Initiation of lamellipodia and ruffles involves cooperation between mDia1 and the Arp2/3 complex
Protrusion of lamellipodia and ruffles requires polymerization of branched actin filaments by
the Arp2/3 complex. Although regulation of Arp2/3 complex activity has been extensively …
the Arp2/3 complex. Although regulation of Arp2/3 complex activity has been extensively …
[PDF][PDF] Comprehensive nucleosome interactome screen establishes fundamental principles of nucleosome binding
A Skrajna, D Goldfarb, KM Kedziora… - Nucleic acids …, 2020 - academic.oup.com
Nuclear proteins bind chromatin to execute and regulate genome-templated processes. While
studies of individual nucleosome interactions have suggested that an acidic patch on the …
studies of individual nucleosome interactions have suggested that an acidic patch on the …
Accurate delineation of cell cycle phase transitions in living cells with PIP-FUCCI
Cell cycle phase transitions are tightly orchestrated to ensure efficient cell cycle progression
and genome stability. Interrogating these transitions is important for understanding both …
and genome stability. Interrogating these transitions is important for understanding both …
Evidence that the human cell cycle is a series of uncoupled, memoryless phases
…, RI Fakhreddin, HK Shimerov, KM Kedziora… - Molecular systems …, 2019 - embopress.org
The cell cycle is canonically described as a series of four consecutive phases: G1, S, G2,
and M. In single cells, the duration of each phase varies, but the quantitative laws that govern …
and M. In single cells, the duration of each phase varies, but the quantitative laws that govern …
TRPM7 triggers Ca2+ sparks and invadosome formation in neuroblastoma cells
Cell migration depends on the dynamic formation and turnover of cell adhesions and is tightly
controlled by actomyosin contractility and local Ca 2+ signals. The divalent cation channel …
controlled by actomyosin contractility and local Ca 2+ signals. The divalent cation channel …
The structure of the human cell cycle
Understanding the organization of the cell cycle has been a longstanding goal in cell biology.
We combined time-lapse microscopy, highly multiplexed single-cell imaging of 48 core cell …
We combined time-lapse microscopy, highly multiplexed single-cell imaging of 48 core cell …
The molecular architecture of cell cycle arrest
W Stallaert, SR Taylor, KM Kedziora… - Molecular Systems …, 2022 - embopress.org
The cellular decision governing the transition between proliferative and arrested states is
crucial to the development and function of every tissue. While the molecular mechanisms that …
crucial to the development and function of every tissue. While the molecular mechanisms that …
PFA fixation enables artifact-free super-resolution imaging of the actin cytoskeleton and associated proteins
D Leyton-Puig, KM Kedziora, T Isogai… - Biology …, 2016 - journals.biologists.com
Super-resolution microscopy (SRM) allows precise localization of proteins in cellular organelles
and structures, including the actin cytoskeleton. Yet sample preparation protocols for …
and structures, including the actin cytoskeleton. Yet sample preparation protocols for …
siFLIM: single-image frequency-domain FLIM provides fast and photon-efficient lifetime data
M Raspe, KM Kedziora, B Van Den Broek, Q Zhao… - Nature …, 2016 - nature.com
We developed single-image fluorescence lifetime imaging microscopy (siFLIM), a method for
acquiring quantitative lifetime images from a single exposure. siFLIM takes advantage of a …
acquiring quantitative lifetime images from a single exposure. siFLIM takes advantage of a …
Negative regulation of urokinase receptor activity by a GPI-specific phospholipase C in breast cancer cells
…, K van de Wetering, D Leyton-Puig, KM Kedziora… - Elife, 2017 - elifesciences.org
10.7554/eLife.23649.001 The urokinase receptor (uPAR) is a glycosylphosphatidylinositol (GPI)-anchored
protein that promotes tissue remodeling, tumor cell adhesion, migration and …
protein that promotes tissue remodeling, tumor cell adhesion, migration and …