KDM3A cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	KDM3A
Entrez Gene ID	100226356
Full Name	lysine demethylase 3A
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002187320.4	XP_002187356.2	lysine-specific demethylase 3A
XM_030270504.1	XP_030126364.1	lysine-specific demethylase 3A
XM_002187320.3	XP_002187356.1	lysine-specific demethylase 3A

Pathways from BioSystems
Gene Ontology

The following KDM3A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KDM3A 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)
OTd09847	XM_002187320.3 Latest version!	Taeniopygia guttata lysine (K)-specific demethylase 3A (KDM3A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd43889	XM_030270504.1 Latest version!	Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd43889	XM_002187320.4 Latest version!	Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

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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)

KDM3A ( XM_002187320.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002187356.1 Taeniopygia guttata lysine (K)-specific demethylase 3A (KDM3A), mRNA.

Price & Availability↑

CloneID	OTd09847
Clone ID Related Accession (Same CDS sequence)	XM_002187320.3
Accession Version	XM_002187320.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3972bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	lysine-specific demethylase 3A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198638.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002187320.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAAG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACATACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAT CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTATGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTTTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT GAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCAGTG GCACTCTTGA ACTGCAGCGA 
ACTTTAGACT GCAGACCCTC AACCTCAGAT GCTCATCTTC TGTCCTTCAG TGAGTGTGGA 
GTTAAATCAC AATGCAGCTG CAACAGCCAC AGAGGAAACA AGATTGATGA ACTTGCAGAC 
ATGGAGTATT TTATTAGGAG AAATTCAAAT GAGATTCTTT GTGACAGAAG TGAAAGTGAA 
AGCTTTTGGA CTGGAAGTGC CAAGGTCCAA GATAATATAA TGGTTCGCAA GTCCATTTTA 
TCTGATGCTG CTAAAGTGAA GAAGCTGCAG CAGAGCGGGG AGGCATTTGT GCAGGATGGC 
TCCTGCAATA ACATCGCCCC TCACCTGCAC AAGTGCCGGG AGTGCCGCCT GGACAGCTAC 
CGCAAGAACA AGGAGCAGCG AGACTCCACC GTCTTCTGCC GCTTCTTCCA CTTCAGGAGG 
CTGCAGTTTA ATAAGCATGG AATATTGCGT GAGGAAGGTT TCTTAACTCC AAATAAGTAT 
GACCCTGAGG CAATTAGCCT GTGGCTACCT TTATCCAAAA ATGTTGTGGG TCTAGATCTG 
GACACAGCAA AGTACATCCT CGCCAACATT GGAGACCACT TCTGCCAGCT GGTGATTTCT 
GAAAAGGAAG TCATGTCAAC GATTGAACCA CACAGACAGG TGGCCTGGAA GCGCGCGGTT 
CGCGGCGTTC GCGAGATGTG CGACGTCTGC GACACCACCA TCTTCAACCT GCACTGGGTC 
TGCTCCAAGT GTGGCTTTGG TGTGTGTGTG GATTGCTACA GGATGAGGAA AAAAAGCTCA 
CATGAAGATG ATGACTCGGA TACTTTCTCC TGGTTTAAAT GTGTGAAGGG GCAGGCACAT 
GAACCAGAGA ATCTAATGCC TACACAAATA ATTCCTGGAA AAGCTCTCTA TGATGTTGGT 
GACATCGTTC ACTCTGTAAG AACAAAATGG GGCATAAAGG CAAATTGTCC TTGTGCAAAT 
AAGCAGTTCA AAGCACTATC AAAGCCAGCT CTAAAGGAGG ATTCCAAACA GCACTTGGCA 
TCTGGGGACA GACCCGGACT TCAACAAAAC AGTTTTGTCC TCAGCTCACA AGTCACTACA 
CACGATCCTC CTCTAAAGTC AGCACTTGGA AGTAAACAAA CTACTTCTGT AAATACTTCT 
CCTTCATTAA ATTGGTTTTC AAACCTAACA AGTGGAAATG TGAATAAAGA AAACAAAGAG 
AAACTTCTCA TACCAATTTC AAAGAATGAA AATAAACCTC TTCAGACACT CCCTAGCTTA 
GCCAAGCCAG CTGCAGCCCT GCAGACATTC AACAGTGCAA TATTAACCCC TGTGAGCAAC 
AACAACACTG GATTCTTGCG GAACCTGTTG AACTCTTCTG CAGGAAAGAC AGACAATGGA 
CTGAAGAGCA CACCCAAAAT CCTTGATGAC ATTTTTGCTT CCCTGGTGCA AAATAGAGCC 
ATTACAGACT TGCCTAAGAA ACCTCAAGGG CTGACCATAA AGCCCACGAT AATGGGCTTT 
GACACGCCCC ACTACTGGTT GTGTGATAAC CGCCTGCTGT GTCTCCAGGA TCCCAACAAC 
GAAAGCAATT GGAATGTCTT CAGGGAGTGC TGGAAGCAGG GACAGCCTGT AATGGTGTCA 
GGAGTGCATC ACAAGTTAAA TGCAGACCTC TGGAGACCGG AGTCCTTTAG GAAGGAATTT 
GGCCAACAGG AAGTAGATCT GGTTAACTGC AGGACCAATG AAATCATCAC TGGAGCTACT 
GTAGGGGATT TCTGGGATGG TTTTGAAGAT ATTTCAAGTC GCCTGAGAAC AGAAGAGGGA 
GAGCCAATGG TATTGAAGCT TAAGGACTGG CCTCCAGGAG AAGACTTCAG AGATATGATG 
CCCTCTCGGT TTGATGATTT GATGAAAAAT ATCCCATTGC CAGAATATAC CAGGAGAGGT 
GGCAAACTCA ACCTTGCCTC TCGACTTCCC AACTATTTTG TGCGACCGGA TTTGGGCCCC 
AAGATGTACA ATGCCTATGG CTTAATAACA CCAGAGGACA GAAAATATGG CACAACAAAC 
CTTCACTTGG ATGTGTCTGA CGCAGCCAAT GTCATGGTTT ACGTGGGGAT CCCCAAAGGC 
CAGGCTGATC AAGAAGAAGA AGTGCTGAAG ACCATCCAGG ATGGTGATTC TGACGAACTG 
ACAATTAAGC GTTTTACTGA AAGCCGAGAA AAGCCTGGAG CTCTGTGGCA CATTTACGCT 
GCCAAAGATA CAGAGAAAAT CCGGGAGTTC CTTAAGAAGG TTGCAGAAGA ACAAGGCCAA 
GAAAACCCTG TAGATCACGA TCCCATTCAT GATCAGAGTT GGTACCTGGA CCGGTCGCTG 
AGGAAACGCC TCCATCAGGA GTACGGAGTT CAAGGCTGGG CTATTGTACA GTTTCTAGGA 
GATGTAGTTT TCATCCCAGC AGGAGCTCCA CACCAGGTTC ATAATTTGTA CAGTTGTATT 
AAAGTTGCAG AAGACTTTGT CTCCCCAGAG CATGTCAAAC ACTGCTTCTG GCTCACTCAG 
GAATTTAGAT ATCTGTCACA TACGCATACG AACCATGAAG ATAAATTGCA GGTGAAGAAT 
GTCATATACC ACGCTGTTAA AGATGCAGTT GGGATACTGA GAGCTAACGA ATCCAGCCTT 
AGCAGACCGT GA

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

RefSeq	XP_002187356.1
CDS	48..4019
Translation	MVLRLEGSWSLLVGKRFLCLSEEEDRTWDASLISEWPWKSGRIRAVSHTDISKQDLKICVEFDDESWEKRRWIEVYSRMMIAFLVEQKLVLAERKTQSMPPVQWPAMTYKSLVDKAGMGSLVSVRYLGEEKCVFLSKDLLTPIQDVDGSRLSLKDDQNVNEEIQALVKKHLDETRLVQGGKNIIGSKIRIYSLDPSTQWFTAVVVNGNPATRTLEVNCQEIPALKTLDPELIHVEIIYDNNGKCDKSKRIGGVKRKSSDSSESVDVKHTKSSPEVSPSQGHVQSVPTVLGEALLGCTPANKDQRHPGLPLPANSPPNLGAETPQGTCRRSLPETHPSCLNTGVKPLTEELTAFPKVGLMSKEQTKNPSDQNGKYTSLKTSRSSSLTDSANEKGTTMKNNNEPFMKATTNFPKECISMKQLQHPNPSIAIPRGSGTLELQRTLDCRPSTSDAHLLSFSECGVKSQCSCNSHRGNKIDELADMEYFIRRNSNEILCDRSESESFWTGSAKVQDNIMVRKSILSDAAKVKKLQQSGEAFVQDGSCNNIAPHLHKCRECRLDSYRKNKEQRDSTVFCRFFHFRRLQFNKHGILREEGFLTPNKYDPEAISLWLPLSKNVVGLDLDTAKYILANIGDHFCQLVISEKEVMSTIEPHRQVAWKRAVRGVREMCDVCDTTIFNLHWVCSKCGFGVCVDCYRMRKKSSHEDDDSDTFSWFKCVKGQAHEPENLMPTQIIPGKALYDVGDIVHSVRTKWGIKANCPCANKQFKALSKPALKEDSKQHLASGDRPGLQQNSFVLSSQVTTHDPPLKSALGSKQTTSVNTSPSLNWFSNLTSGNVNKENKEKLLIPISKNENKPLQTLPSLAKPAAALQTFNSAILTPVSNNNTGFLRNLLNSSAGKTDNGLKSTPKILDDIFASLVQNRAITDLPKKPQGLTIKPTIMGFDTPHYWLCDNRLLCLQDPNNESNWNVFRECWKQGQPVMVSGVHHKLNADLWRPESFRKEFGQQEVDLVNCRTNEIITGATVGDFWDGFEDISSRLRTEEGEPMVLKLKDWPPGEDFRDMMPSRFDDLMKNIPLPEYTRRGGKLNLASRLPNYFVRPDLGPKMYNAYGLITPEDRKYGTTNLHLDVSDAANVMVYVGIPKGQADQEEEVLKTIQDGDSDELTIKRFTESREKPGALWHIYAAKDTEKIREFLKKVAEEQGQENPVDHDPIHDQSWYLDRSLRKRLHQEYGVQGWAIVQFLGDVVFIPAGAPHQVHNLYSCIKVAEDFVSPEHVKHCFWLTQEFRYLSHTHTNHEDKLQVKNVIYHAVKDAVGILRANESSLSRP

Target ORF information:

RefSeq Version	XM_002187320.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata lysine (K)-specific demethylase 3A (KDM3A), mRNA.

Target ORF information:

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

XM_002187320.3

ORF Insert Sequence:

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAAG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACATACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAT CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTATGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTTTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT GAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCAGTG GCACTCTTGA ACTGCAGCGA 
ACTTTAGACT GCAGACCCTC AACCTCAGAT GCTCATCTTC TGTCCTTCAG TGAGTGTGGA 
GTTAAATCAC AATGCAGCTG CAACAGCCAC AGAGGAAACA AGATTGATGA ACTTGCAGAC 
ATGGAGTATT TTATTAGGAG AAATTCAAAT GAGATTCTTT GTGACAGAAG TGAAAGTGAA 
AGCTTTTGGA CTGGAAGTGC CAAGGTCCAA GATAATATAA TGGTTCGCAA GTCCATTTTA 
TCTGATGCTG CTAAAGTGAA GAAGCTGCAG CAGAGCGGGG AGGCATTTGT GCAGGATGGC 
TCCTGCAATA ACATCGCCCC TCACCTGCAC AAGTGCCGGG AGTGCCGCCT GGACAGCTAC 
CGCAAGAACA AGGAGCAGCG AGACTCCACC GTCTTCTGCC GCTTCTTCCA CTTCAGGAGG 
CTGCAGTTTA ATAAGCATGG AATATTGCGT GAGGAAGGTT TCTTAACTCC AAATAAGTAT 
GACCCTGAGG CAATTAGCCT GTGGCTACCT TTATCCAAAA ATGTTGTGGG TCTAGATCTG 
GACACAGCAA AGTACATCCT CGCCAACATT GGAGACCACT TCTGCCAGCT GGTGATTTCT 
GAAAAGGAAG TCATGTCAAC GATTGAACCA CACAGACAGG TGGCCTGGAA GCGCGCGGTT 
CGCGGCGTTC GCGAGATGTG CGACGTCTGC GACACCACCA TCTTCAACCT GCACTGGGTC 
TGCTCCAAGT GTGGCTTTGG TGTGTGTGTG GATTGCTACA GGATGAGGAA AAAAAGCTCA 
CATGAAGATG ATGACTCGGA TACTTTCTCC TGGTTTAAAT GTGTGAAGGG GCAGGCACAT 
GAACCAGAGA ATCTAATGCC TACACAAATA ATTCCTGGAA AAGCTCTCTA TGATGTTGGT 
GACATCGTTC ACTCTGTAAG AACAAAATGG GGCATAAAGG CAAATTGTCC TTGTGCAAAT 
AAGCAGTTCA AAGCACTATC AAAGCCAGCT CTAAAGGAGG ATTCCAAACA GCACTTGGCA 
TCTGGGGACA GACCCGGACT TCAACAAAAC AGTTTTGTCC TCAGCTCACA AGTCACTACA 
CACGATCCTC CTCTAAAGTC AGCACTTGGA AGTAAACAAA CTACTTCTGT AAATACTTCT 
CCTTCATTAA ATTGGTTTTC AAACCTAACA AGTGGAAATG TGAATAAAGA AAACAAAGAG 
AAACTTCTCA TACCAATTTC AAAGAATGAA AATAAACCTC TTCAGACACT CCCTAGCTTA 
GCCAAGCCAG CTGCAGCCCT GCAGACATTC AACAGTGCAA TATTAACCCC TGTGAGCAAC 
AACAACACTG GATTCTTGCG GAACCTGTTG AACTCTTCTG CAGGAAAGAC AGACAATGGA 
CTGAAGAGCA CACCCAAAAT CCTTGATGAC ATTTTTGCTT CCCTGGTGCA AAATAGAGCC 
ATTACAGACT TGCCTAAGAA ACCTCAAGGG CTGACCATAA AGCCCACGAT AATGGGCTTT 
GACACGCCCC ACTACTGGTT GTGTGATAAC CGCCTGCTGT GTCTCCAGGA TCCCAACAAC 
GAAAGCAATT GGAATGTCTT CAGGGAGTGC TGGAAGCAGG GACAGCCTGT AATGGTGTCA 
GGAGTGCATC ACAAGTTAAA TGCAGACCTC TGGAGACCGG AGTCCTTTAG GAAGGAATTT 
GGCCAACAGG AAGTAGATCT GGTTAACTGC AGGACCAATG AAATCATCAC TGGAGCTACT 
GTAGGGGATT TCTGGGATGG TTTTGAAGAT ATTTCAAGTC GCCTGAGAAC AGAAGAGGGA 
GAGCCAATGG TATTGAAGCT TAAGGACTGG CCTCCAGGAG AAGACTTCAG AGATATGATG 
CCCTCTCGGT TTGATGATTT GATGAAAAAT ATCCCATTGC CAGAATATAC CAGGAGAGGT 
GGCAAACTCA ACCTTGCCTC TCGACTTCCC AACTATTTTG TGCGACCGGA TTTGGGCCCC 
AAGATGTACA ATGCCTATGG CTTAATAACA CCAGAGGACA GAAAATATGG CACAACAAAC 
CTTCACTTGG ATGTGTCTGA CGCAGCCAAT GTCATGGTTT ACGTGGGGAT CCCCAAAGGC 
CAGGCTGATC AAGAAGAAGA AGTGCTGAAG ACCATCCAGG ATGGTGATTC TGACGAACTG 
ACAATTAAGC GTTTTACTGA AAGCCGAGAA AAGCCTGGAG CTCTGTGGCA CATTTACGCT 
GCCAAAGATA CAGAGAAAAT CCGGGAGTTC CTTAAGAAGG TTGCAGAAGA ACAAGGCCAA 
GAAAACCCTG TAGATCACGA TCCCATTCAT GATCAGAGTT GGTACCTGGA CCGGTCGCTG 
AGGAAACGCC TCCATCAGGA GTACGGAGTT CAAGGCTGGG CTATTGTACA GTTTCTAGGA 
GATGTAGTTT TCATCCCAGC AGGAGCTCCA CACCAGGTTC ATAATTTGTA CAGTTGTATT 
AAAGTTGCAG AAGACTTTGT CTCCCCAGAG CATGTCAAAC ACTGCTTCTG GCTCACTCAG 
GAATTTAGAT ATCTGTCACA TACGCATACG AACCATGAAG ATAAATTGCA GGTGAAGAAT 
GTCATATACC ACGCTGTTAA AGATGCAGTT GGGATACTGA GAGCTAACGA ATCCAGCCTT 
AGCAGACCGT GA

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

KDM3A ( XM_002187320.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002187356.2 Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd43889
Clone ID Related Accession (Same CDS sequence)	XM_002187320.4 , XM_030270504.1
Accession Version	XM_002187320.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3966bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	lysine-specific demethylase 3A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002187320.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAGG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACACACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAC CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTTTGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTCTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT AAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCACTC TTGAACTGCA GCGAACTTTA 
GATTGCAGAC CCTCAACCTC AGATGCTCAT CTTCTGTCCT TCAGTGAGTG TGGAGTTAAA 
TCACAATGCA GCTGCAACAG CCACAGAGGA AACAAGATTG ATGAACTTGC AGACATGGAG 
TATTTTATTA GGAGAAATTC AAATGAGATT CTTTGTGACA GAAGTGAAAG TGAAAGCTTT 
TGGACTGGAA GTGCCAAGGT CCAGGATAAT ATAATGGTTC GCAAGTCCAT TTTATCTGAT 
GCTGCTAAAG TGAAGAAGCT GCAGCAGAGC GGGGAGGCAT TTGTGCAGGA TGGCTCCTGC 
AATAACATCG CCCCTCACCT GCACAAGTGC CGGGAGTGCC GCCTGGACAG CTACCGCAAG 
AACAAGGAGC AGCGAGACTC CACCGTCTTC TGCCGCTTCT TCCACTTCAG GAGGCTGCAG 
TTTAATAAGC ATGGAATATT GCGTGAGGAA GGTTTCTTAA CTCCAAATAA GTATGACCCT 
GAGGCAATTA GCCTGTGGCT ACCTTTATCC AAAAATGTTG TGGGTCTAGA TCTGGACACA 
GCAAAGTACA TCCTCGCCAA CATTGGAGAC CACTTCTGCC AGCTGGTGAT TTCTGAAAAG 
GAAGTAATGT CAACGATTGA ACCACACAGA CAGGTGGCCT GGAAGCGCGC GGTTCGCGGC 
GTTCGCGAGA TGTGCGACGT CTGCGACACC ACCATCTTCA ACCTGCACTG GGTCTGCTCC 
AAGTGTGGCT TTGGTGTGTG CGTGGATTGC TACAGGATGA GGAAAAAAAG CTCACATGAA 
GATGATGACT CGGATACTTT CTCCTGGTTT AAATGTGTGA AGGGGCAGGC ACATGAACCA 
GAGAATCTAA TGCCTACACA AATAATTCCT GGAAAAGCTC TCTATGATGT TGGTGACATC 
GTTCACTCCG TAAGAACAAA ATGGGGCATA AAGGCAAATT GTCCTTGTGC AAATAAGCAG 
TTCAAAGCAC TATCAAAGCC AGCTCTAAAG GAGGATTCCA AACAGCACTT GGCATCTGGG 
GACAGACCCG GACTTCAACA AAACAGTTTT GTCCTCAGCT CACAAGTCAC TACACACGAT 
CCTCCTCTAA AGTCAGCACT TGGAAGTAAA CAAACTACTT CTGTAAATAC TTCTCCTTCA 
TTAAATTGGT TTTCAAACCT AACAAGTGGA AATGTGAATA AAGAAAACAA AGAGAAACTT 
CTCATACCAA TTTCAAAGAA TGAAAATAAA CCTCTTCAGA CACTCCCTAG CTTAGCCAAG 
CCAGCTGCAG CCCTGCAGAC ATTCAACAGT GCAATATTAA CCCCTGTGAG CAACAACAAC 
ACTGGATTCT TGCGGAACCT GTTGAACTCT TCTGCAGGAA AGACAGACAA TGGACTGAAG 
AGCACACCCA AAATCCTTGA TGACATTTTT GCTTCCCTGG TGCAAAATAG AGCCATTACA 
GACTTGCCTA AGAAACCTCA AGGGCTGACC ATAAAGCCCA CGATAATGGG CTTTGACACG 
CCCCACTACT GGTTGTGTGA TAACCGCCTG CTGTGTCTCC AGGATCCCAA CAACGAAAGC 
AATTGGAATG TCTTCAGGGA GTGCTGGAAG CAGGGACAGC CTGTAATGGT GTCAGGAGTG 
CATCACAAGT TAAATGCAGA CCTCTGGAGA CCGGAGTCCT TTAGGAAGGA ATTTGGCCAA 
CAGGAAGTAG ATCTGGTTAA CTGCAGGACC AATGAAATCA TCACTGGAGC TACTGTAGGG 
GATTTCTGGG ATGGTTTTGA AGATATTTCA AGTCGCCTGA GAACAGAAGA GGGAGAGCCA 
ATGGTATTGA AGCTTAAGGA CTGGCCTCCA GGAGAAGACT TCAGAGATAT GATGCCCTCT 
CGGTTTGATG ATTTGATGAA AAATATCCCA TTGCCAGAAT ATACCAGGAG AGGTGGCAAA 
CTCAACCTTG CCTCTCGACT TCCCAACTAT TTTGTGCGAC CGGATTTGGG CCCCAAGATG 
TACAATGCCT ATGGCTTAAT AACACCAGAG GACAGAAAAT ATGGCACAAC AAACCTTCAC 
TTGGATGTGT CTGACGCAGC CAATGTCATG GTTTACGTGG GGATCCCCAA AGGCCAGGCT 
GATCAAGAAG AAGAAGTGCT GAAGACCATC CAGGATGGTG ATTCTGACGA ACTGACAATT 
AAGCGTTTTA CTGAAAGCCG AGAAAAGCCT GGAGCTCTGT GGCACATTTA CGCTGCCAAA 
GATACAGAGA AAATCCGGGA GTTCCTTAAG AAGGTTGCAG AAGAACAAGG CCAAGAAAAC 
CCTGTAGATC ACGATCCCAT TCATGATCAG AGTTGGTACC TGGACCGGTC GCTGAGGAAA 
CGCCTCCATC AGGAGTACGG AGTTCAAGGC TGGGCTATTG TACAGTTTCT AGGAGATGTA 
GTTTTCATCC CAGCAGGAGC TCCACACCAG GTTCATAATT TGTACAGTTG TATTAAAGTT 
GCAGAAGACT TTGTCTCCCC AGAGCATGTC AAACACTGCT TCTGGCTCAC TCAGGAATTT 
AGATATCTGT CACATACGCA TACGAACCAT GAAGATAAAT TGCAGGTGAA GAATGTCATA 
TACCACGCTG TTAAAGATGC AGTTGGGATA CTGAGAGCTA ACGAATCCAG CCTTAGCAGA 
CCGTGA

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

RefSeq	XP_002187356.2
CDS	161..4126
Translation	MVLRLEGSWSLLVGKRFLCLSEEEDRTWDASLISEWPWKSGRIRAVSHTDISKQDLKICVEFDDESWEKRRWIEVYSRMMIAFLVEQKLVLAERKTQSMPPVQWPAMTYKSLVDKAGMGSLVSVRYLGEEKCVFLSKDLLTPIQDVDGSRLSLKDDQNVNEEIQALVKKHLDETRLVQGGKNIIGSKIRIYSLDPSTQWFTAVVVNGNPATRTLEVNCQEIPALKTLDPELIHVEIIYDNNGKCDKSKRIGGVKRKSSDSSESVDVKHTKSSPEVSPSQGHVQSVPTVLGEALLGCTPANKDQRHPGLPLPANSPPNLGAETPQGTCRRSLPETHPSCLNTGVKPLTEELTAFPKVGLLSKEQTKNPSDQNGKYTSLKTSRSSSLTDSANEKGTTMKNNNEPLMKATTNFPKECISIKQLQHPNPSIAIPRGTLELQRTLDCRPSTSDAHLLSFSECGVKSQCSCNSHRGNKIDELADMEYFIRRNSNEILCDRSESESFWTGSAKVQDNIMVRKSILSDAAKVKKLQQSGEAFVQDGSCNNIAPHLHKCRECRLDSYRKNKEQRDSTVFCRFFHFRRLQFNKHGILREEGFLTPNKYDPEAISLWLPLSKNVVGLDLDTAKYILANIGDHFCQLVISEKEVMSTIEPHRQVAWKRAVRGVREMCDVCDTTIFNLHWVCSKCGFGVCVDCYRMRKKSSHEDDDSDTFSWFKCVKGQAHEPENLMPTQIIPGKALYDVGDIVHSVRTKWGIKANCPCANKQFKALSKPALKEDSKQHLASGDRPGLQQNSFVLSSQVTTHDPPLKSALGSKQTTSVNTSPSLNWFSNLTSGNVNKENKEKLLIPISKNENKPLQTLPSLAKPAAALQTFNSAILTPVSNNNTGFLRNLLNSSAGKTDNGLKSTPKILDDIFASLVQNRAITDLPKKPQGLTIKPTIMGFDTPHYWLCDNRLLCLQDPNNESNWNVFRECWKQGQPVMVSGVHHKLNADLWRPESFRKEFGQQEVDLVNCRTNEIITGATVGDFWDGFEDISSRLRTEEGEPMVLKLKDWPPGEDFRDMMPSRFDDLMKNIPLPEYTRRGGKLNLASRLPNYFVRPDLGPKMYNAYGLITPEDRKYGTTNLHLDVSDAANVMVYVGIPKGQADQEEEVLKTIQDGDSDELTIKRFTESREKPGALWHIYAAKDTEKIREFLKKVAEEQGQENPVDHDPIHDQSWYLDRSLRKRLHQEYGVQGWAIVQFLGDVVFIPAGAPHQVHNLYSCIKVAEDFVSPEHVKHCFWLTQEFRYLSHTHTNHEDKLQVKNVIYHAVKDAVGILRANESSLSRP

Target ORF information:

RefSeq Version	XM_002187320.4
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X2, mRNA.

Target ORF information:

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

XM_002187320.4

ORF Insert Sequence:

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAGG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACACACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAC CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTTTGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTCTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT AAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCACTC TTGAACTGCA GCGAACTTTA 
GATTGCAGAC CCTCAACCTC AGATGCTCAT CTTCTGTCCT TCAGTGAGTG TGGAGTTAAA 
TCACAATGCA GCTGCAACAG CCACAGAGGA AACAAGATTG ATGAACTTGC AGACATGGAG 
TATTTTATTA GGAGAAATTC AAATGAGATT CTTTGTGACA GAAGTGAAAG TGAAAGCTTT 
TGGACTGGAA GTGCCAAGGT CCAGGATAAT ATAATGGTTC GCAAGTCCAT TTTATCTGAT 
GCTGCTAAAG TGAAGAAGCT GCAGCAGAGC GGGGAGGCAT TTGTGCAGGA TGGCTCCTGC 
AATAACATCG CCCCTCACCT GCACAAGTGC CGGGAGTGCC GCCTGGACAG CTACCGCAAG 
AACAAGGAGC AGCGAGACTC CACCGTCTTC TGCCGCTTCT TCCACTTCAG GAGGCTGCAG 
TTTAATAAGC ATGGAATATT GCGTGAGGAA GGTTTCTTAA CTCCAAATAA GTATGACCCT 
GAGGCAATTA GCCTGTGGCT ACCTTTATCC AAAAATGTTG TGGGTCTAGA TCTGGACACA 
GCAAAGTACA TCCTCGCCAA CATTGGAGAC CACTTCTGCC AGCTGGTGAT TTCTGAAAAG 
GAAGTAATGT CAACGATTGA ACCACACAGA CAGGTGGCCT GGAAGCGCGC GGTTCGCGGC 
GTTCGCGAGA TGTGCGACGT CTGCGACACC ACCATCTTCA ACCTGCACTG GGTCTGCTCC 
AAGTGTGGCT TTGGTGTGTG CGTGGATTGC TACAGGATGA GGAAAAAAAG CTCACATGAA 
GATGATGACT CGGATACTTT CTCCTGGTTT AAATGTGTGA AGGGGCAGGC ACATGAACCA 
GAGAATCTAA TGCCTACACA AATAATTCCT GGAAAAGCTC TCTATGATGT TGGTGACATC 
GTTCACTCCG TAAGAACAAA ATGGGGCATA AAGGCAAATT GTCCTTGTGC AAATAAGCAG 
TTCAAAGCAC TATCAAAGCC AGCTCTAAAG GAGGATTCCA AACAGCACTT GGCATCTGGG 
GACAGACCCG GACTTCAACA AAACAGTTTT GTCCTCAGCT CACAAGTCAC TACACACGAT 
CCTCCTCTAA AGTCAGCACT TGGAAGTAAA CAAACTACTT CTGTAAATAC TTCTCCTTCA 
TTAAATTGGT TTTCAAACCT AACAAGTGGA AATGTGAATA AAGAAAACAA AGAGAAACTT 
CTCATACCAA TTTCAAAGAA TGAAAATAAA CCTCTTCAGA CACTCCCTAG CTTAGCCAAG 
CCAGCTGCAG CCCTGCAGAC ATTCAACAGT GCAATATTAA CCCCTGTGAG CAACAACAAC 
ACTGGATTCT TGCGGAACCT GTTGAACTCT TCTGCAGGAA AGACAGACAA TGGACTGAAG 
AGCACACCCA AAATCCTTGA TGACATTTTT GCTTCCCTGG TGCAAAATAG AGCCATTACA 
GACTTGCCTA AGAAACCTCA AGGGCTGACC ATAAAGCCCA CGATAATGGG CTTTGACACG 
CCCCACTACT GGTTGTGTGA TAACCGCCTG CTGTGTCTCC AGGATCCCAA CAACGAAAGC 
AATTGGAATG TCTTCAGGGA GTGCTGGAAG CAGGGACAGC CTGTAATGGT GTCAGGAGTG 
CATCACAAGT TAAATGCAGA CCTCTGGAGA CCGGAGTCCT TTAGGAAGGA ATTTGGCCAA 
CAGGAAGTAG ATCTGGTTAA CTGCAGGACC AATGAAATCA TCACTGGAGC TACTGTAGGG 
GATTTCTGGG ATGGTTTTGA AGATATTTCA AGTCGCCTGA GAACAGAAGA GGGAGAGCCA 
ATGGTATTGA AGCTTAAGGA CTGGCCTCCA GGAGAAGACT TCAGAGATAT GATGCCCTCT 
CGGTTTGATG ATTTGATGAA AAATATCCCA TTGCCAGAAT ATACCAGGAG AGGTGGCAAA 
CTCAACCTTG CCTCTCGACT TCCCAACTAT TTTGTGCGAC CGGATTTGGG CCCCAAGATG 
TACAATGCCT ATGGCTTAAT AACACCAGAG GACAGAAAAT ATGGCACAAC AAACCTTCAC 
TTGGATGTGT CTGACGCAGC CAATGTCATG GTTTACGTGG GGATCCCCAA AGGCCAGGCT 
GATCAAGAAG AAGAAGTGCT GAAGACCATC CAGGATGGTG ATTCTGACGA ACTGACAATT 
AAGCGTTTTA CTGAAAGCCG AGAAAAGCCT GGAGCTCTGT GGCACATTTA CGCTGCCAAA 
GATACAGAGA AAATCCGGGA GTTCCTTAAG AAGGTTGCAG AAGAACAAGG CCAAGAAAAC 
CCTGTAGATC ACGATCCCAT TCATGATCAG AGTTGGTACC TGGACCGGTC GCTGAGGAAA 
CGCCTCCATC AGGAGTACGG AGTTCAAGGC TGGGCTATTG TACAGTTTCT AGGAGATGTA 
GTTTTCATCC CAGCAGGAGC TCCACACCAG GTTCATAATT TGTACAGTTG TATTAAAGTT 
GCAGAAGACT TTGTCTCCCC AGAGCATGTC AAACACTGCT TCTGGCTCAC TCAGGAATTT 
AGATATCTGT CACATACGCA TACGAACCAT GAAGATAAAT TGCAGGTGAA GAATGTCATA 
TACCACGCTG TTAAAGATGC AGTTGGGATA CTGAGAGCTA ACGAATCCAG CCTTAGCAGA 
CCGTGA

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

KDM3A ( XM_030270504.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126364.1 Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X1, mRNA.

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CloneID	OTd43889
Clone ID Related Accession (Same CDS sequence)	XM_002187320.4 , XM_030270504.1
Accession Version	XM_030270504.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3966bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	lysine-specific demethylase 3A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAGG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACACACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAC CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTTTGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTCTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT AAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCACTC TTGAACTGCA GCGAACTTTA 
GATTGCAGAC CCTCAACCTC AGATGCTCAT CTTCTGTCCT TCAGTGAGTG TGGAGTTAAA 
TCACAATGCA GCTGCAACAG CCACAGAGGA AACAAGATTG ATGAACTTGC AGACATGGAG 
TATTTTATTA GGAGAAATTC AAATGAGATT CTTTGTGACA GAAGTGAAAG TGAAAGCTTT 
TGGACTGGAA GTGCCAAGGT CCAGGATAAT ATAATGGTTC GCAAGTCCAT TTTATCTGAT 
GCTGCTAAAG TGAAGAAGCT GCAGCAGAGC GGGGAGGCAT TTGTGCAGGA TGGCTCCTGC 
AATAACATCG CCCCTCACCT GCACAAGTGC CGGGAGTGCC GCCTGGACAG CTACCGCAAG 
AACAAGGAGC AGCGAGACTC CACCGTCTTC TGCCGCTTCT TCCACTTCAG GAGGCTGCAG 
TTTAATAAGC ATGGAATATT GCGTGAGGAA GGTTTCTTAA CTCCAAATAA GTATGACCCT 
GAGGCAATTA GCCTGTGGCT ACCTTTATCC AAAAATGTTG TGGGTCTAGA TCTGGACACA 
GCAAAGTACA TCCTCGCCAA CATTGGAGAC CACTTCTGCC AGCTGGTGAT TTCTGAAAAG 
GAAGTAATGT CAACGATTGA ACCACACAGA CAGGTGGCCT GGAAGCGCGC GGTTCGCGGC 
GTTCGCGAGA TGTGCGACGT CTGCGACACC ACCATCTTCA ACCTGCACTG GGTCTGCTCC 
AAGTGTGGCT TTGGTGTGTG CGTGGATTGC TACAGGATGA GGAAAAAAAG CTCACATGAA 
GATGATGACT CGGATACTTT CTCCTGGTTT AAATGTGTGA AGGGGCAGGC ACATGAACCA 
GAGAATCTAA TGCCTACACA AATAATTCCT GGAAAAGCTC TCTATGATGT TGGTGACATC 
GTTCACTCCG TAAGAACAAA ATGGGGCATA AAGGCAAATT GTCCTTGTGC AAATAAGCAG 
TTCAAAGCAC TATCAAAGCC AGCTCTAAAG GAGGATTCCA AACAGCACTT GGCATCTGGG 
GACAGACCCG GACTTCAACA AAACAGTTTT GTCCTCAGCT CACAAGTCAC TACACACGAT 
CCTCCTCTAA AGTCAGCACT TGGAAGTAAA CAAACTACTT CTGTAAATAC TTCTCCTTCA 
TTAAATTGGT TTTCAAACCT AACAAGTGGA AATGTGAATA AAGAAAACAA AGAGAAACTT 
CTCATACCAA TTTCAAAGAA TGAAAATAAA CCTCTTCAGA CACTCCCTAG CTTAGCCAAG 
CCAGCTGCAG CCCTGCAGAC ATTCAACAGT GCAATATTAA CCCCTGTGAG CAACAACAAC 
ACTGGATTCT TGCGGAACCT GTTGAACTCT TCTGCAGGAA AGACAGACAA TGGACTGAAG 
AGCACACCCA AAATCCTTGA TGACATTTTT GCTTCCCTGG TGCAAAATAG AGCCATTACA 
GACTTGCCTA AGAAACCTCA AGGGCTGACC ATAAAGCCCA CGATAATGGG CTTTGACACG 
CCCCACTACT GGTTGTGTGA TAACCGCCTG CTGTGTCTCC AGGATCCCAA CAACGAAAGC 
AATTGGAATG TCTTCAGGGA GTGCTGGAAG CAGGGACAGC CTGTAATGGT GTCAGGAGTG 
CATCACAAGT TAAATGCAGA CCTCTGGAGA CCGGAGTCCT TTAGGAAGGA ATTTGGCCAA 
CAGGAAGTAG ATCTGGTTAA CTGCAGGACC AATGAAATCA TCACTGGAGC TACTGTAGGG 
GATTTCTGGG ATGGTTTTGA AGATATTTCA AGTCGCCTGA GAACAGAAGA GGGAGAGCCA 
ATGGTATTGA AGCTTAAGGA CTGGCCTCCA GGAGAAGACT TCAGAGATAT GATGCCCTCT 
CGGTTTGATG ATTTGATGAA AAATATCCCA TTGCCAGAAT ATACCAGGAG AGGTGGCAAA 
CTCAACCTTG CCTCTCGACT TCCCAACTAT TTTGTGCGAC CGGATTTGGG CCCCAAGATG 
TACAATGCCT ATGGCTTAAT AACACCAGAG GACAGAAAAT ATGGCACAAC AAACCTTCAC 
TTGGATGTGT CTGACGCAGC CAATGTCATG GTTTACGTGG GGATCCCCAA AGGCCAGGCT 
GATCAAGAAG AAGAAGTGCT GAAGACCATC CAGGATGGTG ATTCTGACGA ACTGACAATT 
AAGCGTTTTA CTGAAAGCCG AGAAAAGCCT GGAGCTCTGT GGCACATTTA CGCTGCCAAA 
GATACAGAGA AAATCCGGGA GTTCCTTAAG AAGGTTGCAG AAGAACAAGG CCAAGAAAAC 
CCTGTAGATC ACGATCCCAT TCATGATCAG AGTTGGTACC TGGACCGGTC GCTGAGGAAA 
CGCCTCCATC AGGAGTACGG AGTTCAAGGC TGGGCTATTG TACAGTTTCT AGGAGATGTA 
GTTTTCATCC CAGCAGGAGC TCCACACCAG GTTCATAATT TGTACAGTTG TATTAAAGTT 
GCAGAAGACT TTGTCTCCCC AGAGCATGTC AAACACTGCT TCTGGCTCAC TCAGGAATTT 
AGATATCTGT CACATACGCA TACGAACCAT GAAGATAAAT TGCAGGTGAA GAATGTCATA 
TACCACGCTG TTAAAGATGC AGTTGGGATA CTGAGAGCTA ACGAATCCAG CCTTAGCAGA 
CCGTGA

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

RefSeq	XP_030126364.1
CDS	390..4355
Translation	MVLRLEGSWSLLVGKRFLCLSEEEDRTWDASLISEWPWKSGRIRAVSHTDISKQDLKICVEFDDESWEKRRWIEVYSRMMIAFLVEQKLVLAERKTQSMPPVQWPAMTYKSLVDKAGMGSLVSVRYLGEEKCVFLSKDLLTPIQDVDGSRLSLKDDQNVNEEIQALVKKHLDETRLVQGGKNIIGSKIRIYSLDPSTQWFTAVVVNGNPATRTLEVNCQEIPALKTLDPELIHVEIIYDNNGKCDKSKRIGGVKRKSSDSSESVDVKHTKSSPEVSPSQGHVQSVPTVLGEALLGCTPANKDQRHPGLPLPANSPPNLGAETPQGTCRRSLPETHPSCLNTGVKPLTEELTAFPKVGLLSKEQTKNPSDQNGKYTSLKTSRSSSLTDSANEKGTTMKNNNEPLMKATTNFPKECISIKQLQHPNPSIAIPRGTLELQRTLDCRPSTSDAHLLSFSECGVKSQCSCNSHRGNKIDELADMEYFIRRNSNEILCDRSESESFWTGSAKVQDNIMVRKSILSDAAKVKKLQQSGEAFVQDGSCNNIAPHLHKCRECRLDSYRKNKEQRDSTVFCRFFHFRRLQFNKHGILREEGFLTPNKYDPEAISLWLPLSKNVVGLDLDTAKYILANIGDHFCQLVISEKEVMSTIEPHRQVAWKRAVRGVREMCDVCDTTIFNLHWVCSKCGFGVCVDCYRMRKKSSHEDDDSDTFSWFKCVKGQAHEPENLMPTQIIPGKALYDVGDIVHSVRTKWGIKANCPCANKQFKALSKPALKEDSKQHLASGDRPGLQQNSFVLSSQVTTHDPPLKSALGSKQTTSVNTSPSLNWFSNLTSGNVNKENKEKLLIPISKNENKPLQTLPSLAKPAAALQTFNSAILTPVSNNNTGFLRNLLNSSAGKTDNGLKSTPKILDDIFASLVQNRAITDLPKKPQGLTIKPTIMGFDTPHYWLCDNRLLCLQDPNNESNWNVFRECWKQGQPVMVSGVHHKLNADLWRPESFRKEFGQQEVDLVNCRTNEIITGATVGDFWDGFEDISSRLRTEEGEPMVLKLKDWPPGEDFRDMMPSRFDDLMKNIPLPEYTRRGGKLNLASRLPNYFVRPDLGPKMYNAYGLITPEDRKYGTTNLHLDVSDAANVMVYVGIPKGQADQEEEVLKTIQDGDSDELTIKRFTESREKPGALWHIYAAKDTEKIREFLKKVAEEQGQENPVDHDPIHDQSWYLDRSLRKRLHQEYGVQGWAIVQFLGDVVFIPAGAPHQVHNLYSCIKVAEDFVSPEHVKHCFWLTQEFRYLSHTHTNHEDKLQVKNVIYHAVKDAVGILRANESSLSRP

Target ORF information:

RefSeq Version	XM_030270504.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata lysine demethylase 3A (KDM3A), transcript variant X1, mRNA.

Target ORF information:

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

XM_030270504.1

ORF Insert Sequence:

ATGGTGCTGA GGCTCGAGGG GAGCTGGTCG CTGCTCGTAG GGAAGAGGTT CCTCTGCCTG 
TCGGAAGAGG AGGACAGGAC GTGGGACGCC AGCCTCATCT CGGAATGGCC CTGGAAGTCG 
GGCAGGATCC GGGCTGTGTC ACACACGGAC ATATCCAAAC AAGACCTGAA GATTTGTGTA 
GAATTTGATG ACGAGTCATG GGAAAAGCGA AGATGGATAG AAGTCTACAG CAGGATGATG 
ATAGCATTCC TGGTGGAGCA AAAGCTGGTG CTGGCTGAAA GAAAAACCCA GTCCATGCCT 
CCTGTCCAGT GGCCTGCAAT GACCTACAAA TCCTTAGTGG ACAAAGCTGG AATGGGATCG 
CTGGTTTCAG TGCGCTACCT GGGTGAAGAG AAATGTGTTT TCCTTTCTAA AGACCTCTTG 
ACACCCATCC AGGATGTGGA TGGTTCCAGG CTTTCTCTTA AAGATGATCA AAATGTAAAT 
GAAGAAATTC AGGCTCTGGT TAAGAAACAC CTTGATGAGA CACGCTTGGT CCAAGGTGGA 
AAAAATATAA TTGGCTCAAA AATTAGGATT TATAGCCTGG ACCCTTCTAC TCAGTGGTTC 
ACAGCAGTTG TTGTCAATGG TAATCCAGCT ACAAGAACTC TAGAAGTCAA CTGTCAGGAG 
ATTCCAGCTT TAAAAACTCT TGATCCAGAA TTAATTCATG TTGAAATCAT ATATGACAAC 
AATGGAAAAT GTGATAAATC AAAAAGAATT GGGGGTGTGA AAAGGAAGTC ATCTGACAGC 
AGTGAAAGTG TTGATGTTAA ACACACAAAA TCTTCTCCTG AGGTTTCTCC CAGTCAAGGA 
CATGTGCAGT CAGTACCAAC TGTGCTGGGT GAAGCCCTGC TGGGATGTAC TCCTGCAAAT 
AAAGACCAAA GGCACCCAGG CCTGCCCCTG CCAGCCAACT CACCACCCAA CCTTGGTGCA 
GAAACTCCTC AGGGTACATG TAGACGAAGC CTACCGGAAA CTCACCCTTC CTGTCTTAAT 
ACTGGAGTTA AACCATTGAC AGAAGAGCTG ACAGCCTTTC CTAAAGTGGG GCTTTTGTCT 
AAAGAACAAA CAAAAAATCC TAGTGATCAA AATGGTAAAT ATACCTCTTT GAAAACCTCA 
AGATCTTCAT CTTTGACTGA TTCAGCTAAT GAAAAGGGAA CCACCATGAA GAATAATAAT 
GAACCTCTTA TGAAGGCCAC AACAAACTTT CCCAAGGAAT GCATTTCCAT AAAACAGTTG 
CAGCATCCCA ACCCTTCCAT AGCAATACCC AGAGGCACTC TTGAACTGCA GCGAACTTTA 
GATTGCAGAC CCTCAACCTC AGATGCTCAT CTTCTGTCCT TCAGTGAGTG TGGAGTTAAA 
TCACAATGCA GCTGCAACAG CCACAGAGGA AACAAGATTG ATGAACTTGC AGACATGGAG 
TATTTTATTA GGAGAAATTC AAATGAGATT CTTTGTGACA GAAGTGAAAG TGAAAGCTTT 
TGGACTGGAA GTGCCAAGGT CCAGGATAAT ATAATGGTTC GCAAGTCCAT TTTATCTGAT 
GCTGCTAAAG TGAAGAAGCT GCAGCAGAGC GGGGAGGCAT TTGTGCAGGA TGGCTCCTGC 
AATAACATCG CCCCTCACCT GCACAAGTGC CGGGAGTGCC GCCTGGACAG CTACCGCAAG 
AACAAGGAGC AGCGAGACTC CACCGTCTTC TGCCGCTTCT TCCACTTCAG GAGGCTGCAG 
TTTAATAAGC ATGGAATATT GCGTGAGGAA GGTTTCTTAA CTCCAAATAA GTATGACCCT 
GAGGCAATTA GCCTGTGGCT ACCTTTATCC AAAAATGTTG TGGGTCTAGA TCTGGACACA 
GCAAAGTACA TCCTCGCCAA CATTGGAGAC CACTTCTGCC AGCTGGTGAT TTCTGAAAAG 
GAAGTAATGT CAACGATTGA ACCACACAGA CAGGTGGCCT GGAAGCGCGC GGTTCGCGGC 
GTTCGCGAGA TGTGCGACGT CTGCGACACC ACCATCTTCA ACCTGCACTG GGTCTGCTCC 
AAGTGTGGCT TTGGTGTGTG CGTGGATTGC TACAGGATGA GGAAAAAAAG CTCACATGAA 
GATGATGACT CGGATACTTT CTCCTGGTTT AAATGTGTGA AGGGGCAGGC ACATGAACCA 
GAGAATCTAA TGCCTACACA AATAATTCCT GGAAAAGCTC TCTATGATGT TGGTGACATC 
GTTCACTCCG TAAGAACAAA ATGGGGCATA AAGGCAAATT GTCCTTGTGC AAATAAGCAG 
TTCAAAGCAC TATCAAAGCC AGCTCTAAAG GAGGATTCCA AACAGCACTT GGCATCTGGG 
GACAGACCCG GACTTCAACA AAACAGTTTT GTCCTCAGCT CACAAGTCAC TACACACGAT 
CCTCCTCTAA AGTCAGCACT TGGAAGTAAA CAAACTACTT CTGTAAATAC TTCTCCTTCA 
TTAAATTGGT TTTCAAACCT AACAAGTGGA AATGTGAATA AAGAAAACAA AGAGAAACTT 
CTCATACCAA TTTCAAAGAA TGAAAATAAA CCTCTTCAGA CACTCCCTAG CTTAGCCAAG 
CCAGCTGCAG CCCTGCAGAC ATTCAACAGT GCAATATTAA CCCCTGTGAG CAACAACAAC 
ACTGGATTCT TGCGGAACCT GTTGAACTCT TCTGCAGGAA AGACAGACAA TGGACTGAAG 
AGCACACCCA AAATCCTTGA TGACATTTTT GCTTCCCTGG TGCAAAATAG AGCCATTACA 
GACTTGCCTA AGAAACCTCA AGGGCTGACC ATAAAGCCCA CGATAATGGG CTTTGACACG 
CCCCACTACT GGTTGTGTGA TAACCGCCTG CTGTGTCTCC AGGATCCCAA CAACGAAAGC 
AATTGGAATG TCTTCAGGGA GTGCTGGAAG CAGGGACAGC CTGTAATGGT GTCAGGAGTG 
CATCACAAGT TAAATGCAGA CCTCTGGAGA CCGGAGTCCT TTAGGAAGGA ATTTGGCCAA 
CAGGAAGTAG ATCTGGTTAA CTGCAGGACC AATGAAATCA TCACTGGAGC TACTGTAGGG 
GATTTCTGGG ATGGTTTTGA AGATATTTCA AGTCGCCTGA GAACAGAAGA GGGAGAGCCA 
ATGGTATTGA AGCTTAAGGA CTGGCCTCCA GGAGAAGACT TCAGAGATAT GATGCCCTCT 
CGGTTTGATG ATTTGATGAA AAATATCCCA TTGCCAGAAT ATACCAGGAG AGGTGGCAAA 
CTCAACCTTG CCTCTCGACT TCCCAACTAT TTTGTGCGAC CGGATTTGGG CCCCAAGATG 
TACAATGCCT ATGGCTTAAT AACACCAGAG GACAGAAAAT ATGGCACAAC AAACCTTCAC 
TTGGATGTGT CTGACGCAGC CAATGTCATG GTTTACGTGG GGATCCCCAA AGGCCAGGCT 
GATCAAGAAG AAGAAGTGCT GAAGACCATC CAGGATGGTG ATTCTGACGA ACTGACAATT 
AAGCGTTTTA CTGAAAGCCG AGAAAAGCCT GGAGCTCTGT GGCACATTTA CGCTGCCAAA 
GATACAGAGA AAATCCGGGA GTTCCTTAAG AAGGTTGCAG AAGAACAAGG CCAAGAAAAC 
CCTGTAGATC ACGATCCCAT TCATGATCAG AGTTGGTACC TGGACCGGTC GCTGAGGAAA 
CGCCTCCATC AGGAGTACGG AGTTCAAGGC TGGGCTATTG TACAGTTTCT AGGAGATGTA 
GTTTTCATCC CAGCAGGAGC TCCACACCAG GTTCATAATT TGTACAGTTG TATTAAAGTT 
GCAGAAGACT TTGTCTCCCC AGAGCATGTC AAACACTGCT TCTGGCTCAC TCAGGAATTT 
AGATATCTGT CACATACGCA TACGAACCAT GAAGATAAAT TGCAGGTGAA GAATGTCATA 
TACCACGCTG TTAAAGATGC AGTTGGGATA CTGAGAGCTA ACGAATCCAG CCTTAGCAGA 
CCGTGA

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

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KDM3A cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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