Edgar M. Faison scite author profile

An array of carbohydrates masks the HIV-1 surface protein Env, contributing to the evasion of humoral immunity. In most HIV-1 isolates ‘glycan holes’ occur due to natural sequence variation, potentially revealing the underlying protein surface to the immune system. Here we computationally design epitopes that mimic such surface features (carbohydrate-occluded neutralization epitopes or CONE) of Env through ‘epitope transplantation’, in which the target region is presented on a carrier protein scaffold with preserved structural properties. Scaffolds displaying the four CONEs are examined for structure and immunogenicity. Crystal structures of two designed proteins reflect the computational models and accurately mimic the native conformations of CONEs. The sera from rabbits immunized with several CONE immunogens display Env binding activity. Our method determines essential structural elements for targets of protective antibodies. The ability to design immunogens with high mimicry to viral proteins also makes possible the exploration of new templates for vaccine development.

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DNA looping by two 5-methylcytosine-binding proteins quantified using nanofluidic devices

Liu

Movahed

Dangi

et al. 2020

Epigenetics & Chromatin

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Background: MeCP2 and MBD2 are members of a family of proteins that possess a domain that selectively binds 5-methylcytosine in a CpG context. Members of the family interact with other proteins to modulate DNA packing. Stretching of DNA-protein complexes in nanofluidic channels with a cross-section of a few persistence lengths allows us to probe the degree of compaction by proteins. Results: We demonstrate DNA compaction by MeCP2 while MBD2 does not affect DNA configuration. By using atomic force microscopy (AFM), we determined that the mechanism for compaction by MeCP2 is the formation of bridges between distant DNA stretches and the formation of loops. Conclusions: Despite sharing a similar specific DNA-binding domain, the impact of full-length 5-methylcytosinebinding proteins can vary drastically between strong compaction of DNA and no discernable large-scale impact of protein binding. We demonstrate that ATTO 565-labeled MBD2 is a good candidate as a staining agent for epigenetic mapping.

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Stabilization of μ‐opioid receptor facilitates its cellular translocation and signaling

et al. 2019

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The G protein‐coupled μ‐opioid receptor (μ‐OR) mediates the majority of analgesia effects for morphine and other pain relievers. Despite extensive studies of its structure and activation mechanisms, the inherently low maturation efficiency of μ‐OR represents a major hurdle to understanding its function. Here we computationally designed μ‐OR mutants with altered stability to probe the relationship between cell‐surface targeting, signal transduction, and agonist efficacy. The stabilizing mutation T315Y enhanced μ‐OR trafficking to the plasma membrane and significantly promoted the morphine‐mediated inhibition of downstream signaling. In contrast, the destabilizing mutation R165Y led to intracellular retention of μ‐OR and reduced the response to morphine stimulation. These findings suggest that μ‐OR stability is an important factor in regulating receptor signaling and provide a viable avenue to improve the efficacy of analgesics.

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Polymer-Nanodiscs as a Novel Alignment Medium for High-Resolution NMR-Based Structural Studies of Nucleic Acids

et al. 2022

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Residual dipolar couplings (RDCs) are increasingly used for high-throughput NMR-based structural studies and to provide long-range angular constraints to validate and refine structures of various molecules determined by X-ray crystallography and NMR spectroscopy. RDCs of a given molecule can be measured in an anisotropic environment that aligns in an external magnetic field. Here, we demonstrate the first application of polymer-based nanodiscs for the measurement of RDCs from nucleic acids. Polymer-based nanodiscs prepared using negatively charged SMA-EA polymer and zwitterionic DMPC lipids were characterized by size-exclusion chromatography, 1H NMR, dynamic light-scattering, and 2H NMR. The magnetically aligned polymer-nanodiscs were used as an alignment medium to measure RDCs from a 13C/15N-labeled fluoride riboswitch aptamer using 2D ARTSY-HSQC NMR experiments. The results showed that the alignment of nanodiscs is stable for nucleic acids and nanodisc-induced RDCs fit well with the previously determined solution structure of the riboswitch. These results demonstrate that SMA-EA-based lipid-nanodiscs can be used as a stable alignment medium for high-resolution structural and dynamical studies of nucleic acids, and they can also be applicable to study various other biomolecules and small molecules in general.

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Edgar M. Faison

Rationally designed carbohydrate-occluded epitopes elicit HIV-1 Env-specific antibodies

DNA looping by two 5-methylcytosine-binding proteins quantified using nanofluidic devices

Stabilization of μ‐opioid receptor facilitates its cellular translocation and signaling

Polymer-Nanodiscs as a Novel Alignment Medium for High-Resolution NMR-Based Structural Studies of Nucleic Acids

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