FNDC3A cDNA ORF clone, Parus major(Great Tit)

Gene
Clones
gRNAs

Summary

Gene Symbol	FNDC3A
Entrez Gene ID	107203483
Full Name	fibronectin type III domain containing 3A
Gene Type	protein-coding
Organism	Parus major(Great Tit)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015625675.2	XP_015481161.1	fibronectin type-III domain-containing protein 3A isoform X1
XM_015625685.2	XP_015481171.1	fibronectin type-III domain-containing protein 3A isoform X1
XM_015625694.2	XP_015481180.1	fibronectin type-III domain-containing protein 3A isoform X1
XM_015625739.1	XP_015481225.1	fibronectin type-III domain-containing protein 3A isoform X4
XM_019006627.1	XP_018862172.1	fibronectin type-III domain-containing protein 3A isoform X1
XM_015625703.2	XP_015481189.1	fibronectin type-III domain-containing protein 3A isoform X2
XM_015625730.1	XP_015481216.1	fibronectin type-III domain-containing protein 3A isoform X3
XM_019006633.1	XP_018862178.1	fibronectin type-III domain-containing protein 3A isoform X4

Pathways from BioSystems
Gene Ontology

The following FNDC3A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FNDC3A 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)
OPa157199	XM_015625675.2 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa157199	XM_015625685.2 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa157199	XM_019006627.1 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa157199	XM_015625694.2 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa157200	XM_015625703.2 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPa157201	XM_015625730.1 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OPa157202	XM_015625739.1 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OPa157202	XM_019006633.1 Latest version!	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

FNDC3A ( XM_015625675.2 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481161.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPa157199
Clone ID Related Accession (Same CDS sequence)	XM_015625675.2 , XM_015625685.2 , XM_015625694.2 , XM_019006627.1
Accession Version	XM_015625675.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2016 this sequence version replaced XM_015625675.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

RefSeq	XP_015481161.1
CDS	126..3725
Translation	MMAEHPPLLDTTSIISSEIPLLTSPIVSGDGAQQVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625675.2
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X1, mRNA.

Target ORF information:

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

XM_015625675.2

ORF Insert Sequence:

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

FNDC3A ( XM_015625685.2 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481171.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPa157199
Clone ID Related Accession (Same CDS sequence)	XM_015625675.2 , XM_015625685.2 , XM_015625694.2 , XM_019006627.1
Accession Version	XM_015625685.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2016 this sequence version replaced XM_015625685.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

RefSeq	XP_015481171.1
CDS	77..3676
Translation	MMAEHPPLLDTTSIISSEIPLLTSPIVSGDGAQQVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625685.2
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X2, mRNA.

Target ORF information:

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

XM_015625685.2

ORF Insert Sequence:

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

FNDC3A ( XM_015625694.2 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481180.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X3, mRNA.

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CloneID	OPa157199
Clone ID Related Accession (Same CDS sequence)	XM_015625675.2 , XM_015625685.2 , XM_015625694.2 , XM_019006627.1
Accession Version	XM_015625694.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2016 this sequence version replaced XM_015625694.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

RefSeq	XP_015481180.1
CDS	91..3690
Translation	MMAEHPPLLDTTSIISSEIPLLTSPIVSGDGAQQVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625694.2
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X3, mRNA.

Target ORF information:

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

XM_015625694.2

ORF Insert Sequence:

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

FNDC3A ( XM_019006627.1 ) cDNA ORF clone, Parus major(Great Tit) -> XP_018862172.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X4, mRNA.

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CloneID	OPa157199
Clone ID Related Accession (Same CDS sequence)	XM_015625675.2 , XM_015625685.2 , XM_015625694.2 , XM_019006627.1
Accession Version	XM_019006627.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3600bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) 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 Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

RefSeq	XP_018862172.1
CDS	28..3627
Translation	MMAEHPPLLDTTSIISSEIPLLTSPIVSGDGAQQVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_019006627.1
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X4, mRNA.

Target ORF information:

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

XM_019006627.1

ORF Insert Sequence:

ATGATGGCAG AACATCCACC GTTACTGGAT ACCACTTCAA TTATAAGTAG TGAAATCCCT 
CTTCTGACTT CCCCTATTGT TAGTGGGGAT GGAGCACAAC AGGTTATTCT TGTGCAAGTT 
AATCCAGGGG AAGCATTTAC AATAAGAAGA GAAGATGGAC AGTTTCAGTG CATTACAGGT 
CCTGCTCAGG TTCCAATGAT GTCCCCAAAT GGTTCAGTGC CTACTATTTA TGTGCCTCCT 
GGATATGCCC CACAGGTTAT TGAGGATAAC GGTGTTCGAA GGGTTGTGGT GGTTCCCCAG 
GCTCCAGAAT TTCATCCTGG TGGTCACACA GTGATACACA GGCCTCCACA TCCCCCACTG 
CCCGGCTTCC TTCCTCTTCC AGCCATGATA CCCCCTCCAC CCCGTCACAT ATACTCACCC 
GTGACTGGAG CCGGTGATAT GGCTACGCAG TACATTCCAC AGTATCACAC TTCGCAAGTC 
TATGGGGATG TGGATACTCT GCCTGCTCAT GGAAGATCCA ACTTTAGAGA TGAAAGGTCG 
AGTAAAACAT ATGAAAGGTT ACAAAAAAAG TTAAAAGATC GACATGGAAC TCAGAAGGAT 
AAGTTAAACA GTCCTCCATC ATCTCCTCAG AAATGTCCTT CTCCTACAAG TGAACCTAAT 
GGACTTACAA AAGGACAAGA TTCAGCTGGT GTAAGCGCAG GTTCTACCAA ATGCAAGTCT 
TTGGGTAAAG GAAAAGGCAA TTCTCAGACA GACACAGAAG TGGAAGAAAA GGATGAAGAA 
ACAAAAGCAC TGGAAGCACT TCTTTCTAAT ATAGCCAAGC CAGTGGTTTC GGATATTCAG 
GCAAGAACAG CCCTGCTGAT GTGGTCCCCT CCATCCAGTG ATACTGGAGA AGACACAGGC 
AAGAATGACA TACCAGAGGT TTATACTTAT GAAGTGATGA TTTCAAGTAC TGGAAAAGAT 
GGAAAGTACA AAACTGTGTA CATTGGAGAA GAAAATAAAG TTACTGTAAA TGATCTTAGG 
CCAGCAACTG ATTACCATGC AAAAGTCCAA GTAGAATGCA ACTGTGTAAA GGGGTGCCCT 
TCAGAAGCAG AGAGTTTTAC CACAGCAAGT TGTGAACCTG ATACTCCAAA TCTGCCCAGG 
ATAACTAATC GGACCAAAAA TTCTCTTACT CTTCAGTGGA AGGCATCGTG TGATAATGGT 
TCCAAAATCC ACAGTTACCT TTTAGAATGG GATGAGGGAA AAGGAAATGG AGAGTTTTGC 
CAGTGTTATT GCGGTCAACA GAAGCAGTAC AGGATCACTA AACTATCACC AGCAATGGGG 
TACACCTTTA GGCTAGCAGC CAAAAATGAC ATGGGAATGA GTGATTTTAG TGAAGAAGTC 
CTGTATCATA CCTCAGGCAC TGCCCCAACC ACACCAGCAA GTCCTTTGCT GATTAATGCT 
GGAGTTACTT GGTTATCCCT TCAGTGGACT AAACCCTCAG GAACACCATC AGATGAAGGA 
ATCTCATATA TATTAGAGAT GGAGGATGAG AACTCAGGAT ATGGTTTCAA GCCAAAATAT 
GATGGTGATG ATCTTACCTA CACGGTGAAG AATTTGAGGC GTAGTACAAA ATATAAATTT 
AGGGTCATTG CTTATAACTC AGAAGGGAAA AGCAGTCCAA GTGAGACAGT GGAGTACATT 
ACTTGTCCAG ACAAACCTGG AGTACCTTCA AAACCCACAG TGAAAGGAAA AACTCATGCA 
CAAAGTTTTA AAATAATCTG GGACCCACCG AAAGACAATG GGGGAGCAGC AATAAATACG 
TATGTTGTGG AAATGTCTGA AGGCTTAAGT GGAAACAAAT GGGATACAAT ATACAGCGGA 
GCCGCTAGGG AACATGTGTG CGACCGACTA AATCCAGGCT CTTCCTATCG GTTACGTGTA 
TATTGCATTG GGGAAGGAGG ACAAAGCACG GTATCTGATT CCTTAGTGGT GCAGACACCA 
GCAGTGGTTC CTGGTCCATG CCAGCCCCCA AGGCTACAGG GTAGACCAAG AGCAAGAGAA 
ATTCAGCTGC GCTGGGGACC ACCTCAGGTA GATGGTGGTT CACCCATTAC CTGTTATGGT 
CTGGAAATGT TTCAGGCAGA AAGCGATGAA CACAGAGAGG TTTACCAGGG TTCTGATGTT 
GAGTGCACAG TGGGCAGCCT TCTTCCAGGG AGGATGTACA GCTTCAGACT GAGAGCAGCT 
AACAAGGCTG GGTTTGGACC ATACTCAGAA AAATGTGAAA TAACTACAGC ACCTGGACCC 
CCAGATCAGT GCAAGCCCCC TCAAGTGGCA TGCAGATCTT CTGCCTGCGC TCAGGTGTCA 
TGGGAGGTAC CAGTAAGTAA TGGAGCTGAT GTCACGGAGT ATCGGCTGGA GTGGGGCGGT 
GTGGAAGGAT GCATGCAGAT CTCCTATTGT GGGCCTGGGC TCAGCTGTGA AGTGAAAGGG 
CTTTTGCCTG CCACTATATA CTATTGCAGG GTTCAGGCAG TGAACGTTGC AGGTGCAGGC 
CCTTTCAGTG AAGTAGTAGC ATGTATGACT CCAGCCTCTG TACCTGCAGT TGTGACCTGT 
CTTCATGGAC TAAGTGAAGA TGAAATTGAA AGTCCACACT ATTCTCCTTC CACATGCCTT 
GCTATAAGCT GGGAAGAGCC TTGTGACCAT GGATCTGAAA TCCTTGGCTA CAGCATAGAC 
TTTGGAGATA AGCAGCCAAT AACTGTTGGG AAGGAACTGA CCTATTTCAT AGAAGGCTTA 
CAGCCAGATA CTACCTACAG GGTACGAATT CAAGCCCTAA ACAGTCTTGG AGCAGGTCCT 
TTCAGCCACA CCATAAAACT GAAAACAAAG CCTCTCCCGC CAGATCCACC TCGCCTGGAA 
TGTGCTGCAT ACAGTTCTCA GACTCTGAAG CTGAAGTGGG GAGAGGGAAC TGCGAAAGCA 
TTAACTGATT CCATCCAGTA CCACCTTCAA ATGGAGGATA AGAATGGAAG GTTTGTATCC 
TTATACAGAG GACCATGTCA TACATACAAA GTTCAAAGAC TCAGTGAGTC AACATCATAC 
AAATTTTGTA TTCAGGCATG TAATGAAGCT GGCGAAGGTC CCCTTTCTCA AGAATATATT 
TTCACTACTC CCAAATCTGT TCCAGCTGCC TTGAAAGCAC CAAGGATAGA GAGAATAAAC 
GATCACACTT GTGAAATCAC CTGGGAGGTT CTGCAGCCCA TGAAGGGTGA TCCAGTTATC 
TACTGTCTTC AGGTCATGGT GGGAAAAGAC TCAGAATTCA AACAGATTTA CAAGGGCCCG 
GACTGGTCAT TCCGATACAC AGGCCTCCAG CTGAACTGTG AATACCGATT CCGCGCATGT 
GCCATTCGCC AGTGCCAAGA GGCCACGGGT CACCAGGACC TGGTGGGCCC CTACAGCGCC 
CCAGCGCTAT TCATCTCTCA GAGGACTGAA CCACCGGCAA GCACCAACAA GGACACTGTG 
CAAACCACAA GGACACAATG GTCACAGAGC GACCAAGTGT GTGCTGCTGT CATCCTTGCA 
CTTTTTGCTA TCTTTTCCAT TCTGATTGCT GTTATCATTC AGTACTTTGT CATAAAGTGA

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

FNDC3A ( XM_015625703.2 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481189.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OPa157200
Clone ID Related Accession (Same CDS sequence)	XM_015625703.2
Accession Version	XM_015625703.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3549bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2016 this sequence version replaced XM_015625703.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTACTT CTGTTAGGAG GATGGATGTT CAAGTAGAGA AGCTTATAGA AGTTATTCTT 
GTGCAAGTTA ATCCAGGGGA AGCATTTACA ATAAGAAGAG AAGATGGACA GTTTCAGTGC 
ATTACAGGTC CTGCTCAGGT TCCAATGATG TCCCCAAATG GTTCAGTGCC TACTATTTAT 
GTGCCTCCTG GATATGCCCC ACAGGTTATT GAGGATAACG GTGTTCGAAG GGTTGTGGTG 
GTTCCCCAGG CTCCAGAATT TCATCCTGGT GGTCACACAG TGATACACAG GCCTCCACAT 
CCCCCACTGC CCGGCTTCCT TCCTCTTCCA GCCATGATAC CCCCTCCACC CCGTCACATA 
TACTCACCCG TGACTGGAGC CGGTGATATG GCTACGCAGT ACATTCCACA GTATCACACT 
TCGCAAGTCT ATGGGGATGT GGATACTCTG CCTGCTCATG GAAGATCCAA CTTTAGAGAT 
GAAAGGTCGA GTAAAACATA TGAAAGGTTA CAAAAAAAGT TAAAAGATCG ACATGGAACT 
CAGAAGGATA AGTTAAACAG TCCTCCATCA TCTCCTCAGA AATGTCCTTC TCCTACAAGT 
GAACCTAATG GACTTACAAA AGGACAAGAT TCAGCTGGTG TAAGCGCAGG TTCTACCAAA 
TGCAAGTCTT TGGGTAAAGG AAAAGGCAAT TCTCAGACAG ACACAGAAGT GGAAGAAAAG 
GATGAAGAAA CAAAAGCACT GGAAGCACTT CTTTCTAATA TAGCCAAGCC AGTGGTTTCG 
GATATTCAGG CAAGAACAGC CCTGCTGATG TGGTCCCCTC CATCCAGTGA TACTGGAGAA 
GACACAGGCA AGAATGACAT ACCAGAGGTT TATACTTATG AAGTGATGAT TTCAAGTACT 
GGAAAAGATG GAAAGTACAA AACTGTGTAC ATTGGAGAAG AAAATAAAGT TACTGTAAAT 
GATCTTAGGC CAGCAACTGA TTACCATGCA AAAGTCCAAG TAGAATGCAA CTGTGTAAAG 
GGGTGCCCTT CAGAAGCAGA GAGTTTTACC ACAGCAAGTT GTGAACCTGA TACTCCAAAT 
CTGCCCAGGA TAACTAATCG GACCAAAAAT TCTCTTACTC TTCAGTGGAA GGCATCGTGT 
GATAATGGTT CCAAAATCCA CAGTTACCTT TTAGAATGGG ATGAGGGAAA AGGAAATGGA 
GAGTTTTGCC AGTGTTATTG CGGTCAACAG AAGCAGTACA GGATCACTAA ACTATCACCA 
GCAATGGGGT ACACCTTTAG GCTAGCAGCC AAAAATGACA TGGGAATGAG TGATTTTAGT 
GAAGAAGTCC TGTATCATAC CTCAGGCACT GCCCCAACCA CACCAGCAAG TCCTTTGCTG 
ATTAATGCTG GAGTTACTTG GTTATCCCTT CAGTGGACTA AACCCTCAGG AACACCATCA 
GATGAAGGAA TCTCATATAT ATTAGAGATG GAGGATGAGA ACTCAGGATA TGGTTTCAAG 
CCAAAATATG ATGGTGATGA TCTTACCTAC ACGGTGAAGA ATTTGAGGCG TAGTACAAAA 
TATAAATTTA GGGTCATTGC TTATAACTCA GAAGGGAAAA GCAGTCCAAG TGAGACAGTG 
GAGTACATTA CTTGTCCAGA CAAACCTGGA GTACCTTCAA AACCCACAGT GAAAGGAAAA 
ACTCATGCAC AAAGTTTTAA AATAATCTGG GACCCACCGA AAGACAATGG GGGAGCAGCA 
ATAAATACGT ATGTTGTGGA AATGTCTGAA GGCTTAAGTG GAAACAAATG GGATACAATA 
TACAGCGGAG CCGCTAGGGA ACATGTGTGC GACCGACTAA ATCCAGGCTC TTCCTATCGG 
TTACGTGTAT ATTGCATTGG GGAAGGAGGA CAAAGCACGG TATCTGATTC CTTAGTGGTG 
CAGACACCAG CAGTGGTTCC TGGTCCATGC CAGCCCCCAA GGCTACAGGG TAGACCAAGA 
GCAAGAGAAA TTCAGCTGCG CTGGGGACCA CCTCAGGTAG ATGGTGGTTC ACCCATTACC 
TGTTATGGTC TGGAAATGTT TCAGGCAGAA AGCGATGAAC ACAGAGAGGT TTACCAGGGT 
TCTGATGTTG AGTGCACAGT GGGCAGCCTT CTTCCAGGGA GGATGTACAG CTTCAGACTG 
AGAGCAGCTA ACAAGGCTGG GTTTGGACCA TACTCAGAAA AATGTGAAAT AACTACAGCA 
CCTGGACCCC CAGATCAGTG CAAGCCCCCT CAAGTGGCAT GCAGATCTTC TGCCTGCGCT 
CAGGTGTCAT GGGAGGTACC AGTAAGTAAT GGAGCTGATG TCACGGAGTA TCGGCTGGAG 
TGGGGCGGTG TGGAAGGATG CATGCAGATC TCCTATTGTG GGCCTGGGCT CAGCTGTGAA 
GTGAAAGGGC TTTTGCCTGC CACTATATAC TATTGCAGGG TTCAGGCAGT GAACGTTGCA 
GGTGCAGGCC CTTTCAGTGA AGTAGTAGCA TGTATGACTC CAGCCTCTGT ACCTGCAGTT 
GTGACCTGTC TTCATGGACT AAGTGAAGAT GAAATTGAAA GTCCACACTA TTCTCCTTCC 
ACATGCCTTG CTATAAGCTG GGAAGAGCCT TGTGACCATG GATCTGAAAT CCTTGGCTAC 
AGCATAGACT TTGGAGATAA GCAGCCAATA ACTGTTGGGA AGGAACTGAC CTATTTCATA 
GAAGGCTTAC AGCCAGATAC TACCTACAGG GTACGAATTC AAGCCCTAAA CAGTCTTGGA 
GCAGGTCCTT TCAGCCACAC CATAAAACTG AAAACAAAGC CTCTCCCGCC AGATCCACCT 
CGCCTGGAAT GTGCTGCATA CAGTTCTCAG ACTCTGAAGC TGAAGTGGGG AGAGGGAACT 
GCGAAAGCAT TAACTGATTC CATCCAGTAC CACCTTCAAA TGGAGGATAA GAATGGAAGG 
TTTGTATCCT TATACAGAGG ACCATGTCAT ACATACAAAG TTCAAAGACT CAGTGAGTCA 
ACATCATACA AATTTTGTAT TCAGGCATGT AATGAAGCTG GCGAAGGTCC CCTTTCTCAA 
GAATATATTT TCACTACTCC CAAATCTGTT CCAGCTGCCT TGAAAGCACC AAGGATAGAG 
AGAATAAACG ATCACACTTG TGAAATCACC TGGGAGGTTC TGCAGCCCAT GAAGGGTGAT 
CCAGTTATCT ACTGTCTTCA GGTCATGGTG GGAAAAGACT CAGAATTCAA ACAGATTTAC 
AAGGGCCCGG ACTGGTCATT CCGATACACA GGCCTCCAGC TGAACTGTGA ATACCGATTC 
CGCGCATGTG CCATTCGCCA GTGCCAAGAG GCCACGGGTC ACCAGGACCT GGTGGGCCCC 
TACAGCGCCC CAGCGCTATT CATCTCTCAG AGGACTGAAC CACCGGCAAG CACCAACAAG 
GACACTGTGC AAACCACAAG GACACAATGG TCACAGAGCG ACCAAGTGTG TGCTGCTGTC 
ATCCTTGCAC TTTTTGCTAT CTTTTCCATT CTGATTGCTG TTATCATTCA GTACTTTGTC 
ATAAAGTGA

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

RefSeq	XP_015481189.1
CDS	114..3662
Translation	MTTSVRRMDVQVEKLIEVILVQVNPGEAFTIRREDGQFQCITGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625703.2
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X5, mRNA.

Target ORF information:

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

XM_015625703.2

ORF Insert Sequence:

ATGACTACTT CTGTTAGGAG GATGGATGTT CAAGTAGAGA AGCTTATAGA AGTTATTCTT 
GTGCAAGTTA ATCCAGGGGA AGCATTTACA ATAAGAAGAG AAGATGGACA GTTTCAGTGC 
ATTACAGGTC CTGCTCAGGT TCCAATGATG TCCCCAAATG GTTCAGTGCC TACTATTTAT 
GTGCCTCCTG GATATGCCCC ACAGGTTATT GAGGATAACG GTGTTCGAAG GGTTGTGGTG 
GTTCCCCAGG CTCCAGAATT TCATCCTGGT GGTCACACAG TGATACACAG GCCTCCACAT 
CCCCCACTGC CCGGCTTCCT TCCTCTTCCA GCCATGATAC CCCCTCCACC CCGTCACATA 
TACTCACCCG TGACTGGAGC CGGTGATATG GCTACGCAGT ACATTCCACA GTATCACACT 
TCGCAAGTCT ATGGGGATGT GGATACTCTG CCTGCTCATG GAAGATCCAA CTTTAGAGAT 
GAAAGGTCGA GTAAAACATA TGAAAGGTTA CAAAAAAAGT TAAAAGATCG ACATGGAACT 
CAGAAGGATA AGTTAAACAG TCCTCCATCA TCTCCTCAGA AATGTCCTTC TCCTACAAGT 
GAACCTAATG GACTTACAAA AGGACAAGAT TCAGCTGGTG TAAGCGCAGG TTCTACCAAA 
TGCAAGTCTT TGGGTAAAGG AAAAGGCAAT TCTCAGACAG ACACAGAAGT GGAAGAAAAG 
GATGAAGAAA CAAAAGCACT GGAAGCACTT CTTTCTAATA TAGCCAAGCC AGTGGTTTCG 
GATATTCAGG CAAGAACAGC CCTGCTGATG TGGTCCCCTC CATCCAGTGA TACTGGAGAA 
GACACAGGCA AGAATGACAT ACCAGAGGTT TATACTTATG AAGTGATGAT TTCAAGTACT 
GGAAAAGATG GAAAGTACAA AACTGTGTAC ATTGGAGAAG AAAATAAAGT TACTGTAAAT 
GATCTTAGGC CAGCAACTGA TTACCATGCA AAAGTCCAAG TAGAATGCAA CTGTGTAAAG 
GGGTGCCCTT CAGAAGCAGA GAGTTTTACC ACAGCAAGTT GTGAACCTGA TACTCCAAAT 
CTGCCCAGGA TAACTAATCG GACCAAAAAT TCTCTTACTC TTCAGTGGAA GGCATCGTGT 
GATAATGGTT CCAAAATCCA CAGTTACCTT TTAGAATGGG ATGAGGGAAA AGGAAATGGA 
GAGTTTTGCC AGTGTTATTG CGGTCAACAG AAGCAGTACA GGATCACTAA ACTATCACCA 
GCAATGGGGT ACACCTTTAG GCTAGCAGCC AAAAATGACA TGGGAATGAG TGATTTTAGT 
GAAGAAGTCC TGTATCATAC CTCAGGCACT GCCCCAACCA CACCAGCAAG TCCTTTGCTG 
ATTAATGCTG GAGTTACTTG GTTATCCCTT CAGTGGACTA AACCCTCAGG AACACCATCA 
GATGAAGGAA TCTCATATAT ATTAGAGATG GAGGATGAGA ACTCAGGATA TGGTTTCAAG 
CCAAAATATG ATGGTGATGA TCTTACCTAC ACGGTGAAGA ATTTGAGGCG TAGTACAAAA 
TATAAATTTA GGGTCATTGC TTATAACTCA GAAGGGAAAA GCAGTCCAAG TGAGACAGTG 
GAGTACATTA CTTGTCCAGA CAAACCTGGA GTACCTTCAA AACCCACAGT GAAAGGAAAA 
ACTCATGCAC AAAGTTTTAA AATAATCTGG GACCCACCGA AAGACAATGG GGGAGCAGCA 
ATAAATACGT ATGTTGTGGA AATGTCTGAA GGCTTAAGTG GAAACAAATG GGATACAATA 
TACAGCGGAG CCGCTAGGGA ACATGTGTGC GACCGACTAA ATCCAGGCTC TTCCTATCGG 
TTACGTGTAT ATTGCATTGG GGAAGGAGGA CAAAGCACGG TATCTGATTC CTTAGTGGTG 
CAGACACCAG CAGTGGTTCC TGGTCCATGC CAGCCCCCAA GGCTACAGGG TAGACCAAGA 
GCAAGAGAAA TTCAGCTGCG CTGGGGACCA CCTCAGGTAG ATGGTGGTTC ACCCATTACC 
TGTTATGGTC TGGAAATGTT TCAGGCAGAA AGCGATGAAC ACAGAGAGGT TTACCAGGGT 
TCTGATGTTG AGTGCACAGT GGGCAGCCTT CTTCCAGGGA GGATGTACAG CTTCAGACTG 
AGAGCAGCTA ACAAGGCTGG GTTTGGACCA TACTCAGAAA AATGTGAAAT AACTACAGCA 
CCTGGACCCC CAGATCAGTG CAAGCCCCCT CAAGTGGCAT GCAGATCTTC TGCCTGCGCT 
CAGGTGTCAT GGGAGGTACC AGTAAGTAAT GGAGCTGATG TCACGGAGTA TCGGCTGGAG 
TGGGGCGGTG TGGAAGGATG CATGCAGATC TCCTATTGTG GGCCTGGGCT CAGCTGTGAA 
GTGAAAGGGC TTTTGCCTGC CACTATATAC TATTGCAGGG TTCAGGCAGT GAACGTTGCA 
GGTGCAGGCC CTTTCAGTGA AGTAGTAGCA TGTATGACTC CAGCCTCTGT ACCTGCAGTT 
GTGACCTGTC TTCATGGACT AAGTGAAGAT GAAATTGAAA GTCCACACTA TTCTCCTTCC 
ACATGCCTTG CTATAAGCTG GGAAGAGCCT TGTGACCATG GATCTGAAAT CCTTGGCTAC 
AGCATAGACT TTGGAGATAA GCAGCCAATA ACTGTTGGGA AGGAACTGAC CTATTTCATA 
GAAGGCTTAC AGCCAGATAC TACCTACAGG GTACGAATTC AAGCCCTAAA CAGTCTTGGA 
GCAGGTCCTT TCAGCCACAC CATAAAACTG AAAACAAAGC CTCTCCCGCC AGATCCACCT 
CGCCTGGAAT GTGCTGCATA CAGTTCTCAG ACTCTGAAGC TGAAGTGGGG AGAGGGAACT 
GCGAAAGCAT TAACTGATTC CATCCAGTAC CACCTTCAAA TGGAGGATAA GAATGGAAGG 
TTTGTATCCT TATACAGAGG ACCATGTCAT ACATACAAAG TTCAAAGACT CAGTGAGTCA 
ACATCATACA AATTTTGTAT TCAGGCATGT AATGAAGCTG GCGAAGGTCC CCTTTCTCAA 
GAATATATTT TCACTACTCC CAAATCTGTT CCAGCTGCCT TGAAAGCACC AAGGATAGAG 
AGAATAAACG ATCACACTTG TGAAATCACC TGGGAGGTTC TGCAGCCCAT GAAGGGTGAT 
CCAGTTATCT ACTGTCTTCA GGTCATGGTG GGAAAAGACT CAGAATTCAA ACAGATTTAC 
AAGGGCCCGG ACTGGTCATT CCGATACACA GGCCTCCAGC TGAACTGTGA ATACCGATTC 
CGCGCATGTG CCATTCGCCA GTGCCAAGAG GCCACGGGTC ACCAGGACCT GGTGGGCCCC 
TACAGCGCCC CAGCGCTATT CATCTCTCAG AGGACTGAAC CACCGGCAAG CACCAACAAG 
GACACTGTGC AAACCACAAG GACACAATGG TCACAGAGCG ACCAAGTGTG TGCTGCTGTC 
ATCCTTGCAC TTTTTGCTAT CTTTTCCATT CTGATTGCTG TTATCATTCA GTACTTTGTC 
ATAAAGTGA

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

FNDC3A ( XM_015625730.1 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481216.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X6, mRNA.

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CloneID	OPa157201
Clone ID Related Accession (Same CDS sequence)	XM_015625730.1
Accession Version	XM_015625730.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3429bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) 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 Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCGGTC CTGCTCAGGT TCCAATGATG TCCCCAAATG GTTCAGTGCC TACTATTTAT 
GTGCCTCCTG GATATGCCCC ACAGGTTATT GAGGATAACG GTGTTCGAAG GGTTGTGGTG 
GTTCCCCAGG CTCCAGAATT TCATCCTGGT GGTCACACAG TGATACACAG GCCTCCACAT 
CCCCCACTGC CCGGCTTCCT TCCTCTTCCA GCCATGATAC CCCCTCCACC CCGTCACATA 
TACTCACCCG TGACTGGAGC CGGTGATATG GCTACGCAGT ACATTCCACA GTATCACACT 
TCGCAAGTCT ATGGGGATGT GGATACTCTG CCTGCTCATG GAAGATCCAA CTTTAGAGAT 
GAAAGGTCGA GTAAAACATA TGAAAGGTTA CAAAAAAAGT TAAAAGATCG ACATGGAACT 
CAGAAGGATA AGTTAAACAG TCCTCCATCA TCTCCTCAGA AATGTCCTTC TCCTACAAGT 
GAACCTAATG GACTTACAAA AGGACAAGAT TCAGCTGGTG TAAGCGCAGG TTCTACCAAA 
TGCAAGTCTT TGGGTAAAGG AAAAGGCAAT TCTCAGACAG ACACAGAAGT GGAAGAAAAG 
GATGAAGAAA CAAAAGCACT GGAAGCACTT CTTTCTAATA TAGCCAAGCC AGTGGTTTCG 
GATATTCAGG CAAGAACAGC CCTGCTGATG TGGTCCCCTC CATCCAGTGA TACTGGAGAA 
GACACAGGCA AGAATGACAT ACCAGAGGTT TATACTTATG AAGTGATGAT TTCAAGTACT 
GGAAAAGATG GAAAGTACAA AACTGTGTAC ATTGGAGAAG AAAATAAAGT TACTGTAAAT 
GATCTTAGGC CAGCAACTGA TTACCATGCA AAAGTCCAAG TAGAATGCAA CTGTGTAAAG 
GGGTGCCCTT CAGAAGCAGA GAGTTTTACC ACAGCAAGTT GTGAACCTGA TACTCCAAAT 
CTGCCCAGGA TAACTAATCG GACCAAAAAT TCTCTTACTC TTCAGTGGAA GGCATCGTGT 
GATAATGGTT CCAAAATCCA CAGTTACCTT TTAGAATGGG ATGAGGGAAA AGGAAATGGA 
GAGTTTTGCC AGTGTTATTG CGGTCAACAG AAGCAGTACA GGATCACTAA ACTATCACCA 
GCAATGGGGT ACACCTTTAG GCTAGCAGCC AAAAATGACA TGGGAATGAG TGATTTTAGT 
GAAGAAGTCC TGTATCATAC CTCAGGCACT GCCCCAACCA CACCAGCAAG TCCTTTGCTG 
ATTAATGCTG GAGTTACTTG GTTATCCCTT CAGTGGACTA AACCCTCAGG AACACCATCA 
GATGAAGGAA TCTCATATAT ATTAGAGATG GAGGATGAGA ACTCAGGATA TGGTTTCAAG 
CCAAAATATG ATGGTGATGA TCTTACCTAC ACGGTGAAGA ATTTGAGGCG TAGTACAAAA 
TATAAATTTA GGGTCATTGC TTATAACTCA GAAGGGAAAA GCAGTCCAAG TGAGACAGTG 
GAGTACATTA CTTGTCCAGA CAAACCTGGA GTACCTTCAA AACCCACAGT GAAAGGAAAA 
ACTCATGCAC AAAGTTTTAA AATAATCTGG GACCCACCGA AAGACAATGG GGGAGCAGCA 
ATAAATACGT ATGTTGTGGA AATGTCTGAA GGCTTAAGTG GAAACAAATG GGATACAATA 
TACAGCGGAG CCGCTAGGGA ACATGTGTGC GACCGACTAA ATCCAGGCTC TTCCTATCGG 
TTACGTGTAT ATTGCATTGG GGAAGGAGGA CAAAGCACGG TATCTGATTC CTTAGTGGTG 
CAGACACCAG CAGTGGTTCC TGGTCCATGC CAGCCCCCAA GGCTACAGGG TAGACCAAGA 
GCAAGAGAAA TTCAGCTGCG CTGGGGACCA CCTCAGGTAG ATGGTGGTTC ACCCATTACC 
TGTTATGGTC TGGAAATGTT TCAGGCAGAA AGCGATGAAC ACAGAGAGGT TTACCAGGGT 
TCTGATGTTG AGTGCACAGT GGGCAGCCTT CTTCCAGGGA GGATGTACAG CTTCAGACTG 
AGAGCAGCTA ACAAGGCTGG GTTTGGACCA TACTCAGAAA AATGTGAAAT AACTACAGCA 
CCTGGACCCC CAGATCAGTG CAAGCCCCCT CAAGTGGCAT GCAGATCTTC TGCCTGCGCT 
CAGGTGTCAT GGGAGGTACC AGTAAGTAAT GGAGCTGATG TCACGGAGTA TCGGCTGGAG 
TGGGGCGGTG TGGAAGGATG CATGCAGATC TCCTATTGTG GGCCTGGGCT CAGCTGTGAA 
GTGAAAGGGC TTTTGCCTGC CACTATATAC TATTGCAGGG TTCAGGCAGT GAACGTTGCA 
GGTGCAGGCC CTTTCAGTGA AGTAGTAGCA TGTATGACTC CAGCCTCTGT ACCTGCAGTT 
GTGACCTGTC TTCATGGACT AAGTGAAGAT GAAATTGAAA GTCCACACTA TTCTCCTTCC 
ACATGCCTTG CTATAAGCTG GGAAGAGCCT TGTGACCATG GATCTGAAAT CCTTGGCTAC 
AGCATAGACT TTGGAGATAA GCAGCCAATA ACTGTTGGGA AGGAACTGAC CTATTTCATA 
GAAGGCTTAC AGCCAGATAC TACCTACAGG GTACGAATTC AAGCCCTAAA CAGTCTTGGA 
GCAGGTCCTT TCAGCCACAC CATAAAACTG AAAACAAAGC CTCTCCCGCC AGATCCACCT 
CGCCTGGAAT GTGCTGCATA CAGTTCTCAG ACTCTGAAGC TGAAGTGGGG AGAGGGAACT 
GCGAAAGCAT TAACTGATTC CATCCAGTAC CACCTTCAAA TGGAGGATAA GAATGGAAGG 
TTTGTATCCT TATACAGAGG ACCATGTCAT ACATACAAAG TTCAAAGACT CAGTGAGTCA 
ACATCATACA AATTTTGTAT TCAGGCATGT AATGAAGCTG GCGAAGGTCC CCTTTCTCAA 
GAATATATTT TCACTACTCC CAAATCTGTT CCAGCTGCCT TGAAAGCACC AAGGATAGAG 
AGAATAAACG ATCACACTTG TGAAATCACC TGGGAGGTTC TGCAGCCCAT GAAGGGTGAT 
CCAGTTATCT ACTGTCTTCA GGTCATGGTG GGAAAAGACT CAGAATTCAA ACAGATTTAC 
AAGGGCCCGG ACTGGTCATT CCGATACACA GGCCTCCAGC TGAACTGTGA ATACCGATTC 
CGCGCATGTG CCATTCGCCA GTGCCAAGAG GCCACGGGTC ACCAGGACCT GGTGGGCCCC 
TACAGCGCCC CAGCGCTATT CATCTCTCAG AGGACTGAAC CACCGGCAAG CACCAACAAG 
GACACTGTGC AAACCACAAG GACACAATGG TCACAGAGCG ACCAAGTGTG TGCTGCTGTC 
ATCCTTGCAC TTTTTGCTAT CTTTTCCATT CTGATTGCTG TTATCATTCA GTACTTTGTC 
ATAAAGTGA

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

RefSeq	XP_015481216.1
CDS	29..3457
Translation	MSGPAQVPMMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625730.1
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X6, mRNA.

Target ORF information:

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

XM_015625730.1

ORF Insert Sequence:

ATGAGCGGTC CTGCTCAGGT TCCAATGATG TCCCCAAATG GTTCAGTGCC TACTATTTAT 
GTGCCTCCTG GATATGCCCC ACAGGTTATT GAGGATAACG GTGTTCGAAG GGTTGTGGTG 
GTTCCCCAGG CTCCAGAATT TCATCCTGGT GGTCACACAG TGATACACAG GCCTCCACAT 
CCCCCACTGC CCGGCTTCCT TCCTCTTCCA GCCATGATAC CCCCTCCACC CCGTCACATA 
TACTCACCCG TGACTGGAGC CGGTGATATG GCTACGCAGT ACATTCCACA GTATCACACT 
TCGCAAGTCT ATGGGGATGT GGATACTCTG CCTGCTCATG GAAGATCCAA CTTTAGAGAT 
GAAAGGTCGA GTAAAACATA TGAAAGGTTA CAAAAAAAGT TAAAAGATCG ACATGGAACT 
CAGAAGGATA AGTTAAACAG TCCTCCATCA TCTCCTCAGA AATGTCCTTC TCCTACAAGT 
GAACCTAATG GACTTACAAA AGGACAAGAT TCAGCTGGTG TAAGCGCAGG TTCTACCAAA 
TGCAAGTCTT TGGGTAAAGG AAAAGGCAAT TCTCAGACAG ACACAGAAGT GGAAGAAAAG 
GATGAAGAAA CAAAAGCACT GGAAGCACTT CTTTCTAATA TAGCCAAGCC AGTGGTTTCG 
GATATTCAGG CAAGAACAGC CCTGCTGATG TGGTCCCCTC CATCCAGTGA TACTGGAGAA 
GACACAGGCA AGAATGACAT ACCAGAGGTT TATACTTATG AAGTGATGAT TTCAAGTACT 
GGAAAAGATG GAAAGTACAA AACTGTGTAC ATTGGAGAAG AAAATAAAGT TACTGTAAAT 
GATCTTAGGC CAGCAACTGA TTACCATGCA AAAGTCCAAG TAGAATGCAA CTGTGTAAAG 
GGGTGCCCTT CAGAAGCAGA GAGTTTTACC ACAGCAAGTT GTGAACCTGA TACTCCAAAT 
CTGCCCAGGA TAACTAATCG GACCAAAAAT TCTCTTACTC TTCAGTGGAA GGCATCGTGT 
GATAATGGTT CCAAAATCCA CAGTTACCTT TTAGAATGGG ATGAGGGAAA AGGAAATGGA 
GAGTTTTGCC AGTGTTATTG CGGTCAACAG AAGCAGTACA GGATCACTAA ACTATCACCA 
GCAATGGGGT ACACCTTTAG GCTAGCAGCC AAAAATGACA TGGGAATGAG TGATTTTAGT 
GAAGAAGTCC TGTATCATAC CTCAGGCACT GCCCCAACCA CACCAGCAAG TCCTTTGCTG 
ATTAATGCTG GAGTTACTTG GTTATCCCTT CAGTGGACTA AACCCTCAGG AACACCATCA 
GATGAAGGAA TCTCATATAT ATTAGAGATG GAGGATGAGA ACTCAGGATA TGGTTTCAAG 
CCAAAATATG ATGGTGATGA TCTTACCTAC ACGGTGAAGA ATTTGAGGCG TAGTACAAAA 
TATAAATTTA GGGTCATTGC TTATAACTCA GAAGGGAAAA GCAGTCCAAG TGAGACAGTG 
GAGTACATTA CTTGTCCAGA CAAACCTGGA GTACCTTCAA AACCCACAGT GAAAGGAAAA 
ACTCATGCAC AAAGTTTTAA AATAATCTGG GACCCACCGA AAGACAATGG GGGAGCAGCA 
ATAAATACGT ATGTTGTGGA AATGTCTGAA GGCTTAAGTG GAAACAAATG GGATACAATA 
TACAGCGGAG CCGCTAGGGA ACATGTGTGC GACCGACTAA ATCCAGGCTC TTCCTATCGG 
TTACGTGTAT ATTGCATTGG GGAAGGAGGA CAAAGCACGG TATCTGATTC CTTAGTGGTG 
CAGACACCAG CAGTGGTTCC TGGTCCATGC CAGCCCCCAA GGCTACAGGG TAGACCAAGA 
GCAAGAGAAA TTCAGCTGCG CTGGGGACCA CCTCAGGTAG ATGGTGGTTC ACCCATTACC 
TGTTATGGTC TGGAAATGTT TCAGGCAGAA AGCGATGAAC ACAGAGAGGT TTACCAGGGT 
TCTGATGTTG AGTGCACAGT GGGCAGCCTT CTTCCAGGGA GGATGTACAG CTTCAGACTG 
AGAGCAGCTA ACAAGGCTGG GTTTGGACCA TACTCAGAAA AATGTGAAAT AACTACAGCA 
CCTGGACCCC CAGATCAGTG CAAGCCCCCT CAAGTGGCAT GCAGATCTTC TGCCTGCGCT 
CAGGTGTCAT GGGAGGTACC AGTAAGTAAT GGAGCTGATG TCACGGAGTA TCGGCTGGAG 
TGGGGCGGTG TGGAAGGATG CATGCAGATC TCCTATTGTG GGCCTGGGCT CAGCTGTGAA 
GTGAAAGGGC TTTTGCCTGC CACTATATAC TATTGCAGGG TTCAGGCAGT GAACGTTGCA 
GGTGCAGGCC CTTTCAGTGA AGTAGTAGCA TGTATGACTC CAGCCTCTGT ACCTGCAGTT 
GTGACCTGTC TTCATGGACT AAGTGAAGAT GAAATTGAAA GTCCACACTA TTCTCCTTCC 
ACATGCCTTG CTATAAGCTG GGAAGAGCCT TGTGACCATG GATCTGAAAT CCTTGGCTAC 
AGCATAGACT TTGGAGATAA GCAGCCAATA ACTGTTGGGA AGGAACTGAC CTATTTCATA 
GAAGGCTTAC AGCCAGATAC TACCTACAGG GTACGAATTC AAGCCCTAAA CAGTCTTGGA 
GCAGGTCCTT TCAGCCACAC CATAAAACTG AAAACAAAGC CTCTCCCGCC AGATCCACCT 
CGCCTGGAAT GTGCTGCATA CAGTTCTCAG ACTCTGAAGC TGAAGTGGGG AGAGGGAACT 
GCGAAAGCAT TAACTGATTC CATCCAGTAC CACCTTCAAA TGGAGGATAA GAATGGAAGG 
TTTGTATCCT TATACAGAGG ACCATGTCAT ACATACAAAG TTCAAAGACT CAGTGAGTCA 
ACATCATACA AATTTTGTAT TCAGGCATGT AATGAAGCTG GCGAAGGTCC CCTTTCTCAA 
GAATATATTT TCACTACTCC CAAATCTGTT CCAGCTGCCT TGAAAGCACC AAGGATAGAG 
AGAATAAACG ATCACACTTG TGAAATCACC TGGGAGGTTC TGCAGCCCAT GAAGGGTGAT 
CCAGTTATCT ACTGTCTTCA GGTCATGGTG GGAAAAGACT CAGAATTCAA ACAGATTTAC 
AAGGGCCCGG ACTGGTCATT CCGATACACA GGCCTCCAGC TGAACTGTGA ATACCGATTC 
CGCGCATGTG CCATTCGCCA GTGCCAAGAG GCCACGGGTC ACCAGGACCT GGTGGGCCCC 
TACAGCGCCC CAGCGCTATT CATCTCTCAG AGGACTGAAC CACCGGCAAG CACCAACAAG 
GACACTGTGC AAACCACAAG GACACAATGG TCACAGAGCG ACCAAGTGTG TGCTGCTGTC 
ATCCTTGCAC TTTTTGCTAT CTTTTCCATT CTGATTGCTG TTATCATTCA GTACTTTGTC 
ATAAAGTGA

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

FNDC3A ( XM_015625739.1 ) cDNA ORF clone, Parus major(Great Tit) -> XP_015481225.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OPa157202
Clone ID Related Accession (Same CDS sequence)	XM_015625739.1 , XM_019006633.1
Accession Version	XM_015625739.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3405bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) 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 Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGTCCC CAAATGGTTC AGTGCCTACT ATTTATGTGC CTCCTGGATA TGCCCCACAG 
GTTATTGAGG ATAACGGTGT TCGAAGGGTT GTGGTGGTTC CCCAGGCTCC AGAATTTCAT 
CCTGGTGGTC ACACAGTGAT ACACAGGCCT CCACATCCCC CACTGCCCGG CTTCCTTCCT 
CTTCCAGCCA TGATACCCCC TCCACCCCGT CACATATACT CACCCGTGAC TGGAGCCGGT 
GATATGGCTA CGCAGTACAT TCCACAGTAT CACACTTCGC AAGTCTATGG GGATGTGGAT 
ACTCTGCCTG CTCATGGAAG ATCCAACTTT AGAGATGAAA GGTCGAGTAA AACATATGAA 
AGGTTACAAA AAAAGTTAAA AGATCGACAT GGAACTCAGA AGGATAAGTT AAACAGTCCT 
CCATCATCTC CTCAGAAATG TCCTTCTCCT ACAAGTGAAC CTAATGGACT TACAAAAGGA 
CAAGATTCAG CTGGTGTAAG CGCAGGTTCT ACCAAATGCA AGTCTTTGGG TAAAGGAAAA 
GGCAATTCTC AGACAGACAC AGAAGTGGAA GAAAAGGATG AAGAAACAAA AGCACTGGAA 
GCACTTCTTT CTAATATAGC CAAGCCAGTG GTTTCGGATA TTCAGGCAAG AACAGCCCTG 
CTGATGTGGT CCCCTCCATC CAGTGATACT GGAGAAGACA CAGGCAAGAA TGACATACCA 
GAGGTTTATA CTTATGAAGT GATGATTTCA AGTACTGGAA AAGATGGAAA GTACAAAACT 
GTGTACATTG GAGAAGAAAA TAAAGTTACT GTAAATGATC TTAGGCCAGC AACTGATTAC 
CATGCAAAAG TCCAAGTAGA ATGCAACTGT GTAAAGGGGT GCCCTTCAGA AGCAGAGAGT 
TTTACCACAG CAAGTTGTGA ACCTGATACT CCAAATCTGC CCAGGATAAC TAATCGGACC 
AAAAATTCTC TTACTCTTCA GTGGAAGGCA TCGTGTGATA ATGGTTCCAA AATCCACAGT 
TACCTTTTAG AATGGGATGA GGGAAAAGGA AATGGAGAGT TTTGCCAGTG TTATTGCGGT 
CAACAGAAGC AGTACAGGAT CACTAAACTA TCACCAGCAA TGGGGTACAC CTTTAGGCTA 
GCAGCCAAAA ATGACATGGG AATGAGTGAT TTTAGTGAAG AAGTCCTGTA TCATACCTCA 
GGCACTGCCC CAACCACACC AGCAAGTCCT TTGCTGATTA ATGCTGGAGT TACTTGGTTA 
TCCCTTCAGT GGACTAAACC CTCAGGAACA CCATCAGATG AAGGAATCTC ATATATATTA 
GAGATGGAGG ATGAGAACTC AGGATATGGT TTCAAGCCAA AATATGATGG TGATGATCTT 
ACCTACACGG TGAAGAATTT GAGGCGTAGT ACAAAATATA AATTTAGGGT CATTGCTTAT 
AACTCAGAAG GGAAAAGCAG TCCAAGTGAG ACAGTGGAGT ACATTACTTG TCCAGACAAA 
CCTGGAGTAC CTTCAAAACC CACAGTGAAA GGAAAAACTC ATGCACAAAG TTTTAAAATA 
ATCTGGGACC CACCGAAAGA CAATGGGGGA GCAGCAATAA ATACGTATGT TGTGGAAATG 
TCTGAAGGCT TAAGTGGAAA CAAATGGGAT ACAATATACA GCGGAGCCGC TAGGGAACAT 
GTGTGCGACC GACTAAATCC AGGCTCTTCC TATCGGTTAC GTGTATATTG CATTGGGGAA 
GGAGGACAAA GCACGGTATC TGATTCCTTA GTGGTGCAGA CACCAGCAGT GGTTCCTGGT 
CCATGCCAGC CCCCAAGGCT ACAGGGTAGA CCAAGAGCAA GAGAAATTCA GCTGCGCTGG 
GGACCACCTC AGGTAGATGG TGGTTCACCC ATTACCTGTT ATGGTCTGGA AATGTTTCAG 
GCAGAAAGCG ATGAACACAG AGAGGTTTAC CAGGGTTCTG ATGTTGAGTG CACAGTGGGC 
AGCCTTCTTC CAGGGAGGAT GTACAGCTTC AGACTGAGAG CAGCTAACAA GGCTGGGTTT 
GGACCATACT CAGAAAAATG TGAAATAACT ACAGCACCTG GACCCCCAGA TCAGTGCAAG 
CCCCCTCAAG TGGCATGCAG ATCTTCTGCC TGCGCTCAGG TGTCATGGGA GGTACCAGTA 
AGTAATGGAG CTGATGTCAC GGAGTATCGG CTGGAGTGGG GCGGTGTGGA AGGATGCATG 
CAGATCTCCT ATTGTGGGCC TGGGCTCAGC TGTGAAGTGA AAGGGCTTTT GCCTGCCACT 
ATATACTATT GCAGGGTTCA GGCAGTGAAC GTTGCAGGTG CAGGCCCTTT CAGTGAAGTA 
GTAGCATGTA TGACTCCAGC CTCTGTACCT GCAGTTGTGA CCTGTCTTCA TGGACTAAGT 
GAAGATGAAA TTGAAAGTCC ACACTATTCT CCTTCCACAT GCCTTGCTAT AAGCTGGGAA 
GAGCCTTGTG ACCATGGATC TGAAATCCTT GGCTACAGCA TAGACTTTGG AGATAAGCAG 
CCAATAACTG TTGGGAAGGA ACTGACCTAT TTCATAGAAG GCTTACAGCC AGATACTACC 
TACAGGGTAC GAATTCAAGC CCTAAACAGT CTTGGAGCAG GTCCTTTCAG CCACACCATA 
AAACTGAAAA CAAAGCCTCT CCCGCCAGAT CCACCTCGCC TGGAATGTGC TGCATACAGT 
TCTCAGACTC TGAAGCTGAA GTGGGGAGAG GGAACTGCGA AAGCATTAAC TGATTCCATC 
CAGTACCACC TTCAAATGGA GGATAAGAAT GGAAGGTTTG TATCCTTATA CAGAGGACCA 
TGTCATACAT ACAAAGTTCA AAGACTCAGT GAGTCAACAT CATACAAATT TTGTATTCAG 
GCATGTAATG AAGCTGGCGA AGGTCCCCTT TCTCAAGAAT ATATTTTCAC TACTCCCAAA 
TCTGTTCCAG CTGCCTTGAA AGCACCAAGG ATAGAGAGAA TAAACGATCA CACTTGTGAA 
ATCACCTGGG AGGTTCTGCA GCCCATGAAG GGTGATCCAG TTATCTACTG TCTTCAGGTC 
ATGGTGGGAA AAGACTCAGA ATTCAAACAG ATTTACAAGG GCCCGGACTG GTCATTCCGA 
TACACAGGCC TCCAGCTGAA CTGTGAATAC CGATTCCGCG CATGTGCCAT TCGCCAGTGC 
CAAGAGGCCA CGGGTCACCA GGACCTGGTG GGCCCCTACA GCGCCCCAGC GCTATTCATC 
TCTCAGAGGA CTGAACCACC GGCAAGCACC AACAAGGACA CTGTGCAAAC CACAAGGACA 
CAATGGTCAC AGAGCGACCA AGTGTGTGCT GCTGTCATCC TTGCACTTTT TGCTATCTTT 
TCCATTCTGA TTGCTGTTAT CATTCAGTAC TTTGTCATAA AGTGA

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

RefSeq	XP_015481225.1
CDS	38..3442
Translation	MMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_015625739.1
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X8, mRNA.

Target ORF information:

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

XM_015625739.1

ORF Insert Sequence:

ATGATGTCCC CAAATGGTTC AGTGCCTACT ATTTATGTGC CTCCTGGATA TGCCCCACAG 
GTTATTGAGG ATAACGGTGT TCGAAGGGTT GTGGTGGTTC CCCAGGCTCC AGAATTTCAT 
CCTGGTGGTC ACACAGTGAT ACACAGGCCT CCACATCCCC CACTGCCCGG CTTCCTTCCT 
CTTCCAGCCA TGATACCCCC TCCACCCCGT CACATATACT CACCCGTGAC TGGAGCCGGT 
GATATGGCTA CGCAGTACAT TCCACAGTAT CACACTTCGC AAGTCTATGG GGATGTGGAT 
ACTCTGCCTG CTCATGGAAG ATCCAACTTT AGAGATGAAA GGTCGAGTAA AACATATGAA 
AGGTTACAAA AAAAGTTAAA AGATCGACAT GGAACTCAGA AGGATAAGTT AAACAGTCCT 
CCATCATCTC CTCAGAAATG TCCTTCTCCT ACAAGTGAAC CTAATGGACT TACAAAAGGA 
CAAGATTCAG CTGGTGTAAG CGCAGGTTCT ACCAAATGCA AGTCTTTGGG TAAAGGAAAA 
GGCAATTCTC AGACAGACAC AGAAGTGGAA GAAAAGGATG AAGAAACAAA AGCACTGGAA 
GCACTTCTTT CTAATATAGC CAAGCCAGTG GTTTCGGATA TTCAGGCAAG AACAGCCCTG 
CTGATGTGGT CCCCTCCATC CAGTGATACT GGAGAAGACA CAGGCAAGAA TGACATACCA 
GAGGTTTATA CTTATGAAGT GATGATTTCA AGTACTGGAA AAGATGGAAA GTACAAAACT 
GTGTACATTG GAGAAGAAAA TAAAGTTACT GTAAATGATC TTAGGCCAGC AACTGATTAC 
CATGCAAAAG TCCAAGTAGA ATGCAACTGT GTAAAGGGGT GCCCTTCAGA AGCAGAGAGT 
TTTACCACAG CAAGTTGTGA ACCTGATACT CCAAATCTGC CCAGGATAAC TAATCGGACC 
AAAAATTCTC TTACTCTTCA GTGGAAGGCA TCGTGTGATA ATGGTTCCAA AATCCACAGT 
TACCTTTTAG AATGGGATGA GGGAAAAGGA AATGGAGAGT TTTGCCAGTG TTATTGCGGT 
CAACAGAAGC AGTACAGGAT CACTAAACTA TCACCAGCAA TGGGGTACAC CTTTAGGCTA 
GCAGCCAAAA ATGACATGGG AATGAGTGAT TTTAGTGAAG AAGTCCTGTA TCATACCTCA 
GGCACTGCCC CAACCACACC AGCAAGTCCT TTGCTGATTA ATGCTGGAGT TACTTGGTTA 
TCCCTTCAGT GGACTAAACC CTCAGGAACA CCATCAGATG AAGGAATCTC ATATATATTA 
GAGATGGAGG ATGAGAACTC AGGATATGGT TTCAAGCCAA AATATGATGG TGATGATCTT 
ACCTACACGG TGAAGAATTT GAGGCGTAGT ACAAAATATA AATTTAGGGT CATTGCTTAT 
AACTCAGAAG GGAAAAGCAG TCCAAGTGAG ACAGTGGAGT ACATTACTTG TCCAGACAAA 
CCTGGAGTAC CTTCAAAACC CACAGTGAAA GGAAAAACTC ATGCACAAAG TTTTAAAATA 
ATCTGGGACC CACCGAAAGA CAATGGGGGA GCAGCAATAA ATACGTATGT TGTGGAAATG 
TCTGAAGGCT TAAGTGGAAA CAAATGGGAT ACAATATACA GCGGAGCCGC TAGGGAACAT 
GTGTGCGACC GACTAAATCC AGGCTCTTCC TATCGGTTAC GTGTATATTG CATTGGGGAA 
GGAGGACAAA GCACGGTATC TGATTCCTTA GTGGTGCAGA CACCAGCAGT GGTTCCTGGT 
CCATGCCAGC CCCCAAGGCT ACAGGGTAGA CCAAGAGCAA GAGAAATTCA GCTGCGCTGG 
GGACCACCTC AGGTAGATGG TGGTTCACCC ATTACCTGTT ATGGTCTGGA AATGTTTCAG 
GCAGAAAGCG ATGAACACAG AGAGGTTTAC CAGGGTTCTG ATGTTGAGTG CACAGTGGGC 
AGCCTTCTTC CAGGGAGGAT GTACAGCTTC AGACTGAGAG CAGCTAACAA GGCTGGGTTT 
GGACCATACT CAGAAAAATG TGAAATAACT ACAGCACCTG GACCCCCAGA TCAGTGCAAG 
CCCCCTCAAG TGGCATGCAG ATCTTCTGCC TGCGCTCAGG TGTCATGGGA GGTACCAGTA 
AGTAATGGAG CTGATGTCAC GGAGTATCGG CTGGAGTGGG GCGGTGTGGA AGGATGCATG 
CAGATCTCCT ATTGTGGGCC TGGGCTCAGC TGTGAAGTGA AAGGGCTTTT GCCTGCCACT 
ATATACTATT GCAGGGTTCA GGCAGTGAAC GTTGCAGGTG CAGGCCCTTT CAGTGAAGTA 
GTAGCATGTA TGACTCCAGC CTCTGTACCT GCAGTTGTGA CCTGTCTTCA TGGACTAAGT 
GAAGATGAAA TTGAAAGTCC ACACTATTCT CCTTCCACAT GCCTTGCTAT AAGCTGGGAA 
GAGCCTTGTG ACCATGGATC TGAAATCCTT GGCTACAGCA TAGACTTTGG AGATAAGCAG 
CCAATAACTG TTGGGAAGGA ACTGACCTAT TTCATAGAAG GCTTACAGCC AGATACTACC 
TACAGGGTAC GAATTCAAGC CCTAAACAGT CTTGGAGCAG GTCCTTTCAG CCACACCATA 
AAACTGAAAA CAAAGCCTCT CCCGCCAGAT CCACCTCGCC TGGAATGTGC TGCATACAGT 
TCTCAGACTC TGAAGCTGAA GTGGGGAGAG GGAACTGCGA AAGCATTAAC TGATTCCATC 
CAGTACCACC TTCAAATGGA GGATAAGAAT GGAAGGTTTG TATCCTTATA CAGAGGACCA 
TGTCATACAT ACAAAGTTCA AAGACTCAGT GAGTCAACAT CATACAAATT TTGTATTCAG 
GCATGTAATG AAGCTGGCGA AGGTCCCCTT TCTCAAGAAT ATATTTTCAC TACTCCCAAA 
TCTGTTCCAG CTGCCTTGAA AGCACCAAGG ATAGAGAGAA TAAACGATCA CACTTGTGAA 
ATCACCTGGG AGGTTCTGCA GCCCATGAAG GGTGATCCAG TTATCTACTG TCTTCAGGTC 
ATGGTGGGAA AAGACTCAGA ATTCAAACAG ATTTACAAGG GCCCGGACTG GTCATTCCGA 
TACACAGGCC TCCAGCTGAA CTGTGAATAC CGATTCCGCG CATGTGCCAT TCGCCAGTGC 
CAAGAGGCCA CGGGTCACCA GGACCTGGTG GGCCCCTACA GCGCCCCAGC GCTATTCATC 
TCTCAGAGGA CTGAACCACC GGCAAGCACC AACAAGGACA CTGTGCAAAC CACAAGGACA 
CAATGGTCAC AGAGCGACCA AGTGTGTGCT GCTGTCATCC TTGCACTTTT TGCTATCTTT 
TCCATTCTGA TTGCTGTTAT CATTCAGTAC TTTGTCATAA AGTGA

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

FNDC3A ( XM_019006633.1 ) cDNA ORF clone, Parus major(Great Tit) -> XP_018862178.1 Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X7, mRNA.

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CloneID	OPa157202
Clone ID Related Accession (Same CDS sequence)	XM_015625739.1 , XM_019006633.1
Accession Version	XM_019006633.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3405bp) 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	2016-11-13
Organism	Parus major(Great Tit)
Product	fibronectin type-III domain-containing protein 3A isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_031768.1) 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 Version :: Parus major Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGTCCC CAAATGGTTC AGTGCCTACT ATTTATGTGC CTCCTGGATA TGCCCCACAG 
GTTATTGAGG ATAACGGTGT TCGAAGGGTT GTGGTGGTTC CCCAGGCTCC AGAATTTCAT 
CCTGGTGGTC ACACAGTGAT ACACAGGCCT CCACATCCCC CACTGCCCGG CTTCCTTCCT 
CTTCCAGCCA TGATACCCCC TCCACCCCGT CACATATACT CACCCGTGAC TGGAGCCGGT 
GATATGGCTA CGCAGTACAT TCCACAGTAT CACACTTCGC AAGTCTATGG GGATGTGGAT 
ACTCTGCCTG CTCATGGAAG ATCCAACTTT AGAGATGAAA GGTCGAGTAA AACATATGAA 
AGGTTACAAA AAAAGTTAAA AGATCGACAT GGAACTCAGA AGGATAAGTT AAACAGTCCT 
CCATCATCTC CTCAGAAATG TCCTTCTCCT ACAAGTGAAC CTAATGGACT TACAAAAGGA 
CAAGATTCAG CTGGTGTAAG CGCAGGTTCT ACCAAATGCA AGTCTTTGGG TAAAGGAAAA 
GGCAATTCTC AGACAGACAC AGAAGTGGAA GAAAAGGATG AAGAAACAAA AGCACTGGAA 
GCACTTCTTT CTAATATAGC CAAGCCAGTG GTTTCGGATA TTCAGGCAAG AACAGCCCTG 
CTGATGTGGT CCCCTCCATC CAGTGATACT GGAGAAGACA CAGGCAAGAA TGACATACCA 
GAGGTTTATA CTTATGAAGT GATGATTTCA AGTACTGGAA AAGATGGAAA GTACAAAACT 
GTGTACATTG GAGAAGAAAA TAAAGTTACT GTAAATGATC TTAGGCCAGC AACTGATTAC 
CATGCAAAAG TCCAAGTAGA ATGCAACTGT GTAAAGGGGT GCCCTTCAGA AGCAGAGAGT 
TTTACCACAG CAAGTTGTGA ACCTGATACT CCAAATCTGC CCAGGATAAC TAATCGGACC 
AAAAATTCTC TTACTCTTCA GTGGAAGGCA TCGTGTGATA ATGGTTCCAA AATCCACAGT 
TACCTTTTAG AATGGGATGA GGGAAAAGGA AATGGAGAGT TTTGCCAGTG TTATTGCGGT 
CAACAGAAGC AGTACAGGAT CACTAAACTA TCACCAGCAA TGGGGTACAC CTTTAGGCTA 
GCAGCCAAAA ATGACATGGG AATGAGTGAT TTTAGTGAAG AAGTCCTGTA TCATACCTCA 
GGCACTGCCC CAACCACACC AGCAAGTCCT TTGCTGATTA ATGCTGGAGT TACTTGGTTA 
TCCCTTCAGT GGACTAAACC CTCAGGAACA CCATCAGATG AAGGAATCTC ATATATATTA 
GAGATGGAGG ATGAGAACTC AGGATATGGT TTCAAGCCAA AATATGATGG TGATGATCTT 
ACCTACACGG TGAAGAATTT GAGGCGTAGT ACAAAATATA AATTTAGGGT CATTGCTTAT 
AACTCAGAAG GGAAAAGCAG TCCAAGTGAG ACAGTGGAGT ACATTACTTG TCCAGACAAA 
CCTGGAGTAC CTTCAAAACC CACAGTGAAA GGAAAAACTC ATGCACAAAG TTTTAAAATA 
ATCTGGGACC CACCGAAAGA CAATGGGGGA GCAGCAATAA ATACGTATGT TGTGGAAATG 
TCTGAAGGCT TAAGTGGAAA CAAATGGGAT ACAATATACA GCGGAGCCGC TAGGGAACAT 
GTGTGCGACC GACTAAATCC AGGCTCTTCC TATCGGTTAC GTGTATATTG CATTGGGGAA 
GGAGGACAAA GCACGGTATC TGATTCCTTA GTGGTGCAGA CACCAGCAGT GGTTCCTGGT 
CCATGCCAGC CCCCAAGGCT ACAGGGTAGA CCAAGAGCAA GAGAAATTCA GCTGCGCTGG 
GGACCACCTC AGGTAGATGG TGGTTCACCC ATTACCTGTT ATGGTCTGGA AATGTTTCAG 
GCAGAAAGCG ATGAACACAG AGAGGTTTAC CAGGGTTCTG ATGTTGAGTG CACAGTGGGC 
AGCCTTCTTC CAGGGAGGAT GTACAGCTTC AGACTGAGAG CAGCTAACAA GGCTGGGTTT 
GGACCATACT CAGAAAAATG TGAAATAACT ACAGCACCTG GACCCCCAGA TCAGTGCAAG 
CCCCCTCAAG TGGCATGCAG ATCTTCTGCC TGCGCTCAGG TGTCATGGGA GGTACCAGTA 
AGTAATGGAG CTGATGTCAC GGAGTATCGG CTGGAGTGGG GCGGTGTGGA AGGATGCATG 
CAGATCTCCT ATTGTGGGCC TGGGCTCAGC TGTGAAGTGA AAGGGCTTTT GCCTGCCACT 
ATATACTATT GCAGGGTTCA GGCAGTGAAC GTTGCAGGTG CAGGCCCTTT CAGTGAAGTA 
GTAGCATGTA TGACTCCAGC CTCTGTACCT GCAGTTGTGA CCTGTCTTCA TGGACTAAGT 
GAAGATGAAA TTGAAAGTCC ACACTATTCT CCTTCCACAT GCCTTGCTAT AAGCTGGGAA 
GAGCCTTGTG ACCATGGATC TGAAATCCTT GGCTACAGCA TAGACTTTGG AGATAAGCAG 
CCAATAACTG TTGGGAAGGA ACTGACCTAT TTCATAGAAG GCTTACAGCC AGATACTACC 
TACAGGGTAC GAATTCAAGC CCTAAACAGT CTTGGAGCAG GTCCTTTCAG CCACACCATA 
AAACTGAAAA CAAAGCCTCT CCCGCCAGAT CCACCTCGCC TGGAATGTGC TGCATACAGT 
TCTCAGACTC TGAAGCTGAA GTGGGGAGAG GGAACTGCGA AAGCATTAAC TGATTCCATC 
CAGTACCACC TTCAAATGGA GGATAAGAAT GGAAGGTTTG TATCCTTATA CAGAGGACCA 
TGTCATACAT ACAAAGTTCA AAGACTCAGT GAGTCAACAT CATACAAATT TTGTATTCAG 
GCATGTAATG AAGCTGGCGA AGGTCCCCTT TCTCAAGAAT ATATTTTCAC TACTCCCAAA 
TCTGTTCCAG CTGCCTTGAA AGCACCAAGG ATAGAGAGAA TAAACGATCA CACTTGTGAA 
ATCACCTGGG AGGTTCTGCA GCCCATGAAG GGTGATCCAG TTATCTACTG TCTTCAGGTC 
ATGGTGGGAA AAGACTCAGA ATTCAAACAG ATTTACAAGG GCCCGGACTG GTCATTCCGA 
TACACAGGCC TCCAGCTGAA CTGTGAATAC CGATTCCGCG CATGTGCCAT TCGCCAGTGC 
CAAGAGGCCA CGGGTCACCA GGACCTGGTG GGCCCCTACA GCGCCCCAGC GCTATTCATC 
TCTCAGAGGA CTGAACCACC GGCAAGCACC AACAAGGACA CTGTGCAAAC CACAAGGACA 
CAATGGTCAC AGAGCGACCA AGTGTGTGCT GCTGTCATCC TTGCACTTTT TGCTATCTTT 
TCCATTCTGA TTGCTGTTAT CATTCAGTAC TTTGTCATAA AGTGA

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

RefSeq	XP_018862178.1
CDS	351..3755
Translation	MMSPNGSVPTIYVPPGYAPQVIEDNGVRRVVVVPQAPEFHPGGHTVIHRPPHPPLPGFLPLPAMIPPPPRHIYSPVTGAGDMATQYIPQYHTSQVYGDVDTLPAHGRSNFRDERSSKTYERLQKKLKDRHGTQKDKLNSPPSSPQKCPSPTSEPNGLTKGQDSAGVSAGSTKCKSLGKGKGNSQTDTEVEEKDEETKALEALLSNIAKPVVSDIQARTALLMWSPPSSDTGEDTGKNDIPEVYTYEVMISSTGKDGKYKTVYIGEENKVTVNDLRPATDYHAKVQVECNCVKGCPSEAESFTTASCEPDTPNLPRITNRTKNSLTLQWKASCDNGSKIHSYLLEWDEGKGNGEFCQCYCGQQKQYRITKLSPAMGYTFRLAAKNDMGMSDFSEEVLYHTSGTAPTTPASPLLINAGVTWLSLQWTKPSGTPSDEGISYILEMEDENSGYGFKPKYDGDDLTYTVKNLRRSTKYKFRVIAYNSEGKSSPSETVEYITCPDKPGVPSKPTVKGKTHAQSFKIIWDPPKDNGGAAINTYVVEMSEGLSGNKWDTIYSGAAREHVCDRLNPGSSYRLRVYCIGEGGQSTVSDSLVVQTPAVVPGPCQPPRLQGRPRAREIQLRWGPPQVDGGSPITCYGLEMFQAESDEHREVYQGSDVECTVGSLLPGRMYSFRLRAANKAGFGPYSEKCEITTAPGPPDQCKPPQVACRSSACAQVSWEVPVSNGADVTEYRLEWGGVEGCMQISYCGPGLSCEVKGLLPATIYYCRVQAVNVAGAGPFSEVVACMTPASVPAVVTCLHGLSEDEIESPHYSPSTCLAISWEEPCDHGSEILGYSIDFGDKQPITVGKELTYFIEGLQPDTTYRVRIQALNSLGAGPFSHTIKLKTKPLPPDPPRLECAAYSSQTLKLKWGEGTAKALTDSIQYHLQMEDKNGRFVSLYRGPCHTYKVQRLSESTSYKFCIQACNEAGEGPLSQEYIFTTPKSVPAALKAPRIERINDHTCEITWEVLQPMKGDPVIYCLQVMVGKDSEFKQIYKGPDWSFRYTGLQLNCEYRFRACAIRQCQEATGHQDLVGPYSAPALFISQRTEPPASTNKDTVQTTRTQWSQSDQVCAAVILALFAIFSILIAVIIQYFVIK

Target ORF information:

RefSeq Version	XM_019006633.1
Organism	Parus major(Great Tit)
Definition	Parus major fibronectin type III domain containing 3A (FNDC3A), transcript variant X7, mRNA.

Target ORF information:

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

XM_019006633.1

ORF Insert Sequence:

ATGATGTCCC CAAATGGTTC AGTGCCTACT ATTTATGTGC CTCCTGGATA TGCCCCACAG 
GTTATTGAGG ATAACGGTGT TCGAAGGGTT GTGGTGGTTC CCCAGGCTCC AGAATTTCAT 
CCTGGTGGTC ACACAGTGAT ACACAGGCCT CCACATCCCC CACTGCCCGG CTTCCTTCCT 
CTTCCAGCCA TGATACCCCC TCCACCCCGT CACATATACT CACCCGTGAC TGGAGCCGGT 
GATATGGCTA CGCAGTACAT TCCACAGTAT CACACTTCGC AAGTCTATGG GGATGTGGAT 
ACTCTGCCTG CTCATGGAAG ATCCAACTTT AGAGATGAAA GGTCGAGTAA AACATATGAA 
AGGTTACAAA AAAAGTTAAA AGATCGACAT GGAACTCAGA AGGATAAGTT AAACAGTCCT 
CCATCATCTC CTCAGAAATG TCCTTCTCCT ACAAGTGAAC CTAATGGACT TACAAAAGGA 
CAAGATTCAG CTGGTGTAAG CGCAGGTTCT ACCAAATGCA AGTCTTTGGG TAAAGGAAAA 
GGCAATTCTC AGACAGACAC AGAAGTGGAA GAAAAGGATG AAGAAACAAA AGCACTGGAA 
GCACTTCTTT CTAATATAGC CAAGCCAGTG GTTTCGGATA TTCAGGCAAG AACAGCCCTG 
CTGATGTGGT CCCCTCCATC CAGTGATACT GGAGAAGACA CAGGCAAGAA TGACATACCA 
GAGGTTTATA CTTATGAAGT GATGATTTCA AGTACTGGAA AAGATGGAAA GTACAAAACT 
GTGTACATTG GAGAAGAAAA TAAAGTTACT GTAAATGATC TTAGGCCAGC AACTGATTAC 
CATGCAAAAG TCCAAGTAGA ATGCAACTGT GTAAAGGGGT GCCCTTCAGA AGCAGAGAGT 
TTTACCACAG CAAGTTGTGA ACCTGATACT CCAAATCTGC CCAGGATAAC TAATCGGACC 
AAAAATTCTC TTACTCTTCA GTGGAAGGCA TCGTGTGATA ATGGTTCCAA AATCCACAGT 
TACCTTTTAG AATGGGATGA GGGAAAAGGA AATGGAGAGT TTTGCCAGTG TTATTGCGGT 
CAACAGAAGC AGTACAGGAT CACTAAACTA TCACCAGCAA TGGGGTACAC CTTTAGGCTA 
GCAGCCAAAA ATGACATGGG AATGAGTGAT TTTAGTGAAG AAGTCCTGTA TCATACCTCA 
GGCACTGCCC CAACCACACC AGCAAGTCCT TTGCTGATTA ATGCTGGAGT TACTTGGTTA 
TCCCTTCAGT GGACTAAACC CTCAGGAACA CCATCAGATG AAGGAATCTC ATATATATTA 
GAGATGGAGG ATGAGAACTC AGGATATGGT TTCAAGCCAA AATATGATGG TGATGATCTT 
ACCTACACGG TGAAGAATTT GAGGCGTAGT ACAAAATATA AATTTAGGGT CATTGCTTAT 
AACTCAGAAG GGAAAAGCAG TCCAAGTGAG ACAGTGGAGT ACATTACTTG TCCAGACAAA 
CCTGGAGTAC CTTCAAAACC CACAGTGAAA GGAAAAACTC ATGCACAAAG TTTTAAAATA 
ATCTGGGACC CACCGAAAGA CAATGGGGGA GCAGCAATAA ATACGTATGT TGTGGAAATG 
TCTGAAGGCT TAAGTGGAAA CAAATGGGAT ACAATATACA GCGGAGCCGC TAGGGAACAT 
GTGTGCGACC GACTAAATCC AGGCTCTTCC TATCGGTTAC GTGTATATTG CATTGGGGAA 
GGAGGACAAA GCACGGTATC TGATTCCTTA GTGGTGCAGA CACCAGCAGT GGTTCCTGGT 
CCATGCCAGC CCCCAAGGCT ACAGGGTAGA CCAAGAGCAA GAGAAATTCA GCTGCGCTGG 
GGACCACCTC AGGTAGATGG TGGTTCACCC ATTACCTGTT ATGGTCTGGA AATGTTTCAG 
GCAGAAAGCG ATGAACACAG AGAGGTTTAC CAGGGTTCTG ATGTTGAGTG CACAGTGGGC 
AGCCTTCTTC CAGGGAGGAT GTACAGCTTC AGACTGAGAG CAGCTAACAA GGCTGGGTTT 
GGACCATACT CAGAAAAATG TGAAATAACT ACAGCACCTG GACCCCCAGA TCAGTGCAAG 
CCCCCTCAAG TGGCATGCAG ATCTTCTGCC TGCGCTCAGG TGTCATGGGA GGTACCAGTA 
AGTAATGGAG CTGATGTCAC GGAGTATCGG CTGGAGTGGG GCGGTGTGGA AGGATGCATG 
CAGATCTCCT ATTGTGGGCC TGGGCTCAGC TGTGAAGTGA AAGGGCTTTT GCCTGCCACT 
ATATACTATT GCAGGGTTCA GGCAGTGAAC GTTGCAGGTG CAGGCCCTTT CAGTGAAGTA 
GTAGCATGTA TGACTCCAGC CTCTGTACCT GCAGTTGTGA CCTGTCTTCA TGGACTAAGT 
GAAGATGAAA TTGAAAGTCC ACACTATTCT CCTTCCACAT GCCTTGCTAT AAGCTGGGAA 
GAGCCTTGTG ACCATGGATC TGAAATCCTT GGCTACAGCA TAGACTTTGG AGATAAGCAG 
CCAATAACTG TTGGGAAGGA ACTGACCTAT TTCATAGAAG GCTTACAGCC AGATACTACC 
TACAGGGTAC GAATTCAAGC CCTAAACAGT CTTGGAGCAG GTCCTTTCAG CCACACCATA 
AAACTGAAAA CAAAGCCTCT CCCGCCAGAT CCACCTCGCC TGGAATGTGC TGCATACAGT 
TCTCAGACTC TGAAGCTGAA GTGGGGAGAG GGAACTGCGA AAGCATTAAC TGATTCCATC 
CAGTACCACC TTCAAATGGA GGATAAGAAT GGAAGGTTTG TATCCTTATA CAGAGGACCA 
TGTCATACAT ACAAAGTTCA AAGACTCAGT GAGTCAACAT CATACAAATT TTGTATTCAG 
GCATGTAATG AAGCTGGCGA AGGTCCCCTT TCTCAAGAAT ATATTTTCAC TACTCCCAAA 
TCTGTTCCAG CTGCCTTGAA AGCACCAAGG ATAGAGAGAA TAAACGATCA CACTTGTGAA 
ATCACCTGGG AGGTTCTGCA GCCCATGAAG GGTGATCCAG TTATCTACTG TCTTCAGGTC 
ATGGTGGGAA AAGACTCAGA ATTCAAACAG ATTTACAAGG GCCCGGACTG GTCATTCCGA 
TACACAGGCC TCCAGCTGAA CTGTGAATAC CGATTCCGCG CATGTGCCAT TCGCCAGTGC 
CAAGAGGCCA CGGGTCACCA GGACCTGGTG GGCCCCTACA GCGCCCCAGC GCTATTCATC 
TCTCAGAGGA CTGAACCACC GGCAAGCACC AACAAGGACA CTGTGCAAAC CACAAGGACA 
CAATGGTCAC AGAGCGACCA AGTGTGTGCT GCTGTCATCC TTGCACTTTT TGCTATCTTT 
TCCATTCTGA TTGCTGTTAT CATTCAGTAC TTTGTCATAA AGTGA

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

PubMed

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[email protected]

電話

03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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オンライン注文

FNDC3A cDNA ORF clone, Parus major(Great Tit)

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:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム