Sall1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Sall1
Entrez Gene ID	307740
Full Name	spalt-like transcription factor 1
General protein information	Preferred Names spalt-like transcription factor 1 Names sal-like protein 1 sal-like 1
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 19 Map Location: 19p11

mRNA and Protein(s)

mRNA	Protein	Name
XM_006255260.3	XP_006255322.1	sal-like protein 1 isoform X1
NM_001107415.2	NP_001100885.2	sal-like protein 1

Pathways from BioSystems

Homologies

Mus musculus (house mouse)	Sall1	NP_067365.2
Danio rerio (zebrafish)	sall1a	NP_001139486.1
Canis lupus familiaris (dog)	SALL1	XP_005617623.1
Gallus gallus (chicken)	SALL1	NP_990038.1
Pan troglodytes (chimpanzee)	SALL1	XP_528651.4
Homo sapiens (human)	SALL1	NP_002959.2
	SALL1	XP_001088338.2
Xenopus tropicalis (tropical clawed frog)	sall1	NP_001090646.1
Bos taurus (cattle)	SALL1	NP_001192719.1
Rattus norvegicus (Norway rat)	Sall1	NP_001100885.2

Gene Ontology
Bibliography

Related articles in PubMed

Sall1 balances self-renewal and differentiation of renal progenitor cells.
Basta JM, Robbins L, Kiefer SM, Dorsett D, Rauchman M
Development (Cambridge, England)141(5)1047-58(2014 Mar)

SALL4 is a marker of the embryonal subtype of hepatoblastoma.
Gnemmi V, Leteurtre E, Sudour-Bonnange H, Devisme L, Guettier C, Buob D, Leroy X
Histopathology63(3)425-8(2013 Sep)

Sall1 regulates embryonic stem cell differentiation in association with nanog.
Karantzali E, Lekakis V, Ioannou M, Hadjimichael C, Papamatheakis J, Kretsovali A
The Journal of biological chemistry286(2)1037-45(2011 Jan)

Kif26b, a kinesin family gene, regulates adhesion of the embryonic kidney mesenchyme.
Uchiyama Y, Sakaguchi M, Terabayashi T, Inenaga T, Inoue S, Kobayashi C, Oshima N, Kiyonari H, Nakagata N, Sato Y, Sekiguchi K, Miki H, Araki E, Fujimura S, Tanaka SS, Nishinakamura R
Proceedings of the National Academy of Sciences of the United States of America107(20)9240-5(2010 May)

Zinc-finger transcriptional factor Sall1 induces angiogenesis by activation of the gene for VEGF-A.
Yamamoto C, Fukuda N, Matsumoto T, Higuchi T, Ueno T, Matsumoto K
Hypertension research : official journal of the Japanese Society of Hypertension33(2)143-8(2010 Feb)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Sall1 induces angiogenesis by stimulating VEGF-A promoter activity.
Title: Zinc-finger transcriptional factor Sall1 induces angiogenesis by activation of the gene for VEGF-A.

The following Sall1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Sall1 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)	Select
ORa00099	NM_001107415.2 Latest version!	Rattus norvegicus spalt-like transcription factor 1 (Sall1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa00099	XM_006255260.3 Latest version!	Rattus norvegicus spalt-like transcription factor 1 (Sall1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

Sall1 ( NM_001107415.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001100885.2 Rattus norvegicus spalt-like transcription factor 1 (Sall1), mRNA.

Price & Availability↑

CloneID	ORa00099
Clone ID Related Accession (Same CDS sequence)	XM_006255260.3 , NM_001107415.2
Accession Version	NM_001107415.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3948bp) 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	2018-05-31
Organism	Rattus norvegicus(Norway rat)
Product	sal-like protein 1
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07043135.1. On Mar 4, 2011 this sequence version replaced NM_001107415.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

ATGTCGCGGA GGAAGCAAGC GAAGCCTCAA CATTTCCAAT CCGACCCCGA AGTGGCCTCG 
CTCCCCCGGC GAGATGGGGA CACAGAGAAG GGTCAACCAA GTCGCCCCAC TAAGAGCAAA 
GATGCCCACG TCTGTGGCCG GTGCTGCGCT GAATTCTTTG AATTATCAGA CCTTCTGCTC 
CACAAAAAGA GCTGCACTAA GAATCAATTA GTTTTGATCG TCAATGAAAG TCCAGCCTCC 
CCACCAAAAA CCTTCCCTCC CGGCCCGCCG TCTCTCAACA ATCCTGATGA GCAAATGAAA 
TTCGTGGCGA GTAAAGCAGA CCAAGAAGAC TGCGGCGACC TTTCAGAACA CAAGGGACTC 
GACAGGGAAG AGTCCATGGA GACGGAGGTC CCAGTTGCCA CCAGCAGCAG CAGCAGCAAC 
GGTGGCACTC TGAGCAGTGT CACCAACATC GCCACCCCAA GCTGCCACAG CGGCTCTTCC 
ACGGGTACCT CAGCGATCAC AACCTCTCTA CCTCAACTTG GGGACCTGAC GACACTGGGC 
AACTTCTCGG TGATCAACAG CAACGTCATC ATTGAAAATC TCCAGAGCAC CAAGGTGGCG 
GTGGCCCAGT TCTCCCAGGA AGCGAGGTGT GGGGGGGCCT CTGGAGGCAA GCTGCTCATC 
TCGGCCCTCA TGGAGCAGCT CCTAGCTCTG CAGCAGCAGC AGATCCACCA GCTGCAGCTC 
ATAGAACAGA TTCGTCACCA AATACTGCTG CTGGCTTCTC AGAACGCAGA TCTGTCAGCC 
TCTTCTGTTC CTTCTCAAGG TACTTTACGA ACGTCTGCCA ACCCCTTGAC CACACTAAGT 
TCCCATTTGT CTCAGCAGCT GGCGGTGGCA GCTGGATTAG CACAGAGCCT TGCTAGCCAA 
TCTGCCAACA TCAGCGGTGT GAAGCAGCTC CCCCCAGTCC AGCTACCTCA GAGCAGCTCC 
GGCACCATCA TCCCGCCCAG TAGTGGCCCA TCTCCCAACG TGAGCATGGT GACAGCAACA 
GTTCCCACCC CGTCCTCGGA AAAAGTGGCT TCCAATGCTG GTGCCTCCCA TGTCAGCCCC 
CCGGCCGTCT CAGCATCATC CTCACCAGCA GCATTCGCAA TAAGCAGTCT GTTGAGTCCT 
GCATCTAACC CACTTCTACC TCAGCCGACC CCAGCTAATG CTGTTTTCCC TACCCCTTTG 
CCTAACATTG CGACAACTGC AGAAGATTTA AACGCCCTGT CTGCCTTGGC CCAGCAAAGA 
AAAAGCAAGC CACCAAATGT CACTGCCTTC GAAGCAAAGA GTACTTCAGA CGAGGCATTC 
TTTAAACACA AGTGTAGGTT CTGTGCAAAG GTCTTTGGGA GTGACAGTGC CTTGCAGATC 
CACTTGCGCT CCCATACTGG AGAGAGGCCG TTCAAGTGCA ACATCTGTGG GAACAGGTTC 
TCCACCAAGG GCAACCTGAA AGTCCACTTT CAGCGCCACA AAGAGAAGTA CCCCCACATC 
CAGATGAACC CCTACCCCGT ACCGGAGCAC TTGGACAACG TCCCTACGAG CACCGGCATC 
CCCTACGGCA TGTCCATCCC TCCAGAGAAG CCGGTCACCA GCTGGCTAGA CACCAAGCCG 
GTCCTGCCCA CTCTGACCAC TTCCGTCGGC CTGCCATTGC CTCCTACCCT CCCAAGCCTC 
ACGCCCTTCA TCAAGACGGA AGAACCAGCT CCCATCCCAA TTAGCCATTC TGCTGCCAGC 
CCCCAAGGCT CAGTCAAAAG TGACTCGGGG GCCCCCGATT TGGCCACAAG AAACCCAAGT 
GGGGTCCCAG AGGAAGCCGA AGGGTCTGCT GTGCCCCCCT TCGGTGGCAA GGGTGAAGAC 
AGTAGCGTGG TAAGCTCCAT CCCGACAGCG GGCAGCAGTG CCCTGAACTC CCCAGTGGCT 
GATGGTGGTG CAGGAGGGAC CACCTTCACC AACCCTCTGT TGCCCCTCAT GTCTGAGCAG 
TTCAAGGCCA AGTTTCCTTT TGGGGGACTC TTAGATTCAG CCCAGGCCTC AGAGACATCC 
AAGCTGCAGC AACTGGTAGA AAACATTGAC AAGAAGGCCA CCGACCCCAA CGAGTGTGTC 
ATCTGCCATC GGGTTCTGAG CTGTCAGAGC GCTTTGAAAA TGCACTACCG AACACACACC 
GGGGAGAGGC CCTTCAAGTG TAAGATCTGC GGCCGGGCTT TTACCACGAA AGGGAACCTC 
AAGACCCACT ACAGCGTCCA TCGGGCTATG CCCCCACTCA GAGTCCAGCA TTCCTGCCCC 
ATCTGTCAGA AGAAGTTCAC AAACGCAGTG GTCCTCCAGC AGCACATCCG TATGCACATG 
GGAGGCCAGA TCCCGAACAC CCCGGTCCCT GACAACTACC CCGAGTCCAT GGAGTCTGAC 
ACAGGCTCCT TCGATGAGAA GAATTTCGAT GACTTAGACA ACTTCTCAGA TGAGAACATG 
GAAGAGTGTC CTGAGGGCAG CATCCCGGAT ACGCCCAAGT CAGCTGACGC TTCCCAAGAC 
AGCCTGTCGT CTTCACCTCT GCCACTCGAG ATGTCCAGCA TCGCCGCTTT GGAAAATCAG 
ATGAAGATGA TCAACGCTGG CCTGGCCGAG CAGCTGCAGG CCAGCCTGAA GTCGGTGGAG 
AACGGGTCAG TGGAAGGAGA TGTACTGACC AATGACTCAT CCTCAGTGGG TGGGGATGTG 
GAGAGCCAGA GTTCGGGCAG CCCAGCCATC TCAGAGTCTA CCTCTTCTAT GCAGGCTCTG 
TCCCCATCCA ACAGCACCCA AGAGTTCCAC AAGTCACCCA ATGTTGAGGA AAAGCCACAG 
AGAGTGGGGC CAGGCGAGTT TGCCAATGGC CTGTCTCCCA CCCCAGTGAA CGGAGGTGCT 
TTGGACTTGA CCTCTAGTCA TGCAGAGAAA ATCATCAAAG AAGATTCCCT GGGAATCCTC 
TTCCCTTTCA GAGACCGGGG TAAATTTAAA AACACTGCTT GTGACATTTG TGGCAAAACC 
TTTGCTTGTC AGAGTGCCTT GGACATTCAT TACAGAAGTC ATACCAAAGA GAGACCGTTC 
ATTTGCACAG TTTGCAGTCG TGGCTTTTCC ACAAAGGGGA ATTTGAAGCA GCACATGTTG 
ACACATCAGA TGCGAGATCT GCCATCGCAG CTCTTTGAGC CCAGTTCCAA CCTCGGCCCC 
AATCAGAACT CTGCGATGAT TCCCGCCAGC TCGTTGTCAT CTCTCATCAA AACAGAGGTC 
AACGGCTTTG TGCACGTTTC TCCTCAGGAC AGTAAGGATG CCCCCACTAG TCATGTCCCT 
TCGGGGCCTC TGTCATCCTC TGCGACATCC CCGGTTCTGC TCCCAGCTCT GCCCCGGAGA 
ACCCCCAAAC AGCACTATTG TAACACATGT GGTAAAACCT TCTCTTCCTC GAGTGCCCTG 
CAGATCCACG AGAGAACTCA CACTGGAGAG AAGCCCTTTG CTTGCACTAT CTGTGGAAGA 
GCATTCACAA CGAAAGGCAA TCTGAAGGTC CACATGGGCA CTCATATGTG GAACAGTACC 
CCTGCACGCC GGGGCCGCCG GCTCTCAGTG GATGGCCCCA TGACATTTCT AGGAGGGAAT 
CCTGTCAAGT TCCCAGAAAT GTTCCAGAAG GATCTGGCGG CGAGGTCAGG AAGCGGGGAT 
CCGTCCAGCT TTTGGAACCA GTATACAGCA GCACTGTCCA ACGGGCTGGC CATGAAGGCC 
AACGAGATCT CTGTCATTCA GAATGGTGGC ATCCCTCCAA TTCCTGGAAG CCTGGGCAAC 
GGGAGCAGCT CACCTATCAG CGGGCTGACA GGGAACGTGG AAAAGCTGGG GAATTCGGAA 
CCCAGTGCTC CCCTGGCTGG TCTGGAGAAA ATGGCGAGCA GCGAGAACGG AACCAACTTC 
CGTTTCACCC GCTTCGTGGA GGACAGCAAA GAGATCGTCA CGAGCTAA

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

RefSeq	NP_001100885.2
CDS	26..3973
Translation	MSRRKQAKPQHFQSDPEVASLPRRDGDTEKGQPSRPTKSKDAHVCGRCCAEFFELSDLLLHKKSCTKNQLVLIVNESPASPPKTFPPGPPSLNNPDEQMKFVASKADQEDCGDLSEHKGLDREESMETEVPVATSSSSSNGGTLSSVTNIATPSCHSGSSTGTSAITTSLPQLGDLTTLGNFSVINSNVIIENLQSTKVAVAQFSQEARCGGASGGKLLISALMEQLLALQQQQIHQLQLIEQIRHQILLLASQNADLSASSVPSQGTLRTSANPLTTLSSHLSQQLAVAAGLAQSLASQSANISGVKQLPPVQLPQSSSGTIIPPSSGPSPNVSMVTATVPTPSSEKVASNAGASHVSPPAVSASSSPAAFAISSLLSPASNPLLPQPTPANAVFPTPLPNIATTAEDLNALSALAQQRKSKPPNVTAFEAKSTSDEAFFKHKCRFCAKVFGSDSALQIHLRSHTGERPFKCNICGNRFSTKGNLKVHFQRHKEKYPHIQMNPYPVPEHLDNVPTSTGIPYGMSIPPEKPVTSWLDTKPVLPTLTTSVGLPLPPTLPSLTPFIKTEEPAPIPISHSAASPQGSVKSDSGAPDLATRNPSGVPEEAEGSAVPPFGGKGEDSSVVSSIPTAGSSALNSPVADGGAGGTTFTNPLLPLMSEQFKAKFPFGGLLDSAQASETSKLQQLVENIDKKATDPNECVICHRVLSCQSALKMHYRTHTGERPFKCKICGRAFTTKGNLKTHYSVHRAMPPLRVQHSCPICQKKFTNAVVLQQHIRMHMGGQIPNTPVPDNYPESMESDTGSFDEKNFDDLDNFSDENMEECPEGSIPDTPKSADASQDSLSSSPLPLEMSSIAALENQMKMINAGLAEQLQASLKSVENGSVEGDVLTNDSSSVGGDVESQSSGSPAISESTSSMQALSPSNSTQEFHKSPNVEEKPQRVGPGEFANGLSPTPVNGGALDLTSSHAEKIIKEDSLGILFPFRDRGKFKNTACDICGKTFACQSALDIHYRSHTKERPFICTVCSRGFSTKGNLKQHMLTHQMRDLPSQLFEPSSNLGPNQNSAMIPASSLSSLIKTEVNGFVHVSPQDSKDAPTSHVPSGPLSSSATSPVLLPALPRRTPKQHYCNTCGKTFSSSSALQIHERTHTGEKPFACTICGRAFTTKGNLKVHMGTHMWNSTPARRGRRLSVDGPMTFLGGNPVKFPEMFQKDLAARSGSGDPSSFWNQYTAALSNGLAMKANEISVIQNGGIPPIPGSLGNGSSSPISGLTGNVEKLGNSEPSAPLAGLEKMASSENGTNFRFTRFVEDSKEIVTS

Target ORF information:

RefSeq Version	NM_001107415.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus spalt-like transcription factor 1 (Sall1), mRNA.

Target ORF information:

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

NM_001107415.2

ORF Insert Sequence:

ATGTCGCGGA GGAAGCAAGC GAAGCCTCAA CATTTCCAAT CCGACCCCGA AGTGGCCTCG 
CTCCCCCGGC GAGATGGGGA CACAGAGAAG GGTCAACCAA GTCGCCCCAC TAAGAGCAAA 
GATGCCCACG TCTGTGGCCG GTGCTGCGCT GAATTCTTTG AATTATCAGA CCTTCTGCTC 
CACAAAAAGA GCTGCACTAA GAATCAATTA GTTTTGATCG TCAATGAAAG TCCAGCCTCC 
CCACCAAAAA CCTTCCCTCC CGGCCCGCCG TCTCTCAACA ATCCTGATGA GCAAATGAAA 
TTCGTGGCGA GTAAAGCAGA CCAAGAAGAC TGCGGCGACC TTTCAGAACA CAAGGGACTC 
GACAGGGAAG AGTCCATGGA GACGGAGGTC CCAGTTGCCA CCAGCAGCAG CAGCAGCAAC 
GGTGGCACTC TGAGCAGTGT CACCAACATC GCCACCCCAA GCTGCCACAG CGGCTCTTCC 
ACGGGTACCT CAGCGATCAC AACCTCTCTA CCTCAACTTG GGGACCTGAC GACACTGGGC 
AACTTCTCGG TGATCAACAG CAACGTCATC ATTGAAAATC TCCAGAGCAC CAAGGTGGCG 
GTGGCCCAGT TCTCCCAGGA AGCGAGGTGT GGGGGGGCCT CTGGAGGCAA GCTGCTCATC 
TCGGCCCTCA TGGAGCAGCT CCTAGCTCTG CAGCAGCAGC AGATCCACCA GCTGCAGCTC 
ATAGAACAGA TTCGTCACCA AATACTGCTG CTGGCTTCTC AGAACGCAGA TCTGTCAGCC 
TCTTCTGTTC CTTCTCAAGG TACTTTACGA ACGTCTGCCA ACCCCTTGAC CACACTAAGT 
TCCCATTTGT CTCAGCAGCT GGCGGTGGCA GCTGGATTAG CACAGAGCCT TGCTAGCCAA 
TCTGCCAACA TCAGCGGTGT GAAGCAGCTC CCCCCAGTCC AGCTACCTCA GAGCAGCTCC 
GGCACCATCA TCCCGCCCAG TAGTGGCCCA TCTCCCAACG TGAGCATGGT GACAGCAACA 
GTTCCCACCC CGTCCTCGGA AAAAGTGGCT TCCAATGCTG GTGCCTCCCA TGTCAGCCCC 
CCGGCCGTCT CAGCATCATC CTCACCAGCA GCATTCGCAA TAAGCAGTCT GTTGAGTCCT 
GCATCTAACC CACTTCTACC TCAGCCGACC CCAGCTAATG CTGTTTTCCC TACCCCTTTG 
CCTAACATTG CGACAACTGC AGAAGATTTA AACGCCCTGT CTGCCTTGGC CCAGCAAAGA 
AAAAGCAAGC CACCAAATGT CACTGCCTTC GAAGCAAAGA GTACTTCAGA CGAGGCATTC 
TTTAAACACA AGTGTAGGTT CTGTGCAAAG GTCTTTGGGA GTGACAGTGC CTTGCAGATC 
CACTTGCGCT CCCATACTGG AGAGAGGCCG TTCAAGTGCA ACATCTGTGG GAACAGGTTC 
TCCACCAAGG GCAACCTGAA AGTCCACTTT CAGCGCCACA AAGAGAAGTA CCCCCACATC 
CAGATGAACC CCTACCCCGT ACCGGAGCAC TTGGACAACG TCCCTACGAG CACCGGCATC 
CCCTACGGCA TGTCCATCCC TCCAGAGAAG CCGGTCACCA GCTGGCTAGA CACCAAGCCG 
GTCCTGCCCA CTCTGACCAC TTCCGTCGGC CTGCCATTGC CTCCTACCCT CCCAAGCCTC 
ACGCCCTTCA TCAAGACGGA AGAACCAGCT CCCATCCCAA TTAGCCATTC TGCTGCCAGC 
CCCCAAGGCT CAGTCAAAAG TGACTCGGGG GCCCCCGATT TGGCCACAAG AAACCCAAGT 
GGGGTCCCAG AGGAAGCCGA AGGGTCTGCT GTGCCCCCCT TCGGTGGCAA GGGTGAAGAC 
AGTAGCGTGG TAAGCTCCAT CCCGACAGCG GGCAGCAGTG CCCTGAACTC CCCAGTGGCT 
GATGGTGGTG CAGGAGGGAC CACCTTCACC AACCCTCTGT TGCCCCTCAT GTCTGAGCAG 
TTCAAGGCCA AGTTTCCTTT TGGGGGACTC TTAGATTCAG CCCAGGCCTC AGAGACATCC 
AAGCTGCAGC AACTGGTAGA AAACATTGAC AAGAAGGCCA CCGACCCCAA CGAGTGTGTC 
ATCTGCCATC GGGTTCTGAG CTGTCAGAGC GCTTTGAAAA TGCACTACCG AACACACACC 
GGGGAGAGGC CCTTCAAGTG TAAGATCTGC GGCCGGGCTT TTACCACGAA AGGGAACCTC 
AAGACCCACT ACAGCGTCCA TCGGGCTATG CCCCCACTCA GAGTCCAGCA TTCCTGCCCC 
ATCTGTCAGA AGAAGTTCAC AAACGCAGTG GTCCTCCAGC AGCACATCCG TATGCACATG 
GGAGGCCAGA TCCCGAACAC CCCGGTCCCT GACAACTACC CCGAGTCCAT GGAGTCTGAC 
ACAGGCTCCT TCGATGAGAA GAATTTCGAT GACTTAGACA ACTTCTCAGA TGAGAACATG 
GAAGAGTGTC CTGAGGGCAG CATCCCGGAT ACGCCCAAGT CAGCTGACGC TTCCCAAGAC 
AGCCTGTCGT CTTCACCTCT GCCACTCGAG ATGTCCAGCA TCGCCGCTTT GGAAAATCAG 
ATGAAGATGA TCAACGCTGG CCTGGCCGAG CAGCTGCAGG CCAGCCTGAA GTCGGTGGAG 
AACGGGTCAG TGGAAGGAGA TGTACTGACC AATGACTCAT CCTCAGTGGG TGGGGATGTG 
GAGAGCCAGA GTTCGGGCAG CCCAGCCATC TCAGAGTCTA CCTCTTCTAT GCAGGCTCTG 
TCCCCATCCA ACAGCACCCA AGAGTTCCAC AAGTCACCCA ATGTTGAGGA AAAGCCACAG 
AGAGTGGGGC CAGGCGAGTT TGCCAATGGC CTGTCTCCCA CCCCAGTGAA CGGAGGTGCT 
TTGGACTTGA CCTCTAGTCA TGCAGAGAAA ATCATCAAAG AAGATTCCCT GGGAATCCTC 
TTCCCTTTCA GAGACCGGGG TAAATTTAAA AACACTGCTT GTGACATTTG TGGCAAAACC 
TTTGCTTGTC AGAGTGCCTT GGACATTCAT TACAGAAGTC ATACCAAAGA GAGACCGTTC 
ATTTGCACAG TTTGCAGTCG TGGCTTTTCC ACAAAGGGGA ATTTGAAGCA GCACATGTTG 
ACACATCAGA TGCGAGATCT GCCATCGCAG CTCTTTGAGC CCAGTTCCAA CCTCGGCCCC 
AATCAGAACT CTGCGATGAT TCCCGCCAGC TCGTTGTCAT CTCTCATCAA AACAGAGGTC 
AACGGCTTTG TGCACGTTTC TCCTCAGGAC AGTAAGGATG CCCCCACTAG TCATGTCCCT 
TCGGGGCCTC TGTCATCCTC TGCGACATCC CCGGTTCTGC TCCCAGCTCT GCCCCGGAGA 
ACCCCCAAAC AGCACTATTG TAACACATGT GGTAAAACCT TCTCTTCCTC GAGTGCCCTG 
CAGATCCACG AGAGAACTCA CACTGGAGAG AAGCCCTTTG CTTGCACTAT CTGTGGAAGA 
GCATTCACAA CGAAAGGCAA TCTGAAGGTC CACATGGGCA CTCATATGTG GAACAGTACC 
CCTGCACGCC GGGGCCGCCG GCTCTCAGTG GATGGCCCCA TGACATTTCT AGGAGGGAAT 
CCTGTCAAGT TCCCAGAAAT GTTCCAGAAG GATCTGGCGG CGAGGTCAGG AAGCGGGGAT 
CCGTCCAGCT TTTGGAACCA GTATACAGCA GCACTGTCCA ACGGGCTGGC CATGAAGGCC 
AACGAGATCT CTGTCATTCA GAATGGTGGC ATCCCTCCAA TTCCTGGAAG CCTGGGCAAC 
GGGAGCAGCT CACCTATCAG CGGGCTGACA GGGAACGTGG AAAAGCTGGG GAATTCGGAA 
CCCAGTGCTC CCCTGGCTGG TCTGGAGAAA ATGGCGAGCA GCGAGAACGG AACCAACTTC 
CGTTTCACCC GCTTCGTGGA GGACAGCAAA GAGATCGTCA CGAGCTAA

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

Sall1 ( XM_006255260.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006255322.1 Rattus norvegicus spalt-like transcription factor 1 (Sall1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa00099
Clone ID Related Accession (Same CDS sequence)	XM_006255260.3 , NM_001107415.2
Accession Version	XM_006255260.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3948bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	sal-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_005118.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006255260.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGCGGA GGAAGCAAGC GAAGCCTCAA CATTTCCAAT CCGACCCCGA AGTGGCCTCG 
CTCCCCCGGC GAGATGGGGA CACAGAGAAG GGTCAACCAA GTCGCCCCAC TAAGAGCAAA 
GATGCCCACG TCTGTGGCCG GTGCTGCGCT GAATTCTTTG AATTATCAGA CCTTCTGCTC 
CACAAAAAGA GCTGCACTAA GAATCAATTA GTTTTGATCG TCAATGAAAG TCCAGCCTCC 
CCACCAAAAA CCTTCCCTCC CGGCCCGCCG TCTCTCAACA ATCCTGATGA GCAAATGAAA 
TTCGTGGCGA GTAAAGCAGA CCAAGAAGAC TGCGGCGACC TTTCAGAACA CAAGGGACTC 
GACAGGGAAG AGTCCATGGA GACGGAGGTC CCAGTTGCCA CCAGCAGCAG CAGCAGCAAC 
GGTGGCACTC TGAGCAGTGT CACCAACATC GCCACCCCAA GCTGCCACAG CGGCTCTTCC 
ACGGGTACCT CAGCGATCAC AACCTCTCTA CCTCAACTTG GGGACCTGAC GACACTGGGC 
AACTTCTCGG TGATCAACAG CAACGTCATC ATTGAAAATC TCCAGAGCAC CAAGGTGGCG 
GTGGCCCAGT TCTCCCAGGA AGCGAGGTGT GGGGGGGCCT CTGGAGGCAA GCTGCTCATC 
TCGGCCCTCA TGGAGCAGCT CCTAGCTCTG CAGCAGCAGC AGATCCACCA GCTGCAGCTC 
ATAGAACAGA TTCGTCACCA AATACTGCTG CTGGCTTCTC AGAACGCAGA TCTGTCAGCC 
TCTTCTGTTC CTTCTCAAGG TACTTTACGA ACGTCTGCCA ACCCCTTGAC CACACTAAGT 
TCCCATTTGT CTCAGCAGCT GGCGGTGGCA GCTGGATTAG CACAGAGCCT TGCTAGCCAA 
TCTGCCAACA TCAGCGGTGT GAAGCAGCTC CCCCCAGTCC AGCTACCTCA GAGCAGCTCC 
GGCACCATCA TCCCGCCCAG TAGTGGCCCA TCTCCCAACG TGAGCATGGT GACAGCAACA 
GTTCCCACCC CGTCCTCGGA AAAAGTGGCT TCCAATGCTG GTGCCTCCCA TGTCAGCCCC 
CCGGCCGTCT CAGCATCATC CTCACCAGCA GCATTCGCAA TAAGCAGTCT GTTGAGTCCT 
GCATCTAACC CACTTCTACC TCAGCCGACC CCAGCTAATG CTGTTTTCCC TACCCCTTTG 
CCTAACATTG CGACAACTGC AGAAGATTTA AACGCCCTGT CTGCCTTGGC CCAGCAAAGA 
AAAAGCAAGC CACCAAATGT CACTGCCTTC GAAGCAAAGA GTACTTCAGA CGAGGCATTC 
TTTAAACACA AGTGTAGGTT CTGTGCAAAG GTCTTTGGGA GTGACAGTGC CTTGCAGATC 
CACTTGCGCT CCCATACTGG AGAGAGGCCG TTCAAGTGCA ACATCTGTGG GAACAGGTTC 
TCCACCAAGG GCAACCTGAA AGTCCACTTT CAGCGCCACA AAGAGAAGTA CCCCCACATC 
CAGATGAACC CCTACCCCGT ACCGGAGCAC TTGGACAACG TCCCTACGAG CACCGGCATC 
CCCTACGGCA TGTCCATCCC TCCAGAGAAG CCGGTCACCA GCTGGCTAGA CACCAAGCCG 
GTCCTGCCCA CTCTGACCAC TTCCGTCGGC CTGCCATTGC CTCCTACCCT CCCAAGCCTC 
ACGCCCTTCA TCAAGACGGA AGAACCAGCT CCCATCCCAA TTAGCCATTC TGCTGCCAGC 
CCCCAAGGCT CAGTCAAAAG TGACTCGGGG GCCCCCGATT TGGCCACAAG AAACCCAAGT 
GGGGTCCCAG AGGAAGCCGA AGGGTCTGCT GTGCCCCCCT TCGGTGGCAA GGGTGAAGAC 
AGTAGCGTGG TAAGCTCCAT CCCGACAGCG GGCAGCAGTG CCCTGAACTC CCCAGTGGCT 
GATGGTGGTG CAGGAGGGAC CACCTTCACC AACCCTCTGT TGCCCCTCAT GTCTGAGCAG 
TTCAAGGCCA AGTTTCCTTT TGGGGGACTC TTAGATTCAG CCCAGGCCTC AGAGACATCC 
AAGCTGCAGC AACTGGTAGA AAACATTGAC AAGAAGGCCA CCGACCCCAA CGAGTGTGTC 
ATCTGCCATC GGGTTCTGAG CTGTCAGAGC GCTTTGAAAA TGCACTACCG AACACACACC 
GGGGAGAGGC CCTTCAAGTG TAAGATCTGC GGCCGGGCTT TTACCACGAA AGGGAACCTC 
AAGACCCACT ACAGCGTCCA TCGGGCTATG CCCCCACTCA GAGTCCAGCA TTCCTGCCCC 
ATCTGTCAGA AGAAGTTCAC AAACGCAGTG GTCCTCCAGC AGCACATCCG TATGCACATG 
GGAGGCCAGA TCCCGAACAC CCCGGTCCCT GACAACTACC CCGAGTCCAT GGAGTCTGAC 
ACAGGCTCCT TCGATGAGAA GAATTTCGAT GACTTAGACA ACTTCTCAGA TGAGAACATG 
GAAGAGTGTC CTGAGGGCAG CATCCCGGAT ACGCCCAAGT CAGCTGACGC TTCCCAAGAC 
AGCCTGTCGT CTTCACCTCT GCCACTCGAG ATGTCCAGCA TCGCCGCTTT GGAAAATCAG 
ATGAAGATGA TCAACGCTGG CCTGGCCGAG CAGCTGCAGG CCAGCCTGAA GTCGGTGGAG 
AACGGGTCAG TGGAAGGAGA TGTACTGACC AATGACTCAT CCTCAGTGGG TGGGGATGTG 
GAGAGCCAGA GTTCGGGCAG CCCAGCCATC TCAGAGTCTA CCTCTTCTAT GCAGGCTCTG 
TCCCCATCCA ACAGCACCCA AGAGTTCCAC AAGTCACCCA ATGTTGAGGA AAAGCCACAG 
AGAGTGGGGC CAGGCGAGTT TGCCAATGGC CTGTCTCCCA CCCCAGTGAA CGGAGGTGCT 
TTGGACTTGA CCTCTAGTCA TGCAGAGAAA ATCATCAAAG AAGATTCCCT GGGAATCCTC 
TTCCCTTTCA GAGACCGGGG TAAATTTAAA AACACTGCTT GTGACATTTG TGGCAAAACC 
TTTGCTTGTC AGAGTGCCTT GGACATTCAT TACAGAAGTC ATACCAAAGA GAGACCGTTC 
ATTTGCACAG TTTGCAGTCG TGGCTTTTCC ACAAAGGGGA ATTTGAAGCA GCACATGTTG 
ACACATCAGA TGCGAGATCT GCCATCGCAG CTCTTTGAGC CCAGTTCCAA CCTCGGCCCC 
AATCAGAACT CTGCGATGAT TCCCGCCAGC TCGTTGTCAT CTCTCATCAA AACAGAGGTC 
AACGGCTTTG TGCACGTTTC TCCTCAGGAC AGTAAGGATG CCCCCACTAG TCATGTCCCT 
TCGGGGCCTC TGTCATCCTC TGCGACATCC CCGGTTCTGC TCCCAGCTCT GCCCCGGAGA 
ACCCCCAAAC AGCACTATTG TAACACATGT GGTAAAACCT TCTCTTCCTC GAGTGCCCTG 
CAGATCCACG AGAGAACTCA CACTGGAGAG AAGCCCTTTG CTTGCACTAT CTGTGGAAGA 
GCATTCACAA CGAAAGGCAA TCTGAAGGTC CACATGGGCA CTCATATGTG GAACAGTACC 
CCTGCACGCC GGGGCCGCCG GCTCTCAGTG GATGGCCCCA TGACATTTCT AGGAGGGAAT 
CCTGTCAAGT TCCCAGAAAT GTTCCAGAAG GATCTGGCGG CGAGGTCAGG AAGCGGGGAT 
CCGTCCAGCT TTTGGAACCA GTATACAGCA GCACTGTCCA ACGGGCTGGC CATGAAGGCC 
AACGAGATCT CTGTCATTCA GAATGGTGGC ATCCCTCCAA TTCCTGGAAG CCTGGGCAAC 
GGGAGCAGCT CACCTATCAG CGGGCTGACA GGGAACGTGG AAAAGCTGGG GAATTCGGAA 
CCCAGTGCTC CCCTGGCTGG TCTGGAGAAA ATGGCGAGCA GCGAGAACGG AACCAACTTC 
CGTTTCACCC GCTTCGTGGA GGACAGCAAA GAGATCGTCA CGAGCTAA

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

RefSeq	XP_006255322.1
CDS	155..4102
Translation	MSRRKQAKPQHFQSDPEVASLPRRDGDTEKGQPSRPTKSKDAHVCGRCCAEFFELSDLLLHKKSCTKNQLVLIVNESPASPPKTFPPGPPSLNNPDEQMKFVASKADQEDCGDLSEHKGLDREESMETEVPVATSSSSSNGGTLSSVTNIATPSCHSGSSTGTSAITTSLPQLGDLTTLGNFSVINSNVIIENLQSTKVAVAQFSQEARCGGASGGKLLISALMEQLLALQQQQIHQLQLIEQIRHQILLLASQNADLSASSVPSQGTLRTSANPLTTLSSHLSQQLAVAAGLAQSLASQSANISGVKQLPPVQLPQSSSGTIIPPSSGPSPNVSMVTATVPTPSSEKVASNAGASHVSPPAVSASSSPAAFAISSLLSPASNPLLPQPTPANAVFPTPLPNIATTAEDLNALSALAQQRKSKPPNVTAFEAKSTSDEAFFKHKCRFCAKVFGSDSALQIHLRSHTGERPFKCNICGNRFSTKGNLKVHFQRHKEKYPHIQMNPYPVPEHLDNVPTSTGIPYGMSIPPEKPVTSWLDTKPVLPTLTTSVGLPLPPTLPSLTPFIKTEEPAPIPISHSAASPQGSVKSDSGAPDLATRNPSGVPEEAEGSAVPPFGGKGEDSSVVSSIPTAGSSALNSPVADGGAGGTTFTNPLLPLMSEQFKAKFPFGGLLDSAQASETSKLQQLVENIDKKATDPNECVICHRVLSCQSALKMHYRTHTGERPFKCKICGRAFTTKGNLKTHYSVHRAMPPLRVQHSCPICQKKFTNAVVLQQHIRMHMGGQIPNTPVPDNYPESMESDTGSFDEKNFDDLDNFSDENMEECPEGSIPDTPKSADASQDSLSSSPLPLEMSSIAALENQMKMINAGLAEQLQASLKSVENGSVEGDVLTNDSSSVGGDVESQSSGSPAISESTSSMQALSPSNSTQEFHKSPNVEEKPQRVGPGEFANGLSPTPVNGGALDLTSSHAEKIIKEDSLGILFPFRDRGKFKNTACDICGKTFACQSALDIHYRSHTKERPFICTVCSRGFSTKGNLKQHMLTHQMRDLPSQLFEPSSNLGPNQNSAMIPASSLSSLIKTEVNGFVHVSPQDSKDAPTSHVPSGPLSSSATSPVLLPALPRRTPKQHYCNTCGKTFSSSSALQIHERTHTGEKPFACTICGRAFTTKGNLKVHMGTHMWNSTPARRGRRLSVDGPMTFLGGNPVKFPEMFQKDLAARSGSGDPSSFWNQYTAALSNGLAMKANEISVIQNGGIPPIPGSLGNGSSSPISGLTGNVEKLGNSEPSAPLAGLEKMASSENGTNFRFTRFVEDSKEIVTS

Target ORF information:

RefSeq Version	XM_006255260.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus spalt-like transcription factor 1 (Sall1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006255260.3

ORF Insert Sequence:

ATGTCGCGGA GGAAGCAAGC GAAGCCTCAA CATTTCCAAT CCGACCCCGA AGTGGCCTCG 
CTCCCCCGGC GAGATGGGGA CACAGAGAAG GGTCAACCAA GTCGCCCCAC TAAGAGCAAA 
GATGCCCACG TCTGTGGCCG GTGCTGCGCT GAATTCTTTG AATTATCAGA CCTTCTGCTC 
CACAAAAAGA GCTGCACTAA GAATCAATTA GTTTTGATCG TCAATGAAAG TCCAGCCTCC 
CCACCAAAAA CCTTCCCTCC CGGCCCGCCG TCTCTCAACA ATCCTGATGA GCAAATGAAA 
TTCGTGGCGA GTAAAGCAGA CCAAGAAGAC TGCGGCGACC TTTCAGAACA CAAGGGACTC 
GACAGGGAAG AGTCCATGGA GACGGAGGTC CCAGTTGCCA CCAGCAGCAG CAGCAGCAAC 
GGTGGCACTC TGAGCAGTGT CACCAACATC GCCACCCCAA GCTGCCACAG CGGCTCTTCC 
ACGGGTACCT CAGCGATCAC AACCTCTCTA CCTCAACTTG GGGACCTGAC GACACTGGGC 
AACTTCTCGG TGATCAACAG CAACGTCATC ATTGAAAATC TCCAGAGCAC CAAGGTGGCG 
GTGGCCCAGT TCTCCCAGGA AGCGAGGTGT GGGGGGGCCT CTGGAGGCAA GCTGCTCATC 
TCGGCCCTCA TGGAGCAGCT CCTAGCTCTG CAGCAGCAGC AGATCCACCA GCTGCAGCTC 
ATAGAACAGA TTCGTCACCA AATACTGCTG CTGGCTTCTC AGAACGCAGA TCTGTCAGCC 
TCTTCTGTTC CTTCTCAAGG TACTTTACGA ACGTCTGCCA ACCCCTTGAC CACACTAAGT 
TCCCATTTGT CTCAGCAGCT GGCGGTGGCA GCTGGATTAG CACAGAGCCT TGCTAGCCAA 
TCTGCCAACA TCAGCGGTGT GAAGCAGCTC CCCCCAGTCC AGCTACCTCA GAGCAGCTCC 
GGCACCATCA TCCCGCCCAG TAGTGGCCCA TCTCCCAACG TGAGCATGGT GACAGCAACA 
GTTCCCACCC CGTCCTCGGA AAAAGTGGCT TCCAATGCTG GTGCCTCCCA TGTCAGCCCC 
CCGGCCGTCT CAGCATCATC CTCACCAGCA GCATTCGCAA TAAGCAGTCT GTTGAGTCCT 
GCATCTAACC CACTTCTACC TCAGCCGACC CCAGCTAATG CTGTTTTCCC TACCCCTTTG 
CCTAACATTG CGACAACTGC AGAAGATTTA AACGCCCTGT CTGCCTTGGC CCAGCAAAGA 
AAAAGCAAGC CACCAAATGT CACTGCCTTC GAAGCAAAGA GTACTTCAGA CGAGGCATTC 
TTTAAACACA AGTGTAGGTT CTGTGCAAAG GTCTTTGGGA GTGACAGTGC CTTGCAGATC 
CACTTGCGCT CCCATACTGG AGAGAGGCCG TTCAAGTGCA ACATCTGTGG GAACAGGTTC 
TCCACCAAGG GCAACCTGAA AGTCCACTTT CAGCGCCACA AAGAGAAGTA CCCCCACATC 
CAGATGAACC CCTACCCCGT ACCGGAGCAC TTGGACAACG TCCCTACGAG CACCGGCATC 
CCCTACGGCA TGTCCATCCC TCCAGAGAAG CCGGTCACCA GCTGGCTAGA CACCAAGCCG 
GTCCTGCCCA CTCTGACCAC TTCCGTCGGC CTGCCATTGC CTCCTACCCT CCCAAGCCTC 
ACGCCCTTCA TCAAGACGGA AGAACCAGCT CCCATCCCAA TTAGCCATTC TGCTGCCAGC 
CCCCAAGGCT CAGTCAAAAG TGACTCGGGG GCCCCCGATT TGGCCACAAG AAACCCAAGT 
GGGGTCCCAG AGGAAGCCGA AGGGTCTGCT GTGCCCCCCT TCGGTGGCAA GGGTGAAGAC 
AGTAGCGTGG TAAGCTCCAT CCCGACAGCG GGCAGCAGTG CCCTGAACTC CCCAGTGGCT 
GATGGTGGTG CAGGAGGGAC CACCTTCACC AACCCTCTGT TGCCCCTCAT GTCTGAGCAG 
TTCAAGGCCA AGTTTCCTTT TGGGGGACTC TTAGATTCAG CCCAGGCCTC AGAGACATCC 
AAGCTGCAGC AACTGGTAGA AAACATTGAC AAGAAGGCCA CCGACCCCAA CGAGTGTGTC 
ATCTGCCATC GGGTTCTGAG CTGTCAGAGC GCTTTGAAAA TGCACTACCG AACACACACC 
GGGGAGAGGC CCTTCAAGTG TAAGATCTGC GGCCGGGCTT TTACCACGAA AGGGAACCTC 
AAGACCCACT ACAGCGTCCA TCGGGCTATG CCCCCACTCA GAGTCCAGCA TTCCTGCCCC 
ATCTGTCAGA AGAAGTTCAC AAACGCAGTG GTCCTCCAGC AGCACATCCG TATGCACATG 
GGAGGCCAGA TCCCGAACAC CCCGGTCCCT GACAACTACC CCGAGTCCAT GGAGTCTGAC 
ACAGGCTCCT TCGATGAGAA GAATTTCGAT GACTTAGACA ACTTCTCAGA TGAGAACATG 
GAAGAGTGTC CTGAGGGCAG CATCCCGGAT ACGCCCAAGT CAGCTGACGC TTCCCAAGAC 
AGCCTGTCGT CTTCACCTCT GCCACTCGAG ATGTCCAGCA TCGCCGCTTT GGAAAATCAG 
ATGAAGATGA TCAACGCTGG CCTGGCCGAG CAGCTGCAGG CCAGCCTGAA GTCGGTGGAG 
AACGGGTCAG TGGAAGGAGA TGTACTGACC AATGACTCAT CCTCAGTGGG TGGGGATGTG 
GAGAGCCAGA GTTCGGGCAG CCCAGCCATC TCAGAGTCTA CCTCTTCTAT GCAGGCTCTG 
TCCCCATCCA ACAGCACCCA AGAGTTCCAC AAGTCACCCA ATGTTGAGGA AAAGCCACAG 
AGAGTGGGGC CAGGCGAGTT TGCCAATGGC CTGTCTCCCA CCCCAGTGAA CGGAGGTGCT 
TTGGACTTGA CCTCTAGTCA TGCAGAGAAA ATCATCAAAG AAGATTCCCT GGGAATCCTC 
TTCCCTTTCA GAGACCGGGG TAAATTTAAA AACACTGCTT GTGACATTTG TGGCAAAACC 
TTTGCTTGTC AGAGTGCCTT GGACATTCAT TACAGAAGTC ATACCAAAGA GAGACCGTTC 
ATTTGCACAG TTTGCAGTCG TGGCTTTTCC ACAAAGGGGA ATTTGAAGCA GCACATGTTG 
ACACATCAGA TGCGAGATCT GCCATCGCAG CTCTTTGAGC CCAGTTCCAA CCTCGGCCCC 
AATCAGAACT CTGCGATGAT TCCCGCCAGC TCGTTGTCAT CTCTCATCAA AACAGAGGTC 
AACGGCTTTG TGCACGTTTC TCCTCAGGAC AGTAAGGATG CCCCCACTAG TCATGTCCCT 
TCGGGGCCTC TGTCATCCTC TGCGACATCC CCGGTTCTGC TCCCAGCTCT GCCCCGGAGA 
ACCCCCAAAC AGCACTATTG TAACACATGT GGTAAAACCT TCTCTTCCTC GAGTGCCCTG 
CAGATCCACG AGAGAACTCA CACTGGAGAG AAGCCCTTTG CTTGCACTAT CTGTGGAAGA 
GCATTCACAA CGAAAGGCAA TCTGAAGGTC CACATGGGCA CTCATATGTG GAACAGTACC 
CCTGCACGCC GGGGCCGCCG GCTCTCAGTG GATGGCCCCA TGACATTTCT AGGAGGGAAT 
CCTGTCAAGT TCCCAGAAAT GTTCCAGAAG GATCTGGCGG CGAGGTCAGG AAGCGGGGAT 
CCGTCCAGCT TTTGGAACCA GTATACAGCA GCACTGTCCA ACGGGCTGGC CATGAAGGCC 
AACGAGATCT CTGTCATTCA GAATGGTGGC ATCCCTCCAA TTCCTGGAAG CCTGGGCAAC 
GGGAGCAGCT CACCTATCAG CGGGCTGACA GGGAACGTGG AAAAGCTGGG GAATTCGGAA 
CCCAGTGCTC CCCTGGCTGG TCTGGAGAAA ATGGCGAGCA GCGAGAACGG AACCAACTTC 
CGTTTCACCC GCTTCGTGGA GGACAGCAAA GAGATCGTCA CGAGCTAA

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

PubMed

Sall1 balances self-renewal and differentiation of renal progenitor cells.
Development (Cambridge, England)141(5)1047-58(2014 Mar)
Basta JM,Robbins L,Kiefer SM,Dorsett D,Rauchman M

SALL4 is a marker of the embryonal subtype of hepatoblastoma.
Histopathology63(3)425-8(2013 Sep)
Gnemmi V,Leteurtre E,Sudour-Bonnange H,Devisme L,Guettier C,Buob D,Leroy X

Sall1 regulates embryonic stem cell differentiation in association with nanog.
The Journal of biological chemistry286(2)1037-45(2011 Jan)
Karantzali E,Lekakis V,Ioannou M,Hadjimichael C,Papamatheakis J,Kretsovali A

Kif26b, a kinesin family gene, regulates adhesion of the embryonic kidney mesenchyme.
Proceedings of the National Academy of Sciences of the United States of America107(20)9240-5(2010 May)
Uchiyama Y,Sakaguchi M,Terabayashi T,Inenaga T,Inoue S,Kobayashi C,Oshima N,Kiyonari H,Nakagata N,Sato Y,Sekiguchi K,Miki H,Araki E,Fujimura S,Tanaka SS,Nishinakamura R

Zinc-finger transcriptional factor Sall1 induces angiogenesis by activation of the gene for VEGF-A.
Hypertension research : official journal of the Japanese Society of Hypertension33(2)143-8(2010 Feb)
Yamamoto C,Fukuda N,Matsumoto T,Higuchi T,Ueno T,Matsumoto K

- Most Popular Services
  - 人工遺伝子合成& DNA合成-納期保証
- Services & Products

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

Sall1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム

サポート

会社情報

サポート

会社情報