HDLBP cDNA ORF clone, Tursiops truncatus(common bottlenose dolphin)

Gene
Clones
gRNAs

Summary

Gene Symbol	HDLBP
Entrez Gene ID	101339151
Full Name	high density lipoprotein binding protein
Gene Type	protein-coding
Organism	Tursiops truncatus(common bottlenose dolphin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019934856.1	XP_019790415.1	vigilin

Pathways from BioSystems
Gene Ontology

The following HDLBP gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HDLBP 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
OTu30951	XM_019934856.1 Latest version!	Tursiops truncatus high density lipoprotein binding protein (HDLBP), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

HDLBP ( XM_019934856.1 ) cDNA ORF clone, Tursiops truncatus(common bottlenose dolphin) -> XP_019790415.1 Tursiops truncatus high density lipoprotein binding protein (HDLBP), mRNA.

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CloneID	OTu30951
Clone ID Related Accession (Same CDS sequence)	XM_019934856.1
Accession Version	XM_019934856.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3936bp) 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	2017-01-11
Organism	Tursiops truncatus(common bottlenose dolphin)
Product	vigilin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017842195.1) 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 :: Tursiops truncatus 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##

ATGAGCTCCG TCGCCGTTCT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGACTGGTT 
CCGCAACAAA TCAAAGTTGC CACTTTAAAT TCAGAGGAGG AGAGCGACCC TCCAACCTAC 
AAGGATGCCT TCCCCCCACT CCCTGAGAAA GCAGCTTGCT TGGAAAATGC CCAGGAACCT 
GCTGGCGTCT GGAATAACAA GATCCGGCCC ATCAAGGCTT CCGTCATCAC TCAGGTGTTC 
CATGTACCCC TGGAGGAGAG GAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
GCAAAAATCT GCCTTGAGAT CATGCAGAGG ACTGGCGCTC ACCTGGAGCT GTCTCTTGCC 
AAAGACCAGG GCCTGTCCAT CATGGTTTCA GGGAAGCTGG ATGCTGTCAT GAAAGCCCGG 
AAGGACATTG TTGCTAGACT GCAGACGCAG GCCTCAGCAA CTGTTGCCAT TCCCAAAGAA 
CACCATCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTAAAAACT 
GCAACCAAAA TCCAGATCCC ACGCCCAGAT GACGCCAGCA ATCAGATCAG GATCACCGGC 
ACCAAAGAGG GCATCGAGAA AGCTCGCCAC GAGGTCCTGC TCATCTCCGC CGAGCAGGAC 
AAACGTGCTG TGGAGAGGCT GGAAGTAGAG AAGGCGTTCC ACCCCTTCAT CGCGGGGCCG 
TACAACCGGC TGGTCAGCGA GATCATGCAG GAGACGGGGA CACGCATCAA CATACCCCCG 
CCCAGCGTCA ACCGGACCGA GATCGTCTTC ACGGGGGAGA AGGAGCAACT GGCTCAGGCT 
GTGGCTCGCG TCAAGAAGGT TTACGAGGAG AAGAAAAAGA GGACCACGAC CATCGCAGTG 
GAGGTGAGGA AATCCCAGCA CAAGTATGTC ATCGGGCCCA AGGGCAATTC CCTGCAGGAG 
ATCCTGGAAA GAACTGGAGT CTCTGTGGAG ATCCCTCCTT CAGACAGCAC CTCAGAGACT 
GTGATCCTCC GAGGCGAGCC TGAAAAGCTG GGGCAGGCGT TGACTGAAGT CTATGCCAAG 
GCCAACAGTT TTACGGTCTC CTCCGTCTCT GCTCCTTCCT GGCTTCACCG TTTCATCATT 
GGCAAGAAAG GGCAGAACCT GGCCAAAATC ACTCAGCAGA TGCCAAAGGT CCACATCGAG 
TTCACGGAGG GCGAGGACAG GATCACCCTG GAAGGCCCCA CGGAGGATGT AAACGTGGCC 
CAGGAACAGA TCGAAGCCAT GGTCAAGGAC TTGATTAACC GGATGGACTA CGTGGAGATC 
AACATCGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
ATCAAAGACC AGTACAAGGT GTCTGTGCGC ATCCCTCCCG ACAGCGAGAA GAGCAACCTG 
ATCCGCATCG AGGGGGACCC GCAGGGCGTG CAGCAGGCCA AGCGCGAGCT GCTGGAGCTC 
GCCTCCCGCA TGGAAAACGA GCGTACCAAG GATCTAATCA TTGAGCAGAG ATTTCATCGC 
ACAATCATTG GGCAGAAGGG TGAACGGATC CGTGAAATTC GGGACAAATT CCCAGAGGTC 
ATCATCAACT TTCCAGACCC AGCACAGAAA AGCGATATTG TCCAGCTTAG AGGGCCCAAG 
AATGAGGTGG AGAAATGCAC GAAGTACATG CAGAAGGTGG CGGCAGATCT GGTGAGGGCG 
CGCTTCCATG CTTTGCTGTG CGACAGTGTC GAGGGTGGTA GGGGCTGGGG GTGCTCCCCA 
GAACCCCTGC TTCGGGGAGC GCGCTCGGGC ACTGGGGCAG CCCCCCACCT CACGGTATTT 
AGAGCAGCAG AAATCCTTTT CCTGTGCAGA GTTACTTGTA GGCAGGGTCC TTGCTTACGG 
GGCTCTTGGG AGGGTTGGTC CTCGGGCATC TCGGCCCTGC CTCTGCTGCA GGCGCCTGAG 
GGAGACATCT TGTGTGACGT CACGGCTTTC CCTCCGCGGC ATGTCTGCCC TTTCCCGCCA 
CACAAAAACC TGGCTCGCTC GTGCTGTGTG TCATTTCAGG CCAACATAGC CGAGGTGGAG 
GTCTCCATCC CTGCCAAGCT GCACAACTCG CTCATCGGCA CCAAGGGCCG CCTCATCCGC 
TCCATCATGG AGGAGTGCGG TGGGGTCCAC ATCCACTTCC CCGTGGAGGG TTCGGGAAGT 
GACACCGTGA TCATCAGGGG CCCTTCCTCG GACGTGGAGA AGGCCCGGAA ACAGCTCCTG 
CACCTGGCGG AGGAGAAGCA AACCAAGAGT TTCACTGTCG ACATCCGCGC CAAGCCGGAG 
TATCACAAGT TCCTCATCGG CAAAGGGGGC GGCAACATCC GCAAGGTGCG TGACAGCACC 
GGGGCCCGCG TCATCTTCCC GGCGGCTGAG GACAGGGACC AGGACCTGAT CACCATCATA 
GGGAAGGAGG GCGCCGTCAG GGAGGCCCAG AAGGAGCTGG AGGCCCTGAT CCGGAGCCTG 
GACAACGTGG TTGAAGACTA CATGCTGGTG GACCCCAAGC ACCACCGTCA CTTTGTCATC 
CGGAGAGGCC AGGTTCTGCG CGAGATCGCT GAGGAGTATG GCGGTGTGAT GGTTAGCTTC 
CCACGCTCCG GCACGCAGAG CGACAAGGTC ACCCTCAAGG GGGCCAAGGA CTGCGTGGAG 
GCAGCCAAGA AGCGCATCCA GGAGATCATC GAGGACCTGG AAGCCCAGGT GACCATAGAA 
TGCGCCATAC CCCAGAAATT CCATCGATCG GTCATGGGCC CCAAAGGTTC CAAAATCCAA 
CAGATTACTC GGGACTATAA CGTTCAGATT AAATTCCCAG ACAGAGAAGA GAACCCAGTG 
CACAGTGTGG AGCCTGCTGT CCAGGAGAAT GGTGACGACG CGGGGGAGGG GAGGGATGGC 
AAGGAGGCCG AGCCCGGCTC CCCCAGGAGG TGCGACATCA TCGTCATCTC CGGCCGGAAG 
GAGAAGTGTG AGGCCGCCAA GGAAGCCCTC GAGGCGCTGG TTCCCGTCAC CATTGAAGTG 
GAGGTGCCTT TTGACCTTCA CCGGTACATC ATCGGGCAGA AGGGAAGCGG GATCCGCAAG 
ATGATGGACG AGTTTGAGGT GAATATTCAC GTCCCGGCAC CTGAACTGCA GTCTGACATC 
ATCGCCATCA CAGGCCTGGC TGCGAATTTG GACCGGGCCA AGGCTGGGCT GCTGGAGCGG 
GTGAAGGAGC TGCAGGCAGA GCAAGAAGAC CGGGCTTTAA GGAGTTTTAA GCTGAGTGTC 
ACTGTAGACC CCAAATATCA CCCCAAAATC ATTGGGAGGA AGGGGGCAGT GATCACCCAA 
ATCCGCTTGG AGCATGACGT GAACATCCAG TTTCCTGATA AGGATGATGG GAACCAGCCC 
CAGGACCAAA TTACCATCAC AGGGTACGAG AAGAATACAG AAGCTGCCCG GGATGCCATA 
TTGAAAATTG TGGGTGAACT TGAACAGATG GTTTCTGAGG ACGTCCCGCT AGACCACCGT 
GTTCACGCCC GCATCATCGG TGCCCGTGGC AAAGCCATCC GCAAAATCAT GGATGAATTC 
AAGGTGGACA TTCGCTTCCC ACAGAGTGGG GCCCCAGACC CCAACTGCGT GACCGTGACA 
GGGCTCCCGG AGAACGTGGA GGAGGCCATC GACCACATCC TCAACCTGGA GGAGGAATAC 
CTGGCCGACG TGGTGGACAG CGAGGCGCTG CAGCTGTACG TGAAGCCCGC CCCCCACGAG 
GAGTCTAAGG CGCCGTCCAG GGGCTTTGTG GTGCGTGACG CGCCCTGGAC CGCCAGCAGC 
AGCGAGAAGG CTCCCGATAT GAGCAGCTCC GAGGAGTTTC CCAGCTTTGG GGCTCAGGTG 
GCCCCCAAGA CCCTCCCATG GGGCCCCAAA CGATAA

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

RefSeq	XP_019790415.1
CDS	223..4158
Translation	MSSVAVLTQESFAEHRSGLVPQQIKVATLNSEEESDPPTYKDAFPPLPEKAACLENAQEPAGVWNNKIRPIKASVITQVFHVPLEERKYKDMNQFGEGEQAKICLEIMQRTGAHLELSLAKDQGLSIMVSGKLDAVMKARKDIVARLQTQASATVAIPKEHHRFVIGKNGEKLQDLELKTATKIQIPRPDDASNQIRITGTKEGIEKARHEVLLISAEQDKRAVERLEVEKAFHPFIAGPYNRLVSEIMQETGTRINIPPPSVNRTEIVFTGEKEQLAQAVARVKKVYEEKKKRTTTIAVEVRKSQHKYVIGPKGNSLQEILERTGVSVEIPPSDSTSETVILRGEPEKLGQALTEVYAKANSFTVSSVSAPSWLHRFIIGKKGQNLAKITQQMPKVHIEFTEGEDRITLEGPTEDVNVAQEQIEAMVKDLINRMDYVEINIDHKFHRHLIGKSGANINRIKDQYKVSVRIPPDSEKSNLIRIEGDPQGVQQAKRELLELASRMENERTKDLIIEQRFHRTIIGQKGERIREIRDKFPEVIINFPDPAQKSDIVQLRGPKNEVEKCTKYMQKVAADLVRARFHALLCDSVEGGRGWGCSPEPLLRGARSGTGAAPHLTVFRAAEILFLCRVTCRQGPCLRGSWEGWSSGISALPLLQAPEGDILCDVTAFPPRHVCPFPPHKNLARSCCVSFQANIAEVEVSIPAKLHNSLIGTKGRLIRSIMEECGGVHIHFPVEGSGSDTVIIRGPSSDVEKARKQLLHLAEEKQTKSFTVDIRAKPEYHKFLIGKGGGNIRKVRDSTGARVIFPAAEDRDQDLITIIGKEGAVREAQKELEALIRSLDNVVEDYMLVDPKHHRHFVIRRGQVLREIAEEYGGVMVSFPRSGTQSDKVTLKGAKDCVEAAKKRIQEIIEDLEAQVTIECAIPQKFHRSVMGPKGSKIQQITRDYNVQIKFPDREENPVHSVEPAVQENGDDAGEGRDGKEAEPGSPRRCDIIVISGRKEKCEAAKEALEALVPVTIEVEVPFDLHRYIIGQKGSGIRKMMDEFEVNIHVPAPELQSDIIAITGLAANLDRAKAGLLERVKELQAEQEDRALRSFKLSVTVDPKYHPKIIGRKGAVITQIRLEHDVNIQFPDKDDGNQPQDQITITGYEKNTEAARDAILKIVGELEQMVSEDVPLDHRVHARIIGARGKAIRKIMDEFKVDIRFPQSGAPDPNCVTVTGLPENVEEAIDHILNLEEEYLADVVDSEALQLYVKPAPHEESKAPSRGFVVRDAPWTASSSEKAPDMSSSEEFPSFGAQVAPKTLPWGPKR

Target ORF information:

RefSeq Version	XM_019934856.1
Organism	Tursiops truncatus(common bottlenose dolphin)
Definition	Tursiops truncatus high density lipoprotein binding protein (HDLBP), mRNA.

Target ORF information:

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

XM_019934856.1

ORF Insert Sequence:

ATGAGCTCCG TCGCCGTTCT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGACTGGTT 
CCGCAACAAA TCAAAGTTGC CACTTTAAAT TCAGAGGAGG AGAGCGACCC TCCAACCTAC 
AAGGATGCCT TCCCCCCACT CCCTGAGAAA GCAGCTTGCT TGGAAAATGC CCAGGAACCT 
GCTGGCGTCT GGAATAACAA GATCCGGCCC ATCAAGGCTT CCGTCATCAC TCAGGTGTTC 
CATGTACCCC TGGAGGAGAG GAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
GCAAAAATCT GCCTTGAGAT CATGCAGAGG ACTGGCGCTC ACCTGGAGCT GTCTCTTGCC 
AAAGACCAGG GCCTGTCCAT CATGGTTTCA GGGAAGCTGG ATGCTGTCAT GAAAGCCCGG 
AAGGACATTG TTGCTAGACT GCAGACGCAG GCCTCAGCAA CTGTTGCCAT TCCCAAAGAA 
CACCATCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTAAAAACT 
GCAACCAAAA TCCAGATCCC ACGCCCAGAT GACGCCAGCA ATCAGATCAG GATCACCGGC 
ACCAAAGAGG GCATCGAGAA AGCTCGCCAC GAGGTCCTGC TCATCTCCGC CGAGCAGGAC 
AAACGTGCTG TGGAGAGGCT GGAAGTAGAG AAGGCGTTCC ACCCCTTCAT CGCGGGGCCG 
TACAACCGGC TGGTCAGCGA GATCATGCAG GAGACGGGGA CACGCATCAA CATACCCCCG 
CCCAGCGTCA ACCGGACCGA GATCGTCTTC ACGGGGGAGA AGGAGCAACT GGCTCAGGCT 
GTGGCTCGCG TCAAGAAGGT TTACGAGGAG AAGAAAAAGA GGACCACGAC CATCGCAGTG 
GAGGTGAGGA AATCCCAGCA CAAGTATGTC ATCGGGCCCA AGGGCAATTC CCTGCAGGAG 
ATCCTGGAAA GAACTGGAGT CTCTGTGGAG ATCCCTCCTT CAGACAGCAC CTCAGAGACT 
GTGATCCTCC GAGGCGAGCC TGAAAAGCTG GGGCAGGCGT TGACTGAAGT CTATGCCAAG 
GCCAACAGTT TTACGGTCTC CTCCGTCTCT GCTCCTTCCT GGCTTCACCG TTTCATCATT 
GGCAAGAAAG GGCAGAACCT GGCCAAAATC ACTCAGCAGA TGCCAAAGGT CCACATCGAG 
TTCACGGAGG GCGAGGACAG GATCACCCTG GAAGGCCCCA CGGAGGATGT AAACGTGGCC 
CAGGAACAGA TCGAAGCCAT GGTCAAGGAC TTGATTAACC GGATGGACTA CGTGGAGATC 
AACATCGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
ATCAAAGACC AGTACAAGGT GTCTGTGCGC ATCCCTCCCG ACAGCGAGAA GAGCAACCTG 
ATCCGCATCG AGGGGGACCC GCAGGGCGTG CAGCAGGCCA AGCGCGAGCT GCTGGAGCTC 
GCCTCCCGCA TGGAAAACGA GCGTACCAAG GATCTAATCA TTGAGCAGAG ATTTCATCGC 
ACAATCATTG GGCAGAAGGG TGAACGGATC CGTGAAATTC GGGACAAATT CCCAGAGGTC 
ATCATCAACT TTCCAGACCC AGCACAGAAA AGCGATATTG TCCAGCTTAG AGGGCCCAAG 
AATGAGGTGG AGAAATGCAC GAAGTACATG CAGAAGGTGG CGGCAGATCT GGTGAGGGCG 
CGCTTCCATG CTTTGCTGTG CGACAGTGTC GAGGGTGGTA GGGGCTGGGG GTGCTCCCCA 
GAACCCCTGC TTCGGGGAGC GCGCTCGGGC ACTGGGGCAG CCCCCCACCT CACGGTATTT 
AGAGCAGCAG AAATCCTTTT CCTGTGCAGA GTTACTTGTA GGCAGGGTCC TTGCTTACGG 
GGCTCTTGGG AGGGTTGGTC CTCGGGCATC TCGGCCCTGC CTCTGCTGCA GGCGCCTGAG 
GGAGACATCT TGTGTGACGT CACGGCTTTC CCTCCGCGGC ATGTCTGCCC TTTCCCGCCA 
CACAAAAACC TGGCTCGCTC GTGCTGTGTG TCATTTCAGG CCAACATAGC CGAGGTGGAG 
GTCTCCATCC CTGCCAAGCT GCACAACTCG CTCATCGGCA CCAAGGGCCG CCTCATCCGC 
TCCATCATGG AGGAGTGCGG TGGGGTCCAC ATCCACTTCC CCGTGGAGGG TTCGGGAAGT 
GACACCGTGA TCATCAGGGG CCCTTCCTCG GACGTGGAGA AGGCCCGGAA ACAGCTCCTG 
CACCTGGCGG AGGAGAAGCA AACCAAGAGT TTCACTGTCG ACATCCGCGC CAAGCCGGAG 
TATCACAAGT TCCTCATCGG CAAAGGGGGC GGCAACATCC GCAAGGTGCG TGACAGCACC 
GGGGCCCGCG TCATCTTCCC GGCGGCTGAG GACAGGGACC AGGACCTGAT CACCATCATA 
GGGAAGGAGG GCGCCGTCAG GGAGGCCCAG AAGGAGCTGG AGGCCCTGAT CCGGAGCCTG 
GACAACGTGG TTGAAGACTA CATGCTGGTG GACCCCAAGC ACCACCGTCA CTTTGTCATC 
CGGAGAGGCC AGGTTCTGCG CGAGATCGCT GAGGAGTATG GCGGTGTGAT GGTTAGCTTC 
CCACGCTCCG GCACGCAGAG CGACAAGGTC ACCCTCAAGG GGGCCAAGGA CTGCGTGGAG 
GCAGCCAAGA AGCGCATCCA GGAGATCATC GAGGACCTGG AAGCCCAGGT GACCATAGAA 
TGCGCCATAC CCCAGAAATT CCATCGATCG GTCATGGGCC CCAAAGGTTC CAAAATCCAA 
CAGATTACTC GGGACTATAA CGTTCAGATT AAATTCCCAG ACAGAGAAGA GAACCCAGTG 
CACAGTGTGG AGCCTGCTGT CCAGGAGAAT GGTGACGACG CGGGGGAGGG GAGGGATGGC 
AAGGAGGCCG AGCCCGGCTC CCCCAGGAGG TGCGACATCA TCGTCATCTC CGGCCGGAAG 
GAGAAGTGTG AGGCCGCCAA GGAAGCCCTC GAGGCGCTGG TTCCCGTCAC CATTGAAGTG 
GAGGTGCCTT TTGACCTTCA CCGGTACATC ATCGGGCAGA AGGGAAGCGG GATCCGCAAG 
ATGATGGACG AGTTTGAGGT GAATATTCAC GTCCCGGCAC CTGAACTGCA GTCTGACATC 
ATCGCCATCA CAGGCCTGGC TGCGAATTTG GACCGGGCCA AGGCTGGGCT GCTGGAGCGG 
GTGAAGGAGC TGCAGGCAGA GCAAGAAGAC CGGGCTTTAA GGAGTTTTAA GCTGAGTGTC 
ACTGTAGACC CCAAATATCA CCCCAAAATC ATTGGGAGGA AGGGGGCAGT GATCACCCAA 
ATCCGCTTGG AGCATGACGT GAACATCCAG TTTCCTGATA AGGATGATGG GAACCAGCCC 
CAGGACCAAA TTACCATCAC AGGGTACGAG AAGAATACAG AAGCTGCCCG GGATGCCATA 
TTGAAAATTG TGGGTGAACT TGAACAGATG GTTTCTGAGG ACGTCCCGCT AGACCACCGT 
GTTCACGCCC GCATCATCGG TGCCCGTGGC AAAGCCATCC GCAAAATCAT GGATGAATTC 
AAGGTGGACA TTCGCTTCCC ACAGAGTGGG GCCCCAGACC CCAACTGCGT GACCGTGACA 
GGGCTCCCGG AGAACGTGGA GGAGGCCATC GACCACATCC TCAACCTGGA GGAGGAATAC 
CTGGCCGACG TGGTGGACAG CGAGGCGCTG CAGCTGTACG TGAAGCCCGC CCCCCACGAG 
GAGTCTAAGG CGCCGTCCAG GGGCTTTGTG GTGCGTGACG CGCCCTGGAC CGCCAGCAGC 
AGCGAGAAGG CTCCCGATAT GAGCAGCTCC GAGGAGTTTC CCAGCTTTGG GGCTCAGGTG 
GCCCCCAAGA CCCTCCCATG GGGCCCCAAA CGATAA