SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1638828051> ?p ?o ?g. }

Showing items 1 to 100 of ±177 with 100 items per page.

W1638828051 endingPage "1200" @default.
W1638828051 startingPage "1188" @default.
W1638828051 abstract "Intracellular Ca(2+) transients are an integral part of the signaling cascade during pathogen-associated molecular pattern (PAMP)-triggered immunity in plants. Yet, our knowledge about the spatial distribution of PAMP-induced Ca(2+) signals is limited. Investigation of cell- and tissue-specific properties of Ca(2+)-dependent signaling processes requires versatile Ca(2+) reporters that are able to extract spatial information from cellular and subcellular structures, as well as from whole tissues over time periods from seconds to hours. Fluorescence-based reporters cover both a broad spatial and temporal range, which makes them ideally suited to study Ca(2+) signaling in living cells. In this study, we compared two fluorescence-based Ca(2+) sensors: the Förster resonance energy transfer (FRET)-based reporter yellow cameleon NES-YC3.6 and the intensity-based sensor R-GECO1. We demonstrate that R-GECO1 exhibits a significantly increased signal change compared with ratiometric NES-YC3.6 in response to several stimuli. Due to its superior sensitivity, R-GECO1 is able to report flg22- and chitin-induced Ca(2+) signals on a cellular scale, which allowed identification of defined [Ca(2+)]cyt oscillations in epidermal and guard cells in response to the fungal elicitor chitin. Moreover, we discovered that flg22- and chitin-induced Ca(2+) signals in the root initiate from the elongation zone." @default.
W1638828051 created "2016-06-24" @default.
W1638828051 creator A5026528012 @default.
W1638828051 creator A5041506005 @default.
W1638828051 creator A5058546031 @default.
W1638828051 creator A5059789738 @default.
W1638828051 creator A5064181822 @default.
W1638828051 creator A5073695030 @default.
W1638828051 creator A5077111153 @default.
W1638828051 date "2015-08-01" @default.
W1638828051 modified "2023-10-14" @default.
W1638828051 title "Live Cell Imaging with R-GECO1 Sheds Light on flg22- and Chitin-Induced Transient [Ca 2+ ] cyt Patterns in Arabidopsis" @default.
W1638828051 cites W1542263802 @default.
W1638828051 cites W1562567267 @default.
W1638828051 cites W1571164133 @default.
W1638828051 cites W1826812957 @default.
W1638828051 cites W1828115294 @default.
W1638828051 cites W1921245392 @default.
W1638828051 cites W1967626349 @default.
W1638828051 cites W1967642375 @default.
W1638828051 cites W1968069163 @default.
W1638828051 cites W1968320713 @default.
W1638828051 cites W1969682578 @default.
W1638828051 cites W1970660129 @default.
W1638828051 cites W1971739164 @default.
W1638828051 cites W1975891624 @default.
W1638828051 cites W1975909481 @default.
W1638828051 cites W1980726951 @default.
W1638828051 cites W1981705025 @default.
W1638828051 cites W1982637041 @default.
W1638828051 cites W1987278178 @default.
W1638828051 cites W1988122727 @default.
W1638828051 cites W1988385098 @default.
W1638828051 cites W1990076574 @default.
W1638828051 cites W1999106438 @default.
W1638828051 cites W1999361544 @default.
W1638828051 cites W2002924564 @default.
W1638828051 cites W2006685379 @default.
W1638828051 cites W2011628256 @default.
W1638828051 cites W2011739387 @default.
W1638828051 cites W2013151879 @default.
W1638828051 cites W2014619140 @default.
W1638828051 cites W2021890400 @default.
W1638828051 cites W2023476794 @default.
W1638828051 cites W2023554798 @default.
W1638828051 cites W2024142216 @default.
W1638828051 cites W2025017585 @default.
W1638828051 cites W2027314634 @default.
W1638828051 cites W2033533032 @default.
W1638828051 cites W2036713127 @default.
W1638828051 cites W2039634837 @default.
W1638828051 cites W2045031690 @default.
W1638828051 cites W2050521600 @default.
W1638828051 cites W2055772538 @default.
W1638828051 cites W2062408037 @default.
W1638828051 cites W2066493527 @default.
W1638828051 cites W2068927073 @default.
W1638828051 cites W2070176786 @default.
W1638828051 cites W2070536253 @default.
W1638828051 cites W2071476296 @default.
W1638828051 cites W2073070950 @default.
W1638828051 cites W2074698051 @default.
W1638828051 cites W2076877740 @default.
W1638828051 cites W2080092859 @default.
W1638828051 cites W2089548515 @default.
W1638828051 cites W2090303381 @default.
W1638828051 cites W2100906365 @default.
W1638828051 cites W2117781226 @default.
W1638828051 cites W2119003709 @default.
W1638828051 cites W2120927917 @default.
W1638828051 cites W2125588174 @default.
W1638828051 cites W2127613537 @default.
W1638828051 cites W2127882480 @default.
W1638828051 cites W2128974608 @default.
W1638828051 cites W2130284764 @default.
W1638828051 cites W2131798248 @default.
W1638828051 cites W2134626138 @default.
W1638828051 cites W2135557599 @default.
W1638828051 cites W2137629189 @default.
W1638828051 cites W2137871007 @default.
W1638828051 cites W2142943863 @default.
W1638828051 cites W2144147853 @default.
W1638828051 cites W2146690700 @default.
W1638828051 cites W2152219547 @default.
W1638828051 cites W2152658124 @default.
W1638828051 cites W2152835788 @default.
W1638828051 cites W2155132459 @default.
W1638828051 cites W2157323124 @default.
W1638828051 cites W2157990737 @default.
W1638828051 cites W2158215557 @default.
W1638828051 cites W2160919229 @default.
W1638828051 cites W2172114715 @default.
W1638828051 cites W2172175536 @default.
W1638828051 cites W2745841795 @default.
W1638828051 doi "https://doi.org/10.1016/j.molp.2015.05.006" @default.
W1638828051 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5134422" @default.
W1638828051 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26002145" @default.
W1638828051 hasPublicationYear "2015" @default.