Millisecond timescale slimfield imaging and automated quantification of single fluorescent protein molecules for use in probing complex biological processes.
about
Composition, formation, and regulation of the cytosolic c-ring, a dynamic component of the type III secretion injectisomeExperimental approaches for addressing fundamental biological questions in living, functioning cells with single molecule precision.In vivo architecture and action of bacterial structural maintenance of chromosome proteins.Stoichiometry and architecture of active DNA replication machinery in Escherichia coli.Single-Molecule Observation of DNA Replication Repair Pathways in E. coli.Visualization of the Serratia Type VI Secretion System Reveals Unprovoked Attacks and Dynamic AssemblyFunctioning nanomachines seen in real-time in living bacteria using single-molecule and super-resolution fluorescence imaging.Designing a Single-Molecule Biophysics Tool for Characterising DNA Damage for Techniques that Kill Infectious Pathogens Through DNA Damage Effects.New Advances in Chromosome Architecture.Single-molecule fluorescence microscopy review: shedding new light on old problems.The physics of life: one molecule at a timeSingle-Molecule Narrow-Field Microscopy of Protein-DNA Binding Dynamics in Glucose Signal Transduction of Live Yeast Cells.Transcription factor clusters regulate genes in eukaryotic cells.Shining the spotlight on functional molecular complexes: The new science of single-molecule cell biologyIndependent mobility of proteins and lipids in the plasma membrane of Escherichia coli.The yeast Mig1 transcriptional repressor is dephosphorylated by glucose-dependent and -independent mechanisms.Molecular coordination of Staphylococcus aureus cell division.Study of DNA translocases in Bacillus subtilis by single molecule tracking reveals strikingly different dynamics of SftA, SpoIIIE and FtsA.Millisecond single-molecule localization microscopy combined with convolution analysis and automated image segmentation to determine protein concentrations in complexly structured, functional cells, one cell at a time.Using Fluorescence Recovery After Photobleaching (FRAP) to Study Dynamics of the Structural Maintenance of Chromosome (SMC) Complex In Vivo.High-Speed Single-Molecule Tracking of CXCL13 in the B-Follicle.Single molecule tracking reveals spatio-temporal dynamics of bacterial DNA repair centresTranscription factors in eukaryotic cells can functionally regulate gene expression by acting in oligomeric assemblies formed from an intrinsically disordered protein phase transition enabled by molecular crowding
P2860
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P2860
Millisecond timescale slimfield imaging and automated quantification of single fluorescent protein molecules for use in probing complex biological processes.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Millisecond timescale slimfiel ...... complex biological processes.
@en
Millisecond timescale slimfiel ...... complex biological processes.
@nl
type
label
Millisecond timescale slimfiel ...... complex biological processes.
@en
Millisecond timescale slimfiel ...... complex biological processes.
@nl
prefLabel
Millisecond timescale slimfiel ...... complex biological processes.
@en
Millisecond timescale slimfiel ...... complex biological processes.
@nl
P356
P1433
P1476
Millisecond timescale slimfiel ...... complex biological processes.
@en
P2093
George Howard Wadhams
Michael Plank
P304
P356
10.1039/B907837A
P577
2009-08-04T00:00:00Z