Ptprz1 (NM_001081306) Mouse Untagged Clone

Name: Ptprz1 (NM_001081306) Mouse Untagged Clone
SKU: MC225268
Price: 3900.00 USD

CAT#: MC225268

Ptprz1 (untagged) - Mouse protein tyrosine phosphatase, receptor type Z, polypeptide 1 (Ptprz1), (10ug)

SDS

"NM_001081306" in other vectors (2)

Reconstitution Protocol

USD 3,900.00

10 Weeks*

Size

Bulk Requests & Clone Modifications

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Specifications

Product Data
Type	Mouse Untagged Clone
Tag	Tag Free
Symbol	Ptprz1
Synonyms	AI850339; DSD-1-PG; PTPbeta; Ptprz; Ptpz; PTPzeta; R-PTP-zeta; Rptpbeta; RPTPz
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >MC225268 representing NM_001081306 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCGAATCCTGCAGAGCTTCCTCGCGTGCGTTCAGCTCCTGTGCCTGTGTCGCCTGGACTGGGCTTATG GATACTACAGACAACAGAGGAAACTTGTTGAAGAGATTGGCTGGTCCTACACAGGAGCACTAAATCAAAA AAATTGGGGAAAGAAATATCCAATATGTAATAGCCCAAAGCAGTCTCCTATTAATATTGATGAAGATCTT ACACAAGTCAATGTGAATCTTAAGAAACTGAAATTTCAGGGTTGGGAAAAAGCGTCCTTGGAAAACACGT TCATTCACAACACTGGGAAAACAGTGGAAATAAATCTCACTAATGACTACTATCTCAGTGGAGGACTTTC AGAAAAGGTCTTCAAGGCAAGCAAGATAACTTTCCACTGGGGAAAATGCAATGTGTCATCTGAAGGATCG GAACATAGCTTAGAAGGACAGAAGTTCCCACTGGAGATGCAAGTCTACTGCTTTGATGCGGACAGATTTT CCAGTTTTGAGGAAGCAGTTAAAGGAAAAGGAAGATTAAGGGCTTTATCCATTTTATTTGAGGTTGGAGT TGAAGAAAATTTGGATTACAAAGCCATTATTGATGGAACTGAGAGTGTTAGTCGTTTTGGAAAGCAGGCT GCTTTAGATCCATTCGTCTTGCAGAACCTCCTGCCAAACTCCACTGACAAGTATTACATTTACAATGGAT CATTGACATCCCCTCCCTGCACAGACACCGTGGAATGGATTGTTTTTAAGGATACAGTTAGCATCTCTGA AAGCCAGCTGGCTGTATTTTGTGAAGTTCTCACAATGCAACAGTCTGGGTATGTCATGTTGATGGATTAC TTACAAAACAATTTCCGAGAACAACAGTACAAGTTTTCCAGGCAGGTGTTTTCCTCATATACTGGAAAGG AAGAGATCCACGAAGTAGTGTGTAGTTCAGAACCAGAAAATGTGCAAGCTGACCCTGAGAATTACACCAG CCTTCTGGTCACATGGGAAAGACCTCGGGTCGTTTATGACGCCATGATTGAGAAGTTTGCAGTTCTGTAC CAGCCACTGGCGGGAAATGACCAAGCCAAGCATGAGTTCTTAACAGATGGCTATCAGGACTTGGGTGCCA TTCTCAATAATTTACTACCTAACATGAGTTACGTTCTTCAAATAGTGGCCGTATGCTCTAATGGTTTATA TGGAAAGTACAGTGACCAACTGATAGTGGACATGCCCACTGAAGATGCCGAACTTGACCTTTTTCCTGAA TTAATTGGGACTGAAGAAATAATCAAGGAGGAAGAATATGGAAAAGACAATGAAGAAGACACTGGCTTGA ATCCTGGTAGAGACAGTGTCACAAACCAAATAAGGAAAAAGGAACCCCAGGTTTCTACCACGACTCACTA TAATCACATGGGGACTAAATACAATGAAGCCAAGACTAACCGATCTCCAACAAGAGGATCTGAATTCTCT GGAAAGAGTGATGTTCCCAACACTTCCCCGAATTCTACTTCCCAACATGTTGCTGAATTCGAAACAGAAA GAGGAATTTCCTTGCCTTCTCAGACTGGAACTAACCTGCCACCACACAATGTGGAAGGCACTTCAGCCTC CTTAAACAGTGGCTCTAAAACTCTCTTTATCTTCCCACAGATGAACTTGTCTGGGACTGCAGAATCCTTA AATACGGTTCCCATAACAGAGTACAAAGAGGTTTCTGCTGACGTCAGTGAGGAAGAAAACTTCCTGACTG ATTTCAAGCTCGATACGGGAGCCGATGACTCTTCAGGCTCCAGCCCCTCAACCTCCACTGTCCCCTTTTC CTCAGATAATCTATCCCATGGATACATAACTTCTTCAGACATGCCCGAGGCTATCACGTATGATGTCCTT AAGCCAGGATCTACAAGAAATGCCCCAGAGGATTCAGCTCCATCAGGTTCAGAGGAATCACTAAAGGATC CATCTCTTGAAGGGAGTGTATGGTTTCCTGGCTCCACAGACCTAACAACGCAGTCTGAGACTGGATCCGG CCGAGAGAGCTTTCTCCAGGTTAACTCCACAGACATACAAATTGATGAATCGAGGGAGACAACCGAGTCG TTTTCTCCAGATGCTACCGTGTCACAGGATCCTTCAGTCACAGACATGGGAATGCCACATTATTCTACCT TTGCCTACCTCCCAACCGAAGTGACACCACAGGCTTTCACTCCATCCTCCAGACCACTTGATTTGGCTCC TACTATCAACATCCTCCATTCGCAGACGACTCAACCAGTATACAATGGTGAGACACCTCTTCAACCTTCC TACAGTAGTGAAGTCTTTCCTCTAGCCACCCCTTTGTTGCTTGACAATCAGACCCTCAACACTACCCCTG CTGCTTCAAGTAGTGATTCGGCCTTGCATGCTACGCCTGTATCCCCCAGTGTTGGTGTGTCATTTGAATC CATCCTGTCTTCCTATGATGATGCACCTCTGCTCCCATTTTCCTCTGCTTCCTTCAGTAGTGAAATGTTT CGCCATCTGCATACGGTTTCTCAAACCCTTCCGCAAGTCACTTCAGCTGCTGAGAGGGATGAGCTGTCTT TGCATGCTTCTCTGCTGGTGGCTAGGGGTGATTTGCTGTTAGAACCCAGCCTTGTTCAGTATTCTGATGT GGCGTCACATCAGGCCACTACTCGTGCTGCTTCGGACACATTGGGATTTGGTAGTGAGTCTGCTGTCTTT TATAAAACGTCCATGGTTTCTCAGATTGAATCACCCAGAAGTGATGTTGTTATGCATGCATACTCTTCGG GGCCTGAACCTTCTTATACCGTTGAGGGCTCCCACCACGTACCCACTGTTTCTTACAGTTCTGCAATGCC TCTGCATGGTTCTGTCGATGTATCTGATCAGGGGTCCTTACTTATCAATCCTAGCCATATATCAATGCCT GAGTCCTCCTTTATTACTCCAACTGCATCATTACTGCAGCCTCCTCCAGCCCTCTCTGGTGATGGGGAAT GGTCTGGAGCCTCCTCTGATAGTGAATTGCTTTTACCTGACGCAGATGGGCTGAGAACTCTTAACATTTC TTCACCTGTTTCCGTAGCTGAATTTACATATACGACATCTGTGTTTGCTGATGGTATTAAGCCGCTCTCT AAAAGTGAAATGATGTATGGAAATGAGACTGAACTGAAAATGTCTTCTTTCAGTGACATGGCATACCCTT CTAAAAGCACAGTTGTGCCAAAGATGTCAGATGTTGTACATAAGTGGAGTGAATCTTTAAAAGAAACCTC TGTTTCTATTTCTAGCATGAAGAGTGTGTTTCCAGAGTCTCTTGTTTATCCCACAACTAAGGGTTTTGAA CAGGGGGTTAGTCACGTTCCAGAAATTATCTTCCCAGTTCAACCTACACACACTGCATCTCAAGCATCTG GGGACACTTGGCTTAAACCCGGGCTTAGCGCAAACTCAGAGGCAGCGTTCTCAGACACTGCTTCTAGGGA AGTAGTACACCCTTCAACACAGCCCTTGCTCTATGAGGCCGCAACTCCTTTTAATACTGAAGCGTTGCTG CAACCTTCCTTTCAGGCTTCTGATGTTGACACCTTGCTTAAAACTGCTCTCCCATCTGTGCCTAGTGATC CAATACTGGCTGGAACCCCCCAGGTTGAACAAAGTAGCTCTTCCGTGTCTCATCCCATGGCATCAGAGTC TGGTTCAAGCGAAAGCATGCTGCACTTTACGTCTGTACCTATTCTCGATATATCACCTTCTAAGGTGCAC TCCACTCCACTTCAAGGCTTAACAGTTCCTCACTCGAGTAAGAAATTTTCTGAACAAGGTTTGCTTAAGA GCAAAAGTCCCCAGCAAGTGCTGCCATCTTTGTTCAGCAATGACGAGTTTTTCCAAAGCGCACATCTGGA CGTTAGCCAGGCCTATCCTCCAAAAGGGAGGCATGCATTTGTTACTCCTGTTTTATCAATTGATGAACCA CAAAATACGCTTATAAACAAGCTTGTGTATTCTGAGGACATTTTCTCGAGCACTGAGATTTCTATTACTG ATAAGGTACTTACTGGTCTCCCAACGCTTGCTTCTGATGTACTTTCATCTACTGACCATTCTGTTCCATT AGGAAGTGGGCCCATTTCCTTGACAATGGTTTCTCCCAACAGAGATGATTCTGTGACCACAGCCAAGTTG CTTCTTCCTTCTACAGCTACTTCTAAGCTGACTCAGAGCGCCAGATCTGATGCCGATTTAGTGGGAGGTG GTGAAGATGGTGATGACTATGATGATGATGACTATGATGACATAGATAGGGGTCGCTTTCCTGTGAATAA GTGTATGTCATGCTTGCCCTATAGAGAATCCCGGGAAAAGGTAATGAATGACTCGGACACCCAGGAGAGC AGTCTTGTGGATCAGAGTGACCCAATTTCACCTTTACTCTTTGAGAATACAGAAGAAGAAAATGGAGGCA CAGGTGTAACTAGGGTGGATAAGTCACCACCACCAAGTATGCTACCCCAGAATCACAATGATGGAAAAGA GGACAGTGACATCCAAATGGGTAGTGCTGTCCTTCCTCATACCCCAGGATCTAAAGCGTGGGCAGTTTTG ACAAGTGATGAAGAGAGTGGGTCAGGGCAAGGCACCTCAGATAGCCTTAATGATAATGAGACGTCCACAG ATTTCAGTTTTCCAGATGTTAATGAAAAGGATACTGATGGTGTCCTGGAAACAGATGACACAGGCATAGC TCCGGGATCTCCACGGTCCTCCACACCATCTGTTACTAGTGGGCACTCAGGAGTATCCAACAGTTCAGAG GCAGAGGCCAGTAATAGTAGCCATGAGTCTCGTATTGGTCTAGCTGAGGGGTTGGAGTCTGAGAAGAAAG CGGTTATACCCCTTGTGATCGTGTCTGCCCTGACTTTTATCTGTCTAGTGGTTCTTGTTGGTATTCTCAT CTATTGGAGAAAATGCTTCCAGACTGCTCACTTTTATTTAGAAGACAATACATCCCCTCGAGTAATATCT ACACCACCAACACCCATCTTTCCAATTTCAGATGATATTGGAGCAATTCCAATAAAGCATTTTCCAAAGC ACGTTGCAGATTTACATGCAAGTAATGGGTTCACTGAAGAATTTGAGACACTGAAAGAGTTTTACCAGGA AGTGCAGAGCTGTACTGCTGACTTAGGCATCACAGCAGACAGCTCCAATCACCCAGACAACAAGCACAAG AACAGATACGTCAATATCGTAGCCTATGATCATAGCAGGGTTAAGCTCACACAACTTGCTGAAAAAGATG GAAAACTGACTGATTACATCAATGCCAATTATGTTGATGGTTACAACAGACCAAAGGCTTACATTGCTGC CCAGGGTCCACTGAAGTCCACAGCTGAAGACTTCTGGAGAATGATCTGGGAGCATAATGTGGAAGTCATC GTCATGATCACAAACCTCGTGGAGAAAGGAAGAAGAAAATGTGACCAGTACTGGCCTACTGATGGTAGTG AAGAATATGGGAGCTTCCTAGTCAACCAAAAGAGTGTTCAGGTGCTTGCTTATTATACTGTGAGGAATTT CACCCTAAGAAACACAAAGTTAAAGAAGGGCTCTCAGAAAGGAAGATCCAGTGGGCGCCTAGTCACACAG TATCATTACACCCAGTGGCCTGACATGGGTGTTCCCGAGTACTCCCTGCCCGTGCTGGCCTTTGTGAGAA AGGCTGCCCAGGCCAAGCGCCATGCAGTCGGGCCAGTTGTTGTCCACTGCAGTGCTGGCGTGGGGAGAAC GGGGACATACATTGTGCTAGACAGTATGCTGCAGCAGATTCAACATGAAGGAACCGTCAACATATTTGGC TTCTTAAAGCACATTCGTTCTCAAAGGAATTATTTGGTGCAAACAGAGGAGCAGTATGTCTTCATTCACG ATACACTGGTCGAGGCCATACTCAGCAAGGAAACGGAGGTACCTGACAGCCACATTCACTCCTATGTTAA TACACTCCTCATACCCGGACCAACAGGCAAGACAAAACTAGAGAAACAATTCCAGCTTCTGAGTCAGTCA AATATCCTCCAGAGTGACTACTCCACAGCCCTGAAGCAGTGTAACAGGGAGAAGAACAGAACATCGTCCA TCATCCCTGTGGAAAGATCAAGGGTGGGCATTTCATCCCTGAGTGGGGAAGGCACAGACTACATCAATGC ATCCTATATTATGGGCTATTACCAGAGCAATGAATTCATCATCACCCAGCATCCCCTGCTGCACACCATC AAGGACTTCTGGAGAATGATATGGGATCATAATGCCCAGCTGGTGGTTATGATTCCAGATGGTCAAAACA TGGCAGAGGATGAGTTTGTCTACTGGCCAAATAAAGATGAGCCCATAAATTGTGAAAGCTTCAAAGTCAC GCTTATGTCTGAAGAACACAAATGCCTTTCGAACGAGGAAAAACTGATCGTTCAAGACTTCATCTTGGAA GCAACACAGGATGACTATGTGCTGGAAGTAAGGCATTTCCAGTGCCCCAAATGGCCAAATCCGGATAGTC CCATTAGTAAAACATTTGAACTTATAAGTATTATCAAAGAAGAAGCTGCTAACAGGGATGGGCCCATGAT TGTTCACGATGAGCACGGGGGAGTAACAGCAGGAACTTTTTGTGCTCTTACAACCCTTATGCACCAACTA GAAAAAGAAAACGCCATGGATGTTTACCAAGTAGCCAAGATGATCAATTTGATGAGGCCGGGAGTCTTCA CTGACATTGAGCAGTATCAGTTTCTGTACAAAGTAGTCCTCAGCCTCGTCAGCACAAGGCAGGAAGAGAA CCCATCCACCTCTCTGGACAGTAATGGTGCAGCTTTGCCTGATGGAAATATAGCTGAAAGCCTGGAATCT TTAGTCTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI
ACCN	NM_001081306
ORF Size	6939 bp
Insert Size	6939
OTI Disclaimer	Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Reference Data
RefSeq	NM_001081306.1, NP_001074775.1
RefSeq Size	8068
RefSeq ORF	6939
Locus ID	19283

Documents

Product Manuals
TrueORFs: Open Reading Frame Clones - 10 ug in PrecisionShuttle Vector System TrueClones: Full length cDNA clones (Human/Mouse/Rat), expressing native proteins pLenti-ORF destination vector Transfection - TurboFectin 8.0 Transfection Reagent Plasmid Preparation - PowerPrep Plasmid Purification Kits
FAQs
TrueORF Clones/PrecisionShuttle Organelle Marker Transfection Reagent
SDS
SDS for MC225268

Resources

cDNA Clone Resources
Video Tutorial: Clone Selection Guide Product Video: What is TrueORF GOLD and why it is the most popular type of clone Video Tutorial: How to make Lentivirus particles Video Tutorial: Is the Lentivirus Safe Product Brochure: cDNA clones Protocol: Lentivirus packaging Product Sheet: AAV AAV Biosafety AAV Products and Services Flyer

Other Versions

SKU	Description	Size	Price
MR222161	Ptprz1 (Myc-DDK-tagged) - Mouse protein tyrosine phosphatase, receptor type Z, polypeptide 1 (Ptprz1)	10 ug	USD 2,670.00
MG222161	Ptprz1 (GFP-tagged) - Mouse protein tyrosine phosphatase receptor type Z polypeptide 1 (Ptprz1), (10ug)	10 ug	USD 2,940.00

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Ptprz1 (NM_001081306) Mouse Untagged Clone

CAT#: MC225268

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Ptprz1 (NM_001081306) Mouse Untagged Clone

CAT#: MC225268

Product Images

Specifications

Documents

Resources

Other Versions

{0} Product Review(s)

Product Citations