Nsd1 (NM_001107337) Rat Untagged Clone

Name: Nsd1 (NM_001107337) Rat Untagged Clone
SKU: RN201931
Price: 4830.00 USD

CAT#: RN201931

Nsd1 (untagged ORF) - Rat nuclear receptor binding SET domain protein 1 (Nsd1), (10 ug)

SDS

"NM_001107337" in other vectors (1)

Reconstitution Protocol

USD 4,830.00

11 Weeks*

Size

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Specifications

Product Data
Type	Rat Untagged Clone
Tag	Tag Free
Symbol	Nsd1
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >RN201931 representing NM_001107337 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGTGTCACCCGAAGAAAAAGTCTACACCATTGAAATATGAAGTTGGAGATCTCATTTGGGCAAAATTCA AGAGACGCCCATGGTGGCCCTGCAGGATTTGTTCTGATCCATTGATTAATACGCACTCAAAAATGAAAGT TGCCAATAGGAGGCCATATCGAGAATACTACGTGGAGGCTTTTGGAGATCCTTCTGAAAAAGCCTGGGTG GCTGGAAAAGCAATCGTCATGTTTGAAGGCAGACATCAATTTGAAGAACTACCTGTCCTTAGGAAAAGAG GGAAACAGAAAGAAAAAGGATATAGGCATAAGGTTCCTCAGAAAATCCTGAGTAAGTGGGAAGCCAGTGT TGGCCTTGCTGAGCAGTGTGATGTCCCCAGAGGACCTAAGACCCAGAAGTGTGTCCCCAGCTCGGCCAAG CTGGACAGCGAGGAAGACATGCCATTCGAGGACTGTGCAAACGATCCTGATTCAGAACATGACTTGTTGC TTAATGGCTGCTTGAAGTCTCTGGCTTTTGATTCTGAGCATTCTGCAGATGAAAAGGAAAAGCCCTGTGC CAAGTCTCGAGTTAGGAAAAGCTCTGATAATATAAAAAGGACTAGTGTGAAAAAGGGCCTCATGCCATTC GAAGCACAGAAAGAAGAACGGAGGGGGAAGTCTCCAGAGAACCTTGGCCTAGACTTTCTCTCTGGGGGTG TATCTGATAAACAGGCTTCTAATGAACTTTCCAGGATAGCAAACAGCCTCACAGGGTCTAGCGCCGCACC AGGACAGTTCCTCTTTTCCTCGTGTGGACAGAACACTGCTAAGACAGATTTTGAGACTCCAAATTGTGAT TCTTTATCAGGTTTGTCTGAAAGTGCTTTAATCTCTAAACATTCTGGAGAGAAAAAGAAACTCCAACCAG GCCAGGTCTGCAGCTCAAAAGTACAGCTCTGCTATGTTGGAGCTGGTGATGAGGAAAAGCGAAGTGATTC TGTCAGTGTGTGTACCACTTCTGATGATGGCAGCAGTGACCTGGATCCTACAGAACACAACTCAGAATTC CATAAAAGTGTCCTCGAAGTTACAGATGCGTTGGATAAAACAGAGAATGCTTTATCCATGCACAAAAATG AAACAAAGTATTCTAGGTATCCTGCCACAAACAGGGTAAAAGAGAAACAGAAATCCCTTATTACTAATTC ACATACAGATCACTTAATGGATTCTACCAAGACAGTGGAGCCTGGAACTGCTGAGATATCTCAGGTCAAT CTTTCTGATCTTAAAATCAGTAGTCCTATTCCCAAACCCCAACCAGAATTTAGAAATGATGGTCTCACTA CAAAATTCAATGCACCGCCAGGCATTCGTAATGAAAACTCACTGACAAAGGGTGGGCTTGCAAATCAAAC TCTGTTACCTTTGAAATGCCGACAGCCCAAGTTCCGGAGTATAAAATGCAAGCATAAAGAAAGCCCAACT GCTGCAGAAACCTCAGCTACGAGTGAGGACCTCAGTTTGAAATGCTGTTCTTCTGATACCAACGGCTCTC CTATGACCAGCATATCCAAAAGTGGGAAAGGAGAAGGACTAAAACTACTGAACAATATGCATGAGAAAAC CAGAGATTCGAGTGACATAGAAACAGCAGTGGTGAAGCATGTGCTGTCAGAATTGAAGGAGCTCTCTTAC AGATCATTAAGTGAGGATGTCAGTGATTCTGGAACATCCAAGTCATCAAAGCCGTTGCTGTTTTCTTCTG CTTCTAGTCAGAATCATATACCCATCGAACCAGATTACAAGTTTAGCACATTGCTAATGATGCTGAAAGA TATGCATGATAGTAAGACGAAGGAGCAAAGGTTGATGACTGCTCAAAATGTGGCTTCCTACCGCACTCCC GATCGCGGGGACTGTTCTTCTGGTAGTCCTGTAGGAACATCAAAGGTTTTGGTGTTAGGAGGCTCCACAC ACAATTCTGAAAAACCTGGAGATAGCACTCAGGACTCAGTTCGCTTGAGTCCTGGTGGGGGTGACTCTGC ATTGTCTGGAGAATTGTCTTCTTCCCTATCCGTCTTACCTTCTGACAAAAGAGATCTTCCTGCTTGTGGT AAAATTCGCTCTAACTGTATCCCAAGGCGCAACTGTGGCCGAGCAAAGCTATCACCCAAATTGAGAGTAA CAATTTCAACCCAGATGGCAAAACCTTCAGTAAACCCAAAAGCCTTAAAGACTGAGCGAAAGAGAAAGTT GAGCCGACTTCCAGCTGTGACACTTGCAGCTAACGGACTGGGAAACAAAGAAAGTGGAGGCTCAGTGAAT GGCCCATTGAAGGGTGGGGCTCAAGATCCTGCTAAAGAAGAGCCCCTTCAGCAAATGGACCTCTTAAGAA ATGAAGAGACCCATTTTGATAGCAAGGTTAAACAATCTGACCCTGATAAAATTCTTGAAAAAGAACCTTC TTTTGAGAACAGAAAAGGCCCAGAGGTGGGCTCTGAAATTAACATTGAGAATGATGAACCCCATGGTGTT GACCAAGTGGTCCCTAAAAAGCGGTGGCAGCGCTTAAACCAAAGGCGCCCTAAGCCTGGGAAACGTGCGA GTAGATTTAGGGAGAAAGAAAACTCTGAGGGTGCTTTTGGAGTCTTACTTCCTGGTGACCCTGTGCAGAA GGGCCGGGATGATTACTTAGAACAAAGAGCTCCTCCTACAAGCATACTCGAGGACTCAGCAGCAGATCCC AATCACGTTAGCCACTCAGAATCAGTTGGGCCTCGGCTGAATGTTTGTGATAAGTCCAGTGTCAGCATGG GCGACTTAGAAAAGGAGACGGGAATTCCCAGTTTGACGCCACAGACCAAGATCCCTGAGCCAGCTGTTCG GTCAGAGAAGAAACGCCTTAGGAAGCCGAGCAAGTGGCTTCTGGAATACACAGAAGAATATGATCAGATA TTTGCTCCTAAGAAAAAACAAAAGAAGGTACAGGAACAAGTGCATAAGGTAAGTTCCCGATGTGAAGACG AAAGCCTTCTTGCCCGATGTCGATCTAGTGCTCAGAACAAGCAGGTGGATGAGAATTCCTTGATTTCAAC TAAAGAAGAGCCTCCAGTTCTTGAAAGAGAGGCTCCATTTTTGGAAGGGCCATTGGTTCAGTCAGATCTT GGAGTTGCACATGCTGAGTTGCCACAGCTGACCTTGTCTGTTCCTGTGGCTCCAGAAGTTTCTCCGAGGC CTACCCTTGAGTCTGAGGAATTGCTTGTTAAGACACCAGGAAATTATGAAGGTAAGCGTCAAAGAAAACC AACTAAGAAACTTCTTGAATCCAATGATTTAGACCCTGGATTTATGCCAAAGAAGGGCGATCTTGGCCTT TCTAGAAAGTGCTGTGAGTCTGGTCACTTGGAGAATGGCGTTGGCGACTCACGTGCTACACCTCATTTGA AGGAGTTTGGTGGAGGCACTACCAGGATATTTGATAAGCCAAGGAAACGAAAACGGCAAAGGCATGGCAC AGCCAGAGTGCACTACAAAAGAGTGAAGAAGGAGGACTCAGCAAGAGAGACGCCCAGCTCAGCAGAGGGA GAACTGATGATTCACAGGACTGCTGCCAGCCCCAAGGAGATTCTCGAAGAGGGCATAGAACATGATCCTG GGATGTCTGCATCCAAAAGACTGCAGGGTGAACGAGGCGGAGGAGCAGCACTCAAGGAGAACGTCTGTCA GAACTGTGAGAAACTGGGTGAGCTGTTGTTGTGTGAGGCTCAGTGCTGTGGGGCTTTCCACCTGGAGTGC CTTGGCCTGACCGAGATGCCTCGAGGAAAATTCATCTGCAACGAGTGTCGCACAGGGATCCACACCTGTT TTGTATGTAAGCAGAGTGGAGAGGATGTGAAAAGGTGCCTTCTGCCTTTATGTGGCAAGTTTTACCATGA AGAGTGTGTTCAGAAGTACCCACCAACTGTCGTACAGAACAAGGGCTTCAGGTGCCCCCTCCACATCTGT ATAACTTGCCATGCTGCTAATCCAGCCAATGTGTCTGCTTCTAAAGGTCGTCTGATGCGCTGTGTCCGCT GTCCTGTGGCATACCATGCTAATGACTTTTGTCTTGCTGCTGGGTCAAAAATCCTCGCATCTAATAGTAT CATCTGCCCTAATCACTTCACCCCTAGACGGGGCTGCCGAAATCATGAGCATGTTAATGTCAGCTGGTGT TTTGTATGCTCAGAAGGAGGCAGCCTTCTGTGCTGTGATTCTTGTCCTGCTGCTTTTCATCGTGAATGCC TAAATATAGATATCCCCGAAGGAAACTGGTACTGCAATGACTGTAAGGCAGGCAAAAAGCCACACTACAG GGAGATTGTCTGGGTCAAAGTTGGCCGCTACAGGTGGTGGCCCGCTGAGATCTGCCATCCTCGAGCTGTT CCCTCTAACATTGACAAAATGAGGCATGACGTGGGAGAATTCCCTGTTCTCTTCTTTGGGTCCAATGACT ATCTGTGGACTCATCAGGCTCGGGTCTTCCCTTACATGGAAGGGGATGTGAGCAGCAAGGATAAGATGGG GAAAGGAGTGGATGGGACATATAAGAAAGCTCTTCAGGAAGCTGCAGCAAGATTTGAAGAGTTAAAAGCT CAAAAAGAACTAAGACAGCTGCAGGAAGACCGGAAGAACGACAAGAAGCCACCTCCTTATAAACATATAA AGGTGAACCGGCCCATTGGCAGAGTACAGATCTTCACTGCAGACTTGTCAGAAATTCCCCGTTGCAACTG TAAAGCTACTGATGAGAACCCCTGTGGGATAGACTCAGAGTGCATCAACCGGATGCTGCTCTACGAGTGC CACCCCACAGTGTGTCCTGCTGGAGGACGCTGTCAGAATCAGTGCTTCAGCAAGCGCCAGTATCCAGATG TTGAAATTTTCCGCACATTACAAAGGGGCTGGGGTCTCCGGACAAAAACAGATATTAAAAAGGGTGAATT TGTGAATGAATATGTGGGTGAGCTAATAGATGAAGAAGAGTGCAGAGCTCGGATCCGTTACGCACAAGAA CACGATATCACTAATTTCTATATGCTCACGCTAGACAAAGATCGAATTATTGATGCTGGTCCTAAAGGAA ACTATGCTCGGTTCATGAATCACTGCTGCCAGCCTAACTGTGAGACACAGAAGTGGTCTGTGAATGGAGA TACCCGAGTTGGTCTTTTTGCTTTGAGTGACATTAAAGCAGGAACTGAACTTACCTTCAATTATAACCTA GAATGTCTTGGGAATGGAAAGACTGTCTGTAAATGTGGAGCCCCGAACTGCAGTGGCTTCTTGGGTGTGA GGCCAAAGAATCAACCCATTGTCACAGAAGAAAAGTCCAGGAAATTCAAGAGGAAGCCACATGGGAAGCG CAGAAGCCAGGGTGAAGTCACCAAGGAGAGAGAGGATGAATGTTTCAGCTGTGGAGATGGTGGTCAGCTC GTCTCCTGCAAGAAGCCAGGCTGCCCGAAAGTTTACCATGCAGACTGTCTCAATCTGACCAAACGACCAG CAGGGAAGTGGGAGTGTCCTTGGCACCAGTGTGACGTGTGTGGGAAGGAAGCAGCCTCCTTCTGTGAGAT GTGCCCCAGCTCCTTTTGCAAGCAGCATCGAGAAGGGATGCTTTTCATTTCCAAGCTCGATGGGCGCCTG TCTTGTACTGAGCATGATCCCTGTGGGCCCAACCCTCTGGAACCAGGGGAGATCCGTGAGTATGTGCCTC CCACAGCGACGCTCTCTCCAAGCCCTGGCACTCAGCAGACAGAGCAGTCATCAGAGATGGGTACTCAGGG GCCCAAGAAATCTGATCAACCACCTACTGATGCCACCCAGATGCTGTCACTCTCCAAAAAAGCCGTAACA GGGACTTGTCAGAGGCCACTGCTCCCTGAGAGGCCTCCTGAGAGAACTGACTCTAGTTCCCACCTTTTAG ATAGGATCAGAGACCTTGCTGGGTCAGGGACCAAATCCCAGTCCTTGGTATCCAGCCAGAGACCACAGGA CAGGCCCCCTGCTAAAGAAGGACCAAGACCTCAGCCACCTGACAGAGCCTCTCCAGTGACCAGGCCAAGC TCCTCCCCTTCAGTCAGCTCCCTGCCATTGGAAAGACCTCTGAGAATGACTGAACCAAGGCTGGATAAAT CCATAGGTGCTGCCAGCCCAAAGTCCCAAGCAGTGGAGAAACCTCCAGCCCCCACTGGCCTGAGACTTTC ATCACCAGACAGGCTGCTAAACACCAACAGCCCTAAACCCCAGATTTCTGACAGGCCCCCAGACAAGTCC CACGCCTCCTTGACCCAGAGACTTCCACCTCCTGAGAAAGTGCTGTCCGCTGTGGTCCAGTCTCTAGTAG CTAAAGAGAAAGCACTGAGGCCTGTGGACCAGAACACCCAGGCGAAGCACAGAGCTGCTGTGGTGATGGA TCTCATAGACCTAACGCCTCGCCAGAAGGAGCGGGCTGCTTCTCCTCAGGAAGTCACAGCGCAGGCTGAT GAGAAGACACCAGTGCTAGAGTCAAGCTCAAGGCCGACTAGCAGAGGTCTGGGGCATGTGCCCCGAGCTG TGGAGAAAGGCGGCGTGTCAGATCCCCTCCAGCCGCCTGGGAAGTCTGCAGCTCCTTCAGAACACCCTTG GCAAGCTGTTAAGTCGCTCACCCATGCCAGATTCCTTTCTCCGCCTTCTGCCAAGGCCTTTTTATATGAA TCAGCAATTCAGGCCTCAGGAAGAGCTCCTGTGGGGTCTGAGCAGACCCCCGGCCCTCCCAGCCCAGCAC CAGGCCTGCTCAAACAGGTGAAGCAGCTATCTAGAGGCCTCACTGCCAAGAGTGGGCAGTCCTTCAGGTC TCTTGGGAAGATCTCAGCTTCCCTCCCCAATGAAGAAAAGAAGTTGACAACCACAGAACAGAGTCCCTGG GGCCTGGGAAAAGCCTCACCGGGGGCAGGGCTTTGGCCAATAGTGGCTGGACAAACACTAGCCCAGGCTT GCTGGTCATCTGGGGGCACACAAACTTTGGCACAAAACTGCTGGTCCCTTGGAAGAGGGCAAGACCCCAA ACCAGAACAGAATGCCATCCAAGCTCTTAACCAGGCCCCTTCTAGTCGCAAATGTGCAGAGTCAGAACAG AAATAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI
ACCN	NM_001107337
ORF Size	7146 bp
Insert Size	7146
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_001107337.1, NP_001100807.1
RefSeq Size	9233
RefSeq ORF	7146
Locus ID	306764

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 RN201931

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
RR201931	Nsd1 (Myc-DDK-tagged ORF) - Rat nuclear receptor binding SET domain protein 1 (Nsd1), (10 ug)	10 ug	USD 4,830.00

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Nsd1 (NM_001107337) Rat Untagged Clone

CAT#: RN201931

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Nsd1 (NM_001107337) Rat Untagged Clone

CAT#: RN201931

Product Images

Specifications

Documents

Resources

Other Versions

{0} Product Review(s)

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