Silke Nock scite author profile

The SARS-CoV-2 virus enters host cells via an interaction between its Spike protein and the host cell receptor angiotensin converting enzyme 2 (ACE2). By screening a yeast surface-displayed library of synthetic nanobody sequences, we developed nanobodies that disrupt the interaction between Spike and ACE2. Cryogenic electron microscopy (cryo-EM) revealed that one nanobody, Nb6, binds Spike in a fully inactive conformation with its receptor binding domains (RBDs) locked into their inaccessible down-state, incapable of binding ACE2. Affinity maturation and structure-guided design of multivalency yielded a trivalent nanobody, mNb6-tri, with femtomolar affinity for Spike and picomolar neutralization of SARS-CoV-2 infection. mNb6-tri retains function after aerosolization, lyophilization, and heat treatment, which enables aerosol-mediated delivery of this potent neutralizer directly to the airway epithelia.

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Role of SRP RNA in the GTPase Cycles of Ffh and FtsY

Peluso

et al. 2001

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The bacterial homologues of the signal recognition particle (SRP) and its receptor, the Ffh•4.5S RNA ribonucleoprotein complex and the FtsY protein, respectively, form a unique complex in which both Ffh and FtsY act as GTPase activating proteins for one another, resulting in the mutual stimulation of GTP hydrolysis by both proteins. Previous work showed that 4.5S RNA enhances the GTPase activity in the presence of both Ffh and FtsY, but it was not clear how this was accomplished. In this work, kinetic and thermodynamic analyses of the GTPase reactions of Ffh and FtsY have provided insights into the role of 4.5S RNA in the GTPase cycles of Ffh and FtsY. We found that 4.5S RNA accelerates the association between Ffh and FtsY 400-fold in their GTP-bound form, analogous to its 200-fold catalytic effect on Ffh•FtsY association previously observed with the GppNHp-bound form [Peluso, P., et al. (2000) Science 288, [1640][1641][1642][1643]. Further, Ffh-FtsY association is rate-limiting for the observed GTPase reaction with subsaturating Ffh and FtsY, thereby accounting for the apparent stimulatory effect of 4.5S RNA on the GTPase activity observed previously. An additional step, GTP hydrolysis from the Ffh•FtsY complex, is also moderately facilitated by 4.5S RNA. These results suggest that 4.5S RNA modulates the conformation of the Ffh•FtsY complex and may, in turn, regulate its GTPase activity during the SRP functional cycle.

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Role of 4.5 S RNA in Assembly of the Bacterial Signal Recognition Particle with Its Receptor

Peluso

Herschlag

Nock

et al. 2000

Science

137

165

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The mechanism by which a signal recognition particle (SRP) and its receptor mediate protein targeting to the endoplasmic reticulum or to the bacterial plasma membrane is evolutionarily conserved. In Escherichia coli, this reaction is mediated by the Ffh/4.5S RNA ribonucleoprotein complex (Ffh/4.5S RNP; the SRP) and the FtsY protein (the SRP receptor). We have quantified the effects of 4.5S RNA on Ffh-FtsY complex formation by monitoring changes in tryptophan fluorescence. Surprisingly, 4.5S RNA facilitates both assembly and disassembly of the Ffh-FtsY complex to a similar extent. These results provide an example of an RNA molecule facilitating protein-protein interactions in a catalytic fashion.

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Silke Nock

An ultrapotent synthetic nanobody neutralizes SARS-CoV-2 by stabilizing inactive Spike

Role of SRP RNA in the GTPase Cycles of Ffh and FtsY

Role of 4.5 S RNA in Assembly of the Bacterial Signal Recognition Particle with Its Receptor

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