SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4327700336> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4327700336 endingPage "1269" @default.
W4327700336 startingPage "1255" @default.
W4327700336 abstract "Spatial proteome reorganization in response to a changing environment represents a different layer of adaptation mechanism in addition to differential expression of a subset of stress responsive genes in photosynthetic organisms. Profiling such reorganization events is critically important to extend our understanding how photosynthetic organisms adapt to adverse environments. Thus, we treated a unicellular photosynthetic model cyanobacterium, Synechocystis sp. PCC 6803 (hereafter referred to as Synechocystis), with five different types of abiotic stresses including nitrogen starvation, iron deficiency, cold, heat, and darkness, and systematically identified proteins showing stress-induced differential expression and/or redistribution between the membrane and the soluble fractions using a quantitative proteomics approach. A number of proteins showing such a redistribution in response to a single or multiple types of abiotic stresses were identified. These include 12 ribosomal proteins displaying unanimous cold-induced redistribution to the membrane and the protein FurA, a master regulator of iron acquisition, displaying iron deficiency- and nitrogen starvation-induced redistribution to the membrane. Such findings shed light on a novel regulatory mechanism underlying the corresponding stress responses, and establish the results in the present study as an important resource for future studies intended to understand how photosynthetic organisms cope with adverse environments." @default.
W4327700336 created "2023-03-18" @default.
W4327700336 creator A5003642180 @default.
W4327700336 creator A5016173849 @default.
W4327700336 creator A5022858760 @default.
W4327700336 creator A5028297277 @default.
W4327700336 creator A5037121915 @default.
W4327700336 creator A5037540738 @default.
W4327700336 creator A5047071694 @default.
W4327700336 creator A5057712848 @default.
W4327700336 creator A5060070085 @default.
W4327700336 creator A5077431021 @default.
W4327700336 creator A5086941926 @default.
W4327700336 creator A5087469769 @default.
W4327700336 creator A5087569460 @default.
W4327700336 date "2023-03-17" @default.
W4327700336 modified "2023-10-17" @default.
W4327700336 title "Spatial Proteome Reorganization of a Photosynthetic Model Cyanobacterium in Response to Abiotic Stresses" @default.
W4327700336 cites W1692629830 @default.
W4327700336 cites W1730564863 @default.
W4327700336 cites W1781886943 @default.
W4327700336 cites W1827824971 @default.
W4327700336 cites W1929460149 @default.
W4327700336 cites W1977312220 @default.
W4327700336 cites W1977332097 @default.
W4327700336 cites W1984058919 @default.
W4327700336 cites W1987625973 @default.
W4327700336 cites W1999236770 @default.
W4327700336 cites W2002605431 @default.
W4327700336 cites W2003686792 @default.
W4327700336 cites W2012626734 @default.
W4327700336 cites W2015175867 @default.
W4327700336 cites W2016267544 @default.
W4327700336 cites W2037199116 @default.
W4327700336 cites W2037845366 @default.
W4327700336 cites W2039278376 @default.
W4327700336 cites W2043511741 @default.
W4327700336 cites W2057664258 @default.
W4327700336 cites W2063539219 @default.
W4327700336 cites W2080120605 @default.
W4327700336 cites W2084964030 @default.
W4327700336 cites W2087988302 @default.
W4327700336 cites W2095169768 @default.
W4327700336 cites W2095705349 @default.
W4327700336 cites W2097297146 @default.
W4327700336 cites W2099888935 @default.
W4327700336 cites W2100185604 @default.
W4327700336 cites W2105868647 @default.
W4327700336 cites W2108081003 @default.
W4327700336 cites W2122794621 @default.
W4327700336 cites W2126895025 @default.
W4327700336 cites W2130360668 @default.
W4327700336 cites W2135581618 @default.
W4327700336 cites W2142415343 @default.
W4327700336 cites W2143462323 @default.
W4327700336 cites W2144144884 @default.
W4327700336 cites W2144347115 @default.
W4327700336 cites W2149563695 @default.
W4327700336 cites W2150762465 @default.
W4327700336 cites W2151711329 @default.
W4327700336 cites W2152770371 @default.
W4327700336 cites W2154170505 @default.
W4327700336 cites W2154219707 @default.
W4327700336 cites W2155631904 @default.
W4327700336 cites W2156099844 @default.
W4327700336 cites W2156640962 @default.
W4327700336 cites W2161450550 @default.
W4327700336 cites W2162907110 @default.
W4327700336 cites W2165903727 @default.
W4327700336 cites W2166861775 @default.
W4327700336 cites W2290932271 @default.
W4327700336 cites W2296666507 @default.
W4327700336 cites W2317255686 @default.
W4327700336 cites W2319125593 @default.
W4327700336 cites W2516086380 @default.
W4327700336 cites W2606647715 @default.
W4327700336 cites W2731407312 @default.
W4327700336 cites W2767389917 @default.
W4327700336 cites W2792907149 @default.
W4327700336 cites W2803852299 @default.
W4327700336 cites W2807788498 @default.
W4327700336 cites W2914105877 @default.
W4327700336 cites W2978035301 @default.
W4327700336 cites W2981254896 @default.
W4327700336 cites W2981664770 @default.
W4327700336 cites W2989866276 @default.
W4327700336 cites W2995522289 @default.
W4327700336 cites W2996461435 @default.
W4327700336 cites W3022665522 @default.
W4327700336 cites W3047391511 @default.
W4327700336 cites W3155118756 @default.
W4327700336 cites W3157752947 @default.
W4327700336 cites W3173180916 @default.
W4327700336 cites W3205638230 @default.
W4327700336 cites W3214492773 @default.
W4327700336 doi "https://doi.org/10.1021/acs.jproteome.2c00759" @default.
W4327700336 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36930737" @default.
W4327700336 hasPublicationYear "2023" @default.