Alain R Bonny scite author profile

The ability to rapidly assemble and prototype cellular circuits is vital for biological research and its applications in biotechnology and medicine. Current methods that permit the assembly of DNA circuits in mammalian cells are laborious, slow, expensive and mostly not permissive of rapid prototyping of constructs. Here we present the Mammalian ToolKit (MTK), a Golden Gate-based cloning toolkit for fast, reproducible and versatile assembly of large DNA vectors and their implementation in mammalian models. The MTK consists of a curated library of characterized, modular parts that can be easily mixed and matched to combinatorially assemble one transcriptional unit with different characteristics, or a hierarchy of transcriptional units weaved into complex circuits. MTK renders many cell engineering operations facile, as showcased by our ability to use the toolkit to generate single-integration landing pads, to create and deliver libraries of protein variants and sgRNAs, and to iterate through Cas9-based prototype circuits. As a biological proof of concept, we used the MTK to successfully design and rapidly construct in mammalian cells a challenging multicistronic circuit encoding the Ebola virus (EBOV) replication complex. This construct provides a non-infectious biosafety level 2 (BSL2) cellular assay for exploring the transcription and replication steps of the EBOV viral life cycle in its host. Its construction also demonstrates how the MTK can enable important and time sensitive applications such as the rapid testing of pharmacological inhibitors of emerging BSL4 viruses that pose a major threat to human health..

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Determination of ubiquitin fitness landscapes under different chemical stresses in a classroom setting

Mavor

Barlow

Thompson

et al. 2016

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Ubiquitin is essential for eukaryotic life and varies in only 3 amino acid positions between yeast and humans. However, recent deep sequencing studies indicate that ubiquitin is highly tolerant to single mutations. We hypothesized that this tolerance would be reduced by chemically induced physiologic perturbations. To test this hypothesis, a class of first year UCSF graduate students employed deep mutational scanning to determine the fitness landscape of all possible single residue mutations in the presence of five different small molecule perturbations. These perturbations uncover 'shared sensitized positions' localized to areas around the hydrophobic patch and the C-terminus. In addition, we identified perturbation specific effects such as a sensitization of His68 in HU and a tolerance to mutation at Lys63 in DTT. Our data show how chemical stresses can reduce buffering effects in the ubiquitin proteasome system. Finally, this study demonstrates the potential of lab-based interdisciplinary graduate curriculum.DOI: http://dx.doi.org/10.7554/eLife.15802.001

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The disordered C-terminus of the RNA Polymerase II phosphatase FCP1 is partially helical in the unbound state

Lawrence

Bonny

Showalter

2011

Biochemical and Biophysical Research Communications

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Stress-induced growth rate reduction restricts metabolic resource utilization to modulate osmo-adaptation time

et al. 2021

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Alain R Bonny

A Toolkit for Rapid Modular Construction of Biological Circuits in Mammalian Cells

Determination of ubiquitin fitness landscapes under different chemical stresses in a classroom setting

The disordered C-terminus of the RNA Polymerase II phosphatase FCP1 is partially helical in the unbound state

Stress-induced growth rate reduction restricts metabolic resource utilization to modulate osmo-adaptation time

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