DLGAP3 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	DLGAP3
Entrez Gene ID	58512
Full Name	DLG associated protein 3
Synonyms	DAP3,SAPAP3
General protein information	Preferred Names DLG associated protein 3 Names disks large-associated protein 3 DAP-3 PSD-95/SAP90-binding protein 3 SAP90/PSD-95-associated protein 3 discs large homolog associated protein 3
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 1 Map Location: 1p34.3
Disorder MIM:	611413

mRNA and Protein(s)

mRNA	Protein	Name
XM_011541879.2	XP_011540181.1	disks large-associated protein 3 isoform X1
XM_011541880.2	XP_011540182.1	disks large-associated protein 3 isoform X2
NM_001080418.3	NP_001073887.1	disks large-associated protein 3
NM_001080418.2	NP_001073887.1	disks large-associated protein 3

Pathways from BioSystems

Homologies

Homo sapiens (human)	DLGAP3	NP_001073887.1
	DLGAP3	XP_001108687.1
Mus musculus (house mouse)	Dlgap3	NP_941020.1
Pan troglodytes (chimpanzee)	DLGAP3	XP_003949428.1
Bos taurus (cattle)	DLGAP3	NP_001179367.1
Rattus norvegicus (Norway rat)	Dlgap3	NP_775161.2
Xenopus tropicalis (tropical clawed frog)	dlgap3	NP_001106458.1
Danio rerio (zebrafish)	dlgap3	NP_001038179.1
Canis lupus familiaris (dog)	DLGAP3	XP_532568.4
Gallus gallus (chicken)	DLGAP3	XP_004947837.1

Gene Ontology
Bibliography

Related articles in PubMed

Exonic resequencing of the DLGAP3 gene as a candidate gene for schizophrenia.
Li JM, Lu CL, Cheng MC, Luu SU, Hsu SH, Chen CH
Psychiatry research208(1)84-7(2013 Jun)

Synthesis of two SAPAP3 isoforms from a single mRNA is mediated via alternative translational initiation.
Chua JJ, Schob C, Rehbein M, Gkogkas CG, Richter D, Kindler S
Scientific reports2484(2012)

Interaction between genetic variants of DLGAP3 and SLC1A1 affecting the risk of atypical antipsychotics-induced obsessive-compulsive symptoms.
Ryu S, Oh S, Cho EY, Nam HJ, Yoo JH, Park T, Joo YH, Kwon JS, Hong KS
American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics156B(8)949-59(2011 Dec)

Investigating SAPAP3 variants in the etiology of obsessive-compulsive disorder and trichotillomania in the South African white population.
Boardman L, van der Merwe L, Lochner C, Kinnear CJ, Seedat S, Stein DJ, Moolman-Smook JC, Hemmings SM
Comprehensive psychiatry52(2)181-7(2011 Mar-Apr)

Family-based genetic association study of DLGAP3 in Tourette Syndrome.
Crane J, Fagerness J, Osiecki L, Gunnell B, Stewart SE, Pauls DL, Scharf JM,
American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics156B(1)108-14(2011 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

several rare variants of the DLGAP3 gene were found in this study which may be associated with schizophrenia.
Title: Exonic resequencing of the DLGAP3 gene as a candidate gene for schizophrenia.

This study provides suggestive evidence that DLGAP3 and its interactive effect with SLC1A1 might be involved in susceptibility to developing OC symptoms in schizophrenia patients receiving AAP treatment.
Title: Interaction between genetic variants of DLGAP3 and SLC1A1 affecting the risk of atypical antipsychotics-induced obsessive-compulsive symptoms.

This study generated preliminary evidence to link SAPAP3 variants to the development of earlier onset obsessive-compulsive disorder.
Title: Investigating SAPAP3 variants in the etiology of obsessive-compulsive disorder and trichotillomania in the South African white population.

DLGAP3 remains a promising candidate gene for Tourette Syndrome.
Title: Family-based genetic association study of DLGAP3 in Tourette Syndrome.

Multiple rare SAPAP3 missense variants in trichotillomania and OCD.
Title: Multiple rare SAPAP3 missense variants in trichotillomania and OCD.

The following DLGAP3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DLGAP3 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)
OHu05448	NM_001080418.3 Latest version!	Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu05448	XM_011541879.2 Latest version!	Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu71008	XM_011541880.2 Latest version!	Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$223.30 $319.00
View Old Accession Versions >>
OHu05448	NM_001080418.2	Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
Hide Old Accession Versions >>

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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)

DLGAP3 ( NM_001080418.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001073887.1 Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.

Price & Availability↑

CloneID	OHu05448
Clone ID Related Accession (Same CDS sequence)	XM_011541879.2 , NM_001080418.3 , NM_001080418.2
Accession Version	NM_001080418.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2940bp) 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	2019-04-30
Organism	Homo sapiens(human)
Product	disks large-associated protein 3
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC114490.2 and AL122010.10. On Nov 23, 2018 this sequence version replaced NM_001080418.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000373347.6/ ENSP00000362444.1 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

RefSeq	NP_001073887.1
CDS	335..3274
Translation	MRGYHGDRGSHPRPARFADQQHMDVGPAARAPYLLGSREAFSTEPRFCAPRAGLGHISPEGPLSLSEGPSVGPEGGPAGAGVGGGSSTFPRMYPGQGPFDTCEDCVGHPQGKGAPRLPPTLLDQFEKQLPVQQDGFHTLPYQRGPAGAGPGPAPGTGTAPEPRSESPSRIRHLVHSVQKLFAKSHSLEAPGKRDYNGPKAEGRGGSGGDSYPGPGSGGPHTSHHHHHHHHHHHHQSRHGKRSKSKDRKGDGRHQAKSTGWWSSDDNLDSDSGFLAGGRPPGEPGGPFCLEGPDGSYRDLSFKGRSGGSEGRCLACTGMSMSLDGQSVKRSAWHTMMVSQGRDGYPGAGPGKGLLGPETKAKARTYHYLQVPQDDWGGYPTGGKDGEIPCRRMRSGSYIKAMGDEESGDSDGSPKTSPKAVARRFTTRRSSSVDQARINCCVPPRIHPRSSIPGYSRSLTTGQLSDELNQQLEAVCGSVFGELESQAVDALDLPGCFRMRSHSYLRAIQAGCSQDDDCLPLLATPAAVSGRPGSSFNFRKAPPPIPPGSQAPPRISITAQSSTDSAHESFTAAEGPARRCSSADGLDGPAMGARTLELAPVPPRASPKPPTLIIKTIPGREELRSLARQRKWRPSIGVQVETISDSDTENRSRREFHSIGVQVEEDKRRARFKRSNSVTAGVQADLELEGLAGLATVATEDKALQFGRSFQRHASEPQPGPRAPTYSVFRTVHTQGQWAYREGYPLPYEPPATDGSPGPAPAPTPGPGAGRRDSWIERGSRSLPDSGRASPCPRDGEWFIKMLRAEVEKLEHWCQQMEREAEDYELPEEILEKIRSAVGSTQLLLSQKVQQFFRLCQQSMDPTAFPVPTFQDLAGFWDLLQLSIEDVTLKFLELQQLKANSWKLLEPKEEKKVPPPIPKKPLRGRGVPVKERSLDSVDRQRQEARKRLLAAKRAASFRHSSATESADSIEIYIPEAQTRL

Target ORF information:

RefSeq Version	NM_001080418.3
Organism	Homo sapiens(human)
Definition	Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.

Target ORF information:

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

NM_001080418.3

ORF Insert Sequence:

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

DLGAP3 ( NM_001080418.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001073887.1 Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.

Price & Availability↑

CloneID	OHu05448
Clone ID Related Accession (Same CDS sequence)	XM_011541879.2 , NM_001080418.3 , NM_001080418.2
Accession Version	NM_001080418.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2940bp) 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	2017-10-02
Organism	Homo sapiens(human)
Product	disks large-associated protein 3
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC114490.2 and AL122010.10. On Sep 26, 2014 this sequence version replaced NM_001080418.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END##

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

RefSeq	NP_001073887.1
CDS	270..3209
Translation	MRGYHGDRGSHPRPARFADQQHMDVGPAARAPYLLGSREAFSTEPRFCAPRAGLGHISPEGPLSLSEGPSVGPEGGPAGAGVGGGSSTFPRMYPGQGPFDTCEDCVGHPQGKGAPRLPPTLLDQFEKQLPVQQDGFHTLPYQRGPAGAGPGPAPGTGTAPEPRSESPSRIRHLVHSVQKLFAKSHSLEAPGKRDYNGPKAEGRGGSGGDSYPGPGSGGPHTSHHHHHHHHHHHHQSRHGKRSKSKDRKGDGRHQAKSTGWWSSDDNLDSDSGFLAGGRPPGEPGGPFCLEGPDGSYRDLSFKGRSGGSEGRCLACTGMSMSLDGQSVKRSAWHTMMVSQGRDGYPGAGPGKGLLGPETKAKARTYHYLQVPQDDWGGYPTGGKDGEIPCRRMRSGSYIKAMGDEESGDSDGSPKTSPKAVARRFTTRRSSSVDQARINCCVPPRIHPRSSIPGYSRSLTTGQLSDELNQQLEAVCGSVFGELESQAVDALDLPGCFRMRSHSYLRAIQAGCSQDDDCLPLLATPAAVSGRPGSSFNFRKAPPPIPPGSQAPPRISITAQSSTDSAHESFTAAEGPARRCSSADGLDGPAMGARTLELAPVPPRASPKPPTLIIKTIPGREELRSLARQRKWRPSIGVQVETISDSDTENRSRREFHSIGVQVEEDKRRARFKRSNSVTAGVQADLELEGLAGLATVATEDKALQFGRSFQRHASEPQPGPRAPTYSVFRTVHTQGQWAYREGYPLPYEPPATDGSPGPAPAPTPGPGAGRRDSWIERGSRSLPDSGRASPCPRDGEWFIKMLRAEVEKLEHWCQQMEREAEDYELPEEILEKIRSAVGSTQLLLSQKVQQFFRLCQQSMDPTAFPVPTFQDLAGFWDLLQLSIEDVTLKFLELQQLKANSWKLLEPKEEKKVPPPIPKKPLRGRGVPVKERSLDSVDRQRQEARKRLLAAKRAASFRHSSATESADSIEIYIPEAQTRL

Target ORF information:

RefSeq Version	NM_001080418.2
Organism	Homo sapiens(human)
Definition	Homo sapiens DLG associated protein 3 (DLGAP3), mRNA.

Target ORF information:

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

NM_001080418.2

ORF Insert Sequence:

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

DLGAP3 ( XM_011541879.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540181.1 Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu05448
Clone ID Related Accession (Same CDS sequence)	XM_011541879.2 , NM_001080418.3 , NM_001080418.2
Accession Version	XM_011541879.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2940bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	disks large-associated protein 3 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011541879.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

RefSeq	XP_011540181.1
CDS	2155..5094
Translation	MRGYHGDRGSHPRPARFADQQHMDVGPAARAPYLLGSREAFSTEPRFCAPRAGLGHISPEGPLSLSEGPSVGPEGGPAGAGVGGGSSTFPRMYPGQGPFDTCEDCVGHPQGKGAPRLPPTLLDQFEKQLPVQQDGFHTLPYQRGPAGAGPGPAPGTGTAPEPRSESPSRIRHLVHSVQKLFAKSHSLEAPGKRDYNGPKAEGRGGSGGDSYPGPGSGGPHTSHHHHHHHHHHHHQSRHGKRSKSKDRKGDGRHQAKSTGWWSSDDNLDSDSGFLAGGRPPGEPGGPFCLEGPDGSYRDLSFKGRSGGSEGRCLACTGMSMSLDGQSVKRSAWHTMMVSQGRDGYPGAGPGKGLLGPETKAKARTYHYLQVPQDDWGGYPTGGKDGEIPCRRMRSGSYIKAMGDEESGDSDGSPKTSPKAVARRFTTRRSSSVDQARINCCVPPRIHPRSSIPGYSRSLTTGQLSDELNQQLEAVCGSVFGELESQAVDALDLPGCFRMRSHSYLRAIQAGCSQDDDCLPLLATPAAVSGRPGSSFNFRKAPPPIPPGSQAPPRISITAQSSTDSAHESFTAAEGPARRCSSADGLDGPAMGARTLELAPVPPRASPKPPTLIIKTIPGREELRSLARQRKWRPSIGVQVETISDSDTENRSRREFHSIGVQVEEDKRRARFKRSNSVTAGVQADLELEGLAGLATVATEDKALQFGRSFQRHASEPQPGPRAPTYSVFRTVHTQGQWAYREGYPLPYEPPATDGSPGPAPAPTPGPGAGRRDSWIERGSRSLPDSGRASPCPRDGEWFIKMLRAEVEKLEHWCQQMEREAEDYELPEEILEKIRSAVGSTQLLLSQKVQQFFRLCQQSMDPTAFPVPTFQDLAGFWDLLQLSIEDVTLKFLELQQLKANSWKLLEPKEEKKVPPPIPKKPLRGRGVPVKERSLDSVDRQRQEARKRLLAAKRAASFRHSSATESADSIEIYIPEAQTRL

Target ORF information:

RefSeq Version	XM_011541879.2
Organism	Homo sapiens(human)
Definition	Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X1, mRNA.

Target ORF information:

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

XM_011541879.2

ORF Insert Sequence:

ATGAGGGGTT ACCATGGCGA CCGAGGCAGC CATCCCCGCC CAGCCCGCTT TGCTGACCAA 
CAGCATATGG ACGTGGGCCC TGCTGCCAGG GCCCCATACC TGCTGGGCTC CAGGGAGGCC 
TTCTCCACCG AGCCCCGCTT CTGTGCCCCG AGAGCTGGCC TGGGACACAT TTCTCCTGAA 
GGGCCCCTGA GCCTGAGTGA GGGGCCGTCG GTAGGCCCTG AGGGAGGGCC AGCGGGGGCC 
GGGGTTGGGG GGGGTAGCAG CACCTTCCCC AGGATGTACC CTGGCCAGGG CCCCTTCGAC 
ACCTGTGAAG ACTGTGTGGG CCACCCACAG GGCAAGGGTG CCCCCCGCCT GCCTCCTACA 
CTCCTGGATC AGTTTGAAAA GCAGTTGCCA GTTCAACAAG ATGGCTTCCA CACACTACCA 
TACCAGCGAG GGCCAGCAGG GGCAGGGCCC GGGCCAGCGC CAGGGACGGG CACTGCCCCA 
GAGCCCCGCA GTGAGAGCCC TAGCCGCATC CGGCACCTGG TTCATTCTGT GCAGAAGCTC 
TTTGCCAAGT CCCACTCTCT GGAGGCGCCG GGGAAGCGGG ACTATAATGG GCCCAAGGCT 
GAGGGAAGAG GTGGCTCTGG AGGAGACAGC TACCCCGGCC CGGGCTCTGG AGGCCCCCAC 
ACCTCCCATC ACCACCATCA CCACCACCAT CACCACCACC ACCAGTCCCG GCACGGCAAG 
AGGAGCAAGA GCAAGGACCG CAAGGGGGAT GGGCGGCACC AGGCCAAGTC CACAGGCTGG 
TGGAGTTCCG ATGACAACTT GGACAGTGAT AGCGGCTTCC TGGCGGGTGG GAGGCCCCCT 
GGGGAGCCTG GTGGTCCCTT CTGCCTGGAG GGTCCAGATG GGTCCTACCG GGACTTGAGC 
TTCAAGGGGC GCTCGGGCGG GTCGGAAGGC CGCTGCCTTG CCTGCACTGG CATGTCCATG 
TCACTGGATG GACAGTCGGT CAAGCGAAGT GCCTGGCATA CCATGATGGT CAGCCAGGGC 
CGGGATGGAT ACCCGGGGGC CGGGCCAGGC AAGGGGCTCC TGGGTCCGGA GACCAAGGCC 
AAAGCCAGGA CTTATCACTA TCTGCAGGTG CCGCAAGATG ACTGGGGGGG TTACCCCACC 
GGTGGCAAGG ATGGGGAGAT CCCCTGCCGC AGGATGCGGA GCGGCAGCTA CATCAAAGCC 
ATGGGGGATG AGGAGAGCGG AGACTCAGAC GGCAGCCCCA AGACATCTCC CAAAGCAGTC 
GCCCGACGCT TCACCACCCG TCGCTCCTCC AGCGTGGACC AGGCCAGGAT CAACTGCTGT 
GTCCCACCCC GGATCCACCC CCGGAGCTCC ATCCCTGGCT ACAGCCGTTC CCTCACCACT 
GGACAGCTCA GCGATGAGTT GAACCAGCAG CTGGAGGCCG TGTGCGGGTC GGTGTTTGGG 
GAGCTGGAGT CCCAGGCCGT GGACGCCCTG GACCTGCCCG GCTGTTTCCG CATGCGGAGC 
CACAGCTACC TCCGGGCCAT CCAGGCCGGC TGCTCTCAAG ACGACGACTG CCTGCCCCTC 
CTCGCTACCC CTGCCGCTGT CTCAGGGAGG CCCGGCTCCT CCTTCAACTT CAGAAAGGCC 
CCGCCCCCCA TCCCGCCGGG AAGCCAGGCC CCGCCCCGCA TCTCCATCAC CGCCCAGAGC 
AGCACCGACT CCGCGCACGA GAGCTTCACG GCGGCCGAGG GCCCCGCCCG GCGCTGCAGC 
TCCGCCGACG GGCTGGACGG CCCCGCCATG GGTGCGCGCA CACTGGAGTT GGCGCCGGTG 
CCGCCCCGGG CCAGCCCCAA GCCCCCCACA CTCATCATCA AGACCATCCC TGGCAGGGAG 
GAGCTGCGGA GCCTGGCGCG GCAGCGGAAG TGGCGGCCGT CCATTGGGGT GCAGGTGGAG 
ACGATCTCAG ATTCGGACAC CGAGAACAGG AGCCGGAGGG AGTTCCACTC TATTGGCGTG 
CAGGTGGAAG AGGACAAGAG GCGAGCAAGG TTCAAGCGCT CCAATAGTGT GACGGCTGGC 
GTGCAGGCAG ACCTGGAGCT GGAGGGCCTG GCAGGCCTGG CCACGGTGGC CACAGAAGAC 
AAGGCCCTGC AGTTTGGACG CTCCTTCCAG AGGCACGCCT CTGAGCCCCA GCCTGGGCCC 
CGGGCCCCCA CCTACTCAGT CTTCCGCACG GTCCACACGC AGGGCCAGTG GGCCTACCGC 
GAGGGCTACC CACTGCCGTA CGAGCCGCCG GCCACCGATG GGTCGCCCGG CCCTGCCCCC 
GCCCCCACCC CCGGCCCTGG GGCCGGCCGC CGTGACTCCT GGATAGAGCG CGGTTCACGT 
AGCCTCCCCG ACTCAGGCCG CGCATCCCCC TGCCCACGCG ACGGCGAGTG GTTCATCAAG 
ATGCTGCGGG CAGAGGTGGA GAAGCTGGAG CACTGGTGCC AGCAGATGGA GCGTGAGGCG 
GAGGACTATG AGCTACCCGA GGAGATCCTG GAGAAGATCC GCAGTGCTGT GGGCAGCACA 
CAACTTCTCC TGTCCCAGAA GGTTCAGCAG TTCTTCCGGC TGTGTCAGCA AAGCATGGAT 
CCCACTGCGT TCCCTGTGCC CACCTTCCAG GACCTGGCGG GTTTCTGGGA CCTCCTACAG 
CTCTCCATCG AGGATGTGAC CCTCAAGTTC CTGGAGCTAC AGCAACTCAA GGCCAACAGC 
TGGAAACTCC TGGAGCCTAA GGAGGAGAAG AAGGTCCCTC CGCCGATACC AAAGAAGCCC 
CTGCGGGGCC GGGGCGTGCC GGTGAAGGAG CGCTCCCTGG ACTCCGTGGA CCGGCAGCGG 
CAGGAAGCGC GCAAGCGGCT CCTGGCGGCC AAGCGCGCCG CTTCCTTCCG CCACAGCTCG 
GCCACCGAGA GCGCCGACAG CATCGAGATC TACATCCCCG AGGCCCAGAC CAGGCTGTGA

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

DLGAP3 ( XM_011541880.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540182.1 Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu71008
Clone ID Related Accession (Same CDS sequence)	XM_011541880.2
Accession Version	XM_011541880.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 1449bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	disks large-associated protein 3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011541880.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCGGAGCC ACAGCTACCT CCGGGCCATC CAGGCCGGCT GCTCTCAAGA CGACGACTGC 
CTGCCCCTCC TCGCTACCCC TGCCGCTGTC TCAGGGAGGC CCGGCTCCTC CTTCAACTTC 
AGAAAGGCCC CGCCCCCCAT CCCGCCGGGA AGCCAGGCCC CGCCCCGCAT CTCCATCACC 
GCCCAGAGCA GCACCGACTC CGCGCACGAG AGCTTCACGG CGGCCGAGGG CCCCGCCCGG 
CGCTGCAGCT CCGCCGACGG GCTGGACGGC CCCGCCATGG GTGCGCGCAC ACTGGAGTTG 
GCGCCGGTGC CGCCCCGGGC CAGCCCCAAG CCCCCCACAC TCATCATCAA GACCATCCCT 
GGCAGGGAGG AGCTGCGGAG CCTGGCGCGG CAGCGGAAGT GGCGGCCGTC CATTGGGGTG 
CAGGTGGAGA CGATCTCAGA TTCGGACACC GAGAACAGGA GCCGGAGGGA GTTCCACTCT 
ATTGGCGTGC AGGTGGAAGA GGACAAGAGG CGAGCAAGGT TCAAGCGCTC CAATAGTGTG 
ACGGCTGGCG TGCAGGCAGA CCTGGAGCTG GAGGGCCTGG CAGGCCTGGC CACGGTGGCC 
ACAGAAGACA AGGCCCTGCA GTTTGGACGC TCCTTCCAGA GGCACGCCTC TGAGCCCCAG 
CCTGGGCCCC GGGCCCCCAC CTACTCAGTC TTCCGCACGG TCCACACGCA GGGCCAGTGG 
GCCTACCGCG AGGGCTACCC ACTGCCGTAC GAGCCGCCGG CCACCGATGG GTCGCCCGGC 
CCTGCCCCCG CCCCCACCCC CGGCCCTGGG GCCGGCCGCC GTGACTCCTG GATAGAGCGC 
GGTTCACGTA GCCTCCCCGA CTCAGGCCGC GCATCCCCCT GCCCACGCGA CGGCGAGTGG 
TTCATCAAGA TGCTGCGGGC AGAGGTGGAG AAGCTGGAGC ACTGGTGCCA GCAGATGGAG 
CGTGAGGCGG AGGACTATGA GCTACCCGAG GAGATCCTGG AGAAGATCCG CAGTGCTGTG 
GGCAGCACAC AACTTCTCCT GTCCCAGAAG GTTCAGCAGT TCTTCCGGCT GTGTCAGCAA 
AGCATGGATC CCACTGCGTT CCCTGTGCCC ACCTTCCAGG ACCTGGCGGG TTTCTGGGAC 
CTCCTACAGC TCTCCATCGA GGATGTGACC CTCAAGTTCC TGGAGCTACA GCAACTCAAG 
GCCAACAGCT GGAAACTCCT GGAGCCTAAG GAGGAGAAGA AGGTCCCTCC GCCGATACCA 
AAGAAGCCCC TGCGGGGCCG GGGCGTGCCG GTGAAGGAGC GCTCCCTGGA CTCCGTGGAC 
CGGCAGCGGC AGGAAGCGCG CAAGCGGCTC CTGGCGGCCA AGCGCGCCGC TTCCTTCCGC 
CACAGCTCGG CCACCGAGAG CGCCGACAGC ATCGAGATCT ACATCCCCGA GGCCCAGACC 
AGGCTGTGA

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

RefSeq	XP_011540182.1
CDS	1470..2918
Translation	MRSHSYLRAIQAGCSQDDDCLPLLATPAAVSGRPGSSFNFRKAPPPIPPGSQAPPRISITAQSSTDSAHESFTAAEGPARRCSSADGLDGPAMGARTLELAPVPPRASPKPPTLIIKTIPGREELRSLARQRKWRPSIGVQVETISDSDTENRSRREFHSIGVQVEEDKRRARFKRSNSVTAGVQADLELEGLAGLATVATEDKALQFGRSFQRHASEPQPGPRAPTYSVFRTVHTQGQWAYREGYPLPYEPPATDGSPGPAPAPTPGPGAGRRDSWIERGSRSLPDSGRASPCPRDGEWFIKMLRAEVEKLEHWCQQMEREAEDYELPEEILEKIRSAVGSTQLLLSQKVQQFFRLCQQSMDPTAFPVPTFQDLAGFWDLLQLSIEDVTLKFLELQQLKANSWKLLEPKEEKKVPPPIPKKPLRGRGVPVKERSLDSVDRQRQEARKRLLAAKRAASFRHSSATESADSIEIYIPEAQTRL

Target ORF information:

RefSeq Version	XM_011541880.2
Organism	Homo sapiens(human)
Definition	Homo sapiens DLG associated protein 3 (DLGAP3), transcript variant X2, mRNA.

Target ORF information:

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

XM_011541880.2

ORF Insert Sequence:

ATGCGGAGCC ACAGCTACCT CCGGGCCATC CAGGCCGGCT GCTCTCAAGA CGACGACTGC 
CTGCCCCTCC TCGCTACCCC TGCCGCTGTC TCAGGGAGGC CCGGCTCCTC CTTCAACTTC 
AGAAAGGCCC CGCCCCCCAT CCCGCCGGGA AGCCAGGCCC CGCCCCGCAT CTCCATCACC 
GCCCAGAGCA GCACCGACTC CGCGCACGAG AGCTTCACGG CGGCCGAGGG CCCCGCCCGG 
CGCTGCAGCT CCGCCGACGG GCTGGACGGC CCCGCCATGG GTGCGCGCAC ACTGGAGTTG 
GCGCCGGTGC CGCCCCGGGC CAGCCCCAAG CCCCCCACAC TCATCATCAA GACCATCCCT 
GGCAGGGAGG AGCTGCGGAG CCTGGCGCGG CAGCGGAAGT GGCGGCCGTC CATTGGGGTG 
CAGGTGGAGA CGATCTCAGA TTCGGACACC GAGAACAGGA GCCGGAGGGA GTTCCACTCT 
ATTGGCGTGC AGGTGGAAGA GGACAAGAGG CGAGCAAGGT TCAAGCGCTC CAATAGTGTG 
ACGGCTGGCG TGCAGGCAGA CCTGGAGCTG GAGGGCCTGG CAGGCCTGGC CACGGTGGCC 
ACAGAAGACA AGGCCCTGCA GTTTGGACGC TCCTTCCAGA GGCACGCCTC TGAGCCCCAG 
CCTGGGCCCC GGGCCCCCAC CTACTCAGTC TTCCGCACGG TCCACACGCA GGGCCAGTGG 
GCCTACCGCG AGGGCTACCC ACTGCCGTAC GAGCCGCCGG CCACCGATGG GTCGCCCGGC 
CCTGCCCCCG CCCCCACCCC CGGCCCTGGG GCCGGCCGCC GTGACTCCTG GATAGAGCGC 
GGTTCACGTA GCCTCCCCGA CTCAGGCCGC GCATCCCCCT GCCCACGCGA CGGCGAGTGG 
TTCATCAAGA TGCTGCGGGC AGAGGTGGAG AAGCTGGAGC ACTGGTGCCA GCAGATGGAG 
CGTGAGGCGG AGGACTATGA GCTACCCGAG GAGATCCTGG AGAAGATCCG CAGTGCTGTG 
GGCAGCACAC AACTTCTCCT GTCCCAGAAG GTTCAGCAGT TCTTCCGGCT GTGTCAGCAA 
AGCATGGATC CCACTGCGTT CCCTGTGCCC ACCTTCCAGG ACCTGGCGGG TTTCTGGGAC 
CTCCTACAGC TCTCCATCGA GGATGTGACC CTCAAGTTCC TGGAGCTACA GCAACTCAAG 
GCCAACAGCT GGAAACTCCT GGAGCCTAAG GAGGAGAAGA AGGTCCCTCC GCCGATACCA 
AAGAAGCCCC TGCGGGGCCG GGGCGTGCCG GTGAAGGAGC GCTCCCTGGA CTCCGTGGAC 
CGGCAGCGGC AGGAAGCGCG CAAGCGGCTC CTGGCGGCCA AGCGCGCCGC TTCCTTCCGC 
CACAGCTCGG CCACCGAGAG CGCCGACAGC ATCGAGATCT ACATCCCCGA GGCCCAGACC 
AGGCTGTGA

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

PubMed

Exonic resequencing of the DLGAP3 gene as a candidate gene for schizophrenia.
Psychiatry research208(1)84-7(2013 Jun)
Li JM,Lu CL,Cheng MC,Luu SU,Hsu SH,Chen CH

Synthesis of two SAPAP3 isoforms from a single mRNA is mediated via alternative translational initiation.
Scientific reports2484(2012)
Chua JJ,Schob C,Rehbein M,Gkogkas CG,Richter D,Kindler S

Interaction between genetic variants of DLGAP3 and SLC1A1 affecting the risk of atypical antipsychotics-induced obsessive-compulsive symptoms.
American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics156B(8)949-59(2011 Dec)
Ryu S,Oh S,Cho EY,Nam HJ,Yoo JH,Park T,Joo YH,Kwon JS,Hong KS

Investigating SAPAP3 variants in the etiology of obsessive-compulsive disorder and trichotillomania in the South African white population.
Comprehensive psychiatry52(2)181-7(2011 Mar-Apr)
Boardman L,van der Merwe L,Lochner C,Kinnear CJ,Seedat S,Stein DJ,Moolman-Smook JC,Hemmings SM

Family-based genetic association study of DLGAP3 in Tourette Syndrome.
American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics156B(1)108-14(2011 Jan)
Crane J,Fagerness J,Osiecki L,Gunnell B,Stewart SE,Pauls DL,Scharf JM,

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DLGAP3 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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