Trisha N. Chong scite author profile

Biomolecular condensates formed via liquid-liquid phase separation enable spatial and temporal organization of enzyme activity. Phase separation in many eukaryotic condensates has been shown to be responsive to intracellular adenosine triphosphate (ATP) levels, although the consequences of these mechanisms for enzymes sequestered within the condensates are unknown. Here, we show that ATP depletion promotes phase separation in bacterial condensates composed of intrinsically disordered proteins. Enhanced phase separation promotes the sequestration and activity of a client kinase enabling robust signaling and maintenance of viability under the stress posed by nutrient scarcity. We propose that a diverse repertoire of condensates can serve as control knobs to tune enzyme sequestration and reactivity in response to the metabolic state of bacterial cells.

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Male Killing Spiroplasma Preferentially Disrupts Neural Development in the Drosophila melanogaster Embryo

Martin

Chong

Ferree

2013

PLoS ONE

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Male killing bacteria such as Spiroplasma are widespread pathogens of numerous arthropods including Drosophila melanogaster. These maternally transmitted bacteria can bias host sex ratios toward the female sex in order to ‘selfishly’ enhance bacterial transmission. However, little is known about the specific means by which these pathogens disrupt host development in order to kill males. Here we show that a male-killing Spiroplasma strain severely disrupts nervous tissue development in male but not female D. melanogaster embryos. The neuroblasts, or neuron progenitors, form properly and their daughter cells differentiate into neurons of the ventral nerve chord. However, the neurons fail to pack together properly and they produce highly abnormal axons. In contrast, non-neural tissue, such as mesoderm, and body segmentation appear normal during this time, although the entire male embryo becomes highly abnormal during later stages. Finally, we found that Spiroplasma is altogether absent from the neural tissue but localizes within the gut and the epithelium immediately surrounding the neural tissue, suggesting that the bacterium secretes a toxin that affects neural tissue development across tissue boundaries. Together these findings demonstrate the unique ability of this insect pathogen to preferentially affect development of a specific embryonic tissue to induce male killing.

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ATP-responsive biomolecular condensates tune bacterial kinase signaling

Saurabh

Chong

Bayas

et al. 2020

Preprint

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Maintenance of robust biochemical signaling is essential for oligotrophic bacteria that survive under fluctuating environmental challenges. We report that a polar microdomain in Caulobacter crescentus tunes a critical signaling pathway to nutrient availability using the hydrotrope effect of ATP on an intracellular biomolecular condensate. Sequestration of this signaling pathway within a specialized polar microdomain formed by two interacting membraneless organelles, stimulates the activity of a localized kinase, which is dependent on the phase transition parameters of a disordered protein component of the microdomain. Under low ATP concentrations, phase separation in the microdomain is reinforced, enhancing kinase activity, and thereby conferring control of a critical cell cycle signaling pathway to the physical properties of a unique system of membraneless organelles.

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Robust Modulation of a Bacterial Kinase by Protein Phase Separation

Saurabh

Chong

Bayas

et al. 2020

Biophysical Journal

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Trisha N. Chong

ATP-responsive biomolecular condensates tune bacterial kinase signaling

Male Killing Spiroplasma Preferentially Disrupts Neural Development in the Drosophila melanogaster Embryo

ATP-responsive biomolecular condensates tune bacterial kinase signaling

Robust Modulation of a Bacterial Kinase by Protein Phase Separation

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