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References
Ahmed W, Gyawali P, Sidhu JP, Toze S (2014). Relative inactivation of faecal indicator bacteria and sewage markers in freshwater and seawater microcosms. Letters in Applied Microbiology 59(3):348-354. |
|
Andorrà I, Esteve-Zarzoso B, Guillamón JM, Mas A (2010). Determination of viable wine yeast using DNA binding dyes and quantitative PCR. International Journal of Food Microbiology 144(2):257-262. |
|
Brysch-Herzberg M, Wohlmann E, Fischer R (2020). Zygosaccharomyces seidelii sp. nov. a new yeast species from the Maldives, and a revisit of the single-strain species debate. Antonie Van Leeuwenhoek 113:427-436. |
|
?adež N, Fülöp L, Dlauchy D, Péter G (2015). Zygosaccharomyces favi sp. nov., an obligate osmophilic yeast species from bee bread and honey. Antonie. Van Leeuwenhoek 107(3):645-654. |
|
Cangelosi GA, Meschke JS (2014). Dead or alive: molecular assessment of microbial viability. Applied and Environmental Microbiology 80(19):5884-5891. |
|
Casey GD, Dobson ADW (2004). Potential of using real-time PCR-based detection of spoilage yeast in fruit juice--a preliminary study. International Journal of Food Microbiology 91(3):327-335. |
|
Duarte FL, Pais C, Spencer-Martins I, Leão C (2004). Isoenzyme patterns: avaluable molecular tool for the differentiation of Zygosaccharomyces species and detection of misidentified isolates. Systematic and Applied Microbiology 27(4):422-436. |
|
Fleet GH (2011). Chapter 5-Yeast Spoilage of Foods and Beverages. The Yeasts (Fifth Edition). Elsevier pp. 53-63. |
|
Frisón LN, Chiericatti CA, Aríngoli EE, Basílico JC, Basílico MZ (2015). Effect of different sanitizers against Zygosaccharomyces rouxii. Journal of Food Science and Technology 52(7):4619-4624. |
|
Fugelsang KC, Edwards CG (2007). Wine Microbiology: Practical Applications and Procedures (Second Edition). New York: Springer Science 393 p. |
|
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China (2017). SN/T 4675.30-2017 Determination of Zygosaccharomyces bailli from wine for export?SYBR Green I PCR method. Standards Press of China. |
|
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China (2017). SN/T 4780-2017 Detection of spoilage yeasts in food for export-Real-time PCR method. Standards Press of China. |
|
Hara-Kudo Y, Yoshino M, Kojima T, Ikedo M (2010). Loop-mediated isothermal amplification for the rapid detection of Salmonella. FEMS Microbiology Letters 253(1):155-161. |
|
Harrison E, Muir A, Stratford M, Wheals A (2011). Species-specific PCR primers for the rapid identification of yeasts of the genus Zygosaccharomyces. FEMS Yeast Research 11(4):356-365. |
|
Hulin M, Wheals A (2014). Rapid identification of Zygosaccharomyces with genus-specific primers. International Journal of Food Microbiology 173:9-13. |
|
James SA, Stratford M (2011). Zygosaccharomyces barker. Kurtzman CP, Fell JW, Boekhout T. The Yeasts, 5th ed. a Taxonomic Study. Elsevier Science. Amsterdam 2:937-948. |
|
Jaramillo MC, Huttener M, Alvarez JM, Homs-Corbera A, Samitier J, Torrents E, Juárez A (2015). Dielectrophoresis chips improve PCR detection of the food?spoiling yeast Zygosaccharomyces rouxii in apple juice. Electrophoresis 36(13):1471-1478. |
|
Joon D, Nimesh M, Gupta S, Kumar C, Varma-Basil M, Saluja D (2019). Development and evaluation of rapid and specific sdaA LAMP-LFD assay with Xpert MTB/RIF assay for diagnosis of tuberculosis. Journal of Microbiological Methods 4(159):161-166. |
|
Karaman K, Sagdic O (2019). Zygosaccharomyces bailii and Z. rouxii induced ethanol formation in apple juice supplemented with different natural preservatives: A response surface methodology approach. Journal of Microbiological Methods 163:105659. |
|
Li L, Zhang SY, Zhang CQ (2019). Establishment of a Rapid Detection Method for Rice Blast Fungus Based on One-Step Loop-Mediated Isothermal Amplification (LAMP). Plant Disease 103(8):1967-1973. |
|
National Food Safety Standard of the People's Republic of China (2016). GB 4789.15-2016 Food Microbiological Examination: Enumeration of Yeasts and Molds. Ministry of Health of P. R. China. |
|
Punati RD, Mallepaddi PC, Poonati R, Maity SN, Sohal JS, Polavarapu KKB, Polavarapu R (2019). Development and evaluation of LAMP-coupled lateral flow device for the detection of MAP in livestock at point of care resource-limited areas. Brazilian Journal of Microbiology 50(4):1105-1114. |
|
Rawsthorne H, Phister TG (2006). A real-time PCR assay for the enumeration and detection of Zygosaccharomyces bailii from wine and fruit juices. International Journal of Food Microbiology 112(1):1-7 |
|
Rostamkhani N, Haghnazari A, Tohidfar M, Moradi A (2011). Rapid identification of transgenic cotton (Gossypium hirsutum L.) plants by loop-mediated isothermal amplification. Czech Journal of Genetics and Plant Breeding 47(4):140-148. |
|
Saharan P, Duhan JS, Gahlawat SK (2015). Detection of Pseudomonas fluorescens from broth, water and infected tissues by loop-mediated isothermal amplification (LAMP) method. African Journal of Biotechnology 14(14):1181-1185. |
|
Shi Y, Feng Y, Xu CP, Cheng DQ (2017). Loop-Mediated Isothermal Amplification Assays for the Rapid Identification of Duck-Derived Ingredients in Adulterated Meat. Food Analytical Methods 10:2325-2331. |
|
Syromyatnikov MY, Savinkova OV, Kiryanova SV, Frolov EN, Popov VN (2018). Taqman RT-PCR Analysis for the Identification of the Osmotolerant Yeast Zygosaccharomyces rouxii. Applied Biochemistry and Microbiology 54:682-688. |
|
Tournas V, Heeres J, Burgess L (2006). Moulds and Yeasts in fruit salads and fruit juices. Food Microbiology 23(7):684-688. |
|
Tumino S, Tolone M, Parco A, Puleio R, Arcoleo G, Manno C, Nicholas RAJ, Loria G.R (2020). Validation of Loop-Mediated Isothermal Amplification (LAMP) Field Tool for Rapid and Sensitive Diagnosis of Contagious Agalactia in Small Ruminants. Animals (Basel). 10(3):509. |
|
Wang H, Hu Z, Long F, Niu C, Yuan Y, Yue T (2015). Characterization of osmotolerant yeasts and yeast-like molds from apple orchards and apple juice processing plants in china and investigation of their spoilage potential. Journal of Food Science 80(8):M1850-860. |
|
Wang HX, Hu ZQ, Long FY, Guo CF, Yuan YH, Yue TL (2016). Early detection of Zygosaccharomyces rouxii-spawned spoilage in apple juice by electronic nose combined with chemometrics, International Journal of Food Microbiology 217:68-78. |
|
Wang HX, Sun HM (2019). Potential use of electronic tongue coupled with chemometrics analysis for early detection of the spoilage of Zygosaccharomyces rouxii in apple juice. Food Chemistry 290:152-158. |
|
Wang XJ, Min CL, Han PL, Qian RZ (2017). Selection, Identification of a Spoilage Microorganism from Bottle Bulged Qiangli Pipa Syrup and Preliminary Study on its control. Natural Product Research 29(4):635-640. |
|
Wu X, Song ZX, Zhai XW, Zuo L, Mei XR, Xiang R, Kang ZZ, Zhou L, Wang HN (2019). Simultaneous and visual detection of infectious bronchitis virus and Newcastle disease virus by multiple LAMP and lateral flow dipstick. Poultry Science 98(11):5401-5411. |
|
Yuan D, Kong J, Li X, Fang X, Chen Q (2018). Colorimetric LAMP microfluidic chip for detecting three allergens: peanut, sesame and soybean. Scientific Reports 8(1):1-8. |
|
Zhang J, Cao J, Zhu M (2019). Loop-mediated isothermal amplification-lateral-flow dipstick (LAMP-LFD) to detect Mycoplasma ovipneumoniae. World Journal of Microbiology and Biotechnology 35(2):31. |
|
Zhuo XH, Kong QM, Tong QB, Ding HJ, Zhang LS, Lou D, Ding JZ, Zheng B, Chen R, Wang TP, Lu SH (2019). DNA detection of Paragonimus westermani: Diagnostic validity of a new assay based on loop-mediated isothermal amplification (LAMP) combined with a lateral flow dipstick. Acta Tropica 200:105185. |
|
Zuehlke JM, Petrova B, Edwards CG (2013). Advances in the Control of Wine Spoilage by Zygosaccharomyces and Dekkera/Brettanomyces, Annual Review of Food Science and Technology 4:57-78. |
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