AP3B2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	AP3B2
Entrez Gene ID	100225464
Full Name	adaptor related protein complex 3 beta 2 subunit
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030281796.1	XP_030137656.1	AP-3 complex subunit beta-2 isoform X1
XM_030281797.1	XP_030137657.1	AP-3 complex subunit beta-2 isoform X2
XM_002192526.3	XP_002192562.1	AP-3 complex subunit beta-2
XM_030281798.1	XP_030137658.1	AP-3 complex subunit beta-2 isoform X3
XM_030281799.1	XP_030137659.1	AP-3 complex subunit beta-2 isoform X4

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)
OTd26913	XM_030281799.1 Latest version!	Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	9-11	$69.30 $99.00
OTd26912	XM_030281798.1 Latest version!	Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd00716	XM_002192526.3 Latest version!	Taeniopygia guttata adaptor-related protein complex 3, beta 2 subunit (AP3B2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd26910	XM_030281796.1 Latest version!	Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd26911	XM_030281797.1 Latest version!	Taeniopygia guttata 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

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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)

AP3B2 ( XM_030281799.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137659.1 Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd26913
Clone ID Related Accession (Same CDS sequence)	XM_030281799.1
Accession Version	XM_030281799.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 438bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	AP-3 complex subunit beta-2 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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 :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGGGCATCG ACTTCTGTGA CTCCACCCAG GCAGCAAACT TCCAGCTGTG CACCCACACG 
CGCCAGTTCT ACGTCTCCAT CCAGCCACCC GTGGGGGAGC TCATGGCCCC TGTCTTCATG 
AGCGAGAACG AGTTCAAGAA GGAGCAGGGG AAGCTGATGG GCATGAGTGA GATCACAGAG 
AAGCTGACGC TGCCTGAGAA ATGCCGAAGT GACCACACCA TCGTCCAGCA AGTGACCTCA 
GCTGCCAACG TGGGCCGCGT GCCCTGCGGT GCCAGCAATG AGTACAGGTT CGCGGCCAAG 
ACGGTGACAA GCGGGAGCCT GGTACTCATC ACCCTGGAGT GGCGGGAGGG CTCCACGGCC 
CAGCTGACCA TCAACAGCGA GAAGATGGTC ATTGGCACCA TGCTGGTGAA GGACATCATC 
CAGGCCCTGA CACAGTGA

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

RefSeq	XP_030137659.1
CDS	148..585
Translation	MGIDFCDSTQAANFQLCTHTRQFYVSIQPPVGELMAPVFMSENEFKKEQGKLMGMSEITEKLTLPEKCRSDHTIVQQVTSAANVGRVPCGASNEYRFAAKTVTSGSLVLITLEWREGSTAQLTINSEKMVIGTMLVKDIIQALTQ

Target ORF information:

RefSeq Version	XM_030281799.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X4, mRNA.

Target ORF information:

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

XM_030281799.1

ORF Insert Sequence:

ATGGGCATCG ACTTCTGTGA CTCCACCCAG GCAGCAAACT TCCAGCTGTG CACCCACACG 
CGCCAGTTCT ACGTCTCCAT CCAGCCACCC GTGGGGGAGC TCATGGCCCC TGTCTTCATG 
AGCGAGAACG AGTTCAAGAA GGAGCAGGGG AAGCTGATGG GCATGAGTGA GATCACAGAG 
AAGCTGACGC TGCCTGAGAA ATGCCGAAGT GACCACACCA TCGTCCAGCA AGTGACCTCA 
GCTGCCAACG TGGGCCGCGT GCCCTGCGGT GCCAGCAATG AGTACAGGTT CGCGGCCAAG 
ACGGTGACAA GCGGGAGCCT GGTACTCATC ACCCTGGAGT GGCGGGAGGG CTCCACGGCC 
CAGCTGACCA TCAACAGCGA GAAGATGGTC ATTGGCACCA TGCTGGTGAA GGACATCATC 
CAGGCCCTGA CACAGTGA

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

AP3B2 ( XM_030281798.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137658.1 Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd26912
Clone ID Related Accession (Same CDS sequence)	XM_030281798.1
Accession Version	XM_030281798.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2895bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	AP-3 complex subunit beta-2 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CCAGGAGTCT 
TTGCTGGAGG AGAACACTGA GAAGGCTTTC TATGGCTCTG AGGAGGAGGA CGCCAAGGAT 
ACCAAGGCAG AGGCAGCTTC GCTGGCCAAG CGCAAGCCCT ACGTAATGGA CCCTGACCAC 
CGCCTCCTCC TGCGCAACAC CAAGCCCCTG CTGCAGAGCC GCAACGCCGC AGTGGTGATG 
GCTGTGGCAC AGCTCTACTT TCACCTGGCA CCCAAGGCAG AGGTTGGAGT CATTGCCAAG 
GCGCTGGTAC GGCTCCTGCG GAGTCACAGT GAGGTGCAGT ATGTTGTACT ACAGAATGTG 
GCCACCATGT CCATCAAGCG GCGGGGGATG TTTGAGCCCT ATCTGAAAAG TTTCTACATC 
CGCTCCACGG ACCCCACACA GATCAAGATC CTCAAGCTGG AGGTCCTCAC CAACCTGGCC 
AATGAGACCA ACATCTCCAC CATTCTGCGA GAGTTCCAGA CCTACATCCG CAGCATGGAC 
AAGGACTTTG TGGCAGCCAC CATCCAGGCC ATTGGGCGCT GTGCCACCAA CATTGGGAAG 
GTGCGGGATA CCTGCCTCAA TGGCCTGGTG CAGCTCCTCT CCAACAGAGA TGAGCTGGTG 
GTGGCCGAAT CTGTGGTGGT CATCAAAAAG CTACTACAGA TGCAGCCGGC CCAGCACAGT 
GAGATCATCA AGCACATGGC CAAGCTCACT GACAACATCC AGGTGCCAAT GGCACGGGCC 
AGCATCTTGT GGCTCATTGG CGAGTACTGC GAGCACGTGC CCAAGATCGC ACCTGATGTG 
CTGCGCAAGA TGGCCAAGTC CTTCACCAAT GAGGAGGACA TTGTCAAGCT GCAGGTCATC 
AATCTGGCGG CTAAGCTCTA CCTGACCAAC TCCAAGCAGA GCAAGCTGCT GACCCAGTAT 
GTCCTCAACT TGGCCAAGTA TGACCAGAAT TACGACATCC GCGACCGGGC TCGTTTCATC 
CGCCAGCTCA TCGTGCCCAC TGAGAAGAGT GGGGCCCTCA ATAAATATGC CAAGAAGCTC 
TTCCTGGCCC AAAAACCAGC TCCCATATTG GAGTCTTCCT TCAAAGATCG GGACCATTTC 
CAACTGGGCT CCCTGTCCCA TCTGCTCAAC GCTAAGGCTG TGGGCTACCA GGAGCTGCCT 
GACTGGCCGG ATGAGGCCCC TGACCCCTCT GTGAGGAATG TGGAGGTTCC TGAGTGGACC 
AAGTGCACCA GCCGGGAGAA GAGGAAGGAG AAGGTGGAGA AGCCTTTCTA CTCTGACTCA 
GAGGGCGAGT CAGGGCCCAC GGAGTCAGCA GACAGTGAGC CCGAGTCCGG CAGTGAAGAG 
AACAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGAGGAG 
AAGAGGCCAA AGAGGAAGGA CAAGGAAGGT TCCCATAAGG CAGTCTTGGG GAGAGCGGGC 
AGCCCCAGTG AGGAAGAGGA GGAGGAGGGG GCAAAGAAGT CCAAGAAGAA GATCCTGCAG 
GGGAGGAAGG GCCGTGCCGA AACCTCGTCA GAGGCCAGCA CCTCCGAGAG CAGCTCCTCT 
GGCTCCGACT CAGGCTCTGA GGAAGAGGCC AAGCAGAGGA AGGCGCCCCC CAGCAGCAAG 
GCCAGCTCCA AGGAGATCTC CCTGCTTGAC CTGGATGACT TCACTCCACC TCCTCCTCAG 
CCCATCCCCT CCAGCAGCAT CATCTCCACC AGCCTGGTGA CCGACCTGGA AGGCCTCACT 
CTCACCGACA CCTCCCTGAC ACCCACCCTG CTGAGCCCGG CGTTCAGTGC AGTGAAGACC 
TACGAGCTGC TGCACCGCAT GGCAGGCGAG GGGCTTGCGG TTGAGTACTG CTTCAGCCGC 
CGGCCCTTCC CGGGCGACCC CCACATGGTG GCCGTCCAGA TCCAGATCTC CAACAACACT 
GACACCGAGG TGAAGAACCT GCGAGTCAAC GAACCCAAGC CACTATCTGG CATGAGGATA 
CAGGAGTTCC CTGAGATCGT GGCATCCCTG TTGTTCCAGA GCACCTGGCG CCAGGGGACA 
CAGCCAGCGT GGTGA

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

RefSeq	XP_030137658.1
CDS	65..2959
Translation	MAASPAYGEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNQNQESLLEENTEKAFYGSEEEDAKDTKAEAASLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMAVAQLYFHLAPKAEVGVIAKALVRLLRSHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGKVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPAQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTNEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALNKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPDEAPDPSVRNVEVPEWTKCTSREKRKEKVEKPFYSDSEGESGPTESADSEPESGSEENSSSSSSGSSSSGTEEEEEEEEEEDSGEQSEDKEEEEEEEKRPKRKDKEGSHKAVLGRAGSPSEEEEEEGAKKSKKKILQGRKGRAETSSEASTSESSSSGSDSGSEEEAKQRKAPPSSKASSKEISLLDLDDFTPPPPQPIPSSSIISTSLVTDLEGLTLTDTSLTPTLLSPAFSAVKTYELLHRMAGEGLAVEYCFSRRPFPGDPHMVAVQIQISNNTDTEVKNLRVNEPKPLSGMRIQEFPEIVASLLFQSTWRQGTQPAW

Target ORF information:

RefSeq Version	XM_030281798.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X3, mRNA.

Target ORF information:

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

XM_030281798.1

ORF Insert Sequence:

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CCAGGAGTCT 
TTGCTGGAGG AGAACACTGA GAAGGCTTTC TATGGCTCTG AGGAGGAGGA CGCCAAGGAT 
ACCAAGGCAG AGGCAGCTTC GCTGGCCAAG CGCAAGCCCT ACGTAATGGA CCCTGACCAC 
CGCCTCCTCC TGCGCAACAC CAAGCCCCTG CTGCAGAGCC GCAACGCCGC AGTGGTGATG 
GCTGTGGCAC AGCTCTACTT TCACCTGGCA CCCAAGGCAG AGGTTGGAGT CATTGCCAAG 
GCGCTGGTAC GGCTCCTGCG GAGTCACAGT GAGGTGCAGT ATGTTGTACT ACAGAATGTG 
GCCACCATGT CCATCAAGCG GCGGGGGATG TTTGAGCCCT ATCTGAAAAG TTTCTACATC 
CGCTCCACGG ACCCCACACA GATCAAGATC CTCAAGCTGG AGGTCCTCAC CAACCTGGCC 
AATGAGACCA ACATCTCCAC CATTCTGCGA GAGTTCCAGA CCTACATCCG CAGCATGGAC 
AAGGACTTTG TGGCAGCCAC CATCCAGGCC ATTGGGCGCT GTGCCACCAA CATTGGGAAG 
GTGCGGGATA CCTGCCTCAA TGGCCTGGTG CAGCTCCTCT CCAACAGAGA TGAGCTGGTG 
GTGGCCGAAT CTGTGGTGGT CATCAAAAAG CTACTACAGA TGCAGCCGGC CCAGCACAGT 
GAGATCATCA AGCACATGGC CAAGCTCACT GACAACATCC AGGTGCCAAT GGCACGGGCC 
AGCATCTTGT GGCTCATTGG CGAGTACTGC GAGCACGTGC CCAAGATCGC ACCTGATGTG 
CTGCGCAAGA TGGCCAAGTC CTTCACCAAT GAGGAGGACA TTGTCAAGCT GCAGGTCATC 
AATCTGGCGG CTAAGCTCTA CCTGACCAAC TCCAAGCAGA GCAAGCTGCT GACCCAGTAT 
GTCCTCAACT TGGCCAAGTA TGACCAGAAT TACGACATCC GCGACCGGGC TCGTTTCATC 
CGCCAGCTCA TCGTGCCCAC TGAGAAGAGT GGGGCCCTCA ATAAATATGC CAAGAAGCTC 
TTCCTGGCCC AAAAACCAGC TCCCATATTG GAGTCTTCCT TCAAAGATCG GGACCATTTC 
CAACTGGGCT CCCTGTCCCA TCTGCTCAAC GCTAAGGCTG TGGGCTACCA GGAGCTGCCT 
GACTGGCCGG ATGAGGCCCC TGACCCCTCT GTGAGGAATG TGGAGGTTCC TGAGTGGACC 
AAGTGCACCA GCCGGGAGAA GAGGAAGGAG AAGGTGGAGA AGCCTTTCTA CTCTGACTCA 
GAGGGCGAGT CAGGGCCCAC GGAGTCAGCA GACAGTGAGC CCGAGTCCGG CAGTGAAGAG 
AACAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGAGGAG 
AAGAGGCCAA AGAGGAAGGA CAAGGAAGGT TCCCATAAGG CAGTCTTGGG GAGAGCGGGC 
AGCCCCAGTG AGGAAGAGGA GGAGGAGGGG GCAAAGAAGT CCAAGAAGAA GATCCTGCAG 
GGGAGGAAGG GCCGTGCCGA AACCTCGTCA GAGGCCAGCA CCTCCGAGAG CAGCTCCTCT 
GGCTCCGACT CAGGCTCTGA GGAAGAGGCC AAGCAGAGGA AGGCGCCCCC CAGCAGCAAG 
GCCAGCTCCA AGGAGATCTC CCTGCTTGAC CTGGATGACT TCACTCCACC TCCTCCTCAG 
CCCATCCCCT CCAGCAGCAT CATCTCCACC AGCCTGGTGA CCGACCTGGA AGGCCTCACT 
CTCACCGACA CCTCCCTGAC ACCCACCCTG CTGAGCCCGG CGTTCAGTGC AGTGAAGACC 
TACGAGCTGC TGCACCGCAT GGCAGGCGAG GGGCTTGCGG TTGAGTACTG CTTCAGCCGC 
CGGCCCTTCC CGGGCGACCC CCACATGGTG GCCGTCCAGA TCCAGATCTC CAACAACACT 
GACACCGAGG TGAAGAACCT GCGAGTCAAC GAACCCAAGC CACTATCTGG CATGAGGATA 
CAGGAGTTCC CTGAGATCGT GGCATCCCTG TTGTTCCAGA GCACCTGGCG CCAGGGGACA 
CAGCCAGCGT GGTGA

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

AP3B2 ( XM_002192526.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192562.1 Taeniopygia guttata adaptor-related protein complex 3, beta 2 subunit (AP3B2), mRNA.

Price & Availability↑

CloneID	OTd00716
Clone ID Related Accession (Same CDS sequence)	XM_002192526.3
Accession Version	XM_002192526.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3219bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	AP-3 complex subunit beta-2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002192526.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGTCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGGCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CGAGTCTTTG 
CTGGAGGAGA ACACTGAGAA GGCTTTCTAT GGCTCTGAGG AGGAGGACGC CAAGGATACC 
AAGGCAGAGG CAGCTTCGCT GGCCAAGCGC AAGCCCTACG TAATGGACCC TGACCACCGC 
CTCCTCCTGC GCAACACCAA GCCCCTGCTG CAGAGCCGCA ACGCCGCAGT GGTGATGGCT 
GTGGCACAGC TCTACTTTCA CCTGGCACCC AAGGCAGAGG TTGGAGTCAT TGCCAAGGCG 
CTGGTACGGC TCCTGCGGAG TCACAGTGAG GTGCAGTATG TTGTACTACA GAATGTGGCC 
ACCATGTCCA TCAAGCGGCG GGGGATGTTT GAGCCCTATC TGAAAAGTTT CTACATCCGC 
TCCACGGACC CCACACAGAT CAAGATCCTC AAGCTGGAGG TCCTCACCAA CCTGGCCAAT 
GAGACCAACA TCTCCACCAT TCTGCGAGAG TTCCAGACCT ACATCCGCAG CATGGACAAG 
GACTTTGTGG CAGCCACCAT CCAGGCCATT GGGCGCTGTG CCACCAACAT TGGGAAGGTG 
CGGGATACCT GCCTCAATGG CCTGGTGCAG CTCCTCTCCA ACAGAGATGA GCTGGTGGTG 
GCCGAATCTG TGGTGGTCAT CAAAAAGCTG CTACAGATGC AGCCGGCCCA GCACAGTGAG 
ATCATCAAGC ACATGGCCAA GCTCACTGAC AACATCCAGG TGCCAATGGC ACGGGCCAGC 
ATCTTGTGGC TCATTGGCGA GTACTGCGAG CACGTGCCCA AGATCGCACC TGATGTGCTG 
CGCAAGATGG CCAAGTCCTT CACCAATGAG GAGGACATTG TCAAGCTGCA GGTCATCAAT 
CTGGCGGCTA AGCTCTACCT GACCAACTCC AAGCAGAGCA AGCTGCTGAC CCAGTACGTC 
CTCAACTTGG CCAAGTATGA CCAGAATTAC GACATCCGCG ACCGGGCTCG TTTCATCCGC 
CAGCTCATCG TGCCCACTGA GAAGAGCGGG GCCCTCAATA AATATGCCAA GAAGCTCTTC 
CTGGCCCAAA AACCAGCTCC CATATTGGAG TCTTCCTTCA AAGATCGGGA CCATTTCCAA 
CTGGGCTCCC TGTCCCATCT GCTCAACGCT AAGGCTGTGG GCTACCAGGA GCTGCCTGAC 
TGGCCAGATG AGGCCCCTGA CCCCTCTGTG AGGAATGTGG AGGTTCCTGA GTGGACCAAG 
TGCACCAGCC GGGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTACTC TGACTCAGAG 
GGCGAGTCAG GGCCCACGGA GTCAGCAGAC AGTGAGCCCG AGTCCGGCAG TGAAGAGAAC 
AGCAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGGGGGC 
AAGAAGTCCA AGAAGAAGAT CCTGCAGGGG AGGAAGGGCC GTGCCGAAAC CTCGTCAGAG 
GCCAGCACCT CCGAGAGCAG CTCCTCTGGC TCCGACTCAG GCTCTGAGGA AGAGGCCAAG 
CAGAGGAAGG CGCCCCCCAG CAGCAAGGCC AGCTCCAAGG AGATCTCCCT GCTTGACCTG 
GATGACTTCA CTCCACCTCC TCCTCAGCCC ATCCCCTCCA GCAGCATCAT CTCCACCAGC 
CTGGTGACCG ACCTGGAAGG CCTCACTCTC ACCGACACCT CCCTGACACC GACCCTGCTG 
AGCCCGGCGT TCAGTGCAGT GAAGACCTAC GAGCTGCTGC ACCGCATGGC AGGCGAGGGG 
CTTGCGGTTG AGTACTGCTT CAGCCGCCGG CCCTTCCCGG GCGACCCCCA CATGGTGGCC 
GTCCAGATCC AGATCTCCAA CAACACTGAC ACCGAGGTGA AGAACCTGCG AGTCAACGAA 
CCCAAGCCAC TATCTGGCAT GAGGATACAG GAGTTCCCTG AGATCGAGCA CCTGGCGCCA 
GGGGACACAG CCAGCGTGGT GATGGGCATC GACTTCTGTG ACTCCACCCA GGCAGCAAAC 
TTCCAGCTGT GCACCCACAC GCGCCAGTTC TACGTCTCCA TCCAGCCACC CGTGGGGGAG 
CTCATGGCCC CTGTCTTCAT GAGCGAGAAC GAGTTCAAGA AGGAGCAGGG GAAGCTGATG 
GGCATGAGCG AGATCACAGA GAAGCTGACG CTGCCTGAGA AATGCCGAAG TGACCACACC 
ATCGTCCAGC AAGTGACCTC GGCTGCCAAC GTGGGCCGCG TGCCCTGCGG TGCCAGCAAT 
GAGTACAGGT TCGCGGCCAA GACGGTGACA AGCGGGAGCC TGGTACTCAT CACCCTGGAG 
TGGCGGGAGG GCTCCACGGC CCAGCTGACC ATCAACAGCG AGAAGATGGT CATTGGCACC 
ATGCTGGTGA AGGACATCAT CCAGGCCCTG ACACAGTGA

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

RefSeq	XP_002192562.1
CDS	48..3266
Translation	MAASPAYGEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNQNESLLEENTEKAFYGSEEEDAKDTKAEAASLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMAVAQLYFHLAPKAEVGVIAKALVRLLRSHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGKVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPAQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTNEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALNKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPDEAPDPSVRNVEVPEWTKCTSREKRKEKVEKPFYSDSEGESGPTESADSEPESGSEENSSSSSSSGSSSSGTEEEEEEEEEEDSGEQSEDKEEEEEGGKKSKKKILQGRKGRAETSSEASTSESSSSGSDSGSEEEAKQRKAPPSSKASSKEISLLDLDDFTPPPPQPIPSSSIISTSLVTDLEGLTLTDTSLTPTLLSPAFSAVKTYELLHRMAGEGLAVEYCFSRRPFPGDPHMVAVQIQISNNTDTEVKNLRVNEPKPLSGMRIQEFPEIEHLAPGDTASVVMGIDFCDSTQAANFQLCTHTRQFYVSIQPPVGELMAPVFMSENEFKKEQGKLMGMSEITEKLTLPEKCRSDHTIVQQVTSAANVGRVPCGASNEYRFAAKTVTSGSLVLITLEWREGSTAQLTINSEKMVIGTMLVKDIIQALTQ

Target ORF information:

RefSeq Version	XM_002192526.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata adaptor-related protein complex 3, beta 2 subunit (AP3B2), mRNA.

Target ORF information:

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

XM_002192526.3

ORF Insert Sequence:

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGTCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGGCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CGAGTCTTTG 
CTGGAGGAGA ACACTGAGAA GGCTTTCTAT GGCTCTGAGG AGGAGGACGC CAAGGATACC 
AAGGCAGAGG CAGCTTCGCT GGCCAAGCGC AAGCCCTACG TAATGGACCC TGACCACCGC 
CTCCTCCTGC GCAACACCAA GCCCCTGCTG CAGAGCCGCA ACGCCGCAGT GGTGATGGCT 
GTGGCACAGC TCTACTTTCA CCTGGCACCC AAGGCAGAGG TTGGAGTCAT TGCCAAGGCG 
CTGGTACGGC TCCTGCGGAG TCACAGTGAG GTGCAGTATG TTGTACTACA GAATGTGGCC 
ACCATGTCCA TCAAGCGGCG GGGGATGTTT GAGCCCTATC TGAAAAGTTT CTACATCCGC 
TCCACGGACC CCACACAGAT CAAGATCCTC AAGCTGGAGG TCCTCACCAA CCTGGCCAAT 
GAGACCAACA TCTCCACCAT TCTGCGAGAG TTCCAGACCT ACATCCGCAG CATGGACAAG 
GACTTTGTGG CAGCCACCAT CCAGGCCATT GGGCGCTGTG CCACCAACAT TGGGAAGGTG 
CGGGATACCT GCCTCAATGG CCTGGTGCAG CTCCTCTCCA ACAGAGATGA GCTGGTGGTG 
GCCGAATCTG TGGTGGTCAT CAAAAAGCTG CTACAGATGC AGCCGGCCCA GCACAGTGAG 
ATCATCAAGC ACATGGCCAA GCTCACTGAC AACATCCAGG TGCCAATGGC ACGGGCCAGC 
ATCTTGTGGC TCATTGGCGA GTACTGCGAG CACGTGCCCA AGATCGCACC TGATGTGCTG 
CGCAAGATGG CCAAGTCCTT CACCAATGAG GAGGACATTG TCAAGCTGCA GGTCATCAAT 
CTGGCGGCTA AGCTCTACCT GACCAACTCC AAGCAGAGCA AGCTGCTGAC CCAGTACGTC 
CTCAACTTGG CCAAGTATGA CCAGAATTAC GACATCCGCG ACCGGGCTCG TTTCATCCGC 
CAGCTCATCG TGCCCACTGA GAAGAGCGGG GCCCTCAATA AATATGCCAA GAAGCTCTTC 
CTGGCCCAAA AACCAGCTCC CATATTGGAG TCTTCCTTCA AAGATCGGGA CCATTTCCAA 
CTGGGCTCCC TGTCCCATCT GCTCAACGCT AAGGCTGTGG GCTACCAGGA GCTGCCTGAC 
TGGCCAGATG AGGCCCCTGA CCCCTCTGTG AGGAATGTGG AGGTTCCTGA GTGGACCAAG 
TGCACCAGCC GGGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTACTC TGACTCAGAG 
GGCGAGTCAG GGCCCACGGA GTCAGCAGAC AGTGAGCCCG AGTCCGGCAG TGAAGAGAAC 
AGCAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGGGGGC 
AAGAAGTCCA AGAAGAAGAT CCTGCAGGGG AGGAAGGGCC GTGCCGAAAC CTCGTCAGAG 
GCCAGCACCT CCGAGAGCAG CTCCTCTGGC TCCGACTCAG GCTCTGAGGA AGAGGCCAAG 
CAGAGGAAGG CGCCCCCCAG CAGCAAGGCC AGCTCCAAGG AGATCTCCCT GCTTGACCTG 
GATGACTTCA CTCCACCTCC TCCTCAGCCC ATCCCCTCCA GCAGCATCAT CTCCACCAGC 
CTGGTGACCG ACCTGGAAGG CCTCACTCTC ACCGACACCT CCCTGACACC GACCCTGCTG 
AGCCCGGCGT TCAGTGCAGT GAAGACCTAC GAGCTGCTGC ACCGCATGGC AGGCGAGGGG 
CTTGCGGTTG AGTACTGCTT CAGCCGCCGG CCCTTCCCGG GCGACCCCCA CATGGTGGCC 
GTCCAGATCC AGATCTCCAA CAACACTGAC ACCGAGGTGA AGAACCTGCG AGTCAACGAA 
CCCAAGCCAC TATCTGGCAT GAGGATACAG GAGTTCCCTG AGATCGAGCA CCTGGCGCCA 
GGGGACACAG CCAGCGTGGT GATGGGCATC GACTTCTGTG ACTCCACCCA GGCAGCAAAC 
TTCCAGCTGT GCACCCACAC GCGCCAGTTC TACGTCTCCA TCCAGCCACC CGTGGGGGAG 
CTCATGGCCC CTGTCTTCAT GAGCGAGAAC GAGTTCAAGA AGGAGCAGGG GAAGCTGATG 
GGCATGAGCG AGATCACAGA GAAGCTGACG CTGCCTGAGA AATGCCGAAG TGACCACACC 
ATCGTCCAGC AAGTGACCTC GGCTGCCAAC GTGGGCCGCG TGCCCTGCGG TGCCAGCAAT 
GAGTACAGGT TCGCGGCCAA GACGGTGACA AGCGGGAGCC TGGTACTCAT CACCCTGGAG 
TGGCGGGAGG GCTCCACGGC CCAGCTGACC ATCAACAGCG AGAAGATGGT CATTGGCACC 
ATGCTGGTGA AGGACATCAT CCAGGCCCTG ACACAGTGA

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

AP3B2 ( XM_030281796.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137656.1 Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd26910
Clone ID Related Accession (Same CDS sequence)	XM_030281796.1
Accession Version	XM_030281796.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3312bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
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 (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CCAGGAGTCT 
TTGCTGGAGG AGAACACTGA GAAGGCTTTC TATGGCTCTG AGGAGGAGGA CGCCAAGGAT 
ACCAAGGCAG AGGCAGCTTC GCTGGCCAAG CGCAAGCCCT ACGTAATGGA CCCTGACCAC 
CGCCTCCTCC TGCGCAACAC CAAGCCCCTG CTGCAGAGCC GCAACGCCGC AGTGGTGATG 
GCTGTGGCAC AGCTCTACTT TCACCTGGCA CCCAAGGCAG AGGTTGGAGT CATTGCCAAG 
GCGCTGGTAC GGCTCCTGCG GAGTCACAGT GAGGTGCAGT ATGTTGTACT ACAGAATGTG 
GCCACCATGT CCATCAAGCG GCGGGGGATG TTTGAGCCCT ATCTGAAAAG TTTCTACATC 
CGCTCCACGG ACCCCACACA GATCAAGATC CTCAAGCTGG AGGTCCTCAC CAACCTGGCC 
AATGAGACCA ACATCTCCAC CATTCTGCGA GAGTTCCAGA CCTACATCCG CAGCATGGAC 
AAGGACTTTG TGGCAGCCAC CATCCAGGCC ATTGGGCGCT GTGCCACCAA CATTGGGAAG 
GTGCGGGATA CCTGCCTCAA TGGCCTGGTG CAGCTCCTCT CCAACAGAGA TGAGCTGGTG 
GTGGCCGAAT CTGTGGTGGT CATCAAAAAG CTACTACAGA TGCAGCCGGC CCAGCACAGT 
GAGATCATCA AGCACATGGC CAAGCTCACT GACAACATCC AGGTGCCAAT GGCACGGGCC 
AGCATCTTGT GGCTCATTGG CGAGTACTGC GAGCACGTGC CCAAGATCGC ACCTGATGTG 
CTGCGCAAGA TGGCCAAGTC CTTCACCAAT GAGGAGGACA TTGTCAAGCT GCAGGTCATC 
AATCTGGCGG CTAAGCTCTA CCTGACCAAC TCCAAGCAGA GCAAGCTGCT GACCCAGTAT 
GTCCTCAACT TGGCCAAGTA TGACCAGAAT TACGACATCC GCGACCGGGC TCGTTTCATC 
CGCCAGCTCA TCGTGCCCAC TGAGAAGAGT GGGGCCCTCA ATAAATATGC CAAGAAGCTC 
TTCCTGGCCC AAAAACCAGC TCCCATATTG GAGTCTTCCT TCAAAGATCG GGACCATTTC 
CAACTGGGCT CCCTGTCCCA TCTGCTCAAC GCTAAGGCTG TGGGCTACCA GGAGCTGCCT 
GACTGGCCGG ATGAGGCCCC TGACCCCTCT GTGAGGAATG TGGAGGTTCC TGAGTGGACC 
AAGTGCACCA GCCGGGAGAA GAGGAAGGAG AAGGTGGAGA AGCCTTTCTA CTCTGACTCA 
GAGGGCGAGT CAGGGCCCAC GGAGTCAGCA GACAGTGAGC CCGAGTCCGG CAGTGAAGAG 
AACAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGAGGAG 
AAGAGGCCAA AGAGGAAGGA CAAGGAAGGT TCCCATAAGG CAGTCTTGGG GAGAGCGGGC 
AGCCCCAGTG AGGAAGAGGA GGAGGAGGGG GCAAAGAAGT CCAAGAAGAA GATCCTGCAG 
GGGAGGAAGG GCCGTGCCGA AACCTCGTCA GAGGCCAGCA CCTCCGAGAG CAGCTCCTCT 
GGCTCCGACT CAGGCTCTGA GGAAGAGGCC AAGCAGAGGA AGGCGCCCCC CAGCAGCAAG 
GCCAGCTCCA AGGAGATCTC CCTGCTTGAC CTGGATGACT TCACTCCACC TCCTCCTCAG 
CCCATCCCCT CCAGCAGCAT CATCTCCACC AGCCTGGTGA CCGACCTGGA AGGCCTCACT 
CTCACCGACA CCTCCCTGAC ACCCACCCTG CTGAGCCCGG CGTTCAGTGC AGTGAAGACC 
TACGAGCTGC TGCACCGCAT GGCAGGCGAG GGGCTTGCGG TTGAGTACTG CTTCAGCCGC 
CGGCCCTTCC CGGGCGACCC CCACATGGTG GCCGTCCAGA TCCAGATCTC CAACAACACT 
GACACCGAGG TGAAGAACCT GCGAGTCAAC GAACCCAAGC CACTATCTGG CATGAGGATA 
CAGGAGTTCC CTGAGATCGA GCACCTGGCG CCAGGGGACA CAGCCAGCGT GGTGATGGGC 
ATCGACTTCT GTGACTCCAC CCAGGCAGCA AACTTCCAGC TGTGCACCCA CACGCGCCAG 
TTCTACGTCT CCATCCAGCC ACCCGTGGGG GAGCTCATGG CCCCTGTCTT CATGAGCGAG 
AACGAGTTCA AGAAGGAGCA GGGGAAGCTG ATGGGCATGA GTGAGATCAC AGAGAAGCTG 
ACGCTGCCTG AGAAATGCCG AAGTGACCAC ACCATCGTCC AGCAAGTGAC CTCAGCTGCC 
AACGTGGGCC GCGTGCCCTG CGGTGCCAGC AATGAGTACA GGTTCGCGGC CAAGACGGTG 
ACAAGCGGGA GCCTGGTACT CATCACCCTG GAGTGGCGGG AGGGCTCCAC GGCCCAGCTG 
ACCATCAACA GCGAGAAGAT GGTCATTGGC ACCATGCTGG TGAAGGACAT CATCCAGGCC 
CTGACACAGT GA

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

RefSeq	XP_030137656.1
CDS	64..3375
Translation	MAASPAYGEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNQNQESLLEENTEKAFYGSEEEDAKDTKAEAASLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMAVAQLYFHLAPKAEVGVIAKALVRLLRSHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGKVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPAQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTNEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALNKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPDEAPDPSVRNVEVPEWTKCTSREKRKEKVEKPFYSDSEGESGPTESADSEPESGSEENSSSSSSGSSSSGTEEEEEEEEEEDSGEQSEDKEEEEEEEKRPKRKDKEGSHKAVLGRAGSPSEEEEEEGAKKSKKKILQGRKGRAETSSEASTSESSSSGSDSGSEEEAKQRKAPPSSKASSKEISLLDLDDFTPPPPQPIPSSSIISTSLVTDLEGLTLTDTSLTPTLLSPAFSAVKTYELLHRMAGEGLAVEYCFSRRPFPGDPHMVAVQIQISNNTDTEVKNLRVNEPKPLSGMRIQEFPEIEHLAPGDTASVVMGIDFCDSTQAANFQLCTHTRQFYVSIQPPVGELMAPVFMSENEFKKEQGKLMGMSEITEKLTLPEKCRSDHTIVQQVTSAANVGRVPCGASNEYRFAAKTVTSGSLVLITLEWREGSTAQLTINSEKMVIGTMLVKDIIQALTQ

Target ORF information:

RefSeq Version	XM_030281796.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 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_030281796.1

ORF Insert Sequence:

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CCAGGAGTCT 
TTGCTGGAGG AGAACACTGA GAAGGCTTTC TATGGCTCTG AGGAGGAGGA CGCCAAGGAT 
ACCAAGGCAG AGGCAGCTTC GCTGGCCAAG CGCAAGCCCT ACGTAATGGA CCCTGACCAC 
CGCCTCCTCC TGCGCAACAC CAAGCCCCTG CTGCAGAGCC GCAACGCCGC AGTGGTGATG 
GCTGTGGCAC AGCTCTACTT TCACCTGGCA CCCAAGGCAG AGGTTGGAGT CATTGCCAAG 
GCGCTGGTAC GGCTCCTGCG GAGTCACAGT GAGGTGCAGT ATGTTGTACT ACAGAATGTG 
GCCACCATGT CCATCAAGCG GCGGGGGATG TTTGAGCCCT ATCTGAAAAG TTTCTACATC 
CGCTCCACGG ACCCCACACA GATCAAGATC CTCAAGCTGG AGGTCCTCAC CAACCTGGCC 
AATGAGACCA ACATCTCCAC CATTCTGCGA GAGTTCCAGA CCTACATCCG CAGCATGGAC 
AAGGACTTTG TGGCAGCCAC CATCCAGGCC ATTGGGCGCT GTGCCACCAA CATTGGGAAG 
GTGCGGGATA CCTGCCTCAA TGGCCTGGTG CAGCTCCTCT CCAACAGAGA TGAGCTGGTG 
GTGGCCGAAT CTGTGGTGGT CATCAAAAAG CTACTACAGA TGCAGCCGGC CCAGCACAGT 
GAGATCATCA AGCACATGGC CAAGCTCACT GACAACATCC AGGTGCCAAT GGCACGGGCC 
AGCATCTTGT GGCTCATTGG CGAGTACTGC GAGCACGTGC CCAAGATCGC ACCTGATGTG 
CTGCGCAAGA TGGCCAAGTC CTTCACCAAT GAGGAGGACA TTGTCAAGCT GCAGGTCATC 
AATCTGGCGG CTAAGCTCTA CCTGACCAAC TCCAAGCAGA GCAAGCTGCT GACCCAGTAT 
GTCCTCAACT TGGCCAAGTA TGACCAGAAT TACGACATCC GCGACCGGGC TCGTTTCATC 
CGCCAGCTCA TCGTGCCCAC TGAGAAGAGT GGGGCCCTCA ATAAATATGC CAAGAAGCTC 
TTCCTGGCCC AAAAACCAGC TCCCATATTG GAGTCTTCCT TCAAAGATCG GGACCATTTC 
CAACTGGGCT CCCTGTCCCA TCTGCTCAAC GCTAAGGCTG TGGGCTACCA GGAGCTGCCT 
GACTGGCCGG ATGAGGCCCC TGACCCCTCT GTGAGGAATG TGGAGGTTCC TGAGTGGACC 
AAGTGCACCA GCCGGGAGAA GAGGAAGGAG AAGGTGGAGA AGCCTTTCTA CTCTGACTCA 
GAGGGCGAGT CAGGGCCCAC GGAGTCAGCA GACAGTGAGC CCGAGTCCGG CAGTGAAGAG 
AACAGCAGCA GCAGCAGCTC TGGCAGCTCC AGCTCTGGCA CCGAGGAGGA GGAGGAGGAA 
GAGGAGGAGG AAGACAGTGG GGAGCAGTCA GAGGACAAGG AGGAGGAGGA GGAGGAGGAG 
AAGAGGCCAA AGAGGAAGGA CAAGGAAGGT TCCCATAAGG CAGTCTTGGG GAGAGCGGGC 
AGCCCCAGTG AGGAAGAGGA GGAGGAGGGG GCAAAGAAGT CCAAGAAGAA GATCCTGCAG 
GGGAGGAAGG GCCGTGCCGA AACCTCGTCA GAGGCCAGCA CCTCCGAGAG CAGCTCCTCT 
GGCTCCGACT CAGGCTCTGA GGAAGAGGCC AAGCAGAGGA AGGCGCCCCC CAGCAGCAAG 
GCCAGCTCCA AGGAGATCTC CCTGCTTGAC CTGGATGACT TCACTCCACC TCCTCCTCAG 
CCCATCCCCT CCAGCAGCAT CATCTCCACC AGCCTGGTGA CCGACCTGGA AGGCCTCACT 
CTCACCGACA CCTCCCTGAC ACCCACCCTG CTGAGCCCGG CGTTCAGTGC AGTGAAGACC 
TACGAGCTGC TGCACCGCAT GGCAGGCGAG GGGCTTGCGG TTGAGTACTG CTTCAGCCGC 
CGGCCCTTCC CGGGCGACCC CCACATGGTG GCCGTCCAGA TCCAGATCTC CAACAACACT 
GACACCGAGG TGAAGAACCT GCGAGTCAAC GAACCCAAGC CACTATCTGG CATGAGGATA 
CAGGAGTTCC CTGAGATCGA GCACCTGGCG CCAGGGGACA CAGCCAGCGT GGTGATGGGC 
ATCGACTTCT GTGACTCCAC CCAGGCAGCA AACTTCCAGC TGTGCACCCA CACGCGCCAG 
TTCTACGTCT CCATCCAGCC ACCCGTGGGG GAGCTCATGG CCCCTGTCTT CATGAGCGAG 
AACGAGTTCA AGAAGGAGCA GGGGAAGCTG ATGGGCATGA GTGAGATCAC AGAGAAGCTG 
ACGCTGCCTG AGAAATGCCG AAGTGACCAC ACCATCGTCC AGCAAGTGAC CTCAGCTGCC 
AACGTGGGCC GCGTGCCCTG CGGTGCCAGC AATGAGTACA GGTTCGCGGC CAAGACGGTG 
ACAAGCGGGA GCCTGGTACT CATCACCCTG GAGTGGCGGG AGGGCTCCAC GGCCCAGCTG 
ACCATCAACA GCGAGAAGAT GGTCATTGGC ACCATGCTGG TGAAGGACAT CATCCAGGCC 
CTGACACAGT GA

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

AP3B2 ( XM_030281797.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137657.1 Taeniopygia guttata adaptor related protein complex 3 subunit beta 2 (AP3B2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd26911
Clone ID Related Accession (Same CDS sequence)	XM_030281797.1
Accession Version	XM_030281797.1 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
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 (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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##

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CGAGTCTTTG 
CTGGAGGAGA ACACTGAGAA GGCTTTCTAT GGCTCTGAGG AGGAGGACGC CAAGGATACC 
AAGGCAGAGG CAGCTTCGCT GGCCAAGCGC AAGCCCTACG TAATGGACCC TGACCACCGC 
CTCCTCCTGC GCAACACCAA GCCCCTGCTG CAGAGCCGCA ACGCCGCAGT GGTGATGGCT 
GTGGCACAGC TCTACTTTCA CCTGGCACCC AAGGCAGAGG TTGGAGTCAT TGCCAAGGCG 
CTGGTACGGC TCCTGCGGAG TCACAGTGAG GTGCAGTATG TTGTACTACA GAATGTGGCC 
ACCATGTCCA TCAAGCGGCG GGGGATGTTT GAGCCCTATC TGAAAAGTTT CTACATCCGC 
TCCACGGACC CCACACAGAT CAAGATCCTC AAGCTGGAGG TCCTCACCAA CCTGGCCAAT 
GAGACCAACA TCTCCACCAT TCTGCGAGAG TTCCAGACCT ACATCCGCAG CATGGACAAG 
GACTTTGTGG CAGCCACCAT CCAGGCCATT GGGCGCTGTG CCACCAACAT TGGGAAGGTG 
CGGGATACCT GCCTCAATGG CCTGGTGCAG CTCCTCTCCA ACAGAGATGA GCTGGTGGTG 
GCCGAATCTG TGGTGGTCAT CAAAAAGCTA CTACAGATGC AGCCGGCCCA GCACAGTGAG 
ATCATCAAGC ACATGGCCAA GCTCACTGAC AACATCCAGG TGCCAATGGC ACGGGCCAGC 
ATCTTGTGGC TCATTGGCGA GTACTGCGAG CACGTGCCCA AGATCGCACC TGATGTGCTG 
CGCAAGATGG CCAAGTCCTT CACCAATGAG GAGGACATTG TCAAGCTGCA GGTCATCAAT 
CTGGCGGCTA AGCTCTACCT GACCAACTCC AAGCAGAGCA AGCTGCTGAC CCAGTATGTC 
CTCAACTTGG CCAAGTATGA CCAGAATTAC GACATCCGCG ACCGGGCTCG TTTCATCCGC 
CAGCTCATCG TGCCCACTGA GAAGAGTGGG GCCCTCAATA AATATGCCAA GAAGCTCTTC 
CTGGCCCAAA AACCAGCTCC CATATTGGAG TCTTCCTTCA AAGATCGGGA CCATTTCCAA 
CTGGGCTCCC TGTCCCATCT GCTCAACGCT AAGGCTGTGG GCTACCAGGA GCTGCCTGAC 
TGGCCGGATG AGGCCCCTGA CCCCTCTGTG AGGAATGTGG AGGTTCCTGA GTGGACCAAG 
TGCACCAGCC GGGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTACTC TGACTCAGAG 
GGCGAGTCAG GGCCCACGGA GTCAGCAGAC AGTGAGCCCG AGTCCGGCAG TGAAGAGAAC 
AGCAGCAGCA GCAGCTCTGG CAGCTCCAGC TCTGGCACCG AGGAGGAGGA GGAGGAAGAG 
GAGGAGGAAG ACAGTGGGGA GCAGTCAGAG GACAAGGAGG AGGAGGAGGA GGAGGAGAAG 
AGGCCAAAGA GGAAGGACAA GGAAGGTTCC CATAAGGCAG TCTTGGGGAG AGCGGGCAGC 
CCCAGTGAGG AAGAGGAGGA GGAGGGGGCA AAGAAGTCCA AGAAGAAGAT CCTGCAGGGG 
AGGAAGGGCC GTGCCGAAAC CTCGTCAGAG GCCAGCACCT CCGAGAGCAG CTCCTCTGGC 
TCCGACTCAG GCTCTGAGGA AGAGGCCAAG CAGAGGAAGG CGCCCCCCAG CAGCAAGGCC 
AGCTCCAAGG AGATCTCCCT GCTTGACCTG GATGACTTCA CTCCACCTCC TCCTCAGCCC 
ATCCCCTCCA GCAGCATCAT CTCCACCAGC CTGGTGACCG ACCTGGAAGG CCTCACTCTC 
ACCGACACCT CCCTGACACC CACCCTGCTG AGCCCGGCGT TCAGTGCAGT GAAGACCTAC 
GAGCTGCTGC ACCGCATGGC AGGCGAGGGG CTTGCGGTTG AGTACTGCTT CAGCCGCCGG 
CCCTTCCCGG GCGACCCCCA CATGGTGGCC GTCCAGATCC AGATCTCCAA CAACACTGAC 
ACCGAGGTGA AGAACCTGCG AGTCAACGAA CCCAAGCCAC TATCTGGCAT GAGGATACAG 
GAGTTCCCTG AGATCGAGCA CCTGGCGCCA GGGGACACAG CCAGCGTGGT GATGGGCATC 
GACTTCTGTG ACTCCACCCA GGCAGCAAAC TTCCAGCTGT GCACCCACAC GCGCCAGTTC 
TACGTCTCCA TCCAGCCACC CGTGGGGGAG CTCATGGCCC CTGTCTTCAT GAGCGAGAAC 
GAGTTCAAGA AGGAGCAGGG GAAGCTGATG GGCATGAGTG AGATCACAGA GAAGCTGACG 
CTGCCTGAGA AATGCCGAAG TGACCACACC ATCGTCCAGC AAGTGACCTC AGCTGCCAAC 
GTGGGCCGCG TGCCCTGCGG TGCCAGCAAT GAGTACAGGT TCGCGGCCAA GACGGTGACA 
AGCGGGAGCC TGGTACTCAT CACCCTGGAG TGGCGGGAGG GCTCCACGGC CCAGCTGACC 
ATCAACAGCG AGAAGATGGT CATTGGCACC ATGCTGGTGA AGGACATCAT CCAGGCCCTG 
ACACAGTGA

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

RefSeq	XP_030137657.1
CDS	64..3372
Translation	MAASPAYGEEKGGSSSLGEPEYGHDPASGGIFSSDYKRHDDLKEMLDSNKDSLKLEAMKRIVAMIARGKNASDLFPAVVKNVACKNIEVKKLVYVYLVRYAEEQQDLALLSISTFQRGLKDPNQLIRASALRVLSSIRVPIIVPIMMLAIKEAASDMSPYVRKTAAHAIPKLYSLDSDQKDQLIEVIEKLLADKTTLVAGSVVMAFEEVCPERIDLIHKNYRKLCNLLIDVEEWGQVVIINMLTRYARTQFLSPNQNESLLEENTEKAFYGSEEEDAKDTKAEAASLAKRKPYVMDPDHRLLLRNTKPLLQSRNAAVVMAVAQLYFHLAPKAEVGVIAKALVRLLRSHSEVQYVVLQNVATMSIKRRGMFEPYLKSFYIRSTDPTQIKILKLEVLTNLANETNISTILREFQTYIRSMDKDFVAATIQAIGRCATNIGKVRDTCLNGLVQLLSNRDELVVAESVVVIKKLLQMQPAQHSEIIKHMAKLTDNIQVPMARASILWLIGEYCEHVPKIAPDVLRKMAKSFTNEEDIVKLQVINLAAKLYLTNSKQSKLLTQYVLNLAKYDQNYDIRDRARFIRQLIVPTEKSGALNKYAKKLFLAQKPAPILESSFKDRDHFQLGSLSHLLNAKAVGYQELPDWPDEAPDPSVRNVEVPEWTKCTSREKRKEKVEKPFYSDSEGESGPTESADSEPESGSEENSSSSSSGSSSSGTEEEEEEEEEEDSGEQSEDKEEEEEEEKRPKRKDKEGSHKAVLGRAGSPSEEEEEEGAKKSKKKILQGRKGRAETSSEASTSESSSSGSDSGSEEEAKQRKAPPSSKASSKEISLLDLDDFTPPPPQPIPSSSIISTSLVTDLEGLTLTDTSLTPTLLSPAFSAVKTYELLHRMAGEGLAVEYCFSRRPFPGDPHMVAVQIQISNNTDTEVKNLRVNEPKPLSGMRIQEFPEIEHLAPGDTASVVMGIDFCDSTQAANFQLCTHTRQFYVSIQPPVGELMAPVFMSENEFKKEQGKLMGMSEITEKLTLPEKCRSDHTIVQQVTSAANVGRVPCGASNEYRFAAKTVTSGSLVLITLEWREGSTAQLTINSEKMVIGTMLVKDIIQALTQ

Target ORF information:

RefSeq Version	XM_030281797.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 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_030281797.1

ORF Insert Sequence:

ATGGCCGCCA GCCCGGCCTA CGGCGAGGAG AAGGGCGGCT CCTCCAGCCT GGGCGAGCCC 
GAGTACGGCC ATGACCCCGC CAGCGGCGGC ATCTTCTCCT CCGACTACAA GAGGCATGAT 
GACCTCAAGG AGATGCTCGA CAGCAACAAG GATTCACTCA AGCTGGAGGC CATGAAGAGG 
ATTGTGGCGA TGATTGCCCG TGGTAAAAAC GCCTCCGATC TCTTCCCAGC TGTGGTGAAA 
AATGTTGCCT GCAAGAACAT TGAGGTGAAG AAGCTGGTGT ACGTGTACCT GGTGCGCTAC 
GCAGAGGAGC AACAGGATCT GGCCCTGCTC TCCATCTCCA CCTTCCAGCG AGGACTCAAG 
GACCCCAACC AGCTGATCCG CGCCAGTGCC CTGCGGGTCC TGTCCAGCAT CCGCGTGCCC 
ATAATCGTGC CCATCATGAT GCTGGCCATC AAGGAGGCAG CCTCGGACAT GTCCCCGTAT 
GTGCGCAAGA CAGCTGCCCA TGCCATCCCC AAGCTGTACA GCCTTGACTC AGACCAGAAG 
GACCAGCTCA TTGAAGTGAT TGAGAAGCTG CTGGCGGACA AAACCACGCT GGTGGCTGGC 
AGCGTGGTGA TGGCATTCGA GGAGGTTTGC CCAGAGCGCA TAGACCTCAT CCACAAGAAC 
TACCGCAAGC TCTGCAACCT GCTCATCGAT GTGGAGGAGT GGGGCCAGGT GGTCATCATC 
AACATGCTGA CCCGCTATGC CCGCACCCAG TTCCTCAGCC CCAACCAGAA CGAGTCTTTG 
CTGGAGGAGA ACACTGAGAA GGCTTTCTAT GGCTCTGAGG AGGAGGACGC CAAGGATACC 
AAGGCAGAGG CAGCTTCGCT GGCCAAGCGC AAGCCCTACG TAATGGACCC TGACCACCGC 
CTCCTCCTGC GCAACACCAA GCCCCTGCTG CAGAGCCGCA ACGCCGCAGT GGTGATGGCT 
GTGGCACAGC TCTACTTTCA CCTGGCACCC AAGGCAGAGG TTGGAGTCAT TGCCAAGGCG 
CTGGTACGGC TCCTGCGGAG TCACAGTGAG GTGCAGTATG TTGTACTACA GAATGTGGCC 
ACCATGTCCA TCAAGCGGCG GGGGATGTTT GAGCCCTATC TGAAAAGTTT CTACATCCGC 
TCCACGGACC CCACACAGAT CAAGATCCTC AAGCTGGAGG TCCTCACCAA CCTGGCCAAT 
GAGACCAACA TCTCCACCAT TCTGCGAGAG TTCCAGACCT ACATCCGCAG CATGGACAAG 
GACTTTGTGG CAGCCACCAT CCAGGCCATT GGGCGCTGTG CCACCAACAT TGGGAAGGTG 
CGGGATACCT GCCTCAATGG CCTGGTGCAG CTCCTCTCCA ACAGAGATGA GCTGGTGGTG 
GCCGAATCTG TGGTGGTCAT CAAAAAGCTA CTACAGATGC AGCCGGCCCA GCACAGTGAG 
ATCATCAAGC ACATGGCCAA GCTCACTGAC AACATCCAGG TGCCAATGGC ACGGGCCAGC 
ATCTTGTGGC TCATTGGCGA GTACTGCGAG CACGTGCCCA AGATCGCACC TGATGTGCTG 
CGCAAGATGG CCAAGTCCTT CACCAATGAG GAGGACATTG TCAAGCTGCA GGTCATCAAT 
CTGGCGGCTA AGCTCTACCT GACCAACTCC AAGCAGAGCA AGCTGCTGAC CCAGTATGTC 
CTCAACTTGG CCAAGTATGA CCAGAATTAC GACATCCGCG ACCGGGCTCG TTTCATCCGC 
CAGCTCATCG TGCCCACTGA GAAGAGTGGG GCCCTCAATA AATATGCCAA GAAGCTCTTC 
CTGGCCCAAA AACCAGCTCC CATATTGGAG TCTTCCTTCA AAGATCGGGA CCATTTCCAA 
CTGGGCTCCC TGTCCCATCT GCTCAACGCT AAGGCTGTGG GCTACCAGGA GCTGCCTGAC 
TGGCCGGATG AGGCCCCTGA CCCCTCTGTG AGGAATGTGG AGGTTCCTGA GTGGACCAAG 
TGCACCAGCC GGGAGAAGAG GAAGGAGAAG GTGGAGAAGC CTTTCTACTC TGACTCAGAG 
GGCGAGTCAG GGCCCACGGA GTCAGCAGAC AGTGAGCCCG AGTCCGGCAG TGAAGAGAAC 
AGCAGCAGCA GCAGCTCTGG CAGCTCCAGC TCTGGCACCG AGGAGGAGGA GGAGGAAGAG 
GAGGAGGAAG ACAGTGGGGA GCAGTCAGAG GACAAGGAGG AGGAGGAGGA GGAGGAGAAG 
AGGCCAAAGA GGAAGGACAA GGAAGGTTCC CATAAGGCAG TCTTGGGGAG AGCGGGCAGC 
CCCAGTGAGG AAGAGGAGGA GGAGGGGGCA AAGAAGTCCA AGAAGAAGAT CCTGCAGGGG 
AGGAAGGGCC GTGCCGAAAC CTCGTCAGAG GCCAGCACCT CCGAGAGCAG CTCCTCTGGC 
TCCGACTCAG GCTCTGAGGA AGAGGCCAAG CAGAGGAAGG CGCCCCCCAG CAGCAAGGCC 
AGCTCCAAGG AGATCTCCCT GCTTGACCTG GATGACTTCA CTCCACCTCC TCCTCAGCCC 
ATCCCCTCCA GCAGCATCAT CTCCACCAGC CTGGTGACCG ACCTGGAAGG CCTCACTCTC 
ACCGACACCT CCCTGACACC CACCCTGCTG AGCCCGGCGT TCAGTGCAGT GAAGACCTAC 
GAGCTGCTGC ACCGCATGGC AGGCGAGGGG CTTGCGGTTG AGTACTGCTT CAGCCGCCGG 
CCCTTCCCGG GCGACCCCCA CATGGTGGCC GTCCAGATCC AGATCTCCAA CAACACTGAC 
ACCGAGGTGA AGAACCTGCG AGTCAACGAA CCCAAGCCAC TATCTGGCAT GAGGATACAG 
GAGTTCCCTG AGATCGAGCA CCTGGCGCCA GGGGACACAG CCAGCGTGGT GATGGGCATC 
GACTTCTGTG ACTCCACCCA GGCAGCAAAC TTCCAGCTGT GCACCCACAC GCGCCAGTTC 
TACGTCTCCA TCCAGCCACC CGTGGGGGAG CTCATGGCCC CTGTCTTCAT GAGCGAGAAC 
GAGTTCAAGA AGGAGCAGGG GAAGCTGATG GGCATGAGTG AGATCACAGA GAAGCTGACG 
CTGCCTGAGA AATGCCGAAG TGACCACACC ATCGTCCAGC AAGTGACCTC AGCTGCCAAC 
GTGGGCCGCG TGCCCTGCGG TGCCAGCAAT GAGTACAGGT TCGCGGCCAA GACGGTGACA 
AGCGGGAGCC TGGTACTCAT CACCCTGGAG TGGCGGGAGG GCTCCACGGC CCAGCTGACC 
ATCAACAGCG AGAAGATGGT CATTGGCACC ATGCTGGTGA AGGACATCAT CCAGGCCCTG 
ACACAGTGA

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

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AP3B2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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