Zswim4 cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Zswim4
Entrez Gene ID	103751860
Full Name	zinc finger SWIM-type containing 4
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008855432.3	XP_008853654.2	zinc finger SWIM domain-containing protein 4
XM_008855432.2	XP_008853654.1	zinc finger SWIM domain-containing protein 4

Pathways from BioSystems
Gene Ontology

The following Zswim4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Zswim4 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
ONa137471	XM_008855432.3 Latest version!	Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
ONa37058	XM_008855432.2 Latest version!	Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

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

Zswim4 ( XM_008855432.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008853654.2 Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.

Price & Availability↑

CloneID	ONa137471
Clone ID Related Accession (Same CDS sequence)	XM_008855432.3
Accession Version	XM_008855432.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3312bp) 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	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	zinc finger SWIM domain-containing protein 4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008357641.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008855432.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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##

ATGGAGCCCC CCGCGGCCAA GCGCAGCCGG GGCTGTCCTG TGGGGAACGA GCGCGAGCCC 
GGGACCGGGG CCCGCCGCTG CCGTCCGGAG CCGCTGCTGG ACCTCAGCGC CAAGCGGGTG 
GCCGAAACCT GGGCCTTCGA GCAGGTAGAG GAGCGGTTCT CCCGGGTGCC AGAACCGGTC 
CAGAAGCGCA TTGTGTTCTG GTCTTTTCCA CGCAGTGAGC GGGAAATATG TATGTACTCA 
TCGCTGGGTT ACCAGCCCCC AGAGGGTGAG CAGGATGCCC GAGTACCCTT TACCCGTGGG 
CTGCACCTAC TGCAGAGTGG GGCTGTGGAC CGAGTGCTGC AAGTGGGGTT CCACCTGAGC 
GGGAGCATCC GGGAATCAGG GGCTCCTGGG GAGCCAGAGC ACCTCTACCA GGTCTCCATC 
AGCTTTGACC GCTGCAAGAT CACATCTGTG AGCTGTGGCT GCGACAACCG AGACCTCTTC 
TACTGTGCCC ATGTAGTGGC ACTGTCACTG TACCGCATCC GCCATGCTCA CCAGGTGGAG 
CTGCGGCTGC CCATCTCAGA GACACTGTCA CAGATGAACC GCGACCAGCT GCAGAAGTTT 
GTGCAGTACC TCATCAGCGC GCACCACACT GAGGTGCTAC CCACTGCCCA GCGTCTCGCA 
GATGAGATCC TACTACTGGG CTCTGAGATC AACCTGGTTC ATGGTGCCCC AGACCCCACG 
GCGGGTGCAG GCATCGAGGA TGCCAATTGC TGGCACCTGG ATGAGGAGCA AATTCAGGAG 
CAAGTGAAGC AACTGCTATC CAATGGTGGC TACTATGGGG CCAGCCAGCA GCTGCGCTCC 
ATGTTCAGCA AGGTTCGGGA GATGCTGCGG GCACGGGACT CTAATGGGGC ACGCATGCTG 
ATCCTCATGA CAGAGCAGTT CCTGCAGGAC CCACGCCTGG CCCTGTGGCG GCAGCAGGGT 
GCGGGAATGA CAGACAAGTG CCGGCAGCTG TGGGATGAGC TAGGGGCGCT GTGGGTCTGT 
GTTATCCTGA GCCCCCACTG CAAACCAGAT GAGCGCGCAG GCTGGCTGCA GCTGCTTGGC 
ACTTGGGACA AACTGAATGT GTGCCCACTG GAAGAAGGCA ACTACTCCCT TGATAGCCCC 
AGCCTGCGGT CCACCATGAT GTCCAGCACA GGCTCAGAAG ATGAAGAGGA GGTGACAATC 
GCAAGTCCCC GCCACACTGT CTTTGGTCGT GCACTTCAAG CAGGAGAATT GCACTGGAGA 
GACAGCCACC TGCAGAGGAT TCTGGCCAGT GACTCCTATG GCCCCAGCCT CATGAGCAGC 
ATGGGAAGTG ATAAGTCAGC CTTTGACCCT CAGGGCCGCC CACTCTGGCT GGGTGAACCT 
TTCCCCACTG CTTGTGCACG GGTGGACACT CTGCGTGCCC ATGGTTATCC CCACAAGGCC 
CTGAGGCTGG CATGTGCCAT AATTAACTCC CTGCGGCTGC AACAGCGACA CCAGCTTGAG 
AGCTACAAGC AACAGAAAAA AGAACTGCTC CACAAAGGGG CTACCTGTGT CACCAACACA 
GAAGGCTGGG TGGGCCACCC CCTGGATCCC ATTGGCTGCC TGTGCAGGGC ACTGCTGGAA 
GCCTGTCGCC TGGAGGAGGA GACCCTCTCT CTTTACCCAG ATTCAGGCGT GGAGAAGCGG 
AAGGTGGTCT ACCAGCACGT GCAGGTGCCT GGGAACCCGG GAGAGTCCTA CTTGGCACTG 
GCTCTGGAGG TGGCGCTGCT GGGGCTGGGG CAGCAGCGAG CCCTGCCCGA GGGGCTGTAT 
GCCCAGGACA AGGTGGTGCG CAGTGAGGAG CAGCTGCTGG GCCTGCTGGA GGATGTGGCA 
CTGGATGAGC GCCTGGTGCA GGTGCTGCGC AAGCAGGCGG GGCTGCTGCT GGAAGGTGGC 
CCTTTCAGTG GCTTCGGAGA AGTGCTTTTC CGGGAGAGTG TACCCATGCA CACCTGTGCC 
CACTACCTGT TCACTGCGCT ACTGCCCCAC GACCCGGACC TGGCCTACCG CCTGGCGCTG 
CGAGCCATGA GGCTACCGGT GTTGGAGACA ACTATCCCAG CTGGAGAAGC GCACCCCAAC 
CCACTGGACT CCATCATGAG CAACCGCTTC CCTCGCTGGT TCATCCTTGG CCACCTGGAG 
ACCCGCCAGT GTGAACTAGC CTCTACCATG CTGACTGCTG CCAAGGGAGA CACCAAATGG 
CTACACTCAG TCCTGGGCTG CATCCAACAG AACATTCACT CCCCAGCCCT GCTCTTCAAG 
CTGGCACAGG ACGCCTGCAA GACAGCCACA CCAGCCAATG TGCCACCAGA CACTGTGCTG 
CTGGGAGTTG CACTGGAGCT GGGCTTGCAG GTGATGCGAA TGACACTGAA CACCATGACC 
TGGAGGCGCA GAGAGATGGT TCGCTGGCTG GTCAGCTGTG CCACAGAGAT TGGCTCCCCT 
GCACTGATGA ACATCATGCA GAACTGGTAT TCCTTATTCA CCCCGGTGGA GGCAGCCACC 
ATCGTGGCGG TGACAGGTAC CACCCACACC ACTCTGCTGC GGCTGCAGCT GGACACTCCG 
GGGCGGGAGG AGCTATGGGC CTGCGCACGC ACCCTGGCAC TGCAGTGCGC CATGAAGGAC 
CCCCAGAACT GCGCTTTGCC AGCCTTGACG CTGTGTGAGA AGAACCACGC GGCCTTTGAG 
GCAGCCTACC AGATCGTGCT GGATGCAGCA GCCGGTGGCC TCGGCCATGC ACACCTCTTC 
ACAGTGGCAC GCTACATGGA GCACCGTGGC CTGCCACTGC GGGCCTACAA GCTGGCCACA 
CTAGCCTTGG CGCAGCTCAG CATCGCCTTC AACCAGGACA GCCACCCTGC CGTCAACGAT 
GTGCTGTGGG CTTGCTCTCT CAGCCACTCG CTGGGCCGGC AGGAACTGTC AGCCATCGTG 
CCCCTCATTA TCCGCAGCAT CCAATGTGCA CCGATGCTCT CCGACATCCT GCGTCGCTGG 
ACGCTCTCGG CACCGGGCCT GGGCCCACTG GGGGCCCGCA GGGCGGCCAA GCCTCTGGGT 
GCCGACAGGG CACCTCTCTG CCAGCTCCTG GATGCTGCGG TGGCTGCCTA CATCACCACC 
AGCCACTCTC GCCTCACTCA CATCAGCCCG CGCCACTACG GGGACTTCAT TGAATTCCTG 
GGCAAAGCCC GAGAGACCTT CCTGCTGGCC CCCGATGGGC ACCTGCAGTT CTCGCAGTTC 
TTAGAGAACC TCAAACAGAC ATACAAGGGC AAGAAGAAGC TGATGCTGCT GGTGCGAGAG 
CGGTTTGGAT GA

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

RefSeq	XP_008853654.2
CDS	46..3357
Translation	MEPPAAKRSRGCPVGNEREPGTGARRCRPEPLLDLSAKRVAETWAFEQVEERFSRVPEPVQKRIVFWSFPRSEREICMYSSLGYQPPEGEQDARVPFTRGLHLLQSGAVDRVLQVGFHLSGSIRESGAPGEPEHLYQVSISFDRCKITSVSCGCDNRDLFYCAHVVALSLYRIRHAHQVELRLPISETLSQMNRDQLQKFVQYLISAHHTEVLPTAQRLADEILLLGSEINLVHGAPDPTAGAGIEDANCWHLDEEQIQEQVKQLLSNGGYYGASQQLRSMFSKVREMLRARDSNGARMLILMTEQFLQDPRLALWRQQGAGMTDKCRQLWDELGALWVCVILSPHCKPDERAGWLQLLGTWDKLNVCPLEEGNYSLDSPSLRSTMMSSTGSEDEEEVTIASPRHTVFGRALQAGELHWRDSHLQRILASDSYGPSLMSSMGSDKSAFDPQGRPLWLGEPFPTACARVDTLRAHGYPHKALRLACAIINSLRLQQRHQLESYKQQKKELLHKGATCVTNTEGWVGHPLDPIGCLCRALLEACRLEEETLSLYPDSGVEKRKVVYQHVQVPGNPGESYLALALEVALLGLGQQRALPEGLYAQDKVVRSEEQLLGLLEDVALDERLVQVLRKQAGLLLEGGPFSGFGEVLFRESVPMHTCAHYLFTALLPHDPDLAYRLALRAMRLPVLETTIPAGEAHPNPLDSIMSNRFPRWFILGHLETRQCELASTMLTAAKGDTKWLHSVLGCIQQNIHSPALLFKLAQDACKTATPANVPPDTVLLGVALELGLQVMRMTLNTMTWRRREMVRWLVSCATEIGSPALMNIMQNWYSLFTPVEAATIVAVTGTTHTTLLRLQLDTPGREELWACARTLALQCAMKDPQNCALPALTLCEKNHAAFEAAYQIVLDAAAGGLGHAHLFTVARYMEHRGLPLRAYKLATLALAQLSIAFNQDSHPAVNDVLWACSLSHSLGRQELSAIVPLIIRSIQCAPMLSDILRRWTLSAPGLGPLGARRAAKPLGADRAPLCQLLDAAVAAYITTSHSRLTHISPRHYGDFIEFLGKARETFLLAPDGHLQFSQFLENLKQTYKGKKKLMLLVRERFG

Target ORF information:

RefSeq Version	XM_008855432.3
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.

Target ORF information:

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

XM_008855432.3

ORF Insert Sequence:

ATGGAGCCCC CCGCGGCCAA GCGCAGCCGG GGCTGTCCTG TGGGGAACGA GCGCGAGCCC 
GGGACCGGGG CCCGCCGCTG CCGTCCGGAG CCGCTGCTGG ACCTCAGCGC CAAGCGGGTG 
GCCGAAACCT GGGCCTTCGA GCAGGTAGAG GAGCGGTTCT CCCGGGTGCC AGAACCGGTC 
CAGAAGCGCA TTGTGTTCTG GTCTTTTCCA CGCAGTGAGC GGGAAATATG TATGTACTCA 
TCGCTGGGTT ACCAGCCCCC AGAGGGTGAG CAGGATGCCC GAGTACCCTT TACCCGTGGG 
CTGCACCTAC TGCAGAGTGG GGCTGTGGAC CGAGTGCTGC AAGTGGGGTT CCACCTGAGC 
GGGAGCATCC GGGAATCAGG GGCTCCTGGG GAGCCAGAGC ACCTCTACCA GGTCTCCATC 
AGCTTTGACC GCTGCAAGAT CACATCTGTG AGCTGTGGCT GCGACAACCG AGACCTCTTC 
TACTGTGCCC ATGTAGTGGC ACTGTCACTG TACCGCATCC GCCATGCTCA CCAGGTGGAG 
CTGCGGCTGC CCATCTCAGA GACACTGTCA CAGATGAACC GCGACCAGCT GCAGAAGTTT 
GTGCAGTACC TCATCAGCGC GCACCACACT GAGGTGCTAC CCACTGCCCA GCGTCTCGCA 
GATGAGATCC TACTACTGGG CTCTGAGATC AACCTGGTTC ATGGTGCCCC AGACCCCACG 
GCGGGTGCAG GCATCGAGGA TGCCAATTGC TGGCACCTGG ATGAGGAGCA AATTCAGGAG 
CAAGTGAAGC AACTGCTATC CAATGGTGGC TACTATGGGG CCAGCCAGCA GCTGCGCTCC 
ATGTTCAGCA AGGTTCGGGA GATGCTGCGG GCACGGGACT CTAATGGGGC ACGCATGCTG 
ATCCTCATGA CAGAGCAGTT CCTGCAGGAC CCACGCCTGG CCCTGTGGCG GCAGCAGGGT 
GCGGGAATGA CAGACAAGTG CCGGCAGCTG TGGGATGAGC TAGGGGCGCT GTGGGTCTGT 
GTTATCCTGA GCCCCCACTG CAAACCAGAT GAGCGCGCAG GCTGGCTGCA GCTGCTTGGC 
ACTTGGGACA AACTGAATGT GTGCCCACTG GAAGAAGGCA ACTACTCCCT TGATAGCCCC 
AGCCTGCGGT CCACCATGAT GTCCAGCACA GGCTCAGAAG ATGAAGAGGA GGTGACAATC 
GCAAGTCCCC GCCACACTGT CTTTGGTCGT GCACTTCAAG CAGGAGAATT GCACTGGAGA 
GACAGCCACC TGCAGAGGAT TCTGGCCAGT GACTCCTATG GCCCCAGCCT CATGAGCAGC 
ATGGGAAGTG ATAAGTCAGC CTTTGACCCT CAGGGCCGCC CACTCTGGCT GGGTGAACCT 
TTCCCCACTG CTTGTGCACG GGTGGACACT CTGCGTGCCC ATGGTTATCC CCACAAGGCC 
CTGAGGCTGG CATGTGCCAT AATTAACTCC CTGCGGCTGC AACAGCGACA CCAGCTTGAG 
AGCTACAAGC AACAGAAAAA AGAACTGCTC CACAAAGGGG CTACCTGTGT CACCAACACA 
GAAGGCTGGG TGGGCCACCC CCTGGATCCC ATTGGCTGCC TGTGCAGGGC ACTGCTGGAA 
GCCTGTCGCC TGGAGGAGGA GACCCTCTCT CTTTACCCAG ATTCAGGCGT GGAGAAGCGG 
AAGGTGGTCT ACCAGCACGT GCAGGTGCCT GGGAACCCGG GAGAGTCCTA CTTGGCACTG 
GCTCTGGAGG TGGCGCTGCT GGGGCTGGGG CAGCAGCGAG CCCTGCCCGA GGGGCTGTAT 
GCCCAGGACA AGGTGGTGCG CAGTGAGGAG CAGCTGCTGG GCCTGCTGGA GGATGTGGCA 
CTGGATGAGC GCCTGGTGCA GGTGCTGCGC AAGCAGGCGG GGCTGCTGCT GGAAGGTGGC 
CCTTTCAGTG GCTTCGGAGA AGTGCTTTTC CGGGAGAGTG TACCCATGCA CACCTGTGCC 
CACTACCTGT TCACTGCGCT ACTGCCCCAC GACCCGGACC TGGCCTACCG CCTGGCGCTG 
CGAGCCATGA GGCTACCGGT GTTGGAGACA ACTATCCCAG CTGGAGAAGC GCACCCCAAC 
CCACTGGACT CCATCATGAG CAACCGCTTC CCTCGCTGGT TCATCCTTGG CCACCTGGAG 
ACCCGCCAGT GTGAACTAGC CTCTACCATG CTGACTGCTG CCAAGGGAGA CACCAAATGG 
CTACACTCAG TCCTGGGCTG CATCCAACAG AACATTCACT CCCCAGCCCT GCTCTTCAAG 
CTGGCACAGG ACGCCTGCAA GACAGCCACA CCAGCCAATG TGCCACCAGA CACTGTGCTG 
CTGGGAGTTG CACTGGAGCT GGGCTTGCAG GTGATGCGAA TGACACTGAA CACCATGACC 
TGGAGGCGCA GAGAGATGGT TCGCTGGCTG GTCAGCTGTG CCACAGAGAT TGGCTCCCCT 
GCACTGATGA ACATCATGCA GAACTGGTAT TCCTTATTCA CCCCGGTGGA GGCAGCCACC 
ATCGTGGCGG TGACAGGTAC CACCCACACC ACTCTGCTGC GGCTGCAGCT GGACACTCCG 
GGGCGGGAGG AGCTATGGGC CTGCGCACGC ACCCTGGCAC TGCAGTGCGC CATGAAGGAC 
CCCCAGAACT GCGCTTTGCC AGCCTTGACG CTGTGTGAGA AGAACCACGC GGCCTTTGAG 
GCAGCCTACC AGATCGTGCT GGATGCAGCA GCCGGTGGCC TCGGCCATGC ACACCTCTTC 
ACAGTGGCAC GCTACATGGA GCACCGTGGC CTGCCACTGC GGGCCTACAA GCTGGCCACA 
CTAGCCTTGG CGCAGCTCAG CATCGCCTTC AACCAGGACA GCCACCCTGC CGTCAACGAT 
GTGCTGTGGG CTTGCTCTCT CAGCCACTCG CTGGGCCGGC AGGAACTGTC AGCCATCGTG 
CCCCTCATTA TCCGCAGCAT CCAATGTGCA CCGATGCTCT CCGACATCCT GCGTCGCTGG 
ACGCTCTCGG CACCGGGCCT GGGCCCACTG GGGGCCCGCA GGGCGGCCAA GCCTCTGGGT 
GCCGACAGGG CACCTCTCTG CCAGCTCCTG GATGCTGCGG TGGCTGCCTA CATCACCACC 
AGCCACTCTC GCCTCACTCA CATCAGCCCG CGCCACTACG GGGACTTCAT TGAATTCCTG 
GGCAAAGCCC GAGAGACCTT CCTGCTGGCC CCCGATGGGC ACCTGCAGTT CTCGCAGTTC 
TTAGAGAACC TCAAACAGAC ATACAAGGGC AAGAAGAAGC TGATGCTGCT GGTGCGAGAG 
CGGTTTGGAT GA

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

Zswim4 ( XM_008855432.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008853654.1 Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.

Price & Availability↑

CloneID	ONa37058
Clone ID Related Accession (Same CDS sequence)	XM_008855432.2
Accession Version	XM_008855432.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3081bp) 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	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	zinc finger SWIM domain-containing protein 4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008357641.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008855432.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 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##

ATGTACTCAT CGCTGGGTTA CCAGCCCCCA GAGGGTGAGC AGGATGCCCG AGTACCCTTT 
ACCCGTGGGC TGCACCTACT GCAGAGTGGG GCTGTGGACC GAGTGCTGCA AGTGGGGTTC 
CACCTGAGCG GGAGCATCCG GGAATCAGGG GCTCCTGGGG AGCCAGAGCA CCTCTACCAG 
GTCTCCATCA GCTTTGACCG CTGCAAGATC ACATCTGTGA GCTGTGGCTG CGACAACCGA 
GACCTCTTCT ACTGTGCCCA TGTAGTGGCA CTGTCACTGT ACCGCATCCG CCATGCTCAC 
CAGGTGGAGC TGCGGCTGCC CATCTCAGAG ACACTGTCAC AGATGAACCG CGACCAGCTG 
CAGAAGTTTG TGCAGTACCT CATCAGCGCG CACCACACTG AGGTGCTACC CACTGCCCAG 
CGTCTCGCAG ATGAGATCCT ACTACTGGGC TCTGAGATCA ACCTGGTTCA TGGTGCCCCA 
GACCCCACGG CGGGTGCAGG CATCGAGGAT GCCAATTGCT GGCACCTGGA TGAGGAGCAA 
ATTCAGGAGC AAGTGAAGCA ACTGCTATCC AATGGTGGCT ACTATGGGGC CAGCCAGCAG 
CTGCGCTCCA TGTTCAGCAA GGTTCGGGAG ATGCTGCGGG CACGGGACTC TAATGGGGCA 
CGCATGCTGA TCCTCATGAC AGAGCAGTTC CTGCAGGACC CACGCCTGGC CCTGTGGCGG 
CAGCAGGGTG CGGGAATGAC AGACAAGTGC CGGCAGCTGT GGGATGAGCT AGGGGCGCTG 
TGGGTCTGTG TTATCCTGAG CCCCCACTGC AAACCAGATG AGCGCGCAGG CTGGCTGCAG 
CTGCTTGGCA CTTGGGACAA ACTGAATGTG TGCCCACTGG AAGAAGGCAA CTACTCCCTT 
GATAGCCCCA GCCTGCGGTC CACCATGATG TCCAGCACAG GCTCAGAAGA TGAAGAGGAG 
GTGACAATCG CAAGTCCCCG CCACACTGTC TTTGGTCGTG CACTTCAAGC AGGAGAATTG 
CACTGGAGAG ACAGCCACCT GCAGAGGATT CTGGCCAGTG ACTCCTATGG CCCCAGCCTC 
ATGAGCAGCA TGGGAAGTGA TAAGTCAGCC TTTGACCCTC AGGGCCGCCC ACTCTGGCTG 
GGTGAACCTT TCCCCACTGC TTGTGCACGG GTGGACACTC TGCGTGCCCA TGGTTATCCC 
CACAAGGCCC TGAGGCTGGC ATGTGCCATA ATTAACTCCC TGCGGCTGCA ACAGCGACAC 
CAGCTTGAGA GCTACAAGCA ACAGAAAAAA GAACTGCTCC ACAAAGGGGC TACCTGTGTC 
ACCAACACAG AAGGCTGGGT GGGCCACCCC CTGGATCCCA TTGGCTGCCT GTGCAGGGCA 
CTGCTGGAAG CCTGTCGCCT GGAGGAGGAG ACCCTCTCTC TTTACCCAGA TTCAGGCGTG 
GAGAAGCGGA AGGTGGTCTA CCAGCACGTG CAGGTGCCTG GGAACCCGGG AGAGTCCTAC 
TTGGCACTGG CTCTGGAGGT GGCGCTGCTG GGGCTGGGGC AGCAGCGAGC CCTGCCCGAG 
GGGCTGTATG CCCAGGACAA GGTGGTGCGC AGTGAGGAGC AGCTGCTGGG CCTGCTGGAG 
GATGTGGCAC TGGATGAGCG CCTGGTGCAG GTGCTGCGCA AGCAGGCGGG GCTGCTGCTG 
GAAGGTGGCC CTTTCAGTGG CTTCGGAGAA GTGCTTTTCC GGGAGAGTGT ACCCATGCAC 
ACCTGTGCCC ACTACCTGTT CACTGCGCTA CTGCCCCACG ACCCGGACCT GGCCTACCGC 
CTGGCGCTGC GAGCCATGAG GCTACCGGTG TTGGAGACAA CTATCCCAGC TGGAGAAGCG 
CACCCCAACC CACTGGACTC CATCATGAGC AACCGCTTCC CTCGCTGGTT CATCCTTGGC 
CACCTGGAGA CCCGCCAGTG TGAACTAGCC TCTACCATGC TGACTGCTGC CAAGGGAGAC 
ACCAAATGGC TACACTCAGT CCTGGGCTGC ATCCAACAGA ACATTCACTC CCCAGCCCTG 
CTCTTCAAGC TGGCACAGGA CGCCTGCAAG ACAGCCACAC CAGCCAATGT GCCACCAGAC 
ACTGTGCTGC TGGGAGTTGC ACTGGAGCTG GGCTTGCAGG TGATGCGAAT GACACTGAAC 
ACCATGACCT GGAGGCGCAG AGAGATGGTT CGCTGGCTGG TCAGCTGTGC CACAGAGATT 
GGCTCCCCTG CACTGATGAA CATCATGCAG AACTGGTATT CCTTATTCAC CCCGGTGGAG 
GCAGCCACCA TCGTGGCGGT GACAGGTACC ACCCACACCA CTCTGCTGCG GCTGCAGCTG 
GACACTCCGG GGCGGGAGGA GCTATGGGCC TGCGCACGCA CCCTGGCACT GCAGTGCGCC 
ATGAAGGACC CCCAGAACTG CGCTTTGCCA GCCTTGACGC TGTGTGAGAA GAACCACGCG 
GCCTTTGAGG CAGCCTACCA GATCGTGCTG GATGCAGCAG CCGGTGGCCT CGGCCATGCA 
CACCTCTTCA CAGTGGCACG CTACATGGAG CACCGTGGCC TGCCACTGCG GGCCTACAAG 
CTGGCCACAC TAGCCTTGGC GCAGCTCAGC ATCGCCTTCA ACCAGGACAG CCACCCTGCC 
GTCAACGATG TGCTGTGGGC TTGCTCTCTC AGCCACTCGC TGGGCCGGCA GGAACTGTCA 
GCCATCGTGC CCCTCATTAT CCGCAGCATC CAATGTGCAC CGATGCTCTC CGACATCCTG 
CGTCGCTGGA CGCTCTCGGC ACCGGGCCTG GGCCCACTGG GGGCCCGCAG GGCGGCCAAG 
CCTCTGGGTG CCGACAGGGC ACCTCTCTGC CAGCTCCTGG ATGCTGCGGT GGCTGCCTAC 
ATCACCACCA GCCACTCTCG CCTCACTCAC ATCAGCCCGC GCCACTACGG GGACTTCATT 
GAATTCCTGG GCAAAGCCCG AGAGACCTTC CTGCTGGCCC CCGATGGGCA CCTGCAGTTC 
TCGCAGTTCT TAGAGAACCT CAAACAGACA TACAAGGGCA AGAAGAAGCT GATGCTGCTG 
GTGCGAGAGC GGTTTGGATG A

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

RefSeq	XP_008853654.1
CDS	82..3162
Translation	MYSSLGYQPPEGEQDARVPFTRGLHLLQSGAVDRVLQVGFHLSGSIRESGAPGEPEHLYQVSISFDRCKITSVSCGCDNRDLFYCAHVVALSLYRIRHAHQVELRLPISETLSQMNRDQLQKFVQYLISAHHTEVLPTAQRLADEILLLGSEINLVHGAPDPTAGAGIEDANCWHLDEEQIQEQVKQLLSNGGYYGASQQLRSMFSKVREMLRARDSNGARMLILMTEQFLQDPRLALWRQQGAGMTDKCRQLWDELGALWVCVILSPHCKPDERAGWLQLLGTWDKLNVCPLEEGNYSLDSPSLRSTMMSSTGSEDEEEVTIASPRHTVFGRALQAGELHWRDSHLQRILASDSYGPSLMSSMGSDKSAFDPQGRPLWLGEPFPTACARVDTLRAHGYPHKALRLACAIINSLRLQQRHQLESYKQQKKELLHKGATCVTNTEGWVGHPLDPIGCLCRALLEACRLEEETLSLYPDSGVEKRKVVYQHVQVPGNPGESYLALALEVALLGLGQQRALPEGLYAQDKVVRSEEQLLGLLEDVALDERLVQVLRKQAGLLLEGGPFSGFGEVLFRESVPMHTCAHYLFTALLPHDPDLAYRLALRAMRLPVLETTIPAGEAHPNPLDSIMSNRFPRWFILGHLETRQCELASTMLTAAKGDTKWLHSVLGCIQQNIHSPALLFKLAQDACKTATPANVPPDTVLLGVALELGLQVMRMTLNTMTWRRREMVRWLVSCATEIGSPALMNIMQNWYSLFTPVEAATIVAVTGTTHTTLLRLQLDTPGREELWACARTLALQCAMKDPQNCALPALTLCEKNHAAFEAAYQIVLDAAAGGLGHAHLFTVARYMEHRGLPLRAYKLATLALAQLSIAFNQDSHPAVNDVLWACSLSHSLGRQELSAIVPLIIRSIQCAPMLSDILRRWTLSAPGLGPLGARRAAKPLGADRAPLCQLLDAAVAAYITTSHSRLTHISPRHYGDFIEFLGKARETFLLAPDGHLQFSQFLENLKQTYKGKKKLMLLVRERFG

Target ORF information:

RefSeq Version	XM_008855432.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili zinc finger SWIM-type containing 4 (Zswim4), mRNA.

Target ORF information:

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

XM_008855432.2

ORF Insert Sequence:

ATGTACTCAT CGCTGGGTTA CCAGCCCCCA GAGGGTGAGC AGGATGCCCG AGTACCCTTT 
ACCCGTGGGC TGCACCTACT GCAGAGTGGG GCTGTGGACC GAGTGCTGCA AGTGGGGTTC 
CACCTGAGCG GGAGCATCCG GGAATCAGGG GCTCCTGGGG AGCCAGAGCA CCTCTACCAG 
GTCTCCATCA GCTTTGACCG CTGCAAGATC ACATCTGTGA GCTGTGGCTG CGACAACCGA 
GACCTCTTCT ACTGTGCCCA TGTAGTGGCA CTGTCACTGT ACCGCATCCG CCATGCTCAC 
CAGGTGGAGC TGCGGCTGCC CATCTCAGAG ACACTGTCAC AGATGAACCG CGACCAGCTG 
CAGAAGTTTG TGCAGTACCT CATCAGCGCG CACCACACTG AGGTGCTACC CACTGCCCAG 
CGTCTCGCAG ATGAGATCCT ACTACTGGGC TCTGAGATCA ACCTGGTTCA TGGTGCCCCA 
GACCCCACGG CGGGTGCAGG CATCGAGGAT GCCAATTGCT GGCACCTGGA TGAGGAGCAA 
ATTCAGGAGC AAGTGAAGCA ACTGCTATCC AATGGTGGCT ACTATGGGGC CAGCCAGCAG 
CTGCGCTCCA TGTTCAGCAA GGTTCGGGAG ATGCTGCGGG CACGGGACTC TAATGGGGCA 
CGCATGCTGA TCCTCATGAC AGAGCAGTTC CTGCAGGACC CACGCCTGGC CCTGTGGCGG 
CAGCAGGGTG CGGGAATGAC AGACAAGTGC CGGCAGCTGT GGGATGAGCT AGGGGCGCTG 
TGGGTCTGTG TTATCCTGAG CCCCCACTGC AAACCAGATG AGCGCGCAGG CTGGCTGCAG 
CTGCTTGGCA CTTGGGACAA ACTGAATGTG TGCCCACTGG AAGAAGGCAA CTACTCCCTT 
GATAGCCCCA GCCTGCGGTC CACCATGATG TCCAGCACAG GCTCAGAAGA TGAAGAGGAG 
GTGACAATCG CAAGTCCCCG CCACACTGTC TTTGGTCGTG CACTTCAAGC AGGAGAATTG 
CACTGGAGAG ACAGCCACCT GCAGAGGATT CTGGCCAGTG ACTCCTATGG CCCCAGCCTC 
ATGAGCAGCA TGGGAAGTGA TAAGTCAGCC TTTGACCCTC AGGGCCGCCC ACTCTGGCTG 
GGTGAACCTT TCCCCACTGC TTGTGCACGG GTGGACACTC TGCGTGCCCA TGGTTATCCC 
CACAAGGCCC TGAGGCTGGC ATGTGCCATA ATTAACTCCC TGCGGCTGCA ACAGCGACAC 
CAGCTTGAGA GCTACAAGCA ACAGAAAAAA GAACTGCTCC ACAAAGGGGC TACCTGTGTC 
ACCAACACAG AAGGCTGGGT GGGCCACCCC CTGGATCCCA TTGGCTGCCT GTGCAGGGCA 
CTGCTGGAAG CCTGTCGCCT GGAGGAGGAG ACCCTCTCTC TTTACCCAGA TTCAGGCGTG 
GAGAAGCGGA AGGTGGTCTA CCAGCACGTG CAGGTGCCTG GGAACCCGGG AGAGTCCTAC 
TTGGCACTGG CTCTGGAGGT GGCGCTGCTG GGGCTGGGGC AGCAGCGAGC CCTGCCCGAG 
GGGCTGTATG CCCAGGACAA GGTGGTGCGC AGTGAGGAGC AGCTGCTGGG CCTGCTGGAG 
GATGTGGCAC TGGATGAGCG CCTGGTGCAG GTGCTGCGCA AGCAGGCGGG GCTGCTGCTG 
GAAGGTGGCC CTTTCAGTGG CTTCGGAGAA GTGCTTTTCC GGGAGAGTGT ACCCATGCAC 
ACCTGTGCCC ACTACCTGTT CACTGCGCTA CTGCCCCACG ACCCGGACCT GGCCTACCGC 
CTGGCGCTGC GAGCCATGAG GCTACCGGTG TTGGAGACAA CTATCCCAGC TGGAGAAGCG 
CACCCCAACC CACTGGACTC CATCATGAGC AACCGCTTCC CTCGCTGGTT CATCCTTGGC 
CACCTGGAGA CCCGCCAGTG TGAACTAGCC TCTACCATGC TGACTGCTGC CAAGGGAGAC 
ACCAAATGGC TACACTCAGT CCTGGGCTGC ATCCAACAGA ACATTCACTC CCCAGCCCTG 
CTCTTCAAGC TGGCACAGGA CGCCTGCAAG ACAGCCACAC CAGCCAATGT GCCACCAGAC 
ACTGTGCTGC TGGGAGTTGC ACTGGAGCTG GGCTTGCAGG TGATGCGAAT GACACTGAAC 
ACCATGACCT GGAGGCGCAG AGAGATGGTT CGCTGGCTGG TCAGCTGTGC CACAGAGATT 
GGCTCCCCTG CACTGATGAA CATCATGCAG AACTGGTATT CCTTATTCAC CCCGGTGGAG 
GCAGCCACCA TCGTGGCGGT GACAGGTACC ACCCACACCA CTCTGCTGCG GCTGCAGCTG 
GACACTCCGG GGCGGGAGGA GCTATGGGCC TGCGCACGCA CCCTGGCACT GCAGTGCGCC 
ATGAAGGACC CCCAGAACTG CGCTTTGCCA GCCTTGACGC TGTGTGAGAA GAACCACGCG 
GCCTTTGAGG CAGCCTACCA GATCGTGCTG GATGCAGCAG CCGGTGGCCT CGGCCATGCA 
CACCTCTTCA CAGTGGCACG CTACATGGAG CACCGTGGCC TGCCACTGCG GGCCTACAAG 
CTGGCCACAC TAGCCTTGGC GCAGCTCAGC ATCGCCTTCA ACCAGGACAG CCACCCTGCC 
GTCAACGATG TGCTGTGGGC TTGCTCTCTC AGCCACTCGC TGGGCCGGCA GGAACTGTCA 
GCCATCGTGC CCCTCATTAT CCGCAGCATC CAATGTGCAC CGATGCTCTC CGACATCCTG 
CGTCGCTGGA CGCTCTCGGC ACCGGGCCTG GGCCCACTGG GGGCCCGCAG GGCGGCCAAG 
CCTCTGGGTG CCGACAGGGC ACCTCTCTGC CAGCTCCTGG ATGCTGCGGT GGCTGCCTAC 
ATCACCACCA GCCACTCTCG CCTCACTCAC ATCAGCCCGC GCCACTACGG GGACTTCATT 
GAATTCCTGG GCAAAGCCCG AGAGACCTTC CTGCTGGCCC CCGATGGGCA CCTGCAGTTC 
TCGCAGTTCT TAGAGAACCT CAAACAGACA TACAAGGGCA AGAAGAAGCT GATGCTGCTG 
GTGCGAGAGC GGTTTGGATG A