Quantification of the ichthyotoxic raphidophyte Chattonella marina complex by applying a droplet digital PCR

Quantifying the abundance of Chattonella species is necessary to effectively manage the threats from ichthyotoxic raphidophytes, which can cause large-scale mortality of aquacultured fish in temperate waters. The identification and cell counting of Chattonella species have been conducted primarily o...

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Veröffentlicht in:	Algae (Korean Phycological Society) 2022-12, Vol.37 (4), p.281-291
Hauptverfasser:	Min, Juhee, Kim, Kwang Young
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Sprache:	eng
Schlagworte:	Abundance Accuracy Algae Algal blooms Cell culture Cell cycle Cells Cellulose acetate Chattonella Chattonella marina Copy number Cytochrome DNA Droplets Efficiency Environmental DNA Eutrophication Fish Fixatives Genetic testing Light microscopy Microbiological strains Microscopy Morphology Nucleotide sequence Optical microscopy PCR Phylogenetics Plankton Polyculture (aquaculture) Polymerase chain reaction Primers Protists Ribosomal DNA
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creator	Min, Juhee Kim, Kwang Young
description	Quantifying the abundance of Chattonella species is necessary to effectively manage the threats from ichthyotoxic raphidophytes, which can cause large-scale mortality of aquacultured fish in temperate waters. The identification and cell counting of Chattonella species have been conducted primarily on living cells without fixation by light microscopy because routine fixatives do not retain their morphological features. Species belonging to the Chattonella marina complex, including C. marina and C. marina var. ovata, had high genetic similarities and the lack of clear morphological delimitations between the species. To estimate the abundance of C. marina complex in marine plankton samples, we developed a protocol based on the droplet digital polymerase chain reaction (ddPCR) assay, with C. marina complex-specific primers targeting the internal transcribed spacer (ITS) region of the rDNA. Cell abundance of the C. marina complex can be determined using the ITS copy number per cell, ranging from 25 ± 1 for C. marina to 112 ± 7 for C. marina var. ovata. There were no significant differences in ITS copies estimated by the ddPCR assay between environmental DNA samples from various localities spiked with the same number of cells of culture strains. This approach can be employed to improve the monitoring efficiency of various marine protists and to support the implementation of management for harmful algal blooms, which are difficult to analyze using microscopy alone.
doi_str_mv	10.4490/algae.2022.37.11.30
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The identification and cell counting of Chattonella species have been conducted primarily on living cells without fixation by light microscopy because routine fixatives do not retain their morphological features. Species belonging to the Chattonella marina complex, including C. marina and C. marina var. ovata, had high genetic similarities and the lack of clear morphological delimitations between the species. To estimate the abundance of C. marina complex in marine plankton samples, we developed a protocol based on the droplet digital polymerase chain reaction (ddPCR) assay, with C. marina complex-specific primers targeting the internal transcribed spacer (ITS) region of the rDNA. Cell abundance of the C. marina complex can be determined using the ITS copy number per cell, ranging from 25 ± 1 for C. marina to 112 ± 7 for C. marina var. ovata. There were no significant differences in ITS copies estimated by the ddPCR assay between environmental DNA samples from various localities spiked with the same number of cells of culture strains. 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The identification and cell counting of Chattonella species have been conducted primarily on living cells without fixation by light microscopy because routine fixatives do not retain their morphological features. Species belonging to the Chattonella marina complex, including C. marina and C. marina var. ovata, had high genetic similarities and the lack of clear morphological delimitations between the species. To estimate the abundance of C. marina complex in marine plankton samples, we developed a protocol based on the droplet digital polymerase chain reaction (ddPCR) assay, with C. marina complex-specific primers targeting the internal transcribed spacer (ITS) region of the rDNA. Cell abundance of the C. marina complex can be determined using the ITS copy number per cell, ranging from 25 ± 1 for C. marina to 112 ± 7 for C. marina var. ovata. There were no significant differences in ITS copies estimated by the ddPCR assay between environmental DNA samples from various localities spiked with the same number of cells of culture strains. This approach can be employed to improve the monitoring efficiency of various marine protists and to support the implementation of management for harmful algal blooms, which are difficult to analyze using microscopy alone.</abstract><cop>Seoul</cop><pub>Korean Society of Phycology (Han'gug Joryu Haghoe)</pub><doi>10.4490/algae.2022.37.11.30</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Abundance Accuracy Algae Algal blooms Cell culture Cell cycle Cells Cellulose acetate Chattonella Chattonella marina Copy number Cytochrome DNA Droplets Efficiency Environmental DNA Eutrophication Fish Fixatives Genetic testing Light microscopy Microbiological strains Microscopy Morphology Nucleotide sequence Optical microscopy PCR Phylogenetics Plankton Polyculture (aquaculture) Polymerase chain reaction Primers Protists Ribosomal DNA
title	Quantification of the ichthyotoxic raphidophyte Chattonella marina complex by applying a droplet digital PCR
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