Archive for January, 2012

Making Transfection-Grade mRNA by IVT (In Vitro Transcription)

RNases are an often feared in molecular biology labs because of their high stability and ominous presence in virtually all living systems. Consequently, people who work with RNA are trained to exercise extreme caution to avoid RNA degradation: change gloves often because human hands ooze RNases; use only sterilized labware as microbes may be sources of RNases; for surfaces that can’t be autoclaved, use sprays like “RNase Zap” (SDS- or guanidine-containing solutions). Such cautionary steps are especially necessary when dealing with low abundance RNA samples.

RNAs can be produced by in vitro transcription (IVT), a simple reaction requiring only a DNA template (double-stranded or even single-stranded DNA as long as the promoter region is double-stranded), RNA polymerase (from T7, SP6, or T3 phage), NTPs, and a reaction buffer that provides appropriate salt and pH. Standard NTPs may be replaced with modified ones to either increase stability or to reduce immune-response when transfected into cultured cells. Additionally, a 5’ cap structure may be added during IVT for further stabilizing mRNAs inside the cells post transfection. Using a commercially assembled kit, one can routinely produce 40-50 µg of mRNA from 1 µg of DNA template in a single 20-50 µl reaction.

At such high concentrations, IVT mRNAs are not nearly as sensitive to RNase-mediated degradation as low-abundance samples. The mRNA can be easily observed on agarose gels that are regularly used for DNA, and their integrity can be monitored after transcription or storage. In most cases one distinct band of mRNA from an IVT reaction is obtained as long as a clean DNA template is used. Preparing a good, uniform IVT template is critical to prevent aberrant products. By using high quality templates, IVT mRNA produced in your own lab are often higher in quality than mRNAs purchased from current commercial sources (Figure in Blog shows mRNAs generated by IVT for R-iPSC). Sometimes there are minor bands created during IVT, but they normally do not interfere with the intended uses of the mRNA, and can be purified away with a purification kit (by using a discriminating purification scheme such as Allele Biotech’s Surface Bind RNA Purification, smaller species can be specifically removed, a separate topic for another blog).

Once produced, mRNAs can be stored at -20C for months, or -80C nearly indefinitely.

IVT mRNA for iPSC generation

mRNAs generated by IVT for R-iPSC

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Record number of papers citing the GFP-Trap group products in 2011

The following are references in regards to GFP Trap published in the second half of 2011 (not a complete list); a high quality GFP-binding protein based on a single domain antibody derived from Camelids. It is characterized by a small barrel shaped structure (13 KDa, 2.5nm X 4.5 nm) and a very high stability (stable up to 70°C, functional within 2M NaCl or 0.5% SDS). With much greater stability, specificity, and affnity, GFP-Trap®, the recent addition to antibodies for immunoprecipitation, should make GFP the most suitable tag for immunoprecipitation assays.

For live PubMed links, view this version please.

Krastev, D. B., Slabicki, M., et al. (2011). A systematic RNAi synthetic interaction screen reveals a link between p53 and snoRNP assembly. Nature Cell Biology. 13: 809-818. PubMed

Aboobakar, E. F., Wang, X., et al. (2011). The C2 domain protein Cts1 functions in the calcineurin signaling circuit during high temperature stress responses in Cryptococcus neoformans. Eukaryotic Cell. EC. 05148-05111v05141. PubMed

Uhrig, R. G. and Moorhead, G. B. G. (2011). Two ancient bacterial-like PPP family phosphatases from Arabidopsis thaliana are highly conserved plant proteins that possess unique properties. Plant Physiology. PubMed

Larance, M., Kirkwood, K. J., et al. (2011). Characterization of MRFAP1 Turnover and Interactions Downstream of the NEDD8 Pathway. Molecular & Cellular Proteomics. PubMed

Hattersley, N., Shen, L., et al. (2011). The SUMO protease SENP6 is a direct regulator of PML nuclear bodies. Molecular Biology of the Cell. 22: 78-90. PubMed

Rancz, E. A., Franks, K. M., et al. (2011). Transfection via whole-cell recording in vivo: bridging single-cell physiology, genetics and connectomics. Nature Neuroscience. 14: 527-532. PubMed

Palmer, C. S., Osellame, L. D., et al. (2011). MiD49 and MiD51, new components of the mitochondrial fission machinery. EMBO reports. 12: 565-573. PubMed

Pichler, G., Wolf, P., et al. (2011). Cooperative DNA and histone binding by Uhrf2 links the two major repressive epigenetic pathways. Journal of Cellular Biochemistry. 112: 2585-2593. PubMed

Mitchell, L., Lau, A., et al. (2011). Regulation of Septin Dynamics by the Saccharomyces cerevisiae Lysine Acetyltransferase NuA4. PLoS One. 6: e25336. PubMed

Engeland, C. E., Oberwinkler, H., et al. (2011). The cellular protein Lyric interacts with HIV-1 Gag. Journal of virology. JVI. 00174-00111v00171. PubMed

Wang, C. and Youle, R. (2011). Predominant requirement of Bax for apoptosis in HCT116 cells is determined by Mcl-1’s inhibitory effect on Bak. Oncogene. PubMed

Tulloch, L. B., Howie, J., et al. (2011). The inhibitory effect of phospholemman on the sodium pump requires its palmitoylation. Journal of Biological Chemistry. 286: 36020-36031. PubMed

Sun, L. and Wang, C. C. (2011). The Structural Basis of Localizing Polo-Like Kinase to the Flagellum Attachment Zone in Trypanosoma brucei. PLoS One. 6: e27303. PubMed

Bouttier, M., Saumet, A., et al. (2011). Retroviral GAG proteins recruit AGO2 on viral RNAs without affecting RNA accumulation and translation. Nucleic acids research. PubMed

Matos, J., Blanco, M. G., et al. (2011). Regulatory Control of the Resolution of DNA Recombination Intermediates during Meiosis and Mitosis. Cell. 147: 158-172. PubMed

Nagel, C. H., Albrecht, N., et al. (2011). Herpes Simplex Virus Immediate-Early Protein ICP0 Is Targeted by SIAH-1 for Proteasomal Degradation. Journal of virology. 85: 7644. PubMed

Studencka, M., Konzer, A., et al. (2011). Novel roles of C. elegans heterochromatin protein HP1 and linker histone in the regulation of innate immune gene expression. Molecular and Cellular Biology.PubMed

Muehlen, S., Ruchaud-Sparagano, M. H., et al. (2011). Proteasome-independent Degradation of Canonical NFŒ?B Complex Components by the NleC Protein of Pathogenic Escherichia coli. Journal of Biological Chemistry. 286: 5100. PubMed

Galan, J. A., Paris, L. L., et al. (2011). Proteomic Studies of Syk-Interacting Proteins Using a Novel Amine-Specific Isotope Tag and GFP Nanotrap. Journal of the American Society for Mass Spectrometry. 1-10. PubMed

Chamousset, D., De Wever, V., et al. (2010). RRP1B Targets PP1 to Mammalian Cell Nucleoli and is Associated with Pre-60S Ribosomal Subunits. Mol Biol Cell. PubMed

Kovacs, E. M., Verma, S., et al. (2011). N-WASP regulates the epithelial junctional actin cytoskeleton through a non-canonical post-nucleation pathway. Nature Cell Biology. 13: 934-943. PubMed

Boysen, K. E. and Matuschewski, K. (2011). Arrested oocyst maturation in Plasmodium parasites lacking type II NADH: ubiquinone dehydrogenase. Journal of Biological Chemistry. 286: 32661-32671. PubMed

Mortusewicz, O., Fouquerel, E., et al. (2011). PARG is recruited to DNA damage sites through poly (ADP-ribose)-and PCNA-dependent mechanisms. Nucleic acids research. 39: 5045. PubMed

Graewe, S., Rankin, K. E., et al. (2011). Hostile takeover by Plasmodium: reorganization of parasite and host cell membranes during liver stage egress. PLoS Pathogens. 7: e1002224. PubMed

Yang, X. D., Huang, S., et al. (2011). Distinct and mutually inhibitory binding by two divergent Œ?-catenins coordinates TCF levels and activity in C. elegans. Development. 138: 4255-4265. PubMed

Pollithy, A., Romer, T., et al. (2011). Magnetosome expression of functional camelid antibody fragments (nanobodies) in Magnetospirillum gryphiswaldense. Applied and environmental microbiology. 77: 6165-6171. PubMed

Kozubowski, L., Thompson, J. W., et al. (2011). Association of Calcineurin with the COPI Protein Sec28 and the COPII Protein Sec13 Revealed by Quantitative Proteomics. PLoS One. 6: e25280. PubMed

Garcia-Gomez, J. J., Lebaron, S., et al. (2011). Dynamics of the putative RNA helicase Spb4 during ribosome assembly in Saccharomyces cerevisiae. Molecular and Cellular Biology. 31: 4156-4164. PubMed

Van Damme, D., Gadeyne, A., et al. (2011). Adaptin-like protein TPLATE and clathrin recruitment during plant somatic cytokinesis occurs via two distinct pathways. Proceedings of the National Academy of Sciences. 108: 615. PubMed

Qvist, P., Huertas, P., et al. (2011). CtIP Mutations Cause Seckel and Jawad Syndromes. PLoS Genetics. 7: e1002310. PubMed

Labella, S., Woglar, A., et al. (2011). Polo Kinases Establish Links between Meiotic Chromosomes and Cytoskeletal Forces Essential for Homolog Pairing. Developmental Cell. PubMed

Harterink, M., Port, F., et al. (2011). A SNX3-dependent retromer pathway mediates retrograde transport of the Wnt sorting receptor Wntless and is required for Wnt secretion. Nature Cell Biology. 13: 914-923. PubMed

Konopacki, F. A., Jaafari, N., et al. (2011). Agonist-induced PKC phosphorylation regulates GluK2 SUMOylation and kainate receptor endocytosis. Proceedings of the National Academy of Sciences.PubMed

Chuhma, N., Tanaka, K. F., et al. (2011). Functional connectome of the striatal medium spiny neuron. The Journal of Neuroscience. 31: 1183-1192. PubMed

Jackson, B. R., Boyne, J. R., et al. (2011). An Interaction between KSHV ORF57 and UIF Provides mRNA-Adaptor Redundancy in Herpesvirus Intronless mRNA Export. PLoS Pathogens. 7: e1002138. PubMed

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