ADAMTS13 cDNA ORF clone, Eptesicus fuscus(big brown bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS13
Entrez Gene ID	103296148
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 13
Gene Type	protein-coding
Organism	Eptesicus fuscus(big brown bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008152688.1	XP_008150910.1	A disintegrin and metalloproteinase with thrombospondin motifs 13
XM_028127122.1	XP_027982923.1	A disintegrin and metalloproteinase with thrombospondin motifs 13

Pathways from BioSystems
Gene Ontology

The following ADAMTS13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS13 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
OEp42515	XM_028127122.1 Latest version!	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OEp15618	XM_008152688.1 Latest version!	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 13 (ADAMTS13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

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
30% OFF

*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)

ADAMTS13 ( XM_028127122.1 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_027982923.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), mRNA.

Price & Availability↑

CloneID	OEp42515
Clone ID Related Accession (Same CDS sequence)	XM_028127122.1
Accession Version	XM_028127122.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4089bp) 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	2019-02-11
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370730.1) 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 :: Eptesicus fuscus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCCCCAG CCCAGCCCAT CCTCCCCCGC CCTCCAGGAA CCTTCCATCT CAACCCTGCC 
TGCTCCTCCC TGCCAGGCCT CCGGAGCCGC GCTGCCGAGG GGCGCGTCCT GCACCTGGAG 
CTGCTGGTGG CCGCGGGCCC CGACGTGCAC CAGGCCCACC AGGAGGACAC GGAGCGCTAC 
GTGCTGACCA ACTTCAACAT GGCGTCGGAA CTGCTGAGGG ACCCGTCCCT GGGGGCCCAG 
TTCCGAGTGC ACCTGGTGAG GATGGTCATC CTGACGCGGC CCCAGGACTC CCCACAGATC 
ACAGCCAACA TCACCGCATC GCTGCTGAGC GTCTGCGAGT GGAGCAGGAC GGTCAACCCC 
CCGGATGACG CGGACCCCGC GCACGCCGAC CTGGTCCTCT ACGTCACCAG GTTTGACCTG 
GAGCTGCCGG ATGGCAACCG GCAGGTTCGG GGGGTCACCC AGCTGGGGGG CGCCTGCTCC 
TCCTCGTGGA GCTGCCTCAT CACCGAAGAT ACTGGCTTCG ACCTGGGGGT CACCATTGCC 
CACGAGATCG GGCACAGCTT CGGCCTGGAG CACGATGGCG CGCCCGGGAG CGGGAGCGGG 
TGCAGGCCCA GCGGCCACGT GATGGGGACT GACGGCGCCG CGCCCACCCG AGGGGGCCTG 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGCACCTGC TCAGCACAGG ACGGGTGCGC 
TGCGTGTGGG ACCCGCCGGG TCCGCAGTCC GGGCCTGCGG GGCGCCCTCC CCAGGCCCAC 
CCAGGTCTCT ACTATGGCGC GGACGAGCAG TGCCGCGTGG CCTTCGGCCC CTCCGCGGTG 
GCCTGCACCT TCACCCGGGA GGACACGGAC GCGTGCCAGG CGCTCTCCTG CCACACAGAC 
CCCCTGGACC TCAGCAGCTG CAGCCGCCTC CTCTTCCCGC TCCTGGACGG GACAGAGTGC 
GGCCCCCAGA AGTGGTGTTC CAAGGGTCAC TGCCGCGCCC TGGCGGAGCT GGCCCCCATG 
GGGGCAGTGC ACGGGCACTG GTCAGCTTGG GGTCCCCCCA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGCG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCTTGCA CCGGTGCGGA CCTCCAGGCC GAGATGTGCA ACACCCAGGC CTGCGAGAAC 
ACCCAGCTGG CGTTCATGGC CGAGCAGTGT GCGGAGACCG AGGGGCGGCC TCTGGGCCTC 
TCCCCAGGCC ATGCCTCCTC CTACCGCTGG GGCCCAGCGG TGCCTCACAG CCAAGGGGAC 
GCTCTGTGCA GACACATGTG CCGGGCCGTT GGCGAGAGCT TCATCATGAG GCGTGGGGAC 
AGTTTCCGGG ATGGCACCCG CTGTGTGCCA GGCAGCCCGC GGGAGGACGG GACCCTCAGC 
CTGTGCGTGC TGGGCAGCTG CAGGACGTTC GGCTGTGACG GCAGGATGGA GTCCGGGCGG 
GTGCCAGACG TGTGCCAGGT GTGCGGAGGG GACAACAGCA CGTGCAGCCC GCACAGCGGC 
TCCTTCACGG GCGGAAGAGC CCGAGAGTAC GTCACGTTCC TGACGCTGAC GCCCAACCTG 
ACCAGCGTGC GCGTCGCCAA CCACAGGCCG CTCTTCACAC ACCTGGCGGT GAGGATCCGC 
GGGCGCTACG TGGTGGCAGG GAATTTCAGC ATCTCGCCCA GCACCAGCCA CCCCTCCCCC 
CTGGAGGACA GCCGCATCGA GTACAGAGTG ACGCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGCTCT CCATCCCCGG GCCCACCCAG GAGGACGTGG AGATCCAGGT GTACCGGCGC 
TACGGCGAGG AGTATGGCAA CGCCACCCGC CCGCACATCA CCTTCACCTA CTTCCAGCCG 
AAGCTGCGGG CCTGGGCGTG GGCTGCCACG CGGGGGTCCT GCTCGGTGAG CTGTGGGGCA 
GGCCTGCGGT GGGTGACCTA CAGCTGTCTG GACCAGGCCA GGAACCAGCG GGTGGAGGCT 
GCCCAGTGCG CAGGGAGCCC GCAGCCGGCG GCCTGGCCAG AGCCCTGCAC GCCCGGGCCC 
TGCCCCCCGT ACTGGGCCGC TGGAGACTTC GGCCCCTGCA GCTCCTCCTG CGGGACAGGC 
CTGCGGGAGC GGGCGGTGCG CTGCGTGCAG GCCCAGGGCC CCCGCCTGAG GACGCTGCCC 
GCTGCCCGGT GCGGAGCGCT GGCCCCGAGG CCCGCGGTGG TGGAAACCTG CCGTTCCCAG 
CCCTGCCCCC CCAGGTCGGG GGTGTCGGAC GCGTGCTCAG TGGCCTGTGG AGCGGACCTG 
GCCGCACAGA ATGTCACGTG CGTGCAGGGG GCAGACGGCC TGGAGGCGCC CGTGACCGCC 
GGGCCCTGCT CTGCAGACCA GACACCAGCT GCCCTCGAGC CCTGCGTGGA GGGGGCCTGT 
CCTCTGGGCT GGGGCCCTCT GGACCCCCAG CCTCGCGGGG AGGAGGCTGC ATCCGCACCG 
GGCGGCCCCA GGCTGGGGGC TCGTGCTGCC CACGTGTGGA CGCCCCTGGC GGGCTCCTGC 
TCCGTCTCCT GTGGCAGAGG CCAGATGGAG CTGCGCTTCG TGTGCGTGGA CTCCGCCCTG 
GGGACAGCTG TCCAGGAGGA GCTGTGTGAC CCAGCGAGCA AGCCGGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGCCCCGTG CCCCGCTTGG TGGCGGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGG GTGGGGTGGC GCGGAGGATC CTGTATTGTG CCCGGGCCCA CGGGCAGGAC 
GAGGACCAGG AGATCCTGCC GGACGCCCAG TGCCGGGGGC TGCCGCGGCC AGAGCAGCTG 
GAGGCCTGCA GCCCGGAGCC CTGCCCGCCC AGGTGGAAAG TCACGTCCCG GGGCCCATGC 
TCAGCCAGCT GTGGCCTCGG CACCGCCCCC CGCGCCATAG CCTGCGTGCA GCTGGACCGA 
GGCCAGGACA CGGAGGTGGA CGGGGCGGCC TGTGCGGCTC TGGTGCGGCC GCAGGCCAGC 
ATCCCCTGCG TCGTCGCCGA CTGCGCTTAC CAGTGGCACC TCAGCACCTG GACGCAGTGC 
TCCGTCTCCT GCGGGGATGG CGTCCAGCAC CGGCACGACA CCTGCCTGGG ACCCGAGGCC 
CGGGGGCCCG TGCCAGCCCA CTTCTGCCAG CACCTGCCCA AGCCGGCGAC GGTGCGGGGC 
TGCTGGGCCG GGCCCTGCGC AGGGCAGGGG ACGCCCCGCC TGGCGCCCCG CGGGGAAGCC 
GCCGCTCCAG CGCAGACCAC GGCTGGCCCT GCCGCCGCTT CCCCCGAGTG GCCCCAGCCC 
CGGGCCCGCC TCCTCTCCCA GGACAGCCCT CGGGGGGCCG GTCCCTGTGG CCGGCAGCAC 
CTCGAGCCCA CAGGAGCCAT CGACTTGCGA GGCGCCGGGC AGGCTGACTG TGCAGTGGCC 
ATCGGGCGGC CCCTGGGGGA GGTGCTGACC CTCCAAGTCC TGGAGAGCTC CCTCAACTGC 
AGCGCCGGGG AGATGCTGCT GCTCTGGGGC AGGCTCATGT GGAGGAGGGC GTGCCGGAAG 
CTGTCGGGCC TGACCTTCAG CTCCAAGGCC AACACCCTGG TGGTGACGCA GCGCCGTGTG 
CGGCCGCGAG GCGGAGTGGT GCTGCGCTAC TCCAGCCGGC CTGCCCCGGG GGCCGTGCAC 
AGAGAATGTG ACACGCAGCT CTTTGGCCCC TGGGGAGAAA TTGCTAGCCC CCTGGTGAGT 
TTGGCTGGGG GGAACGTGGG GGGCTGCCGC ATCTTCATCG ACGTGGCTCC GTGGGACCGT 
ATCGCCATCC ACGCCCTGGC CGCTGACATG GGCTCCGAGG GAGCTGATGC CAGCTACATT 
TCGATCCGGG ACATCCGCAG TCTGAAGACG ACGACGTTCC GCGGGCAGCA AGCGCTCTAC 
TGGGAGTCGG AGGGCAGCCA GGCTGAGCTG GAGTTCAGCC AGGGCTTCCT GGAAGCCCAT 
GCCCGCCTGC GGGGCCAGTA CTGGACACTC CAACCCCGAG CGCCGGAGCC CGGCCCCGCC 
CCGCCCTAG

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

RefSeq	XP_027982923.1
CDS	1..4089
Translation	MAPAQPILPRPPGTFHLNPACSSLPGLRSRAAEGRVLHLELLVAAGPDVHQAHQEDTERYVLTNFNMASELLRDPSLGAQFRVHLVRMVILTRPQDSPQITANITASLLSVCEWSRTVNPPDDADPAHADLVLYVTRFDLELPDGNRQVRGVTQLGGACSSSWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGSGCRPSGHVMGTDGAAPTRGGLAWSPCSRRQLLHLLSTGRVRCVWDPPGPQSGPAGRPPQAHPGLYYGADEQCRVAFGPSAVACTFTREDTDACQALSCHTDPLDLSSCSRLLFPLLDGTECGPQKWCSKGHCRALAELAPMGAVHGHWSAWGPPSPCSRSCGGGVVTRRRQCNNPRPAFGGRACTGADLQAEMCNTQACENTQLAFMAEQCAETEGRPLGLSPGHASSYRWGPAVPHSQGDALCRHMCRAVGESFIMRRGDSFRDGTRCVPGSPREDGTLSLCVLGSCRTFGCDGRMESGRVPDVCQVCGGDNSTCSPHSGSFTGGRAREYVTFLTLTPNLTSVRVANHRPLFTHLAVRIRGRYVVAGNFSISPSTSHPSPLEDSRIEYRVTLTEDRLPRLEELSIPGPTQEDVEIQVYRRYGEEYGNATRPHITFTYFQPKLRAWAWAATRGSCSVSCGAGLRWVTYSCLDQARNQRVEAAQCAGSPQPAAWPEPCTPGPCPPYWAAGDFGPCSSSCGTGLRERAVRCVQAQGPRLRTLPAARCGALAPRPAVVETCRSQPCPPRSGVSDACSVACGADLAAQNVTCVQGADGLEAPVTAGPCSADQTPAALEPCVEGACPLGWGPLDPQPRGEEAASAPGGPRLGARAAHVWTPLAGSCSVSCGRGQMELRFVCVDSALGTAVQEELCDPASKPGSRREVCQAAPCPAWWRYKLAACSVSCGGGVARRILYCARAHGQDEDQEILPDAQCRGLPRPEQLEACSPEPCPPRWKVTSRGPCSASCGLGTAPRAIACVQLDRGQDTEVDGAACAALVRPQASIPCVVADCAYQWHLSTWTQCSVSCGDGVQHRHDTCLGPEARGPVPAHFCQHLPKPATVRGCWAGPCAGQGTPRLAPRGEAAAPAQTTAGPAAASPEWPQPRARLLSQDSPRGAGPCGRQHLEPTGAIDLRGAGQADCAVAIGRPLGEVLTLQVLESSLNCSAGEMLLLWGRLMWRRACRKLSGLTFSSKANTLVVTQRRVRPRGGVVLRYSSRPAPGAVHRECDTQLFGPWGEIASPLVSLAGGNVGGCRIFIDVAPWDRIAIHALAADMGSEGADASYISIRDIRSLKTTTFRGQQALYWESEGSQAELEFSQGFLEAHARLRGQYWTLQPRAPEPGPAPP

Target ORF information:

RefSeq Version	XM_028127122.1
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif 13 (ADAMTS13), mRNA.

Target ORF information:

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

XM_028127122.1

ORF Insert Sequence:

ATGGCCCCAG CCCAGCCCAT CCTCCCCCGC CCTCCAGGAA CCTTCCATCT CAACCCTGCC 
TGCTCCTCCC TGCCAGGCCT CCGGAGCCGC GCTGCCGAGG GGCGCGTCCT GCACCTGGAG 
CTGCTGGTGG CCGCGGGCCC CGACGTGCAC CAGGCCCACC AGGAGGACAC GGAGCGCTAC 
GTGCTGACCA ACTTCAACAT GGCGTCGGAA CTGCTGAGGG ACCCGTCCCT GGGGGCCCAG 
TTCCGAGTGC ACCTGGTGAG GATGGTCATC CTGACGCGGC CCCAGGACTC CCCACAGATC 
ACAGCCAACA TCACCGCATC GCTGCTGAGC GTCTGCGAGT GGAGCAGGAC GGTCAACCCC 
CCGGATGACG CGGACCCCGC GCACGCCGAC CTGGTCCTCT ACGTCACCAG GTTTGACCTG 
GAGCTGCCGG ATGGCAACCG GCAGGTTCGG GGGGTCACCC AGCTGGGGGG CGCCTGCTCC 
TCCTCGTGGA GCTGCCTCAT CACCGAAGAT ACTGGCTTCG ACCTGGGGGT CACCATTGCC 
CACGAGATCG GGCACAGCTT CGGCCTGGAG CACGATGGCG CGCCCGGGAG CGGGAGCGGG 
TGCAGGCCCA GCGGCCACGT GATGGGGACT GACGGCGCCG CGCCCACCCG AGGGGGCCTG 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGCACCTGC TCAGCACAGG ACGGGTGCGC 
TGCGTGTGGG ACCCGCCGGG TCCGCAGTCC GGGCCTGCGG GGCGCCCTCC CCAGGCCCAC 
CCAGGTCTCT ACTATGGCGC GGACGAGCAG TGCCGCGTGG CCTTCGGCCC CTCCGCGGTG 
GCCTGCACCT TCACCCGGGA GGACACGGAC GCGTGCCAGG CGCTCTCCTG CCACACAGAC 
CCCCTGGACC TCAGCAGCTG CAGCCGCCTC CTCTTCCCGC TCCTGGACGG GACAGAGTGC 
GGCCCCCAGA AGTGGTGTTC CAAGGGTCAC TGCCGCGCCC TGGCGGAGCT GGCCCCCATG 
GGGGCAGTGC ACGGGCACTG GTCAGCTTGG GGTCCCCCCA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGCG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCTTGCA CCGGTGCGGA CCTCCAGGCC GAGATGTGCA ACACCCAGGC CTGCGAGAAC 
ACCCAGCTGG CGTTCATGGC CGAGCAGTGT GCGGAGACCG AGGGGCGGCC TCTGGGCCTC 
TCCCCAGGCC ATGCCTCCTC CTACCGCTGG GGCCCAGCGG TGCCTCACAG CCAAGGGGAC 
GCTCTGTGCA GACACATGTG CCGGGCCGTT GGCGAGAGCT TCATCATGAG GCGTGGGGAC 
AGTTTCCGGG ATGGCACCCG CTGTGTGCCA GGCAGCCCGC GGGAGGACGG GACCCTCAGC 
CTGTGCGTGC TGGGCAGCTG CAGGACGTTC GGCTGTGACG GCAGGATGGA GTCCGGGCGG 
GTGCCAGACG TGTGCCAGGT GTGCGGAGGG GACAACAGCA CGTGCAGCCC GCACAGCGGC 
TCCTTCACGG GCGGAAGAGC CCGAGAGTAC GTCACGTTCC TGACGCTGAC GCCCAACCTG 
ACCAGCGTGC GCGTCGCCAA CCACAGGCCG CTCTTCACAC ACCTGGCGGT GAGGATCCGC 
GGGCGCTACG TGGTGGCAGG GAATTTCAGC ATCTCGCCCA GCACCAGCCA CCCCTCCCCC 
CTGGAGGACA GCCGCATCGA GTACAGAGTG ACGCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGCTCT CCATCCCCGG GCCCACCCAG GAGGACGTGG AGATCCAGGT GTACCGGCGC 
TACGGCGAGG AGTATGGCAA CGCCACCCGC CCGCACATCA CCTTCACCTA CTTCCAGCCG 
AAGCTGCGGG CCTGGGCGTG GGCTGCCACG CGGGGGTCCT GCTCGGTGAG CTGTGGGGCA 
GGCCTGCGGT GGGTGACCTA CAGCTGTCTG GACCAGGCCA GGAACCAGCG GGTGGAGGCT 
GCCCAGTGCG CAGGGAGCCC GCAGCCGGCG GCCTGGCCAG AGCCCTGCAC GCCCGGGCCC 
TGCCCCCCGT ACTGGGCCGC TGGAGACTTC GGCCCCTGCA GCTCCTCCTG CGGGACAGGC 
CTGCGGGAGC GGGCGGTGCG CTGCGTGCAG GCCCAGGGCC CCCGCCTGAG GACGCTGCCC 
GCTGCCCGGT GCGGAGCGCT GGCCCCGAGG CCCGCGGTGG TGGAAACCTG CCGTTCCCAG 
CCCTGCCCCC CCAGGTCGGG GGTGTCGGAC GCGTGCTCAG TGGCCTGTGG AGCGGACCTG 
GCCGCACAGA ATGTCACGTG CGTGCAGGGG GCAGACGGCC TGGAGGCGCC CGTGACCGCC 
GGGCCCTGCT CTGCAGACCA GACACCAGCT GCCCTCGAGC CCTGCGTGGA GGGGGCCTGT 
CCTCTGGGCT GGGGCCCTCT GGACCCCCAG CCTCGCGGGG AGGAGGCTGC ATCCGCACCG 
GGCGGCCCCA GGCTGGGGGC TCGTGCTGCC CACGTGTGGA CGCCCCTGGC GGGCTCCTGC 
TCCGTCTCCT GTGGCAGAGG CCAGATGGAG CTGCGCTTCG TGTGCGTGGA CTCCGCCCTG 
GGGACAGCTG TCCAGGAGGA GCTGTGTGAC CCAGCGAGCA AGCCGGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGCCCCGTG CCCCGCTTGG TGGCGGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGG GTGGGGTGGC GCGGAGGATC CTGTATTGTG CCCGGGCCCA CGGGCAGGAC 
GAGGACCAGG AGATCCTGCC GGACGCCCAG TGCCGGGGGC TGCCGCGGCC AGAGCAGCTG 
GAGGCCTGCA GCCCGGAGCC CTGCCCGCCC AGGTGGAAAG TCACGTCCCG GGGCCCATGC 
TCAGCCAGCT GTGGCCTCGG CACCGCCCCC CGCGCCATAG CCTGCGTGCA GCTGGACCGA 
GGCCAGGACA CGGAGGTGGA CGGGGCGGCC TGTGCGGCTC TGGTGCGGCC GCAGGCCAGC 
ATCCCCTGCG TCGTCGCCGA CTGCGCTTAC CAGTGGCACC TCAGCACCTG GACGCAGTGC 
TCCGTCTCCT GCGGGGATGG CGTCCAGCAC CGGCACGACA CCTGCCTGGG ACCCGAGGCC 
CGGGGGCCCG TGCCAGCCCA CTTCTGCCAG CACCTGCCCA AGCCGGCGAC GGTGCGGGGC 
TGCTGGGCCG GGCCCTGCGC AGGGCAGGGG ACGCCCCGCC TGGCGCCCCG CGGGGAAGCC 
GCCGCTCCAG CGCAGACCAC GGCTGGCCCT GCCGCCGCTT CCCCCGAGTG GCCCCAGCCC 
CGGGCCCGCC TCCTCTCCCA GGACAGCCCT CGGGGGGCCG GTCCCTGTGG CCGGCAGCAC 
CTCGAGCCCA CAGGAGCCAT CGACTTGCGA GGCGCCGGGC AGGCTGACTG TGCAGTGGCC 
ATCGGGCGGC CCCTGGGGGA GGTGCTGACC CTCCAAGTCC TGGAGAGCTC CCTCAACTGC 
AGCGCCGGGG AGATGCTGCT GCTCTGGGGC AGGCTCATGT GGAGGAGGGC GTGCCGGAAG 
CTGTCGGGCC TGACCTTCAG CTCCAAGGCC AACACCCTGG TGGTGACGCA GCGCCGTGTG 
CGGCCGCGAG GCGGAGTGGT GCTGCGCTAC TCCAGCCGGC CTGCCCCGGG GGCCGTGCAC 
AGAGAATGTG ACACGCAGCT CTTTGGCCCC TGGGGAGAAA TTGCTAGCCC CCTGGTGAGT 
TTGGCTGGGG GGAACGTGGG GGGCTGCCGC ATCTTCATCG ACGTGGCTCC GTGGGACCGT 
ATCGCCATCC ACGCCCTGGC CGCTGACATG GGCTCCGAGG GAGCTGATGC CAGCTACATT 
TCGATCCGGG ACATCCGCAG TCTGAAGACG ACGACGTTCC GCGGGCAGCA AGCGCTCTAC 
TGGGAGTCGG AGGGCAGCCA GGCTGAGCTG GAGTTCAGCC AGGGCTTCCT GGAAGCCCAT 
GCCCGCCTGC GGGGCCAGTA CTGGACACTC CAACCCCGAG CGCCGGAGCC CGGCCCCGCC 
CCGCCCTAG

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

ADAMTS13 ( XM_008152688.1 ) cDNA ORF clone, Eptesicus fuscus(big brown bat) -> XP_008150910.1 Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 13 (ADAMTS13), mRNA.

Price & Availability↑

CloneID	OEp15618
Clone ID Related Accession (Same CDS sequence)	XM_008152688.1
Accession Version	XM_008152688.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4146bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-05-28
Organism	Eptesicus fuscus(big brown bat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007370730.1) 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 Version :: Eptesicus fuscus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-END##

ATGCCGGCCT CGCGCACCGG CGAGCGAATC CGGAAGCGCC CCGCGTTCTC GCGACACGTG 
CGTCCCAGCC CCCGGAAGTG CCGCTCTCTC CGGGCCGGCG GGAAGCCGCG CCCTCGCCTC 
GCGTTCCGCA GGGAGCCGGC GGGGCTCTTT CCCGCGCGGG CACGGGGTCG CCAGCCCAGC 
GAGCGGCGTT CGGTGCTGCG ACGTGGGGTT GGGTCGGGAA CCTTCCATCT CAACCCTGCC 
TGCTCCTCCC TGCCAGGCCT CCGGAGCCGC GCTGCCGAGG GGCGCGTCCT GCACCTGGAG 
CTGCTGGTGG CCGCGGGCCC CGACGTGCAC CAGGCCCACC AGGAGGACAC GGAGCGCTAC 
GTGCTGACCA ACTTCAACAT GGCGTCGGAA CTGCTGAGGG ACCCGTCCCT GGGGGCCCAG 
TTCCGAGTGC ACCTGGTGAG GATGGTCATC CTGACGCGGC CCCAGGACTC CCCACAGATC 
ACAGCCAACA TCACCGCATC GCTGCTGAGC GTCTGCGAGT GGAGCAGGAC GGTCAACCCC 
CCGGATGACG CGGACCCCGC GCACGCCGAC CTGGTCCTCT ACGTCACCAG GTTTGACCTG 
GAGCTGCCGG ATGGCAACCG GCAGGTTCGG GGGGTCACCC AGCTGGGGGG CGCCTGCTCC 
TCCTCGTGGA GCTGCCTCAT CACCGAAGAT ACTGGCTTCG ACCTGGGGGT CACCATTGCC 
CACGAGATCG GGCACAGCTT CGGCCTGGAG CACGATGGCG CGCCCGGGAG CGGGAGCGGG 
TGCAGGCCCA GCGGCCACGT GATGGGGACT GACGGCGCCG CGCCCACCCG AGGGGGCCTG 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGCACCTGC TCAGCACAGG ACGGGTGCGC 
TGCGTGTGGG ACCCGCCGGG TCCGCAGTCC GGGCCTGCGG GGCGCCCTCC CCAGGCCCAC 
CCAGGTCTCT ACTATGGCGC GGACGAGCAG TGCCGCGTGG CCTTCGGCCC CTCCGCGGTG 
GCCTGCACCT TCACCCGGGA GGACACGGAC GCGTGCCAGG CGCTCTCCTG CCACACAGAC 
CCCCTGGACC TCAGCAGCTG CAGCCGCCTC CTCTTCCCGC TCCTGGACGG GACAGAGTGC 
GGCCCCCAGA AGTGGTGTTC CAAGGGTCAC TGCCGCGCCC TGGCGGAGCT GGCCCCCATG 
GGGGCAGTGC ACGGGCACTG GTCAGCTTGG GGTCCCCCCA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGCG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCTTGCA CCGGTGCGGA CCTCCAGGCC GAGATGTGCA ACACCCAGGC CTGCGAGAAC 
ACCCAGCTGG CGTTCATGGC CGAGCAGTGT GCGGAGACCG AGGGGCGGCC TCTGGGCCTC 
TCCCCAGGCC ATGCCTCCTC CTACCGCTGG GGCCCAGCGG TGCCTCACAG CCAAGGGGAC 
GCTCTGTGCA GACACATGTG CCGGGCCGTT GGCGAGAGCT TCATCATGAG GCGTGGGGAC 
AGTTTCCGGG ATGGCACCCG CTGTGTGCCA GGCAGCCCGC GGGAGGACGG GACCCTCAGC 
CTGTGCGTGC TGGGCAGCTG CAGGACGTTC GGCTGTGACG GCAGGATGGA GTCCGGGCGG 
GTGCCAGACG TGTGCCAGGT GTGCGGAGGG GACAACAGCA CGTGCAGCCC GCACAGCGGC 
TCCTTCACGG GCGGAAGAGC CCGAGAGTAC GTCACGTTCC TGACGCTGAC GCCCAACCTG 
ACCAGCGTGC GCGTCGCCAA CCACAGGCCG CTCTTCACAC ACCTGGCGGT GAGGATCCGC 
GGGCGCTACG TGGTGGCAGG GAATTTCAGC ATCTCGCCCA GCACCAGCCA CCCCTCCCCC 
CTGGAGGACA GCCGCATCGA GTACAGAGTG ACGCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGCTCT CCATCCCCGG GCCCACCCAG GAGGACGTGG AGATCCAGGT GTACCGGCGC 
TACGGCGAGG AGTATGGCAA CGCCACCCGC CCGCACATCA CCTTCACCTA CTTCCAGCCG 
AAGCTGCGGG CCTGGGCGTG GGCTGCCACG CGGGGGTCCT GCTCGGTGAG CTGTGGGGCA 
GGCCTGCGGT GGGTGACCTA CAGCTGTCTG GACCAGGCCA GGAACCAGCG GGTGGAGGCT 
GCCCAGTGCG CAGGGAGCCC GCAGCCGGCG GCCTGGCCAG AGCCCTGCAC GCCCGGGCCC 
TGCCCCCCGT ACTGGGCCGC TGGAGACTTC GGCCCCTGCA GCTCCTCCTG CGGGACAGGC 
CTGCGGGAGC GGGCGGTGCG CTGCGTGCAG GCCCAGGGCC CCCGCCTGAG GACGCTGCCC 
GCTGCCCGGT GCGGAGCGCT GGCCCCGAGG CCCGCGGTGG TGGAAACCTG CCGTTCCCAG 
CCCTGCCCCC CCAGGTCGGG GGTGTCGGAC GCGTGCTCAG TGGCCTGTGG AGCGGACCTG 
GCCGCACAGA ATGTCACGTG CGTGCAGGGG GCAGACGGCC TGGAGGCGCC CGTGACCGCC 
GGGCCCTGCT CTGCAGACCA GACACCAGCT GCCCTCGAGC CCTGCGTGGA GGGGGCCTGT 
CCTCTGGGCT GGGGCCCTCT GGACCCCCAG CCTCGCGGGG AGGAGGCTGC ATCCGCACCG 
GGCGGCCCCA GGCTGGGGGC TCGTGCTGCC CACGTGTGGA CGCCCCTGGC GGGCTCCTGC 
TCCGTCTCCT GTGGCAGAGG CCAGATGGAG CTGCGCTTCG TGTGCGTGGA CTCCGCCCTG 
GGGACAGCTG TCCAGGAGGA GCTGTGTGAC CCAGCGAGCA AGCCGGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGCCCCGTG CCCCGCTTGG TGGCGGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGG GTGGGGTGGC GCGGAGGATC CTGTATTGTG CCCGGGCCCA CGGGCAGGAC 
GAGGACCAGG AGATCCTGCC GGACGCCCAG TGCCGGGGGC TGCCGCGGCC AGAGCAGCTG 
GAGGCCTGCA GCCCGGAGCC CTGCCCGCCC AGGTGGAAAG TCACGTCCCG GGGCCCATGC 
TCAGCCAGCT GTGGCCTCGG CACCGCCCCC CGCGCCATAG CCTGCGTGCA GCTGGACCGA 
GGCCAGGACA CGGAGGTGGA CGGGGCGGCC TGTGCGGCTC TGGTGCGGCC GCAGGCCAGC 
ATCCCCTGCG TCGTCGCCGA CTGCGCTTAC CAGTGGCACC TCAGCACCTG GACGCAGTGC 
TCCGTCTCCT GCGGGGATGG CGTCCAGCAC CGGCACGACA CCTGCCTGGG ACCCGAGGCC 
CGGGGGCCCG TGCCAGCCCA CTTCTGCCAG CACCTGCCCA AGCCGGCGAC GGTGCGGGGC 
TGCTGGGCCG GGCCCTGCGC AGGGCAGGGG ACGCCCCGTC CCTGTGGCCG GCAGCACCTC 
GAGCCCACAG GAGCCATCGA CTTGCGAGGC GCCGGGCAGG CTGACTGTGC AGTGGCCATC 
GGGCGGCCCC TGGGGGAGGT GCTGACCCTC CAAGTCCTGG AGAGCTCCCT CAACTGCAGC 
GCCGGGGAGA TGCTGCTGCT CTGGGGCAGG CTCATGTGGA GGAGGGCGTG CCGGAAGCTG 
TCGGGCCTGA CCTTCAGCTC CAAGGCCAAC ACCCTGGTGG TGACGCAGCG CCGTGTGCGG 
CCGCGAGGCG GAGTGGTGCT GCGCTACTCC AGCCGGCCTG CCCCGGGGGC CGTGCACAGA 
GAATGTGACA CGCAGCTCTT TGGCCCCTGG GGAGAAATTG CTAGCCCCCT GGTGAGTTTG 
GCTGGGGGGA ACGTGGGGGG CTGCCGCATC TTCATCGACG TGGCTCCGTG GGACCGTATC 
GCCATCCACG CCCTGGCCGC TGACATGGGC TCCGAGGGAG CTGATGCCAG CTACATTTCG 
ATCCGGGACA TCCGCAGTCT GAAGACGACG ACGTTCCGCG GGCAGCAAGC GCTCTACTGG 
GAGTCGGAGG GCAGCCAGGC TGAGCTGGAG TTCAGCCAGG GCTTCCTGGA AGCCCATGCC 
CGCCTGCGGG GCCAGTACTG GACACTCCAA CCCCGAGCGC CGGAGCCCGG CCCCGCCCCG 
CCCTAG

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

RefSeq	XP_008150910.1
CDS	1..4146
Translation	MPASRTGERIRKRPAFSRHVRPSPRKCRSLRAGGKPRPRLAFRREPAGLFPARARGRQPSERRSVLRRGVGSGTFHLNPACSSLPGLRSRAAEGRVLHLELLVAAGPDVHQAHQEDTERYVLTNFNMASELLRDPSLGAQFRVHLVRMVILTRPQDSPQITANITASLLSVCEWSRTVNPPDDADPAHADLVLYVTRFDLELPDGNRQVRGVTQLGGACSSSWSCLITEDTGFDLGVTIAHEIGHSFGLEHDGAPGSGSGCRPSGHVMGTDGAAPTRGGLAWSPCSRRQLLHLLSTGRVRCVWDPPGPQSGPAGRPPQAHPGLYYGADEQCRVAFGPSAVACTFTREDTDACQALSCHTDPLDLSSCSRLLFPLLDGTECGPQKWCSKGHCRALAELAPMGAVHGHWSAWGPPSPCSRSCGGGVVTRRRQCNNPRPAFGGRACTGADLQAEMCNTQACENTQLAFMAEQCAETEGRPLGLSPGHASSYRWGPAVPHSQGDALCRHMCRAVGESFIMRRGDSFRDGTRCVPGSPREDGTLSLCVLGSCRTFGCDGRMESGRVPDVCQVCGGDNSTCSPHSGSFTGGRAREYVTFLTLTPNLTSVRVANHRPLFTHLAVRIRGRYVVAGNFSISPSTSHPSPLEDSRIEYRVTLTEDRLPRLEELSIPGPTQEDVEIQVYRRYGEEYGNATRPHITFTYFQPKLRAWAWAATRGSCSVSCGAGLRWVTYSCLDQARNQRVEAAQCAGSPQPAAWPEPCTPGPCPPYWAAGDFGPCSSSCGTGLRERAVRCVQAQGPRLRTLPAARCGALAPRPAVVETCRSQPCPPRSGVSDACSVACGADLAAQNVTCVQGADGLEAPVTAGPCSADQTPAALEPCVEGACPLGWGPLDPQPRGEEAASAPGGPRLGARAAHVWTPLAGSCSVSCGRGQMELRFVCVDSALGTAVQEELCDPASKPGSRREVCQAAPCPAWWRYKLAACSVSCGGGVARRILYCARAHGQDEDQEILPDAQCRGLPRPEQLEACSPEPCPPRWKVTSRGPCSASCGLGTAPRAIACVQLDRGQDTEVDGAACAALVRPQASIPCVVADCAYQWHLSTWTQCSVSCGDGVQHRHDTCLGPEARGPVPAHFCQHLPKPATVRGCWAGPCAGQGTPRPCGRQHLEPTGAIDLRGAGQADCAVAIGRPLGEVLTLQVLESSLNCSAGEMLLLWGRLMWRRACRKLSGLTFSSKANTLVVTQRRVRPRGGVVLRYSSRPAPGAVHRECDTQLFGPWGEIASPLVSLAGGNVGGCRIFIDVAPWDRIAIHALAADMGSEGADASYISIRDIRSLKTTTFRGQQALYWESEGSQAELEFSQGFLEAHARLRGQYWTLQPRAPEPGPAPP

Target ORF information:

RefSeq Version	XM_008152688.1
Organism	Eptesicus fuscus(big brown bat)
Definition	Eptesicus fuscus ADAM metallopeptidase with thrombospondin type 1 motif, 13 (ADAMTS13), mRNA.

Target ORF information:

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

XM_008152688.1

ORF Insert Sequence:

ATGCCGGCCT CGCGCACCGG CGAGCGAATC CGGAAGCGCC CCGCGTTCTC GCGACACGTG 
CGTCCCAGCC CCCGGAAGTG CCGCTCTCTC CGGGCCGGCG GGAAGCCGCG CCCTCGCCTC 
GCGTTCCGCA GGGAGCCGGC GGGGCTCTTT CCCGCGCGGG CACGGGGTCG CCAGCCCAGC 
GAGCGGCGTT CGGTGCTGCG ACGTGGGGTT GGGTCGGGAA CCTTCCATCT CAACCCTGCC 
TGCTCCTCCC TGCCAGGCCT CCGGAGCCGC GCTGCCGAGG GGCGCGTCCT GCACCTGGAG 
CTGCTGGTGG CCGCGGGCCC CGACGTGCAC CAGGCCCACC AGGAGGACAC GGAGCGCTAC 
GTGCTGACCA ACTTCAACAT GGCGTCGGAA CTGCTGAGGG ACCCGTCCCT GGGGGCCCAG 
TTCCGAGTGC ACCTGGTGAG GATGGTCATC CTGACGCGGC CCCAGGACTC CCCACAGATC 
ACAGCCAACA TCACCGCATC GCTGCTGAGC GTCTGCGAGT GGAGCAGGAC GGTCAACCCC 
CCGGATGACG CGGACCCCGC GCACGCCGAC CTGGTCCTCT ACGTCACCAG GTTTGACCTG 
GAGCTGCCGG ATGGCAACCG GCAGGTTCGG GGGGTCACCC AGCTGGGGGG CGCCTGCTCC 
TCCTCGTGGA GCTGCCTCAT CACCGAAGAT ACTGGCTTCG ACCTGGGGGT CACCATTGCC 
CACGAGATCG GGCACAGCTT CGGCCTGGAG CACGATGGCG CGCCCGGGAG CGGGAGCGGG 
TGCAGGCCCA GCGGCCACGT GATGGGGACT GACGGCGCCG CGCCCACCCG AGGGGGCCTG 
GCCTGGTCCC CCTGCAGCCG CCGGCAGCTG CTGCACCTGC TCAGCACAGG ACGGGTGCGC 
TGCGTGTGGG ACCCGCCGGG TCCGCAGTCC GGGCCTGCGG GGCGCCCTCC CCAGGCCCAC 
CCAGGTCTCT ACTATGGCGC GGACGAGCAG TGCCGCGTGG CCTTCGGCCC CTCCGCGGTG 
GCCTGCACCT TCACCCGGGA GGACACGGAC GCGTGCCAGG CGCTCTCCTG CCACACAGAC 
CCCCTGGACC TCAGCAGCTG CAGCCGCCTC CTCTTCCCGC TCCTGGACGG GACAGAGTGC 
GGCCCCCAGA AGTGGTGTTC CAAGGGTCAC TGCCGCGCCC TGGCGGAGCT GGCCCCCATG 
GGGGCAGTGC ACGGGCACTG GTCAGCTTGG GGTCCCCCCA GTCCTTGCTC CCGCTCCTGC 
GGAGGAGGCG TGGTCACCAG GAGGCGGCAG TGCAACAACC CCAGACCTGC CTTTGGGGGG 
CGTGCTTGCA CCGGTGCGGA CCTCCAGGCC GAGATGTGCA ACACCCAGGC CTGCGAGAAC 
ACCCAGCTGG CGTTCATGGC CGAGCAGTGT GCGGAGACCG AGGGGCGGCC TCTGGGCCTC 
TCCCCAGGCC ATGCCTCCTC CTACCGCTGG GGCCCAGCGG TGCCTCACAG CCAAGGGGAC 
GCTCTGTGCA GACACATGTG CCGGGCCGTT GGCGAGAGCT TCATCATGAG GCGTGGGGAC 
AGTTTCCGGG ATGGCACCCG CTGTGTGCCA GGCAGCCCGC GGGAGGACGG GACCCTCAGC 
CTGTGCGTGC TGGGCAGCTG CAGGACGTTC GGCTGTGACG GCAGGATGGA GTCCGGGCGG 
GTGCCAGACG TGTGCCAGGT GTGCGGAGGG GACAACAGCA CGTGCAGCCC GCACAGCGGC 
TCCTTCACGG GCGGAAGAGC CCGAGAGTAC GTCACGTTCC TGACGCTGAC GCCCAACCTG 
ACCAGCGTGC GCGTCGCCAA CCACAGGCCG CTCTTCACAC ACCTGGCGGT GAGGATCCGC 
GGGCGCTACG TGGTGGCAGG GAATTTCAGC ATCTCGCCCA GCACCAGCCA CCCCTCCCCC 
CTGGAGGACA GCCGCATCGA GTACAGAGTG ACGCTCACCG AGGACCGGCT GCCCCGCCTG 
GAGGAGCTCT CCATCCCCGG GCCCACCCAG GAGGACGTGG AGATCCAGGT GTACCGGCGC 
TACGGCGAGG AGTATGGCAA CGCCACCCGC CCGCACATCA CCTTCACCTA CTTCCAGCCG 
AAGCTGCGGG CCTGGGCGTG GGCTGCCACG CGGGGGTCCT GCTCGGTGAG CTGTGGGGCA 
GGCCTGCGGT GGGTGACCTA CAGCTGTCTG GACCAGGCCA GGAACCAGCG GGTGGAGGCT 
GCCCAGTGCG CAGGGAGCCC GCAGCCGGCG GCCTGGCCAG AGCCCTGCAC GCCCGGGCCC 
TGCCCCCCGT ACTGGGCCGC TGGAGACTTC GGCCCCTGCA GCTCCTCCTG CGGGACAGGC 
CTGCGGGAGC GGGCGGTGCG CTGCGTGCAG GCCCAGGGCC CCCGCCTGAG GACGCTGCCC 
GCTGCCCGGT GCGGAGCGCT GGCCCCGAGG CCCGCGGTGG TGGAAACCTG CCGTTCCCAG 
CCCTGCCCCC CCAGGTCGGG GGTGTCGGAC GCGTGCTCAG TGGCCTGTGG AGCGGACCTG 
GCCGCACAGA ATGTCACGTG CGTGCAGGGG GCAGACGGCC TGGAGGCGCC CGTGACCGCC 
GGGCCCTGCT CTGCAGACCA GACACCAGCT GCCCTCGAGC CCTGCGTGGA GGGGGCCTGT 
CCTCTGGGCT GGGGCCCTCT GGACCCCCAG CCTCGCGGGG AGGAGGCTGC ATCCGCACCG 
GGCGGCCCCA GGCTGGGGGC TCGTGCTGCC CACGTGTGGA CGCCCCTGGC GGGCTCCTGC 
TCCGTCTCCT GTGGCAGAGG CCAGATGGAG CTGCGCTTCG TGTGCGTGGA CTCCGCCCTG 
GGGACAGCTG TCCAGGAGGA GCTGTGTGAC CCAGCGAGCA AGCCGGGGAG CCGGCGGGAG 
GTCTGCCAGG CTGCCCCGTG CCCCGCTTGG TGGCGGTACA AGCTGGCGGC CTGCAGCGTG 
AGCTGTGGGG GTGGGGTGGC GCGGAGGATC CTGTATTGTG CCCGGGCCCA CGGGCAGGAC 
GAGGACCAGG AGATCCTGCC GGACGCCCAG TGCCGGGGGC TGCCGCGGCC AGAGCAGCTG 
GAGGCCTGCA GCCCGGAGCC CTGCCCGCCC AGGTGGAAAG TCACGTCCCG GGGCCCATGC 
TCAGCCAGCT GTGGCCTCGG CACCGCCCCC CGCGCCATAG CCTGCGTGCA GCTGGACCGA 
GGCCAGGACA CGGAGGTGGA CGGGGCGGCC TGTGCGGCTC TGGTGCGGCC GCAGGCCAGC 
ATCCCCTGCG TCGTCGCCGA CTGCGCTTAC CAGTGGCACC TCAGCACCTG GACGCAGTGC 
TCCGTCTCCT GCGGGGATGG CGTCCAGCAC CGGCACGACA CCTGCCTGGG ACCCGAGGCC 
CGGGGGCCCG TGCCAGCCCA CTTCTGCCAG CACCTGCCCA AGCCGGCGAC GGTGCGGGGC 
TGCTGGGCCG GGCCCTGCGC AGGGCAGGGG ACGCCCCGTC CCTGTGGCCG GCAGCACCTC 
GAGCCCACAG GAGCCATCGA CTTGCGAGGC GCCGGGCAGG CTGACTGTGC AGTGGCCATC 
GGGCGGCCCC TGGGGGAGGT GCTGACCCTC CAAGTCCTGG AGAGCTCCCT CAACTGCAGC 
GCCGGGGAGA TGCTGCTGCT CTGGGGCAGG CTCATGTGGA GGAGGGCGTG CCGGAAGCTG 
TCGGGCCTGA CCTTCAGCTC CAAGGCCAAC ACCCTGGTGG TGACGCAGCG CCGTGTGCGG 
CCGCGAGGCG GAGTGGTGCT GCGCTACTCC AGCCGGCCTG CCCCGGGGGC CGTGCACAGA 
GAATGTGACA CGCAGCTCTT TGGCCCCTGG GGAGAAATTG CTAGCCCCCT GGTGAGTTTG 
GCTGGGGGGA ACGTGGGGGG CTGCCGCATC TTCATCGACG TGGCTCCGTG GGACCGTATC 
GCCATCCACG CCCTGGCCGC TGACATGGGC TCCGAGGGAG CTGATGCCAG CTACATTTCG 
ATCCGGGACA TCCGCAGTCT GAAGACGACG ACGTTCCGCG GGCAGCAAGC GCTCTACTGG 
GAGTCGGAGG GCAGCCAGGC TGAGCTGGAG TTCAGCCAGG GCTTCCTGGA AGCCCATGCC 
CGCCTGCGGG GCCAGTACTG GACACTCCAA CCCCGAGCGC CGGAGCCCGG CCCCGCCCCG 
CCCTAG