Anson Lau scite author profile

Liquid-liquid phase separation (LLPS), especially coacervation, plays a crucial role in cell biology, as it forms numerous membraneless organelles in cells. Coacervates play an indispensable role in regulating intracellular biochemistry, and their dysfunction is associated with several diseases. Understanding of the LLPS dynamics would greatly benefit from controlled in vitro assays that mimic cells. Here, we use a microfluidics-based methodology to form coacervates inside cell-sized (~10 µm) liposomes, allowing control over the dynamics. Protein-pore-mediated permeation of small molecules into liposomes triggers LLPS passively or via active mechanisms like enzymatic polymerization of nucleic acids. We demonstrate sequestration of proteins (FtsZ) and supramolecular assemblies (lipid vesicles), as well as the possibility to host metabolic reactions ( β - galactosidase activity) inside coacervates. This coacervate-in-liposome platform provides a versatile tool to understand intracellular phase behavior, and these hybrid systems will allow engineering complex pathways to reconstitute cellular functions and facilitate bottom-up creation of synthetic cells.

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FtsZ‐Induced Shape Transformation of Coacervates

Fanalista

Deshpande

Lau

et al. 2018

Adv. Biosys.

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Recently, both the cellular and synthetic biology communities have expressed a strong interest in coacervates, membrane‐less liquid droplets composed of densely packed multivalent molecules that form as a result of spontaneous phase separation. Here, it is studied how FtsZ, a protein that plays a key role in the bacterial division process, remodels coacervates made of polylysine (pLL) and guanosine triphosphate (GTP). It is shown that FtsZ strongly partitions at the surface of the coacervates and induces their disassembly due to the hydrolysis of GTP by FtsZ. Surprisingly, the coacervates are found to promote lateral interactions between FtsZ filaments, inducing the formation of an emanating network of FtsZ bundles that interconnect neighboring coacervates. Under mechanical stress, coacervates are shown to fracture, resulting in profound invaginations along their circumference. The results bring out the potential of coacervates for their use as membrane‐free scaffolds for building synthetic cells as well as are possibly relevant for coacervation in prokaryotic cells.

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Critical review on where CRISPR meets molecular diagnostics

2020

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Simple yet powerful clustered regularly-interspaced short palindromic repeats (CRISPR) technology has led to the advent of numerous developments in life sciences, biotechnology, therapeutics, and molecular diagnostics, enabled by gene editing capability. By exploiting the CRISPR-Cas system’s nucleic acid sequence detection abilities, CRISPR-based molecular diagnostics have been developed. Here, we review the development of rapid, sensitive, and inexpensive CRISPR-based molecular diagnostics. We introduce the transition of CRISPR technology to precision molecular diagnostic devices from tube to device. Next, we discuss the various nucleic acid (NA) detection methods by CRISPR. We address the importance of significant sample preparation steps for a future sample-to-answer solution, which is lacking in current CRISPR-based molecular diagnostic technology. Lastly, we discuss the extension of CRISPR-based molecular diagnostics to various critical applications. We envision CRISPR technology holds great promise for widespread use in precision NA detection applications after particular technical challenges are overcome.

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Detailed Design Report : Corridor Redesign of Chancellor Boulevard

Abella¹,

Agustin²,

Athans³

et al. 2018

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Anson Lau

Spatiotemporal control of coacervate formation within liposomes

FtsZ‐Induced Shape Transformation of Coacervates

Critical review on where CRISPR meets molecular diagnostics

Detailed Design Report : Corridor Redesign of Chancellor Boulevard

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