5' EndTag Labeling DNA/RNA Kit

5' EndTag Labeling DNA/RNA Kit

Product beschrijving

End labeling is a favored method for applications where an internal label might interfere with hybridization or sequence specific protein binding.

5' or 3' EndTag™ labeled nucleic acids can be used for applications such as DNA hybridization, PCR, in situ hybridization, the binding of capture probes to affinity matrices, or electrophoretic mobility shift assays (EMSA). Short oligonucleotides are labeled more efficiently with these systems than with other methods. In addition, end labeling of oligonucleotides is an economical alternative to having labels inserted during synthesis.

Both the 5' EndTag™ and the 3' EndTag™ Nucleic Acid Labeling Systems enable the covalent attachment of a variety of fluorescent dyes, haptens, or affinity tags to the respective ends of the nucleic acids using thiol-specific chemistry. Labels containing thiol-reactive groups (maleimides, iodoacetamides, etc.) can easily be incorporated.

Labeling time is about 1 hour with very little hands-on time.

5' EndTag™ Labeling Kit

The 5' EndTag™ System labels 5' ends of DNA, RNA, or unmodified oligonucleotides. 5' EndTag™ is ideal for labeling PCR primers because a label is attached only at the 5' end, leaving the 3' end available for polymerization.

Labeling with the 5' EndTag™ Kit is achieved in two steps:

1. T4 polynucleotide kinase transfers a thiophosphate from ATPγS to the 5' -OH group of the nucleic acid. (5' phosphorylated ends are converted to 5' -OH groups with the included alkaline phosphatase).

2. Thiolated sample is coupled to a thiol-reactive label. The 5' EndTag™ Kit is designed to perform 10 labeling reactions of up to 0.6 nmols of 5' ends (e.g. about 5 μg of a 25 base oligo) per reaction. Thiol-reactive label is not included in the kit and should be selected separately.

Kit Contents:

The kit is designed to perform 10 end labeling reactions of up to 0.6 nmols of 5' ends (e.g. about 5 μg of a 25 base oligo) per reaction and includes:

• T4 polynucleotide kinase
• 10x reaction buffer
• ATPγS
• Precipitant
• Alkaline Phosphatase

 

Note on Shipping: This item is shipped on ice requiring additional shipping charges.

A maleimide label is not included. Please select from the list of thiol-reactive labeling reagents.

Figure Legends:

A] EtBr-stained gel of a 1002 bp PCR product amplified using: Ln 1) Unlabeled primers. Ln 2) EndTag™ biotinylated forward primer and unlabeled reverse primer. Ln 3) Unlabeled forward primer and EndTag™ biotinylated reverse primer. Ln 4) EndTag™ biotinylated forward and reverse primers. B] The blot shows these PCR products transferred to nitrocellulose and detected with the UltraSNAP™ Nucleic Acid Detection Kit.

Transmission electron micrographs of molecules of influenza A viral ribonucleoprotein particles (vRNPs) labeled at the 5' end of the vRNA with biotin using 5' EndTag Kit, and further labeled with streptavidin gold. vRNPs from influenza A were purified according to Kemler et al., on a glycerol gradient with modifications as described in Wu et al. Courtesy of Drs. Winco WH Wu and Nelly Panté, University of British Columbia, Vancouver BC, Canada.

Nuclear import assay in digitonin-permeabilized HeLa cells of biotinylated vRNPs. vRNPs were labeled first at the 5' end of the vRNA with biotin using the 5' EndTag Kit and then with Vector Fluorescein Streptavidin. This allowed for direct fluorescence visualization of the vRNPs on a confocal fluorescence microscope. Nuclear import assays were carried out as described in Wu et al. The negative control consists of vRNPs added to the cells in the absence of energy and exogenous cytosol. In the presence of energy and cytosol, the fluorescein-labeled vRNPs successfully enter the nucleus, with a high degree of nucleolar staining. Courtesy of Drs. Winco WH Wu and Nelly Panté, University of British Columbia, Vancouver BC, Canada.

A. Coherent anti-Stokes Ramen scattering (CARS) and two-photon fluorescence (TPF) imaging of fluorescein-labeled HCV RNA inside Huh-7 cells. HCV RNA in-vitro transcripts were labeled with a fluorescein-maleimide label using the 5' EndTag Nucleic Acid Labeling System. Huh-7 were transfected with 3µg of 5'-fluorescein-labeled HCV RNA and imaged at 4 h post-transfection. CARS and TPF of Mock transfected Huh-7 cells. Figure courtesy of Jennifer Haley, Sylvie Belanger, Adrian Pegoraro, Albert Stolow, and John P. Pezacki, The Steacie Institute for Molecular Sciences, The National Research Council of Canada. Unpublished data.

B. Coherent anti-Stokes Ramen scattering (CARS) and two-photon fluorescence (TPF) imaging of fluorescein-labeled HCV RNA inside Huh-7 cells. HCV RNA in-vitro transcripts were labeled with a fluorescein-maleimide label using the 5' EndTag Nucleic Acid Labeling System. Huh-7 were transfected with 3µg of 5'-fluorescein-labeled HCV RNA and imaged at 4 h post-transfection. Here, CARS and TPF of Huh-7 cells transfected with fluorescein-labeled HCV RNA. Figure courtesy of Jennifer Haley, Sylvie Belanger, Adrian Pegoraro, Albert Stolow, and John P. Pezacki, The Steacie Institute for Molecular Sciences, The National Research Council of Canada. Unpublished data.

Fluorescence in situ hybridization of human chromosomes using 5' EndTag Fluorescein-labeled pUC1.77 detected directly and mounted in Vectashield Mounting Media with PI.

 

 

Fluorescence in situ hybridization of human chromosomes using 5' EndTag Texas Red-labeled pHuR 98 detected directly and mounted in Vectashield Mounting Media with DAPI.