Adam Farchone scite author profile

Adam Farchone

3Publications

24Citation Statements Received

73Citation Statements Given

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Affiliations

Roche (United States), University of Notre Dame

Publications

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Fast, Robust, and Sensitive Identification of Residual Host Cell Proteins in Recombinant Monoclonal Antibodies Using Sodium Deoxycholate Assisted Digestion

Farchone

Zhu

et al. 2020

Anal. Chem.

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Residual host cell proteins (HCPs) present in biotherapeutics can pose potential safety risks for patients or affect product stability, thus prompting a critical need to monitor HCPs in drug substance or product to ensure product safety and quality. Current approaches for robust HCP identification at or above 10 ppm levels require either concatenated peptide fractionation or enrichment via antibody depletion, which challenges the direct quantitation of HCPs. This paper describes a simple, fast sample preparation method without the need for sample fractionation or enrichment; instead, we utilize trypsin-friendly sodium deoxycholate (SDC) as an advantageous denaturant that can be effectively removed following acidification at the end of sample digestion. This new approach enables the end-to-end one-dimensional liquid chromatography–tandem mass spectrometry (1D LC–MS/MS) workflow (i.e., from sample preparation to HCP identification) to be completed in 7–8 h while demonstrating the ability to consistently identify HCPs across a broad molecular weight range at 10 ppm or above.

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Preparation of Mica and Silicon Substrates for DNA Origami Analysis and Experimentation

Pillers

Shute

Farchone

et al. 2015

JoVE

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The designed nature and controlled, one-pot synthesis of DNA origami provides exciting opportunities in many fields, particularly nanoelectronics. Many of these applications require interaction with and adhesion of DNA nanostructures to a substrate. Due to its atomically flat and easily cleaned nature, mica has been the substrate of choice for DNA origami experiments. However, the practical applications of mica are relatively limited compared to those of semiconductor substrates. For this reason, a straightforward, stable, and repeatable process for DNA origami adhesion on derivatized silicon oxide is presented here. To promote the adhesion of DNA nanostructures to silicon oxide surface, a selfassembled monolayer of 3-aminopropyltriethoxysilane (APTES) is deposited from an aqueous solution that is compatible with many photoresists. The substrate must be cleaned of all organic and metal contaminants using Radio Corporation of America (RCA) cleaning processes and the native oxide layer must be etched to ensure a flat, functionalizable surface. Cleanrooms are equipped with facilities for silicon cleaning, however many components of DNA origami buffers and solutions are often not allowed in them due to contamination concerns. This manuscript describes the set-up and protocol for in-lab, small-scale silicon cleaning for researchers who do not have access to a cleanroom or would like to incorporate processes that could cause contamination of a cleanroom CMOS clean bench. Additionally, variables for regulating coverage are discussed and how to recognize and avoid common sample preparation problems is described. Video LinkThe video component of this article can be found at

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Preparation of Mica and Silicon Substrates for DNA Origami Analysis and Experimentation

Pillers

Shute

Farchone

et al. 2015

JoVE

View full text Add to dashboard Cite

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Adam Farchone

Fast, Robust, and Sensitive Identification of Residual Host Cell Proteins in Recombinant Monoclonal Antibodies Using Sodium Deoxycholate Assisted Digestion

Preparation of Mica and Silicon Substrates for DNA Origami Analysis and Experimentation

Preparation of Mica and Silicon Substrates for DNA Origami Analysis and Experimentation

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