CTNND1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	CTNND1
Entrez Gene ID	100226746
Full Name	catenin delta 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030273678.1	XP_030129538.1	catenin delta-1 isoform X2
XM_030273680.1	XP_030129540.1	catenin delta-1 isoform X4
XM_030273679.1	XP_030129539.1	catenin delta-1 isoform X3
XM_030273682.1	XP_030129542.1	catenin delta-1 isoform X6
XM_030273681.1	XP_030129541.1	catenin delta-1 isoform X5
XM_030273677.1	XP_030129537.1	catenin delta-1 isoform X1
XM_002196532.3	XP_002196568.2	catenin delta-1
XM_030273676.1	XP_030129536.1	catenin delta-1 isoform X1

Pathways from BioSystems
Gene Ontology

The following CTNND1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CTNND1 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)
OTd09983	XM_002196532.3 Latest version!	Taeniopygia guttata catenin (cadherin-associated protein), delta 1 (CTNND1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46518	XM_030273676.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46518	XM_030273677.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46519	XM_030273678.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46520	XM_030273679.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46521	XM_030273680.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46522	XM_030273681.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd46523	XM_030273682.1 Latest version!	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
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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)

CTNND1 ( XM_002196532.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002196568.2 Taeniopygia guttata catenin (cadherin-associated protein), delta 1 (CTNND1), mRNA.

Price & Availability↑

CloneID	OTd09983
Clone ID Related Accession (Same CDS sequence)	XM_002196532.3
Accession Version	XM_002196532.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2799bp) 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	catenin delta-1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198757.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002196532.2. ##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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TACGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGCCTG 
GATGCCGTCA AGTCCAACGC GGCTGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGC ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGCGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCTCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA CGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCCGACA CGGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGCG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCAGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC CGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCATCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTG 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG AAGATCTAG

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

RefSeq	XP_002196568.2
CDS	240..3038
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQKI

Target ORF information:

RefSeq Version	XM_002196532.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin (cadherin-associated protein), delta 1 (CTNND1), mRNA.

Target ORF information:

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

XM_002196532.3

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TACGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGCCTG 
GATGCCGTCA AGTCCAACGC GGCTGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGC ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGCGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCTCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA CGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCCGACA CGGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGCG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCAGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC CGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCATCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTG 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG AAGATCTAG

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

CTNND1 ( XM_030273677.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129537.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd46518
Clone ID Related Accession (Same CDS sequence)	XM_030273677.1 , XM_030273676.1
Accession Version	XM_030273677.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2922bp) 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	catenin delta-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG GAGGAGGAGG AGGAGGGGCA GGAGTCGCAG 
CCTGAGGTAG AGGAGGCGCA GCCTGAGGTA GAGGAGGCGG AGGAAGATGG TGCTGTGCCC 
TCCCCCATGT CGGTATGTCC CACGGTGTCC TGCCCAATCT GA

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

RefSeq	XP_030129537.1
CDS	367..3288
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQEEEEEGQESQPEVEEAQPEVEEAEEDGAVPSPMSVCPTVSCPI

Target ORF information:

RefSeq Version	XM_030273677.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030273677.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG GAGGAGGAGG AGGAGGGGCA GGAGTCGCAG 
CCTGAGGTAG AGGAGGCGCA GCCTGAGGTA GAGGAGGCGG AGGAAGATGG TGCTGTGCCC 
TCCCCCATGT CGGTATGTCC CACGGTGTCC TGCCCAATCT GA

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

CTNND1 ( XM_030273676.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129536.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd46518
Clone ID Related Accession (Same CDS sequence)	XM_030273677.1 , XM_030273676.1
Accession Version	XM_030273676.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2922bp) 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	catenin delta-1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG GAGGAGGAGG AGGAGGGGCA GGAGTCGCAG 
CCTGAGGTAG AGGAGGCGCA GCCTGAGGTA GAGGAGGCGG AGGAAGATGG TGCTGTGCCC 
TCCCCCATGT CGGTATGTCC CACGGTGTCC TGCCCAATCT GA

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

RefSeq	XP_030129536.1
CDS	336..3257
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQEEEEEGQESQPEVEEAQPEVEEAEEDGAVPSPMSVCPTVSCPI

Target ORF information:

RefSeq Version	XM_030273676.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X1, mRNA.

Target ORF information:

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

XM_030273676.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG GAGGAGGAGG AGGAGGGGCA GGAGTCGCAG 
CCTGAGGTAG AGGAGGCGCA GCCTGAGGTA GAGGAGGCGG AGGAAGATGG TGCTGTGCCC 
TCCCCCATGT CGGTATGTCC CACGGTGTCC TGCCCAATCT GA

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

CTNND1 ( XM_030273678.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129538.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd46519
Clone ID Related Accession (Same CDS sequence)	XM_030273678.1
Accession Version	XM_030273678.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2904bp) 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	catenin delta-1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGG TAAAAAGCTC CCAGAAGACC CTGGTGCTGA CACAGTGGAT 
TTTCCCAAAA GAACTACTCC AGCCAAAGGC TACGAGCTCC TCTTCCAGCC AGAAGTGGTG 
CGGATATACA TCTCCCTCCT GAAGGAAAGC AAGACTCCAG CCATCCTGGA GGCTTCAGCA 
GGAGCCATCC AGAACCTGTG TGCTGGCAGC TGGACGTACG GCCGGTGCAT CCGCTCGGCC 
CTGCGCCAGG AGAAGGGGCT CTCCGCCATC GCTGACCTCC TGACGCACGA CAGCGAGCGC 
GTGGTGAAAG CGGCCTCCGG GGCCCTGCGC AACCTGGCCG TGGACCTGCG CAACAAGGAG 
CTGATTGGCA AACATGCCAT CCCCAACCTC GTAAAGAACC TGCCTGGAGG CCAGCAGACC 
CCTGCCAAAA ACCTCTCTGA GGACACAGTG GTGTCAATCC TCAACACCAT CAATGAAGTG 
ATCGTGGACA ACCTTGAGGC GGCCAAAAAG CTCCGGGAAA CGCAGGGGAT CGAGAAGCTT 
GTGCTGATCA ACAAATCTGG GAACCGCTCA GAGAGAGAAG TCCGGGCAGC CGCCCTCGTC 
TTGCAGACAG TCTGGGGCTA TAAGGAGCTG CGGAAGCCCC TTGAGAAGGA AGGCTGGAAG 
AAGTCAGATT TCCAGGTGAA CCTGAGCAAT GCCTCTCGGA CCCAGGGAGG CAACTCCTTT 
GATGACAGCA CCTTGCCTCT CATCGACAGG AACCAAAAAA CAGACAAGAA ATCCTCCCGG 
GAAGAGATCC AGATGAGCAA CATGGGACCA GACAACTATT CCACACTCAA CGAGAGGGAC 
CACGGCAGGA CACTGGACCG ATCCGGTGAC CTTGGAGAGA TGGAGCCGGT GAAGGCAGCG 
CCGTTGATGC AGGAGGAGGA GGAGGAGGGG CAGGAGTCGC AGCCTGAGGT AGAGGAGGCG 
CAGCCTGAGG TAGAGGAGGC GGAGGAAGAT GGTGCTGTGC CCTCCCCCAT GTCGGTATGT 
CCCACGGTGT CCTGCCCAAT CTGA

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

RefSeq	XP_030129538.1
CDS	337..3240
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQEEEEEGQESQPEVEEAQPEVEEAEEDGAVPSPMSVCPTVSCPI

Target ORF information:

RefSeq Version	XM_030273678.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X3, mRNA.

Target ORF information:

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

XM_030273678.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGG TAAAAAGCTC CCAGAAGACC CTGGTGCTGA CACAGTGGAT 
TTTCCCAAAA GAACTACTCC AGCCAAAGGC TACGAGCTCC TCTTCCAGCC AGAAGTGGTG 
CGGATATACA TCTCCCTCCT GAAGGAAAGC AAGACTCCAG CCATCCTGGA GGCTTCAGCA 
GGAGCCATCC AGAACCTGTG TGCTGGCAGC TGGACGTACG GCCGGTGCAT CCGCTCGGCC 
CTGCGCCAGG AGAAGGGGCT CTCCGCCATC GCTGACCTCC TGACGCACGA CAGCGAGCGC 
GTGGTGAAAG CGGCCTCCGG GGCCCTGCGC AACCTGGCCG TGGACCTGCG CAACAAGGAG 
CTGATTGGCA AACATGCCAT CCCCAACCTC GTAAAGAACC TGCCTGGAGG CCAGCAGACC 
CCTGCCAAAA ACCTCTCTGA GGACACAGTG GTGTCAATCC TCAACACCAT CAATGAAGTG 
ATCGTGGACA ACCTTGAGGC GGCCAAAAAG CTCCGGGAAA CGCAGGGGAT CGAGAAGCTT 
GTGCTGATCA ACAAATCTGG GAACCGCTCA GAGAGAGAAG TCCGGGCAGC CGCCCTCGTC 
TTGCAGACAG TCTGGGGCTA TAAGGAGCTG CGGAAGCCCC TTGAGAAGGA AGGCTGGAAG 
AAGTCAGATT TCCAGGTGAA CCTGAGCAAT GCCTCTCGGA CCCAGGGAGG CAACTCCTTT 
GATGACAGCA CCTTGCCTCT CATCGACAGG AACCAAAAAA CAGACAAGAA ATCCTCCCGG 
GAAGAGATCC AGATGAGCAA CATGGGACCA GACAACTATT CCACACTCAA CGAGAGGGAC 
CACGGCAGGA CACTGGACCG ATCCGGTGAC CTTGGAGAGA TGGAGCCGGT GAAGGCAGCG 
CCGTTGATGC AGGAGGAGGA GGAGGAGGGG CAGGAGTCGC AGCCTGAGGT AGAGGAGGCG 
CAGCCTGAGG TAGAGGAGGC GGAGGAAGAT GGTGCTGTGC CCTCCCCCAT GTCGGTATGT 
CCCACGGTGT CCTGCCCAAT CTGA

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

CTNND1 ( XM_030273679.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129539.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd46520
Clone ID Related Accession (Same CDS sequence)	XM_030273679.1
Accession Version	XM_030273679.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2799bp) 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	catenin delta-1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG AAGATCTAG

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

RefSeq	XP_030129539.1
CDS	336..3134
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQKI

Target ORF information:

RefSeq Version	XM_030273679.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X4, mRNA.

Target ORF information:

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

XM_030273679.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGCAG AAGATCTAG

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

CTNND1 ( XM_030273680.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129540.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OTd46521
Clone ID Related Accession (Same CDS sequence)	XM_030273680.1
Accession Version	XM_030273680.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2796bp) 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	catenin delta-1 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGAAG ATCTAG

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

RefSeq	XP_030129540.1
CDS	336..3131
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMKI

Target ORF information:

RefSeq Version	XM_030273680.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X5, mRNA.

Target ORF information:

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

XM_030273680.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGA CGAGTGGTTC TCCAGAGGTA AAAAGCTCCC AGAAGACCCT 
GGTGCTGACA CAGTGGATTT TCCCAAAAGA ACTACTCCAG CCAAAGGCTA CGAGCTCCTC 
TTCCAGCCAG AAGTGGTGCG GATATACATC TCCCTCCTGA AGGAAAGCAA GACTCCAGCC 
ATCCTGGAGG CTTCAGCAGG AGCCATCCAG AACCTGTGTG CTGGCAGCTG GACGTACGGC 
CGGTGCATCC GCTCGGCCCT GCGCCAGGAG AAGGGGCTCT CCGCCATCGC TGACCTCCTG 
ACGCACGACA GCGAGCGCGT GGTGAAAGCG GCCTCCGGGG CCCTGCGCAA CCTGGCCGTG 
GACCTGCGCA ACAAGGAGCT GATTGGCAAA CATGCCATCC CCAACCTCGT AAAGAACCTG 
CCTGGAGGCC AGCAGACCCC TGCCAAAAAC CTCTCTGAGG ACACAGTGGT GTCAATCCTC 
AACACCATCA ATGAAGTGAT CGTGGACAAC CTTGAGGCGG CCAAAAAGCT CCGGGAAACG 
CAGGGGATCG AGAAGCTTGT GCTGATCAAC AAATCTGGGA ACCGCTCAGA GAGAGAAGTC 
CGGGCAGCCG CCCTCGTCTT GCAGACAGTC TGGGGCTATA AGGAGCTGCG GAAGCCCCTT 
GAGAAGGAAG GCTGGAAGAA GTCAGATTTC CAGGTGAACC TGAGCAATGC CTCTCGGACC 
CAGGGAGGCA ACTCCTTTGA TGACAGCACC TTGCCTCTCA TCGACAGGAA CCAAAAAACA 
GACAAGAAAT CCTCCCGGGA AGAGATCCAG ATGAGCAACA TGGGACCAGA CAACTATTCC 
ACACTCAACG AGAGGGACCA CGGCAGGACA CTGGACCGAT CCGGTGACCT TGGAGAGATG 
GAGCCGGTGA AGGCAGCGCC GTTGATGAAG ATCTAG

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

CTNND1 ( XM_030273681.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129541.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OTd46522
Clone ID Related Accession (Same CDS sequence)	XM_030273681.1
Accession Version	XM_030273681.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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	catenin delta-1 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by mRNA and 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##

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGG TAAAAAGCTC CCAGAAGACC CTGGTGCTGA CACAGTGGAT 
TTTCCCAAAA GAACTACTCC AGCCAAAGGC TACGAGCTCC TCTTCCAGCC AGAAGTGGTG 
CGGATATACA TCTCCCTCCT GAAGGAAAGC AAGACTCCAG CCATCCTGGA GGCTTCAGCA 
GGAGCCATCC AGAACCTGTG TGCTGGCAGC TGGACGTACG GCCGGTGCAT CCGCTCGGCC 
CTGCGCCAGG AGAAGGGGCT CTCCGCCATC GCTGACCTCC TGACGCACGA CAGCGAGCGC 
GTGGTGAAAG CGGCCTCCGG GGCCCTGCGC AACCTGGCCG TGGACCTGCG CAACAAGGAG 
CTGATTGGCA AACATGCCAT CCCCAACCTC GTAAAGAACC TGCCTGGAGG CCAGCAGACC 
CCTGCCAAAA ACCTCTCTGA GGACACAGTG GTGTCAATCC TCAACACCAT CAATGAAGTG 
ATCGTGGACA ACCTTGAGGC GGCCAAAAAG CTCCGGGAAA CGCAGGGGAT CGAGAAGCTT 
GTGCTGATCA ACAAATCTGG GAACCGCTCA GAGAGAGAAG TCCGGGCAGC CGCCCTCGTC 
TTGCAGACAG TCTGGGGCTA TAAGGAGCTG CGGAAGCCCC TTGAGAAGGA AGGCTGGAAG 
AAGTCAGATT TCCAGGTGAA CCTGAGCAAT GCCTCTCGGA CCCAGGGAGG CAACTCCTTT 
GATGACAGCA CCTTGCCTCT CATCGACAGG AACCAAAAAA CAGACAAGAA ATCCTCCCGG 
GAAGAGATCC AGATGAGCAA CATGGGACCA GACAACTATT CCACACTCAA CGAGAGGGAC 
CACGGCAGGA CACTGGACCG ATCCGGTGAC CTTGGAGAGA TGGAGCCGGT GAAGGCAGCG 
CCGTTGATGA AGATCTAG

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

RefSeq	XP_030129541.1
CDS	336..3113
Translation	MDDSEVESTASILASVKEQEAQFEKLTRALEEERRHVSAQLERVRVSPQDAGPGLANGTLTRRHQNGRFLGDADLERQKYSDLKLNGPQDHSHLLYSTIPRMQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMKI

Target ORF information:

RefSeq Version	XM_030273681.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X6, mRNA.

Target ORF information:

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

XM_030273681.1

ORF Insert Sequence:

ATGGACGACT CGGAAGTGGA GTCGACCGCC AGCATCCTTG CCTCTGTCAA GGAGCAGGAG 
GCACAGTTCG AGAAGCTGAC CCGGGCCCTG GAGGAGGAAC GGCGCCATGT CTCAGCCCAG 
CTGGAGCGAG TCCGGGTCTC CCCACAGGAC GCCGGCCCGG GCTTGGCCAA CGGCACGCTC 
ACCCGGCGGC ACCAGAACGG ACGTTTCCTG GGCGATGCTG ACCTGGAAAG GCAGAAATAT 
TCAGATCTGA AGCTCAACGG GCCACAGGAC CACAGCCACC TCTTGTACAG CACAATCCCC 
AGGATGCAGG ACCCGGGCCA GATCGTGGAG GAGACGTACA CCATGGAGGA GGACCCAGAA 
GGGGCCATGT CGGTCGTGTC TGTGGAGACA TCAGATGATG GGACAACTCG ACGTACAGAG 
ACCACGGTGA AGAAAGTGGT GAAGACTGTG ACCACCCGGA CGGTGCAGCA GGTGCCGGTG 
GGGCCTGACG GGCTGCCTTT GGAAACGTCC CCCGTCACCA GCAACTACGT CCAGACCATG 
GACAGGAACT TCCGCAAGAA CGGCAACGGG GGCCCCGGCA GCTACCTGGG CCCAGCGGGC 
ACGGCCACCC TCCCTCGCAA CTACCACTAC CCCGACGGCT ACGGCCGCCC CTACGAGGAC 
GGGTACCCGG GCAGTGACCA CAGCTACGGC AGCCTGTCCC GCGTCACCCG CATCGACGAG 
CGCTACCGCC CCTCCATGGA CACCTACCGG GCCCCCAGCC GCCAGGACAT CTACGGCCCC 
CAGCCCCAGG TGCGTGTTGG GGGCAGCAAC ATGGACCTCA ACCATTTCCA CCCCGAACCC 
TACGGCCTGG AGGACGACCA GCGCAGTGTG GGCTTTGAAG ATGTGGACTA CGGGCTCATG 
TCTGACTATG GCACGGCCAG GAGGGCGGGC ACCCCATCTG ATGCTCGGCG ACGGCTCAGG 
AGTTATGAAG ACATGCTGGT GGATGAAGTG GCCCCCGACC GGTACTACTG GGCCCCGCTG 
GCCCAGCACG AGCGGGGCAG CCTGGCCAGC CTGGACAGCC TGCGGAAAGG CGGCCCGGCC 
CCGGGGAACT GGCGCCAGCC GGAGCTGCCG GAGGTCATAG CCATGCTGAG CTTCCGGCTG 
GATGCCGTCA AGTCCAACGC GGCCGCCTAC CTGCAGCACC TGTGCTACCG CAACGACAAG 
GTGAAGACGG AGGTGCGCCG GCTGAAGGGT ATCCCCGTGC TCGTGGGGCT GCTGGATCAC 
CCCAAGAAGG AGGTGCACTA CGGAGCCTGC GGAGCTCTCA AGAACATCTC CTTCGGCAAG 
GACCAGGATA ACAAGATCGC CATCAAGAAC TGCGACGGGG TGCCCGCGCT GGTGCGCCTG 
CTGCGCAAGG CCCACGACAT GGACCTCACC GAGGTCATCA CAGGGACGCT GTGGAACCTG 
TCCTCGCACG ACTCCATCAA GATGGCCATC GTGGATCACG CACTACATGC CCTGACCGAT 
GAGGTGGTCA TTCCCCGCTC CGGCTGGGAG CGGGAGCCCA ACGAGGATTC CAAACCCCGC 
CATATAGAGT GGGAGTCGGT GCTCACCAAC ACCGCTGGCT GCCTTAGGAA TGTGAGCTCG 
GAGCGGAGCG AGGCCCGTCG GAAGCTGCGG GAATGTGACG GGTTGGTGGA TGCCCTGATC 
TACATCGTGC AGTCCGAGAT CGGCCAGAAG GACTCGGACA GCAAGCTGGT GGAAAACTGT 
GTGTGCCTGC TGAGGAACCT GTCCTACCAA GTCCACCGTG AGATCCCCCA TGCCGAGCGC 
TACCAGGAGA CGCCCCTTGT CCCTGCCAAC AATGCTGGGC CCCACAATGC CAGCTGCTTC 
GGGGCCAAGA AGGGCAAAGG TAAAAAGCTC CCAGAAGACC CTGGTGCTGA CACAGTGGAT 
TTTCCCAAAA GAACTACTCC AGCCAAAGGC TACGAGCTCC TCTTCCAGCC AGAAGTGGTG 
CGGATATACA TCTCCCTCCT GAAGGAAAGC AAGACTCCAG CCATCCTGGA GGCTTCAGCA 
GGAGCCATCC AGAACCTGTG TGCTGGCAGC TGGACGTACG GCCGGTGCAT CCGCTCGGCC 
CTGCGCCAGG AGAAGGGGCT CTCCGCCATC GCTGACCTCC TGACGCACGA CAGCGAGCGC 
GTGGTGAAAG CGGCCTCCGG GGCCCTGCGC AACCTGGCCG TGGACCTGCG CAACAAGGAG 
CTGATTGGCA AACATGCCAT CCCCAACCTC GTAAAGAACC TGCCTGGAGG CCAGCAGACC 
CCTGCCAAAA ACCTCTCTGA GGACACAGTG GTGTCAATCC TCAACACCAT CAATGAAGTG 
ATCGTGGACA ACCTTGAGGC GGCCAAAAAG CTCCGGGAAA CGCAGGGGAT CGAGAAGCTT 
GTGCTGATCA ACAAATCTGG GAACCGCTCA GAGAGAGAAG TCCGGGCAGC CGCCCTCGTC 
TTGCAGACAG TCTGGGGCTA TAAGGAGCTG CGGAAGCCCC TTGAGAAGGA AGGCTGGAAG 
AAGTCAGATT TCCAGGTGAA CCTGAGCAAT GCCTCTCGGA CCCAGGGAGG CAACTCCTTT 
GATGACAGCA CCTTGCCTCT CATCGACAGG AACCAAAAAA CAGACAAGAA ATCCTCCCGG 
GAAGAGATCC AGATGAGCAA CATGGGACCA GACAACTATT CCACACTCAA CGAGAGGGAC 
CACGGCAGGA CACTGGACCG ATCCGGTGAC CTTGGAGAGA TGGAGCCGGT GAAGGCAGCG 
CCGTTGATGA AGATCTAG

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

CTNND1 ( XM_030273682.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030129542.1 Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OTd46523
Clone ID Related Accession (Same CDS sequence)	XM_030273682.1
Accession Version	XM_030273682.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2619bp) 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	catenin delta-1 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) 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##

ATGCAGGACC CGGGCCAGAT CGTGGAGGAG ACGTACACCA TGGAGGAGGA CCCAGAAGGG 
GCCATGTCGG TCGTGTCTGT GGAGACATCA GATGATGGGA CAACTCGACG TACAGAGACC 
ACGGTGAAGA AAGTGGTGAA GACTGTGACC ACCCGGACGG TGCAGCAGGT GCCGGTGGGG 
CCTGACGGGC TGCCTTTGGA AACGTCCCCC GTCACCAGCA ACTACGTCCA GACCATGGAC 
AGGAACTTCC GCAAGAACGG CAACGGGGGC CCCGGCAGCT ACCTGGGCCC AGCGGGCACG 
GCCACCCTCC CTCGCAACTA CCACTACCCC GACGGCTACG GCCGCCCCTA CGAGGACGGG 
TACCCGGGCA GTGACCACAG CTACGGCAGC CTGTCCCGCG TCACCCGCAT CGACGAGCGC 
TACCGCCCCT CCATGGACAC CTACCGGGCC CCCAGCCGCC AGGACATCTA CGGCCCCCAG 
CCCCAGGTGC GTGTTGGGGG CAGCAACATG GACCTCAACC ATTTCCACCC CGAACCCTAC 
GGCCTGGAGG ACGACCAGCG CAGTGTGGGC TTTGAAGATG TGGACTACGG GCTCATGTCT 
GACTATGGCA CGGCCAGGAG GGCGGGCACC CCATCTGATG CTCGGCGACG GCTCAGGAGT 
TATGAAGACA TGCTGGTGGA TGAAGTGGCC CCCGACCGGT ACTACTGGGC CCCGCTGGCC 
CAGCACGAGC GGGGCAGCCT GGCCAGCCTG GACAGCCTGC GGAAAGGCGG CCCGGCCCCG 
GGGAACTGGC GCCAGCCGGA GCTGCCGGAG GTCATAGCCA TGCTGAGCTT CCGGCTGGAT 
GCCGTCAAGT CCAACGCGGC CGCCTACCTG CAGCACCTGT GCTACCGCAA CGACAAGGTG 
AAGACGGAGG TGCGCCGGCT GAAGGGTATC CCCGTGCTCG TGGGGCTGCT GGATCACCCC 
AAGAAGGAGG TGCACTACGG AGCCTGCGGA GCTCTCAAGA ACATCTCCTT CGGCAAGGAC 
CAGGATAACA AGATCGCCAT CAAGAACTGC GACGGGGTGC CCGCGCTGGT GCGCCTGCTG 
CGCAAGGCCC ACGACATGGA CCTCACCGAG GTCATCACAG GGACGCTGTG GAACCTGTCC 
TCGCACGACT CCATCAAGAT GGCCATCGTG GATCACGCAC TACATGCCCT GACCGATGAG 
GTGGTCATTC CCCGCTCCGG CTGGGAGCGG GAGCCCAACG AGGATTCCAA ACCCCGCCAT 
ATAGAGTGGG AGTCGGTGCT CACCAACACC GCTGGCTGCC TTAGGAATGT GAGCTCGGAG 
CGGAGCGAGG CCCGTCGGAA GCTGCGGGAA TGTGACGGGT TGGTGGATGC CCTGATCTAC 
ATCGTGCAGT CCGAGATCGG CCAGAAGGAC TCGGACAGCA AGCTGGTGGA AAACTGTGTG 
TGCCTGCTGA GGAACCTGTC CTACCAAGTC CACCGTGAGA TCCCCCATGC CGAGCGCTAC 
CAGGAGACGC CCCTTGTCCC TGCCAACAAT GCTGGGCCCC ACAATGCCAG CTGCTTCGGG 
GCCAAGAAGG GCAAAGACGA GTGGTTCTCC AGAGGTAAAA AGCTCCCAGA AGACCCTGGT 
GCTGACACAG TGGATTTTCC CAAAAGAACT ACTCCAGCCA AAGGCTACGA GCTCCTCTTC 
CAGCCAGAAG TGGTGCGGAT ATACATCTCC CTCCTGAAGG AAAGCAAGAC TCCAGCCATC 
CTGGAGGCTT CAGCAGGAGC CATCCAGAAC CTGTGTGCTG GCAGCTGGAC GTACGGCCGG 
TGCATCCGCT CGGCCCTGCG CCAGGAGAAG GGGCTCTCCG CCATCGCTGA CCTCCTGACG 
CACGACAGCG AGCGCGTGGT GAAAGCGGCC TCCGGGGCCC TGCGCAACCT GGCCGTGGAC 
CTGCGCAACA AGGAGCTGAT TGGCAAACAT GCCATCCCCA ACCTCGTAAA GAACCTGCCT 
GGAGGCCAGC AGACCCCTGC CAAAAACCTC TCTGAGGACA CAGTGGTGTC AATCCTCAAC 
ACCATCAATG AAGTGATCGT GGACAACCTT GAGGCGGCCA AAAAGCTCCG GGAAACGCAG 
GGGATCGAGA AGCTTGTGCT GATCAACAAA TCTGGGAACC GCTCAGAGAG AGAAGTCCGG 
GCAGCCGCCC TCGTCTTGCA GACAGTCTGG GGCTATAAGG AGCTGCGGAA GCCCCTTGAG 
AAGGAAGGCT GGAAGAAGTC AGATTTCCAG GTGAACCTGA GCAATGCCTC TCGGACCCAG 
GGAGGCAACT CCTTTGATGA CAGCACCTTG CCTCTCATCG ACAGGAACCA AAAAACAGAC 
AAGAAATCCT CCCGGGAAGA GATCCAGATG AGCAACATGG GACCAGACAA CTATTCCACA 
CTCAACGAGA GGGACCACGG CAGGACACTG GACCGATCCG GTGACCTTGG AGAGATGGAG 
CCGGTGAAGG CAGCGCCGTT GATGCAGGAG GAGGAGGAGG AGGGGCAGGA GTCGCAGCCT 
GAGGTAGAGG AGGCGCAGCC TGAGGTAGAG GAGGCGGAGG AAGATGGTGC TGTGCCCTCC 
CCCATGTCGG TATGTCCCAC GGTGTCCTGC CCAATCTGA

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

RefSeq	XP_030129542.1
CDS	186..2804
Translation	MQDPGQIVEETYTMEEDPEGAMSVVSVETSDDGTTRRTETTVKKVVKTVTTRTVQQVPVGPDGLPLETSPVTSNYVQTMDRNFRKNGNGGPGSYLGPAGTATLPRNYHYPDGYGRPYEDGYPGSDHSYGSLSRVTRIDERYRPSMDTYRAPSRQDIYGPQPQVRVGGSNMDLNHFHPEPYGLEDDQRSVGFEDVDYGLMSDYGTARRAGTPSDARRRLRSYEDMLVDEVAPDRYYWAPLAQHERGSLASLDSLRKGGPAPGNWRQPELPEVIAMLSFRLDAVKSNAAAYLQHLCYRNDKVKTEVRRLKGIPVLVGLLDHPKKEVHYGACGALKNISFGKDQDNKIAIKNCDGVPALVRLLRKAHDMDLTEVITGTLWNLSSHDSIKMAIVDHALHALTDEVVIPRSGWEREPNEDSKPRHIEWESVLTNTAGCLRNVSSERSEARRKLRECDGLVDALIYIVQSEIGQKDSDSKLVENCVCLLRNLSYQVHREIPHAERYQETPLVPANNAGPHNASCFGAKKGKDEWFSRGKKLPEDPGADTVDFPKRTTPAKGYELLFQPEVVRIYISLLKESKTPAILEASAGAIQNLCAGSWTYGRCIRSALRQEKGLSAIADLLTHDSERVVKAASGALRNLAVDLRNKELIGKHAIPNLVKNLPGGQQTPAKNLSEDTVVSILNTINEVIVDNLEAAKKLRETQGIEKLVLINKSGNRSEREVRAAALVLQTVWGYKELRKPLEKEGWKKSDFQVNLSNASRTQGGNSFDDSTLPLIDRNQKTDKKSSREEIQMSNMGPDNYSTLNERDHGRTLDRSGDLGEMEPVKAAPLMQEEEEEGQESQPEVEEAQPEVEEAEEDGAVPSPMSVCPTVSCPI

Target ORF information:

RefSeq Version	XM_030273682.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata catenin delta 1 (CTNND1), transcript variant X7, mRNA.

Target ORF information:

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

XM_030273682.1

ORF Insert Sequence:

ATGCAGGACC CGGGCCAGAT CGTGGAGGAG ACGTACACCA TGGAGGAGGA CCCAGAAGGG 
GCCATGTCGG TCGTGTCTGT GGAGACATCA GATGATGGGA CAACTCGACG TACAGAGACC 
ACGGTGAAGA AAGTGGTGAA GACTGTGACC ACCCGGACGG TGCAGCAGGT GCCGGTGGGG 
CCTGACGGGC TGCCTTTGGA AACGTCCCCC GTCACCAGCA ACTACGTCCA GACCATGGAC 
AGGAACTTCC GCAAGAACGG CAACGGGGGC CCCGGCAGCT ACCTGGGCCC AGCGGGCACG 
GCCACCCTCC CTCGCAACTA CCACTACCCC GACGGCTACG GCCGCCCCTA CGAGGACGGG 
TACCCGGGCA GTGACCACAG CTACGGCAGC CTGTCCCGCG TCACCCGCAT CGACGAGCGC 
TACCGCCCCT CCATGGACAC CTACCGGGCC CCCAGCCGCC AGGACATCTA CGGCCCCCAG 
CCCCAGGTGC GTGTTGGGGG CAGCAACATG GACCTCAACC ATTTCCACCC CGAACCCTAC 
GGCCTGGAGG ACGACCAGCG CAGTGTGGGC TTTGAAGATG TGGACTACGG GCTCATGTCT 
GACTATGGCA CGGCCAGGAG GGCGGGCACC CCATCTGATG CTCGGCGACG GCTCAGGAGT 
TATGAAGACA TGCTGGTGGA TGAAGTGGCC CCCGACCGGT ACTACTGGGC CCCGCTGGCC 
CAGCACGAGC GGGGCAGCCT GGCCAGCCTG GACAGCCTGC GGAAAGGCGG CCCGGCCCCG 
GGGAACTGGC GCCAGCCGGA GCTGCCGGAG GTCATAGCCA TGCTGAGCTT CCGGCTGGAT 
GCCGTCAAGT CCAACGCGGC CGCCTACCTG CAGCACCTGT GCTACCGCAA CGACAAGGTG 
AAGACGGAGG TGCGCCGGCT GAAGGGTATC CCCGTGCTCG TGGGGCTGCT GGATCACCCC 
AAGAAGGAGG TGCACTACGG AGCCTGCGGA GCTCTCAAGA ACATCTCCTT CGGCAAGGAC 
CAGGATAACA AGATCGCCAT CAAGAACTGC GACGGGGTGC CCGCGCTGGT GCGCCTGCTG 
CGCAAGGCCC ACGACATGGA CCTCACCGAG GTCATCACAG GGACGCTGTG GAACCTGTCC 
TCGCACGACT CCATCAAGAT GGCCATCGTG GATCACGCAC TACATGCCCT GACCGATGAG 
GTGGTCATTC CCCGCTCCGG CTGGGAGCGG GAGCCCAACG AGGATTCCAA ACCCCGCCAT 
ATAGAGTGGG AGTCGGTGCT CACCAACACC GCTGGCTGCC TTAGGAATGT GAGCTCGGAG 
CGGAGCGAGG CCCGTCGGAA GCTGCGGGAA TGTGACGGGT TGGTGGATGC CCTGATCTAC 
ATCGTGCAGT CCGAGATCGG CCAGAAGGAC TCGGACAGCA AGCTGGTGGA AAACTGTGTG 
TGCCTGCTGA GGAACCTGTC CTACCAAGTC CACCGTGAGA TCCCCCATGC CGAGCGCTAC 
CAGGAGACGC CCCTTGTCCC TGCCAACAAT GCTGGGCCCC ACAATGCCAG CTGCTTCGGG 
GCCAAGAAGG GCAAAGACGA GTGGTTCTCC AGAGGTAAAA AGCTCCCAGA AGACCCTGGT 
GCTGACACAG TGGATTTTCC CAAAAGAACT ACTCCAGCCA AAGGCTACGA GCTCCTCTTC 
CAGCCAGAAG TGGTGCGGAT ATACATCTCC CTCCTGAAGG AAAGCAAGAC TCCAGCCATC 
CTGGAGGCTT CAGCAGGAGC CATCCAGAAC CTGTGTGCTG GCAGCTGGAC GTACGGCCGG 
TGCATCCGCT CGGCCCTGCG CCAGGAGAAG GGGCTCTCCG CCATCGCTGA CCTCCTGACG 
CACGACAGCG AGCGCGTGGT GAAAGCGGCC TCCGGGGCCC TGCGCAACCT GGCCGTGGAC 
CTGCGCAACA AGGAGCTGAT TGGCAAACAT GCCATCCCCA ACCTCGTAAA GAACCTGCCT 
GGAGGCCAGC AGACCCCTGC CAAAAACCTC TCTGAGGACA CAGTGGTGTC AATCCTCAAC 
ACCATCAATG AAGTGATCGT GGACAACCTT GAGGCGGCCA AAAAGCTCCG GGAAACGCAG 
GGGATCGAGA AGCTTGTGCT GATCAACAAA TCTGGGAACC GCTCAGAGAG AGAAGTCCGG 
GCAGCCGCCC TCGTCTTGCA GACAGTCTGG GGCTATAAGG AGCTGCGGAA GCCCCTTGAG 
AAGGAAGGCT GGAAGAAGTC AGATTTCCAG GTGAACCTGA GCAATGCCTC TCGGACCCAG 
GGAGGCAACT CCTTTGATGA CAGCACCTTG CCTCTCATCG ACAGGAACCA AAAAACAGAC 
AAGAAATCCT CCCGGGAAGA GATCCAGATG AGCAACATGG GACCAGACAA CTATTCCACA 
CTCAACGAGA GGGACCACGG CAGGACACTG GACCGATCCG GTGACCTTGG AGAGATGGAG 
CCGGTGAAGG CAGCGCCGTT GATGCAGGAG GAGGAGGAGG AGGGGCAGGA GTCGCAGCCT 
GAGGTAGAGG AGGCGCAGCC TGAGGTAGAG GAGGCGGAGG AAGATGGTGC TGTGCCCTCC 
CCCATGTCGG TATGTCCCAC GGTGTCCTGC CCAATCTGA

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

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CTNND1 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:

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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