SMARCAL1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	SMARCAL1
Entrez Gene ID	100230365
Full Name	SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030277283.1	XP_030133143.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
XM_002191264.3	XP_002191300.2	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
XM_030277282.1	XP_030133142.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X2
XM_030277284.1	XP_030133144.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
XM_002191264.2	XP_002191300.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1

Pathways from BioSystems
Gene Ontology

The following SMARCAL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMARCAL1 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)
OTd11424	XM_002191264.2 Latest version!	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a-like 1 (SMARCAL1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd49518	XM_002191264.3 Latest version!	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd49518	XM_030277283.1 Latest version!	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd49518	XM_030277284.1 Latest version!	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd49519	XM_030277282.1 Latest version!	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** 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)

SMARCAL1 ( XM_002191264.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002191300.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a-like 1 (SMARCAL1), mRNA.

Price & Availability↑

CloneID	OTd11424
Clone ID Related Accession (Same CDS sequence)	XM_002191264.2
Accession Version	XM_002191264.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198918.1) 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_002191264.1. ##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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT CCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGAGTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTTTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGACTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCGTGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

RefSeq	XP_002191300.1
CDS	1..2892
Translation	MSSGLTEEQKRRIEENRRLALARRAERLAAQGAGHVGIAAPPQKGQSLGNPGSSKEENHVGFTGQHRQNPNTPVEQRSCLQKGYNHYTANQQMAGSHREQQNSCSEDSEQASGLKQFPAMIPNSMSYSHKQYLDAGSQEHGQHTSINHGTFQQPKCCPAFKNPTGPPHPRVTDNGHPDGSKDLQTQNKSAIKYVSPPSSAALSNSEMLININRPTERTGGGFVPQASGGMQKLTSSAGVASTFETHKKANVTKGKCVKYGEDRFQVEIGYNAELIAVFKKVPSKAYDPAMKKWNFSMEDYSSVLEAANQLSSVILAPLEGKNVVGLASDSHFVGSGVDVKSLLKMCKNWKKSSALVKGKCVLISRLRFEVDIGYSAEVIEVFKKMDSRNYDMNTRKWNFLLEDYPKLMEVLLSLVSVEVEPLPEAVIKTFAAQLQRSPSLTDIPDADLSVVDSKIVTSLMPFQREGVNFAISRNGRLLLADDMGLGKTIQAICIAAYYQQEWPLLVVTPSSVRFTWAQAFHRWLPSLSPESTNVIVSGKDNLTGSLINIISFDLLSRMDKQLKSTFQVVIVDESHFLKNTKTARCQAAMPLLKAAKRVILLSGTPAMSRPAELYTQIAAVQPTFFPQFHSFGLRYCDARKMPWGWDYSGSSNLTELKILLEESIMIRRLKSDVLSQLPAKQRKMVVVALEGISAKTKAALAAEAKKMAKGYESKQQEKEGLLVYFSRTAEAKIHSVVEYILELLESGNNKFLVFAHHKIMLDAVAAELKKKHIEHIRIDGSTSSAERQSLCQKFQLAEKHAVAVLSLTAANMGLTLCAADLVVFAELFWNPGILIQAEDRAHRIGQTSSVNVHYLVAKGTADDYLWPMIQEKIKVLGEAGLSETNFSETAESTNYCPKTDPKQKTIYDLFQKTFSESRDDADDILFLEAADAGCEFDSGSALQDREAETCSVSPKKKRRIEEV

Target ORF information:

RefSeq Version	XM_002191264.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a-like 1 (SMARCAL1), mRNA.

Target ORF information:

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

XM_002191264.2

ORF Insert Sequence:

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT CCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGAGTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTTTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGACTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCGTGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

SMARCAL1 ( XM_030277283.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133143.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd49518
Clone ID Related Accession (Same CDS sequence)	XM_030277283.1 , XM_002191264.3 , XM_030277284.1
Accession Version	XM_030277283.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

RefSeq	XP_030133143.1
CDS	193..3084
Translation	MSSGLTEEQKRRIEENRRLALARRAERLAAQGAGHVGIAAPPQKGQSLGNPGSFKEENHVGFTGQHRQNPNTPVEQRSCLQKGYNHYTANQQMAGSHREQQNSCSEDSEQASGLKQFPAMIPNSMTYSHKQYLDAGSQEHGQHTSINHGTFQQPKCCPAFKNPTGPPHPRVTDNGHPDGSKDLQTQNKSAIKYVSPPSSAALSNSEMLININRPTERTGGGFVPQASGGMQKLTSSAGVASTCETHKKANVTKGKCVKYGEDRFQVEIGYNAELIAVFKKVPSKAYDPAMKKWNFSMEDYSSVLEAANQLSSVILAPLEGKNVVGLASGSHFVGSGVDVKSLLKMCKNWKKSSALVKGKCVLISRLRFEVDIGYSAEVIEVFKKMDSRNYDMNTRKWNFLLEDYPKLMEVLLSLMSVEVEPLPEAVIKTFAAQLQRSPSLTDIPDADLSVVDSKIVTSLMPFQREGVNFAISRNGRLLLADDMGLGKTIQAICIAAYYQQEWPLLVVTPSSVRFTWAQAFHRWLPSLSPESTNVIVSGKDNLTGSLINIISFDLLSRMDKQLKSTFQVVIVDESHFLKNTKTARCQAAMPLLKAAKRVILLSGTPAMSRPAELYTQIAAVQPTFFPQFHSFGLRYCDARKMPWGWDYSGSSNLTELKILLEESIMIRRLKSDVLSQLPAKQRKMVVVALEGISAKTKAALAAEAKKMAKGYESKQQEKEGLLVYFSRTAEAKIHSVVEYILELLESGNNKFLVFAHHKIMLDAVAAELKKKHIEHIRIDGSTSSAERQSLCQKFQLAEKHAVAVLSLTAANMGLTLCAADLVVFAELFWNPGILIQAEDRAHRIGQTSSVNVHYLVAKGTADDYLWPMIQEKIKVLGEAGLSETNFSETAESTNYCPKTDPKQKTIYDLFQKTFSESRDDADDILFLEAADAGCEFDSGSALQDREAETCSVSPKKKRRIEEV

Target ORF information:

RefSeq Version	XM_030277283.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X4, mRNA.

Target ORF information:

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

XM_030277283.1

ORF Insert Sequence:

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

SMARCAL1 ( XM_002191264.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002191300.2 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd49518
Clone ID Related Accession (Same CDS sequence)	XM_030277283.1 , XM_002191264.3 , XM_030277284.1
Accession Version	XM_002191264.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002191264.2. ##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##

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

RefSeq	XP_002191300.2
CDS	276..3167
Translation	MSSGLTEEQKRRIEENRRLALARRAERLAAQGAGHVGIAAPPQKGQSLGNPGSFKEENHVGFTGQHRQNPNTPVEQRSCLQKGYNHYTANQQMAGSHREQQNSCSEDSEQASGLKQFPAMIPNSMTYSHKQYLDAGSQEHGQHTSINHGTFQQPKCCPAFKNPTGPPHPRVTDNGHPDGSKDLQTQNKSAIKYVSPPSSAALSNSEMLININRPTERTGGGFVPQASGGMQKLTSSAGVASTCETHKKANVTKGKCVKYGEDRFQVEIGYNAELIAVFKKVPSKAYDPAMKKWNFSMEDYSSVLEAANQLSSVILAPLEGKNVVGLASGSHFVGSGVDVKSLLKMCKNWKKSSALVKGKCVLISRLRFEVDIGYSAEVIEVFKKMDSRNYDMNTRKWNFLLEDYPKLMEVLLSLMSVEVEPLPEAVIKTFAAQLQRSPSLTDIPDADLSVVDSKIVTSLMPFQREGVNFAISRNGRLLLADDMGLGKTIQAICIAAYYQQEWPLLVVTPSSVRFTWAQAFHRWLPSLSPESTNVIVSGKDNLTGSLINIISFDLLSRMDKQLKSTFQVVIVDESHFLKNTKTARCQAAMPLLKAAKRVILLSGTPAMSRPAELYTQIAAVQPTFFPQFHSFGLRYCDARKMPWGWDYSGSSNLTELKILLEESIMIRRLKSDVLSQLPAKQRKMVVVALEGISAKTKAALAAEAKKMAKGYESKQQEKEGLLVYFSRTAEAKIHSVVEYILELLESGNNKFLVFAHHKIMLDAVAAELKKKHIEHIRIDGSTSSAERQSLCQKFQLAEKHAVAVLSLTAANMGLTLCAADLVVFAELFWNPGILIQAEDRAHRIGQTSSVNVHYLVAKGTADDYLWPMIQEKIKVLGEAGLSETNFSETAESTNYCPKTDPKQKTIYDLFQKTFSESRDDADDILFLEAADAGCEFDSGSALQDREAETCSVSPKKKRRIEEV

Target ORF information:

RefSeq Version	XM_002191264.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X2, mRNA.

Target ORF information:

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

XM_002191264.3

ORF Insert Sequence:

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

SMARCAL1 ( XM_030277284.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133144.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OTd49518
Clone ID Related Accession (Same CDS sequence)	XM_030277283.1 , XM_002191264.3 , XM_030277284.1
Accession Version	XM_030277284.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

RefSeq	XP_030133144.1
CDS	111..3002
Translation	MSSGLTEEQKRRIEENRRLALARRAERLAAQGAGHVGIAAPPQKGQSLGNPGSFKEENHVGFTGQHRQNPNTPVEQRSCLQKGYNHYTANQQMAGSHREQQNSCSEDSEQASGLKQFPAMIPNSMTYSHKQYLDAGSQEHGQHTSINHGTFQQPKCCPAFKNPTGPPHPRVTDNGHPDGSKDLQTQNKSAIKYVSPPSSAALSNSEMLININRPTERTGGGFVPQASGGMQKLTSSAGVASTCETHKKANVTKGKCVKYGEDRFQVEIGYNAELIAVFKKVPSKAYDPAMKKWNFSMEDYSSVLEAANQLSSVILAPLEGKNVVGLASGSHFVGSGVDVKSLLKMCKNWKKSSALVKGKCVLISRLRFEVDIGYSAEVIEVFKKMDSRNYDMNTRKWNFLLEDYPKLMEVLLSLMSVEVEPLPEAVIKTFAAQLQRSPSLTDIPDADLSVVDSKIVTSLMPFQREGVNFAISRNGRLLLADDMGLGKTIQAICIAAYYQQEWPLLVVTPSSVRFTWAQAFHRWLPSLSPESTNVIVSGKDNLTGSLINIISFDLLSRMDKQLKSTFQVVIVDESHFLKNTKTARCQAAMPLLKAAKRVILLSGTPAMSRPAELYTQIAAVQPTFFPQFHSFGLRYCDARKMPWGWDYSGSSNLTELKILLEESIMIRRLKSDVLSQLPAKQRKMVVVALEGISAKTKAALAAEAKKMAKGYESKQQEKEGLLVYFSRTAEAKIHSVVEYILELLESGNNKFLVFAHHKIMLDAVAAELKKKHIEHIRIDGSTSSAERQSLCQKFQLAEKHAVAVLSLTAANMGLTLCAADLVVFAELFWNPGILIQAEDRAHRIGQTSSVNVHYLVAKGTADDYLWPMIQEKIKVLGEAGLSETNFSETAESTNYCPKTDPKQKTIYDLFQKTFSESRDDADDILFLEAADAGCEFDSGSALQDREAETCSVSPKKKRRIEEV

Target ORF information:

RefSeq Version	XM_030277284.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X5, mRNA.

Target ORF information:

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

XM_030277284.1

ORF Insert Sequence:

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGG CTGCCAAGAG AGTGATCCTG 
CTTTCGGGGA CGCCGGCCAT GTCGCGGCCC GCGGAGCTCT ACACGCAGAT CGCCGCTGTG 
CAGCCGACCT TCTTCCCACA GTTCCACTCC TTCGGGCTGC GCTACTGCGA TGCCAGGAAG 
ATGCCATGGG GCTGGGATTA CTCTGGATCA TCCAACTTAA CGGAACTGAA AATTTTGCTG 
GAAGAGTCCA TCATGATCCG ACGTCTGAAA TCAGATGTGC TTTCCCAGCT TCCAGCAAAG 
CAACGCAAAA TGGTCGTGGT GGCTCTTGAA GGCATTAGTG CAAAGACCAA AGCTGCCTTG 
GCAGCTGAAG CAAAGAAGAT GGCCAAAGGA TATGAAAGTA AACAACAGGA GAAGGAAGGC 
CTTCTCGTCT ACTTCAGCAG AACAGCAGAA GCTAAAATCC ACTCAGTCGT AGAGTACATC 
CTGGAGTTAC TGGAAAGTGG GAATAATAAA TTCCTGGTGT TTGCGCATCA CAAGATAATG 
CTGGATGCAG TAGCTGCAGA GCTGAAGAAG AAACACATCG AGCACATTCG CATCGATGGC 
TCCACATCTT CAGCTGAGCG GCAGTCTCTG TGCCAGAAGT TCCAGTTGGC AGAGAAGCAT 
GCTGTGGCTG TCCTTTCCCT TACTGCTGCA AACATGGGCC TGACACTGTG TGCTGCAGAT 
CTGGTGGTGT TTGCAGAGCT CTTCTGGAAC CCAGGGATTT TGATCCAAGC AGAAGATCGG 
GCACACCGAA TTGGCCAGAC CAGCTCTGTT AATGTTCACT ACCTGGTGGC TAAAGGCACA 
GCAGATGACT ACTTATGGCC AATGATTCAG GAGAAGATCA AAGTGCTGGG TGAAGCTGGT 
CTTTCAGAAA CCAATTTCTC TGAAACAGCT GAGTCAACTA ATTACTGTCC TAAGACCGAC 
CCAAAGCAGA AGACAATCTA CGACCTTTTC CAAAAGACCT TCTCTGAGAG CAGAGATGAT 
GCTGATGATA TTTTGTTTTT GGAGGCAGCT GATGCTGGCT GTGAGTTTGA CTCTGGCAGT 
GCCTTGCAAG ACAGAGAAGC GGAGACATGT TCAGTGAGTC CGAAAAAAAA GCGGCGTATT 
GAGGAAGTGT AA

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

SMARCAL1 ( XM_030277282.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030133142.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X3, mRNA.

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CloneID	OTd49519
Clone ID Related Accession (Same CDS sequence)	XM_030277282.1
Accession Version	XM_030277282.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2751bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A-like protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGA TGCCATGGGG CTGGGATTAC 
TCTGGATCAT CCAACTTAAC GGAACTGAAA ATTTTGCTGG AAGAGTCCAT CATGATCCGA 
CGTCTGAAAT CAGATGTGCT TTCCCAGCTT CCAGCAAAGC AACGCAAAAT GGTCGTGGTG 
GCTCTTGAAG GCATTAGTGC AAAGACCAAA GCTGCCTTGG CAGCTGAAGC AAAGAAGATG 
GCCAAAGGAT ATGAAAGTAA ACAACAGGAG AAGGAAGGCC TTCTCGTCTA CTTCAGCAGA 
ACAGCAGAAG CTAAAATCCA CTCAGTCGTA GAGTACATCC TGGAGTTACT GGAAAGTGGG 
AATAATAAAT TCCTGGTGTT TGCGCATCAC AAGATAATGC TGGATGCAGT AGCTGCAGAG 
CTGAAGAAGA AACACATCGA GCACATTCGC ATCGATGGCT CCACATCTTC AGCTGAGCGG 
CAGTCTCTGT GCCAGAAGTT CCAGTTGGCA GAGAAGCATG CTGTGGCTGT CCTTTCCCTT 
ACTGCTGCAA ACATGGGCCT GACACTGTGT GCTGCAGATC TGGTGGTGTT TGCAGAGCTC 
TTCTGGAACC CAGGGATTTT GATCCAAGCA GAAGATCGGG CACACCGAAT TGGCCAGACC 
AGCTCTGTTA ATGTTCACTA CCTGGTGGCT AAAGGCACAG CAGATGACTA CTTATGGCCA 
ATGATTCAGG AGAAGATCAA AGTGCTGGGT GAAGCTGGTC TTTCAGAAAC CAATTTCTCT 
GAAACAGCTG AGTCAACTAA TTACTGTCCT AAGACCGACC CAAAGCAGAA GACAATCTAC 
GACCTTTTCC AAAAGACCTT CTCTGAGAGC AGAGATGATG CTGATGATAT TTTGTTTTTG 
GAGGCAGCTG ATGCTGGCTG TGAGTTTGAC TCTGGCAGTG CCTTGCAAGA CAGAGAAGCG 
GAGACATGTT CAGTGAGTCC GAAAAAAAAG CGGCGTATTG AGGAAGTGTA A

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

RefSeq	XP_030133142.1
CDS	275..3025
Translation	MSSGLTEEQKRRIEENRRLALARRAERLAAQGAGHVGIAAPPQKGQSLGNPGSFKEENHVGFTGQHRQNPNTPVEQRSCLQKGYNHYTANQQMAGSHREQQNSCSEDSEQASGLKQFPAMIPNSMTYSHKQYLDAGSQEHGQHTSINHGTFQQPKCCPAFKNPTGPPHPRVTDNGHPDGSKDLQTQNKSAIKYVSPPSSAALSNSEMLININRPTERTGGGFVPQASGGMQKLTSSAGVASTCETHKKANVTKGKCVKYGEDRFQVEIGYNAELIAVFKKVPSKAYDPAMKKWNFSMEDYSSVLEAANQLSSVILAPLEGKNVVGLASGSHFVGSGVDVKSLLKMCKNWKKSSALVKGKCVLISRLRFEVDIGYSAEVIEVFKKMDSRNYDMNTRKWNFLLEDYPKLMEVLLSLMSVEVEPLPEAVIKTFAAQLQRSPSLTDIPDADLSVVDSKIVTSLMPFQREGVNFAISRNGRLLLADDMGLGKTIQAICIAAYYQQEWPLLVVTPSSVRFTWAQAFHRWLPSLSPESTNVIVSGKDNLTGSLINIISFDLLSRMDKQLKSTFQVVIVDESHFLKNTKTARCQAAMPLLKMPWGWDYSGSSNLTELKILLEESIMIRRLKSDVLSQLPAKQRKMVVVALEGISAKTKAALAAEAKKMAKGYESKQQEKEGLLVYFSRTAEAKIHSVVEYILELLESGNNKFLVFAHHKIMLDAVAAELKKKHIEHIRIDGSTSSAERQSLCQKFQLAEKHAVAVLSLTAANMGLTLCAADLVVFAELFWNPGILIQAEDRAHRIGQTSSVNVHYLVAKGTADDYLWPMIQEKIKVLGEAGLSETNFSETAESTNYCPKTDPKQKTIYDLFQKTFSESRDDADDILFLEAADAGCEFDSGSALQDREAETCSVSPKKKRRIEEV

Target ORF information:

RefSeq Version	XM_030277282.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1 (SMARCAL1), transcript variant X3, mRNA.

Target ORF information:

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

XM_030277282.1

ORF Insert Sequence:

ATGTCATCAG GCCTTACAGA GGAGCAAAAG AGAAGGATTG AAGAGAACCG CCGGCTGGCT 
TTGGCTAGGA GAGCAGAGAG GCTGGCAGCC CAGGGAGCTG GGCACGTGGG CATCGCTGCA 
CCTCCGCAGA AAGGGCAGAG TCTGGGCAAT CCGGGAAGCT TCAAGGAAGA AAATCATGTC 
GGGTTCACTG GCCAGCACCG ACAGAATCCA AACACGCCTG TGGAGCAGAG GAGCTGTCTC 
CAGAAAGGCT ACAACCATTA CACAGCAAAC CAACAGATGG CTGGCTCACA CAGAGAGCAG 
CAAAACAGTT GTTCAGAGGA CTCTGAACAA GCAAGTGGCC TAAAGCAGTT CCCTGCAATG 
ATCCCAAATT CTATGACTTA TTCCCATAAA CAGTACTTGG ATGCTGGTAG TCAGGAACAT 
GGACAACACA CTTCAATTAA TCATGGAACA TTCCAGCAGC CCAAATGCTG CCCAGCTTTC 
AAAAACCCCA CAGGACCACC TCATCCAAGA GTCACTGATA ATGGGCACCC TGATGGCAGT 
AAAGATTTAC AAACTCAGAA CAAATCTGCC ATTAAATATG TTTCACCACC AAGCAGTGCC 
GCCCTGAGCA ATTCAGAAAT GCTGATAAAC ATAAACAGAC CGACAGAAAG AACAGGGGGA 
GGTTTTGTCC CTCAGGCCAG TGGTGGCATG CAGAAGCTGA CCAGCTCTGC TGGTGTGGCC 
TCTACCTGTG AAACTCACAA GAAAGCAAAC GTTACAAAAG GAAAATGTGT GAAATATGGG 
GAAGACCGAT TCCAGGTTGA AATAGGCTAC AATGCTGAAC TTATTGCTGT GTTTAAGAAG 
GTACCAAGCA AAGCCTATGA TCCTGCTATG AAAAAATGGA ATTTCAGCAT GGAAGATTAC 
AGCAGTGTCT TGGAAGCAGC AAATCAACTT TCATCAGTAA TTCTGGCACC ACTGGAAGGA 
AAAAATGTGG TTGGCTTGGC ATCAGGCTCT CATTTTGTTG GCAGTGGGGT TGATGTGAAA 
TCCCTCTTGA AGATGTGTAA GAACTGGAAG AAATCCTCAG CCCTTGTCAA AGGGAAGTGT 
GTGCTTATCT CTCGCTTGCG ATTTGAGGTC GATATTGGGT ATTCTGCAGA AGTGATTGAG 
GTTTTCAAAA AGATGGATTC CAGAAATTAT GATATGAATA CCAGAAAGTG GAATTTCCTG 
CTGGAGGATT ACCCCAAACT AATGGAAGTG TTACTGAGCC TCATGTCTGT AGAAGTGGAG 
CCACTGCCTG AAGCAGTAAT TAAGACCTTT GCTGCTCAAC TGCAGAGATC TCCATCACTG 
ACAGACATTC CTGATGCTGA CCTTTCGGTT GTGGACTCCA AAATTGTGAC AAGCCTCATG 
CCCTTTCAGC GGGAAGGTGT GAATTTTGCA ATTTCCAGGA ATGGACGTTT GCTACTTGCA 
GATGACATGG GCCTGGGCAA GACCATCCAG GCCATCTGCA TTGCTGCCTA TTACCAGCAG 
GAATGGCCCT TGCTGGTGGT CACTCCTTCT TCTGTGAGAT TTACATGGGC ACAGGCATTT 
CACAGATGGC TTCCATCCTT GAGTCCCGAA AGCACCAATG TCATAGTGAG TGGGAAAGAC 
AACCTAACAG GAAGCTTGAT CAACATCATC AGTTTTGATC TCCTCAGCAG GATGGACAAG 
CAACTTAAGA GCACATTCCA AGTAGTTATT GTTGATGAGT CTCATTTCCT GAAGAACACA 
AAAACTGCAC GCTGCCAAGC TGCCATGCCT CTACTCAAGA TGCCATGGGG CTGGGATTAC 
TCTGGATCAT CCAACTTAAC GGAACTGAAA ATTTTGCTGG AAGAGTCCAT CATGATCCGA 
CGTCTGAAAT CAGATGTGCT TTCCCAGCTT CCAGCAAAGC AACGCAAAAT GGTCGTGGTG 
GCTCTTGAAG GCATTAGTGC AAAGACCAAA GCTGCCTTGG CAGCTGAAGC AAAGAAGATG 
GCCAAAGGAT ATGAAAGTAA ACAACAGGAG AAGGAAGGCC TTCTCGTCTA CTTCAGCAGA 
ACAGCAGAAG CTAAAATCCA CTCAGTCGTA GAGTACATCC TGGAGTTACT GGAAAGTGGG 
AATAATAAAT TCCTGGTGTT TGCGCATCAC AAGATAATGC TGGATGCAGT AGCTGCAGAG 
CTGAAGAAGA AACACATCGA GCACATTCGC ATCGATGGCT CCACATCTTC AGCTGAGCGG 
CAGTCTCTGT GCCAGAAGTT CCAGTTGGCA GAGAAGCATG CTGTGGCTGT CCTTTCCCTT 
ACTGCTGCAA ACATGGGCCT GACACTGTGT GCTGCAGATC TGGTGGTGTT TGCAGAGCTC 
TTCTGGAACC CAGGGATTTT GATCCAAGCA GAAGATCGGG CACACCGAAT TGGCCAGACC 
AGCTCTGTTA ATGTTCACTA CCTGGTGGCT AAAGGCACAG CAGATGACTA CTTATGGCCA 
ATGATTCAGG AGAAGATCAA AGTGCTGGGT GAAGCTGGTC TTTCAGAAAC CAATTTCTCT 
GAAACAGCTG AGTCAACTAA TTACTGTCCT AAGACCGACC CAAAGCAGAA GACAATCTAC 
GACCTTTTCC AAAAGACCTT CTCTGAGAGC AGAGATGATG CTGATGATAT TTTGTTTTTG 
GAGGCAGCTG ATGCTGGCTG TGAGTTTGAC TCTGGCAGTG CCTTGCAAGA CAGAGAAGCG 
GAGACATGTT CAGTGAGTCC GAAAAAAAAG CGGCGTATTG AGGAAGTGTA A

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

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SMARCAL1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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