RNU1-7 3'UTR Lenti-reporter-GFP Vector
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Catalog numberMT-h70131
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PricePlease ask
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Size1 ug
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AvailabilityPlease contact us every day between 9am-6pm local time to check the availability and/or to request a quote. For larger quantities a discount may apply.
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OrderingIf you wish to order this product, please include the catalogue number #MT-h70131 in your purchase order among with your shipping and billing information.
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Technical filePlease contact us to request the latest datasheet, protocol, certificate of analysis and SDS files.
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NotesDesigned for Research Use Only. Manufactured in Canada.
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DescriptionLenti kit or vector with CMV or EF promotors for producing Lentivirus (lenti-, Latin for "slow") or lentiviral particles in 293t cells. Lentiviruses are characterized by a long incubation period and often Puro selected. Lentiviruses can deliver a significant amount of viral RNA into the DNA of the host cell and have the unique ability among retroviruses of being able to infect non-dividing cells. They are one of the most efficient methods of a gene delivery vector. The are packaged in HEK 293T cells to get the highest possible lentiviral titers of 108 IFU/ml. The Luc reporter is the expression of the firefly luciferase gene. Puro stands for puromicin selection.
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Gene target
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Gene symbolRNU1-7P, RNVU1-7, RNU1-28P, PIRC34, PIRC33, RNU1-129P, RNU1-8P, RNU1-5P, PIRC32, SNORD114-7
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Short nameRNU1-7 3'UTR -reporter-GFP Vector
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Techniquelenti, Lentivectors and viral particles, Vectors
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Labelgfp
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Alternative nameRNU1-7 3'UTR lentiviral-detector-Green Fluorescent integrating Desoxyribonucleic acid sequence
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Viruslenti
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Gene info
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Identity
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Gene
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Long gene nameRNA, U1 small nuclear 7, pseudogene
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 7
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Locus
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Discovery year2013-04-25
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Entrez gene record
Gene info
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Identity
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Gene
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Long gene nameRNA, variant U1 small nuclear 7
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 9
- RNA, U1 small nuclear 9, pseudogene
- RNA, variant U1 small nuclear 9
- RNA, U1 small nuclear 6, pseudogene
- RNA, U1 small nuclear 26, pseudogene
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Synonyms
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GenBank acession
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Locus
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Discovery year2009-04-25
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Entrez gene record
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Pubmed identfication
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RefSeq identity
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Classification
- Variant U1 small nuclear RNAs
Gene info
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Identity
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Gene
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Long gene nameRNA, U1 small nuclear 28, pseudogene
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 8
- RNA, U1 small nuclear 8, pseudogene
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Locus
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Discovery year2009-11-05
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Entrez gene record
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RefSeq identity
Gene info
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Identity
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Gene
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Long gene namepiwi-interacting RNA cluster 34
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Locus
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Discovery year2009-11-05
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Entrez gene record
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Pubmed identfication
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Classification
- Piwi-interacting RNA clusters
Gene info
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Identity
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Gene
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Long gene namepiwi-interacting RNA cluster 33
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Locus
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Discovery year2009-11-05
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Entrez gene record
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Pubmed identfication
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Classification
- Piwi-interacting RNA clusters
Gene info
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Identity
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Gene
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Long gene nameRNA, U1 small nuclear 129, pseudogene
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 137, pseudogene
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Locus
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Discovery year2013-05-15
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Entrez gene record
Gene info
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Identity
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Gene
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Long gene nameRNA, U1 small nuclear 8, pseudogene
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 8
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Locus
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Discovery year2013-04-25
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Entrez gene record
Gene info
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Identity
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Gene
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Long gene nameRNA, U1 small nuclear 5, pseudogene
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Synonyms gene
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Synonyms gene name
- RNA, U1 small nuclear 5
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Locus
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Discovery year2013-04-25
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Entrez gene record
Gene info
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Identity
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Gene
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Long gene namepiwi-interacting RNA cluster 32
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Locus
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Discovery year2009-11-05
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Entrez gene record
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Pubmed identfication
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Classification
- Piwi-interacting RNA clusters
Gene info
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Identity
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Gene
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Long gene namesmall nucleolar RNA, C/D box 114-7
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Synonyms
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Locus
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Discovery year2006-09-26
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Entrez gene record
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Pubmed identfication
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RefSeq identity
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Classification
- Small nucleolar RNAs, C/D box
MeSH Data
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Name
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ConceptScope note: The in vitro fusion of GENES by RECOMBINANT DNA techniques to analyze protein behavior or GENE EXPRESSION REGULATION, or to merge protein functions for specific medical or industrial uses.
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Tree numbers
- E05.393.220.250
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Qualifiersdrug effects, methods, radiation effects