First record of Hyphopichia burtonii isolated from the storage pest Sitophilus zeamais and its bioactivity against mycotoxigenic fungi

Arx, J.A. von; Walt, J.P. van der. 1976. The ascigerous state of Candida chodatii. Antonie van Leeuwenhoek. 42(3): 309-314. Search in Google Scholar

Balendres, M.A.O., Karlovsky, P. and Cumagun, C.J.R. 2019. Mycotoxigenic fungi and mycotoxins in agricultural crop commodities in the Philippines: A Review. Foods, 8(7): 249. Search in Google Scholar

Barnett J.A, Payne R.W. and Yarrow, D. 2000. Yeasts: characteristics and identification, 3^rd ed., p. 502. Cambridge University Press, Cambridge, UK. Search in Google Scholar

Björnberg, A. and Schnürer, J. 1993. Inhibition of the growth of the grain-storage molds in vitro by the yeast Pichia anomala (Hansen) Kurtzman. Canadian Journal of Microbiology, 39: 623–628. Search in Google Scholar

Chamroensakchai, T., Kanjanabuch, T., Saikong, W., Panya, W., Thaweekote, S., Eiam-Ong, S., Hurdeal, V.G. and Hyde, K.D., 2021. The first human report of Hyphopichia burtonii, initially misdiagnosed as sterile peritonitis in a patient on peritoneal dialysis. Medical Mycology Case Reports, 33: 26-29. Search in Google Scholar

Chen, H., Xiao, X., Wang, J., Wu, L., Zheng, Z. and Yu, Z. 2008. Antagonistic effects of volatiles generated by Bacillus subtilis on spore germination and hyphal growth of the plant pathogen, Botrytis cinerea. Biotechnology Letters, 30: 919–923. Search in Google Scholar

Doyle, J.J., Doyle, J.L. 1987. A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochemical Bulletin, 19: 11–15. Search in Google Scholar

Ferreira-Castro, F.L., Potenza, M.R., Rocha, L.O. and Correa, B. 2012. Interaction between toxigenic fungi and weevils in corn grain samples. Food Control, 26(2): 594-600. Search in Google Scholar

Folmer, O., Black, M., Hoeh, W., Lutz, R. and Vrijenhoek, R. 1994. DNA primers for amplification of mitochondrial cytochrome C oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology, 3(5): 294–299. Search in Google Scholar

Freimoser, F.M., Rueda-Mejia, M.P., Tilocca, B. and Migheli, Q. 2019. Biocontrol yeasts: mechanisms and applications. World Journal of Microbiology and Biotechnology, 35: 154. Search in Google Scholar

Gatheru, J.W. 2019. Analysis of Microbial Load and Diversity in Crickets (Gryllus Bimaculatus and Scapsipedus icipe) used as a source of protein for food (Doctoral dissertation, Kenyatta University). http://34.250.91.188:8080/xmlui/handle/123456789/985. Search in Google Scholar

Glass, N. and Donaldson, G. 1995. Development of primer sets designed for use with the PCR to amplify conserved genes from filamentous ascomycetes. Applied and Environmental Microbiology, 61: 1323-133. Search in Google Scholar

Guzmá n-de-Peñ a, D. and Ruiz-Herrera, J. 1997. Relationship between aflatoxin biosynthesis and sporulation in Aspergillus parasiticus. Fungal Gentics Biology, 21(2):198-205. Search in Google Scholar

Kabak, B. and Dobson, A.D.W. 2009. Biological strategies to counteract the effects of mycotoxins. Journal of Food Protection, 72: 2006–2016. Search in Google Scholar

Kurtzman, C.P. 2011. Hyphopichia von Arx & van der Walt (1976). In The Yeasts, pp. 435-438. Elsevier. Search in Google Scholar

Lee, A.C. and Fujio. Y. 1999. Microflora of banh men, a fermentation starter from Vietnam, World Journal of Microbiology and Biotechnology, 15: 57–62. Search in Google Scholar

Limtong, S., Kaewwichian, R., Jindamorakot, S., Yongmanitchai, W. and Nakase, T. 2012. Candida wang-namkhiaoensis sp. nov., an anamorphic yeast species in the Hyphopichia clade isolated in Thailand. Antonie van Leeuwenhoek, 102(1): 23-28. Search in Google Scholar

Liu, J., Sui, Y., Wisniewski, M., Droby, S. and Liu, Y. 2013. Review: utilization of antagonistic yeasts to manage postharvest fungal diseases of fruit. International Journal of Food Microbiology, 167: 153–160. Search in Google Scholar

Malassigné, S., Minard, G., Vallon, L., Martin, E., Valiente Moro, C. and Luis, P. 2021. Diversity and functions of yeast communities associated with insects. Microorganisms, 9(8): 1552. Search in Google Scholar

Masoud, W. and Kaltoft, H.C. 2006. The effects of yeasts involved in the fermentation of Coffea arabica in East Africa on growth and ochratoxin A (OTA) production by Aspergillus ochraceus. International Journal of Food Microbiology, 106(4): 229-234. Search in Google Scholar

Moreira, S. 2012. Fungos patogênicos a insetos-praga Monalonium annulipes do cacaueiro e Hypothenemus hampei do cafeeiro, no Território da Transamazônica e Xingu, PA, e seu potencial biotecnológico. https://tede.ufam.edu.br/handle/tede/4366. Search in Google Scholar

Moradi, M., Rohani, M., Fani, S. R., Mosavian, M.T.H., Probst, C. and Khodaygan, P. 2020. Biocontrol potential of native yeast strains against Aspergillus fl avus and aflatoxin production in pistachio. Food Additives and Contaminants: Part A, 37(11): 1963-1973. Search in Google Scholar

Paes, J.L., Faroni, L.R.D., Dhingra, O.D., Cecon, P.R. and Silva, T.A. 2012. Insecticidal fumigation action of mustard essential oil against Sitophilus zeamais in maize grains, Journal of Crop Protection, 56–58. Search in Google Scholar

Petersson, S., Hansen, M.W., Axberg, K., Hult, K. and Schnü rer, J. 1998. Ochratoxin A accumulation in cultures of Penicillium verrucosum with the antagonistic yeast Pichia anomala and Saccharomyces cerevisiae. Mycological Research, 102(8): 1003-1006. Search in Google Scholar

Petersson, S. and Schnü rer, J. 1998. Pichia anomala as a biocontrol agent of Penicillium roqueforti in high moisture wheat, rye, barley, and oats stored under airtight conditions.Canadian Journal of Microbiology, 44(5): 471-476. Search in Google Scholar

Pfliegler, W.P., Pusztahelyi, T. and Pócsi, I. 2015. Mycotoxins–prevention and decontamination by yeasts. Journal of Basic Microbiology, 55(7): 805-818. Search in Google Scholar

Philippine Statistics Authority, 2021. Date accessed: 14 March, 2022. Search in Google Scholar

Pinheiro, R.E.E., Rodrigues, A.M.D., Santos, J.T.D.O., Costa, J.D.A., Pereyra, C.M., Torres, A.M., Rosa, C.A., Santos, A.R.D.O. and Muratori, M.C.S. 2018. Occurrence and diversity of yeast species isolated from fish feed and tambatinga gut. Latin American Journal of Aquatic Research, 46(4): 837-842. Search in Google Scholar

Piotrowska, M. 2021. Microbiological decontamination of mycotoxins: Opportunities and limitations. Toxins, 13(11): 819. Search in Google Scholar

Pitt, J.I. and Hocking, A.D. 2009. Fungi and Food Spoilage, 519, p. 388. New York: Springer. Search in Google Scholar

Ren, Y.C., Liu, S.T., Li, Y., and Hui, F.L. 2015. Pichia dushanensis sp. nov. and Hyphopichia paragotoi sp. nov., two sexual yeast species associated with insects and rotten wood. International Journal of Systematic and Evolutionary Microbiology, 65(9): 2875-2881. Search in Google Scholar

Ramakrishna, N, Lacey, J. and Smith, J.E. 1996. Colonization of barley grain by Penicillium verrucosum and ochratoxin A formation in the presence of competing fungi. Journal of Food Protection, 59: 1311–1317. Search in Google Scholar

Ramakrishna, N., Lacey, J. and Smith, J.E. 1996b. The effects of fungal competition on colonization of barley grain by Fusarium sporotrichioides on T-2 toxin formation. Food Additives and Contaminants, 13: 939–948. Search in Google Scholar

Ramos, D.M.B., Silva, C.F., Batista, L.R. and Schwan, R.F. 2010. In vitro inhibition of toxigenic filamentous fungi by Pichia sp. and Debaryomyces sp. isolates from coffee (Coffea arabica) fruits. Acta Scientiarum. Agronomy, 32: 397-402. Search in Google Scholar

Ribeiro, L.R., Santos, A.R., Groenewald, M., Smith, M.T.H., Lara, C.A., Góes-Neto, A., Jacques, N., Grondin, C., Casaregola, S., Lachance, M.A. and Rosa, C.A. 2017. Description of Hyphopichia buzzinii fa, sp. nov. and Hyphopichia homilentoma comb. nov., the teleomorph of Candida homilentoma. Antonie van Leeuwenhoek, 110(7): 985-994. Search in Google Scholar

Simoncini, N., Rotelli, D., Virgili, R. and Quintavalla, S. 2007. Dynamics and characterization of yeasts during ripening of typical Italian dry-cured ham, Food Microbiology, 24: 577–584. Search in Google Scholar

Simpson, V.R., Borman, A.M., Fox, R.I. and Mathews, F. 2013. Cutaneous mycosis in a barbastelle bat (Barbastella barbastellus) caused by Hyphopichia burtonii. Journal of Veterinary Diagnostic Investigation, 25: 551–554. Search in Google Scholar

Sori, W. and Ayana, A. 2012. Storage pests of maize and their status in Jimma Zone, Ethiopia. African Journal of Agricultural Research, Nairobi, 7(28): 4056-4060. Search in Google Scholar

Souza, M.L.D., Passamani, F.R.F., Ávila, C.L.D.S., Batista, L.R., Schwan, R.F. and Silva, C.F. 2017. Use of wild yeasts as a biocontrol agent against toxigenic fungi and OTA production. Acta Scientiarum. Agronomy, 39: 349-358. Search in Google Scholar

Virgili, R., Simoncini, N., Toscani, T., Leggieri, M.C., Formenti, S, and Batillani, P. 2012. Biocontrol of Penicillium nordicum growth and ochratoxin a production by native yeasts of dry cured ham. Toxins (Basel), 4: 68–82. Search in Google Scholar

Vilgalys, R. 1988. Genetic relatedness among anastomosis groups in Rhizoctonia as measured by DNA/DNA hybridization. Phytopathology, 78: 698–702. Search in Google Scholar

Wilson, C.L. and Wisniewski, M.E. 1989. Biological control of post- harvest diseases of fruits and vegetables: an emerging technology. Annual Review of Phytopathology, 27(1): 425–441. doi:10.1146/annurev.py.27.090189.002233. Search in Google Scholar

Yun, T.S., Park, S.Y., Yu, J., Hwang, Y. and Hong, K.J., 2018. Isolation and identification of fungal species from the insect pest Tribolium castaneum in rice processing complexes in Korea. The Plant Pathology Journal, 34(5): 356. Search in Google Scholar

Zheng, M., Shi, J., Shi, J., Wang, Q. and Li, Y. 2013. Antimicrobial effects of volatiles produced by two antagonistic Bacillus strains on the anthracnose pathogen in postharvest mangos. Biological Control, 65: 200–206. Search in Google Scholar