Massively parallel single-amino-acid mutagenesis

ABSTRACTDetermining the pathogenicity of human genetic variants is a critical challenge, and functional assessment is often the only option. Experimentally characterizing millions of possible missense variants in thousands of clinically important genes will likely require generalizable, scalable assays. Here we describe Variant Abundance by Massively Parallel Sequencing (VAMP-seq), which measures the effects of thousands of missense variants of a protein on intracellular abundance in a single experiment. We apply VAMP-seq to quantify the abundance of 7,595 single amino acid variants of two proteins, PTEN and TPMT, in which functional variants are clinically actionable. We identify 1,079 PTEN and 805 TPMT single amino acid variants that result in low protein abundance, and may be pathogenic or alter drug metabolism, respectively. We observe selection for low-abundance PTEN variants in cancer, and our abundance data suggest that a PTEN variant accounting for ~10% of PTEN missense variants in melanomas functions via a dominant negative mechanism. Finally, we demonstrate that VAMP-seq can be applied to other genes, highlighting its potential as a generalizable assay for characterizing missense variants.

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Massively parallel enzyme kinetics reveals the substrate recognition landscape of the metalloprotease ADAMTS13

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1511328112 ◽

2015 ◽

Vol 112 (30) ◽

pp. 9328-9333 ◽

Cited By ~ 13

Author(s):

Colin A. Kretz ◽

Manhong Dai ◽

Onuralp Soylemez ◽

Andrew Yee ◽

Karl C. Desch ◽

...

Keyword(s):

Amino Acid ◽

Enzyme Kinetics ◽

High Throughput Sequencing ◽

Phage Display Library ◽

Massively Parallel ◽

Single Amino Acid ◽

Reaction Rate Constants ◽

Binding Domains ◽

Dependent Change ◽

Library Complexity

Proteases play important roles in many biologic processes and are key mediators of cancer, inflammation, and thrombosis. However, comprehensive and quantitative techniques to define the substrate specificity profile of proteases are lacking. The metalloprotease ADAMTS13 regulates blood coagulation by cleaving von Willebrand factor (VWF), reducing its procoagulant activity. A mutagenized substrate phage display library based on a 73-amino acid fragment of VWF was constructed, and the ADAMTS13-dependent change in library complexity was evaluated over reaction time points, using high-throughput sequencing. Reaction rate constants (kcat/KM) were calculated for nearly every possible single amino acid substitution within this fragment. This massively parallel enzyme kinetics analysis detailed the specificity of ADAMTS13 and demonstrated the critical importance of the P1-P1′ substrate residues while defining exosite binding domains. These data provided empirical evidence for the propensity for epistasis within VWF and showed strong correlation to conservation across orthologs, highlighting evolutionary selective pressures for VWF.

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Electron capture dissociation distinguishes a single -amino acid in a protein and probes the tertiary structure

Journal of the American Society for Mass Spectrometry ◽

10.1016/s1044-0305(04)00283-1 ◽

2004 ◽

Author(s):

C ADAMS

Keyword(s):

Amino Acid ◽

Electron Capture ◽

Electron Capture Dissociation ◽

Tertiary Structure ◽

Single Amino Acid

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Single Amino Acid Based Self-Assemblies of Cysteine and Methionine

10.26434/chemrxiv.5972173.v1 ◽

2018 ◽

Author(s):

Nidhi Gour ◽

Bharti Koshti ◽

Chandra Kanth P. ◽

Dhruvi Shah ◽

Vivek Shinh Kshatriya ◽

...

Keyword(s):

Amino Acids ◽

Amino Acid ◽

Self Assembly ◽

Aromatic Amino Acids ◽

Neutral Condition ◽

Single Amino Acid ◽

Binding Assays ◽

Human Neuroblastoma ◽

Cytotoxicity Assays ◽

First Time

We report for the very first time self-assembly of Cysteine and Methionine to discrenible strucutres under neutral condition. To get insights into the structure formation, thioflavin T and Congo red binding assays were done which revealed that aggregates may not have amyloid like characteristics. The nature of interactions which lead to such self-assemblies was purported by coincubating assemblies in urea and mercaptoethanol. Further interaction of aggregates with short amyloidogenic dipeptide diphenylalanine (FF) was assessed. While cysteine aggregates completely disrupted FF fibres, methionine albeit triggered fibrillation. The cytotoxicity assays of cysteine and methionine structures were performed on Human Neuroblastoma IMR-32 cells which suggested that aggregates are not cytotoxic in nature and thus, may not have amyloid like etiology. The results presented in the manuscript are striking, since to the best of our knowledge,this is the first report which demonstrates that even non-aromatic amino acids (cysteine and methionine) can undergo spontaneous self-assembly to form ordered aggregates.

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