SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W268793878> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W268793878 endingPage "114" @default.
W268793878 startingPage "102" @default.
W268793878 abstract "To survive complex and changing environmental conditions, microorganisms use gene regulatory networks (GRNs) composed of interacting regulatory transcription factors (TFs) to control the timing and magnitude of gene expression. Genome-wide datasets; such as transcriptomics and protein-DNA interactions; and experiments such as high throughput growth curves; facilitate the construction of GRNs and provide insight into TF interactions occurring under stress. Systems biology approaches integrate these datasets into models of GRN architecture as well as statistical and/or dynamical models to understand the function of networks occurring in cells. Previously, these types of studies have focused on traditional model organisms (e.g. Escherichia coli, yeast). However, recent advances in archaeal genetics and other tools have enabled a systems approach to understanding GRNs in these relatively less studied archaeal model organisms. In this report, we outline a systems biology workflow for generating and integrating data focusing on the TF regulator. We discuss experimental design, outline the process of data collection, and provide the tools required to produce high confidence regulons for the TFs of interest. We provide a case study as an example of this workflow, describing the construction of a GRN centered on multi-TF coordinate control of gene expression governing the oxidative stress response in the hypersaline-adapted archaeon Halobacterium salinarum." @default.
W268793878 created "2016-06-24" @default.
W268793878 creator A5009463724 @default.
W268793878 creator A5076394173 @default.
W268793878 date "2015-09-01" @default.
W268793878 modified "2023-09-24" @default.
W268793878 title "Systems biology approaches to defining transcription regulatory networks in halophilic archaea" @default.
W268793878 cites W1499375494 @default.
W268793878 cites W1516095885 @default.
W268793878 cites W1779313875 @default.
W268793878 cites W1780156870 @default.
W268793878 cites W1969429975 @default.
W268793878 cites W1974134170 @default.
W268793878 cites W1976524201 @default.
W268793878 cites W1984214499 @default.
W268793878 cites W1987637706 @default.
W268793878 cites W1995830102 @default.
W268793878 cites W2007588031 @default.
W268793878 cites W2008226163 @default.
W268793878 cites W2013444425 @default.
W268793878 cites W2013747210 @default.
W268793878 cites W2015945423 @default.
W268793878 cites W2018855260 @default.
W268793878 cites W2019519199 @default.
W268793878 cites W2021373734 @default.
W268793878 cites W2026790535 @default.
W268793878 cites W2038045995 @default.
W268793878 cites W2046727187 @default.
W268793878 cites W2053818267 @default.
W268793878 cites W2061034241 @default.
W268793878 cites W2070630797 @default.
W268793878 cites W2081087784 @default.
W268793878 cites W2082245561 @default.
W268793878 cites W2084173751 @default.
W268793878 cites W2087583350 @default.
W268793878 cites W2091040559 @default.
W268793878 cites W2097586244 @default.
W268793878 cites W2097705100 @default.
W268793878 cites W2099990158 @default.
W268793878 cites W2100305481 @default.
W268793878 cites W2102147393 @default.
W268793878 cites W2102384347 @default.
W268793878 cites W2103063648 @default.
W268793878 cites W2105329185 @default.
W268793878 cites W2106418531 @default.
W268793878 cites W2109384743 @default.
W268793878 cites W2109406280 @default.
W268793878 cites W2111766142 @default.
W268793878 cites W2113023105 @default.
W268793878 cites W2123669436 @default.
W268793878 cites W2124514674 @default.
W268793878 cites W2126602684 @default.
W268793878 cites W2128894039 @default.
W268793878 cites W2129265801 @default.
W268793878 cites W2130248929 @default.
W268793878 cites W2130312510 @default.
W268793878 cites W2130595749 @default.
W268793878 cites W2134701031 @default.
W268793878 cites W2135879297 @default.
W268793878 cites W2136947295 @default.
W268793878 cites W2137499573 @default.
W268793878 cites W2138255346 @default.
W268793878 cites W2138319812 @default.
W268793878 cites W2138412717 @default.
W268793878 cites W2138416619 @default.
W268793878 cites W2140083926 @default.
W268793878 cites W2140388483 @default.
W268793878 cites W2141224484 @default.
W268793878 cites W2141544223 @default.
W268793878 cites W2142265915 @default.
W268793878 cites W2143295942 @default.
W268793878 cites W2145209917 @default.
W268793878 cites W2149538472 @default.
W268793878 cites W2150072274 @default.
W268793878 cites W2152479833 @default.
W268793878 cites W2152941516 @default.
W268793878 cites W2153453282 @default.
W268793878 cites W2153695031 @default.
W268793878 cites W2157009395 @default.
W268793878 cites W2159675211 @default.
W268793878 cites W2160457515 @default.
W268793878 cites W2160697532 @default.
W268793878 cites W2161435986 @default.
W268793878 cites W2161732139 @default.
W268793878 cites W2164216268 @default.
W268793878 cites W2165096848 @default.
W268793878 cites W2165335121 @default.
W268793878 cites W2166200063 @default.
W268793878 cites W2409199215 @default.
W268793878 cites W2416234265 @default.
W268793878 cites W2915607458 @default.
W268793878 cites W3104066961 @default.
W268793878 cites W401218424 @default.
W268793878 cites W4248318091 @default.
W268793878 cites W48452310 @default.
W268793878 doi "https://doi.org/10.1016/j.ymeth.2015.04.034" @default.
W268793878 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25976837" @default.
W268793878 hasPublicationYear "2015" @default.