Jessica A. Wales scite author profile

The expansion of native mass spectrometry (MS) methods for both academic and industrial applications has created a substantial need for analysis of large native MS datasets. Existing software tools are poorly suited for high-throughput deconvolution of native electrospray mass spectra from intact proteins and protein complexes. The UniDec Bayesian deconvolution algorithm is uniquely well suited for high-throughput analysis due to its speed and robustness but was previously tailored towards individual spectra. Here, we optimized UniDec for deconvolution, analysis, and visualization of large data sets. This new module, MetaUniDec, centers around a hierarchical data format 5 (HDF5) format for storing datasets that significantly improves speed, portability, and file size. It also includes code optimizations to improve speed and a new graphical user interface for visualization, interaction, and analysis of data. To demonstrate the utility of MetaUniDec, we applied the software to analyze automated collision voltage ramps with a small bacterial heme protein and large lipoprotein nanodiscs. Upon increasing collisional activation, bacterial heme-nitric oxide/oxygen binding (H-NOX) protein shows a discrete loss of bound heme, and nanodiscs show a continuous loss of lipids and charge. By using MetaUniDec to track changes in peak area or mass as a function of collision voltage, we explore the energetic profile of collisional activation in an ultra-high mass range Orbitrap mass spectrometer. Graphical abstract ᅟ.

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Structure and Activation of Soluble Guanylyl Cyclase, the Nitric Oxide Sensor

Montfort

Wales

Weichsel

2017

Antioxidants & Redox Signaling

116

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Discovery of stimulator binding to a conserved pocket in the heme domain of soluble guanylyl cyclase

Wales

Chen

Breci

et al. 2018

Journal of Biological Chemistry

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Soluble guanylyl cyclase (sGC) is the receptor for nitric oxide and a highly soughtafter therapeutic target for the management of cardiovascular diseases. New compounds that stimulate sGC show clinical promise, but where these stimulator compounds bind and how they function remains unknown. Here, using a photolyzable diazirine derivative of a novel stimulator compound, IWP-051, and MS analysis, we localized drug binding to the β1 heme domain of sGC proteins from the hawkmoth Manduca sexta and from human. Covalent attachments to the stimulator were also identified in bacterial homologs of the sGC heme domain, referred to as H-NOX domains, including those from Nostoc sp. 7120, Shewanella oneidensis, Shewanella woodyi, and Clostridium botulinum, indicating the binding site is highly conserved. The identification of photoaffinity-labeled peptides was aided by a signature MS fragmentation pattern of general applicability for unequivocal identification of covalently attached compounds. Using NMR, we also examined stimulator binding to sGC from M. sexta and bacterial H-NOX homologs. These data indicated that stimulators bind to a conserved cleft between two subdomains in the sGC heme domain. L23W/T48W substitutions within the binding pocket resulted in a 9-fold decrease in drug response, suggesting the bulkier tryptophan residues directly block stimulator binding.

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Abstracts from the 8th International Conference on cGMP Generators, Effectors and Therapeutic Implications

Milne¹,

Sandner²,

Lincoln³

et al. 2017

BMC Pharmacol Toxicol

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Jessica A. Wales

MetaUniDec: High-Throughput Deconvolution of Native Mass Spectra

Structure and Activation of Soluble Guanylyl Cyclase, the Nitric Oxide Sensor

Discovery of stimulator binding to a conserved pocket in the heme domain of soluble guanylyl cyclase

Abstracts from the 8th International Conference on cGMP Generators, Effectors and Therapeutic Implications

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