Keyword search (4,163 papers available)

"Piekny A" Authored Publications:

Title Authors PubMed ID
1 Open-space microfluidics as a tool to study signaling dynamics Proulx M; Clapperton-Richard P; Potvin-Trottier L; Piekny A; Gervais T; 40995884
BIOLOGY
2 Surface charge dictates the mechanism of cellular uptake of fluorescent amine passivated carbon dots Clermont-Paquette A; Fuoco G; Brancheriau CR; Piekny A; Naccache R; 40861971
CHEMBIOCHEM
3 Development of dual acid-visible light-degradable core-crosslinked nanogels with extended conjugate aromatic imines for enhanced drug delivery Bairagi K; Shamekhi M; Tountas I; Letourneau N; Peslherbe GH; Piekny A; Oh JK; 40637173
BIOLOGY
4 Endogenous tagging using split mNeonGreen in human iPSCs for live imaging studies Husser MC; Pham NP; Law C; Araujo FRB; Martin VJJ; Piekny A; 38652106
BIOLOGY
5 Advances in the design and use of carbon dots for analytical and biomedical applications Adeola AO; Clermont-Paquette A; Piekny A; Naccache R; 37757783
CHEMBIOCHEM
6 Ratiometric Sensing of Glyphosate in Water Using Dual Fluorescent Carbon Dots Clermont-Paquette A; Mendoza DA; Sadeghi A; Piekny A; Naccache R; 37299928
BIOLOGY
7 Diversity is the spice of life: An overview of how cytokinesis regulation varies with cell type Ozugergin I; Piekny A; 36420142
BIOLOGY
8 Gold Nano-Bio-Interaction to Modulate Mechanobiological Responses for Cancer Therapy Applications Sohrabi Kashani A; Larocque K; Piekny A; Packirisamy M; 35839330
BIOLOGY
9 Diverse mechanisms regulate contractile ring assembly for cytokinesis in the two-cell C. elegans embryo Ozugergin I; Mastronardi K; Law C; Piekny A; 35022791
BIOLOGY
10 Characterization of a recently synthesized microtubule-targeting compound that disrupts mitotic spindle poles in human cells Jaunky DB; Larocque K; Husser MC; Liu JT; Forgione P; Piekny A; 34880347
BIOLOGY
11 Design, structure-activity relationship study and biological evaluation of the thieno[3,2-c]isoquinoline scaffold as a potential anti-cancer agent Liu JT; Jaunky DB; Larocque K; Chen F; Mckibbon K; Sirouspour M; Taylor S; Shafeii A; Campbell D; Braga H; Piekny A; Forgione P; 34416378
BIOLOGY
12 Seeing is believing: tools to study the role of Rho GTPases during cytokinesis Koh SP; Pham NP; Piekny A; 34405757
BIOLOGY
13 Using intracellular plasmonics to characterize nanomorphology in human cells. Sohrabi Kashani A, Piekny A, Packirisamy M 33365137
BIOLOGY
14 Multi-tissue patterning drives anterior morphogenesis of the C. elegans embryo. Grimbert S, Mastronardi K, Richard V, Christensen R, Law C, Zardoui K, Fay D, Piekny A 33309948
BIOLOGY
15 Anillin Controls the Rho Zone. Piekny A 32893380
BIOLOGY
16 Importin-binding mediates the intramolecular regulation of anillin during cytokinesis. Beaudet D, Pham N, Skaik N, Piekny A 32238082
BIOLOGY
17 Complementary functions for the Ran gradient during division. Ozugergin I, Piekny A 32013678
BIOLOGY
18 Active Ran regulates anillin function during cytokinesis. Beaudet D, Akhshi T, Phillipp J, Law C, Piekny A 28931593
BIOLOGY
19 Dual disassembly and biological evaluation of enzyme/oxidation-responsive polyester-based nanoparticulates for tumor-targeting delivery. Hong SH, Larocque K, Jaunky DB, Piekny A, Oh JK 30223243
CHEMBIOCHEM

 

Title:Complementary functions for the Ran gradient during division.
Authors:Ozugergin IPiekny A
Link:https://www.ncbi.nlm.nih.gov/pubmed/32013678?dopt=Abstract
DOI:10.1080/21541248.2020.1725371
Publication:Small GTPases
Keywords:Rancytokinesisimportin-αimportin-βmitosis
PMID:32013678 Category:Small GTPases Date Added:2020-02-05
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, Montreal, QC, Canada.

Description:

Complementary functions for the Ran gradient during division.

Small GTPases. 2020 Feb 03;:

Authors: Ozugergin I, Piekny A

Abstract

The Ran pathway has a well-described function in nucleocytoplasmic transport, where active Ran dissociates importin/karyopherin-bound cargo containing a nuclear localization signal (NLS) in the nucleus. As cells enter mitosis, the nuclear envelope breaks down and a gradient of active Ran forms where levels are highest near chromatin. This gradient plays a crucial role in regulating mitotic spindle assembly, where active Ran binds to and releases importins from NLS-containing spindle assembly factors. An emerging theme is that the Ran gradient also regulates the actomyosin cortex for processes including polar body extrusion during meiosis, and cytokinesis. For these events, active Ran could play an inhibitory role, where importin-binding may help promote or stabilize a conformation or interaction that favors the recruitment and function of cortical regulators. For either spindle assembly or cortical polarity, the gradient of active Ran determines the extent of importin-binding, the effects of which could vary for different proteins.

PMID: 32013678 [PubMed - as supplied by publisher]




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