Abstract
The brown seaweed Ectocarpus siliculosus is an emerging model species distributed worldwide in temperate coastal ecosystems. Over 1500 strains of E. siliculosus are available in culture from a broad range of geographic locations and ecological niches. To elucidate the molecular mechanisms underlying its capacity to cope with different environmental and biotic stressors, genomic and transcriptomic studies are necessary; this requires the co-isolation of genomic DNA and total RNA. In brown algae, extraction of nucleic acids is hindered by high concentrations of secondary metabolites that co-precipitate with nucleic acids. Here, we propose a reliable, rapid and cost-effective procedure for the co-isolation of high-quality nucleic acids using small quantities of biomass (25-, 50- and 100 mg) from strains of E. siliculosus (RHO12; LIA4A; EC524 and REP10–11) isolated from sites with different environmental conditions. The procedure employs a high pH extraction buffer (pH 9.5) which contains 100 mM Tris-HCl and 150 mM NaCl, with the addition of 5 mM DTT and 1% sarkosyl to ensure maximum solubility of nucleic acids, effective inhibition of nuclease activity and removal of interfering contaminants (e.g. polysaccharides, polyphenols). The use of sodium acetate together with isopropanol shortened precipitation time and enhanced the yields of DNA/RNA. A phenol:chlorophorm:isoamyl alcohol step was subsequently used to purify the nucleic acids. The present protocol produces high yields of nucleic acids from only 25 mg of fresh algal biomass (0.195 and 0.284 µg mg−1 fresh weigh of RNA and DNA, respectively) and the high quality of the extracted nucleic acids was confirmed through spectrophotometric and electrophoretic analyses. The isolated RNA can be used directly in downstream applications such as RT-PCR and the genomic DNA was suitable for PCR, producing reliable restriction enzyme digestion patterns. Co-isolation of DNA/RNA from different strains indicates that this method is likely to have wider applications for intra- and inter-specific studies on other brown algae.
Highlights
Brown algae are an ecologically and economically important group of marine photoautotrophs [1,2,3,4] that first appeared 200 million years ago and evolved multicellularity independently of green and red algae and higher plants [5,6]
Intraspecific variations in copper tolerance [13,14], as well as in the response to changes in salinity [15,16], have been observed among strains of E. siliculosus isolated from different geographic locations; this variation is probably connected to a differential production of defence compounds or metabolites related to metal exclusion and metal chelation mechanisms, or in the accumulation of osmotically active compounds [14,17,18,19]
To the best of our knowledge, the protocol outlined here is the first to allow the co-isolation of highly pure genomic DNA and intact RNA from different strains of Ectocarpus siliculosus using small quantities of biomass
Summary
Brown algae are an ecologically and economically important group of marine photoautotrophs [1,2,3,4] that first appeared 200 million years ago and evolved multicellularity independently of green and red algae and higher plants [5,6]. Intraspecific variations in copper tolerance [13,14], as well as in the response to changes in salinity [15,16], have been observed among strains of E. siliculosus isolated from different geographic locations; this variation is probably connected to a differential production of defence compounds or metabolites related to metal exclusion and metal chelation mechanisms, or in the accumulation of osmotically active compounds [14,17,18,19] This suggest the occurrence of genetic variability or plasticity, among the different strains of E. siliculosus and underlines that they provide a valuable resource for investigation of the molecular mechanisms underlying the dynamic responses of brown algae to abiotic and biotic stressors
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