Add to ORKGChloride transport is involved in a wide variety of cellular functions, including regulation of the membrane potential, cell volume, acid base balance, and epithelial fluid absorption and secretion. Alterations in chloride transport mechanisms are related to a number of physio-pathological conditions. The aim of this study was to investigate chloride transport across the plasma membrane of cervical cancer cell lines (HeLa), relying on the halide binding properties of a green (GFP) fluorescent protein variant (YFP) that, if halide complexed, decreases the basal fluorescence intensity. The fluorescence changes of HeLa cells expressing YFP was analyzed by confocal and spectrofluorometric analysis. Our results highlights the presence of a ...
In recent decades growing scientific evidence supports the role of ion channels in the development o...
Small-molecule-based fluorescent probes have become important tools in biology for sensing and imagi...
This thesis reports the development of novel transmembrane anion transporters and chemical sensors i...
Cystic fibrosis is caused by a genetic defect in the CFTR protein, whose main function is chloride t...
The green fluorescent protein YFP-H148Q is sensitive to halides by a mechanism involving halide bind...
Transport of ions across membranes is crucial for many processes in biology and membrane proteins no...
The methodology has been developed to measure Cl activity and transport in cultured cells grown on a...
AbstractThe green fluorescent protein YFP-H148Q is sensitive to halides by a mechanism involving hal...
In the last decade, the development of synthetic anion transporters has attracted much attention. A ...
Chloride transport across cell membranes is broadly involved in epithelial fluid transport, cell vol...
textabstractThe experimental work described in this thesis was aimed at a better understanding of th...
Intracellular chloride (Cl−), together with bicarbonate (HCO3−), is the most abundant free anion in ...
AbstractThe use of the halide-sensitive fluorescent probes (6-methoxy-N-(−sulphopropyl)quinolinium (...
Previous evidence suggests that the molecular defect in cystic fibrosis (CF) could reside in an alte...
Transmembrane anion transporters (anionophores) have potential for new modes of biological activity,...
In recent decades growing scientific evidence supports the role of ion channels in the development o...
Small-molecule-based fluorescent probes have become important tools in biology for sensing and imagi...
This thesis reports the development of novel transmembrane anion transporters and chemical sensors i...
Cystic fibrosis is caused by a genetic defect in the CFTR protein, whose main function is chloride t...
The green fluorescent protein YFP-H148Q is sensitive to halides by a mechanism involving halide bind...
Transport of ions across membranes is crucial for many processes in biology and membrane proteins no...
The methodology has been developed to measure Cl activity and transport in cultured cells grown on a...
AbstractThe green fluorescent protein YFP-H148Q is sensitive to halides by a mechanism involving hal...
In the last decade, the development of synthetic anion transporters has attracted much attention. A ...
Chloride transport across cell membranes is broadly involved in epithelial fluid transport, cell vol...
textabstractThe experimental work described in this thesis was aimed at a better understanding of th...
Intracellular chloride (Cl−), together with bicarbonate (HCO3−), is the most abundant free anion in ...
AbstractThe use of the halide-sensitive fluorescent probes (6-methoxy-N-(−sulphopropyl)quinolinium (...
Previous evidence suggests that the molecular defect in cystic fibrosis (CF) could reside in an alte...
Transmembrane anion transporters (anionophores) have potential for new modes of biological activity,...
In recent decades growing scientific evidence supports the role of ion channels in the development o...
Small-molecule-based fluorescent probes have become important tools in biology for sensing and imagi...
This thesis reports the development of novel transmembrane anion transporters and chemical sensors i...