EHMT2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	EHMT2
Entrez Gene ID	100468794
Full Name	euchromatic histone lysine methyltransferase 2
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011217901.2	XP_011216203.1	histone-lysine N-methyltransferase EHMT2 isoform X1
XM_011217902.2	XP_011216204.1	histone-lysine N-methyltransferase EHMT2 isoform X2

Pathways from BioSystems
Gene Ontology

The following EHMT2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EHMT2 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
OAc21831	XM_011217901.2 Latest version!	Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc21832	XM_011217902.2 Latest version!	Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

EHMT2 ( XM_011217901.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011216203.1 Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc21831
Clone ID Related Accession (Same CDS sequence)	XM_011217901.2
Accession Version	XM_011217901.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3807bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	histone-lysine N-methyltransferase EHMT2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003220160.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011217901.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 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##

ATGCGGGGTC TACCGAGAGG GAGGGGGCTA ATGCGGGCCC GGGGGAGGGG TCGTGCGGCC 
CCCCCGGGCA GCCGAGGCCG TGGAAGGGGG GGCCCCCATA GAGGAAGAGG TAGGCCCCGG 
AGCCTACTCT CTCTTCCCAG AGCCCAGGCG TCCTGGGCTC CCCAACTTCC TACTGGGCTG 
ACCAGCCCTC CTGTACCTTG TGTCCCCTGC CAGGGGGAGG CCCCTGCTGA GATGGGGGCG 
CTGGTGCTGG AGAAAGAGCC TAGAGGAGCC ACTGAGAGAG TTCATGGCTC TTTAGGGGAC 
ACCCCTCGTA GTGAGGAGAC CCTGCCCAAG GCCAGCCCCG ACTCCCTGGA GCCTGCGGGC 
CCCTCATCCC CAGCCTCTGT CACGGTCACC GTGGGCGATG AGGGGGCTGA CACCCCTGTG 
GGAGCCACAC CACTCATTGG GGATGAACCT GAGACTCTCG AGGGAGATGG GGACCTCCAC 
GGGGGCCGCA TCCTGCTGGG CCATGCTACA AAGTCATTCC CCTCTTCCCC CAGCAAGGGG 
GGTGCCTGTC CCAGCCGGGC CAAGATGTCA ATGACAGGAG CTGGAAAATC ACCCCCATCA 
GTCCAGAGTT TGGCTATGCG GCTGCTGAGT ATGCCGGGGG CCCAGGGGGC GGCCACAGCA 
GGGCCCGAAC CCCCTGTGGC CACGCCCAGC CCAGAGGGGC AGCCCAAGGT CCACCGAGCC 
AGAAAAACCA TGTCCAAACC AGGAAATGGG CAGCCCCCAG TCCCTGAGAA GCGGCCTCCT 
GAAGTGCAGC ATTTCCGCAT GAGTGATGAC ATGCACTCGC TGGGGAAGAT GACCTCAGAG 
GTGGCCAAAA GGAGGAAGAT GAACACGGGC GGTGGCCTGT CGGAGGAGTT GGGTTCTACA 
CGGGGTTCAG GAGAAGTGAC AGTGGAGAAA GGGGACCCGG GGTCCCTGGA GGAGTGGGAA 
ACAGTGGTGG GGGACGACTT CAGCCTCTAC TACGACTCCT ACTCTGTGGA TGAGCGTGTG 
GACTCTGACA GCAAGTCTGA GGTTGAAGCT CTGGCTGAAC AACTGAGTGA GGAAGAAGAG 
GAGGAGGAGG AGGAGGAAGA GGAAGAGGAA GAAGAGGAGG AGGAAGAGGA AGAAGAGGAG 
GAAGACGAGG AGTCAGGCAA TCAGTCTGAC AGGAGTGGCT CTAGTGGCCG GCGCAAGGCC 
AAGAAGAAGT GGCGGAAGGA CAGCCCATGG GTGAAGCCGT CCAGGAAACG GCGGAAGCGC 
GAGCCTCCCC GGGCCAAGGA GCCTCGAGGA GTGAATGGTG TGGGCTCCTC AGGCCCCAGT 
GAGTACATGG AGGTCCCTCT GGGGTCCCTG GAGCTGCCCA GCGAGGGGAC CCTCTCCCCC 
AACCACGCTG GGGTATCCAA TGACACGTCT TCACTGGAGA CAGAGCGGGG GTTTGAGGAG 
TTACCCCTGT GCAGCTGCCG CATGGAGGCT CCCAAGATTG ACCGCATCAG TGAGAGAGCC 
GGGCACAAGT GCATGGCCAC GGAGAGTGTG GATGGAGAGC TGTCAGGCTG CAACGCCGCC 
ATCCTCAAGC GGGAGACCAT GAGGCCATCG AGCCGCGTGG CACTGATGGT GCTCTGTGAG 
ACCCACCGTG CCCGCATGGT CAAGCACCAC TGCTGCCCAG GCTGTGGCTA CTTCTGTACA 
GCGGGCACCT TCCTGGAGTG CCACCCCGAC TTCCGCGTGG CCCACCGCTT CCACAAGGCC 
TGTGTGTCTC AGCTGAATGG CATGGTGTTC TGTCCCCACT GTGGGGAGGA TGCATCTGAG 
GCCCAGGAGG TGACCATCCC CCGGGGGGAT GGGGTGACCC CACCAGCTGG CACTGCAGCC 
CCTGCCCCCC CACCCCTGGC TCAGGATGCC CCTGGGAGAG CAGACACTTC CCAGCCCAGC 
GCCCGGATGC GAGGGCATGG GGAGCCCCGG CGCCCACCCT GCGACCCTCT GGCTGACACC 
ATCGACAGCT CGGGGCCCTC CCTGACCCTT CCCAACGGGG GCTGCTTGTC CGCCGTGGGG 
CTGCCCCCGG GGCCTGGCCG CGAGGCCCTG GAGAAGGCCC TGGTCATCCA GGAGTCCGAG 
AGGCGGAAGA AACTCCGTTT CCACCCCCGG CAGCTGTACC TGTCAGTGAA GCAGGGGGAG 
CTGCAGAAGG TGGTCCTGAT GCTGTTGGAC AACCTGGACC CCAACTTCCA GAGCGATCAG 
CAGAGCAAGC GCACGCCCCT GCACGCGGCC GCGCAGAAGG GCTCCGTGGA GATCTGCCAC 
GTGCTGCTGC AGGCGGGAGC CAACCTGAAC GCAGTCGACA AGCAGCAGCG GACACCACTG 
ATGGAGGCCG TGGTGAACAA CCACCTGGAG CTGGCCCGCT ACATGGTGCA GCGCGGCGGC 
TGCGTCTACA GCAAGGAGGA GGACGGTTCC ACCTGCCTCC ACCATGCAGC CAAAATCGGG 
AACTTGGAGA TGGTCAGTCT GCTGCTCAGC ACGGGACAGG TGGACGTCAA CGCCCAGGAC 
AGTGGGGGGT GGACGCCCAT CATCTGGGCC GCAGAGCACA AGCACATCGA GGTGATCCGC 
ATGCTGCTGA CCCGGGGCGC CGACGTCACG CTCACAGACA ATGAGGAAAA CATCTGCCTG 
CACTGGGCTT CCTTCACCGG CAGTGCCGCC ATCGCCGAGG TCCTCCTCAA TGCCCGCTGC 
GACCTCCACG CAGTCAACTA CCACGGGGAC ACGCCCCTGC ACATCGCGGC ACGGGAGAGC 
TACCATGACT GCGTGCTGTT GTTCCTGTCA CGTGGGGCGA ACCCAGAGCT GCGGAACAAG 
GAGGGGGACA CGGCGTGGGA CCTGACTCCT GAGCGCTCCG ACGTGTGGTT TGCGCTGCAG 
CTCAACCGCA AGCTTCGGCT GGGAGTGGGC AATCGGGCCA TCCGCACGGA GAAGATTATC 
TGCCGGGATG TGGCTCGGGG CTATGAGAAC GTGCCTATTC CCTGTGTCAA CGGCGTGGAT 
GGGGAGCCCT GCCCTGAGGA TTACAAGTAC ATCTCGGAGA ACTGCGAGAC ATCCACCATG 
AACATCGACC GTAACATCAC CCACTTGCAA CACTGCACTT GTGTGGACGA CTGCTCCAGC 
TCCAACTGCC TGTGCGGCCA GCTCAGCATT CGCTGCTGGT ATGACAAGGA CGGGCGGCTG 
CTCCAGGAAT TTAACAAGAT TGAGCCCCCG CTGATTTTCG AGTGTAACCA GGCGTGCTCC 
TGCTGGAGAA ACTGCAAGAA CCGTGTGGTG CAGAGCGGCA TCAAAGTGCG CCTACAGCTC 
TACCGAACAG CCAAGATGGG CTGGGGGGTC CGCGCCCTGC AGACCATCCC CCAGGGGACC 
TTCATCTGCG AGTATGTCGG GGAGCTGATC TCTGATGCCG AGGCTGACGT GAGAGAGGAT 
GATTCTTACC TCTTCGACTT AGACAACAAG GATGGAGAGG TGTATTGCAT CGATGCCCGT 
TACTATGGCA ACATCAGCCG CTTCATCAAC CACCTGTGCG ACCCCAACAT CATCCCCGTC 
CGGGTCTTCA TGCTGCACCA AGACCTGCGC TTTCCACGCA TTGCCTTCTT CAGTTCCCGA 
GACATCCGGA CCGGGGAGGA GCTGGGGTTT GACTATGGTG ACCGCTTCTG GGACATCAAA 
AGCAAATATT TCACTTGTCA GTGTGGCTCT GAGAAATGCA AGCACTCAGC CGAGGCCATC 
GCCCTGGAAC AGAGCCGCCT GGCGCGCCTA GATCCCCACC CTGAGCTGCT GCCTGAGCTC 
AGCTCCCTGC CCCCTGTCAA TCCCTGA

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

RefSeq	XP_011216203.1
CDS	6..3812
Translation	MRGLPRGRGLMRARGRGRAAPPGSRGRGRGGPHRGRGRPRSLLSLPRAQASWAPQLPTGLTSPPVPCVPCQGEAPAEMGALVLEKEPRGATERVHGSLGDTPRSEETLPKASPDSLEPAGPSSPASVTVTVGDEGADTPVGATPLIGDEPETLEGDGDLHGGRILLGHATKSFPSSPSKGGACPSRAKMSMTGAGKSPPSVQSLAMRLLSMPGAQGAATAGPEPPVATPSPEGQPKVHRARKTMSKPGNGQPPVPEKRPPEVQHFRMSDDMHSLGKMTSEVAKRRKMNTGGGLSEELGSTRGSGEVTVEKGDPGSLEEWETVVGDDFSLYYDSYSVDERVDSDSKSEVEALAEQLSEEEEEEEEEEEEEEEEEEEEEEEEEDEESGNQSDRSGSSGRRKAKKKWRKDSPWVKPSRKRRKREPPRAKEPRGVNGVGSSGPSEYMEVPLGSLELPSEGTLSPNHAGVSNDTSSLETERGFEELPLCSCRMEAPKIDRISERAGHKCMATESVDGELSGCNAAILKRETMRPSSRVALMVLCETHRARMVKHHCCPGCGYFCTAGTFLECHPDFRVAHRFHKACVSQLNGMVFCPHCGEDASEAQEVTIPRGDGVTPPAGTAAPAPPPLAQDAPGRADTSQPSARMRGHGEPRRPPCDPLADTIDSSGPSLTLPNGGCLSAVGLPPGPGREALEKALVIQESERRKKLRFHPRQLYLSVKQGELQKVVLMLLDNLDPNFQSDQQSKRTPLHAAAQKGSVEICHVLLQAGANLNAVDKQQRTPLMEAVVNNHLELARYMVQRGGCVYSKEEDGSTCLHHAAKIGNLEMVSLLLSTGQVDVNAQDSGGWTPIIWAAEHKHIEVIRMLLTRGADVTLTDNEENICLHWASFTGSAAIAEVLLNARCDLHAVNYHGDTPLHIAARESYHDCVLLFLSRGANPELRNKEGDTAWDLTPERSDVWFALQLNRKLRLGVGNRAIRTEKIICRDVARGYENVPIPCVNGVDGEPCPEDYKYISENCETSTMNIDRNITHLQHCTCVDDCSSSNCLCGQLSIRCWYDKDGRLLQEFNKIEPPLIFECNQACSCWRNCKNRVVQSGIKVRLQLYRTAKMGWGVRALQTIPQGTFICEYVGELISDAEADVREDDSYLFDLDNKDGEVYCIDARYYGNISRFINHLCDPNIIPVRVFMLHQDLRFPRIAFFSSRDIRTGEELGFDYGDRFWDIKSKYFTCQCGSEKCKHSAEAIALEQSRLARLDPHPELLPELSSLPPVNP

Target ORF information:

RefSeq Version	XM_011217901.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X1, mRNA.

Target ORF information:

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

XM_011217901.2

ORF Insert Sequence:

ATGCGGGGTC TACCGAGAGG GAGGGGGCTA ATGCGGGCCC GGGGGAGGGG TCGTGCGGCC 
CCCCCGGGCA GCCGAGGCCG TGGAAGGGGG GGCCCCCATA GAGGAAGAGG TAGGCCCCGG 
AGCCTACTCT CTCTTCCCAG AGCCCAGGCG TCCTGGGCTC CCCAACTTCC TACTGGGCTG 
ACCAGCCCTC CTGTACCTTG TGTCCCCTGC CAGGGGGAGG CCCCTGCTGA GATGGGGGCG 
CTGGTGCTGG AGAAAGAGCC TAGAGGAGCC ACTGAGAGAG TTCATGGCTC TTTAGGGGAC 
ACCCCTCGTA GTGAGGAGAC CCTGCCCAAG GCCAGCCCCG ACTCCCTGGA GCCTGCGGGC 
CCCTCATCCC CAGCCTCTGT CACGGTCACC GTGGGCGATG AGGGGGCTGA CACCCCTGTG 
GGAGCCACAC CACTCATTGG GGATGAACCT GAGACTCTCG AGGGAGATGG GGACCTCCAC 
GGGGGCCGCA TCCTGCTGGG CCATGCTACA AAGTCATTCC CCTCTTCCCC CAGCAAGGGG 
GGTGCCTGTC CCAGCCGGGC CAAGATGTCA ATGACAGGAG CTGGAAAATC ACCCCCATCA 
GTCCAGAGTT TGGCTATGCG GCTGCTGAGT ATGCCGGGGG CCCAGGGGGC GGCCACAGCA 
GGGCCCGAAC CCCCTGTGGC CACGCCCAGC CCAGAGGGGC AGCCCAAGGT CCACCGAGCC 
AGAAAAACCA TGTCCAAACC AGGAAATGGG CAGCCCCCAG TCCCTGAGAA GCGGCCTCCT 
GAAGTGCAGC ATTTCCGCAT GAGTGATGAC ATGCACTCGC TGGGGAAGAT GACCTCAGAG 
GTGGCCAAAA GGAGGAAGAT GAACACGGGC GGTGGCCTGT CGGAGGAGTT GGGTTCTACA 
CGGGGTTCAG GAGAAGTGAC AGTGGAGAAA GGGGACCCGG GGTCCCTGGA GGAGTGGGAA 
ACAGTGGTGG GGGACGACTT CAGCCTCTAC TACGACTCCT ACTCTGTGGA TGAGCGTGTG 
GACTCTGACA GCAAGTCTGA GGTTGAAGCT CTGGCTGAAC AACTGAGTGA GGAAGAAGAG 
GAGGAGGAGG AGGAGGAAGA GGAAGAGGAA GAAGAGGAGG AGGAAGAGGA AGAAGAGGAG 
GAAGACGAGG AGTCAGGCAA TCAGTCTGAC AGGAGTGGCT CTAGTGGCCG GCGCAAGGCC 
AAGAAGAAGT GGCGGAAGGA CAGCCCATGG GTGAAGCCGT CCAGGAAACG GCGGAAGCGC 
GAGCCTCCCC GGGCCAAGGA GCCTCGAGGA GTGAATGGTG TGGGCTCCTC AGGCCCCAGT 
GAGTACATGG AGGTCCCTCT GGGGTCCCTG GAGCTGCCCA GCGAGGGGAC CCTCTCCCCC 
AACCACGCTG GGGTATCCAA TGACACGTCT TCACTGGAGA CAGAGCGGGG GTTTGAGGAG 
TTACCCCTGT GCAGCTGCCG CATGGAGGCT CCCAAGATTG ACCGCATCAG TGAGAGAGCC 
GGGCACAAGT GCATGGCCAC GGAGAGTGTG GATGGAGAGC TGTCAGGCTG CAACGCCGCC 
ATCCTCAAGC GGGAGACCAT GAGGCCATCG AGCCGCGTGG CACTGATGGT GCTCTGTGAG 
ACCCACCGTG CCCGCATGGT CAAGCACCAC TGCTGCCCAG GCTGTGGCTA CTTCTGTACA 
GCGGGCACCT TCCTGGAGTG CCACCCCGAC TTCCGCGTGG CCCACCGCTT CCACAAGGCC 
TGTGTGTCTC AGCTGAATGG CATGGTGTTC TGTCCCCACT GTGGGGAGGA TGCATCTGAG 
GCCCAGGAGG TGACCATCCC CCGGGGGGAT GGGGTGACCC CACCAGCTGG CACTGCAGCC 
CCTGCCCCCC CACCCCTGGC TCAGGATGCC CCTGGGAGAG CAGACACTTC CCAGCCCAGC 
GCCCGGATGC GAGGGCATGG GGAGCCCCGG CGCCCACCCT GCGACCCTCT GGCTGACACC 
ATCGACAGCT CGGGGCCCTC CCTGACCCTT CCCAACGGGG GCTGCTTGTC CGCCGTGGGG 
CTGCCCCCGG GGCCTGGCCG CGAGGCCCTG GAGAAGGCCC TGGTCATCCA GGAGTCCGAG 
AGGCGGAAGA AACTCCGTTT CCACCCCCGG CAGCTGTACC TGTCAGTGAA GCAGGGGGAG 
CTGCAGAAGG TGGTCCTGAT GCTGTTGGAC AACCTGGACC CCAACTTCCA GAGCGATCAG 
CAGAGCAAGC GCACGCCCCT GCACGCGGCC GCGCAGAAGG GCTCCGTGGA GATCTGCCAC 
GTGCTGCTGC AGGCGGGAGC CAACCTGAAC GCAGTCGACA AGCAGCAGCG GACACCACTG 
ATGGAGGCCG TGGTGAACAA CCACCTGGAG CTGGCCCGCT ACATGGTGCA GCGCGGCGGC 
TGCGTCTACA GCAAGGAGGA GGACGGTTCC ACCTGCCTCC ACCATGCAGC CAAAATCGGG 
AACTTGGAGA TGGTCAGTCT GCTGCTCAGC ACGGGACAGG TGGACGTCAA CGCCCAGGAC 
AGTGGGGGGT GGACGCCCAT CATCTGGGCC GCAGAGCACA AGCACATCGA GGTGATCCGC 
ATGCTGCTGA CCCGGGGCGC CGACGTCACG CTCACAGACA ATGAGGAAAA CATCTGCCTG 
CACTGGGCTT CCTTCACCGG CAGTGCCGCC ATCGCCGAGG TCCTCCTCAA TGCCCGCTGC 
GACCTCCACG CAGTCAACTA CCACGGGGAC ACGCCCCTGC ACATCGCGGC ACGGGAGAGC 
TACCATGACT GCGTGCTGTT GTTCCTGTCA CGTGGGGCGA ACCCAGAGCT GCGGAACAAG 
GAGGGGGACA CGGCGTGGGA CCTGACTCCT GAGCGCTCCG ACGTGTGGTT TGCGCTGCAG 
CTCAACCGCA AGCTTCGGCT GGGAGTGGGC AATCGGGCCA TCCGCACGGA GAAGATTATC 
TGCCGGGATG TGGCTCGGGG CTATGAGAAC GTGCCTATTC CCTGTGTCAA CGGCGTGGAT 
GGGGAGCCCT GCCCTGAGGA TTACAAGTAC ATCTCGGAGA ACTGCGAGAC ATCCACCATG 
AACATCGACC GTAACATCAC CCACTTGCAA CACTGCACTT GTGTGGACGA CTGCTCCAGC 
TCCAACTGCC TGTGCGGCCA GCTCAGCATT CGCTGCTGGT ATGACAAGGA CGGGCGGCTG 
CTCCAGGAAT TTAACAAGAT TGAGCCCCCG CTGATTTTCG AGTGTAACCA GGCGTGCTCC 
TGCTGGAGAA ACTGCAAGAA CCGTGTGGTG CAGAGCGGCA TCAAAGTGCG CCTACAGCTC 
TACCGAACAG CCAAGATGGG CTGGGGGGTC CGCGCCCTGC AGACCATCCC CCAGGGGACC 
TTCATCTGCG AGTATGTCGG GGAGCTGATC TCTGATGCCG AGGCTGACGT GAGAGAGGAT 
GATTCTTACC TCTTCGACTT AGACAACAAG GATGGAGAGG TGTATTGCAT CGATGCCCGT 
TACTATGGCA ACATCAGCCG CTTCATCAAC CACCTGTGCG ACCCCAACAT CATCCCCGTC 
CGGGTCTTCA TGCTGCACCA AGACCTGCGC TTTCCACGCA TTGCCTTCTT CAGTTCCCGA 
GACATCCGGA CCGGGGAGGA GCTGGGGTTT GACTATGGTG ACCGCTTCTG GGACATCAAA 
AGCAAATATT TCACTTGTCA GTGTGGCTCT GAGAAATGCA AGCACTCAGC CGAGGCCATC 
GCCCTGGAAC AGAGCCGCCT GGCGCGCCTA GATCCCCACC CTGAGCTGCT GCCTGAGCTC 
AGCTCCCTGC CCCCTGTCAA TCCCTGA

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

EHMT2 ( XM_011217902.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011216204.1 Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc21832
Clone ID Related Accession (Same CDS sequence)	XM_011217902.2
Accession Version	XM_011217902.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3705bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	histone-lysine N-methyltransferase EHMT2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003220160.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011217902.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 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##

ATGCGGGGTC TACCGAGAGG GAGGGGGCTA ATGCGGGCCC GGGGGAGGGG TCGTGCGGCC 
CCCCCGGGCA GCCGAGGCCG TGGAAGGGGG GGCCCCCATA GAGGAAGAGG TAGGCCCCGG 
AGCCTACTCT CTCTTCCCAG AGCCCAGGCG TCCTGGGCTC CCCAACTTCC TACTGGGCTG 
ACCAGCCCTC CTGTACCTTG TGTCCCCTGC CAGGGGGAGG CCCCTGCTGA GATGGGGGCG 
CTGGTGCTGG AGAAAGAGCC TAGAGGAGCC ACTGAGAGAG TTCATGGCTC TTTAGGGGAC 
ACCCCTCGTA GTGAGGAGAC CCTGCCCAAG GCCAGCCCCG ACTCCCTGGA GCCTGCGGGC 
CCCTCATCCC CAGCCTCTGT CACGGTCACC GTGGGCGATG AGGGGGCTGA CACCCCTGTG 
GGAGCCACAC CACTCATTGG GGATGAACCT GAGACTCTCG AGGGAGATGG GGACCTCCAC 
GGGGGCCGCA TCCTGCTGGG CCATGCTACA AAGTCATTCC CCTCTTCCCC CAGCAAGGGG 
GGTGCCTGTC CCAGCCGGGC CAAGATGTCA ATGACAGGAG CTGGAAAATC ACCCCCATCA 
GTCCAGAGTT TGGCTATGCG GCTGCTGAGT ATGCCGGGGG CCCAGGGGGC GGCCACAGCA 
GGGCCCGAAC CCCCTGTGGC CACGCCCAGC CCAGAGGGGC AGCCCAAGGT CCACCGAGCC 
AGAAAAACCA TGTCCAAACC AGGAAATGGG CAGCCCCCAG TCCCTGAGAA GCGGCCTCCT 
GAAGTGCAGC ATTTCCGCAT GAGTGATGAC ATGCACTCGC TGGGGAAGAT GACCTCAGAG 
GTGGCCAAAA GGAGGAAGAT GAACACGGGC GGTGGCCTGT CGGAGGAGTT GGGTTCTACA 
CGGGGTTCAG GAGAAGTGAC AGTGGAGAAA GGGGACCCGG GGTCCCTGGA GGAGTGGGAA 
ACAGTGGTGG GGGACGACTT CAGCCTCTAC TACGACTCCT ACTCTGTGGA TGAGCGTGTG 
GACTCTGACA GCAAGTCTGA GGTTGAAGCT CTGGCTGAAC AACTGAGTGA GGAAGAAGAG 
GAGGAGGAGG AGGAGGAAGA GGAAGAGGAA GAAGAGGAGG AGGAAGAGGA AGAAGAGGAG 
GAAGACGAGG AGTCAGGCAA TCAGTCTGAC AGGAGTGGCT CTAGTGGCCG GCGCAAGGCC 
AAGAAGAAGT GGCGGAAGGA CAGCCCATGG GTGAAGCCGT CCAGGAAACG GCGGAAGCGC 
GAGCCTCCCC GGGCCAAGGA GCCTCGAGGG GTATCCAATG ACACGTCTTC ACTGGAGACA 
GAGCGGGGGT TTGAGGAGTT ACCCCTGTGC AGCTGCCGCA TGGAGGCTCC CAAGATTGAC 
CGCATCAGTG AGAGAGCCGG GCACAAGTGC ATGGCCACGG AGAGTGTGGA TGGAGAGCTG 
TCAGGCTGCA ACGCCGCCAT CCTCAAGCGG GAGACCATGA GGCCATCGAG CCGCGTGGCA 
CTGATGGTGC TCTGTGAGAC CCACCGTGCC CGCATGGTCA AGCACCACTG CTGCCCAGGC 
TGTGGCTACT TCTGTACAGC GGGCACCTTC CTGGAGTGCC ACCCCGACTT CCGCGTGGCC 
CACCGCTTCC ACAAGGCCTG TGTGTCTCAG CTGAATGGCA TGGTGTTCTG TCCCCACTGT 
GGGGAGGATG CATCTGAGGC CCAGGAGGTG ACCATCCCCC GGGGGGATGG GGTGACCCCA 
CCAGCTGGCA CTGCAGCCCC TGCCCCCCCA CCCCTGGCTC AGGATGCCCC TGGGAGAGCA 
GACACTTCCC AGCCCAGCGC CCGGATGCGA GGGCATGGGG AGCCCCGGCG CCCACCCTGC 
GACCCTCTGG CTGACACCAT CGACAGCTCG GGGCCCTCCC TGACCCTTCC CAACGGGGGC 
TGCTTGTCCG CCGTGGGGCT GCCCCCGGGG CCTGGCCGCG AGGCCCTGGA GAAGGCCCTG 
GTCATCCAGG AGTCCGAGAG GCGGAAGAAA CTCCGTTTCC ACCCCCGGCA GCTGTACCTG 
TCAGTGAAGC AGGGGGAGCT GCAGAAGGTG GTCCTGATGC TGTTGGACAA CCTGGACCCC 
AACTTCCAGA GCGATCAGCA GAGCAAGCGC ACGCCCCTGC ACGCGGCCGC GCAGAAGGGC 
TCCGTGGAGA TCTGCCACGT GCTGCTGCAG GCGGGAGCCA ACCTGAACGC AGTCGACAAG 
CAGCAGCGGA CACCACTGAT GGAGGCCGTG GTGAACAACC ACCTGGAGCT GGCCCGCTAC 
ATGGTGCAGC GCGGCGGCTG CGTCTACAGC AAGGAGGAGG ACGGTTCCAC CTGCCTCCAC 
CATGCAGCCA AAATCGGGAA CTTGGAGATG GTCAGTCTGC TGCTCAGCAC GGGACAGGTG 
GACGTCAACG CCCAGGACAG TGGGGGGTGG ACGCCCATCA TCTGGGCCGC AGAGCACAAG 
CACATCGAGG TGATCCGCAT GCTGCTGACC CGGGGCGCCG ACGTCACGCT CACAGACAAT 
GAGGAAAACA TCTGCCTGCA CTGGGCTTCC TTCACCGGCA GTGCCGCCAT CGCCGAGGTC 
CTCCTCAATG CCCGCTGCGA CCTCCACGCA GTCAACTACC ACGGGGACAC GCCCCTGCAC 
ATCGCGGCAC GGGAGAGCTA CCATGACTGC GTGCTGTTGT TCCTGTCACG TGGGGCGAAC 
CCAGAGCTGC GGAACAAGGA GGGGGACACG GCGTGGGACC TGACTCCTGA GCGCTCCGAC 
GTGTGGTTTG CGCTGCAGCT CAACCGCAAG CTTCGGCTGG GAGTGGGCAA TCGGGCCATC 
CGCACGGAGA AGATTATCTG CCGGGATGTG GCTCGGGGCT ATGAGAACGT GCCTATTCCC 
TGTGTCAACG GCGTGGATGG GGAGCCCTGC CCTGAGGATT ACAAGTACAT CTCGGAGAAC 
TGCGAGACAT CCACCATGAA CATCGACCGT AACATCACCC ACTTGCAACA CTGCACTTGT 
GTGGACGACT GCTCCAGCTC CAACTGCCTG TGCGGCCAGC TCAGCATTCG CTGCTGGTAT 
GACAAGGACG GGCGGCTGCT CCAGGAATTT AACAAGATTG AGCCCCCGCT GATTTTCGAG 
TGTAACCAGG CGTGCTCCTG CTGGAGAAAC TGCAAGAACC GTGTGGTGCA GAGCGGCATC 
AAAGTGCGCC TACAGCTCTA CCGAACAGCC AAGATGGGCT GGGGGGTCCG CGCCCTGCAG 
ACCATCCCCC AGGGGACCTT CATCTGCGAG TATGTCGGGG AGCTGATCTC TGATGCCGAG 
GCTGACGTGA GAGAGGATGA TTCTTACCTC TTCGACTTAG ACAACAAGGA TGGAGAGGTG 
TATTGCATCG ATGCCCGTTA CTATGGCAAC ATCAGCCGCT TCATCAACCA CCTGTGCGAC 
CCCAACATCA TCCCCGTCCG GGTCTTCATG CTGCACCAAG ACCTGCGCTT TCCACGCATT 
GCCTTCTTCA GTTCCCGAGA CATCCGGACC GGGGAGGAGC TGGGGTTTGA CTATGGTGAC 
CGCTTCTGGG ACATCAAAAG CAAATATTTC ACTTGTCAGT GTGGCTCTGA GAAATGCAAG 
CACTCAGCCG AGGCCATCGC CCTGGAACAG AGCCGCCTGG CGCGCCTAGA TCCCCACCCT 
GAGCTGCTGC CTGAGCTCAG CTCCCTGCCC CCTGTCAATC CCTGA

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

RefSeq	XP_011216204.1
CDS	6..3710
Translation	MRGLPRGRGLMRARGRGRAAPPGSRGRGRGGPHRGRGRPRSLLSLPRAQASWAPQLPTGLTSPPVPCVPCQGEAPAEMGALVLEKEPRGATERVHGSLGDTPRSEETLPKASPDSLEPAGPSSPASVTVTVGDEGADTPVGATPLIGDEPETLEGDGDLHGGRILLGHATKSFPSSPSKGGACPSRAKMSMTGAGKSPPSVQSLAMRLLSMPGAQGAATAGPEPPVATPSPEGQPKVHRARKTMSKPGNGQPPVPEKRPPEVQHFRMSDDMHSLGKMTSEVAKRRKMNTGGGLSEELGSTRGSGEVTVEKGDPGSLEEWETVVGDDFSLYYDSYSVDERVDSDSKSEVEALAEQLSEEEEEEEEEEEEEEEEEEEEEEEEEDEESGNQSDRSGSSGRRKAKKKWRKDSPWVKPSRKRRKREPPRAKEPRGVSNDTSSLETERGFEELPLCSCRMEAPKIDRISERAGHKCMATESVDGELSGCNAAILKRETMRPSSRVALMVLCETHRARMVKHHCCPGCGYFCTAGTFLECHPDFRVAHRFHKACVSQLNGMVFCPHCGEDASEAQEVTIPRGDGVTPPAGTAAPAPPPLAQDAPGRADTSQPSARMRGHGEPRRPPCDPLADTIDSSGPSLTLPNGGCLSAVGLPPGPGREALEKALVIQESERRKKLRFHPRQLYLSVKQGELQKVVLMLLDNLDPNFQSDQQSKRTPLHAAAQKGSVEICHVLLQAGANLNAVDKQQRTPLMEAVVNNHLELARYMVQRGGCVYSKEEDGSTCLHHAAKIGNLEMVSLLLSTGQVDVNAQDSGGWTPIIWAAEHKHIEVIRMLLTRGADVTLTDNEENICLHWASFTGSAAIAEVLLNARCDLHAVNYHGDTPLHIAARESYHDCVLLFLSRGANPELRNKEGDTAWDLTPERSDVWFALQLNRKLRLGVGNRAIRTEKIICRDVARGYENVPIPCVNGVDGEPCPEDYKYISENCETSTMNIDRNITHLQHCTCVDDCSSSNCLCGQLSIRCWYDKDGRLLQEFNKIEPPLIFECNQACSCWRNCKNRVVQSGIKVRLQLYRTAKMGWGVRALQTIPQGTFICEYVGELISDAEADVREDDSYLFDLDNKDGEVYCIDARYYGNISRFINHLCDPNIIPVRVFMLHQDLRFPRIAFFSSRDIRTGEELGFDYGDRFWDIKSKYFTCQCGSEKCKHSAEAIALEQSRLARLDPHPELLPELSSLPPVNP

Target ORF information:

RefSeq Version	XM_011217902.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca euchromatic histone lysine methyltransferase 2 (EHMT2), transcript variant X2, mRNA.

Target ORF information:

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

XM_011217902.2

ORF Insert Sequence:

ATGCGGGGTC TACCGAGAGG GAGGGGGCTA ATGCGGGCCC GGGGGAGGGG TCGTGCGGCC 
CCCCCGGGCA GCCGAGGCCG TGGAAGGGGG GGCCCCCATA GAGGAAGAGG TAGGCCCCGG 
AGCCTACTCT CTCTTCCCAG AGCCCAGGCG TCCTGGGCTC CCCAACTTCC TACTGGGCTG 
ACCAGCCCTC CTGTACCTTG TGTCCCCTGC CAGGGGGAGG CCCCTGCTGA GATGGGGGCG 
CTGGTGCTGG AGAAAGAGCC TAGAGGAGCC ACTGAGAGAG TTCATGGCTC TTTAGGGGAC 
ACCCCTCGTA GTGAGGAGAC CCTGCCCAAG GCCAGCCCCG ACTCCCTGGA GCCTGCGGGC 
CCCTCATCCC CAGCCTCTGT CACGGTCACC GTGGGCGATG AGGGGGCTGA CACCCCTGTG 
GGAGCCACAC CACTCATTGG GGATGAACCT GAGACTCTCG AGGGAGATGG GGACCTCCAC 
GGGGGCCGCA TCCTGCTGGG CCATGCTACA AAGTCATTCC CCTCTTCCCC CAGCAAGGGG 
GGTGCCTGTC CCAGCCGGGC CAAGATGTCA ATGACAGGAG CTGGAAAATC ACCCCCATCA 
GTCCAGAGTT TGGCTATGCG GCTGCTGAGT ATGCCGGGGG CCCAGGGGGC GGCCACAGCA 
GGGCCCGAAC CCCCTGTGGC CACGCCCAGC CCAGAGGGGC AGCCCAAGGT CCACCGAGCC 
AGAAAAACCA TGTCCAAACC AGGAAATGGG CAGCCCCCAG TCCCTGAGAA GCGGCCTCCT 
GAAGTGCAGC ATTTCCGCAT GAGTGATGAC ATGCACTCGC TGGGGAAGAT GACCTCAGAG 
GTGGCCAAAA GGAGGAAGAT GAACACGGGC GGTGGCCTGT CGGAGGAGTT GGGTTCTACA 
CGGGGTTCAG GAGAAGTGAC AGTGGAGAAA GGGGACCCGG GGTCCCTGGA GGAGTGGGAA 
ACAGTGGTGG GGGACGACTT CAGCCTCTAC TACGACTCCT ACTCTGTGGA TGAGCGTGTG 
GACTCTGACA GCAAGTCTGA GGTTGAAGCT CTGGCTGAAC AACTGAGTGA GGAAGAAGAG 
GAGGAGGAGG AGGAGGAAGA GGAAGAGGAA GAAGAGGAGG AGGAAGAGGA AGAAGAGGAG 
GAAGACGAGG AGTCAGGCAA TCAGTCTGAC AGGAGTGGCT CTAGTGGCCG GCGCAAGGCC 
AAGAAGAAGT GGCGGAAGGA CAGCCCATGG GTGAAGCCGT CCAGGAAACG GCGGAAGCGC 
GAGCCTCCCC GGGCCAAGGA GCCTCGAGGG GTATCCAATG ACACGTCTTC ACTGGAGACA 
GAGCGGGGGT TTGAGGAGTT ACCCCTGTGC AGCTGCCGCA TGGAGGCTCC CAAGATTGAC 
CGCATCAGTG AGAGAGCCGG GCACAAGTGC ATGGCCACGG AGAGTGTGGA TGGAGAGCTG 
TCAGGCTGCA ACGCCGCCAT CCTCAAGCGG GAGACCATGA GGCCATCGAG CCGCGTGGCA 
CTGATGGTGC TCTGTGAGAC CCACCGTGCC CGCATGGTCA AGCACCACTG CTGCCCAGGC 
TGTGGCTACT TCTGTACAGC GGGCACCTTC CTGGAGTGCC ACCCCGACTT CCGCGTGGCC 
CACCGCTTCC ACAAGGCCTG TGTGTCTCAG CTGAATGGCA TGGTGTTCTG TCCCCACTGT 
GGGGAGGATG CATCTGAGGC CCAGGAGGTG ACCATCCCCC GGGGGGATGG GGTGACCCCA 
CCAGCTGGCA CTGCAGCCCC TGCCCCCCCA CCCCTGGCTC AGGATGCCCC TGGGAGAGCA 
GACACTTCCC AGCCCAGCGC CCGGATGCGA GGGCATGGGG AGCCCCGGCG CCCACCCTGC 
GACCCTCTGG CTGACACCAT CGACAGCTCG GGGCCCTCCC TGACCCTTCC CAACGGGGGC 
TGCTTGTCCG CCGTGGGGCT GCCCCCGGGG CCTGGCCGCG AGGCCCTGGA GAAGGCCCTG 
GTCATCCAGG AGTCCGAGAG GCGGAAGAAA CTCCGTTTCC ACCCCCGGCA GCTGTACCTG 
TCAGTGAAGC AGGGGGAGCT GCAGAAGGTG GTCCTGATGC TGTTGGACAA CCTGGACCCC 
AACTTCCAGA GCGATCAGCA GAGCAAGCGC ACGCCCCTGC ACGCGGCCGC GCAGAAGGGC 
TCCGTGGAGA TCTGCCACGT GCTGCTGCAG GCGGGAGCCA ACCTGAACGC AGTCGACAAG 
CAGCAGCGGA CACCACTGAT GGAGGCCGTG GTGAACAACC ACCTGGAGCT GGCCCGCTAC 
ATGGTGCAGC GCGGCGGCTG CGTCTACAGC AAGGAGGAGG ACGGTTCCAC CTGCCTCCAC 
CATGCAGCCA AAATCGGGAA CTTGGAGATG GTCAGTCTGC TGCTCAGCAC GGGACAGGTG 
GACGTCAACG CCCAGGACAG TGGGGGGTGG ACGCCCATCA TCTGGGCCGC AGAGCACAAG 
CACATCGAGG TGATCCGCAT GCTGCTGACC CGGGGCGCCG ACGTCACGCT CACAGACAAT 
GAGGAAAACA TCTGCCTGCA CTGGGCTTCC TTCACCGGCA GTGCCGCCAT CGCCGAGGTC 
CTCCTCAATG CCCGCTGCGA CCTCCACGCA GTCAACTACC ACGGGGACAC GCCCCTGCAC 
ATCGCGGCAC GGGAGAGCTA CCATGACTGC GTGCTGTTGT TCCTGTCACG TGGGGCGAAC 
CCAGAGCTGC GGAACAAGGA GGGGGACACG GCGTGGGACC TGACTCCTGA GCGCTCCGAC 
GTGTGGTTTG CGCTGCAGCT CAACCGCAAG CTTCGGCTGG GAGTGGGCAA TCGGGCCATC 
CGCACGGAGA AGATTATCTG CCGGGATGTG GCTCGGGGCT ATGAGAACGT GCCTATTCCC 
TGTGTCAACG GCGTGGATGG GGAGCCCTGC CCTGAGGATT ACAAGTACAT CTCGGAGAAC 
TGCGAGACAT CCACCATGAA CATCGACCGT AACATCACCC ACTTGCAACA CTGCACTTGT 
GTGGACGACT GCTCCAGCTC CAACTGCCTG TGCGGCCAGC TCAGCATTCG CTGCTGGTAT 
GACAAGGACG GGCGGCTGCT CCAGGAATTT AACAAGATTG AGCCCCCGCT GATTTTCGAG 
TGTAACCAGG CGTGCTCCTG CTGGAGAAAC TGCAAGAACC GTGTGGTGCA GAGCGGCATC 
AAAGTGCGCC TACAGCTCTA CCGAACAGCC AAGATGGGCT GGGGGGTCCG CGCCCTGCAG 
ACCATCCCCC AGGGGACCTT CATCTGCGAG TATGTCGGGG AGCTGATCTC TGATGCCGAG 
GCTGACGTGA GAGAGGATGA TTCTTACCTC TTCGACTTAG ACAACAAGGA TGGAGAGGTG 
TATTGCATCG ATGCCCGTTA CTATGGCAAC ATCAGCCGCT TCATCAACCA CCTGTGCGAC 
CCCAACATCA TCCCCGTCCG GGTCTTCATG CTGCACCAAG ACCTGCGCTT TCCACGCATT 
GCCTTCTTCA GTTCCCGAGA CATCCGGACC GGGGAGGAGC TGGGGTTTGA CTATGGTGAC 
CGCTTCTGGG ACATCAAAAG CAAATATTTC ACTTGTCAGT GTGGCTCTGA GAAATGCAAG 
CACTCAGCCG AGGCCATCGC CCTGGAACAG AGCCGCCTGG CGCGCCTAGA TCCCCACCCT 
GAGCTGCTGC CTGAGCTCAG CTCCCTGCCC CCTGTCAATC CCTGA

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

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EHMT2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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