LOC111161493 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111161493
Entrez Gene ID	111161493
Full Name	latent transforming growth factor beta binding protein 4
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022525190.1	XP_022380898.1	latent-transforming growth factor beta-binding protein 4 isoform X1
XM_022525191.1	XP_022380899.1	latent-transforming growth factor beta-binding protein 4 isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC111161493 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111161493 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
OEn52495	XM_022525190.1 Latest version!	Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00
OEn52496	XM_022525191.1 Latest version!	Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
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)

LOC111161493 ( XM_022525190.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022380898.1 Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEn52495
Clone ID Related Accession (Same CDS sequence)	XM_022525190.1
Accession Version	XM_022525190.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4860bp) 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	latent-transforming growth factor beta-binding protein 4 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154169.1) 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##

ATGCGGCGGC CTGGCCCCAG CGGCCGCCGC CCCCTTCTGC TGGTGCTGCT GCTGCCGGTC 
TTCGCAGCCA CCGTCTCCGC CGCCAGCCCC AGCCCCAACC CCAGCGAGGC CGTCGAGGTT 
GCGGGGATCC CGGGCCGCCC GGCCGGTCTT GCTGCTTGTC GGTGCTGCAC AGGCCGATCG 
CCCAGGAGAA GTCGCTGCCT CAGAGCCTCC TGCAGGGTCC AGAGCTGCCC GCCCGAAAAG 
TGTGCAGGCC CTCTGCAGTG CCTGACCCCC GTGCCCCTGG TGCTGCCGAG CCCCAGCCCC 
AGCGTGAGGA AGAGACAGGT GTCCCTCAAC TGGCAGCCAC TGACGCTGCA GGAGGCCAGA 
GCTCTGCTGA GACGAAGGCG GCCCCGGGGG CCGGGGGGCC GGGCACTGCT GAGAAGGAGG 
CCCCAACAGC GCGCCCCTGC CGGCCAGACC CAGGTCCTGT GTCCCTTGAT CTGTCACAAC 
GGCGGTGTGT GCGTGAAGCC TGACCGCTGC CTCTGTCCCC CGGACTTCGC TGGCAAGTTC 
TGCCAGCTGC ATTCCTCGGG CGCCCGGCCA CCGGCCCCAG CCATGCCGGG CCTCACCCGC 
TCGGTGTACA CCATGCCACT GGCCAATCAC CGCGACGACG AGCACGGCGT GGCGTCCATG 
GTGAGCGTCC ACGTGGAGCA TCCTCAGGAG GCGTCCGTGG TGGTGCACCA GGTGGAGCGT 
GTGTCCGGCT CTTGGGAGGA GGCGGACGCC GAGGCAGTGG CACGGGCGGA GGCGGCGGCG 
CGGGCGGAGG CGGCGGCGCC CTACACGGTG CTGGCACAGA GCGCGCCGCG CGAGGACAGC 
TATTCGGATG CCTCCGGCTT CGGTTACTGC TTTCGGGAGC TGCGCGGAGG CGAATGTGCG 
TCCCCGCTGC CCGGGCTCCG GACTCAGGAG GTGTGCTGCA GAGGGGCAGG CTTGGCCTGG 
GGCGTTCACG ACTGTCAGTC ATGCTCGGAA CACCTGGGGA TTTCAGACCG AGTAGGCACC 
CCAGATGGAC CGTGTCCAAC CGGCTTTCAA AGGGTTAATG GGTCCTGCCA AGATGTGGAT 
GAGTGCGCTA CCGGTGGGCG CTGCCAACAC GGGGAGTGCG CGAACACGCA CGGCGGGTAC 
ACGTGCGTGT GCCCCGACGG CTTCCTGCAC GACTCATCCC GCAGCAGCTG TATCTCCCAG 
CACGTGATCT CAGAGGCCAA AGGGCCCTGC TTCCGCGTGC TCCGCGACGG TGGCTGCTCG 
CTGCCCATTC TGCGCAACAT CACCAAGCAG ATCTGCTGCT GTAGCCGCGT GGGCAAAGCC 
TGGGGTCGAG GCTGCCAGCT CTGCCCACCC TTCGGCTCAG AGGGTTTTCG GGAGATCTGC 
CCTGCTGGCC CTGGCTACCA CTACTCGGCC TCTGACCTCC GCTACAACAC CAGACCCCTG 
GGCCAGGAGC CACCCCGAGT GTCCCTGAGC CACCGGGCTC CACCCTCCAC CCCTAGGCCA 
CCCACAGGCT TTCTGCCCAC CCACCGTCCA GAACTCCCAC CTGAGCACAG GCCGGGCCCT 
GAGCTTCCCC TGCCCAGCAT CCCTGCCTGG TCTGGTCCTG AGATCCCTGA ATCCGGTTCC 
TCGCCCGGCG TGTGTCAGCG CAATCCCCAG GTCTGTGGCC CGGGACGCTG CATCCCGCGG 
CCCAGCGGCT ACACCTGCGC GTGCGACTCC GGTTTCCGGC TCAGCCCGCA GGGCACACAC 
TGCATCGACG TGGACGAGTG TCGCCGCGTG CCCCCGCCCT GTGCCCCCGG GCGCTGTGAA 
AACACGCCAG GCAGCTTCCA TTGCGTGTGT GGCCAGGGCT ACAGAGCGGG CCCGCGGGCT 
GCGGAGTGCT TGGATGTGGA CGAGTGCCAC GGCGTGCCGC CGCCGTGTGA CCGCGGGCGC 
TGCGAGAACA CGCCAGGCAG CTTCCTGTGC GTGTGCCCCG CTGGGTACCA GGCGGCTCCC 
CACGGTGCCG GCTGCCAGGA TGTGGACGAG TGCACGCAGA GCCCGGGCCT TTGTGGCAGA 
GGGGTCTGTG AGAACCTGTC CGGCTCTTTC CGCTGTGTTT GCCCGGCTGG CTTCCGGGGC 
TCGGCGTGTG AAGAAGATGT GGATGAGTGT GCCCAAGAGC CACCGCCCTG CGGGCCAGGC 
CGCTGTGACA ACACAGCGGG CTCCTTCCAC TGTGCCTGCC CTGCTGGCTT CCGCTCCCGA 
GGGCCCGGGG CCCCATGCCA AGATGTGGAT GAATGTGCCC GTAGCCCACC ACCCTGCGCC 
TATGGTCGGT GCGAGAACAC AGAAGGCGGC TTCCAGTGTG TCTGCCCCAC GGGCTTCCAA 
CCCAATGCTG CCGTCTCCGA GTGCGAGGAT GTGGATGAGT GTGAGAATCA CCTGGCCTGT 
CCTGGGCAGG AGTGTGTGAA CTCACCCGGC TCCTTCCAGT GTAGGGCTTG TCCTGCTGGC 
CACCACCTGC ACCATGGCCG ATGCGCTGAT GTGGACGAGT GCAGCTCGGG TGCTTCCTGC 
GGCCCCCATG GCCACTGCAC CAACACCGAA GGCTCCTTCC GCTGCAGCTG CGAGCCGGGC 
TACCGCGCGC CCTCTGGTCG GCCTGGGCCC TGCGCAGACG TGAACGAGTG CCTAGAGGGC 
GACTTCTGTT TCCCCCATGG CGAATGCCTC AACACCGACG GCTCCTTTGC CTGCACTTGC 
GCCCCCGGCT ACCGGCCCGG ACCCCGTGGA GCCTCTTGCC TCGACGTGGA CGAGTGCAGC 
GAGGAGGACC TCTGCCAGAG TGGCATCTGT ACCAACACCG ACGGCTCCTT CGAGTGCGTC 
TGTCCTCCCG GACATCGCGC CGGCCCAGAC CTCGCCTCCT GCCTGGACGT GGACGAATGT 
CGCGAGCGGG GCCCTGCCCT GTGTGGGTCC CAGCGTTGTG AGAATTCCCC GGGTTCCTAC 
CGCTGTGTCC GAGACTGCGA CCCTGGCTAC CACGCGGGCC CTGAGGGCAC CTGTGACGAT 
GTTGATGAGT GCCAAGAATA TGGCTCAGCG ATTTGTGGAG CCCAGCGCTG TGAGAACACT 
CCTGGCTCCT ACCGCTGCAC ACCGGCCTGT GACCCTGGCT ATCAGCCCAC GCCAGGGGGC 
GGATGCCAGG ATGTGGACGA ATGCCGGAAT CGGTCCTTCT GCGGGGCCCA CGCCGTGTGC 
CAGAACCTGC CCGGCTCCTT CCAGTGCCTC TGTGACCAGG GATACGAGGG GGCCAGGGAC 
GGGCGTCACT GCGTGGACGT GAATGAATGT GAAACGCTAC AGCGTGTGTG TGGAGCTGCC 
CTGTGTGAGA ATGTTGAAGG CTCCTTCCTC TGTGTCTGTC CTACCAGCCC TGAGGAGTTT 
GACCCCATGA CTGGACGTTG TGTTCCCCCG CGAACTTCTG TTGGCACATT CCCAGGCCCA 
CAGCCCCAGG CTCCTGCCAG CCCGGGTCTG CCTGCCCGGC CACCTCCGCC ATCCCCGCCC 
CGCCGGCCCA GCCCACCCAG GCAGGGCCCT GCAGGCAGTG GGCGCCGGGA GTGCTACTTT 
GACACGGCAG CCCCGGATGC CTGTGACAAC ATCCTGGCAC GGAATGTGAC GTGGCAAGAG 
TGCTGCTGCA CCGTGGGTGA GGGCTGGGGC AGCGGCTGCC GCATCCAGCA ATGCCCCAGC 
ACTGAGACAG TGGAGTACCA GTCACTATGT CCCCATGGCC GGGGCTATCT GGCACCGAGT 
GGAGACCTGA GCCTCCGGAG GGACGTGGAC GAGTGCCAGC TCTTCCGAGA CCAGGTGTGC 
AAGAGCGGCG TGTGCGTGAA CACGGCCCCA GGCTACTCAT GTTACTGCAG CAACGGCTAC 
TACTACCATG CCCAGCGACT GGAGTGCGTC GATAACGACG AGTGCGCCGA CGAAGAGCCT 
GCGTGTGAGG GCGGCAGCTG TGTTAACACC GTGGGTTCTT ACCACTGCAC CTGCGAGCCC 
CCGCTGGTGC TGGACGGCTC CCGACGCCGC TGCGTCTCCA ACGAGAGCCA GAGCCTCGAT 
GACAACCTGG GAGTGTGCTG GCAGGAAGTA GGAGCTGACC TCGTGTGTAG TCGCCCTCGG 
CTGGACCGCC AGGCCACTTA CACAGAGTGC TGCTGCCTCT ATGGCGAGGC CTGGGGCATG 
GACTGTGCCC TTTGCCCCGC CCAGGACTCA GATGACTTTG AGGCCCTGTG TAATGTGCTG 
CGCCCCCCTG CATACGGTCC CCCGCGGCCA GGTGGCTTTG GACTCCCTTA CGAATATGGC 
CCTGACCTAG GTCCACCCTA CCAGGGCCTT CCCTATGGGC CCGAACTGTA CCCGCCAGCC 
GTGCTACCCT ACGACCCCTA CCCACCTCCT CCTGGGCCCT TCGCCCGCCG GGAGGCCCCG 
TACGGAGCAC CACCCTTCGA CATGCCCGAC TTTGAGGACG ATGGCGGCCC CTACAGTGAC 
TCTGAGGCTG CCGCGCCACC TGGCCCAGGC AGCCGCTGGC GCTATCGGTC CCGCGACACG 
CGTGGCTCCT TCCCAGAGCC TGAGGAGTCA CCTGAAGGTG GAGGCTATCC TGGCACCCTG 
TCTGGGCCCT ACGAAGGACT GGAAGCGGAG GAGTGCGGGA TCTTGGACGG CTGTGCCCAC 
GGCCGCTGCG TGCGTGTCCC CGAGGGCTTC ACCTGCGACT GCTTCAGTGG TTACCGCCTG 
GACATGACCC GCATGGCCTG CGTCGACATC AACGAGTGTG ACGAGGCTGA GGCAGCCTCC 
CCGCTCTGTG TCAACGCACG CTGTGTCAAC ACTGATGGCT CCTTCCGCTG TATCTGCCGC 
CCAGGATTCG CACCCTCGCA CCAGCCACAC CACTGCACTC CTGCCAGGCC ACGGGCCTGA

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

RefSeq	XP_022380898.1
CDS	1..4860
Translation	MRRPGPSGRRPLLLVLLLPVFAATVSAASPSPNPSEAVEVAGIPGRPAGLAACRCCTGRSPRRSRCLRASCRVQSCPPEKCAGPLQCLTPVPLVLPSPSPSVRKRQVSLNWQPLTLQEARALLRRRRPRGPGGRALLRRRPQQRAPAGQTQVLCPLICHNGGVCVKPDRCLCPPDFAGKFCQLHSSGARPPAPAMPGLTRSVYTMPLANHRDDEHGVASMVSVHVEHPQEASVVVHQVERVSGSWEEADAEAVARAEAAARAEAAAPYTVLAQSAPREDSYSDASGFGYCFRELRGGECASPLPGLRTQEVCCRGAGLAWGVHDCQSCSEHLGISDRVGTPDGPCPTGFQRVNGSCQDVDECATGGRCQHGECANTHGGYTCVCPDGFLHDSSRSSCISQHVISEAKGPCFRVLRDGGCSLPILRNITKQICCCSRVGKAWGRGCQLCPPFGSEGFREICPAGPGYHYSASDLRYNTRPLGQEPPRVSLSHRAPPSTPRPPTGFLPTHRPELPPEHRPGPELPLPSIPAWSGPEIPESGSSPGVCQRNPQVCGPGRCIPRPSGYTCACDSGFRLSPQGTHCIDVDECRRVPPPCAPGRCENTPGSFHCVCGQGYRAGPRAAECLDVDECHGVPPPCDRGRCENTPGSFLCVCPAGYQAAPHGAGCQDVDECTQSPGLCGRGVCENLSGSFRCVCPAGFRGSACEEDVDECAQEPPPCGPGRCDNTAGSFHCACPAGFRSRGPGAPCQDVDECARSPPPCAYGRCENTEGGFQCVCPTGFQPNAAVSECEDVDECENHLACPGQECVNSPGSFQCRACPAGHHLHHGRCADVDECSSGASCGPHGHCTNTEGSFRCSCEPGYRAPSGRPGPCADVNECLEGDFCFPHGECLNTDGSFACTCAPGYRPGPRGASCLDVDECSEEDLCQSGICTNTDGSFECVCPPGHRAGPDLASCLDVDECRERGPALCGSQRCENSPGSYRCVRDCDPGYHAGPEGTCDDVDECQEYGSAICGAQRCENTPGSYRCTPACDPGYQPTPGGGCQDVDECRNRSFCGAHAVCQNLPGSFQCLCDQGYEGARDGRHCVDVNECETLQRVCGAALCENVEGSFLCVCPTSPEEFDPMTGRCVPPRTSVGTFPGPQPQAPASPGLPARPPPPSPPRRPSPPRQGPAGSGRRECYFDTAAPDACDNILARNVTWQECCCTVGEGWGSGCRIQQCPSTETVEYQSLCPHGRGYLAPSGDLSLRRDVDECQLFRDQVCKSGVCVNTAPGYSCYCSNGYYYHAQRLECVDNDECADEEPACEGGSCVNTVGSYHCTCEPPLVLDGSRRRCVSNESQSLDDNLGVCWQEVGADLVCSRPRLDRQATYTECCCLYGEAWGMDCALCPAQDSDDFEALCNVLRPPAYGPPRPGGFGLPYEYGPDLGPPYQGLPYGPELYPPAVLPYDPYPPPPGPFARREAPYGAPPFDMPDFEDDGGPYSDSEAAAPPGPGSRWRYRSRDTRGSFPEPEESPEGGGYPGTLSGPYEGLEAEECGILDGCAHGRCVRVPEGFTCDCFSGYRLDMTRMACVDINECDEAEAASPLCVNARCVNTDGSFRCICRPGFAPSHQPHHCTPARPRA

Target ORF information:

RefSeq Version	XM_022525190.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X1, mRNA.

Target ORF information:

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

XM_022525190.1

ORF Insert Sequence:

ATGCGGCGGC CTGGCCCCAG CGGCCGCCGC CCCCTTCTGC TGGTGCTGCT GCTGCCGGTC 
TTCGCAGCCA CCGTCTCCGC CGCCAGCCCC AGCCCCAACC CCAGCGAGGC CGTCGAGGTT 
GCGGGGATCC CGGGCCGCCC GGCCGGTCTT GCTGCTTGTC GGTGCTGCAC AGGCCGATCG 
CCCAGGAGAA GTCGCTGCCT CAGAGCCTCC TGCAGGGTCC AGAGCTGCCC GCCCGAAAAG 
TGTGCAGGCC CTCTGCAGTG CCTGACCCCC GTGCCCCTGG TGCTGCCGAG CCCCAGCCCC 
AGCGTGAGGA AGAGACAGGT GTCCCTCAAC TGGCAGCCAC TGACGCTGCA GGAGGCCAGA 
GCTCTGCTGA GACGAAGGCG GCCCCGGGGG CCGGGGGGCC GGGCACTGCT GAGAAGGAGG 
CCCCAACAGC GCGCCCCTGC CGGCCAGACC CAGGTCCTGT GTCCCTTGAT CTGTCACAAC 
GGCGGTGTGT GCGTGAAGCC TGACCGCTGC CTCTGTCCCC CGGACTTCGC TGGCAAGTTC 
TGCCAGCTGC ATTCCTCGGG CGCCCGGCCA CCGGCCCCAG CCATGCCGGG CCTCACCCGC 
TCGGTGTACA CCATGCCACT GGCCAATCAC CGCGACGACG AGCACGGCGT GGCGTCCATG 
GTGAGCGTCC ACGTGGAGCA TCCTCAGGAG GCGTCCGTGG TGGTGCACCA GGTGGAGCGT 
GTGTCCGGCT CTTGGGAGGA GGCGGACGCC GAGGCAGTGG CACGGGCGGA GGCGGCGGCG 
CGGGCGGAGG CGGCGGCGCC CTACACGGTG CTGGCACAGA GCGCGCCGCG CGAGGACAGC 
TATTCGGATG CCTCCGGCTT CGGTTACTGC TTTCGGGAGC TGCGCGGAGG CGAATGTGCG 
TCCCCGCTGC CCGGGCTCCG GACTCAGGAG GTGTGCTGCA GAGGGGCAGG CTTGGCCTGG 
GGCGTTCACG ACTGTCAGTC ATGCTCGGAA CACCTGGGGA TTTCAGACCG AGTAGGCACC 
CCAGATGGAC CGTGTCCAAC CGGCTTTCAA AGGGTTAATG GGTCCTGCCA AGATGTGGAT 
GAGTGCGCTA CCGGTGGGCG CTGCCAACAC GGGGAGTGCG CGAACACGCA CGGCGGGTAC 
ACGTGCGTGT GCCCCGACGG CTTCCTGCAC GACTCATCCC GCAGCAGCTG TATCTCCCAG 
CACGTGATCT CAGAGGCCAA AGGGCCCTGC TTCCGCGTGC TCCGCGACGG TGGCTGCTCG 
CTGCCCATTC TGCGCAACAT CACCAAGCAG ATCTGCTGCT GTAGCCGCGT GGGCAAAGCC 
TGGGGTCGAG GCTGCCAGCT CTGCCCACCC TTCGGCTCAG AGGGTTTTCG GGAGATCTGC 
CCTGCTGGCC CTGGCTACCA CTACTCGGCC TCTGACCTCC GCTACAACAC CAGACCCCTG 
GGCCAGGAGC CACCCCGAGT GTCCCTGAGC CACCGGGCTC CACCCTCCAC CCCTAGGCCA 
CCCACAGGCT TTCTGCCCAC CCACCGTCCA GAACTCCCAC CTGAGCACAG GCCGGGCCCT 
GAGCTTCCCC TGCCCAGCAT CCCTGCCTGG TCTGGTCCTG AGATCCCTGA ATCCGGTTCC 
TCGCCCGGCG TGTGTCAGCG CAATCCCCAG GTCTGTGGCC CGGGACGCTG CATCCCGCGG 
CCCAGCGGCT ACACCTGCGC GTGCGACTCC GGTTTCCGGC TCAGCCCGCA GGGCACACAC 
TGCATCGACG TGGACGAGTG TCGCCGCGTG CCCCCGCCCT GTGCCCCCGG GCGCTGTGAA 
AACACGCCAG GCAGCTTCCA TTGCGTGTGT GGCCAGGGCT ACAGAGCGGG CCCGCGGGCT 
GCGGAGTGCT TGGATGTGGA CGAGTGCCAC GGCGTGCCGC CGCCGTGTGA CCGCGGGCGC 
TGCGAGAACA CGCCAGGCAG CTTCCTGTGC GTGTGCCCCG CTGGGTACCA GGCGGCTCCC 
CACGGTGCCG GCTGCCAGGA TGTGGACGAG TGCACGCAGA GCCCGGGCCT TTGTGGCAGA 
GGGGTCTGTG AGAACCTGTC CGGCTCTTTC CGCTGTGTTT GCCCGGCTGG CTTCCGGGGC 
TCGGCGTGTG AAGAAGATGT GGATGAGTGT GCCCAAGAGC CACCGCCCTG CGGGCCAGGC 
CGCTGTGACA ACACAGCGGG CTCCTTCCAC TGTGCCTGCC CTGCTGGCTT CCGCTCCCGA 
GGGCCCGGGG CCCCATGCCA AGATGTGGAT GAATGTGCCC GTAGCCCACC ACCCTGCGCC 
TATGGTCGGT GCGAGAACAC AGAAGGCGGC TTCCAGTGTG TCTGCCCCAC GGGCTTCCAA 
CCCAATGCTG CCGTCTCCGA GTGCGAGGAT GTGGATGAGT GTGAGAATCA CCTGGCCTGT 
CCTGGGCAGG AGTGTGTGAA CTCACCCGGC TCCTTCCAGT GTAGGGCTTG TCCTGCTGGC 
CACCACCTGC ACCATGGCCG ATGCGCTGAT GTGGACGAGT GCAGCTCGGG TGCTTCCTGC 
GGCCCCCATG GCCACTGCAC CAACACCGAA GGCTCCTTCC GCTGCAGCTG CGAGCCGGGC 
TACCGCGCGC CCTCTGGTCG GCCTGGGCCC TGCGCAGACG TGAACGAGTG CCTAGAGGGC 
GACTTCTGTT TCCCCCATGG CGAATGCCTC AACACCGACG GCTCCTTTGC CTGCACTTGC 
GCCCCCGGCT ACCGGCCCGG ACCCCGTGGA GCCTCTTGCC TCGACGTGGA CGAGTGCAGC 
GAGGAGGACC TCTGCCAGAG TGGCATCTGT ACCAACACCG ACGGCTCCTT CGAGTGCGTC 
TGTCCTCCCG GACATCGCGC CGGCCCAGAC CTCGCCTCCT GCCTGGACGT GGACGAATGT 
CGCGAGCGGG GCCCTGCCCT GTGTGGGTCC CAGCGTTGTG AGAATTCCCC GGGTTCCTAC 
CGCTGTGTCC GAGACTGCGA CCCTGGCTAC CACGCGGGCC CTGAGGGCAC CTGTGACGAT 
GTTGATGAGT GCCAAGAATA TGGCTCAGCG ATTTGTGGAG CCCAGCGCTG TGAGAACACT 
CCTGGCTCCT ACCGCTGCAC ACCGGCCTGT GACCCTGGCT ATCAGCCCAC GCCAGGGGGC 
GGATGCCAGG ATGTGGACGA ATGCCGGAAT CGGTCCTTCT GCGGGGCCCA CGCCGTGTGC 
CAGAACCTGC CCGGCTCCTT CCAGTGCCTC TGTGACCAGG GATACGAGGG GGCCAGGGAC 
GGGCGTCACT GCGTGGACGT GAATGAATGT GAAACGCTAC AGCGTGTGTG TGGAGCTGCC 
CTGTGTGAGA ATGTTGAAGG CTCCTTCCTC TGTGTCTGTC CTACCAGCCC TGAGGAGTTT 
GACCCCATGA CTGGACGTTG TGTTCCCCCG CGAACTTCTG TTGGCACATT CCCAGGCCCA 
CAGCCCCAGG CTCCTGCCAG CCCGGGTCTG CCTGCCCGGC CACCTCCGCC ATCCCCGCCC 
CGCCGGCCCA GCCCACCCAG GCAGGGCCCT GCAGGCAGTG GGCGCCGGGA GTGCTACTTT 
GACACGGCAG CCCCGGATGC CTGTGACAAC ATCCTGGCAC GGAATGTGAC GTGGCAAGAG 
TGCTGCTGCA CCGTGGGTGA GGGCTGGGGC AGCGGCTGCC GCATCCAGCA ATGCCCCAGC 
ACTGAGACAG TGGAGTACCA GTCACTATGT CCCCATGGCC GGGGCTATCT GGCACCGAGT 
GGAGACCTGA GCCTCCGGAG GGACGTGGAC GAGTGCCAGC TCTTCCGAGA CCAGGTGTGC 
AAGAGCGGCG TGTGCGTGAA CACGGCCCCA GGCTACTCAT GTTACTGCAG CAACGGCTAC 
TACTACCATG CCCAGCGACT GGAGTGCGTC GATAACGACG AGTGCGCCGA CGAAGAGCCT 
GCGTGTGAGG GCGGCAGCTG TGTTAACACC GTGGGTTCTT ACCACTGCAC CTGCGAGCCC 
CCGCTGGTGC TGGACGGCTC CCGACGCCGC TGCGTCTCCA ACGAGAGCCA GAGCCTCGAT 
GACAACCTGG GAGTGTGCTG GCAGGAAGTA GGAGCTGACC TCGTGTGTAG TCGCCCTCGG 
CTGGACCGCC AGGCCACTTA CACAGAGTGC TGCTGCCTCT ATGGCGAGGC CTGGGGCATG 
GACTGTGCCC TTTGCCCCGC CCAGGACTCA GATGACTTTG AGGCCCTGTG TAATGTGCTG 
CGCCCCCCTG CATACGGTCC CCCGCGGCCA GGTGGCTTTG GACTCCCTTA CGAATATGGC 
CCTGACCTAG GTCCACCCTA CCAGGGCCTT CCCTATGGGC CCGAACTGTA CCCGCCAGCC 
GTGCTACCCT ACGACCCCTA CCCACCTCCT CCTGGGCCCT TCGCCCGCCG GGAGGCCCCG 
TACGGAGCAC CACCCTTCGA CATGCCCGAC TTTGAGGACG ATGGCGGCCC CTACAGTGAC 
TCTGAGGCTG CCGCGCCACC TGGCCCAGGC AGCCGCTGGC GCTATCGGTC CCGCGACACG 
CGTGGCTCCT TCCCAGAGCC TGAGGAGTCA CCTGAAGGTG GAGGCTATCC TGGCACCCTG 
TCTGGGCCCT ACGAAGGACT GGAAGCGGAG GAGTGCGGGA TCTTGGACGG CTGTGCCCAC 
GGCCGCTGCG TGCGTGTCCC CGAGGGCTTC ACCTGCGACT GCTTCAGTGG TTACCGCCTG 
GACATGACCC GCATGGCCTG CGTCGACATC AACGAGTGTG ACGAGGCTGA GGCAGCCTCC 
CCGCTCTGTG TCAACGCACG CTGTGTCAAC ACTGATGGCT CCTTCCGCTG TATCTGCCGC 
CCAGGATTCG CACCCTCGCA CCAGCCACAC CACTGCACTC CTGCCAGGCC ACGGGCCTGA

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

LOC111161493 ( XM_022525191.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022380899.1 Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OEn52496
Clone ID Related Accession (Same CDS sequence)	XM_022525191.1
Accession Version	XM_022525191.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4647bp) 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	latent-transforming growth factor beta-binding protein 4 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154169.1) 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##

ATGGCGGGCG GCGCGCGGGT GTCGCTATTG GTGCTGCTGG CGCTGCTCGG ACCGCAGCCC 
GTGCTGGGCC GGCCCCGAGA GCGCCTCCGC GTGCGCTTCA CCCCTGCCGT GTGCGGCCTG 
CGCTGCGTCC ATGGCCCCAC CGGTTCCCGC TGTACCCCGA CCTGCGCGCC CCGCAACGCC 
ACCAGCGTGG ACAGCGGCGC GCCCGGCGGG GCGGCCCCGG GGGGACCCGG CTTCCGCGCC 
TTCCTGTGTC CCTTGATCTG TCACAACGGC GGTGTGTGCG TGAAGCCTGA CCGCTGCCTC 
TGTCCCCCGG ACTTCGCTGG CAAGTTCTGC CAGCTGCATT CCTCGGGCGC CCGGCCACCG 
GCCCCAGCCA TGCCGGGCCT CACCCGCTCG GTGTACACCA TGCCACTGGC CAATCACCGC 
GACGACGAGC ACGGCGTGGC GTCCATGGTG AGCGTCCACG TGGAGCATCC TCAGGAGGCG 
TCCGTGGTGG TGCACCAGGT GGAGCGTGTG TCCGGCTCTT GGGAGGAGGC GGACGCCGAG 
GCAGTGGCAC GGGCGGAGGC GGCGGCGCGG GCGGAGGCGG CGGCGCCCTA CACGGTGCTG 
GCACAGAGCG CGCCGCGCGA GGACAGCTAT TCGGATGCCT CCGGCTTCGG TTACTGCTTT 
CGGGAGCTGC GCGGAGGCGA ATGTGCGTCC CCGCTGCCCG GGCTCCGGAC TCAGGAGGTG 
TGCTGCAGAG GGGCAGGCTT GGCCTGGGGC GTTCACGACT GTCAGTCATG CTCGGAACAC 
CTGGGGATTT CAGACCGAGT AGGCACCCCA GATGGACCGT GTCCAACCGG CTTTCAAAGG 
GTTAATGGGT CCTGCCAAGA TGTGGATGAG TGCGCTACCG GTGGGCGCTG CCAACACGGG 
GAGTGCGCGA ACACGCACGG CGGGTACACG TGCGTGTGCC CCGACGGCTT CCTGCACGAC 
TCATCCCGCA GCAGCTGTAT CTCCCAGCAC GTGATCTCAG AGGCCAAAGG GCCCTGCTTC 
CGCGTGCTCC GCGACGGTGG CTGCTCGCTG CCCATTCTGC GCAACATCAC CAAGCAGATC 
TGCTGCTGTA GCCGCGTGGG CAAAGCCTGG GGTCGAGGCT GCCAGCTCTG CCCACCCTTC 
GGCTCAGAGG GTTTTCGGGA GATCTGCCCT GCTGGCCCTG GCTACCACTA CTCGGCCTCT 
GACCTCCGCT ACAACACCAG ACCCCTGGGC CAGGAGCCAC CCCGAGTGTC CCTGAGCCAC 
CGGGCTCCAC CCTCCACCCC TAGGCCACCC ACAGGCTTTC TGCCCACCCA CCGTCCAGAA 
CTCCCACCTG AGCACAGGCC GGGCCCTGAG CTTCCCCTGC CCAGCATCCC TGCCTGGTCT 
GGTCCTGAGA TCCCTGAATC CGGTTCCTCG CCCGGCGTGT GTCAGCGCAA TCCCCAGGTC 
TGTGGCCCGG GACGCTGCAT CCCGCGGCCC AGCGGCTACA CCTGCGCGTG CGACTCCGGT 
TTCCGGCTCA GCCCGCAGGG CACACACTGC ATCGACGTGG ACGAGTGTCG CCGCGTGCCC 
CCGCCCTGTG CCCCCGGGCG CTGTGAAAAC ACGCCAGGCA GCTTCCATTG CGTGTGTGGC 
CAGGGCTACA GAGCGGGCCC GCGGGCTGCG GAGTGCTTGG ATGTGGACGA GTGCCACGGC 
GTGCCGCCGC CGTGTGACCG CGGGCGCTGC GAGAACACGC CAGGCAGCTT CCTGTGCGTG 
TGCCCCGCTG GGTACCAGGC GGCTCCCCAC GGTGCCGGCT GCCAGGATGT GGACGAGTGC 
ACGCAGAGCC CGGGCCTTTG TGGCAGAGGG GTCTGTGAGA ACCTGTCCGG CTCTTTCCGC 
TGTGTTTGCC CGGCTGGCTT CCGGGGCTCG GCGTGTGAAG AAGATGTGGA TGAGTGTGCC 
CAAGAGCCAC CGCCCTGCGG GCCAGGCCGC TGTGACAACA CAGCGGGCTC CTTCCACTGT 
GCCTGCCCTG CTGGCTTCCG CTCCCGAGGG CCCGGGGCCC CATGCCAAGA TGTGGATGAA 
TGTGCCCGTA GCCCACCACC CTGCGCCTAT GGTCGGTGCG AGAACACAGA AGGCGGCTTC 
CAGTGTGTCT GCCCCACGGG CTTCCAACCC AATGCTGCCG TCTCCGAGTG CGAGGATGTG 
GATGAGTGTG AGAATCACCT GGCCTGTCCT GGGCAGGAGT GTGTGAACTC ACCCGGCTCC 
TTCCAGTGTA GGGCTTGTCC TGCTGGCCAC CACCTGCACC ATGGCCGATG CGCTGATGTG 
GACGAGTGCA GCTCGGGTGC TTCCTGCGGC CCCCATGGCC ACTGCACCAA CACCGAAGGC 
TCCTTCCGCT GCAGCTGCGA GCCGGGCTAC CGCGCGCCCT CTGGTCGGCC TGGGCCCTGC 
GCAGACGTGA ACGAGTGCCT AGAGGGCGAC TTCTGTTTCC CCCATGGCGA ATGCCTCAAC 
ACCGACGGCT CCTTTGCCTG CACTTGCGCC CCCGGCTACC GGCCCGGACC CCGTGGAGCC 
TCTTGCCTCG ACGTGGACGA GTGCAGCGAG GAGGACCTCT GCCAGAGTGG CATCTGTACC 
AACACCGACG GCTCCTTCGA GTGCGTCTGT CCTCCCGGAC ATCGCGCCGG CCCAGACCTC 
GCCTCCTGCC TGGACGTGGA CGAATGTCGC GAGCGGGGCC CTGCCCTGTG TGGGTCCCAG 
CGTTGTGAGA ATTCCCCGGG TTCCTACCGC TGTGTCCGAG ACTGCGACCC TGGCTACCAC 
GCGGGCCCTG AGGGCACCTG TGACGATGTT GATGAGTGCC AAGAATATGG CTCAGCGATT 
TGTGGAGCCC AGCGCTGTGA GAACACTCCT GGCTCCTACC GCTGCACACC GGCCTGTGAC 
CCTGGCTATC AGCCCACGCC AGGGGGCGGA TGCCAGGATG TGGACGAATG CCGGAATCGG 
TCCTTCTGCG GGGCCCACGC CGTGTGCCAG AACCTGCCCG GCTCCTTCCA GTGCCTCTGT 
GACCAGGGAT ACGAGGGGGC CAGGGACGGG CGTCACTGCG TGGACGTGAA TGAATGTGAA 
ACGCTACAGC GTGTGTGTGG AGCTGCCCTG TGTGAGAATG TTGAAGGCTC CTTCCTCTGT 
GTCTGTCCTA CCAGCCCTGA GGAGTTTGAC CCCATGACTG GACGTTGTGT TCCCCCGCGA 
ACTTCTGTTG GCACATTCCC AGGCCCACAG CCCCAGGCTC CTGCCAGCCC GGGTCTGCCT 
GCCCGGCCAC CTCCGCCATC CCCGCCCCGC CGGCCCAGCC CACCCAGGCA GGGCCCTGCA 
GGCAGTGGGC GCCGGGAGTG CTACTTTGAC ACGGCAGCCC CGGATGCCTG TGACAACATC 
CTGGCACGGA ATGTGACGTG GCAAGAGTGC TGCTGCACCG TGGGTGAGGG CTGGGGCAGC 
GGCTGCCGCA TCCAGCAATG CCCCAGCACT GAGACAGTGG AGTACCAGTC ACTATGTCCC 
CATGGCCGGG GCTATCTGGC ACCGAGTGGA GACCTGAGCC TCCGGAGGGA CGTGGACGAG 
TGCCAGCTCT TCCGAGACCA GGTGTGCAAG AGCGGCGTGT GCGTGAACAC GGCCCCAGGC 
TACTCATGTT ACTGCAGCAA CGGCTACTAC TACCATGCCC AGCGACTGGA GTGCGTCGAT 
AACGACGAGT GCGCCGACGA AGAGCCTGCG TGTGAGGGCG GCAGCTGTGT TAACACCGTG 
GGTTCTTACC ACTGCACCTG CGAGCCCCCG CTGGTGCTGG ACGGCTCCCG ACGCCGCTGC 
GTCTCCAACG AGAGCCAGAG CCTCGATGAC AACCTGGGAG TGTGCTGGCA GGAAGTAGGA 
GCTGACCTCG TGTGTAGTCG CCCTCGGCTG GACCGCCAGG CCACTTACAC AGAGTGCTGC 
TGCCTCTATG GCGAGGCCTG GGGCATGGAC TGTGCCCTTT GCCCCGCCCA GGACTCAGAT 
GACTTTGAGG CCCTGTGTAA TGTGCTGCGC CCCCCTGCAT ACGGTCCCCC GCGGCCAGGT 
GGCTTTGGAC TCCCTTACGA ATATGGCCCT GACCTAGGTC CACCCTACCA GGGCCTTCCC 
TATGGGCCCG AACTGTACCC GCCAGCCGTG CTACCCTACG ACCCCTACCC ACCTCCTCCT 
GGGCCCTTCG CCCGCCGGGA GGCCCCGTAC GGAGCACCAC CCTTCGACAT GCCCGACTTT 
GAGGACGATG GCGGCCCCTA CAGTGACTCT GAGGCTGCCG CGCCACCTGG CCCAGGCAGC 
CGCTGGCGCT ATCGGTCCCG CGACACGCGT GGCTCCTTCC CAGAGCCTGA GGAGTCACCT 
GAAGGTGGAG GCTATCCTGG CACCCTGTCT GGGCCCTACG AAGGACTGGA AGCGGAGGAG 
TGCGGGATCT TGGACGGCTG TGCCCACGGC CGCTGCGTGC GTGTCCCCGA GGGCTTCACC 
TGCGACTGCT TCAGTGGTTA CCGCCTGGAC ATGACCCGCA TGGCCTGCGT CGACATCAAC 
GAGTGTGACG AGGCTGAGGC AGCCTCCCCG CTCTGTGTCA ACGCACGCTG TGTCAACACT 
GATGGCTCCT TCCGCTGTAT CTGCCGCCCA GGATTCGCAC CCTCGCACCA GCCACACCAC 
TGCACTCCTG CCAGGCCACG GGCCTGA

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

RefSeq	XP_022380899.1
CDS	1..4647
Translation	MAGGARVSLLVLLALLGPQPVLGRPRERLRVRFTPAVCGLRCVHGPTGSRCTPTCAPRNATSVDSGAPGGAAPGGPGFRAFLCPLICHNGGVCVKPDRCLCPPDFAGKFCQLHSSGARPPAPAMPGLTRSVYTMPLANHRDDEHGVASMVSVHVEHPQEASVVVHQVERVSGSWEEADAEAVARAEAAARAEAAAPYTVLAQSAPREDSYSDASGFGYCFRELRGGECASPLPGLRTQEVCCRGAGLAWGVHDCQSCSEHLGISDRVGTPDGPCPTGFQRVNGSCQDVDECATGGRCQHGECANTHGGYTCVCPDGFLHDSSRSSCISQHVISEAKGPCFRVLRDGGCSLPILRNITKQICCCSRVGKAWGRGCQLCPPFGSEGFREICPAGPGYHYSASDLRYNTRPLGQEPPRVSLSHRAPPSTPRPPTGFLPTHRPELPPEHRPGPELPLPSIPAWSGPEIPESGSSPGVCQRNPQVCGPGRCIPRPSGYTCACDSGFRLSPQGTHCIDVDECRRVPPPCAPGRCENTPGSFHCVCGQGYRAGPRAAECLDVDECHGVPPPCDRGRCENTPGSFLCVCPAGYQAAPHGAGCQDVDECTQSPGLCGRGVCENLSGSFRCVCPAGFRGSACEEDVDECAQEPPPCGPGRCDNTAGSFHCACPAGFRSRGPGAPCQDVDECARSPPPCAYGRCENTEGGFQCVCPTGFQPNAAVSECEDVDECENHLACPGQECVNSPGSFQCRACPAGHHLHHGRCADVDECSSGASCGPHGHCTNTEGSFRCSCEPGYRAPSGRPGPCADVNECLEGDFCFPHGECLNTDGSFACTCAPGYRPGPRGASCLDVDECSEEDLCQSGICTNTDGSFECVCPPGHRAGPDLASCLDVDECRERGPALCGSQRCENSPGSYRCVRDCDPGYHAGPEGTCDDVDECQEYGSAICGAQRCENTPGSYRCTPACDPGYQPTPGGGCQDVDECRNRSFCGAHAVCQNLPGSFQCLCDQGYEGARDGRHCVDVNECETLQRVCGAALCENVEGSFLCVCPTSPEEFDPMTGRCVPPRTSVGTFPGPQPQAPASPGLPARPPPPSPPRRPSPPRQGPAGSGRRECYFDTAAPDACDNILARNVTWQECCCTVGEGWGSGCRIQQCPSTETVEYQSLCPHGRGYLAPSGDLSLRRDVDECQLFRDQVCKSGVCVNTAPGYSCYCSNGYYYHAQRLECVDNDECADEEPACEGGSCVNTVGSYHCTCEPPLVLDGSRRRCVSNESQSLDDNLGVCWQEVGADLVCSRPRLDRQATYTECCCLYGEAWGMDCALCPAQDSDDFEALCNVLRPPAYGPPRPGGFGLPYEYGPDLGPPYQGLPYGPELYPPAVLPYDPYPPPPGPFARREAPYGAPPFDMPDFEDDGGPYSDSEAAAPPGPGSRWRYRSRDTRGSFPEPEESPEGGGYPGTLSGPYEGLEAEECGILDGCAHGRCVRVPEGFTCDCFSGYRLDMTRMACVDINECDEAEAASPLCVNARCVNTDGSFRCICRPGFAPSHQPHHCTPARPRA

Target ORF information:

RefSeq Version	XM_022525191.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni latent transforming growth factor beta binding protein 4 (LOC111161493), transcript variant X2, mRNA.

Target ORF information:

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

XM_022525191.1

ORF Insert Sequence:

ATGGCGGGCG GCGCGCGGGT GTCGCTATTG GTGCTGCTGG CGCTGCTCGG ACCGCAGCCC 
GTGCTGGGCC GGCCCCGAGA GCGCCTCCGC GTGCGCTTCA CCCCTGCCGT GTGCGGCCTG 
CGCTGCGTCC ATGGCCCCAC CGGTTCCCGC TGTACCCCGA CCTGCGCGCC CCGCAACGCC 
ACCAGCGTGG ACAGCGGCGC GCCCGGCGGG GCGGCCCCGG GGGGACCCGG CTTCCGCGCC 
TTCCTGTGTC CCTTGATCTG TCACAACGGC GGTGTGTGCG TGAAGCCTGA CCGCTGCCTC 
TGTCCCCCGG ACTTCGCTGG CAAGTTCTGC CAGCTGCATT CCTCGGGCGC CCGGCCACCG 
GCCCCAGCCA TGCCGGGCCT CACCCGCTCG GTGTACACCA TGCCACTGGC CAATCACCGC 
GACGACGAGC ACGGCGTGGC GTCCATGGTG AGCGTCCACG TGGAGCATCC TCAGGAGGCG 
TCCGTGGTGG TGCACCAGGT GGAGCGTGTG TCCGGCTCTT GGGAGGAGGC GGACGCCGAG 
GCAGTGGCAC GGGCGGAGGC GGCGGCGCGG GCGGAGGCGG CGGCGCCCTA CACGGTGCTG 
GCACAGAGCG CGCCGCGCGA GGACAGCTAT TCGGATGCCT CCGGCTTCGG TTACTGCTTT 
CGGGAGCTGC GCGGAGGCGA ATGTGCGTCC CCGCTGCCCG GGCTCCGGAC TCAGGAGGTG 
TGCTGCAGAG GGGCAGGCTT GGCCTGGGGC GTTCACGACT GTCAGTCATG CTCGGAACAC 
CTGGGGATTT CAGACCGAGT AGGCACCCCA GATGGACCGT GTCCAACCGG CTTTCAAAGG 
GTTAATGGGT CCTGCCAAGA TGTGGATGAG TGCGCTACCG GTGGGCGCTG CCAACACGGG 
GAGTGCGCGA ACACGCACGG CGGGTACACG TGCGTGTGCC CCGACGGCTT CCTGCACGAC 
TCATCCCGCA GCAGCTGTAT CTCCCAGCAC GTGATCTCAG AGGCCAAAGG GCCCTGCTTC 
CGCGTGCTCC GCGACGGTGG CTGCTCGCTG CCCATTCTGC GCAACATCAC CAAGCAGATC 
TGCTGCTGTA GCCGCGTGGG CAAAGCCTGG GGTCGAGGCT GCCAGCTCTG CCCACCCTTC 
GGCTCAGAGG GTTTTCGGGA GATCTGCCCT GCTGGCCCTG GCTACCACTA CTCGGCCTCT 
GACCTCCGCT ACAACACCAG ACCCCTGGGC CAGGAGCCAC CCCGAGTGTC CCTGAGCCAC 
CGGGCTCCAC CCTCCACCCC TAGGCCACCC ACAGGCTTTC TGCCCACCCA CCGTCCAGAA 
CTCCCACCTG AGCACAGGCC GGGCCCTGAG CTTCCCCTGC CCAGCATCCC TGCCTGGTCT 
GGTCCTGAGA TCCCTGAATC CGGTTCCTCG CCCGGCGTGT GTCAGCGCAA TCCCCAGGTC 
TGTGGCCCGG GACGCTGCAT CCCGCGGCCC AGCGGCTACA CCTGCGCGTG CGACTCCGGT 
TTCCGGCTCA GCCCGCAGGG CACACACTGC ATCGACGTGG ACGAGTGTCG CCGCGTGCCC 
CCGCCCTGTG CCCCCGGGCG CTGTGAAAAC ACGCCAGGCA GCTTCCATTG CGTGTGTGGC 
CAGGGCTACA GAGCGGGCCC GCGGGCTGCG GAGTGCTTGG ATGTGGACGA GTGCCACGGC 
GTGCCGCCGC CGTGTGACCG CGGGCGCTGC GAGAACACGC CAGGCAGCTT CCTGTGCGTG 
TGCCCCGCTG GGTACCAGGC GGCTCCCCAC GGTGCCGGCT GCCAGGATGT GGACGAGTGC 
ACGCAGAGCC CGGGCCTTTG TGGCAGAGGG GTCTGTGAGA ACCTGTCCGG CTCTTTCCGC 
TGTGTTTGCC CGGCTGGCTT CCGGGGCTCG GCGTGTGAAG AAGATGTGGA TGAGTGTGCC 
CAAGAGCCAC CGCCCTGCGG GCCAGGCCGC TGTGACAACA CAGCGGGCTC CTTCCACTGT 
GCCTGCCCTG CTGGCTTCCG CTCCCGAGGG CCCGGGGCCC CATGCCAAGA TGTGGATGAA 
TGTGCCCGTA GCCCACCACC CTGCGCCTAT GGTCGGTGCG AGAACACAGA AGGCGGCTTC 
CAGTGTGTCT GCCCCACGGG CTTCCAACCC AATGCTGCCG TCTCCGAGTG CGAGGATGTG 
GATGAGTGTG AGAATCACCT GGCCTGTCCT GGGCAGGAGT GTGTGAACTC ACCCGGCTCC 
TTCCAGTGTA GGGCTTGTCC TGCTGGCCAC CACCTGCACC ATGGCCGATG CGCTGATGTG 
GACGAGTGCA GCTCGGGTGC TTCCTGCGGC CCCCATGGCC ACTGCACCAA CACCGAAGGC 
TCCTTCCGCT GCAGCTGCGA GCCGGGCTAC CGCGCGCCCT CTGGTCGGCC TGGGCCCTGC 
GCAGACGTGA ACGAGTGCCT AGAGGGCGAC TTCTGTTTCC CCCATGGCGA ATGCCTCAAC 
ACCGACGGCT CCTTTGCCTG CACTTGCGCC CCCGGCTACC GGCCCGGACC CCGTGGAGCC 
TCTTGCCTCG ACGTGGACGA GTGCAGCGAG GAGGACCTCT GCCAGAGTGG CATCTGTACC 
AACACCGACG GCTCCTTCGA GTGCGTCTGT CCTCCCGGAC ATCGCGCCGG CCCAGACCTC 
GCCTCCTGCC TGGACGTGGA CGAATGTCGC GAGCGGGGCC CTGCCCTGTG TGGGTCCCAG 
CGTTGTGAGA ATTCCCCGGG TTCCTACCGC TGTGTCCGAG ACTGCGACCC TGGCTACCAC 
GCGGGCCCTG AGGGCACCTG TGACGATGTT GATGAGTGCC AAGAATATGG CTCAGCGATT 
TGTGGAGCCC AGCGCTGTGA GAACACTCCT GGCTCCTACC GCTGCACACC GGCCTGTGAC 
CCTGGCTATC AGCCCACGCC AGGGGGCGGA TGCCAGGATG TGGACGAATG CCGGAATCGG 
TCCTTCTGCG GGGCCCACGC CGTGTGCCAG AACCTGCCCG GCTCCTTCCA GTGCCTCTGT 
GACCAGGGAT ACGAGGGGGC CAGGGACGGG CGTCACTGCG TGGACGTGAA TGAATGTGAA 
ACGCTACAGC GTGTGTGTGG AGCTGCCCTG TGTGAGAATG TTGAAGGCTC CTTCCTCTGT 
GTCTGTCCTA CCAGCCCTGA GGAGTTTGAC CCCATGACTG GACGTTGTGT TCCCCCGCGA 
ACTTCTGTTG GCACATTCCC AGGCCCACAG CCCCAGGCTC CTGCCAGCCC GGGTCTGCCT 
GCCCGGCCAC CTCCGCCATC CCCGCCCCGC CGGCCCAGCC CACCCAGGCA GGGCCCTGCA 
GGCAGTGGGC GCCGGGAGTG CTACTTTGAC ACGGCAGCCC CGGATGCCTG TGACAACATC 
CTGGCACGGA ATGTGACGTG GCAAGAGTGC TGCTGCACCG TGGGTGAGGG CTGGGGCAGC 
GGCTGCCGCA TCCAGCAATG CCCCAGCACT GAGACAGTGG AGTACCAGTC ACTATGTCCC 
CATGGCCGGG GCTATCTGGC ACCGAGTGGA GACCTGAGCC TCCGGAGGGA CGTGGACGAG 
TGCCAGCTCT TCCGAGACCA GGTGTGCAAG AGCGGCGTGT GCGTGAACAC GGCCCCAGGC 
TACTCATGTT ACTGCAGCAA CGGCTACTAC TACCATGCCC AGCGACTGGA GTGCGTCGAT 
AACGACGAGT GCGCCGACGA AGAGCCTGCG TGTGAGGGCG GCAGCTGTGT TAACACCGTG 
GGTTCTTACC ACTGCACCTG CGAGCCCCCG CTGGTGCTGG ACGGCTCCCG ACGCCGCTGC 
GTCTCCAACG AGAGCCAGAG CCTCGATGAC AACCTGGGAG TGTGCTGGCA GGAAGTAGGA 
GCTGACCTCG TGTGTAGTCG CCCTCGGCTG GACCGCCAGG CCACTTACAC AGAGTGCTGC 
TGCCTCTATG GCGAGGCCTG GGGCATGGAC TGTGCCCTTT GCCCCGCCCA GGACTCAGAT 
GACTTTGAGG CCCTGTGTAA TGTGCTGCGC CCCCCTGCAT ACGGTCCCCC GCGGCCAGGT 
GGCTTTGGAC TCCCTTACGA ATATGGCCCT GACCTAGGTC CACCCTACCA GGGCCTTCCC 
TATGGGCCCG AACTGTACCC GCCAGCCGTG CTACCCTACG ACCCCTACCC ACCTCCTCCT 
GGGCCCTTCG CCCGCCGGGA GGCCCCGTAC GGAGCACCAC CCTTCGACAT GCCCGACTTT 
GAGGACGATG GCGGCCCCTA CAGTGACTCT GAGGCTGCCG CGCCACCTGG CCCAGGCAGC 
CGCTGGCGCT ATCGGTCCCG CGACACGCGT GGCTCCTTCC CAGAGCCTGA GGAGTCACCT 
GAAGGTGGAG GCTATCCTGG CACCCTGTCT GGGCCCTACG AAGGACTGGA AGCGGAGGAG 
TGCGGGATCT TGGACGGCTG TGCCCACGGC CGCTGCGTGC GTGTCCCCGA GGGCTTCACC 
TGCGACTGCT TCAGTGGTTA CCGCCTGGAC ATGACCCGCA TGGCCTGCGT CGACATCAAC 
GAGTGTGACG AGGCTGAGGC AGCCTCCCCG CTCTGTGTCA ACGCACGCTG TGTCAACACT 
GATGGCTCCT TCCGCTGTAT CTGCCGCCCA GGATTCGCAC CCTCGCACCA GCCACACCAC 
TGCACTCCTG CCAGGCCACG GGCCTGA