In this contribution we provide an overview of the recent advances allowed by the use of fluorescence microscopy methods in the study of transcriptional processes and their interplay with the chromatin architecture in living cells. Although the use of fluorophores to label nucleic acids dates back at least to about half a century ago, (1) two recent breakthroughs have effectively opened the way to use fluorescence routinely for specific and quantitative probing of chromatin organization and transcriptional activity in living cells: namely, the possibility of labeling first the chromatin loci and then the mRNA synthesized from a gene using fluorescent proteins. In this contribution we focus on methods that can probe rapid dynamic processes b...
Changes in chromatin structure are key determinants of genomic responses. Thus, methods that enable ...
AbstractThe three-dimensional organization of nuclear compartments within living cells determines ge...
AbstractIn the recent years it has become clear that our genome is not randomly organized and its ar...
In this contribution we provide an overview of the recent advances allowed by the use of fluorescenc...
In this contribution we provide an overview of the recent advances allowed by the use of fluorescenc...
In eukaryotic cell nuclei, double-stranded DNA is found in the form of chromatin, a large fiber made...
Transcription, the first step of gene expression, is exquisitely regulated in higher eukaryotes to e...
<div><p>The linear sequence of DNA encodes access to the complete set of proteins that carry out cel...
In eukaryotic cells, the genome is packaged into chromatin and exists in different states, ranging f...
The emergence of labeling strategies and live cell imaging methods enables the imaging of chromatin ...
The dynamic nature of cellular processes is emerging as an important modulator of physiological and ...
Advances in measurement techniques based on fluorescent tagging have enabled visualizing individual ...
Recent evidence suggests that the spatio-temporal organization of gene position and its interaction ...
AbstractRecent advances in reporter gene technologies are now allowing us to image gene transcriptio...
Fluorescence microscopy is a powerful quantitative technique able to resolve local concentrations an...
Changes in chromatin structure are key determinants of genomic responses. Thus, methods that enable ...
AbstractThe three-dimensional organization of nuclear compartments within living cells determines ge...
AbstractIn the recent years it has become clear that our genome is not randomly organized and its ar...
In this contribution we provide an overview of the recent advances allowed by the use of fluorescenc...
In this contribution we provide an overview of the recent advances allowed by the use of fluorescenc...
In eukaryotic cell nuclei, double-stranded DNA is found in the form of chromatin, a large fiber made...
Transcription, the first step of gene expression, is exquisitely regulated in higher eukaryotes to e...
<div><p>The linear sequence of DNA encodes access to the complete set of proteins that carry out cel...
In eukaryotic cells, the genome is packaged into chromatin and exists in different states, ranging f...
The emergence of labeling strategies and live cell imaging methods enables the imaging of chromatin ...
The dynamic nature of cellular processes is emerging as an important modulator of physiological and ...
Advances in measurement techniques based on fluorescent tagging have enabled visualizing individual ...
Recent evidence suggests that the spatio-temporal organization of gene position and its interaction ...
AbstractRecent advances in reporter gene technologies are now allowing us to image gene transcriptio...
Fluorescence microscopy is a powerful quantitative technique able to resolve local concentrations an...
Changes in chromatin structure are key determinants of genomic responses. Thus, methods that enable ...
AbstractThe three-dimensional organization of nuclear compartments within living cells determines ge...
AbstractIn the recent years it has become clear that our genome is not randomly organized and its ar...