Slit1 cDNA ORF clone, Fukomys damarensis(Damara mole-rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Slit1
Entrez Gene ID	104858041
Full Name	slit guidance ligand 1
Gene Type	protein-coding
Organism	Fukomys damarensis(Damara mole-rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019206637.1	XP_019062182.1	slit homolog 1 protein

Pathways from BioSystems
Gene Ontology

The following Slit1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Slit1 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
OFu57600	XM_019206637.1 Latest version!	Fukomys damarensis slit guidance ligand 1 (Slit1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

Slit1 ( XM_019206637.1 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_019062182.1 Fukomys damarensis slit guidance ligand 1 (Slit1), mRNA.

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CloneID	OFu57600
Clone ID Related Accession (Same CDS sequence)	XM_019206637.1
Accession Version	XM_019206637.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4455bp) 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	2016-11-21
Organism	Fukomys damarensis(Damara mole-rat)
Product	slit homolog 1 protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011044208.1) 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 :: Fukomys damarensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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##

ATGGCACTTG TGCCGCAGCA GGGATGCAGA GCCTTTTCAC TCAGCACGGA ACTCAATGGC 
AATAACATCA CTCGGATCCA TAAGAATGAC TTTGCTGGGC TCAAGCAGCT TCGGGTGCTG 
CAGCTGATGG AGAACCAGAT CGGAGCTGTG GAGCGAGGAG CTTTTGATGA CATGAAGGAG 
CTGGAGCGGC TACGACTGAA CCGGAACCAG CTGAACATGT TGCCAGAACT GCTATTCCAG 
AACAACCAGG CTCTGTCCAG ACTGGACCTG AGCGAGAACG CCCTGCAGGC CATTCCCAGG 
AAGGCTTTCC GCGGAGCCTC AGATCTCAAA AACCTACAGC TGGACAAGAA CCAGATCAGC 
TGCATTGAGG AAGGGGCTTT CCGGGCCCTG CGGGGGCTGG AGGTGCTGAC CCTGAACAAC 
AACAACATCA CCATGATTCC TGTGTCCAGC TTCAACCACA TGCCCAAGCT ACGGACCTTC 
CGCCTGCACT CCAACCACCT GCTCTGCGAC TGCCACCTGG CCTGGCTGTC TCAGTGGCTG 
AGGCAGCGGC CGACAGTCGG GCTCTTCACC CAGTGCTCAG GCCCCGCCAG CCTACGTGGC 
CTCAATGTGG CTGAGGTCCA GAAGAGTGAG TTCAGCTGCT CAGGCCAGGG GGAGGCAGGA 
CACGTGTCGG CCTGCACCCT TTCCTCCGGT TCCTGCCCGG CCATGTGCGC CTGCAGCAAT 
GGCATTGTGG ACTGTCGCGG CAAAGGCCTT ACCGCCATCC CTGCCAACCT GCCTGAGACC 
ATGACAGAGA TCCGCTTGGA GCTCAATGGA ATCAAGTCCA TCCCCCCAGG AGCCTTCTCT 
CCCTACAGAA AGCTGCGCAG GATAGACCTG AGCAACAATC AGATTGCCGA GATCGCGCCT 
GATGCCTTCC AGGGCCTCCG CTCCTTAAAC TCACTAGTCC TCTATGGGAA CAAGATCACA 
GACCTCCCCC GCGGTGTGTT TGGAGGCCTG TACACACTAC AGCTTCTGCT CCTGAATGCC 
AACAAGATCA ACTGTATCCG GCCTGATGCC TTCCAGGACC TACAGAACCT CTCACTACTC 
TCCCTGTATG ACAACAAGAT CCAGAGTCTT GCCAAGGGAA CCTTCACATC CCTGAGGGCC 
ATTCAGACAC TGCATCTGGC CCAGAACCCT TTCATCTGTG ACTGTAACCT CAAGTGGCTG 
GCGGACTTCC TGCGCACTAA CCCCATAGAG ACAAGTGGGG CCCGCTGTGC CAGCCCCCGG 
CGCCTGGCCA ACAAGCGCAT TGGGCAGATC AAGAGCAAGA AGTTCCGGTG CTCAGCCAAG 
GAGCAGTACT TCATTCCAGG CACGGAGGAT TACCAGCTGA ACAGCGAGTG CAGCAGTGAT 
GTTGCCTGTC CTCACAAGTG CCGCTGTGAG GCCGGTGTGG TGGAGTGCTC CAGCCTGAAG 
CTCTCCAAAA TCCCTGAGCG CATCCCAAAG TCCACAGCCG AGCTACGATT GAACAACAAT 
GAAATTTCCC TCTTGGAGGC CACTGGGATG TTTAAAAAAC TTACACATCT GAAGAAAATC 
AACCTGAGCA ACAACAAGGT GTCAGAAATC GAAGACGGCA CGTTTGAGGG CGCGGCCTCC 
GTGAGTGAGC TGCACCTGAC TGCCAACCAG CTGGAGTCCA TCCGGAGTGG CATGTTCCGG 
GGTCTGGATG GCCTGCGGAC CCTGATGCTT AGGAACAACC GCATCAGCTG CATCCACAAT 
GACAGCTTCA CGGGCCTGCG CAACGTCCGA CTCCTCTCGC TGTACGACAA TCACATCACC 
ACCATCTCCC CTGGAGCCTT CGACACCTTG CAGGCTCTCT CCACACTAAA CCTCCTGGCC 
AACCCATTCA ACTGTAACTG CCAACTGGCC TGGCTGGGCG ACTGGCTGAG GAAGAGGAAG 
ATTGTGACTG GGAACCCTCG ATGCCAGAAC CCAGACTTCT TGCGGCAGAT CCCCCTGCAG 
GATGTGGCCT TTCCTGACTT CAGATGTGAG GAAGGCCAGG AGGAGGGGGG CTGCCTGCCC 
CGCCCACAGT GCCCTCAGGA GTGCGCCTGC CTGGACACTG TGGTCCGATG CAGCAACAAG 
CACCTGCGGG CGCTGCCCAA GGGCATCCCC AAGAATGTCA CAGAGCTCTA CTTGGACGGC 
AACCAGTTCA CACTGGTTCC AAGTCAACTA TCTACGTTCA AGTACTTGCA ACTTGTGGAC 
CTCAGTAACA ACAAGATCAG TTCCTTAAGC AATTCCTCCT TCACCAACAT GAGCCAGCTG 
ACCACTCTGA TCCTCAGCTA CAATGCCCTC CAGTGCATCC CTCCTCTGGC CTTCCAGGGA 
CTCCGCTCTC TGCGCCTGCT GTCCCTCCAC GGCAATGATA TCTCCACCCT CCGAGAGGGC 
GTCTTCACGG ATGTCACCTC CCTGTCTCAC CTGGCTATTG GTGCCAATCC TCTGTACTGT 
GACTGCCACC TCCGCTGGCT ATCCAGTTGG GTGAAAACTG GCTACAAGGA GCCGGGCATT 
GCCCGTTGCG CTGGGCCCCC TGACATGGAG GGCAAGCTAC TGCTCACCAC CCCTGCCAAG 
AAGTTTGAAT GTCAAGGTCC TCCCACTCTG GCTGTCCAGA CCAAGTGTGA TCCCTGCTTG 
TCCAGTCCAT GCCAGAACCA GGGCACTTGC CACAATGACC TCCTTGAAGT GTACAGGTGT 
GCCTGCCCCA GCGGCTATAA GGGCCGACAC TGTGAGGTAT CCCTGGACAG CTGTTCCAGC 
AGCCCCTGTG GAAATGGGGG GACCTGCCAA GCTGAGGAGG GCGAGGATGC CAGCTTCACG 
TGCTCCTGTC CCATGGGCTT TGAAGGACCA ACCTGTGGGG TGAACACGGA TGACTGTGTG 
GAGCACGCCT GTGCCAATGG GGGCACCTGC GTGGATGGTG TGGGCAACTA CACCTGCCAG 
TGTCCCCTAC AGTATGTGGG AAGGTCCTGC GAGCAGCTGC TGGACTTTTG CTCTCCGGAT 
CTGAACCCCT GTCAGCATAA GGCCCAGTGT GTGGGTACCC CGGAGGGCCC CAGGTGTGAA 
TGTGCCCCAG GTTACACAGG TGACAACTGC AGTGAGAACC AAGATGATTG CAGTGGTCAT 
CGTTGCCAGA ATGGAGCCCA GTGTGTGGAT GCAGTCAACA GCTACACCTG TCTCTGTGCC 
AAGGGCTACA GTGGACAGCT CTGTGAGATC TCTCCCCGCT CACCTGCCCC CAGGAACCCC 
TGTGAGGGGA CTGAGTGCCA GAATGGGGCC AACTGTGTGG ACCAGGGCAG CCGGCCTGTG 
TGCCAGTGCC TCCCAGGCTT CGGTGGTCCT GAGTGTGAGA AGTTGCTCAG TGTCAACTTT 
GTGGATCGGG ATACTTACCT GCAGTTCACT GACCTGCAGA ATTGGCCACG GGCCAACATC 
ACACTACAGG TCTCCACGGC AGAGGACAAC GGAATTCTGC TGTACAACGG GGACAATGAC 
CACATCGCAG TTGAGCTGTA CCAGGGCCAT GTGCGTGTCA GCTACGACCC AGGCAGCTAC 
CCGAGCTCTG CCATCTACAG TGCTGAGATG ATCAATGATG GGCAGTTCCA CACTGTTGAA 
CTGGTGACCT TTGACCAGAT GGTGAACCTC TCCATCGATG GCGGCAGTCC CATGACCATG 
GACAACTTCG GCAAACACTA CACACTCAAC AGTGAGGCAC CCCTCTATGT GGGAGGGATG 
CCAGTGGATG TGAACTCGGC AGCCTTCCGG ATGTGGCAGA TCCTTAATGG TACCAGCTTC 
CACGGTTGCA TCCGAAACCT GTACATAAAT AACGAGCTAC AGGACTTCAC CAAGACACAG 
ATGAAACCGG GTGTGGTACC AGGCTGTGAA CCCTGCCGCA AACTCTATTG CCTGCATGGC 
ATCTGCCAGC CCAATGCCAC CCCAGGGCCC ATGTGCCACT GTGAGGCTGG CTGGGGGGGC 
CTGCACTGCG ACCAGCCAGC TGATGGCCCC TGCCATGGCC ACAAGTGTGT CCATGGGAAA 
TGTGTGCCCC TTGATGCCCT TTCCTACAGC TGCCAGTGCC GGGAGGGGTA CTCAGGGGCC 
CTGTGCAACC AGGCTGGGGC AGTGGTGGAG CCCTGTGGGG ACCTGCAATG CCTGCATGGC 
CACTGCCAGG CTTCGGCCAC CAAGGGGGCA CACTGTGTTT GTGACCCTGG CTTTTCAGGC 
GAGCTGTGTG AGCAAGAGTC CGAATGCCGG GGGGACCCTG TCCGGGATTT CCACCAGGTC 
CAGAGGGGCT ATGCCATCTG CCAAACCACG CGCCCGCTAT CGTGGGTGGA GTGTCGGGGC 
ACGTGCCCAG GTCGGGGCTG CTGCCTAGGC CTGCGGCTGA AGCAGAGGAA GCTCACCTTC 
GAGTGCAGCG ACGGGATCTC TTTTGCCGAG GAGGTGGAGA AGCCCACCAA ATGTGGTTGT 
TCCCTCTGCG TATAA

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

RefSeq	XP_019062182.1
CDS	1..4455
Translation	MALVPQQGCRAFSLSTELNGNNITRIHKNDFAGLKQLRVLQLMENQIGAVERGAFDDMKELERLRLNRNQLNMLPELLFQNNQALSRLDLSENALQAIPRKAFRGASDLKNLQLDKNQISCIEEGAFRALRGLEVLTLNNNNITMIPVSSFNHMPKLRTFRLHSNHLLCDCHLAWLSQWLRQRPTVGLFTQCSGPASLRGLNVAEVQKSEFSCSGQGEAGHVSACTLSSGSCPAMCACSNGIVDCRGKGLTAIPANLPETMTEIRLELNGIKSIPPGAFSPYRKLRRIDLSNNQIAEIAPDAFQGLRSLNSLVLYGNKITDLPRGVFGGLYTLQLLLLNANKINCIRPDAFQDLQNLSLLSLYDNKIQSLAKGTFTSLRAIQTLHLAQNPFICDCNLKWLADFLRTNPIETSGARCASPRRLANKRIGQIKSKKFRCSAKEQYFIPGTEDYQLNSECSSDVACPHKCRCEAGVVECSSLKLSKIPERIPKSTAELRLNNNEISLLEATGMFKKLTHLKKINLSNNKVSEIEDGTFEGAASVSELHLTANQLESIRSGMFRGLDGLRTLMLRNNRISCIHNDSFTGLRNVRLLSLYDNHITTISPGAFDTLQALSTLNLLANPFNCNCQLAWLGDWLRKRKIVTGNPRCQNPDFLRQIPLQDVAFPDFRCEEGQEEGGCLPRPQCPQECACLDTVVRCSNKHLRALPKGIPKNVTELYLDGNQFTLVPSQLSTFKYLQLVDLSNNKISSLSNSSFTNMSQLTTLILSYNALQCIPPLAFQGLRSLRLLSLHGNDISTLREGVFTDVTSLSHLAIGANPLYCDCHLRWLSSWVKTGYKEPGIARCAGPPDMEGKLLLTTPAKKFECQGPPTLAVQTKCDPCLSSPCQNQGTCHNDLLEVYRCACPSGYKGRHCEVSLDSCSSSPCGNGGTCQAEEGEDASFTCSCPMGFEGPTCGVNTDDCVEHACANGGTCVDGVGNYTCQCPLQYVGRSCEQLLDFCSPDLNPCQHKAQCVGTPEGPRCECAPGYTGDNCSENQDDCSGHRCQNGAQCVDAVNSYTCLCAKGYSGQLCEISPRSPAPRNPCEGTECQNGANCVDQGSRPVCQCLPGFGGPECEKLLSVNFVDRDTYLQFTDLQNWPRANITLQVSTAEDNGILLYNGDNDHIAVELYQGHVRVSYDPGSYPSSAIYSAEMINDGQFHTVELVTFDQMVNLSIDGGSPMTMDNFGKHYTLNSEAPLYVGGMPVDVNSAAFRMWQILNGTSFHGCIRNLYINNELQDFTKTQMKPGVVPGCEPCRKLYCLHGICQPNATPGPMCHCEAGWGGLHCDQPADGPCHGHKCVHGKCVPLDALSYSCQCREGYSGALCNQAGAVVEPCGDLQCLHGHCQASATKGAHCVCDPGFSGELCEQESECRGDPVRDFHQVQRGYAICQTTRPLSWVECRGTCPGRGCCLGLRLKQRKLTFECSDGISFAEEVEKPTKCGCSLCV

Target ORF information:

RefSeq Version	XM_019206637.1
Organism	Fukomys damarensis(Damara mole-rat)
Definition	Fukomys damarensis slit guidance ligand 1 (Slit1), mRNA.

Target ORF information:

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

XM_019206637.1

ORF Insert Sequence:

ATGGCACTTG TGCCGCAGCA GGGATGCAGA GCCTTTTCAC TCAGCACGGA ACTCAATGGC 
AATAACATCA CTCGGATCCA TAAGAATGAC TTTGCTGGGC TCAAGCAGCT TCGGGTGCTG 
CAGCTGATGG AGAACCAGAT CGGAGCTGTG GAGCGAGGAG CTTTTGATGA CATGAAGGAG 
CTGGAGCGGC TACGACTGAA CCGGAACCAG CTGAACATGT TGCCAGAACT GCTATTCCAG 
AACAACCAGG CTCTGTCCAG ACTGGACCTG AGCGAGAACG CCCTGCAGGC CATTCCCAGG 
AAGGCTTTCC GCGGAGCCTC AGATCTCAAA AACCTACAGC TGGACAAGAA CCAGATCAGC 
TGCATTGAGG AAGGGGCTTT CCGGGCCCTG CGGGGGCTGG AGGTGCTGAC CCTGAACAAC 
AACAACATCA CCATGATTCC TGTGTCCAGC TTCAACCACA TGCCCAAGCT ACGGACCTTC 
CGCCTGCACT CCAACCACCT GCTCTGCGAC TGCCACCTGG CCTGGCTGTC TCAGTGGCTG 
AGGCAGCGGC CGACAGTCGG GCTCTTCACC CAGTGCTCAG GCCCCGCCAG CCTACGTGGC 
CTCAATGTGG CTGAGGTCCA GAAGAGTGAG TTCAGCTGCT CAGGCCAGGG GGAGGCAGGA 
CACGTGTCGG CCTGCACCCT TTCCTCCGGT TCCTGCCCGG CCATGTGCGC CTGCAGCAAT 
GGCATTGTGG ACTGTCGCGG CAAAGGCCTT ACCGCCATCC CTGCCAACCT GCCTGAGACC 
ATGACAGAGA TCCGCTTGGA GCTCAATGGA ATCAAGTCCA TCCCCCCAGG AGCCTTCTCT 
CCCTACAGAA AGCTGCGCAG GATAGACCTG AGCAACAATC AGATTGCCGA GATCGCGCCT 
GATGCCTTCC AGGGCCTCCG CTCCTTAAAC TCACTAGTCC TCTATGGGAA CAAGATCACA 
GACCTCCCCC GCGGTGTGTT TGGAGGCCTG TACACACTAC AGCTTCTGCT CCTGAATGCC 
AACAAGATCA ACTGTATCCG GCCTGATGCC TTCCAGGACC TACAGAACCT CTCACTACTC 
TCCCTGTATG ACAACAAGAT CCAGAGTCTT GCCAAGGGAA CCTTCACATC CCTGAGGGCC 
ATTCAGACAC TGCATCTGGC CCAGAACCCT TTCATCTGTG ACTGTAACCT CAAGTGGCTG 
GCGGACTTCC TGCGCACTAA CCCCATAGAG ACAAGTGGGG CCCGCTGTGC CAGCCCCCGG 
CGCCTGGCCA ACAAGCGCAT TGGGCAGATC AAGAGCAAGA AGTTCCGGTG CTCAGCCAAG 
GAGCAGTACT TCATTCCAGG CACGGAGGAT TACCAGCTGA ACAGCGAGTG CAGCAGTGAT 
GTTGCCTGTC CTCACAAGTG CCGCTGTGAG GCCGGTGTGG TGGAGTGCTC CAGCCTGAAG 
CTCTCCAAAA TCCCTGAGCG CATCCCAAAG TCCACAGCCG AGCTACGATT GAACAACAAT 
GAAATTTCCC TCTTGGAGGC CACTGGGATG TTTAAAAAAC TTACACATCT GAAGAAAATC 
AACCTGAGCA ACAACAAGGT GTCAGAAATC GAAGACGGCA CGTTTGAGGG CGCGGCCTCC 
GTGAGTGAGC TGCACCTGAC TGCCAACCAG CTGGAGTCCA TCCGGAGTGG CATGTTCCGG 
GGTCTGGATG GCCTGCGGAC CCTGATGCTT AGGAACAACC GCATCAGCTG CATCCACAAT 
GACAGCTTCA CGGGCCTGCG CAACGTCCGA CTCCTCTCGC TGTACGACAA TCACATCACC 
ACCATCTCCC CTGGAGCCTT CGACACCTTG CAGGCTCTCT CCACACTAAA CCTCCTGGCC 
AACCCATTCA ACTGTAACTG CCAACTGGCC TGGCTGGGCG ACTGGCTGAG GAAGAGGAAG 
ATTGTGACTG GGAACCCTCG ATGCCAGAAC CCAGACTTCT TGCGGCAGAT CCCCCTGCAG 
GATGTGGCCT TTCCTGACTT CAGATGTGAG GAAGGCCAGG AGGAGGGGGG CTGCCTGCCC 
CGCCCACAGT GCCCTCAGGA GTGCGCCTGC CTGGACACTG TGGTCCGATG CAGCAACAAG 
CACCTGCGGG CGCTGCCCAA GGGCATCCCC AAGAATGTCA CAGAGCTCTA CTTGGACGGC 
AACCAGTTCA CACTGGTTCC AAGTCAACTA TCTACGTTCA AGTACTTGCA ACTTGTGGAC 
CTCAGTAACA ACAAGATCAG TTCCTTAAGC AATTCCTCCT TCACCAACAT GAGCCAGCTG 
ACCACTCTGA TCCTCAGCTA CAATGCCCTC CAGTGCATCC CTCCTCTGGC CTTCCAGGGA 
CTCCGCTCTC TGCGCCTGCT GTCCCTCCAC GGCAATGATA TCTCCACCCT CCGAGAGGGC 
GTCTTCACGG ATGTCACCTC CCTGTCTCAC CTGGCTATTG GTGCCAATCC TCTGTACTGT 
GACTGCCACC TCCGCTGGCT ATCCAGTTGG GTGAAAACTG GCTACAAGGA GCCGGGCATT 
GCCCGTTGCG CTGGGCCCCC TGACATGGAG GGCAAGCTAC TGCTCACCAC CCCTGCCAAG 
AAGTTTGAAT GTCAAGGTCC TCCCACTCTG GCTGTCCAGA CCAAGTGTGA TCCCTGCTTG 
TCCAGTCCAT GCCAGAACCA GGGCACTTGC CACAATGACC TCCTTGAAGT GTACAGGTGT 
GCCTGCCCCA GCGGCTATAA GGGCCGACAC TGTGAGGTAT CCCTGGACAG CTGTTCCAGC 
AGCCCCTGTG GAAATGGGGG GACCTGCCAA GCTGAGGAGG GCGAGGATGC CAGCTTCACG 
TGCTCCTGTC CCATGGGCTT TGAAGGACCA ACCTGTGGGG TGAACACGGA TGACTGTGTG 
GAGCACGCCT GTGCCAATGG GGGCACCTGC GTGGATGGTG TGGGCAACTA CACCTGCCAG 
TGTCCCCTAC AGTATGTGGG AAGGTCCTGC GAGCAGCTGC TGGACTTTTG CTCTCCGGAT 
CTGAACCCCT GTCAGCATAA GGCCCAGTGT GTGGGTACCC CGGAGGGCCC CAGGTGTGAA 
TGTGCCCCAG GTTACACAGG TGACAACTGC AGTGAGAACC AAGATGATTG CAGTGGTCAT 
CGTTGCCAGA ATGGAGCCCA GTGTGTGGAT GCAGTCAACA GCTACACCTG TCTCTGTGCC 
AAGGGCTACA GTGGACAGCT CTGTGAGATC TCTCCCCGCT CACCTGCCCC CAGGAACCCC 
TGTGAGGGGA CTGAGTGCCA GAATGGGGCC AACTGTGTGG ACCAGGGCAG CCGGCCTGTG 
TGCCAGTGCC TCCCAGGCTT CGGTGGTCCT GAGTGTGAGA AGTTGCTCAG TGTCAACTTT 
GTGGATCGGG ATACTTACCT GCAGTTCACT GACCTGCAGA ATTGGCCACG GGCCAACATC 
ACACTACAGG TCTCCACGGC AGAGGACAAC GGAATTCTGC TGTACAACGG GGACAATGAC 
CACATCGCAG TTGAGCTGTA CCAGGGCCAT GTGCGTGTCA GCTACGACCC AGGCAGCTAC 
CCGAGCTCTG CCATCTACAG TGCTGAGATG ATCAATGATG GGCAGTTCCA CACTGTTGAA 
CTGGTGACCT TTGACCAGAT GGTGAACCTC TCCATCGATG GCGGCAGTCC CATGACCATG 
GACAACTTCG GCAAACACTA CACACTCAAC AGTGAGGCAC CCCTCTATGT GGGAGGGATG 
CCAGTGGATG TGAACTCGGC AGCCTTCCGG ATGTGGCAGA TCCTTAATGG TACCAGCTTC 
CACGGTTGCA TCCGAAACCT GTACATAAAT AACGAGCTAC AGGACTTCAC CAAGACACAG 
ATGAAACCGG GTGTGGTACC AGGCTGTGAA CCCTGCCGCA AACTCTATTG CCTGCATGGC 
ATCTGCCAGC CCAATGCCAC CCCAGGGCCC ATGTGCCACT GTGAGGCTGG CTGGGGGGGC 
CTGCACTGCG ACCAGCCAGC TGATGGCCCC TGCCATGGCC ACAAGTGTGT CCATGGGAAA 
TGTGTGCCCC TTGATGCCCT TTCCTACAGC TGCCAGTGCC GGGAGGGGTA CTCAGGGGCC 
CTGTGCAACC AGGCTGGGGC AGTGGTGGAG CCCTGTGGGG ACCTGCAATG CCTGCATGGC 
CACTGCCAGG CTTCGGCCAC CAAGGGGGCA CACTGTGTTT GTGACCCTGG CTTTTCAGGC 
GAGCTGTGTG AGCAAGAGTC CGAATGCCGG GGGGACCCTG TCCGGGATTT CCACCAGGTC 
CAGAGGGGCT ATGCCATCTG CCAAACCACG CGCCCGCTAT CGTGGGTGGA GTGTCGGGGC 
ACGTGCCCAG GTCGGGGCTG CTGCCTAGGC CTGCGGCTGA AGCAGAGGAA GCTCACCTTC 
GAGTGCAGCG ACGGGATCTC TTTTGCCGAG GAGGTGGAGA AGCCCACCAA ATGTGGTTGT 
TCCCTCTGCG TATAA