Amna Muhammad scite author profile

Cellular condensates can comprise membrane‐less ribonucleoprotein assemblies with liquid‐like properties. These cellular condensates influence various biological outcomes, but their liquidity hampers their isolation and characterization. Here, we investigated the composition of the condensates known as processing bodies (PBs) in the model plant Arabidopsis thaliana through a proximity‐biotinylation proteomics approach. Using in situ protein–protein interaction approaches, genetics and high‐resolution dynamic imaging, we show that processing bodies comprise networks that interface with membranes. Surprisingly, the conserved component of PBs, DECAPPING PROTEIN 1 (DCP1), can localize to unique plasma membrane subdomains including cell edges and vertices. We characterized these plasma membrane interfaces and discovered a developmental module that can control cell shape. This module is regulated by DCP1, independently from its role in decapping, and the actin‐nucleating SCAR–WAVE complex, whereby the DCP1–SCAR–WAVE interaction confines and enhances actin nucleation. This study reveals an unexpected function for a conserved condensate at unique membrane interfaces.

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In vitro and in vivo anthelmintic activity of extracts from Artemisia parviflora and A. sieversiana

Irum

Ahmed

Mirza

et al. 2017

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In the northern areas of Pakistan, the use of Artemisia based therapeutics is a common practice. Plants of genus Artemisia are known to possess anthelmintic and therapeutic effect. Infections caused by gastrointestinal nematodes are major threat to livestock industry across the world resulting in loss of production and indirect economic losses due to high cost of anthelmintic drugs. Present study was carried out to evaluate in vitro and in vivo effect of Artemisia sieversiana and Artemisia parvifl ora on Haemonchus contortus, a parasitic nematode of small ruminants. Methanolic plant extract was tested against three different developmental stages using an egg hatch assay, infective larvae and adult worm motility assay. Different concentrations were used for the bioassays and post exposure mortality was recorded after 8 hr for adult worms and infective larvae, while egg inhibition percentage was observed after 27 hr. A highly signifi cant ability to inhibit the egg hatching (100 %) was recorded for both plant extracts while, the highest activity for adult worm assay and larvicidal assay was 90 % for A. sieversiana. The highest activity for adult motility and larvicidal assay for A. parvifl ora was 89 % and 86.6 % respectively. For in vivo trials maximum parentage reduction was 77.0 % for A. sieversiana and 73.6 % for A. parvifl ora. It is concluded that selected plant extracts were effective in reducing worm burden in animals.

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The Dynamic Composition of an Archetypal Plant Condensate Highlights a Tug-of-War between Condensates and Cell Vertex

et al. 2021

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Addressing artifacts of colorimetric anticancer assays for plant-based drug development

et al. 2022

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Amna Muhammad

An actin remodeling role for Arabidopsis processing bodies revealed by their proximity interactome

In vitro and in vivo anthelmintic activity of extracts from Artemisia parviflora and A. sieversiana

The Dynamic Composition of an Archetypal Plant Condensate Highlights a Tug-of-War between Condensates and Cell Vertex

Addressing artifacts of colorimetric anticancer assays for plant-based drug development

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