scholarly article | Q13442814 |
P50 | author | Alberto Diaspro | Q4711999 |
Luca Lanzano' | Q90036684 | ||
P2093 | author name string | Simone Pelicci | |
P2860 | cites work | A robust and versatile platform for image scanning microscopy enabling super-resolution FLIM | Q91045490 |
Measuring Mobility in Chromatin by Intensity-Sorted FCS | Q92020144 | ||
Subdiffraction multicolor imaging of the nuclear periphery with 3D structured illumination microscopy | Q24596247 | ||
Superresolution intrinsic fluorescence imaging of chromatin utilizing native, unmodified nucleic acids for contrast | Q27315938 | ||
Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM) | Q27860490 | ||
Imaging intracellular fluorescent proteins at nanometer resolution | Q27860767 | ||
Fiji: an open-source platform for biological-image analysis | Q27860912 | ||
Chromatin organization and dynamics in double-strand break repair | Q28069283 | ||
Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence microscopy | Q28261993 | ||
Direct observation of the nanoscale dynamics of membrane lipids in a living cell | Q28304708 | ||
NHE3 regulatory factor 1 (NHERF1) modulates intestinal sodium-dependent phosphate transporter (NaPi-2b) expression in apical microvilli | Q28566881 | ||
FRET microscopy in 2010: the legacy of Theodor Förster on the 100th anniversary of his birth | Q30425496 | ||
Changes in chromatin structure and mobility in living cells at sites of DNA double-strand breaks | Q30480374 | ||
Molecular crowding affects diffusion and binding of nuclear proteins in heterochromatin and reveals the fractal organization of chromatin | Q30492490 | ||
Surpassing the lateral resolution limit by a factor of two using structured illumination microscopy | Q30870499 | ||
DNA labeling in living cells | Q33221167 | ||
Two-photon fluorescence excitation and related techniques in biological microscopy | Q33233903 | ||
Activation of multiple DNA repair pathways by sub-nuclear damage induction methods | Q33291497 | ||
Mapping eGFP oligomer mobility in living cell nuclei | Q33426855 | ||
Direct stochastic optical reconstruction microscopy with standard fluorescent probes | Q33947877 | ||
Higher-order genome organization in human disease | Q34014679 | ||
Protein dynamics: implications for nuclear architecture and gene expression. | Q34166236 | ||
Heterochromatin: new possibilities for the inheritance of structure | Q34563268 | ||
Chromatin domains and the interchromatin compartment form structurally defined and functionally interacting nuclear networks. | Q34582972 | ||
Nuclear architecture and gene regulation | Q34811285 | ||
Role of PDZK1 protein in apical membrane expression of renal sodium-coupled phosphate transporters | Q34868880 | ||
Chromatin structure exhibits spatio-temporal heterogeneity within the cell nucleus | Q35012357 | ||
Spatially Resolved Quantification of Chromatin Condensation through Differential Local Rheology in Cell Nuclei Fluorescence Lifetime Imaging | Q35893743 | ||
The use of DAPI fluorescence lifetime imaging for investigating chromatin condensation in human chromosomes | Q36104310 | ||
The phasor approach to fluorescence lifetime imaging analysis | Q36303232 | ||
Plasticity of the asialoglycoprotein receptor deciphered by ensemble FRET imaging and single-molecule counting PALM imaging | Q36398085 | ||
Conformation of the c-Fos/c-Jun complex in vivo: a combined FRET, FCCS, and MD-modeling study | Q36494786 | ||
Gene regulation through nuclear organization. | Q36994161 | ||
Super-resolution imaging reveals distinct chromatin folding for different epigenetic states | Q36999267 | ||
Fluorescence resonance energy transfer microscopy as demonstrated by measuring the activation of the serine/threonine kinase Akt. | Q37131524 | ||
Quantitative intensity-based FRET approaches--a comparative snapshot | Q38064051 | ||
Chromatin remodeling at DNA double-strand breaks | Q38090114 | ||
Expression of nuclear matrix proteins binding matrix attachment regions in prostate cancer. PARP-1: New player in tumor progression. | Q38444747 | ||
Quantitative FLIM-FRET Microscopy to Monitor Nanoscale Chromatin Compaction In Vivo Reveals Structural Roles of Condensin Complexes. | Q38960142 | ||
FRET from single to multiplexed signaling events | Q39251250 | ||
The multifaceted roles of PARP1 in DNA repair and chromatin remodelling. | Q39414183 | ||
Strength in numbers: effects of acceptor abundance on FRET efficiency | Q39645878 | ||
Quantitative analysis of chromatin compaction in living cells using FLIM-FRET. | Q39769217 | ||
FRET or no FRET: a quantitative comparison | Q40239557 | ||
Measurement of nanoscale three-dimensional diffusion in the interior of living cells by STED-FCS. | Q40954385 | ||
FRET study of membrane proteins: simulation-based fitting for analysis of membrane protein embedment and association | Q41667165 | ||
Fluorescence lifetime heterogeneity resolution in the frequency domain by lifetime moments analysis | Q42183780 | ||
Discrimination of DNA and RNA in cells by a vital fluorescent probe: lifetime imaging of SYTO13 in healthy and apoptotic cells | Q43947408 | ||
Density imaging of heterochromatin in live cells using orientation-independent-DIC microscopy | Q47761435 | ||
Dynamic Organization of Chromatin Domains Revealed by Super-Resolution Live-Cell Imaging. | Q47918883 | ||
Chromatin fibers are formed by heterogeneous groups of nucleosomes in vivo. | Q53584742 | ||
Effect of fixatives on calf thymocytes chromatin as analyzed by 3D high-resolution fluorescence microscopy | Q57985683 | ||
Photoswitching FRET to monitor protein-protein interactions | Q61453663 | ||
Phasor histone FLIM-FRET microscopy quantifies spatiotemporal rearrangement of chromatin architecture during the DNA damage response | Q64115304 | ||
Rhodamine-Hoechst positional isomers for highly efficient staining of heterochromatin. | Q64921015 | ||
Super-Resolution Imaging of Higher-Order Chromatin Structures at Different Epigenomic States in Single Mammalian Cells. | Q64989506 | ||
Super-resolution Imaging of Individual Human Subchromosomal Regions in Situ Reveals Nanoscopic Building Blocks of Higher-Order Structure | Q88531030 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 12 | |
P304 | page(s) | e201900164 | |
P577 | publication date | 2019-08-21 | |
P1433 | published in | Journal of Biophotonics | Q6294858 |
P1476 | title | Chromatin nanoscale compaction in live cells visualized by acceptor-to-donor ratio corrected Förster resonance energy transfer between DNA dyes | |
P478 | volume | 12 |
Q94554447 | High-resolution microscopy and spectroscopy datasets meet Data in Brief | cites work | P2860 |
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