Quantitative Real Time PCR (qRT-PCR) for measuring gene expressio

Quantitative Real Time PCR (qRT-PCR) for measuring gene expression

is based on detecting and quantifying RNA from a particular gene (Heid et al., 1996). The main differences between the techniques are: (i) the number of transcripts analyzed in one step (experiment): more in a DNA microarray; and Ibrutinib cost (ii) the intensity of the signal: higher for qRT-PCR than for the microarray. RNAseq utilizes recent advances in sequencing technologies, that allow large quantities of high-throughput sequencing data to be produced for relatively low levels of capital. RNA sequencing essentially allows gene transcription to be quantified by sequencing and counting the number of individual transcripts that are present for each gene. Unlike miocroarrays, RNAseq is open-ended (without constraints on the number of targets), requires little prior knowledge of the target organisms genome and can be directly scaled according the level of sequencing required. It is thus ideally suited to developing techniques in non-model

species, or in systems where choice of sentinel species is limited, as is common in the marine environment. Applications of transcriptomic experiments in aquatic toxicology click here have already been described mainly in freshwater ecosystems (Falciani et al., 2008 and Garcia-Reyero et al., 2008). There are fewer studies in marine organisms (Carvalho et al., 2011a, Carvalho et al., 2011b and Shrestha et al., 2012). Transcriptomics offer: (i) discovery of molecular biomarkers of exposure as early signals to predict the effects first at a physiological level, ID-8 and later at a population level; (ii) provide the mode of action (MOA) of

the chemicals or a stressor, i.e. the mechanism of toxicity or the mechanism of adaptation or response to the environmental changes. The MOA could reduce the uncertainty in chemical risk assessment by providing, for example, a basis for the extrapolation of the effects across species; (iii) the possibility of integrating MOA data with a deleterious outcome and in this way understand the impact on the ecosystem more than only on a single organism or species; and (iv) discovery of gene expression pattern for complex mixtures or complex stressors. Costs have dropped in the last year, although the DNA microarray technique requires a dedicated instrument for scanning which is still costly. However, core facilities are available from several academic institutes and the service price has decreased roughly 20–25% in the last five years. In terms of time, the analysis requires one night and half a day. qRT-PCR runs in only 1 h, with an additional 30′–60′ if RNA has to be extracted prior to running. Transcriptomics can provide information on the effects of complex mixtures on organisms, effects which cannot be accounted for through classical chemical analytical methods.

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