SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2026383885> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2026383885 abstract "High-throughput genetic screens provide great insights into the biochemistry and molecular biology of how bacteria sense, respond to, and propagate within their environments. Genomics era techniques such as microarrays and proteomics have great potential to increase our understanding of how foodborne pathogens grow and survive within animal and human hosts, in the environment and foods, and during thermal and nonthermal inactivation protocols. While these techniques are incredibly useful for studying gene expression in simplified in vitro conditions, it is much more challenging to pursue similar studies within more complex experimental models such as in vivo, within the food matrix, or within heterogeneous microbial populations. Techniques such as in vivo expression technology (IVET) and signature-tagged mutagenesis (STM) provide alternatives for studying bacterial gene expression and growth requirements within these settings. These techniques are used extensively by the medical, veterinary, and plant research communities for identifying genes promoting the colonization and disease process, factors mediating commensalism between bacteria and their host, and genes that promote survival of environmental bacteria within natural settings. Research into the transmission and survival of foodborne pathogens from farm-to-fork would likely benefit from these techniques, however there are few reports describing their use for such purposes. This review will briefly cover the methods of IVET and STM, discuss how these techniques improved our understanding of the interactions between zoonotic foodborne pathogens and their animal hosts, and ask whether these techniques could be further exploited to better understand the survival of foodborne pathogens within the environment, within food matrices, and during inactivation protocols." @default.
W2026383885 created "2016-06-24" @default.
W2026383885 creator A5023400529 @default.
W2026383885 date "2008-08-01" @default.
W2026383885 modified "2023-09-26" @default.
W2026383885 title "In VivoExpression Technology and Signature-Tagged Mutagenesis Screens for Identifying Mechanisms of Survival of Zoonotic Foodborne Pathogens" @default.
W2026383885 cites W1504659673 @default.
W2026383885 cites W1545447815 @default.
W2026383885 cites W1551233459 @default.
W2026383885 cites W1551627361 @default.
W2026383885 cites W1765159576 @default.
W2026383885 cites W1941292022 @default.
W2026383885 cites W1966597734 @default.
W2026383885 cites W1972800244 @default.
W2026383885 cites W1973069935 @default.
W2026383885 cites W1978038456 @default.
W2026383885 cites W1983458029 @default.
W2026383885 cites W1985022593 @default.
W2026383885 cites W1985259885 @default.
W2026383885 cites W1991424568 @default.
W2026383885 cites W1998666142 @default.
W2026383885 cites W2014646139 @default.
W2026383885 cites W2016158447 @default.
W2026383885 cites W2021907449 @default.
W2026383885 cites W2025599890 @default.
W2026383885 cites W2026503799 @default.
W2026383885 cites W2050381177 @default.
W2026383885 cites W2055351624 @default.
W2026383885 cites W2057115622 @default.
W2026383885 cites W2058271560 @default.
W2026383885 cites W2080909974 @default.
W2026383885 cites W2081226705 @default.
W2026383885 cites W2085972597 @default.
W2026383885 cites W2088732289 @default.
W2026383885 cites W2097813770 @default.
W2026383885 cites W2102092668 @default.
W2026383885 cites W2102172950 @default.
W2026383885 cites W2103540045 @default.
W2026383885 cites W2107436177 @default.
W2026383885 cites W2110914629 @default.
W2026383885 cites W2113117904 @default.
W2026383885 cites W2115466234 @default.
W2026383885 cites W2115753459 @default.
W2026383885 cites W2116099298 @default.
W2026383885 cites W2116226435 @default.
W2026383885 cites W2117381177 @default.
W2026383885 cites W2118606775 @default.
W2026383885 cites W2119101052 @default.
W2026383885 cites W2122737428 @default.
W2026383885 cites W2122784014 @default.
W2026383885 cites W2123201756 @default.
W2026383885 cites W2125153220 @default.
W2026383885 cites W2125650558 @default.
W2026383885 cites W2126252319 @default.
W2026383885 cites W2132644071 @default.
W2026383885 cites W2132951675 @default.
W2026383885 cites W2136897732 @default.
W2026383885 cites W2140372424 @default.
W2026383885 cites W2140654372 @default.
W2026383885 cites W2141416983 @default.
W2026383885 cites W2141480758 @default.
W2026383885 cites W2144646955 @default.
W2026383885 cites W2145072668 @default.
W2026383885 cites W2148451093 @default.
W2026383885 cites W2154850043 @default.
W2026383885 cites W2162125281 @default.
W2026383885 cites W2163022951 @default.
W2026383885 cites W2165701675 @default.
W2026383885 cites W2166515828 @default.
W2026383885 cites W2166634595 @default.
W2026383885 cites W2185239423 @default.
W2026383885 cites W2281648153 @default.
W2026383885 cites W308781158 @default.
W2026383885 doi "https://doi.org/10.1089/fpd.2008.0104" @default.
W2026383885 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18673072" @default.
W2026383885 hasPublicationYear "2008" @default.
W2026383885 type Work @default.
W2026383885 sameAs 2026383885 @default.
W2026383885 citedByCount "5" @default.
W2026383885 countsByYear W20263838852014 @default.
W2026383885 countsByYear W20263838852016 @default.
W2026383885 countsByYear W20263838852018 @default.
W2026383885 crossrefType "journal-article" @default.
W2026383885 hasAuthorship W2026383885A5023400529 @default.
W2026383885 hasConcept C104317684 @default.
W2026383885 hasConcept C107635520 @default.
W2026383885 hasConcept C141231307 @default.
W2026383885 hasConcept C150194340 @default.
W2026383885 hasConcept C150903083 @default.
W2026383885 hasConcept C161078062 @default.
W2026383885 hasConcept C16318435 @default.
W2026383885 hasConcept C189206191 @default.
W2026383885 hasConcept C207001950 @default.
W2026383885 hasConcept C2781350384 @default.
W2026383885 hasConcept C3018571736 @default.
W2026383885 hasConcept C46111723 @default.
W2026383885 hasConcept C501734568 @default.
W2026383885 hasConcept C523546767 @default.
W2026383885 hasConcept C54355233 @default.
W2026383885 hasConcept C70721500 @default.