AI Article Synopsis
- Penicillium citrinum, found in dark tea like Liupao, can produce a harmful kidney toxin called citrinin (CIT), making its detection challenging due to complex tea composition and diverse fungi.
- A new real-time PCR (qPCR) method was developed to detect specific genes related to CIT production and assess the toxin levels at various production stages of Liupao tea.
- The study found CIT present during the pile-fermentation process and in some aged samples, and the qPCR method showed high sensitivity in predicting CIT production and identifying potential toxin-producing fungi.
Article Abstract
Penicillium is universal in dark tea, and Penicillium citrinum can produce a kidney toxin called citrinin (CIT). Determining CIT is difficult because of the complexity of the dark tea substrate and the diversity of CIT-producing fungi. Therefore, this study established a real-time PCR (qPCR) detection method for CIT-related synthetic genes (ctnD, orf1, ctnA, pksCT, orf5, orf7, and ctnG) in Liupao tea and determined the content of CIT in samples at different production stages and the toxin-producing abilities of fungi (Aspergillus oryzae, etc.) in Liupao tea. CIT was found in all samples during the pile-fermentation process of Liupao tea, and CIT was detected in two samples during the aging process. The established method demonstrated good sensitivity and specificity in detecting CIT-related synthetic genes. The reaction efficiency was within the preferred range of 100 ± 10%. CIT was not detected or was below the detection limit when the Ct value of one or more related synthetic genes was greater than 33.5. Therefore, the established qPCR method can effectively predict the production of CIT in Liupao tea, and it is applicable to the judgment of whether fungi produce CIT.
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| http://dx.doi.org/10.1016/j.ab.2022.114771 | DOI Listing |
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- * Researchers analyzed six samples of Liupao tea using metabolomics and sensory evaluation, identifying 477 non-volatile compounds, including 18 potential bitter and 22 potential astringent compounds.
- * Key compounds linked to bitterness (like caffeine and catechin gallate) and astringency (like gallic acid) varied significantly during fermentation, affecting the tea's flavor profile and offering insights for quality enhancement.
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