DLG3 cDNA ORF clone, Anser cygnoides domesticus

Gene
Clones
gRNAs

Summary

Gene Symbol	DLG3
Entrez Gene ID	106037380
Full Name	discs large MAGUK scaffold protein 3
Gene Type	protein-coding
Organism	Anser cygnoides domesticus

mRNA and Protein(s)

mRNA	Protein	Name
XM_013183251.1	XP_013038705.1	disks large homolog 3

Pathways from BioSystems
Gene Ontology

The following DLG3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DLG3 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
OAn132823	XM_013183251.1 Latest version!	Anser cygnoides domesticus discs, large homolog 3 (Drosophila) (DLG3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

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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)

DLG3 ( XM_013183251.1 ) cDNA ORF clone, Anser cygnoides domesticus -> XP_013038705.1 Anser cygnoides domesticus discs, large homolog 3 (Drosophila) (DLG3), mRNA.

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CloneID	OAn132823
Clone ID Related Accession (Same CDS sequence)	XM_013183251.1
Accession Version	XM_013183251.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3078bp) 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	2015-07-23
Organism	Anser cygnoides domesticus
Product	disks large homolog 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013185711.1) 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 :: Anser cygnoides domesticus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGAGCTCTT TGCACCACTC TGAGGGTGCA CTCGAGCCTT CCTTGAGGAT GTCTGTCTAT 
CTTTCAGTAT TAATGCCTTG TTACTCCTGT GTTGCCTCTA CAGACACCGA AAAGGCAGTG 
GAAATCCTTA CAAGATACCA AAGCACCCTG CTGTCCCCAG AGGAACAGGA GTTAAAAGCC 
TCCATCGGAA AGATCTCGCA CATCTTCCAA AGTGAACTAT TCCAGGCTCT GCTGGATATC 
CACGAATTCT ACGACTTCAC GCTGCGCTCT GCACCCCTGC AGCCTCCTGG CCCGGACGCG 
CGTTGCGGCA CAGCCCGGCA GCAGCATGGG GCCGGCAAGC CCGGCTCCTC AGACACCCCC 
AGGGAGCCCC AAAATCTCCC CGAGGAGCCG GCCGAGGACG GTGAGCGGAG GCTGCCCGTG 
GCCACCTGCA GGACGCCGGG GACCCCTCCG CGGCTGGTGA GGGTGACGGC CCGCAGGACG 
GAGGCACCAA CCAGCGTCTG CAGCCTGACC ACAATAAAAT GGCCCCGCTT CTCCGCACGG 
GCTGTGCTGT CGGTGTCTCC TCCTGGGGAG CCGCCAGCGA GGGGAGGTTT GCTCCGCCAA 
GGACCACCCC CTCGTCCCCC CCGCTCGCTG CCTGCCTCAG TCTCTCGGCA GAGACGTGGC 
GGCGAGGGAG GTCCTGGCGG CTCCCACGCT CCCGCTCCAT CTGTTGGGTG CTCCGCGCCG 
AGCGCCCGGG CTGACGAGCG CCGGCCTCCC CTCAGCCACG CGCCCGCTGC CCTCCCGGAC 
CACGGCGGAT GCTGTAAGGG GGGTGCTGCG GGGGGGCTCG CTGCTCTCAG ACCGGCGCTG 
CCAGCGAGCA AGTGGCCGCG TGGGACAGGC GCCGCGTGTG GTTTCCCGCA GGGTAACTCC 
GGCCTCGGCT TCAGCATAGC AGGAGGGATC GACAACCCCC ACATTCCAGA TGACCCGGGC 
ATCTTCATCA CCAAAATCAT CCCCGGGGGA GCGGCAGCCA TGGACGGACG TTTGGGGGTG 
AACGACTGCG TGCTGCGGGT CAACGACGTG GACGTCTCCG AGGTGGTGCA CAGCAAAGCC 
GTGGAGGCTC TGAAGGAAGC GGGCCCCGTG GTGCGGCTCG TGGTGCGGCG CCGGCAGCCC 
CCGCCGGAGA CCATCATGGA GGTCAACCTG ATGAAGGGAC CCAAAGGACT GGGCTTCAGC 
ATCGCAGGGG GCATCGGGAA CCAGCACATC CCCGGGGACA ACAGCATCTA CATCACCAAG 
ATCATCGAGG GAGGCGCTGC CCAGAAGGAC GGGCGGCTGC AGCTTGGGGA CCGGCTGGGG 
GGGGTGAATA ACACGAACCT GCAGGACGTG CGGCACGAGG AGGCGGTGGC CGCCCTGAAG 
AACACCTCCG ACATGGTGTA CCTGAAAGTG GCCAAACCCG GCAGCCTGCA CCTCAACGAC 
ATGTACGCGC CCCCCGACTA CGCCAGCACC TTCTCAGCCT TGGCTGACAA CCACATAAGC 
CATAACTCCA GTCTGGGCTA CCTGGGCAGC GTGGAGAACA AACCTGCCTA CACCGTCCCC 
CCTCAAGTGA CCCCCTCCAG GTACTCGCCC ATCCCTCGGC ACATGATTGG GGACGACGAC 
TTCACCAGAG AGCCCCGGAA AATCATCCTG CACAAAGGCT CCACCGGCCT GGGCTTCAAC 
ATCGTCGGGG GGGAAGATGG AGAGGGCATC TTCGTGTCCT TCATCCTGGC CGGAGGCCCC 
GCCGACCTCA GCGGGGAGCT GCGGAGGGGA GACCGCATCC TCTCGACCCG CTTCGAGTCC 
AAGATCCACG ACTTGAGAGA GCAGATGATG AACAGCAGCA TGAGCTCTGG CTCTGGCTCG 
CTCCGGACAA GCGAGAAGAG ATCCCTCTAC GTCCGAGCTC TGTTTGACTA TGACCGGACC 
CGGGACAGTT GCTTGCCCAG CCAGGGGCTC AGCTTCTCCT ACGGGGACAT CCTGCACGTC 
ATCAATGCCT CTGATGATGA GTGGTGGCAA GCCAGGCTCG TGACACCCCA TGGCGAGAGC 
GAGCAGATCG GGGTCATCCC CAGCAAGAAG AGGGTGGAGA AGAAGGAGAG AGCGCGGTTG 
AAAACGGTGA AGTTCCACGC CAGGACCGGC ATGATAGAGT CCAACCGGCA GCAGCTGGAG 
CAACCCCATG GAAAGAGCAG CGCGATTGGA CTCAAATTCC TCAGGCACGC GTCCACCTGG 
CTCGGCCCAG CACGGGTCCC CTCGACAGCA GGGGGTCGAT CAAAACGAAA CGTAAAAAGA 
GTTTCCGCCT CTCTCGAAAG TTTCCATTTT ACAAGAGCAA AGAGAACCTG GCCCAGGAGA 
GCAGCGGACA GGAACGACTT CCCTGGGTTA AGTGACGATT ATTATGGAGC AAAGAACCTG 
AAGGGCGTGA CATCAAACAC CAGTGACAGC GAGAGCAGTT CCAAAGGACA AGAGGACACT 
ATCCTGTCAT ACGAACCGGT GACACGGCAA GAAATTCACT ATGCGAGGCC AGTGATCATC 
CTGGGGCCGA CGAAGGACCG AGTTAACGAT GACCTCATCT CTGAATTCCC ACACAAGTTT 
GGTTCCTGTG TGCCACACAC CACCAGGCCT CGGCGCGAGA ACGAGGTGGA TGGACAAGAC 
TACCATTTCG TCGTATCCCG AGAACAAATG GAGAAGGATA TTCAGGACAA TAAGTTCATA 
GAGGCTGGGC AGTTCAATGA CAATCTCTAC GGGACCAGCA TCCAGTCGGT GCGGGCGGTC 
GCGGAGAGGG GGAAACACTG CATCCTGGAC GTATCTGGCA ATGCTATCAA GAGGTTGCAA 
CAAGCACAAC TTTATCCCAT TGCCATTTTT ATCAAACCAA AATCCATCGA AGCTCTCATG 
GAGATGAACC GGAGACAGAC ATACGAACAG GCCAACAAGG TCTTTGACAA AGCCATGAAA 
CTCGAGCAAG AATTTGGAGA GTATTTTACA GCCATCGTAC AAGGAGACTC TCTTGAAGAG 
ATTTACAGCA AAATCAAACA GATCATTGAG GACCAGTCCG GGCACTACAT CTGGGTCCCG 
TCCCCAGAGA AACTCTGA

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

RefSeq	XP_013038705.1
CDS	865..3942
Translation	MSSLHHSEGALEPSLRMSVYLSVLMPCYSCVASTDTEKAVEILTRYQSTLLSPEEQELKASIGKISHIFQSELFQALLDIHEFYDFTLRSAPLQPPGPDARCGTARQQHGAGKPGSSDTPREPQNLPEEPAEDGERRLPVATCRTPGTPPRLVRVTARRTEAPTSVCSLTTIKWPRFSARAVLSVSPPGEPPARGGLLRQGPPPRPPRSLPASVSRQRRGGEGGPGGSHAPAPSVGCSAPSARADERRPPLSHAPAALPDHGGCCKGGAAGGLAALRPALPASKWPRGTGAACGFPQGNSGLGFSIAGGIDNPHIPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNDVDVSEVVHSKAVEALKEAGPVVRLVVRRRQPPPETIMEVNLMKGPKGLGFSIAGGIGNQHIPGDNSIYITKIIEGGAAQKDGRLQLGDRLGGVNNTNLQDVRHEEAVAALKNTSDMVYLKVAKPGSLHLNDMYAPPDYASTFSALADNHISHNSSLGYLGSVENKPAYTVPPQVTPSRYSPIPRHMIGDDDFTREPRKIILHKGSTGLGFNIVGGEDGEGIFVSFILAGGPADLSGELRRGDRILSTRFESKIHDLREQMMNSSMSSGSGSLRTSEKRSLYVRALFDYDRTRDSCLPSQGLSFSYGDILHVINASDDEWWQARLVTPHGESEQIGVIPSKKRVEKKERARLKTVKFHARTGMIESNRQQLEQPHGKSSAIGLKFLRHASTWLGPARVPSTAGGRSKRNVKRVSASLESFHFTRAKRTWPRRAADRNDFPGLSDDYYGAKNLKGVTSNTSDSESSSKGQEDTILSYEPVTRQEIHYARPVIILGPTKDRVNDDLISEFPHKFGSCVPHTTRPRRENEVDGQDYHFVVSREQMEKDIQDNKFIEAGQFNDNLYGTSIQSVRAVAERGKHCILDVSGNAIKRLQQAQLYPIAIFIKPKSIEALMEMNRRQTYEQANKVFDKAMKLEQEFGEYFTAIVQGDSLEEIYSKIKQIIEDQSGHYIWVPSPEKL

Target ORF information:

RefSeq Version	XM_013183251.1
Organism	Anser cygnoides domesticus
Definition	Anser cygnoides domesticus discs, large homolog 3 (Drosophila) (DLG3), mRNA.

Target ORF information:

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

XM_013183251.1

ORF Insert Sequence:

ATGAGCTCTT TGCACCACTC TGAGGGTGCA CTCGAGCCTT CCTTGAGGAT GTCTGTCTAT 
CTTTCAGTAT TAATGCCTTG TTACTCCTGT GTTGCCTCTA CAGACACCGA AAAGGCAGTG 
GAAATCCTTA CAAGATACCA AAGCACCCTG CTGTCCCCAG AGGAACAGGA GTTAAAAGCC 
TCCATCGGAA AGATCTCGCA CATCTTCCAA AGTGAACTAT TCCAGGCTCT GCTGGATATC 
CACGAATTCT ACGACTTCAC GCTGCGCTCT GCACCCCTGC AGCCTCCTGG CCCGGACGCG 
CGTTGCGGCA CAGCCCGGCA GCAGCATGGG GCCGGCAAGC CCGGCTCCTC AGACACCCCC 
AGGGAGCCCC AAAATCTCCC CGAGGAGCCG GCCGAGGACG GTGAGCGGAG GCTGCCCGTG 
GCCACCTGCA GGACGCCGGG GACCCCTCCG CGGCTGGTGA GGGTGACGGC CCGCAGGACG 
GAGGCACCAA CCAGCGTCTG CAGCCTGACC ACAATAAAAT GGCCCCGCTT CTCCGCACGG 
GCTGTGCTGT CGGTGTCTCC TCCTGGGGAG CCGCCAGCGA GGGGAGGTTT GCTCCGCCAA 
GGACCACCCC CTCGTCCCCC CCGCTCGCTG CCTGCCTCAG TCTCTCGGCA GAGACGTGGC 
GGCGAGGGAG GTCCTGGCGG CTCCCACGCT CCCGCTCCAT CTGTTGGGTG CTCCGCGCCG 
AGCGCCCGGG CTGACGAGCG CCGGCCTCCC CTCAGCCACG CGCCCGCTGC CCTCCCGGAC 
CACGGCGGAT GCTGTAAGGG GGGTGCTGCG GGGGGGCTCG CTGCTCTCAG ACCGGCGCTG 
CCAGCGAGCA AGTGGCCGCG TGGGACAGGC GCCGCGTGTG GTTTCCCGCA GGGTAACTCC 
GGCCTCGGCT TCAGCATAGC AGGAGGGATC GACAACCCCC ACATTCCAGA TGACCCGGGC 
ATCTTCATCA CCAAAATCAT CCCCGGGGGA GCGGCAGCCA TGGACGGACG TTTGGGGGTG 
AACGACTGCG TGCTGCGGGT CAACGACGTG GACGTCTCCG AGGTGGTGCA CAGCAAAGCC 
GTGGAGGCTC TGAAGGAAGC GGGCCCCGTG GTGCGGCTCG TGGTGCGGCG CCGGCAGCCC 
CCGCCGGAGA CCATCATGGA GGTCAACCTG ATGAAGGGAC CCAAAGGACT GGGCTTCAGC 
ATCGCAGGGG GCATCGGGAA CCAGCACATC CCCGGGGACA ACAGCATCTA CATCACCAAG 
ATCATCGAGG GAGGCGCTGC CCAGAAGGAC GGGCGGCTGC AGCTTGGGGA CCGGCTGGGG 
GGGGTGAATA ACACGAACCT GCAGGACGTG CGGCACGAGG AGGCGGTGGC CGCCCTGAAG 
AACACCTCCG ACATGGTGTA CCTGAAAGTG GCCAAACCCG GCAGCCTGCA CCTCAACGAC 
ATGTACGCGC CCCCCGACTA CGCCAGCACC TTCTCAGCCT TGGCTGACAA CCACATAAGC 
CATAACTCCA GTCTGGGCTA CCTGGGCAGC GTGGAGAACA AACCTGCCTA CACCGTCCCC 
CCTCAAGTGA CCCCCTCCAG GTACTCGCCC ATCCCTCGGC ACATGATTGG GGACGACGAC 
TTCACCAGAG AGCCCCGGAA AATCATCCTG CACAAAGGCT CCACCGGCCT GGGCTTCAAC 
ATCGTCGGGG GGGAAGATGG AGAGGGCATC TTCGTGTCCT TCATCCTGGC CGGAGGCCCC 
GCCGACCTCA GCGGGGAGCT GCGGAGGGGA GACCGCATCC TCTCGACCCG CTTCGAGTCC 
AAGATCCACG ACTTGAGAGA GCAGATGATG AACAGCAGCA TGAGCTCTGG CTCTGGCTCG 
CTCCGGACAA GCGAGAAGAG ATCCCTCTAC GTCCGAGCTC TGTTTGACTA TGACCGGACC 
CGGGACAGTT GCTTGCCCAG CCAGGGGCTC AGCTTCTCCT ACGGGGACAT CCTGCACGTC 
ATCAATGCCT CTGATGATGA GTGGTGGCAA GCCAGGCTCG TGACACCCCA TGGCGAGAGC 
GAGCAGATCG GGGTCATCCC CAGCAAGAAG AGGGTGGAGA AGAAGGAGAG AGCGCGGTTG 
AAAACGGTGA AGTTCCACGC CAGGACCGGC ATGATAGAGT CCAACCGGCA GCAGCTGGAG 
CAACCCCATG GAAAGAGCAG CGCGATTGGA CTCAAATTCC TCAGGCACGC GTCCACCTGG 
CTCGGCCCAG CACGGGTCCC CTCGACAGCA GGGGGTCGAT CAAAACGAAA CGTAAAAAGA 
GTTTCCGCCT CTCTCGAAAG TTTCCATTTT ACAAGAGCAA AGAGAACCTG GCCCAGGAGA 
GCAGCGGACA GGAACGACTT CCCTGGGTTA AGTGACGATT ATTATGGAGC AAAGAACCTG 
AAGGGCGTGA CATCAAACAC CAGTGACAGC GAGAGCAGTT CCAAAGGACA AGAGGACACT 
ATCCTGTCAT ACGAACCGGT GACACGGCAA GAAATTCACT ATGCGAGGCC AGTGATCATC 
CTGGGGCCGA CGAAGGACCG AGTTAACGAT GACCTCATCT CTGAATTCCC ACACAAGTTT 
GGTTCCTGTG TGCCACACAC CACCAGGCCT CGGCGCGAGA ACGAGGTGGA TGGACAAGAC 
TACCATTTCG TCGTATCCCG AGAACAAATG GAGAAGGATA TTCAGGACAA TAAGTTCATA 
GAGGCTGGGC AGTTCAATGA CAATCTCTAC GGGACCAGCA TCCAGTCGGT GCGGGCGGTC 
GCGGAGAGGG GGAAACACTG CATCCTGGAC GTATCTGGCA ATGCTATCAA GAGGTTGCAA 
CAAGCACAAC TTTATCCCAT TGCCATTTTT ATCAAACCAA AATCCATCGA AGCTCTCATG 
GAGATGAACC GGAGACAGAC ATACGAACAG GCCAACAAGG TCTTTGACAA AGCCATGAAA 
CTCGAGCAAG AATTTGGAGA GTATTTTACA GCCATCGTAC AAGGAGACTC TCTTGAAGAG 
ATTTACAGCA AAATCAAACA GATCATTGAG GACCAGTCCG GGCACTACAT CTGGGTCCCG 
TCCCCAGAGA AACTCTGA