KANSL1L cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	KANSL1L
Entrez Gene ID	102884695
Full Name	KAT8 regulatory NSL complex subunit 1 like
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015596468.1	XP_015451954.1	KAT8 regulatory NSL complex subunit 1-like protein
XM_015596468.2	XP_015451954.1	KAT8 regulatory NSL complex subunit 1-like protein

Pathways from BioSystems
Gene Ontology

The following KANSL1L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KANSL1L 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)
OPt25565	XM_015596468.2 Latest version!	Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
View Old Accession Versions >>
OPt25565	XM_015596468.1	Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
Hide Old Accession Versions >>

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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)

KANSL1L ( XM_015596468.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_015451954.1 Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.

Price & Availability↑

CloneID	OPt25565
Clone ID Related Accession (Same CDS sequence)	XM_015596468.1 , XM_015596468.2
Accession Version	XM_015596468.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2958bp) 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	2016-02-09
Organism	Pteropus alecto(black flying fox)
Product	KAT8 regulatory NSL complex subunit 1-like protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006442484.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACCCCAG CTCTGAGGGA GGCAGCAACA AAGGGTATCT GCTTTTCATC TTTACCAAGT 
ACCATGGAGT CTGACAAGAT GCTATGCATG GAGAGTCCAA GAACTGTAGA TGAAAAACTA 
AAGGGAGACA CTTTCTCTCA GATGCTGGGA TTTCCAACTC CCGAACCTAC TCTTAACACT 
AATTTTGTGA ATTTAAAACA TTTTGGCTCT CCTCAGTCTT CAAAACATTA TCAGACAGTT 
CTTTTAATGA CTTCTAATTC TACATTAAAT AAATACAATG AGAATTATAA ACAAAAGAAA 
TTAGGGGAGC CCAATTGCAA TAAACTGAAA AACATACTGT GTAATGGCAG CAACATTCAG 
CTCACTAAAA TCTGTCATTC TCATTCTGAA GAGTTCATCA AAAAGGAATC TCTGTCAGAT 
ACCACAAGCC AGTGCATGAC AGATGTAAAA ATTATTTTGG ATTCAAATAT AACCAAAGAC 
ATTAATATAG ATAAAGTACA ACTACAAAAT TGTAAATGGT ACCAAAAGAA TGCACTTTTG 
GATACAGTTA CTGATGCTGA GAGTAAAAAG GGTTTGTTGC ACTGCGCTCA AAAGAAAATG 
GGGCCTGGCC ATTCTGATGC GCTTATTAGT TCTTCAGCTG CTGTAAAAGA GGAGGAAGTG 
AATGCTCGTT TACTTCATTG TATAAGCAAA CAGAAAATTT TACTTCGCCA GGCTAGAAGA 
ACTCAGAAAC ATTTGCAAAT GTGCCTGGCA AAGCATGTTG TTAAACACTA TGATCAGCAA 
ATGAAATTTT CTATGAAACA TCAACTCCCT AAAATGAAGA TCTTTCATGA ACCTACCACA 
ATTTTGGATA ACAGTTTACC TAAATGCACT GAAATTAAGC CAGACATCAA CTTATTGACT 
GCAGAGAAAT TGTGGAATGA TGCAAAAAAT GGCTTTGCAC GGTATACAGC TGCAGAAATA 
CAAAGATTTG CACTGTCTGC TACAGGGCTG TTGTCTCATG TTGAAGAGGG TCTGGATTCT 
GATGCAACTG ATAGCAGCTC TGATGATGAT TTGGATGAAT ATACCATTAG AAAAAATGTG 
GCAGTTAACT GTAGTACTGA ATGGAAGTGG CTTTTAGACA GAGCAAGAGT TGGCAGCCGA 
TGGACGTGGC TTCAAGCCCA GATTTCAGAG CTAGAATACA AAATCCAGCA ACTAACGGAT 
GTTCATAGGC AGATTCGTGC CTCCAAGGGG ATAGTGATCC TTGAAGAATG TCAACTTCCA 
AAAGACATTT TGAAAAAACA AATAAAATTT GCAGACCAAG CAACTTCATT AAACACTACA 
AGGAATCTTC AGATTCCCCA AGAGAGTCAA GATCCTTTAC CAGAACAAGA TTTTGAAATG 
TCACCAAGTA GCCCTACACT ACTTCTTCGT AACATAGAAA AACAGAGTGC ACAGCTGACT 
GAGATCATCA ACAGTTTGAT TGCCCCTCTC AACTTGTCCC CAACTTCATC ACCCCTCTCC 
TCCAAATCCT GTAGCCATAA ATCTCTGGCT AATGGAATTT CCAGGAGTGC ATCAGAGAAT 
TTAGATGAGC TCTCTTCCTC CGGTAGCTGG TTACTTAACC AGAAGCACAG TAAGAAAAGG 
AGAAAAGACA GGACAAGATT GAAATCTCCA TCCTTGACTA TCATGAGTAC AGCGGCTCGA 
ACAAGGCCAC TTCAGAGTTT CCACAAACGA AAACTCTACA GATTGAGCCC TACTTTTTAT 
TGGACTCCAA AGACTTTGCC TTCAAAGGAA ACAGTGTTTT TAAATACTAC ACAAAAGCCT 
TGCCTGCAGT CAACTTCAGC GTGGAGTAGC TGTGAACACA ATTCAAAGTC TCAGATATTA 
AGAGAACATG TATCAGAGTT AGATTCTTCT TTTCATTCTG TTCTGTCATT GCCATCAGAT 
GTGCCTCTCC ATTTTCACTT TGAAACATTG TTAAAAAAGA CTGAAATAAA AGGAGATCTT 
GCTGAAAATA AATTTCTGGG AGACTGTATC ATATCTCCAT CATCTGTACA TAAGACTTCT 
CTGAGTCAGT GGAGAAATGG ATATTCTCCT ACATGCAAGC CTCAAATAAG GTCAGAATCT 
TCTGCACAGC TGTTACAGGG AAGAAAGAAA AGACACTTGA GTGAAACAGC ATTAGGAGAA 
AGAACTAGAT TTGAAGAATT TGCTTTTCAG CACACAGAAT CAGGACCTCA TAGGAATTTT 
ACTGCTGTTA CTAATGTCAA TGTTATATCA AGAACCCAGA ATTCATCATC ACAGGTAGGT 
TTTTTGTATA CTGAACTCTA TAAAACTGCT TTATATTATG ACATAGATAA TATTGTGATT 
CCCATGTCAT TAGTGGCCCC AGCTAAGTTA GAGAAACTCC AGTATAAGGA AATACTTACT 
CCAAGCTGGA GGATGGTTGT TCTTCAGCCT TTGGATGAAT ATAATATAGG TGAAGAGGAG 
ATAGAAGATC TTTCTGATGA AGTCTTTTCC TTACGACACA AAAAATATGA AGCAAGAGAA 
CAAGCCAGAT GGTCACTATG GGAGCAAAGC AAGTGGCACA GAAGAAACAG CAGAGCTTAC 
AGTAAAAATG CTGAAGGACA GGACCTGCTT GTGAAGGAAT ACCCTAATGA CTTTAGCGGT 
GGTCAGCACT GTGCTGCTGT AAGTCTTCAG AGCCAAGATC TGAGTGCACA CGGTTCACCT 
TCATTAAATG AAAGTCAAGA AATCAAGTCT CTGTGGTGGG AACGACGGAC TTTTCCATTG 
AAGGATGAAC ACACAGAAGC CTTATTAGGC CAAAATGAAA AAAACAATCA GACTGAAAGA 
TCAAGCCCAG CTTTCAATGG TGAAATCTTC TGTACCAATG TACCAGATAA CAGCCGCCAT 
CCAAAAAGGC AGGCAGATGG AATGGAAGAA TACAAAACCT TTGCTCTAGG ACTTACTCAT 
GATAAAAAAA ACAGGTGA

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

RefSeq	XP_015451954.1
CDS	1684..4641
Translation	MTPALREAATKGICFSSLPSTMESDKMLCMESPRTVDEKLKGDTFSQMLGFPTPEPTLNTNFVNLKHFGSPQSSKHYQTVLLMTSNSTLNKYNENYKQKKLGEPNCNKLKNILCNGSNIQLTKICHSHSEEFIKKESLSDTTSQCMTDVKIILDSNITKDINIDKVQLQNCKWYQKNALLDTVTDAESKKGLLHCAQKKMGPGHSDALISSSAAVKEEEVNARLLHCISKQKILLRQARRTQKHLQMCLAKHVVKHYDQQMKFSMKHQLPKMKIFHEPTTILDNSLPKCTEIKPDINLLTAEKLWNDAKNGFARYTAAEIQRFALSATGLLSHVEEGLDSDATDSSSDDDLDEYTIRKNVAVNCSTEWKWLLDRARVGSRWTWLQAQISELEYKIQQLTDVHRQIRASKGIVILEECQLPKDILKKQIKFADQATSLNTTRNLQIPQESQDPLPEQDFEMSPSSPTLLLRNIEKQSAQLTEIINSLIAPLNLSPTSSPLSSKSCSHKSLANGISRSASENLDELSSSGSWLLNQKHSKKRRKDRTRLKSPSLTIMSTAARTRPLQSFHKRKLYRLSPTFYWTPKTLPSKETVFLNTTQKPCLQSTSAWSSCEHNSKSQILREHVSELDSSFHSVLSLPSDVPLHFHFETLLKKTEIKGDLAENKFLGDCIISPSSVHKTSLSQWRNGYSPTCKPQIRSESSAQLLQGRKKRHLSETALGERTRFEEFAFQHTESGPHRNFTAVTNVNVISRTQNSSSQVGFLYTELYKTALYYDIDNIVIPMSLVAPAKLEKLQYKEILTPSWRMVVLQPLDEYNIGEEEIEDLSDEVFSLRHKKYEAREQARWSLWEQSKWHRRNSRAYSKNAEGQDLLVKEYPNDFSGGQHCAAVSLQSQDLSAHGSPSLNESQEIKSLWWERRTFPLKDEHTEALLGQNEKNNQTERSSPAFNGEIFCTNVPDNSRHPKRQADGMEEYKTFALGLTHDKKNR

Target ORF information:

RefSeq Version	XM_015596468.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.

Target ORF information:

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

XM_015596468.1

ORF Insert Sequence:

ATGACCCCAG CTCTGAGGGA GGCAGCAACA AAGGGTATCT GCTTTTCATC TTTACCAAGT 
ACCATGGAGT CTGACAAGAT GCTATGCATG GAGAGTCCAA GAACTGTAGA TGAAAAACTA 
AAGGGAGACA CTTTCTCTCA GATGCTGGGA TTTCCAACTC CCGAACCTAC TCTTAACACT 
AATTTTGTGA ATTTAAAACA TTTTGGCTCT CCTCAGTCTT CAAAACATTA TCAGACAGTT 
CTTTTAATGA CTTCTAATTC TACATTAAAT AAATACAATG AGAATTATAA ACAAAAGAAA 
TTAGGGGAGC CCAATTGCAA TAAACTGAAA AACATACTGT GTAATGGCAG CAACATTCAG 
CTCACTAAAA TCTGTCATTC TCATTCTGAA GAGTTCATCA AAAAGGAATC TCTGTCAGAT 
ACCACAAGCC AGTGCATGAC AGATGTAAAA ATTATTTTGG ATTCAAATAT AACCAAAGAC 
ATTAATATAG ATAAAGTACA ACTACAAAAT TGTAAATGGT ACCAAAAGAA TGCACTTTTG 
GATACAGTTA CTGATGCTGA GAGTAAAAAG GGTTTGTTGC ACTGCGCTCA AAAGAAAATG 
GGGCCTGGCC ATTCTGATGC GCTTATTAGT TCTTCAGCTG CTGTAAAAGA GGAGGAAGTG 
AATGCTCGTT TACTTCATTG TATAAGCAAA CAGAAAATTT TACTTCGCCA GGCTAGAAGA 
ACTCAGAAAC ATTTGCAAAT GTGCCTGGCA AAGCATGTTG TTAAACACTA TGATCAGCAA 
ATGAAATTTT CTATGAAACA TCAACTCCCT AAAATGAAGA TCTTTCATGA ACCTACCACA 
ATTTTGGATA ACAGTTTACC TAAATGCACT GAAATTAAGC CAGACATCAA CTTATTGACT 
GCAGAGAAAT TGTGGAATGA TGCAAAAAAT GGCTTTGCAC GGTATACAGC TGCAGAAATA 
CAAAGATTTG CACTGTCTGC TACAGGGCTG TTGTCTCATG TTGAAGAGGG TCTGGATTCT 
GATGCAACTG ATAGCAGCTC TGATGATGAT TTGGATGAAT ATACCATTAG AAAAAATGTG 
GCAGTTAACT GTAGTACTGA ATGGAAGTGG CTTTTAGACA GAGCAAGAGT TGGCAGCCGA 
TGGACGTGGC TTCAAGCCCA GATTTCAGAG CTAGAATACA AAATCCAGCA ACTAACGGAT 
GTTCATAGGC AGATTCGTGC CTCCAAGGGG ATAGTGATCC TTGAAGAATG TCAACTTCCA 
AAAGACATTT TGAAAAAACA AATAAAATTT GCAGACCAAG CAACTTCATT AAACACTACA 
AGGAATCTTC AGATTCCCCA AGAGAGTCAA GATCCTTTAC CAGAACAAGA TTTTGAAATG 
TCACCAAGTA GCCCTACACT ACTTCTTCGT AACATAGAAA AACAGAGTGC ACAGCTGACT 
GAGATCATCA ACAGTTTGAT TGCCCCTCTC AACTTGTCCC CAACTTCATC ACCCCTCTCC 
TCCAAATCCT GTAGCCATAA ATCTCTGGCT AATGGAATTT CCAGGAGTGC ATCAGAGAAT 
TTAGATGAGC TCTCTTCCTC CGGTAGCTGG TTACTTAACC AGAAGCACAG TAAGAAAAGG 
AGAAAAGACA GGACAAGATT GAAATCTCCA TCCTTGACTA TCATGAGTAC AGCGGCTCGA 
ACAAGGCCAC TTCAGAGTTT CCACAAACGA AAACTCTACA GATTGAGCCC TACTTTTTAT 
TGGACTCCAA AGACTTTGCC TTCAAAGGAA ACAGTGTTTT TAAATACTAC ACAAAAGCCT 
TGCCTGCAGT CAACTTCAGC GTGGAGTAGC TGTGAACACA ATTCAAAGTC TCAGATATTA 
AGAGAACATG TATCAGAGTT AGATTCTTCT TTTCATTCTG TTCTGTCATT GCCATCAGAT 
GTGCCTCTCC ATTTTCACTT TGAAACATTG TTAAAAAAGA CTGAAATAAA AGGAGATCTT 
GCTGAAAATA AATTTCTGGG AGACTGTATC ATATCTCCAT CATCTGTACA TAAGACTTCT 
CTGAGTCAGT GGAGAAATGG ATATTCTCCT ACATGCAAGC CTCAAATAAG GTCAGAATCT 
TCTGCACAGC TGTTACAGGG AAGAAAGAAA AGACACTTGA GTGAAACAGC ATTAGGAGAA 
AGAACTAGAT TTGAAGAATT TGCTTTTCAG CACACAGAAT CAGGACCTCA TAGGAATTTT 
ACTGCTGTTA CTAATGTCAA TGTTATATCA AGAACCCAGA ATTCATCATC ACAGGTAGGT 
TTTTTGTATA CTGAACTCTA TAAAACTGCT TTATATTATG ACATAGATAA TATTGTGATT 
CCCATGTCAT TAGTGGCCCC AGCTAAGTTA GAGAAACTCC AGTATAAGGA AATACTTACT 
CCAAGCTGGA GGATGGTTGT TCTTCAGCCT TTGGATGAAT ATAATATAGG TGAAGAGGAG 
ATAGAAGATC TTTCTGATGA AGTCTTTTCC TTACGACACA AAAAATATGA AGCAAGAGAA 
CAAGCCAGAT GGTCACTATG GGAGCAAAGC AAGTGGCACA GAAGAAACAG CAGAGCTTAC 
AGTAAAAATG CTGAAGGACA GGACCTGCTT GTGAAGGAAT ACCCTAATGA CTTTAGCGGT 
GGTCAGCACT GTGCTGCTGT AAGTCTTCAG AGCCAAGATC TGAGTGCACA CGGTTCACCT 
TCATTAAATG AAAGTCAAGA AATCAAGTCT CTGTGGTGGG AACGACGGAC TTTTCCATTG 
AAGGATGAAC ACACAGAAGC CTTATTAGGC CAAAATGAAA AAAACAATCA GACTGAAAGA 
TCAAGCCCAG CTTTCAATGG TGAAATCTTC TGTACCAATG TACCAGATAA CAGCCGCCAT 
CCAAAAAGGC AGGCAGATGG AATGGAAGAA TACAAAACCT TTGCTCTAGG ACTTACTCAT 
GATAAAAAAA ACAGGTGA

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

KANSL1L ( XM_015596468.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_015451954.1 Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.

Price & Availability↑

CloneID	OPt25565
Clone ID Related Accession (Same CDS sequence)	XM_015596468.1 , XM_015596468.2
Accession Version	XM_015596468.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2958bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
Product	KAT8 regulatory NSL complex subunit 1-like protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006442484.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 7, 2018 this sequence version replaced XM_015596468.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACCCCAG CTCTGAGGGA GGCAGCAACA AAGGGTATCT GCTTTTCATC TTTACCAAGT 
ACCATGGAGT CTGACAAGAT GCTATGCATG GAGAGTCCAA GAACTGTAGA TGAAAAACTA 
AAGGGAGACA CTTTCTCTCA GATGCTGGGA TTTCCAACTC CCGAACCTAC TCTTAACACT 
AATTTTGTGA ATTTAAAACA TTTTGGCTCT CCTCAGTCTT CAAAACATTA TCAGACAGTT 
CTTTTAATGA CTTCTAATTC TACATTAAAT AAATACAATG AGAATTATAA ACAAAAGAAA 
TTAGGGGAGC CCAATTGCAA TAAACTGAAA AACATACTGT GTAATGGCAG CAACATTCAG 
CTCACTAAAA TCTGTCATTC TCATTCTGAA GAGTTCATCA AAAAGGAATC TCTGTCAGAT 
ACCACAAGCC AGTGCATGAC AGATGTAAAA ATTATTTTGG ATTCAAATAT AACCAAAGAC 
ATTAATATAG ATAAAGTACA ACTACAAAAT TGTAAATGGT ACCAAAAGAA TGCACTTTTG 
GATACAGTTA CTGATGCTGA GAGTAAAAAG GGTTTGTTGC ACTGCGCTCA AAAGAAAATG 
GGGCCTGGCC ATTCTGATGC GCTTATTAGT TCTTCAGCTG CTGTAAAAGA GGAGGAAGTG 
AATGCTCGTT TACTTCATTG TATAAGCAAA CAGAAAATTT TACTTCGCCA GGCTAGAAGA 
ACTCAGAAAC ATTTGCAAAT GTGCCTGGCA AAGCATGTTG TTAAACACTA TGATCAGCAA 
ATGAAATTTT CTATGAAACA TCAACTCCCT AAAATGAAGA TCTTTCATGA ACCTACCACA 
ATTTTGGATA ACAGTTTACC TAAATGCACT GAAATTAAGC CAGACATCAA CTTATTGACT 
GCAGAGAAAT TGTGGAATGA TGCAAAAAAT GGCTTTGCAC GGTATACAGC TGCAGAAATA 
CAAAGATTTG CACTGTCTGC TACAGGGCTG TTGTCTCATG TTGAAGAGGG TCTGGATTCT 
GATGCAACTG ATAGCAGCTC TGATGATGAT TTGGATGAAT ATACCATTAG AAAAAATGTG 
GCAGTTAACT GTAGTACTGA ATGGAAGTGG CTTTTAGACA GAGCAAGAGT TGGCAGCCGA 
TGGACGTGGC TTCAAGCCCA GATTTCAGAG CTAGAATACA AAATCCAGCA ACTAACGGAT 
GTTCATAGGC AGATTCGTGC CTCCAAGGGG ATAGTGATCC TTGAAGAATG TCAACTTCCA 
AAAGACATTT TGAAAAAACA AATAAAATTT GCAGACCAAG CAACTTCATT AAACACTACA 
AGGAATCTTC AGATTCCCCA AGAGAGTCAA GATCCTTTAC CAGAACAAGA TTTTGAAATG 
TCACCAAGTA GCCCTACACT ACTTCTTCGT AACATAGAAA AACAGAGTGC ACAGCTGACT 
GAGATCATCA ACAGTTTGAT TGCCCCTCTC AACTTGTCCC CAACTTCATC ACCCCTCTCC 
TCCAAATCCT GTAGCCATAA ATCTCTGGCT AATGGAATTT CCAGGAGTGC ATCAGAGAAT 
TTAGATGAGC TCTCTTCCTC CGGTAGCTGG TTACTTAACC AGAAGCACAG TAAGAAAAGG 
AGAAAAGACA GGACAAGATT GAAATCTCCA TCCTTGACTA TCATGAGTAC AGCGGCTCGA 
ACAAGGCCAC TTCAGAGTTT CCACAAACGA AAACTCTACA GATTGAGCCC TACTTTTTAT 
TGGACTCCAA AGACTTTGCC TTCAAAGGAA ACAGTGTTTT TAAATACTAC ACAAAAGCCT 
TGCCTGCAGT CAACTTCAGC GTGGAGTAGC TGTGAACACA ATTCAAAGTC TCAGATATTA 
AGAGAACATG TATCAGAGTT AGATTCTTCT TTTCATTCTG TTCTGTCATT GCCATCAGAT 
GTGCCTCTCC ATTTTCACTT TGAAACATTG TTAAAAAAGA CTGAAATAAA AGGAGATCTT 
GCTGAAAATA AATTTCTGGG AGACTGTATC ATATCTCCAT CATCTGTACA TAAGACTTCT 
CTGAGTCAGT GGAGAAATGG ATATTCTCCT ACATGCAAGC CTCAAATAAG GTCAGAATCT 
TCTGCACAGC TGTTACAGGG AAGAAAGAAA AGACACTTGA GTGAAACAGC ATTAGGAGAA 
AGAACTAGAT TTGAAGAATT TGCTTTTCAG CACACAGAAT CAGGACCTCA TAGGAATTTT 
ACTGCTGTTA CTAATGTCAA TGTTATATCA AGAACCCAGA ATTCATCATC ACAGGTAGGT 
TTTTTGTATA CTGAACTCTA TAAAACTGCT TTATATTATG ACATAGATAA TATTGTGATT 
CCCATGTCAT TAGTGGCCCC AGCTAAGTTA GAGAAACTCC AGTATAAGGA AATACTTACT 
CCAAGCTGGA GGATGGTTGT TCTTCAGCCT TTGGATGAAT ATAATATAGG TGAAGAGGAG 
ATAGAAGATC TTTCTGATGA AGTCTTTTCC TTACGACACA AAAAATATGA AGCAAGAGAA 
CAAGCCAGAT GGTCACTATG GGAGCAAAGC AAGTGGCACA GAAGAAACAG CAGAGCTTAC 
AGTAAAAATG CTGAAGGACA GGACCTGCTT GTGAAGGAAT ACCCTAATGA CTTTAGCGGT 
GGTCAGCACT GTGCTGCTGT AAGTCTTCAG AGCCAAGATC TGAGTGCACA CGGTTCACCT 
TCATTAAATG AAAGTCAAGA AATCAAGTCT CTGTGGTGGG AACGACGGAC TTTTCCATTG 
AAGGATGAAC ACACAGAAGC CTTATTAGGC CAAAATGAAA AAAACAATCA GACTGAAAGA 
TCAAGCCCAG CTTTCAATGG TGAAATCTTC TGTACCAATG TACCAGATAA CAGCCGCCAT 
CCAAAAAGGC AGGCAGATGG AATGGAAGAA TACAAAACCT TTGCTCTAGG ACTTACTCAT 
GATAAAAAAA ACAGGTGA

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

RefSeq	XP_015451954.1
CDS	1670..4627
Translation	MTPALREAATKGICFSSLPSTMESDKMLCMESPRTVDEKLKGDTFSQMLGFPTPEPTLNTNFVNLKHFGSPQSSKHYQTVLLMTSNSTLNKYNENYKQKKLGEPNCNKLKNILCNGSNIQLTKICHSHSEEFIKKESLSDTTSQCMTDVKIILDSNITKDINIDKVQLQNCKWYQKNALLDTVTDAESKKGLLHCAQKKMGPGHSDALISSSAAVKEEEVNARLLHCISKQKILLRQARRTQKHLQMCLAKHVVKHYDQQMKFSMKHQLPKMKIFHEPTTILDNSLPKCTEIKPDINLLTAEKLWNDAKNGFARYTAAEIQRFALSATGLLSHVEEGLDSDATDSSSDDDLDEYTIRKNVAVNCSTEWKWLLDRARVGSRWTWLQAQISELEYKIQQLTDVHRQIRASKGIVILEECQLPKDILKKQIKFADQATSLNTTRNLQIPQESQDPLPEQDFEMSPSSPTLLLRNIEKQSAQLTEIINSLIAPLNLSPTSSPLSSKSCSHKSLANGISRSASENLDELSSSGSWLLNQKHSKKRRKDRTRLKSPSLTIMSTAARTRPLQSFHKRKLYRLSPTFYWTPKTLPSKETVFLNTTQKPCLQSTSAWSSCEHNSKSQILREHVSELDSSFHSVLSLPSDVPLHFHFETLLKKTEIKGDLAENKFLGDCIISPSSVHKTSLSQWRNGYSPTCKPQIRSESSAQLLQGRKKRHLSETALGERTRFEEFAFQHTESGPHRNFTAVTNVNVISRTQNSSSQVGFLYTELYKTALYYDIDNIVIPMSLVAPAKLEKLQYKEILTPSWRMVVLQPLDEYNIGEEEIEDLSDEVFSLRHKKYEAREQARWSLWEQSKWHRRNSRAYSKNAEGQDLLVKEYPNDFSGGQHCAAVSLQSQDLSAHGSPSLNESQEIKSLWWERRTFPLKDEHTEALLGQNEKNNQTERSSPAFNGEIFCTNVPDNSRHPKRQADGMEEYKTFALGLTHDKKNR

Target ORF information:

RefSeq Version	XM_015596468.2
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto KAT8 regulatory NSL complex subunit 1 like (KANSL1L), mRNA.

Target ORF information:

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

XM_015596468.2

ORF Insert Sequence:

ATGACCCCAG CTCTGAGGGA GGCAGCAACA AAGGGTATCT GCTTTTCATC TTTACCAAGT 
ACCATGGAGT CTGACAAGAT GCTATGCATG GAGAGTCCAA GAACTGTAGA TGAAAAACTA 
AAGGGAGACA CTTTCTCTCA GATGCTGGGA TTTCCAACTC CCGAACCTAC TCTTAACACT 
AATTTTGTGA ATTTAAAACA TTTTGGCTCT CCTCAGTCTT CAAAACATTA TCAGACAGTT 
CTTTTAATGA CTTCTAATTC TACATTAAAT AAATACAATG AGAATTATAA ACAAAAGAAA 
TTAGGGGAGC CCAATTGCAA TAAACTGAAA AACATACTGT GTAATGGCAG CAACATTCAG 
CTCACTAAAA TCTGTCATTC TCATTCTGAA GAGTTCATCA AAAAGGAATC TCTGTCAGAT 
ACCACAAGCC AGTGCATGAC AGATGTAAAA ATTATTTTGG ATTCAAATAT AACCAAAGAC 
ATTAATATAG ATAAAGTACA ACTACAAAAT TGTAAATGGT ACCAAAAGAA TGCACTTTTG 
GATACAGTTA CTGATGCTGA GAGTAAAAAG GGTTTGTTGC ACTGCGCTCA AAAGAAAATG 
GGGCCTGGCC ATTCTGATGC GCTTATTAGT TCTTCAGCTG CTGTAAAAGA GGAGGAAGTG 
AATGCTCGTT TACTTCATTG TATAAGCAAA CAGAAAATTT TACTTCGCCA GGCTAGAAGA 
ACTCAGAAAC ATTTGCAAAT GTGCCTGGCA AAGCATGTTG TTAAACACTA TGATCAGCAA 
ATGAAATTTT CTATGAAACA TCAACTCCCT AAAATGAAGA TCTTTCATGA ACCTACCACA 
ATTTTGGATA ACAGTTTACC TAAATGCACT GAAATTAAGC CAGACATCAA CTTATTGACT 
GCAGAGAAAT TGTGGAATGA TGCAAAAAAT GGCTTTGCAC GGTATACAGC TGCAGAAATA 
CAAAGATTTG CACTGTCTGC TACAGGGCTG TTGTCTCATG TTGAAGAGGG TCTGGATTCT 
GATGCAACTG ATAGCAGCTC TGATGATGAT TTGGATGAAT ATACCATTAG AAAAAATGTG 
GCAGTTAACT GTAGTACTGA ATGGAAGTGG CTTTTAGACA GAGCAAGAGT TGGCAGCCGA 
TGGACGTGGC TTCAAGCCCA GATTTCAGAG CTAGAATACA AAATCCAGCA ACTAACGGAT 
GTTCATAGGC AGATTCGTGC CTCCAAGGGG ATAGTGATCC TTGAAGAATG TCAACTTCCA 
AAAGACATTT TGAAAAAACA AATAAAATTT GCAGACCAAG CAACTTCATT AAACACTACA 
AGGAATCTTC AGATTCCCCA AGAGAGTCAA GATCCTTTAC CAGAACAAGA TTTTGAAATG 
TCACCAAGTA GCCCTACACT ACTTCTTCGT AACATAGAAA AACAGAGTGC ACAGCTGACT 
GAGATCATCA ACAGTTTGAT TGCCCCTCTC AACTTGTCCC CAACTTCATC ACCCCTCTCC 
TCCAAATCCT GTAGCCATAA ATCTCTGGCT AATGGAATTT CCAGGAGTGC ATCAGAGAAT 
TTAGATGAGC TCTCTTCCTC CGGTAGCTGG TTACTTAACC AGAAGCACAG TAAGAAAAGG 
AGAAAAGACA GGACAAGATT GAAATCTCCA TCCTTGACTA TCATGAGTAC AGCGGCTCGA 
ACAAGGCCAC TTCAGAGTTT CCACAAACGA AAACTCTACA GATTGAGCCC TACTTTTTAT 
TGGACTCCAA AGACTTTGCC TTCAAAGGAA ACAGTGTTTT TAAATACTAC ACAAAAGCCT 
TGCCTGCAGT CAACTTCAGC GTGGAGTAGC TGTGAACACA ATTCAAAGTC TCAGATATTA 
AGAGAACATG TATCAGAGTT AGATTCTTCT TTTCATTCTG TTCTGTCATT GCCATCAGAT 
GTGCCTCTCC ATTTTCACTT TGAAACATTG TTAAAAAAGA CTGAAATAAA AGGAGATCTT 
GCTGAAAATA AATTTCTGGG AGACTGTATC ATATCTCCAT CATCTGTACA TAAGACTTCT 
CTGAGTCAGT GGAGAAATGG ATATTCTCCT ACATGCAAGC CTCAAATAAG GTCAGAATCT 
TCTGCACAGC TGTTACAGGG AAGAAAGAAA AGACACTTGA GTGAAACAGC ATTAGGAGAA 
AGAACTAGAT TTGAAGAATT TGCTTTTCAG CACACAGAAT CAGGACCTCA TAGGAATTTT 
ACTGCTGTTA CTAATGTCAA TGTTATATCA AGAACCCAGA ATTCATCATC ACAGGTAGGT 
TTTTTGTATA CTGAACTCTA TAAAACTGCT TTATATTATG ACATAGATAA TATTGTGATT 
CCCATGTCAT TAGTGGCCCC AGCTAAGTTA GAGAAACTCC AGTATAAGGA AATACTTACT 
CCAAGCTGGA GGATGGTTGT TCTTCAGCCT TTGGATGAAT ATAATATAGG TGAAGAGGAG 
ATAGAAGATC TTTCTGATGA AGTCTTTTCC TTACGACACA AAAAATATGA AGCAAGAGAA 
CAAGCCAGAT GGTCACTATG GGAGCAAAGC AAGTGGCACA GAAGAAACAG CAGAGCTTAC 
AGTAAAAATG CTGAAGGACA GGACCTGCTT GTGAAGGAAT ACCCTAATGA CTTTAGCGGT 
GGTCAGCACT GTGCTGCTGT AAGTCTTCAG AGCCAAGATC TGAGTGCACA CGGTTCACCT 
TCATTAAATG AAAGTCAAGA AATCAAGTCT CTGTGGTGGG AACGACGGAC TTTTCCATTG 
AAGGATGAAC ACACAGAAGC CTTATTAGGC CAAAATGAAA AAAACAATCA GACTGAAAGA 
TCAAGCCCAG CTTTCAATGG TGAAATCTTC TGTACCAATG TACCAGATAA CAGCCGCCAT 
CCAAAAAGGC AGGCAGATGG AATGGAAGAA TACAAAACCT TTGCTCTAGG ACTTACTCAT 
GATAAAAAAA ACAGGTGA