAC CACTCCTGGA 
GACCCCTGCC GCATCTGCCA GTGCCTGGAG GGCCGCATCC AGTGCCGCCA GCGGGAGTGT 
GCCAGCCTGT GTCCATACCC TGCCAGGCCC CTTCCGGGCA CCTGCTGCCC AGTGTGTGAC 
GGCTGCTTCC TAAATGGGCG TGAGCACAGC AGTGGGGAGC CCGTGGGCTC CCAGGATCCC 
TGCTCGAGCT GCCGGTGCGC AAATGGGAGT GTCCAGTGTG AGCCTCTGCC CTGCCCGCCT 
GCACCCTGCA GATATCCGGG CAGGATTCCT GGGCAATGCT GCCCTGTCTG TGATGGCTGT 
AAATACCAGG GACATGAATA TCAGAGCCAG GAGACCTTCA CCCTCCAAGA GAATGGCCGC 
TGCCTTCGGT GCGTCTGCCA GGCTGGTGAA GTATCCTGTG AAGAACAGGG CTGCCCAGTC 
ACCCCCTGTG TCCACTCTGC CTCCGGTCCC CCGCTGTGCT CAGCCTGTGT GCTCAACGGT 
GAAGAGTTTG CAGAGGGGAT CCAGTGGGAG CCGGAGGATC AGCCCTGTAC TTCCTGTTCC 
TGCCAAGATG GAGTGCCAGT GTGCAGGGCT GTACTTTGCT CCCCAGTACC TTGCCAACAT 
CCTACCCAGC CACCTGGTGC CTGCTGCCCC AGCTGTGTGA GCTGCACCTA CCATGGCCTA 
GTATATGCTA ATGGGCAGAA CTTCACAGAT GTGGACAGCC CTTGTCAGAC CTGCTACTGT 
GAGGATGGGA CTGTGAGGTG TTCGTTGATC AACTGTCCTT CCACAACCTG TGCCAAGCCC 
CAGAATGGAC CAGACCAGTG CTGCCCCAAG TGCCCAGACT GCATCTTGGA GACACAGGTG 
TTTGTACATG GGGAGAGCTT CCCTCATCCA AGAGATCCCT GCCAGGAGTG CCGGTGCCAG 
GAAGGCCAGG CTCACTGCCA GCTCCGTGCC TGCCCCAGCG CCCCCTGTGG CCACCCTCTG 
CCAGGCACCT GCTGCAGGAA TGACTGCAAA GGCTGTGCCT TTGGCGGGAA AGAGTACCCC 
AACGGAGCCG ACTTCCCACA TCCCACTGAT CCGTGTCGCT TGTGTCGCTG TCTGAGCGGC 
AACGTTCAGT GCCTGGCGCG TCGCTGTCCT CCACTGTCCT GTCCGCAGCC AGTCCTCACT 
CCGGGAGACT GCTGCCCGCA ATGCCCAGAT GCCCCTGCTG GCTGCCCACA GTCAGGGAAT 
GCGGTCCCCA TCCGACACCA GGAGCACTTT TTCCAACCGG GTGACCCCTG CAGCCGCTGC 
CTCTGCCTGG ACGGCTCGGT GTCCTGCCAG CGACTGCCCT GCCCTCCTGC GCCCTGCGCC 
CACCCGCGCC GGGGCGCCTG TTGCCCCTCT TGCGACGGCT GCCTGTATCA GGGGAAGGAG 
TTTGCCAGTG GGGAGAGCTT TCCGTCACCG AGCGTCGCGT GCCACGTGTG CCTCTGCTGG 
GAGGGCAGCG TCAAGTGCGA GCCCAAGGCT TGTGCCCCTG CACAGTGCCC CTTTCCCACC 
AGGGAAGACT GCTGCCCTGC CTGTGATAGC TGTGAGTATC TGGGGGTATC CTATCTGAGC 
AGCCAGGAGT TCCCAGACCC TCGGGAAGCC TGCAACCTGT GCACCTGCCT AGGGGGCTTT 
GTGACTTGTA CCCGCCGGCC CTGTGAGCCT CCAGCCTGCA GCCACCCACT CATCGTACCC 
GAGCACTGCT GTCCAAGCTG CCAGGGATGT CTGTACCACG GGATCATTGC CGCCCTTGGA 
GAGACCCTTC CTGACCCTCT CGATCCCACC TGCTCTCTCT GCACCTGTGA GGAAGGTTCT 
ATGCGCTGTC AAAAGAAACC ATGTCCTCCG GCTCTCTGCA CACACCCTTC TACAGGCCCC 
TGCTTCTGCC CTGTTTGTCA CAGCTGCCTC TCTCAGGGCC GGGAGCACCA AGATGGGGAG 
GAGTTTGAGG GACCTGAAGG CAGCTGTGAA CGCTGCCGCT GTCTGGCCGG CCAGGTCAGC 
TGTATGAGGC TTCAGTGCCC GCCTCTGCCC TGCTTGCTTC AGGTCACAGA ACCAGGGACC 
TGTTGTCCTC GATGCACAGG CTGCCTCTCT CGTGGGGAGG AACATCCTGA AGGGAGTGTC 
TGGGTACCGG CGGACAGCCC CTGTTCCTCC TGCATGTGTC ACAAGGGCAT CATCACTTGT 
GCCCAAGTCC AGTGTGTCAG TGCCTGCGTC TGGCCCCAGC AGGGGCCCAG CGACTGCTGT 
CCTCGATGTC CTGGCTGTGA GCATGAGGGC AGAAGGTATG AGCCTGGGGA GAGCTTCCAG 
CCTGGGGCAG ACCCATGTGA AGTGTGCATC TGCGAGCTGA AGCACGAGGG ACCTCCCAGC 
CTTCACTGTC TCCGGCGGCA GTGCCCGAGT CTGCTGGGCT GCCCACCAAG CCAGCTTCTT 
CCTCCTGACC CCCAGCACTG CTGCCCCACC TGTGCCCAGG CTCTAAGTAA CTGCACAGAG 
GACCTGCTGG GGTCTGAGCT GGTGCCACCG GACCCCTGCT ATATCTGCCA GTGTCAGGAT 
CTGACATGGC TCTGTACTCA CCGGGCCTGT CCTGAGCTCA GCTGTCCCCT GTGGGAGCGC 
CACACAACCC CTGGCAGCTG CTGCCCTGTG TGTAAAGACC CTACCCAGTC ATGCACGCAT 
CAGGGTCGCC GGATGGCCTC TGGAGAACAG TGGGCAGTGG ATGCCTGCAC CAGCTGCTCC 
TGTGTGGCTG GTACTGTGCG CTGCCAGAGT CAGCGCTGCA GGAACCTCGC TTGTGGCCTG 
GATGAGGTCT CTGCCCTGAG TCCCGGCAGC TGCTGTCCCC GCTGTTTGCC CCGGCCAGCT 
TCCTGCATGG CCTTCGGAGA CCCCCATTAC CGCACATTCG ATGGCCGCCT GCTGCACTTC 
CAGGGCAGCT GCAGCTACGT GCTGGCCAAG GACTGCCACG GCGAGGACTT CAGTGTGCAC 
GTGACTAATG ATGACCGGGG CCGGAGGGGT GTGGCCTGGA CCCAAGAGGT AGCAGTGCTG 
TTGGGAACCA CGGCTGTGAG GCTGCTGCAG GGCAGGACAG TCATGGTGGA CCAGCACACG 
GTGACCTTGC CCTTCCTTCG GGAGCCACTG CTGTACATTG AACTTCATGG TCACACTGTG 
ATCCTGCATG CCCAGCCTGG GCTTCAGGTG CTGTGGGACG GGCAATCCCA GGTGGAAGTG 
AGAGTTCCCA GCTCCTACCG GGGCCAGACT TGCGGTCTCT GTGGGAACTT CAATGGCTTT 
GCCCAGGATG ATCTGCAGGG TCCGGATGGG AGGCTCCTGC CCACAGAGGC TGCGTTTGGG 
AACAGCTGGA AGGTCCCCAA AGGGCTGGGA CCTAGCCGGC CGTGTTCTGC AGGCCGAGAG 
GTGGACCCAT GCCGGGCAGC AGGCTACCGT GCCAGGCGTG AGGCCAATGC CCGGTGCGGG 
ATCCTGAAGA CGTCACCGTT CAGTCGCTGC CATGCTGTGG TGCCACCAGA ACCCTTCTTT 
GCTGCCTGTG TGTATGACTT GTGTGCTTGT GGACCAGGCT CCTCAGCTGA CAGCTGTCTC 
TGTGATGCCC TTGAAGCCTA CGCTAGCCAC TGTCGGCAGG CAGGGGTGGC TCCTGTCTGG 
AGGGGTCCTA CACTCTGTGT GGTGGGCTGC CCTGTGGACC GTGGCTTTGT GTTTGATGAG 
TGTGGACCAC CTTGTCCTCG TACCTGTTTC AACTGGCACA TACCCCTAGG GGAGCTGGCA 
GCCCACTGTG TGAGGCCCTG TGTTCCAGGC TGCCAGTGTC CTGCAGGCCT GGTGGAGCAT 
GAAGGCTATT GCATCTCCCC TGAGGCCTGC CCACCAGTCC TGCTTACTGG AGACTAG

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

RefSeq	XP_028618465.1
CDS	18..4694
Translation	MAGAQAALLPLLLHLGSLALAARGGEVSREQPRLADARDSRQQAHSHSFVSSETRQQQWCPLEERLERLEAEVTDLRKQNRDLQARMVQLESCECCPTSPQCWGPGRTCPEGARWEPDPCTACVCRDGTTHCGPQPNLPHCRGCSHNGQSYGHGETFSPDACTTCRCLAGAVQCQGPSCSELNCLESFTPPGECCPICRPGCEYEGQLHQEGTSFMSSSNPCLQCSCLRSLVRCVPMKCQPSPCLNPVLRPGHCCPVCEASGCTEGNSHRDHGQEWTTPGDPCRICQCLEGRIQCRQRECASLCPYPARPLPGTCCPVCDGCFLNGREHSSGEPVGSQDPCSSCRCANGSVQCEPLPCPPAPCRYPGRIPGQCCPVCDGCKYQGHEYQSQETFTLQENGRCLRCVCQAGEVSCEEQGCPVTPCVHSASGPPLCSACVLNGEEFAEGIQWEPEDQPCTSCSCQDGVPVCRAVLCSPVPCQHPTQPPGACCPSCVSCTYHGLVYANGQNFTDVDSPCQTCYCEDGTVRCSLINCPSTTCAKPQNGPDQCCPKCPDCILETQVFVHGESFPHPRDPCQECRCQEGQAHCQLRACPSAPCGHPLPGTCCRNDCKGCAFGGKEYPNGADFPHPTDPCRLCRCLSGNVQCLARRCPPLSCPQPVLTPGDCCPQCPDAPAGCPQSGNAVPIRHQEHFFQPGDPCSRCLCLDGSVSCQRLPCPPAPCAHPRRGACCPSCDGCLYQGKEFASGESFPSPSVACHVCLCWEGSVKCEPKACAPAQCPFPTREDCCPACDSCEYLGVSYLSSQEFPDPREACNLCTCLGGFVTCTRRPCEPPACSHPLIVPEHCCPSCQGCLYHGIIAALGETLPDPLDPTCSLCTCEEGSMRCQKKPCPPALCTHPSTGPCFCPVCHSCLSQGREHQDGEEFEGPEGSCERCRCLAGQVSCMRLQCPPLPCLLQVTEPGTCCPRCTGCLSRGEEHPEGSVWVPADSPCSSCMCHKGIITCAQVQCVSACVWPQQGPSDCCPRCPGCEHEGRRYEPGESFQPGADPCEVCICELKHEGPPSLHCLRRQCPSLLGCPPSQLLPPDPQHCCPTCAQALSNCTEDLLGSELVPPDPCYICQCQDLTWLCTHRACPELSCPLWERHTTPGSCCPVCKDPTQSCTHQGRRMASGEQWAVDACTSCSCVAGTVRCQSQRCRNLACGLDEVSALSPGSCCPRCLPRPASCMAFGDPHYRTFDGRLLHFQGSCSYVLAKDCHGEDFSVHVTNDDRGRRGVAWTQEVAVLLGTTAVRLLQGRTVMVDQHTVTLPFLREPLLYIELHGHTVILHAQPGLQVLWDGQSQVEVRVPSSYRGQTCGLCGNFNGFAQDDLQGPDGRLLPTEAAFGNSWKVPKGLGPSRPCSAGREVDPCRAAGYRARREANARCGILKTSPFSRCHAVVPPEPFFAACVYDLCACGPGSSADSCLCDALEAYASHCRQAGVAPVWRGPTLCVVGCPVDRGFVFDECGPPCPRTCFNWHIPLGELAAHCVRPCVPGCQCPAGLVEHEGYCISPEACPPVLLTGD

Target ORF information:

RefSeq Version	XM_028762632.1
Organism	Grammomys surdaster
Definition	Grammomys surdaster kielin cysteine rich BMP regulator (Kcp), mRNA.

Target ORF information:

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

XM_028762632.1

ORF Insert Sequence:

ATGGCGGGGG CTCAGGCGGC GCTGCTACCC CTGCTCCTGC ATCTCGGGAG CTTGGCTCTG 
GCCGCACGGG GTGGAGAGGT CTCCAGAGAG CAGCCTAGAC TTGCTGATGC TCGTGACTCT 
CGGCAGCAGG CACACTCCCA CTCCTTCGTC TCTAGTGAGA CCCGCCAACA GCAGTGGTGC 
CCCCTGGAGG AGAGGCTGGA ACGGCTAGAG GCAGAGGTGA CTGACCTCAG AAAGCAGAAC 
AGGGATCTGC AAGCCAGGAT GGTACAGCTG GAGTCCTGCG AGTGCTGCCC AACCTCCCCT 
CAGTGCTGGG GGCCAGGTCG CACCTGTCCC GAAGGAGCTC GCTGGGAGCC TGATCCCTGC 
ACAGCCTGCG TGTGCCGTGA TGGCACCACA CACTGTGGCC CACAGCCCAA CCTGCCCCAC 
TGCCGTGGCT GCAGCCACAA CGGGCAGTCT TATGGTCATG GGGAGACCTT CTCCCCAGAT 
GCCTGTACCA CCTGCCGCTG TCTGGCGGGA GCTGTGCAGT GCCAGGGGCC TTCATGCTCT 
GAGCTCAACT GTCTGGAGAG CTTTACCCCA CCTGGAGAAT GTTGCCCCAT CTGCCGGCCA 
GGCTGTGAGT ACGAAGGGCA GCTTCACCAG GAAGGGACCA GCTTCATGTC CAGTTCCAAC 
CCATGCCTCC AGTGCTCTTG CCTGAGGAGC CTGGTTCGAT GTGTGCCTAT GAAGTGCCAA 
CCAAGCCCCT GCCTCAATCC AGTCCTGAGG CCTGGACACT GCTGCCCAGT CTGTGAGGCC 
TCAGGCTGCA CAGAAGGTAA CTCTCACAGG GACCACGGCC AAGAGTGGAC CACTCCTGGA 
GACCCCTGCC GCATCTGCCA GTGCCTGGAG GGCCGCATCC AGTGCCGCCA GCGGGAGTGT 
GCCAGCCTGT GTCCATACCC TGCCAGGCCC CTTCCGGGCA CCTGCTGCCC AGTGTGTGAC 
GGCTGCTTCC TAAATGGGCG TGAGCACAGC AGTGGGGAGC CCGTGGGCTC CCAGGATCCC 
TGCTCGAGCT GCCGGTGCGC AAATGGGAGT GTCCAGTGTG AGCCTCTGCC CTGCCCGCCT 
GCACCCTGCA GATATCCGGG CAGGATTCCT GGGCAATGCT GCCCTGTCTG TGATGGCTGT 
AAATACCAGG GACATGAATA TCAGAGCCAG GAGACCTTCA CCCTCCAAGA GAATGGCCGC 
TGCCTTCGGT GCGTCTGCCA GGCTGGTGAA GTATCCTGTG AAGAACAGGG CTGCCCAGTC 
ACCCCCTGTG TCCACTCTGC CTCCGGTCCC CCGCTGTGCT CAGCCTGTGT GCTCAACGGT 
GAAGAGTTTG CAGAGGGGAT CCAGTGGGAG CCGGAGGATC AGCCCTGTAC TTCCTGTTCC 
TGCCAAGATG GAGTGCCAGT GTGCAGGGCT GTACTTTGCT CCCCAGTACC TTGCCAACAT 
CCTACCCAGC CACCTGGTGC CTGCTGCCCC AGCTGTGTGA GCTGCACCTA CCATGGCCTA 
GTATATGCTA ATGGGCAGAA CTTCACAGAT GTGGACAGCC CTTGTCAGAC CTGCTACTGT 
GAGGATGGGA CTGTGAGGTG TTCGTTGATC AACTGTCCTT CCACAACCTG TGCCAAGCCC 
CAGAATGGAC CAGACCAGTG CTGCCCCAAG TGCCCAGACT GCATCTTGGA GACACAGGTG 
TTTGTACATG GGGAGAGCTT CCCTCATCCA AGAGATCCCT GCCAGGAGTG CCGGTGCCAG 
GAAGGCCAGG CTCACTGCCA GCTCCGTGCC TGCCCCAGCG CCCCCTGTGG CCACCCTCTG 
CCAGGCACCT GCTGCAGGAA TGACTGCAAA GGCTGTGCCT TTGGCGGGAA AGAGTACCCC 
AACGGAGCCG ACTTCCCACA TCCCACTGAT CCGTGTCGCT TGTGTCGCTG TCTGAGCGGC 
AACGTTCAGT GCCTGGCGCG TCGCTGTCCT CCACTGTCCT GTCCGCAGCC AGTCCTCACT 
CCGGGAGACT GCTGCCCGCA ATGCCCAGAT GCCCCTGCTG GCTGCCCACA GTCAGGGAAT 
GCGGTCCCCA TCCGACACCA GGAGCACTTT TTCCAACCGG GTGACCCCTG CAGCCGCTGC 
CTCTGCCTGG ACGGCTCGGT GTCCTGCCAG CGACTGCCCT GCCCTCCTGC GCCCTGCGCC 
CACCCGCGCC GGGGCGCCTG TTGCCCCTCT TGCGACGGCT GCCTGTATCA GGGGAAGGAG 
TTTGCCAGTG GGGAGAGCTT TCCGTCACCG AGCGTCGCGT GCCACGTGTG CCTCTGCTGG 
GAGGGCAGCG TCAAGTGCGA GCCCAAGGCT TGTGCCCCTG CACAGTGCCC CTTTCCCACC 
AGGGAAGACT GCTGCCCTGC CTGTGATAGC TGTGAGTATC TGGGGGTATC CTATCTGAGC 
AGCCAGGAGT TCCCAGACCC TCGGGAAGCC TGCAACCTGT GCACCTGCCT AGGGGGCTTT 
GTGACTTGTA CCCGCCGGCC CTGTGAGCCT CCAGCCTGCA GCCACCCACT CATCGTACCC 
GAGCACTGCT GTCCAAGCTG CCAGGGATGT CTGTACCACG GGATCATTGC CGCCCTTGGA 
GAGACCCTTC CTGACCCTCT CGATCCCACC TGCTCTCTCT GCACCTGTGA GGAAGGTTCT 
ATGCGCTGTC AAAAGAAACC ATGTCCTCCG GCTCTCTGCA CACACCCTTC TACAGGCCCC 
TGCTTCTGCC CTGTTTGTCA CAGCTGCCTC TCTCAGGGCC GGGAGCACCA AGATGGGGAG 
GAGTTTGAGG GACCTGAAGG CAGCTGTGAA CGCTGCCGCT GTCTGGCCGG CCAGGTCAGC 
TGTATGAGGC TTCAGTGCCC GCCTCTGCCC TGCTTGCTTC AGGTCACAGA ACCAGGGACC 
TGTTGTCCTC GATGCACAGG CTGCCTCTCT CGTGGGGAGG AACATCCTGA AGGGAGTGTC 
TGGGTACCGG CGGACAGCCC CTGTTCCTCC TGCATGTGTC ACAAGGGCAT CATCACTTGT 
GCCCAAGTCC AGTGTGTCAG TGCCTGCGTC TGGCCCCAGC AGGGGCCCAG CGACTGCTGT 
CCTCGATGTC CTGGCTGTGA GCATGAGGGC AGAAGGTATG AGCCTGGGGA GAGCTTCCAG 
CCTGGGGCAG ACCCATGTGA AGTGTGCATC TGCGAGCTGA AGCACGAGGG ACCTCCCAGC 
CTTCACTGTC TCCGGCGGCA GTGCCCGAGT CTGCTGGGCT GCCCACCAAG CCAGCTTCTT 
CCTCCTGACC CCCAGCACTG CTGCCCCACC TGTGCCCAGG CTCTAAGTAA CTGCACAGAG 
GACCTGCTGG GGTCTGAGCT GGTGCCACCG GACCCCTGCT ATATCTGCCA GTGTCAGGAT 
CTGACATGGC TCTGTACTCA CCGGGCCTGT CCTGAGCTCA GCTGTCCCCT GTGGGAGCGC 
CACACAACCC CTGGCAGCTG CTGCCCTGTG TGTAAAGACC CTACCCAGTC ATGCACGCAT 
CAGGGTCGCC GGATGGCCTC TGGAGAACAG TGGGCAGTGG ATGCCTGCAC CAGCTGCTCC 
TGTGTGGCTG GTACTGTGCG CTGCCAGAGT CAGCGCTGCA GGAACCTCGC TTGTGGCCTG 
GATGAGGTCT CTGCCCTGAG TCCCGGCAGC TGCTGTCCCC GCTGTTTGCC CCGGCCAGCT 
TCCTGCATGG CCTTCGGAGA CCCCCATTAC CGCACATTCG ATGGCCGCCT GCTGCACTTC 
CAGGGCAGCT GCAGCTACGT GCTGGCCAAG GACTGCCACG GCGAGGACTT CAGTGTGCAC 
GTGACTAATG ATGACCGGGG CCGGAGGGGT GTGGCCTGGA CCCAAGAGGT AGCAGTGCTG 
TTGGGAACCA CGGCTGTGAG GCTGCTGCAG GGCAGGACAG TCATGGTGGA CCAGCACACG 
GTGACCTTGC CCTTCCTTCG GGAGCCACTG CTGTACATTG AACTTCATGG TCACACTGTG 
ATCCTGCATG CCCAGCCTGG GCTTCAGGTG CTGTGGGACG GGCAATCCCA GGTGGAAGTG 
AGAGTTCCCA GCTCCTACCG GGGCCAGACT TGCGGTCTCT GTGGGAACTT CAATGGCTTT 
GCCCAGGATG ATCTGCAGGG TCCGGATGGG AGGCTCCTGC CCACAGAGGC TGCGTTTGGG 
AACAGCTGGA AGGTCCCCAA AGGGCTGGGA CCTAGCCGGC CGTGTTCTGC AGGCCGAGAG 
GTGGACCCAT GCCGGGCAGC AGGCTACCGT GCCAGGCGTG AGGCCAATGC CCGGTGCGGG 
ATCCTGAAGA CGTCACCGTT CAGTCGCTGC CATGCTGTGG TGCCACCAGA ACCCTTCTTT 
GCTGCCTGTG TGTATGACTT GTGTGCTTGT GGACCAGGCT CCTCAGCTGA CAGCTGTCTC 
TGTGATGCCC TTGAAGCCTA CGCTAGCCAC TGTCGGCAGG CAGGGGTGGC TCCTGTCTGG 
AGGGGTCCTA CACTCTGTGT GGTGGGCTGC CCTGTGGACC GTGGCTTTGT GTTTGATGAG 
TGTGGACCAC CTTGTCCTCG TACCTGTTTC AACTGGCACA TACCCCTAGG GGAGCTGGCA 
GCCCACTGTG TGAGGCCCTG TGTTCCAGGC TGCCAGTGTC CTGCAGGCCT GGTGGAGCAT 
GAAGGCTATT GCATCTCCCC TGAGGCCTGC CCACCAGTCC TGCTTACTGG AGACTAG