SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2130904027> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2130904027 endingPage "994" @default.
W2130904027 startingPage "989" @default.
W2130904027 abstract "Protein phosphorylation has emerged as one of the major post translational modifications in bacteria, involved in regulating a myriad of physiological processes. In a complex and dynamic system such as the bacterial cell, connectivity of its components accounts for a number of emergent properties. This article is part of a Special Issue entitled: Systems Biology of Microorganisms.This review focuses on the implications of bacterial protein phosphorylation in cell signaling and regulation and highlights the connections and cross talk between various signaling pathways: bacterial two-component systems and serine/threonine kinases, but also the interference between phosphorylation and other post-translational modifications (methylation and acetylation).Recent technical developments in high accuracy mass spectrometry have profoundly transformed proteomics, and today exhaustive site-specific phosphoproteomes are available for a number of bacterial species. Nevertheless, prediction of phosphorylation sites remains the main guide for many researchers, so we discuss the characteristics, limits and advantages of available phosphorylation predictors.The advent of quantitative phosphoproteomics has brought the field on the doorstep of systems biology, but a number of challenges remain before the bacterial phosphorylation networks can be efficiently modeled and their physiological role understood. This article is part of a Special Issue entitled: Systems Biology of Microorganisms." @default.
W2130904027 created "2016-06-24" @default.
W2130904027 creator A5035301107 @default.
W2130904027 creator A5039118568 @default.
W2130904027 creator A5056469792 @default.
W2130904027 creator A5076952633 @default.
W2130904027 creator A5078950452 @default.
W2130904027 creator A5082790207 @default.
W2130904027 date "2011-10-01" @default.
W2130904027 modified "2023-10-15" @default.
W2130904027 title "Protein phosphorylation in bacterial signal transduction" @default.
W2130904027 cites W1600996634 @default.
W2130904027 cites W1817743640 @default.
W2130904027 cites W1898058678 @default.
W2130904027 cites W1905682926 @default.
W2130904027 cites W1955508206 @default.
W2130904027 cites W1955924720 @default.
W2130904027 cites W1966023562 @default.
W2130904027 cites W1968853769 @default.
W2130904027 cites W1971066567 @default.
W2130904027 cites W1979449454 @default.
W2130904027 cites W1980219190 @default.
W2130904027 cites W1982987771 @default.
W2130904027 cites W1983052810 @default.
W2130904027 cites W1988376925 @default.
W2130904027 cites W1990762571 @default.
W2130904027 cites W1993643129 @default.
W2130904027 cites W1996922732 @default.
W2130904027 cites W2006249169 @default.
W2130904027 cites W2006259476 @default.
W2130904027 cites W2008152228 @default.
W2130904027 cites W2008871018 @default.
W2130904027 cites W2010128870 @default.
W2130904027 cites W2012046093 @default.
W2130904027 cites W2012741862 @default.
W2130904027 cites W2013853442 @default.
W2130904027 cites W2019249774 @default.
W2130904027 cites W2021076430 @default.
W2130904027 cites W2025849937 @default.
W2130904027 cites W2028188448 @default.
W2130904027 cites W2028454294 @default.
W2130904027 cites W2028751775 @default.
W2130904027 cites W2030554179 @default.
W2130904027 cites W2034162042 @default.
W2130904027 cites W2040594219 @default.
W2130904027 cites W2042782194 @default.
W2130904027 cites W2053137607 @default.
W2130904027 cites W2053617234 @default.
W2130904027 cites W2059194159 @default.
W2130904027 cites W2060211561 @default.
W2130904027 cites W2062106233 @default.
W2130904027 cites W2064910808 @default.
W2130904027 cites W2064921878 @default.
W2130904027 cites W2068319375 @default.
W2130904027 cites W2070034694 @default.
W2130904027 cites W2071229999 @default.
W2130904027 cites W2075929473 @default.
W2130904027 cites W2076847722 @default.
W2130904027 cites W2077128644 @default.
W2130904027 cites W2077261875 @default.
W2130904027 cites W2082020508 @default.
W2130904027 cites W2084082495 @default.
W2130904027 cites W2089367187 @default.
W2130904027 cites W2091248557 @default.
W2130904027 cites W2091479207 @default.
W2130904027 cites W2096917397 @default.
W2130904027 cites W2102025585 @default.
W2130904027 cites W2102293987 @default.
W2130904027 cites W2103115554 @default.
W2130904027 cites W2104107382 @default.
W2130904027 cites W2109239634 @default.
W2130904027 cites W2113099409 @default.
W2130904027 cites W2114931361 @default.
W2130904027 cites W2115593351 @default.
W2130904027 cites W2117319600 @default.
W2130904027 cites W2120255698 @default.
W2130904027 cites W2123519545 @default.
W2130904027 cites W2125112034 @default.
W2130904027 cites W2129274971 @default.
W2130904027 cites W2129947778 @default.
W2130904027 cites W2133500918 @default.
W2130904027 cites W2134165623 @default.
W2130904027 cites W2144636962 @default.
W2130904027 cites W2146028175 @default.
W2130904027 cites W2147051160 @default.
W2130904027 cites W2149668532 @default.
W2130904027 cites W2155463529 @default.
W2130904027 cites W2165573752 @default.
W2130904027 cites W2166374078 @default.
W2130904027 cites W2171723342 @default.
W2130904027 doi "https://doi.org/10.1016/j.bbagen.2011.01.006" @default.
W2130904027 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21266190" @default.
W2130904027 hasPublicationYear "2011" @default.
W2130904027 type Work @default.
W2130904027 sameAs 2130904027 @default.
W2130904027 citedByCount "82" @default.
W2130904027 countsByYear W21309040272012 @default.
W2130904027 countsByYear W21309040272013 @default.