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

Gene
Clones
gRNAs

Summary

Gene Symbol	Dspp
Entrez Gene ID	103748988
Full Name	dentin sialophosphoprotein
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008851775.1	XP_008849997.1	dentin sialophosphoprotein

Pathways from BioSystems
Gene Ontology

The following Dspp gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dspp 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
ONa33879	XM_008851775.1 Latest version!	Nannospalax galili dentin sialophosphoprotein (Dspp), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$510.30 $729.00

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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)

Dspp ( XM_008851775.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008849997.1 Nannospalax galili dentin sialophosphoprotein (Dspp), mRNA.

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CloneID	ONa33879
Clone ID Related Accession (Same CDS sequence)	XM_008851775.1
Accession Version	XM_008851775.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3000bp) 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	dentin sialophosphoprotein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008354532.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases ##RefSeq-Attributes-END##

ATGAAAATGA AGATAATTAT ATATATTTGC ATTTGGACAG TTGCGTGGGC CATCCCAGTT 
CCTCAGCTCA AACCATTGGA AAGCCATGCT GTTGAAAAAC CTGGGAATTT AAGTTTTCTA 
ACAAATTCAA GAGCATCGGT ACAGAATGAA TTTCCTTTCA GCGATACCAT TAAAGAAAGC 
AGTCATCACC TGAATGCAAG TGAAATAGAA AGGCAACAGT CTACCAATGA TGGTTATGTA 
GGAGAAGGGA ATGGCTCTAA ATGGATAGAC GTAGGAGGGA AAAATTCTTC TACACATTCC 
ATTTTAGCAG ATGGACAGAA TATTGAGGAT GAAAATGAGA ACACAGAAAG CCCAGAAACA 
TATGGTCATG ATGGAATACG TGTAGAAGAA GATAACAACA CAGTAAATGG TATCAGAAAG 
CTAGTAGGTA TCACTGGAAA TGCTGGGGAA AATAATGAGA GTAATATTAA TGGACATACT 
GATCAAGACA CAAAAAATGG GAATGCTGGG AATACAAGTC AGAACGAGAA TGCTACTATT 
ATCCAAGAAG ACGTGCCTCA AGTAGCTGGA TGCAATAATA GTCCAAACCA TGAGGGTGAA 
ATCAATGGGA ATGAGGGTGT CACACATGAA ACAACACCTC TGAGAGGAGA GGGAAGTGGG 
AATAAGGAGA CCGAGGTAAC ACCAAGCACT GGGGAAGATG TTGGCTTAGA TGACTCAGAT 
GGGAGTCCTA GTGGGAATGG AGAAGGTGAG GATGAAGACC AGGGCTCTGG TGATGATGAA 
GGTGCAGAAG CAGGGGATGG TAAAGGGGGC AGTGATAACA GTAAGGGCCA GGCTCCTGGG 
AAAAATGGTG GCAGCAGAGG TCAGAATTCT GTTAGTGGTG AAGATGCTGA CTCTAAAGGC 
AAAGAAGGTC CCCCAAATGG CCATGACAGA GACAACACCT CTAGCAGTGA GGAGAACGAT 
GTTGCAGAAG GCAATGGCAG CCATGCAATA GAGAAAACCC TGAAGCTCGG TCTCAAAGAA 
AACAAAGGTG TAGAAAGTGG ACTCGCCAAA CAATCAGAAG CAAGTCCTCT CTGGAGGCTC 
CAAGATAAGG GAATAGAAAC TGAAGGTCCC AGCAGTAGCA ACAAAAGTAA TATTACCAAA 
GAAGCTGAAA AACTCAATGA AGGTAAAGAG AGCAATGGAC AACATGGAAT GGGAGTGCAC 
AAAGGAACTG CCAAGATACA AGGAGAGGTT GACAACACTC AGGGGCCTGA CCAGAAATCT 
GAACCTGGCA GTAACGTGGG AAACAGCAAA GTAGGTAGTG GTAGCAATAG TGATGGGTAT 
GGCAGTTATG ATTTTGATGA TGAATCCATG CAGGGCGATG ACCCCAACAG CAGTGATGAA 
TCTAATGGCA GTGATAGTGC TCACTCAGAA AGTGGCAATG ACAGCAGCAA CCGGGGAGAT 
GCTGCTTACG ACTCTGATGA ATCAAGAGAT AACAGCCATG ACAGTGACTC AAATGGAGAC 
GAGGACAATG GTAGTGATGA CAGATCAGAC GCTGGGGACA GTGACAGCAA TGGTGATGAC 
AGTGAGAGTA ATGGCAAAGA TGAATCAGAA AGCAGTGACC ACGAGGACCA AAGTGACAGT 
GACAGCAAAT CAGACAGCAG TGACAGCAGT GATAGTGGTG ACAGCAGTGA GAGCAGTGAG 
AGCAGCAATA GCAGTGACAG CAGCGATAGC GATGACAGCA GTGACAGCAG CGACAGCAGT 
GATAGCGATG ACAGCAGTGA GAGCAGTGAC AGCAGTGACA GCAGCGATAG CAGCGACAGC 
AGTGATAGCA GTGACAGCAG CGATAGTAGT GAGAGCAGTG ACAGCAGTGA CAGCAGTGAT 
AGTAGTGACA GCAGCGACAG CAGTGACAGT AGTGACAGCA GTGATAGTAG TGACAGCAGT 
GAGAGCAGTG AGAGCAGTGA CAGCAGTGAC GGCAGTGACA GCAGTGAGAG CAGTGAGAGC 
AGTGACAGCA GTGACAGCAG TGACAGTAGT GACAGCAACG ATAGCAGTGA GAGCAGTGAG 
AGCAGTGACA GCAGTGATAG TAGTGACAGC AGCGACAGCA ATGACAGCAG CGACAGCAGT 
GATAGTAGTG ACAGCAGTAA TAGTAGTGAC AGCAGTGATA GCAGCGACAG CAGTGATGGC 
AGTGACAGCA GCGACAGCAG CGATAGTAGC GACAGCAGTG ATAGTAGTGA CAGCAGTGAT 
AGCAGTGACA GCAGTGAGAG CAGTGATAGT AGTGACAGCA GCGATAGTAG TGACAGCAGC 
GATAGCAGCG ACAGCAGTGA CGGCAGTGAC AGCAGCGACA GCAGCGACAG CAGCGATAGT 
AGCGACAGCA GCGATAGTAG TGACAGCAGC GATAGCAGTG ACAGCAGTGA GAGCAGTGAC 
AGCAGCGACA GCAGCGATAG TAGTGACAGC AGCGACAGCA GTGACAGCAG TGAGAGCAGT 
GACAGCAGCG ACAGCAGCGA TAGTAGTGAC AGCAGCGATA GCAGTGACAG CAGTGAGAGC 
AGTGACAGCA GCGACAGCAG TGATAGTAGT GACAGCAGTG ATAGCAGCGA CAGCAGTGAC 
AGTAGTGACA GCAGTGACAG CAGCGACAGC AGTGATAGTA GTGACAGCAG CGATAGCAGT 
GACAGCAGCG ATAGCAGTGA CAGCAGTGAT AGCAGTGATA GTAGCAACAG CAGTGACAGT 
AGCGACAGCA GTGACAGCAG TGACAGCAGT GAGAGCAGCA ACAGCAGCGA CAGTAATGAC 
AGCAGCAACA GCAGCGATAG CAGTGACAGC AGTGACAGTA GTGACAGCAG CGATAGCAGT 
GATAGTAGTG ACAGTAGTGA CAGCAGTGAT AGCAGCAGCA ATGGTGACCA GGAGGATAGC 
ACATCCAACA GCAGCAATGA GAGTGACAGC CACAGCAAAT CTGGCAATGA CAACAATGGA 
AGTGATAGTG ACAGTGACAG TGAAGGCAGT GACAGTAACT ATTCAACCAG CGATGATTAG

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

RefSeq	XP_008849997.1
CDS	1..3000
Translation	MKMKIIIYICIWTVAWAIPVPQLKPLESHAVEKPGNLSFLTNSRASVQNEFPFSDTIKESSHHLNASEIERQQSTNDGYVGEGNGSKWIDVGGKNSSTHSILADGQNIEDENENTESPETYGHDGIRVEEDNNTVNGIRKLVGITGNAGENNESNINGHTDQDTKNGNAGNTSQNENATIIQEDVPQVAGCNNSPNHEGEINGNEGVTHETTPLRGEGSGNKETEVTPSTGEDVGLDDSDGSPSGNGEGEDEDQGSGDDEGAEAGDGKGGSDNSKGQAPGKNGGSRGQNSVSGEDADSKGKEGPPNGHDRDNTSSSEENDVAEGNGSHAIEKTLKLGLKENKGVESGLAKQSEASPLWRLQDKGIETEGPSSSNKSNITKEAEKLNEGKESNGQHGMGVHKGTAKIQGEVDNTQGPDQKSEPGSNVGNSKVGSGSNSDGYGSYDFDDESMQGDDPNSSDESNGSDSAHSESGNDSSNRGDAAYDSDESRDNSHDSDSNGDEDNGSDDRSDAGDSDSNGDDSESNGKDESESSDHEDQSDSDSKSDSSDSSDSGDSSESSESSNSSDSSDSDDSSDSSDSSDSDDSSESSDSSDSSDSSDSSDSSDSSDSSESSDSSDSSDSSDSSDSSDSSDSSDSSDSSESSESSDSSDGSDSSESSESSDSSDSSDSSDSNDSSESSESSDSSDSSDSSDSNDSSDSSDSSDSSNSSDSSDSSDSSDGSDSSDSSDSSDSSDSSDSSDSSDSSESSDSSDSSDSSDSSDSSDSSDGSDSSDSSDSSDSSDSSDSSDSSDSSDSSESSDSSDSSDSSDSSDSSDSSESSDSSDSSDSSDSSDSSDSSESSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSDSSNSSDSSDSSDSSDSSESSNSSDSNDSSNSSDSSDSSDSSDSSDSSDSSDSSDSSDSSSNGDQEDSTSNSSNESDSHSKSGNDNNGSDSDSDSEGSDSNYSTSDD

Target ORF information:

RefSeq Version	XM_008851775.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili dentin sialophosphoprotein (Dspp), mRNA.

Target ORF information:

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

XM_008851775.1

ORF Insert Sequence:

ATGAAAATGA AGATAATTAT ATATATTTGC ATTTGGACAG TTGCGTGGGC CATCCCAGTT 
CCTCAGCTCA AACCATTGGA AAGCCATGCT GTTGAAAAAC CTGGGAATTT AAGTTTTCTA 
ACAAATTCAA GAGCATCGGT ACAGAATGAA TTTCCTTTCA GCGATACCAT TAAAGAAAGC 
AGTCATCACC TGAATGCAAG TGAAATAGAA AGGCAACAGT CTACCAATGA TGGTTATGTA 
GGAGAAGGGA ATGGCTCTAA ATGGATAGAC GTAGGAGGGA AAAATTCTTC TACACATTCC 
ATTTTAGCAG ATGGACAGAA TATTGAGGAT GAAAATGAGA ACACAGAAAG CCCAGAAACA 
TATGGTCATG ATGGAATACG TGTAGAAGAA GATAACAACA CAGTAAATGG TATCAGAAAG 
CTAGTAGGTA TCACTGGAAA TGCTGGGGAA AATAATGAGA GTAATATTAA TGGACATACT 
GATCAAGACA CAAAAAATGG GAATGCTGGG AATACAAGTC AGAACGAGAA TGCTACTATT 
ATCCAAGAAG ACGTGCCTCA AGTAGCTGGA TGCAATAATA GTCCAAACCA TGAGGGTGAA 
ATCAATGGGA ATGAGGGTGT CACACATGAA ACAACACCTC TGAGAGGAGA GGGAAGTGGG 
AATAAGGAGA CCGAGGTAAC ACCAAGCACT GGGGAAGATG TTGGCTTAGA TGACTCAGAT 
GGGAGTCCTA GTGGGAATGG AGAAGGTGAG GATGAAGACC AGGGCTCTGG TGATGATGAA 
GGTGCAGAAG CAGGGGATGG TAAAGGGGGC AGTGATAACA GTAAGGGCCA GGCTCCTGGG 
AAAAATGGTG GCAGCAGAGG TCAGAATTCT GTTAGTGGTG AAGATGCTGA CTCTAAAGGC 
AAAGAAGGTC CCCCAAATGG CCATGACAGA GACAACACCT CTAGCAGTGA GGAGAACGAT 
GTTGCAGAAG GCAATGGCAG CCATGCAATA GAGAAAACCC TGAAGCTCGG TCTCAAAGAA 
AACAAAGGTG TAGAAAGTGG ACTCGCCAAA CAATCAGAAG CAAGTCCTCT CTGGAGGCTC 
CAAGATAAGG GAATAGAAAC TGAAGGTCCC AGCAGTAGCA ACAAAAGTAA TATTACCAAA 
GAAGCTGAAA AACTCAATGA AGGTAAAGAG AGCAATGGAC AACATGGAAT GGGAGTGCAC 
AAAGGAACTG CCAAGATACA AGGAGAGGTT GACAACACTC AGGGGCCTGA CCAGAAATCT 
GAACCTGGCA GTAACGTGGG AAACAGCAAA GTAGGTAGTG GTAGCAATAG TGATGGGTAT 
GGCAGTTATG ATTTTGATGA TGAATCCATG CAGGGCGATG ACCCCAACAG CAGTGATGAA 
TCTAATGGCA GTGATAGTGC TCACTCAGAA AGTGGCAATG ACAGCAGCAA CCGGGGAGAT 
GCTGCTTACG ACTCTGATGA ATCAAGAGAT AACAGCCATG ACAGTGACTC AAATGGAGAC 
GAGGACAATG GTAGTGATGA CAGATCAGAC GCTGGGGACA GTGACAGCAA TGGTGATGAC 
AGTGAGAGTA ATGGCAAAGA TGAATCAGAA AGCAGTGACC ACGAGGACCA AAGTGACAGT 
GACAGCAAAT CAGACAGCAG TGACAGCAGT GATAGTGGTG ACAGCAGTGA GAGCAGTGAG 
AGCAGCAATA GCAGTGACAG CAGCGATAGC GATGACAGCA GTGACAGCAG CGACAGCAGT 
GATAGCGATG ACAGCAGTGA GAGCAGTGAC AGCAGTGACA GCAGCGATAG CAGCGACAGC 
AGTGATAGCA GTGACAGCAG CGATAGTAGT GAGAGCAGTG ACAGCAGTGA CAGCAGTGAT 
AGTAGTGACA GCAGCGACAG CAGTGACAGT AGTGACAGCA GTGATAGTAG TGACAGCAGT 
GAGAGCAGTG AGAGCAGTGA CAGCAGTGAC GGCAGTGACA GCAGTGAGAG CAGTGAGAGC 
AGTGACAGCA GTGACAGCAG TGACAGTAGT GACAGCAACG ATAGCAGTGA GAGCAGTGAG 
AGCAGTGACA GCAGTGATAG TAGTGACAGC AGCGACAGCA ATGACAGCAG CGACAGCAGT 
GATAGTAGTG ACAGCAGTAA TAGTAGTGAC AGCAGTGATA GCAGCGACAG CAGTGATGGC 
AGTGACAGCA GCGACAGCAG CGATAGTAGC GACAGCAGTG ATAGTAGTGA CAGCAGTGAT 
AGCAGTGACA GCAGTGAGAG CAGTGATAGT AGTGACAGCA GCGATAGTAG TGACAGCAGC 
GATAGCAGCG ACAGCAGTGA CGGCAGTGAC AGCAGCGACA GCAGCGACAG CAGCGATAGT 
AGCGACAGCA GCGATAGTAG TGACAGCAGC GATAGCAGTG ACAGCAGTGA GAGCAGTGAC 
AGCAGCGACA GCAGCGATAG TAGTGACAGC AGCGACAGCA GTGACAGCAG TGAGAGCAGT 
GACAGCAGCG ACAGCAGCGA TAGTAGTGAC AGCAGCGATA GCAGTGACAG CAGTGAGAGC 
AGTGACAGCA GCGACAGCAG TGATAGTAGT GACAGCAGTG ATAGCAGCGA CAGCAGTGAC 
AGTAGTGACA GCAGTGACAG CAGCGACAGC AGTGATAGTA GTGACAGCAG CGATAGCAGT 
GACAGCAGCG ATAGCAGTGA CAGCAGTGAT AGCAGTGATA GTAGCAACAG CAGTGACAGT 
AGCGACAGCA GTGACAGCAG TGACAGCAGT GAGAGCAGCA ACAGCAGCGA CAGTAATGAC 
AGCAGCAACA GCAGCGATAG CAGTGACAGC AGTGACAGTA GTGACAGCAG CGATAGCAGT 
GATAGTAGTG ACAGTAGTGA CAGCAGTGAT AGCAGCAGCA ATGGTGACCA GGAGGATAGC 
ACATCCAACA GCAGCAATGA GAGTGACAGC CACAGCAAAT CTGGCAATGA CAACAATGGA 
AGTGATAGTG ACAGTGACAG TGAAGGCAGT GACAGTAACT ATTCAACCAG CGATGATTAG