Journal
APPLIED MICROBIOLOGY AND BIOTECHNOLOGY
Volume 105, Issue 12, Pages 5189-5200Publisher
SPRINGER
DOI: 10.1007/s00253-021-11396-7
Keywords
Phaeodactylum tricornutum; Chlorella; Microalgae; Contamination detection; Methods
Categories
Funding
- Technology Agency of the Czech Republic programme National Centres of Competence: Support programme for applied research, experimental development and innovation [TN01000048]
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Detection of fast-growing green algae Chlorella vulgaris as a contaminant in diatom Phaeodactylum tricornutum cultures using various approaches reveals PCR/qPCR as the most reliable and sensitive method with a detection sensitivity close to 75 cells/mL. This method is effective even in mixed cultures containing a large number of P. tricornutum cells. The cultivation media exchange method from sea water to fresh water is similarly sensitive to PCR approaches for detecting contaminants, albeit with a longer detection time.
Microalgal contamination in algal culture is a serious problem hampering the cultivation process, which can result in considerable economic and time losses. With the field of microalgal biotechnology on the rise, development of new tools for monitoring the cultures is of high importance. Here we present a case study of the detection of fast-growing green algae Chlorella vulgaris (as contaminant) in a diatom Phaeodactylum tricornutum culture using various approaches. We prepared mixed cultures of C. vulgaris and P. tricornutum in different cell-to-cell ratios in the range from 1:10(3) to 1:10(7). We compared the sensitivity among microscopy, cultivation-based technique, PCR, and qPCR. The detection of C. vulgaris contamination using light microscopy failed in samples containing cell ratios <1:10(5). Our results confirmed PCR/qPCR to provide the most reliable and sensitive results, with detection sensitivity close to 75 cells/mL. The method was similarly sensitive in a pure C. vulgaris culture as well as in a mixed culture containing 10(7)-times more P. tricornutum cells. A next-generation sequencing analysis revealed a positive discrimination of C. vulgaris during DNA extraction. The method of cultivation media exchange from sea water to fresh water, preferred by the Chlorella contaminant, demonstrated a presence of the contaminant with a sensitivity comparable to PCR approaches, albeit with a much longer detection time. The results suggest that a qPCR/PCR-based approach is the best choice for an early warning in the commercial culturing of microalgae. This method can be conveniently complemented with the substitution-cultivation method to test the proliferating potential of the contaminant.
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