The G-less cassette transcription assay is a method used in molecular biology to determine promoter strength in vitro. The technique involves quantification of an mRNA product with the use of a plasmid.[1] The G-less cassette is part of a pre-constructed vector, usually containing a multiple cloning site (MCS) upstream of the cassette. For this reason, promoters of interest can be inserted directly into the MCS to ultimately measure the accuracy and efficiency of a promoter in recruiting transcription machinery.
Method
editThe G-less cassette is a reporter gene that encodes a transcript lacking guanine nucleotides in the sense strand of the DNA (hence "G-less").[2] A plasmid containing such a gene is located downstream of a MCS. After the promoter is inserted into the MCS, transcription proceeds with the addition of radiolabeled UTP, CTP, and ATP (as well as non-radiolabeled/cold nucleotides) and continues until the end of the G-less cassette is reached and guanine residues are once again apparent in the sense strand of the DNA. The absence of GTP in vitro results in transcription being prematurely terminated at the first guanine residue in the sense strand following the cassette. Gel electrophoresis is performed on the transcription products and the amount of radioactivity is quantified by autoradiography or phosphorimaging to determine the strength of the promoter of interest.
Application
editThe G-less cassette technique is used to determine promoter strength beyond basal levels of transcription (i.e. in the presence of transcription activators or transcription factors[3]). For example, to measure the effects of a TATA box consensus sequence modification in Saccharomyces cerevisiae in the presence of TFIID, G-less cassettes were implemented to measure the relative strength of each promoter.[4]
Advantages
editThe G-less assay can be performed on a circular plasmid to measure levels of transcription. A circular plasmid provides a more efficient template in many systems when compared to other assays such as runoff transcription, in which a cleaved end is required. This method generates radiolabeled transcripts very efficiently because it bypasses the unnecessary process of performing other indirect mRNA product measurements. The promoter is inserted into a circular plasmid containing the G-less cassette, which will generate a transcript of a certain length that omits random and nonspecific transcription throughout the plasmid. Most crude systems, such as HeLa nuclear extracts, are used because they contain low amounts of contaminating GTP that lead to background transcription and may occasionally cause random transcription to read through the G-less cassette.[5]
References
edit- ^ Park, JH; Magan, N (2014-11-12). "Reverse Transcriptase-Coupled Quantitative Real Time PCR Analysis of Cell-Free Transcription on the Chromatin-Assembled p21 Promoter". PLOS ONE. 6 (8): e23617. doi:10.1371/journal.pone.0023617. PMC 3160311. PMID 21886803.
- ^ Aria Baniahmad (2002). Thyroid Hormone Receptors: Methods and Protocols. Springer Science & Business Media. p. 211. ISBN 978-1-59259-174-9.
- ^ Kazerouninia, A; Ngo, B; Martinson, HG (2014-11-12). "Poly(A) signal-dependent degradation of unprocessed nascent transcripts accompanies poly(A) signal-dependent transcriptional pausing in vitro". RNA. 16 (1): 197–210. doi:10.1261/rna.1622010. PMC 2802029. PMID 19926725.
- ^ Bjornsdottir, G; Myers, LC (2014-11-12). "Minimal components of the RNA polymerase II transcription apparatus determine the consensus TATA box". Nucleic Acids Res. 36 (9): 2906–16. doi:10.1093/nar/gkn130. PMC 2396422. PMID 18385157.
- ^ Carey, MF; Peterson, CL; Smale, ST (2014-11-12). "G-less cassette in vitro transcription using HeLa cell nuclear extracts". Cold Spring Harbor Protocols. 2010 (3): pdb.prot5387. doi:10.1101/pdb.prot5387. PMID 20194456.