SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2021194154> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2021194154 endingPage "14" @default.
W2021194154 startingPage "1" @default.
W2021194154 abstract "Food decay by spoilage fungi causes considerable economic losses and constitutes a health risk for consumers due to the potential for fungi to produce mycotoxins. The indiscriminate use of synthetic antifungals has led to the development of resistant strains which has necessitated utilization of higher concentrations, with the consequent increase in toxic residues in food products. Numerous studies have demonstrated that plant extracts contain diverse bioactive components that can control mould growth. The metabolites produced by plants are a promising alternative because plants generate a wide variety of compounds, either as part of their development or in response to stress or pathogen attack. The aim of this article is to summarize the results from the literature on in vitro and in vivo experiments regarding the effects of plant-derived products for controlling fungal growth. Data from research work on the mode of action of these metabolites inside the fungal cell and the influence of abiotic external factors such as pH and temperature are also covered in the present review. Furthermore, an analysis on how the stress factor derived from the presence of plant extracts and essential oils affects secondary metabolism of the fungus, specifically mycotoxin synthesis, is developed. Finally, the effectiveness of using plant-derived compounds in combination with other natural antimicrobials and its application in food using novel technologies is discussed." @default.
W2021194154 created "2016-06-24" @default.
W2021194154 creator A5036725492 @default.
W2021194154 creator A5078868321 @default.
W2021194154 creator A5082777663 @default.
W2021194154 date "2013-08-01" @default.
W2021194154 modified "2023-10-10" @default.
W2021194154 title "Application of plant derived compounds to control fungal spoilage and mycotoxin production in foods" @default.
W2021194154 cites W1965124912 @default.
W2021194154 cites W1965866286 @default.
W2021194154 cites W1971912855 @default.
W2021194154 cites W1972870793 @default.
W2021194154 cites W1977255629 @default.
W2021194154 cites W1980865537 @default.
W2021194154 cites W1982244406 @default.
W2021194154 cites W1983984046 @default.
W2021194154 cites W1987718469 @default.
W2021194154 cites W1990429024 @default.
W2021194154 cites W1992362146 @default.
W2021194154 cites W1993410700 @default.
W2021194154 cites W1996113141 @default.
W2021194154 cites W1996215121 @default.
W2021194154 cites W1996820487 @default.
W2021194154 cites W1999769249 @default.
W2021194154 cites W1999984066 @default.
W2021194154 cites W2004281058 @default.
W2021194154 cites W2007758663 @default.
W2021194154 cites W2014523747 @default.
W2021194154 cites W2017425734 @default.
W2021194154 cites W2022312833 @default.
W2021194154 cites W2025719796 @default.
W2021194154 cites W2026971953 @default.
W2021194154 cites W2027330176 @default.
W2021194154 cites W2027579298 @default.
W2021194154 cites W2029727717 @default.
W2021194154 cites W2030719654 @default.
W2021194154 cites W2031215535 @default.
W2021194154 cites W2033610934 @default.
W2021194154 cites W2036547928 @default.
W2021194154 cites W2038857343 @default.
W2021194154 cites W2039073093 @default.
W2021194154 cites W2039879707 @default.
W2021194154 cites W2042620809 @default.
W2021194154 cites W2044564370 @default.
W2021194154 cites W2045676480 @default.
W2021194154 cites W2046287538 @default.
W2021194154 cites W2048070825 @default.
W2021194154 cites W2048142422 @default.
W2021194154 cites W2051915724 @default.
W2021194154 cites W2055481009 @default.
W2021194154 cites W2055760043 @default.
W2021194154 cites W2057847328 @default.
W2021194154 cites W2058052554 @default.
W2021194154 cites W2058124921 @default.
W2021194154 cites W2060991991 @default.
W2021194154 cites W2066283167 @default.
W2021194154 cites W2067469140 @default.
W2021194154 cites W2068140036 @default.
W2021194154 cites W2069519168 @default.
W2021194154 cites W2072834757 @default.
W2021194154 cites W2076312483 @default.
W2021194154 cites W2082600162 @default.
W2021194154 cites W2089012528 @default.
W2021194154 cites W2091271580 @default.
W2021194154 cites W2091554319 @default.
W2021194154 cites W2093448280 @default.
W2021194154 cites W2094852040 @default.
W2021194154 cites W2102025606 @default.
W2021194154 cites W2110343250 @default.
W2021194154 cites W2120008423 @default.
W2021194154 cites W2127688493 @default.
W2021194154 cites W2133949977 @default.
W2021194154 cites W2144493199 @default.
W2021194154 cites W2148243166 @default.
W2021194154 cites W2170783669 @default.
W2021194154 cites W2469879184 @default.
W2021194154 doi "https://doi.org/10.1016/j.ijfoodmicro.2013.05.026" @default.
W2021194154 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23816820" @default.
W2021194154 hasPublicationYear "2013" @default.
W2021194154 type Work @default.
W2021194154 sameAs 2021194154 @default.
W2021194154 citedByCount "298" @default.
W2021194154 countsByYear W20211941542014 @default.
W2021194154 countsByYear W20211941542015 @default.
W2021194154 countsByYear W20211941542016 @default.
W2021194154 countsByYear W20211941542017 @default.
W2021194154 countsByYear W20211941542018 @default.
W2021194154 countsByYear W20211941542019 @default.
W2021194154 countsByYear W20211941542020 @default.
W2021194154 countsByYear W20211941542021 @default.
W2021194154 countsByYear W20211941542022 @default.
W2021194154 countsByYear W20211941542023 @default.
W2021194154 crossrefType "journal-article" @default.
W2021194154 hasAuthorship W2021194154A5036725492 @default.
W2021194154 hasAuthorship W2021194154A5078868321 @default.
W2021194154 hasAuthorship W2021194154A5082777663 @default.
W2021194154 hasConcept C147490202 @default.
W2021194154 hasConcept C150903083 @default.