Abstract
Accurate and defendable taxonomic identification of microalgae strains is vital for culture collections, industry and academia; particularly when addressing issues of intellectual property. We demonstrate the remarkable effectiveness of Matrix Assisted Laser Desorption Ionisation Time of Flight Mass Spectrometry (MALDI-TOF-MS) biotyping to deliver rapid and accurate strain separation, even in situations where standard molecular tools prove ineffective. Highly distinctive MALDI spectra were obtained for thirty two biotechnologically interesting Dunaliella strains plus strains of Arthrospira, Chlorella, Isochrysis, Tetraselmis and a range of culturable co-occurring bacteria. Spectra were directly compared with genomic DNA sequences (internal transcribed spacer, ITS). Within individual Dunaliella isolates MALDI discriminated between strains with identical ITS sequences, thereby emphasising and enhancing knowledge of the diversity within microalgae culture collections. Further, MALDI spectra did not vary with culture age or growth stage during the course of the experiment; therefore MALDI presents stable and accurate strain-specific signature spectra. Bacterial contamination did not affect MALDI’s discriminating power. Biotyping by MALDI-TOF-MS will prove effective in situations wherein precise strain identification is vital, for example in cases involving intellectual property disputes and in monitoring and safeguarding biosecurity. MALDI should be accepted as a biotyping tool to complement and enhance standard molecular taxonomy for microalgae.
Highlights
Accurate and defendable taxonomic identification of microalgae strains is vital for culture collections, industry and academia; when addressing issues of intellectual property
The use of internal transcribed spacer (ITS) sequences to resolve microalgae taxonomy to species level is widely accepted the tufA plastid gene sequence would appear to provide greater resolving power for the green algae[18]
It has been proposed that even a single Compensatory Base Change (CBC) in helices 2 and 3 of the ITS2 indicates sexual incompatibility and separate biological species[32]
Summary
Accurate and defendable taxonomic identification of microalgae strains is vital for culture collections, industry and academia; when addressing issues of intellectual property. Often focused on intellectual property rights, are core to the boom in blue biotechnology[10,11] with investment strategies often hinging on protection of novel or high performing strains, despite the fact that legal issues remain regarding the patenting of microbes in their wild-type versus genetically modified or even synthetic forms[12,13] Added to this are concerns relating to biosecurity and traceability of industrial or genetically transformed strains, if grown in open outdoor culture systems or in the event of an unwanted environmental discharge[14]. ITS2 is thought to be an excellent marker for molecular phylogenetic studies, especially at lower taxonomic levels[38]
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