GRIN2B cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	GRIN2B
Entrez Gene ID	100466153
Full Name	glutamate ionotropic receptor NMDA type subunit 2B
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002917972.3	XP_002918018.1	glutamate receptor ionotropic, NMDA 2B

Pathways from BioSystems
Gene Ontology

The following GRIN2B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GRIN2B 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
OAc05519	XM_002917972.3 Latest version!	Ailuropoda melanoleuca glutamate ionotropic receptor NMDA type subunit 2B (GRIN2B), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

GRIN2B ( XM_002917972.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002918018.1 Ailuropoda melanoleuca glutamate ionotropic receptor NMDA type subunit 2B (GRIN2B), mRNA.

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CloneID	OAc05519
Clone ID Related Accession (Same CDS sequence)	XM_002917972.3
Accession Version	XM_002917972.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4452bp) 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	glutamate receptor ionotropic, NMDA 2B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217520.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002917972.2. ##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##

ATGAAGCCCA GAGCAGAGTG CTGTTCTCCC AAGTTCTGGT TGGTGTTGGC TGTCCTGGCT 
GTGTCAGGCA GCAGAGCTCG TTCTCAGAAG AGCCCCCCCA GCATTGGCAT TGCTGTCATC 
CTCGTGGGCA CTTCCGACGA GGTGGCCATC AAGGATGCCC ACGAGAAAGA TGATTTCCAC 
CATCTCTCCG TGGTACCCCG AGTGGAGCTG GTAGCCATGA ATGAGACTGA CCCAAAGAGC 
ATCATCACCC GCATCTGTGA TCTCATGTCT GACCGGAAGA TCCAGGGCGT GGTGTTTGCT 
GATGACACAG ATCAGGAGGC CATTGCCCAG ATCCTTGACT TCATTTCAGC CCAGACTCTC 
ACCCCCATCC TGGGCATCCA CGGAGGCTCC TCTATGATAA TGGCAGATAA GGATGAATCC 
TCCATGTTCT TCCAGTTTGG CCCATCAATT GAACAGCAAG CTTCTGTAAT GCTCAATATC 
ATGGAAGAGT ACGACTGGTA CATCTTTTCT ATCGTCACCA CCTACTTCCC TGGCTACCAG 
GACTTTGTAA ACAAAATTCG CAGCACCATC GAGAACAGCT TCGTGGGCTG GGAGTTAGAG 
GAAGTCCTCC TGCTGGACAT GTCCCTGGAT GACGGAGATT CTAAGATCCA GAACCAGCTC 
AAGAAACTTC AAAGCCCCAT CATTCTTCTT TATTGTACTA AGGAGGAAGC CACCTACATC 
TTTGAAGTCG CTAACTCCGT AGGGCTAACT GGCTACGGCT ACACATGGAT TGTGCCTAGT 
CTGGTGGCAG GGGATACGGA CACAGTGCCC TCAGAGTTCC CCACCGGGCT CATCTCTGTG 
TCCTATGATG AATGGGAGTA TGGCCTCCCT GCCAGAGTGA GGGATGGAAT TGCCATAATC 
ACCACCGCTG CTTCCGACAT GCTGTCCGAA CACAGCTTCA TCCCTGAGCC CAAGAGCAGT 
TGTTACAACA CCCATGAGAA GAGAATCTAC CAGTCCAACA TGCTAAACAG GTATCTGATC 
AATGTCACTT TTGAAGGAAG AAATCTGTCC TTCAGTGAAG ATGGCTACCA GATGCACCCG 
AAATTGGTGA TAATCCTTCT GAACAAGGAG AGGAAGTGGG AGAGGGTGGG CAAGTGGAAA 
GACAAGTCCC TGCAGATGAA GTATTATGTG TGGCCCCGAA TGTGTCCTGA GACAGAAGAA 
CAGGAGGATG ACCATCTGAG CATTGTAACC CTGGAGGAAG CCCCCTTTGT CATCGTGGAA 
AGTGTGGACC CTCTGAGTGG AACCTGCATG AGGAACACAG TCCCCTGCCA AAAACGCATA 
GTCACTGAGA ATAAAACAGA TGAGGAGCCA GGTTACATCA AAAAGTGCTG CAAGGGGTTC 
TGTATTGACA TCCTTAAGAA AATTTCTAAA TCTGTGAAGT TCACCTATGA TCTTTACCTG 
GTTACCAATG GCAAGCATGG GAAGAAAATC AATGGAACCT GGAACGGTAT GATTGGAGAG 
GTGGTCATGA AGAGGGCCTA CATGGCGGTG GGATCGCTCA CCATCAATGA GGAGCGATCT 
GAAGTGGTCG ACTTCTCCGT GCCCTTCATA GAGACCGGCA TCAGTGTCAT GGTGTCACGC 
AGCAATGGGA CTGTCTCACC TTCTGCCTTC TTAGAGCCGT TCAGTGCTGA CGTGTGGGTT 
ATGATGTTCG TGATGCTGCT GATTGTCTCC GCCGTGGCTG TCTTTGTCTT CGAGTACTTC 
AGCCCTGTGG GTTACAACCG GTGCCTCGCC GATGGCAGAG AGCCAGGTGG CCCGTCTTTT 
ACCATCGGCA AAGCTATTTG GTTACTCTGG GGTCTGGTTT TTAACAACTC CGTACCCGTG 
CAGAACCCAA AGGGGACCAC CTCCAAGATC ATGGTGTCGG TGTGGGCCTT CTTTGCTGTC 
ATCTTCCTGG CCAGCTACAC TGCCAACTTA GCTGCCTTCA TGATTCAAGA GGAGTATGTG 
GATCAGGTTT CTGGCCTGAG TGACAAAAAG TTCCAGAGAC CTAATGACTT CTCACCCCCT 
TTTCGCTTTG GGACTGTGCC CAATGGCAGC ACAGAGAGGA ATATTCGCAA TAACTACGCA 
GAAATGCATG CCTACATGGG AAAGTTCAAC CAGAGGGGTG TAGATGATGC ATTGCTCTCC 
CTGAAAACAG GGAAACTGGA TGCCTTCATC TATGATGCAG CAGTGCTGAA CTACATGGCG 
GGCAGAGATG AAGGCTGTAA GCTGGTGACC ATTGGCAGTG GAAAGGTCTT TGCCTCCACT 
GGTTATGGCA TTGCCATCCA AAAAGATTCT GGGTGGAAGC GCCAGGTGGA CCTTGCTATC 
CTGCAGCTTT TCGGAGATGG GGAGATGGAG GAGCTGGAAG CTCTCTGGCT CACTGGCATT 
TGCCACAACG AAAAGAATGA GGTCATGAGC AGCCAGCTGG ACATTGACAA CATGGCGGGC 
GTCTTCTACA TGTTGGGGGC AGCCATGGCT CTCAGTCTCA TCACCTTCAT CTGCGAACAC 
CTTTTCTATT GGCAGTTCCG GCACTGCTTT ATGGGTGTCT GTTCTGGCAA GCCTGGCATG 
GTCTTCTCCA TCAGCAGAGG TATCTACAGC TGCATCCATG GAGTGGCAAT CGAGGAGCGC 
CAGTCCGTGA TGAACTCCCC CACCGCGACC ATGAACAACA CACACTCCAA CATCCTGCGC 
CTGCTCCGCA CGGCCAAGAA CATGGCCAAC CTGTCTGGTG TGAACGGCTC CCCCCAGAGC 
GCCCTGGACT TCATCCGACG GGAGTCATCC GTCTACGACA TCTCCGAGCA CCGCCGCAGC 
TTCACGCATT CCGACTGCAA ATCCTACAAC AACCCGCCGT GCGAGGAGAA CCTCTTCAGC 
GACTACATCA GTGAGGTGGA GAGAACTTTT GGTAACCTGC AGCTGAAGGA CAGCAACGTG 
TACCAAGATC ATTATCACCA CCACCACCGG CCCCACAGCA TCGGCAGCGC CAGCTCCATC 
GACGGGCTCT ACGACTGCGA CAACCCGCCT TTCACCACCC AGCCACGGTC CATCAGCAAG 
AAGCCCCTGG ACGTTGGCCT GCCCTCCTCC AAACACAGCC AGCTAAGCGA CCTGTACGGC 
AAGTTCTCCT TCAAGAGCGA CCGCTACAGT GGCCACGATG ACCTGATCCG CTCGGACGTG 
TCCGACATCT CCACCCACAC GGTCACCTAC GGAAACATCG AGGGCAATGC CGCCAAGAGG 
CGTAAGCAGC AATACAAGGA CAGCCTGAAG AAGCGGCCGG CCTCGGCCAA GTCCCGACGG 
GAGTTTGACG AGATCGAGCT GGCCTACCGC CGCCGGCCAC CCCGCTCCCC TGACCACAAG 
CGTTACTTCA GGGACAAGGA AGGGCTCCGG GACTTCTACC TGGACCAGTT CCGCCCGAAG 
GAGAACTCCC CGCACTGGGA GCACGTGGAC CTGACGGATA TCTACAAGGA GCAGAGCGAG 
GACTTCAAGC GCGACTCGGT CAGCGGAGGC GGGCCCTGTA CCAACAGGTC TCACCTCAAG 
CATGGGGCGG GCGACAAACA CGGCGTGGTC AGCGGGGTCC CGGCTCCCTG GGAGAAGAAC 
CTGACCAACG TGGATTGGGA GGAGCGCTCC GGGGGCAACT TCTGCCGCAG CTGCCCGTCC 
AAGCTGCACA ACTACTCCAC GGCGGTGACC GGGCAGAACT CGGGCCGGCA GGCGTGCATC 
CGGTGCGAGG CCTGCAAGAA AGCAGGCAAC CTGTATGACA TCAGCGAGGA CAACTCCCTG 
CAGGAGCTGG ACCAGCCGGC CGCCCCTGTG GCGGTGCCAT CCAATGCCCC CGGCGCCAAG 
TACCCCCAGA GCCCGACCAA CTCCAAGGCC CAGAAGAAGA CCCGGAACAA ACTGCGCCGG 
CAGCACTCCT ACGACACCTT CGTGGACCTG CAGAAGGAAG AAGCCGCCTT GGCCCCGCGC 
AGCGTGAGCC TGAAAGACAA GGGCCGCTTC CTGGATGGGA GTCCCTACGC CCACATGTTT 
GAGATGCCAG CTGGCGAGAG CACCTTTGCC AACAGCAAGT CCTCAGTGCC CACCGCCGGA 
CACCACCACC ACAACAACCC CAGCGGCTAC ATGCTCAGCA AGTCGCTCTA CCCCGACCGG 
GTCACGCAAA ACCCTTTCAT CCCCACTTTC GGGGACGACC AGTGCTTGCT CCATGGCAGC 
AAATCCTACT TCTTCAGGCA GCCCACGGTG GCGGGGGCGC CGAAAGCCAG GCCAGACTTC 
CGTGCCCTTG TCACCAACAA GCCGGTGGTC TCGGCCCTTC ACGGGGCTGT GCCAGGCCGT 
TTCCAGAAAG ACATCTGTAT AGGGAACCAG TCCAACCCCT GTGTGCCTAA CAACAAAAAC 
CCCAGGGCTT TCAATGGCTC CAGCAATGGG CATGTTTATG AGAAACTTTC TAGTATTGAG 
TCTGATGTCT GA

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

RefSeq	XP_002918018.1
CDS	756..5207
Translation	MKPRAECCSPKFWLVLAVLAVSGSRARSQKSPPSIGIAVILVGTSDEVAIKDAHEKDDFHHLSVVPRVELVAMNETDPKSIITRICDLMSDRKIQGVVFADDTDQEAIAQILDFISAQTLTPILGIHGGSSMIMADKDESSMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFVNKIRSTIENSFVGWELEEVLLLDMSLDDGDSKIQNQLKKLQSPIILLYCTKEEATYIFEVANSVGLTGYGYTWIVPSLVAGDTDTVPSEFPTGLISVSYDEWEYGLPARVRDGIAIITTAASDMLSEHSFIPEPKSSCYNTHEKRIYQSNMLNRYLINVTFEGRNLSFSEDGYQMHPKLVIILLNKERKWERVGKWKDKSLQMKYYVWPRMCPETEEQEDDHLSIVTLEEAPFVIVESVDPLSGTCMRNTVPCQKRIVTENKTDEEPGYIKKCCKGFCIDILKKISKSVKFTYDLYLVTNGKHGKKINGTWNGMIGEVVMKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSRSNGTVSPSAFLEPFSADVWVMMFVMLLIVSAVAVFVFEYFSPVGYNRCLADGREPGGPSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEYVDQVSGLSDKKFQRPNDFSPPFRFGTVPNGSTERNIRNNYAEMHAYMGKFNQRGVDDALLSLKTGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFASTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEKNEVMSSQLDIDNMAGVFYMLGAAMALSLITFICEHLFYWQFRHCFMGVCSGKPGMVFSISRGIYSCIHGVAIEERQSVMNSPTATMNNTHSNILRLLRTAKNMANLSGVNGSPQSALDFIRRESSVYDISEHRRSFTHSDCKSYNNPPCEENLFSDYISEVERTFGNLQLKDSNVYQDHYHHHHRPHSIGSASSIDGLYDCDNPPFTTQPRSISKKPLDVGLPSSKHSQLSDLYGKFSFKSDRYSGHDDLIRSDVSDISTHTVTYGNIEGNAAKRRKQQYKDSLKKRPASAKSRREFDEIELAYRRRPPRSPDHKRYFRDKEGLRDFYLDQFRPKENSPHWEHVDLTDIYKEQSEDFKRDSVSGGGPCTNRSHLKHGAGDKHGVVSGVPAPWEKNLTNVDWEERSGGNFCRSCPSKLHNYSTAVTGQNSGRQACIRCEACKKAGNLYDISEDNSLQELDQPAAPVAVPSNAPGAKYPQSPTNSKAQKKTRNKLRRQHSYDTFVDLQKEEAALAPRSVSLKDKGRFLDGSPYAHMFEMPAGESTFANSKSSVPTAGHHHHNNPSGYMLSKSLYPDRVTQNPFIPTFGDDQCLLHGSKSYFFRQPTVAGAPKARPDFRALVTNKPVVSALHGAVPGRFQKDICIGNQSNPCVPNNKNPRAFNGSSNGHVYEKLSSIESDV

Target ORF information:

RefSeq Version	XM_002917972.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca glutamate ionotropic receptor NMDA type subunit 2B (GRIN2B), mRNA.

Target ORF information:

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

XM_002917972.3

ORF Insert Sequence:

ATGAAGCCCA GAGCAGAGTG CTGTTCTCCC AAGTTCTGGT TGGTGTTGGC TGTCCTGGCT 
GTGTCAGGCA GCAGAGCTCG TTCTCAGAAG AGCCCCCCCA GCATTGGCAT TGCTGTCATC 
CTCGTGGGCA CTTCCGACGA GGTGGCCATC AAGGATGCCC ACGAGAAAGA TGATTTCCAC 
CATCTCTCCG TGGTACCCCG AGTGGAGCTG GTAGCCATGA ATGAGACTGA CCCAAAGAGC 
ATCATCACCC GCATCTGTGA TCTCATGTCT GACCGGAAGA TCCAGGGCGT GGTGTTTGCT 
GATGACACAG ATCAGGAGGC CATTGCCCAG ATCCTTGACT TCATTTCAGC CCAGACTCTC 
ACCCCCATCC TGGGCATCCA CGGAGGCTCC TCTATGATAA TGGCAGATAA GGATGAATCC 
TCCATGTTCT TCCAGTTTGG CCCATCAATT GAACAGCAAG CTTCTGTAAT GCTCAATATC 
ATGGAAGAGT ACGACTGGTA CATCTTTTCT ATCGTCACCA CCTACTTCCC TGGCTACCAG 
GACTTTGTAA ACAAAATTCG CAGCACCATC GAGAACAGCT TCGTGGGCTG GGAGTTAGAG 
GAAGTCCTCC TGCTGGACAT GTCCCTGGAT GACGGAGATT CTAAGATCCA GAACCAGCTC 
AAGAAACTTC AAAGCCCCAT CATTCTTCTT TATTGTACTA AGGAGGAAGC CACCTACATC 
TTTGAAGTCG CTAACTCCGT AGGGCTAACT GGCTACGGCT ACACATGGAT TGTGCCTAGT 
CTGGTGGCAG GGGATACGGA CACAGTGCCC TCAGAGTTCC CCACCGGGCT CATCTCTGTG 
TCCTATGATG AATGGGAGTA TGGCCTCCCT GCCAGAGTGA GGGATGGAAT TGCCATAATC 
ACCACCGCTG CTTCCGACAT GCTGTCCGAA CACAGCTTCA TCCCTGAGCC CAAGAGCAGT 
TGTTACAACA CCCATGAGAA GAGAATCTAC CAGTCCAACA TGCTAAACAG GTATCTGATC 
AATGTCACTT TTGAAGGAAG AAATCTGTCC TTCAGTGAAG ATGGCTACCA GATGCACCCG 
AAATTGGTGA TAATCCTTCT GAACAAGGAG AGGAAGTGGG AGAGGGTGGG CAAGTGGAAA 
GACAAGTCCC TGCAGATGAA GTATTATGTG TGGCCCCGAA TGTGTCCTGA GACAGAAGAA 
CAGGAGGATG ACCATCTGAG CATTGTAACC CTGGAGGAAG CCCCCTTTGT CATCGTGGAA 
AGTGTGGACC CTCTGAGTGG AACCTGCATG AGGAACACAG TCCCCTGCCA AAAACGCATA 
GTCACTGAGA ATAAAACAGA TGAGGAGCCA GGTTACATCA AAAAGTGCTG CAAGGGGTTC 
TGTATTGACA TCCTTAAGAA AATTTCTAAA TCTGTGAAGT TCACCTATGA TCTTTACCTG 
GTTACCAATG GCAAGCATGG GAAGAAAATC AATGGAACCT GGAACGGTAT GATTGGAGAG 
GTGGTCATGA AGAGGGCCTA CATGGCGGTG GGATCGCTCA CCATCAATGA GGAGCGATCT 
GAAGTGGTCG ACTTCTCCGT GCCCTTCATA GAGACCGGCA TCAGTGTCAT GGTGTCACGC 
AGCAATGGGA CTGTCTCACC TTCTGCCTTC TTAGAGCCGT TCAGTGCTGA CGTGTGGGTT 
ATGATGTTCG TGATGCTGCT GATTGTCTCC GCCGTGGCTG TCTTTGTCTT CGAGTACTTC 
AGCCCTGTGG GTTACAACCG GTGCCTCGCC GATGGCAGAG AGCCAGGTGG CCCGTCTTTT 
ACCATCGGCA AAGCTATTTG GTTACTCTGG GGTCTGGTTT TTAACAACTC CGTACCCGTG 
CAGAACCCAA AGGGGACCAC CTCCAAGATC ATGGTGTCGG TGTGGGCCTT CTTTGCTGTC 
ATCTTCCTGG CCAGCTACAC TGCCAACTTA GCTGCCTTCA TGATTCAAGA GGAGTATGTG 
GATCAGGTTT CTGGCCTGAG TGACAAAAAG TTCCAGAGAC CTAATGACTT CTCACCCCCT 
TTTCGCTTTG GGACTGTGCC CAATGGCAGC ACAGAGAGGA ATATTCGCAA TAACTACGCA 
GAAATGCATG CCTACATGGG AAAGTTCAAC CAGAGGGGTG TAGATGATGC ATTGCTCTCC 
CTGAAAACAG GGAAACTGGA TGCCTTCATC TATGATGCAG CAGTGCTGAA CTACATGGCG 
GGCAGAGATG AAGGCTGTAA GCTGGTGACC ATTGGCAGTG GAAAGGTCTT TGCCTCCACT 
GGTTATGGCA TTGCCATCCA AAAAGATTCT GGGTGGAAGC GCCAGGTGGA CCTTGCTATC 
CTGCAGCTTT TCGGAGATGG GGAGATGGAG GAGCTGGAAG CTCTCTGGCT CACTGGCATT 
TGCCACAACG AAAAGAATGA GGTCATGAGC AGCCAGCTGG ACATTGACAA CATGGCGGGC 
GTCTTCTACA TGTTGGGGGC AGCCATGGCT CTCAGTCTCA TCACCTTCAT CTGCGAACAC 
CTTTTCTATT GGCAGTTCCG GCACTGCTTT ATGGGTGTCT GTTCTGGCAA GCCTGGCATG 
GTCTTCTCCA TCAGCAGAGG TATCTACAGC TGCATCCATG GAGTGGCAAT CGAGGAGCGC 
CAGTCCGTGA TGAACTCCCC CACCGCGACC ATGAACAACA CACACTCCAA CATCCTGCGC 
CTGCTCCGCA CGGCCAAGAA CATGGCCAAC CTGTCTGGTG TGAACGGCTC CCCCCAGAGC 
GCCCTGGACT TCATCCGACG GGAGTCATCC GTCTACGACA TCTCCGAGCA CCGCCGCAGC 
TTCACGCATT CCGACTGCAA ATCCTACAAC AACCCGCCGT GCGAGGAGAA CCTCTTCAGC 
GACTACATCA GTGAGGTGGA GAGAACTTTT GGTAACCTGC AGCTGAAGGA CAGCAACGTG 
TACCAAGATC ATTATCACCA CCACCACCGG CCCCACAGCA TCGGCAGCGC CAGCTCCATC 
GACGGGCTCT ACGACTGCGA CAACCCGCCT TTCACCACCC AGCCACGGTC CATCAGCAAG 
AAGCCCCTGG ACGTTGGCCT GCCCTCCTCC AAACACAGCC AGCTAAGCGA CCTGTACGGC 
AAGTTCTCCT TCAAGAGCGA CCGCTACAGT GGCCACGATG ACCTGATCCG CTCGGACGTG 
TCCGACATCT CCACCCACAC GGTCACCTAC GGAAACATCG AGGGCAATGC CGCCAAGAGG 
CGTAAGCAGC AATACAAGGA CAGCCTGAAG AAGCGGCCGG CCTCGGCCAA GTCCCGACGG 
GAGTTTGACG AGATCGAGCT GGCCTACCGC CGCCGGCCAC CCCGCTCCCC TGACCACAAG 
CGTTACTTCA GGGACAAGGA AGGGCTCCGG GACTTCTACC TGGACCAGTT CCGCCCGAAG 
GAGAACTCCC CGCACTGGGA GCACGTGGAC CTGACGGATA TCTACAAGGA GCAGAGCGAG 
GACTTCAAGC GCGACTCGGT CAGCGGAGGC GGGCCCTGTA CCAACAGGTC TCACCTCAAG 
CATGGGGCGG GCGACAAACA CGGCGTGGTC AGCGGGGTCC CGGCTCCCTG GGAGAAGAAC 
CTGACCAACG TGGATTGGGA GGAGCGCTCC GGGGGCAACT TCTGCCGCAG CTGCCCGTCC 
AAGCTGCACA ACTACTCCAC GGCGGTGACC GGGCAGAACT CGGGCCGGCA GGCGTGCATC 
CGGTGCGAGG CCTGCAAGAA AGCAGGCAAC CTGTATGACA TCAGCGAGGA CAACTCCCTG 
CAGGAGCTGG ACCAGCCGGC CGCCCCTGTG GCGGTGCCAT CCAATGCCCC CGGCGCCAAG 
TACCCCCAGA GCCCGACCAA CTCCAAGGCC CAGAAGAAGA CCCGGAACAA ACTGCGCCGG 
CAGCACTCCT ACGACACCTT CGTGGACCTG CAGAAGGAAG AAGCCGCCTT GGCCCCGCGC 
AGCGTGAGCC TGAAAGACAA GGGCCGCTTC CTGGATGGGA GTCCCTACGC CCACATGTTT 
GAGATGCCAG CTGGCGAGAG CACCTTTGCC AACAGCAAGT CCTCAGTGCC CACCGCCGGA 
CACCACCACC ACAACAACCC CAGCGGCTAC ATGCTCAGCA AGTCGCTCTA CCCCGACCGG 
GTCACGCAAA ACCCTTTCAT CCCCACTTTC GGGGACGACC AGTGCTTGCT CCATGGCAGC 
AAATCCTACT TCTTCAGGCA GCCCACGGTG GCGGGGGCGC CGAAAGCCAG GCCAGACTTC 
CGTGCCCTTG TCACCAACAA GCCGGTGGTC TCGGCCCTTC ACGGGGCTGT GCCAGGCCGT 
TTCCAGAAAG ACATCTGTAT AGGGAACCAG TCCAACCCCT GTGTGCCTAA CAACAAAAAC 
CCCAGGGCTT TCAATGGCTC CAGCAATGGG CATGTTTATG AGAAACTTTC TAGTATTGAG 
TCTGATGTCT GA

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

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GRIN2B cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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