AP3B2 cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	AP3B2
Entrez Gene ID	107289654
Full Name	adaptor related protein complex 3 beta 2 subunit
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_029284587.1	XP_029140420.1	AP-3 complex subunit beta-2 isoform X2
XM_015818447.1	XP_015673933.1	AP-3 complex subunit beta-2 isoform X1

Pathways from BioSystems
Gene Ontology

The following AP3B2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AP3B2 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
OPr199574	XM_029284587.1 Latest version!	Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OPr32302	XM_015818447.1 Latest version!	Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

AP3B2 ( XM_029284587.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_029140420.1 Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPr199574
Clone ID Related Accession (Same CDS sequence)	XM_029284587.1
Accession Version	XM_029284587.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3246bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	AP-3 complex subunit beta-2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015387013.1) 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 Name :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCGCCG GCCAAGCCTA CAACGAGGAG AAGGGCGGCT CTTCCAGCCT GGGGGAGCCG 
GAGTACGGGC ACGATCCGGC CAGCGGGGGG ATCTTCTCCT CGGATTACAA AAGACATGAT 
GATCTGAAGG AGATGCTGGA CAGCAACAAG GATTCCTTGA AGCTGGAAGC TATGAAGAGG 
ATTGTGGCAA TGATTGCTCG TGGCAAGAAC GCATCAGACC TCTTTCCAGC CGTGGTCAAA 
AACGTGGCCT GCAAGAATAT AGAGGTGAAG AAGCTGGTTT ATGTCTACCT TGTCCGGTAT 
GCAGAAGAAC AGCAAGATTT AGCATTATTA TCCATCTCTA CTTTCCAGCG AGGACTCAAG 
GATCCCAATC AGCTGATTCG AGCCAGCGCC CTCCGGGTCC TCTCCAGCAT CCGTGTCCCC 
ATCATTGTCC CCATCATGAT GCTGGCCATC AAGGAGGCAG CATCGGACAT GTCTCCGTAT 
GTGCGCAAAA CTGCAGCTCA TGCCATTCCC AAGCTGTACA GCCTTGATTC AGACCAGAAA 
GACCAGTTAA TTGAGGTCAT TGAGAAGCTG TTGGCTGATA AGACCACGTT GGTGGCTGGC 
AGCGTGGTGA TGGCATTTGA GGAAGTCTGC CCTGAGCGCA TTGACCTTAT TCACAAGAAC 
TACCGCAAGT TGTGCAACCT GCTGATCGAT GTGGAGGAAT GGGGCCAGGT GGTGATCATT 
AACATGCTGA CTCGCTATGC CCGCACGCAG TTCCTCAGCC CCAACCTGAA CGAATCTCTC 
CTGGAGGAGA GCGCTGAGAA AACCTTCTAT GGATCCGAAG ACGAGGATGC CAAAGATGAC 
AAGGCCAAGT CCACACCCTT GGCAAAGCGC AAGCCTTACG TGATGGATCC CGACCACCGC 
TTACTCCTAC GCAACACCAA ACCGCTCTTG CAAAGCCGCA ATGCTGCGGT GGTGATGTCA 
GTTGCTCAGC TCTACTTCCA TCTTGCTCCC AAGGCTGAGG TTGGGGTCAT TGCTAAGGCC 
CTGGTGCGTC TGCTGAGGAA CCACAGTGAG GTTCAATATG TGGTTCTTCA GAACGTGGCC 
ACCATGTCCA TCAAGCGAAG GGGAATGTTT GAGCCCTACC TCAAAAGTTT CTACATCCGA 
TCGACTGATC CCACCCAGAT TAAGATCCTC AAGCTGGAAG TTTTGACCAA CTTGGCTAAC 
GAAACCAACA TTTCTACCAT TTTACGGGAA TTTCAGACTT ACATCCGGAG CATGGATAAA 
GACTTTGTGG CTGCCACAAT CCAGGCCATC GGCCGTTGCG CCACCAACAT CGGCCGAGTG 
CGGGACACAT GTCTCAACGG ACTAGTTCAG CTGCTGTCCA ACCGAGATGA GCTGGTCGTG 
GCTGAGTCGG TGGTGGTCAT TAAAAAGCTT CTACAGATGC AGCCATCTCA ACACAGCGAG 
ATCATCAAGC ATATGGCTAA GCTGACAGAT AACATCCAGG TTCCCATGGC CCGGGCTAGC 
ATCTTATGGC TGATTGGTGA ATACTGTGAA CATGTGCCCA AGATTGCCCC AGATGTTCTG 
CGCAAGATGG CCAAGTCCTT CACCAGCGAG GAGGACATCG TGAAGCTGCA GGTGATCAAT 
CTGGCAGCCA AACTTTATCT GACAAACTCT AAGCAGAGTA AGCTGCTGAC TCAGTATGTG 
CTGAACTTGG CCAAGTACGA TCAGAATTAT GACATTCGGG ACCGTGCCCG TTTCATCCGC 
CAGCTCATTG TACCCACTGA GAAGAGTGGT GCCCTCAGCA AGTATGCCAA GAAGCTTTTC 
CTGGCACAAA AGCCTGCTCC CATTTTGGAG TCCTCTTTCA AAGATCGTGA CCACTTCCAA 
CTGGGCTCCC TTTCACACCT CTTGAACGCA AAAGCGGTGG GCTACCAGGA GCTTCCCGAT 
TGGCCAAATG AAGCTCCAGA TCCGTCTGTG CGCAACGTGG AGGTCCCGGA ATGGACCAAG 
TGCAGCAGTC GTGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTATTC GGATTCAGAG 
GGGGAATCTG GAGCCACGGA ATCTGCTGAC AGTGAGCCTG AGACCATGAG TGGATCTGAA 
AGTGGAACGG AGAGTGGATC GGGGTCTGGC AGTGAAGAAG AGGATGAGGA AGAGAGCGAA 
GACCAGTCGG AAGAGGAAGA GGAGGAGGAA GAGGAGGAGA AGAAGAAGAA GAAAAAGAAG 
AAGAAAAAAA AACTGTCCCC CCGGGGAGAA AAGGAGGATT CGACCTCCTC ATCCGAAGAG 
GACAACTTGT CTGAAAGTAG CTCAACCGAA TCGGAATCCG AGTCCGAACT GGAGGAATCT 
CATCCCGAGG AGTCAAAGAA GAAAAAAAAA CCCCCTCCTA AAGGACCCCA AAAAAGATTA 
AAGGAGATTT CTCTGCTTGA CCTGGATGAC TTCACACCCC TATCTTTGCA GCCGGTCACC 
ACCAGCCCAG TTCTCTCCAC TAGCCTCGTG ACCGATCTTG AAGGGCTCAC CTTGACTGAC 
TCTTCTCTAA CTGCAGCTAT GATCAGCCCC GTCTTTGGGG CAGTGAAGAA ATATGAGCTG 
CTGCATCGCA TGACTGGGGA AGGACTCTCG GTTGAATACT ATTTCAGCCG GCAACCTTTT 
GCTCCTGATC CCTGCATGGT AGCTGTGCAG ATCCAGATCT CCAATAACAT GGCAGCTGAA 
GTGAAAAATA TCCGTGTGGC TGAGCCCAAG CTTCTCTCAG GCATGCGCAT CCAGGAGTTC 
AAGGAGATTG AGTCTCTGGC CCCCGGCGAA ACGGTCAGTG TGGTGATGGG CATAGACTTC 
TGTGACTCTA CCCAGGTGGC CAGTTTCCAG TTGTGCACAC CTACTCGCCA GTTTTACCTG 
TCCATCCAAT CCCCAGTTGG GGAGCTGATG GCTCCAGTGT TCATGAGCGA AAACGAATTC 
AAGAAGGAAC AAGGAAAGCT AACAGGGATG AGTGAAATCA CAGAGAAGCT GACTCTACCT 
GACTCCTGTC AGAATGACCA CGTGGTTGTG CAAAAGGTGA CAGCGGCTGC TAACGTGAGC 
CGTGTGCCCT GCGGTTCGGA TAAAGAGTAC AGGTTTGCTG CTAAAACAGT GAGTGGTGGG 
TGTCTCATTT TGATCACGCT GGAGAAGAGG CCAGACAACT CAGCCCAGCT AACCATCAAC 
AGTGAGAAGA TGTTGATTGG TACCATGTTG GTGAAAGACA TCATCCACTC CTTGACCCAG 
GAGTGA

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

RefSeq	XP_029140420.1
CDS	1..3246
Translation	MSAGQAYNEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNLNESLLEESAEKTFYGSEDEDAKDDKAKSTPLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMSVAQLYFHLAPKAEVGVIAKALVRLLRNHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGRVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPSQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTSEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALSKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPNEAPDPSVRNVEVPEWTKCSSREKRKEKVEKPFYSDSEGESGATESADSEPETMSGSESGTESGSGSGSEEEDEEESEDQSEEEEEEEEEEKKKKKKKKKKKLSPRGEKEDSTSSSEEDNLSESSSTESESESELEESHPEESKKKKKPPPKGPQKRLKEISLLDLDDFTPLSLQPVTTSPVLSTSLVTDLEGLTLTDSSLTAAMISPVFGAVKKYELLHRMTGEGLSVEYYFSRQPFAPDPCMVAVQIQISNNMAAEVKNIRVAEPKLLSGMRIQEFKEIESLAPGETVSVVMGIDFCDSTQVASFQLCTPTRQFYLSIQSPVGELMAPVFMSENEFKKEQGKLTGMSEITEKLTLPDSCQNDHVVVQKVTAAANVSRVPCGSDKEYRFAAKTVSGGCLILITLEKRPDNSAQLTINSEKMLIGTMLVKDIIHSLTQE

Target ORF information:

RefSeq Version	XM_029284587.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X2, mRNA.

Target ORF information:

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

XM_029284587.1

ORF Insert Sequence:

ATGTCCGCCG GCCAAGCCTA CAACGAGGAG AAGGGCGGCT CTTCCAGCCT GGGGGAGCCG 
GAGTACGGGC ACGATCCGGC CAGCGGGGGG ATCTTCTCCT CGGATTACAA AAGACATGAT 
GATCTGAAGG AGATGCTGGA CAGCAACAAG GATTCCTTGA AGCTGGAAGC TATGAAGAGG 
ATTGTGGCAA TGATTGCTCG TGGCAAGAAC GCATCAGACC TCTTTCCAGC CGTGGTCAAA 
AACGTGGCCT GCAAGAATAT AGAGGTGAAG AAGCTGGTTT ATGTCTACCT TGTCCGGTAT 
GCAGAAGAAC AGCAAGATTT AGCATTATTA TCCATCTCTA CTTTCCAGCG AGGACTCAAG 
GATCCCAATC AGCTGATTCG AGCCAGCGCC CTCCGGGTCC TCTCCAGCAT CCGTGTCCCC 
ATCATTGTCC CCATCATGAT GCTGGCCATC AAGGAGGCAG CATCGGACAT GTCTCCGTAT 
GTGCGCAAAA CTGCAGCTCA TGCCATTCCC AAGCTGTACA GCCTTGATTC AGACCAGAAA 
GACCAGTTAA TTGAGGTCAT TGAGAAGCTG TTGGCTGATA AGACCACGTT GGTGGCTGGC 
AGCGTGGTGA TGGCATTTGA GGAAGTCTGC CCTGAGCGCA TTGACCTTAT TCACAAGAAC 
TACCGCAAGT TGTGCAACCT GCTGATCGAT GTGGAGGAAT GGGGCCAGGT GGTGATCATT 
AACATGCTGA CTCGCTATGC CCGCACGCAG TTCCTCAGCC CCAACCTGAA CGAATCTCTC 
CTGGAGGAGA GCGCTGAGAA AACCTTCTAT GGATCCGAAG ACGAGGATGC CAAAGATGAC 
AAGGCCAAGT CCACACCCTT GGCAAAGCGC AAGCCTTACG TGATGGATCC CGACCACCGC 
TTACTCCTAC GCAACACCAA ACCGCTCTTG CAAAGCCGCA ATGCTGCGGT GGTGATGTCA 
GTTGCTCAGC TCTACTTCCA TCTTGCTCCC AAGGCTGAGG TTGGGGTCAT TGCTAAGGCC 
CTGGTGCGTC TGCTGAGGAA CCACAGTGAG GTTCAATATG TGGTTCTTCA GAACGTGGCC 
ACCATGTCCA TCAAGCGAAG GGGAATGTTT GAGCCCTACC TCAAAAGTTT CTACATCCGA 
TCGACTGATC CCACCCAGAT TAAGATCCTC AAGCTGGAAG TTTTGACCAA CTTGGCTAAC 
GAAACCAACA TTTCTACCAT TTTACGGGAA TTTCAGACTT ACATCCGGAG CATGGATAAA 
GACTTTGTGG CTGCCACAAT CCAGGCCATC GGCCGTTGCG CCACCAACAT CGGCCGAGTG 
CGGGACACAT GTCTCAACGG ACTAGTTCAG CTGCTGTCCA ACCGAGATGA GCTGGTCGTG 
GCTGAGTCGG TGGTGGTCAT TAAAAAGCTT CTACAGATGC AGCCATCTCA ACACAGCGAG 
ATCATCAAGC ATATGGCTAA GCTGACAGAT AACATCCAGG TTCCCATGGC CCGGGCTAGC 
ATCTTATGGC TGATTGGTGA ATACTGTGAA CATGTGCCCA AGATTGCCCC AGATGTTCTG 
CGCAAGATGG CCAAGTCCTT CACCAGCGAG GAGGACATCG TGAAGCTGCA GGTGATCAAT 
CTGGCAGCCA AACTTTATCT GACAAACTCT AAGCAGAGTA AGCTGCTGAC TCAGTATGTG 
CTGAACTTGG CCAAGTACGA TCAGAATTAT GACATTCGGG ACCGTGCCCG TTTCATCCGC 
CAGCTCATTG TACCCACTGA GAAGAGTGGT GCCCTCAGCA AGTATGCCAA GAAGCTTTTC 
CTGGCACAAA AGCCTGCTCC CATTTTGGAG TCCTCTTTCA AAGATCGTGA CCACTTCCAA 
CTGGGCTCCC TTTCACACCT CTTGAACGCA AAAGCGGTGG GCTACCAGGA GCTTCCCGAT 
TGGCCAAATG AAGCTCCAGA TCCGTCTGTG CGCAACGTGG AGGTCCCGGA ATGGACCAAG 
TGCAGCAGTC GTGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTATTC GGATTCAGAG 
GGGGAATCTG GAGCCACGGA ATCTGCTGAC AGTGAGCCTG AGACCATGAG TGGATCTGAA 
AGTGGAACGG AGAGTGGATC GGGGTCTGGC AGTGAAGAAG AGGATGAGGA AGAGAGCGAA 
GACCAGTCGG AAGAGGAAGA GGAGGAGGAA GAGGAGGAGA AGAAGAAGAA GAAAAAGAAG 
AAGAAAAAAA AACTGTCCCC CCGGGGAGAA AAGGAGGATT CGACCTCCTC ATCCGAAGAG 
GACAACTTGT CTGAAAGTAG CTCAACCGAA TCGGAATCCG AGTCCGAACT GGAGGAATCT 
CATCCCGAGG AGTCAAAGAA GAAAAAAAAA CCCCCTCCTA AAGGACCCCA AAAAAGATTA 
AAGGAGATTT CTCTGCTTGA CCTGGATGAC TTCACACCCC TATCTTTGCA GCCGGTCACC 
ACCAGCCCAG TTCTCTCCAC TAGCCTCGTG ACCGATCTTG AAGGGCTCAC CTTGACTGAC 
TCTTCTCTAA CTGCAGCTAT GATCAGCCCC GTCTTTGGGG CAGTGAAGAA ATATGAGCTG 
CTGCATCGCA TGACTGGGGA AGGACTCTCG GTTGAATACT ATTTCAGCCG GCAACCTTTT 
GCTCCTGATC CCTGCATGGT AGCTGTGCAG ATCCAGATCT CCAATAACAT GGCAGCTGAA 
GTGAAAAATA TCCGTGTGGC TGAGCCCAAG CTTCTCTCAG GCATGCGCAT CCAGGAGTTC 
AAGGAGATTG AGTCTCTGGC CCCCGGCGAA ACGGTCAGTG TGGTGATGGG CATAGACTTC 
TGTGACTCTA CCCAGGTGGC CAGTTTCCAG TTGTGCACAC CTACTCGCCA GTTTTACCTG 
TCCATCCAAT CCCCAGTTGG GGAGCTGATG GCTCCAGTGT TCATGAGCGA AAACGAATTC 
AAGAAGGAAC AAGGAAAGCT AACAGGGATG AGTGAAATCA CAGAGAAGCT GACTCTACCT 
GACTCCTGTC AGAATGACCA CGTGGTTGTG CAAAAGGTGA CAGCGGCTGC TAACGTGAGC 
CGTGTGCCCT GCGGTTCGGA TAAAGAGTAC AGGTTTGCTG CTAAAACAGT GAGTGGTGGG 
TGTCTCATTT TGATCACGCT GGAGAAGAGG CCAGACAACT CAGCCCAGCT AACCATCAAC 
AGTGAGAAGA TGTTGATTGG TACCATGTTG GTGAAAGACA TCATCCACTC CTTGACCCAG 
GAGTGA

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

AP3B2 ( XM_015818447.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015673933.1 Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPr32302
Clone ID Related Accession (Same CDS sequence)	XM_015818447.1
Accession Version	XM_015818447.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3309bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	AP-3 complex subunit beta-2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015387013.1) 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 Name :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCGCCG GCCAAGCCTA CAACGAGGAG AAGGGCGGCT CTTCCAGCCT GGGGGAGCCG 
GAGTACGGGC ACGATCCGGC CAGCGGGGGG ATCTTCTCCT CGGATTACAA AAGACATGAT 
GATCTGAAGG AGATGCTGGA CAGCAACAAG GATTCCTTGA AGCTGGAAGC TATGAAGAGG 
ATTGTGGCAA TGATTGCTCG TGGCAAGAAC GCATCAGACC TCTTTCCAGC CGTGGTCAAA 
AACGTGGCCT GCAAGAATAT AGAGGTGAAG AAGCTGGTTT ATGTCTACCT TGTCCGGTAT 
GCAGAAGAAC AGCAAGATTT AGCATTATTA TCCATCTCTA CTTTCCAGCG AGGACTCAAG 
GATCCCAATC AGCTGATTCG AGCCAGCGCC CTCCGGGTCC TCTCCAGCAT CCGTGTCCCC 
ATCATTGTCC CCATCATGAT GCTGGCCATC AAGGAGGCAG CATCGGACAT GTCTCCGTAT 
GTGCGCAAAA CTGCAGCTCA TGCCATTCCC AAGCTGTACA GCCTTGATTC AGACCAGAAA 
GACCAGTTAA TTGAGGTCAT TGAGAAGCTG TTGGCTGATA AGACCACGTT GGTGGCTGGC 
AGCGTGGTGA TGGCATTTGA GGAAGTCTGC CCTGAGCGCA TTGACCTTAT TCACAAGAAC 
TACCGCAAGT TGTGCAACCT GCTGATCGAT GTGGAGGAAT GGGGCCAGGT GGTGATCATT 
AACATGCTGA CTCGCTATGC CCGCACGCAG TTCCTCAGCC CCAACCTGAA CGAATCTCTC 
CTGGAGGAGA GCGCTGAGAA AACCTTCTAT GGATCCGAAG ACGAGGATGC CAAAGATGAC 
AAGGCCAAGT CCACACCCTT GGCAAAGCGC AAGCCTTACG TGATGGATCC CGACCACCGC 
TTACTCCTAC GCAACACCAA ACCGCTCTTG CAAAGCCGCA ATGCTGCGGT GGTGATGTCA 
GTTGCTCAGC TCTACTTCCA TCTTGCTCCC AAGGCTGAGG TTGGGGTCAT TGCTAAGGCC 
CTGGTGCGTC TGCTGAGGAA CCACAGTGAG GTTCAATATG TGGTTCTTCA GAACGTGGCC 
ACCATGTCCA TCAAGCGAAG GGGAATGTTT GAGCCCTACC TCAAAAGTTT CTACATCCGA 
TCGACTGATC CCACCCAGAT TAAGATCCTC AAGCTGGAAG TTTTGACCAA CTTGGCTAAC 
GAAACCAACA TTTCTACCAT TTTACGGGAA TTTCAGACTT ACATCCGGAG CATGGATAAA 
GACTTTGTGG CTGCCACAAT CCAGGCCATC GGCCGTTGCG CCACCAACAT CGGCCGAGTG 
CGGGACACAT GTCTCAACGG ACTAGTTCAG CTGCTGTCCA ACCGAGATGA GCTGGTCGTG 
GCTGAGTCGG TGGTGGTCAT TAAAAAGCTT CTACAGATGC AGCCATCTCA ACACAGCGAG 
ATCATCAAGC ATATGGCTAA GCTGACAGAT AACATCCAGG TTCCCATGGC CCGGGCTAGC 
ATCTTATGGC TGATTGGTGA ATACTGTGAA CATGTGCCCA AGATTGCCCC AGATGTTCTG 
CGCAAGATGG CCAAGTCCTT CACCAGCGAG GAGGACATCG TGAAGCTGCA GGTGATCAAT 
CTGGCAGCCA AACTTTATCT GACAAACTCT AAGCAGAGTA AGCTGCTGAC TCAGTATGTG 
CTGAACTTGG CCAAGTACGA TCAGAATTAT GACATTCGGG ACCGTGCCCG TTTCATCCGC 
CAGCTCATTG TACCCACTGA GAAGAGTGGT GCCCTCAGCA AGTATGCCAA GAAGCTTTTC 
CTGGCACAAA AGCCTGCTCC CATTTTGGAG TCCTCTTTCA AAGATCGTGA CCACTTCCAA 
CTGGGCTCCC TTTCACACCT CTTGAACGCA AAAGCGGTGG GCTACCAGGA GCTTCCCGAT 
TGGCCAAATG AAGCTCCAGA TCCGTCTGTG CGCAACGTGG AGGAAGACTC CATTGATCGT 
AGAGGAAGCC ACATTGGGCT ACTGGGTGGA CCCAAAGAGG TCCCGGAATG GACCAAGTGC 
AGCAGTCGTG AGAAGAGGAA GGAGAAGGTG GAGAAGCCTT TCTATTCGGA TTCAGAGGGG 
GAATCTGGAG CCACGGAATC TGCTGACAGT GAGCCTGAGA CCATGAGTGG ATCTGAAAGT 
GGAACGGAGA GTGGATCGGG GTCTGGCAGT GAAGAAGAGG ATGAGGAAGA GAGCGAAGAC 
CAGTCGGAAG AGGAAGAGGA GGAGGAAGAG GAGGAGAAGA AGAAGAAGAA AAAGAAGAAG 
AAAGCTCCCC GGAAAGAAAA GGAGGATTCG ACCTCCTCAT CCGAAGAGGA CAACTTGTCT 
GAAAGTAGCT CAACCGAATC GGAATCCGAG TCCGAACTGG AGGAATCTCA TCCCGAGGAG 
TCAAAGAAGA AAAAGCTGCT TTCCAGCAGA AAACCCCCTC CTAAAGGACC CCAAAAAAGA 
TTAAAGGAGA TTTCTCTGCT TGACCTGGAT GACTTCACAC CCCTATCTTT GCAGCCGGTC 
ACCACCAGCC CAGTTCTCTC CACTAGCCTC GTGACCGATC TTGAAGGGCT CACCTTGACT 
GACTCTTCTC TAACTGCAGC TATGATCAGC CCCGTCTTTG GGGCAGTGAA GAAATATGAG 
CTGCTGCATC GCATGACTGG GGAAGGACTC TCGGTTGAAT ACTATTTCAG CCGGCAACCT 
TTTGCTCCTG ATCCCTGCAT GGTAGCTGTG CAGATCCAGA TCTCCAATAA CATGGCAGCT 
GAAGTGAAAA ATATCCGTGT GGCTGAGCCC AAGCTTCTCT CAGGCATGCG CATCCAGGAG 
TTCAAGGAGA TTGAGTCTCT GGCCCCCGGC GAAACGGTCA GTGTGGTGAT GGGCATAGAC 
TTCTGTGACT CTACCCAGGT GGCCAGTTTC CAGTTGTGCA CACCTACTCG CCAGTTTTAC 
CTGTCCATCC AATCCCCAGT TGGGGAGCTG ATGGCTCCAG TGTTCATGAG CGAAAACGAA 
TTCAAGAAGG AACAAGGAAA GCTAACAGGG ATGAGTGAAA TCACAGAGAA GCTGACTCTA 
CCTGACTCCT GTCAGAATGA CCACGTGGTT GTGCAAAAGG TGACAGCGGC TGCTAACGTG 
AGCCGTGTGC CCTGCGGTTC GGATAAAGAG TACAGGTTTG CTGCTAAAAC AGTGAGTGGT 
GGGTGTCTCA TTTTGATCAC GCTGGAGAAG AGGCCAGACA ACTCAGCCCA GCTAACCATC 
AACAGTGAGA AGATGTTGAT TGGTACCATG TTGGTGAAAG ACATCATCCA CTCCTTGACC 
CAGGAGTGA

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

RefSeq	XP_015673933.1
CDS	1..3309
Translation	MSAGQAYNEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNLNESLLEESAEKTFYGSEDEDAKDDKAKSTPLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMSVAQLYFHLAPKAEVGVIAKALVRLLRNHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGRVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPSQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTSEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALSKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPNEAPDPSVRNVEEDSIDRRGSHIGLLGGPKEVPEWTKCSSREKRKEKVEKPFYSDSEGESGATESADSEPETMSGSESGTESGSGSGSEEEDEEESEDQSEEEEEEEEEEKKKKKKKKKAPRKEKEDSTSSSEEDNLSESSSTESESESELEESHPEESKKKKLLSSRKPPPKGPQKRLKEISLLDLDDFTPLSLQPVTTSPVLSTSLVTDLEGLTLTDSSLTAAMISPVFGAVKKYELLHRMTGEGLSVEYYFSRQPFAPDPCMVAVQIQISNNMAAEVKNIRVAEPKLLSGMRIQEFKEIESLAPGETVSVVMGIDFCDSTQVASFQLCTPTRQFYLSIQSPVGELMAPVFMSENEFKKEQGKLTGMSEITEKLTLPDSCQNDHVVVQKVTAAANVSRVPCGSDKEYRFAAKTVSGGCLILITLEKRPDNSAQLTINSEKMLIGTMLVKDIIHSLTQE

Target ORF information:

RefSeq Version	XM_015818447.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X1, mRNA.

Target ORF information:

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

XM_015818447.1

ORF Insert Sequence:

ATGTCCGCCG GCCAAGCCTA CAACGAGGAG AAGGGCGGCT CTTCCAGCCT GGGGGAGCCG 
GAGTACGGGC ACGATCCGGC CAGCGGGGGG ATCTTCTCCT CGGATTACAA AAGACATGAT 
GATCTGAAGG AGATGCTGGA CAGCAACAAG GATTCCTTGA AGCTGGAAGC TATGAAGAGG 
ATTGTGGCAA TGATTGCTCG TGGCAAGAAC GCATCAGACC TCTTTCCAGC CGTGGTCAAA 
AACGTGGCCT GCAAGAATAT AGAGGTGAAG AAGCTGGTTT ATGTCTACCT TGTCCGGTAT 
GCAGAAGAAC AGCAAGATTT AGCATTATTA TCCATCTCTA CTTTCCAGCG AGGACTCAAG 
GATCCCAATC AGCTGATTCG AGCCAGCGCC CTCCGGGTCC TCTCCAGCAT CCGTGTCCCC 
ATCATTGTCC CCATCATGAT GCTGGCCATC AAGGAGGCAG CATCGGACAT GTCTCCGTAT 
GTGCGCAAAA CTGCAGCTCA TGCCATTCCC AAGCTGTACA GCCTTGATTC AGACCAGAAA 
GACCAGTTAA TTGAGGTCAT TGAGAAGCTG TTGGCTGATA AGACCACGTT GGTGGCTGGC 
AGCGTGGTGA TGGCATTTGA GGAAGTCTGC CCTGAGCGCA TTGACCTTAT TCACAAGAAC 
TACCGCAAGT TGTGCAACCT GCTGATCGAT GTGGAGGAAT GGGGCCAGGT GGTGATCATT 
AACATGCTGA CTCGCTATGC CCGCACGCAG TTCCTCAGCC CCAACCTGAA CGAATCTCTC 
CTGGAGGAGA GCGCTGAGAA AACCTTCTAT GGATCCGAAG ACGAGGATGC CAAAGATGAC 
AAGGCCAAGT CCACACCCTT GGCAAAGCGC AAGCCTTACG TGATGGATCC CGACCACCGC 
TTACTCCTAC GCAACACCAA ACCGCTCTTG CAAAGCCGCA ATGCTGCGGT GGTGATGTCA 
GTTGCTCAGC TCTACTTCCA TCTTGCTCCC AAGGCTGAGG TTGGGGTCAT TGCTAAGGCC 
CTGGTGCGTC TGCTGAGGAA CCACAGTGAG GTTCAATATG TGGTTCTTCA GAACGTGGCC 
ACCATGTCCA TCAAGCGAAG GGGAATGTTT GAGCCCTACC TCAAAAGTTT CTACATCCGA 
TCGACTGATC CCACCCAGAT TAAGATCCTC AAGCTGGAAG TTTTGACCAA CTTGGCTAAC 
GAAACCAACA TTTCTACCAT TTTACGGGAA TTTCAGACTT ACATCCGGAG CATGGATAAA 
GACTTTGTGG CTGCCACAAT CCAGGCCATC GGCCGTTGCG CCACCAACAT CGGCCGAGTG 
CGGGACACAT GTCTCAACGG ACTAGTTCAG CTGCTGTCCA ACCGAGATGA GCTGGTCGTG 
GCTGAGTCGG TGGTGGTCAT TAAAAAGCTT CTACAGATGC AGCCATCTCA ACACAGCGAG 
ATCATCAAGC ATATGGCTAA GCTGACAGAT AACATCCAGG TTCCCATGGC CCGGGCTAGC 
ATCTTATGGC TGATTGGTGA ATACTGTGAA CATGTGCCCA AGATTGCCCC AGATGTTCTG 
CGCAAGATGG CCAAGTCCTT CACCAGCGAG GAGGACATCG TGAAGCTGCA GGTGATCAAT 
CTGGCAGCCA AACTTTATCT GACAAACTCT AAGCAGAGTA AGCTGCTGAC TCAGTATGTG 
CTGAACTTGG CCAAGTACGA TCAGAATTAT GACATTCGGG ACCGTGCCCG TTTCATCCGC 
CAGCTCATTG TACCCACTGA GAAGAGTGGT GCCCTCAGCA AGTATGCCAA GAAGCTTTTC 
CTGGCACAAA AGCCTGCTCC CATTTTGGAG TCCTCTTTCA AAGATCGTGA CCACTTCCAA 
CTGGGCTCCC TTTCACACCT CTTGAACGCA AAAGCGGTGG GCTACCAGGA GCTTCCCGAT 
TGGCCAAATG AAGCTCCAGA TCCGTCTGTG CGCAACGTGG AGGAAGACTC CATTGATCGT 
AGAGGAAGCC ACATTGGGCT ACTGGGTGGA CCCAAAGAGG TCCCGGAATG GACCAAGTGC 
AGCAGTCGTG AGAAGAGGAA GGAGAAGGTG GAGAAGCCTT TCTATTCGGA TTCAGAGGGG 
GAATCTGGAG CCACGGAATC TGCTGACAGT GAGCCTGAGA CCATGAGTGG ATCTGAAAGT 
GGAACGGAGA GTGGATCGGG GTCTGGCAGT GAAGAAGAGG ATGAGGAAGA GAGCGAAGAC 
CAGTCGGAAG AGGAAGAGGA GGAGGAAGAG GAGGAGAAGA AGAAGAAGAA AAAGAAGAAG 
AAAGCTCCCC GGAAAGAAAA GGAGGATTCG ACCTCCTCAT CCGAAGAGGA CAACTTGTCT 
GAAAGTAGCT CAACCGAATC GGAATCCGAG TCCGAACTGG AGGAATCTCA TCCCGAGGAG 
TCAAAGAAGA AAAAGCTGCT TTCCAGCAGA AAACCCCCTC CTAAAGGACC CCAAAAAAGA 
TTAAAGGAGA TTTCTCTGCT TGACCTGGAT GACTTCACAC CCCTATCTTT GCAGCCGGTC 
ACCACCAGCC CAGTTCTCTC CACTAGCCTC GTGACCGATC TTGAAGGGCT CACCTTGACT 
GACTCTTCTC TAACTGCAGC TATGATCAGC CCCGTCTTTG GGGCAGTGAA GAAATATGAG 
CTGCTGCATC GCATGACTGG GGAAGGACTC TCGGTTGAAT ACTATTTCAG CCGGCAACCT 
TTTGCTCCTG ATCCCTGCAT GGTAGCTGTG CAGATCCAGA TCTCCAATAA CATGGCAGCT 
GAAGTGAAAA ATATCCGTGT GGCTGAGCCC AAGCTTCTCT CAGGCATGCG CATCCAGGAG 
TTCAAGGAGA TTGAGTCTCT GGCCCCCGGC GAAACGGTCA GTGTGGTGAT GGGCATAGAC 
TTCTGTGACT CTACCCAGGT GGCCAGTTTC CAGTTGTGCA CACCTACTCG CCAGTTTTAC 
CTGTCCATCC AATCCCCAGT TGGGGAGCTG ATGGCTCCAG TGTTCATGAG CGAAAACGAA 
TTCAAGAAGG AACAAGGAAA GCTAACAGGG ATGAGTGAAA TCACAGAGAA GCTGACTCTA 
CCTGACTCCT GTCAGAATGA CCACGTGGTT GTGCAAAAGG TGACAGCGGC TGCTAACGTG 
AGCCGTGTGC CCTGCGGTTC GGATAAAGAG TACAGGTTTG CTGCTAAAAC AGTGAGTGGT 
GGGTGTCTCA TTTTGATCAC GCTGGAGAAG AGGCCAGACA ACTCAGCCCA GCTAACCATC 
AACAGTGAGA AGATGTTGAT TGGTACCATG TTGGTGAAAG ACATCATCCA CTCCTTGACC 
CAGGAGTGA