Hidden motions and motion-induced invisibility: Dynamics-based spectral editing in solid-state NMR

Matlahov, Irina; Wel, Patrick C.A. van der

doi:10.1016/j.ymeth.2018.04.015

Cited by 90 publications

(194 citation statements)

References 151 publications

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“…Comparing the intensities of these spectra with the DP experiment, it also became clear that CP and INEPT together do not account for all the 13 Cs ignals in the sample.T hus,i nt he dense liquid droplet state there are pHP1a molecules or regions of each individual protein that exhibit motion in an intermediate dynamic range rendering them invisible in both scalar-based and dipolar-based MAS NMR spectroscopy experiments,s imilar to the behavior of other complex biological assemblies. [31] Expecting that pHP1a condensates will equilibrate into gels given sufficient time, [7] we continuously performed MAS and monitored the intensities of the CP and INEPT spectra at 12 hour intervals over the course of aw eek (Figure 1c and Supporting Information, Figure S4). Reaching agel state after 7days (Supporting Information, Figure S2), the total CP signal increased 3.3 fold, the INEPT signal decreased 1.…”

Section: Angewandte Chemiementioning

confidence: 99%

“…Zuschriften theless provide rich information about the overall dynamics in the condensate (Figure 1b). [31] First, the scalar-based 1D INEPT transfer experiment selects for highly mobile sites that have long transverse relaxation times similar to those detected under solution NMR conditions.S econd, rigid regions that exhibit strong dipole-dipole couplings can be selected with 1D cross-polarization (CP) experiments.A nd finally,t he 13 Cd irect polarization (DP) experiment can, in principle,b eu sed to detect all the 13 Cn uclei in the sample independent of dynamics.Atthe start of our experiments,the 1 H-13 CC Ps ignal was remarkably lower than the 1 H-13 C INEPT signal (Figure 1b). Comparing the intensities of these spectra with the DP experiment, it also became clear that CP and INEPT together do not account for all the 13 Cs ignals in the sample.T hus,i nt he dense liquid droplet state there are pHP1a molecules or regions of each individual protein that exhibit motion in an intermediate dynamic range rendering them invisible in both scalar-based and dipolar-based MAS NMR spectroscopy experiments,s imilar to the behavior of other complex biological assemblies.…”

Section: Angewandte Chemiementioning

confidence: 99%

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Heterochromatin Protein HP1α Gelation Dynamics Revealed by Solid‐State NMR Spectroscopy

Ackermann

Debelouchina

2019

Angew Chem Int Ed

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Section: Angewandte Chemiementioning

confidence: 99%

Section: Angewandte Chemiementioning

confidence: 99%

Heterochromatin Protein HP1α Gelation Dynamics Revealed by Solid‐State NMR Spectroscopy

Ackermann

Debelouchina

2019

Angew Chem Int Ed

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“…However, strikingly, distinct subsets of narrow peaks are also detected, with 1D projections showing linewidths of 0.1 to 0.2 kHz (Figure 4C-D left). These experiments employ the cross-polarization (CP) technique, which means that the observable residues must be rigid or immobilized, lacking high flexibility 40 . This conclusion is reinforced by a lack of signals in INEPT-based ssNMR spectra that are selective for highly dynamic peptide segments 41–43 (more below).…”

Section: Resultsmentioning

confidence: 99%

“…We interpret this as indicating that the JD gains increased mobility due to disruption of its long-range electrostatic interactions but is still folded and partly immobilized by its covalent attachment to the overall assembly. As a consequence, the JD is invisible due to intermediate timescale dynamics 40, 47 . Since the broad signals from the other domains are preserved, it appears that the core architecture of the oligomers persists even at high ionic strength, such that it is primarily the JD that is dislodged as electrostatic long-range interactions are weakened.…”

Section: Resultsmentioning

confidence: 99%

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Auto-regulatory J-domain interactions control Hsp70 recruitment to the DnaJB8 chaperone

Ryder

Matlahov

Bali

et al. 2020

Preprint

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In humans, Hsp40s are classified into A, B, and C sub-families, in which members 90 typically function as monomers, dimers, or polydisperse oligomers. For example, the A 91 family Hsp40s (DnaJA1-A4) and a subset of B family Hsp40s (DnaJB1/B4/B5), all encode 92 a globular domain architecture similar to the bacterial Hsp40 DnaJ. These classical Hsp40 93 members assemble into homo-dimers through conserved C-terminal motifs and bind 94 unfolded substrates through conserved b-barrel C-terminal domains (CTD) 20 . Recent 95 evidence suggests that this subset of Hsp40s can form mixed hetero-dimers driven by 96 electrostatic contacts to expand the substrate recognition repertoire 21 . 97 98 A different set of non-classical Hsp40 B family members (DnaJB2, DnaJB6b, DnaJB7 and 99DnaJB8) encode a domain architecture that is distinct from the classical dimeric DnaJ 100 orthologs. Rather than encoding a classical b-barrel CTD, their C-terminus encodes a 101 different architecture [22][23] . Of these 4 members, the DnaJB8 and DnaJB6b proteins have 102 been shown to assemble into oligomers in vitro and in vivo 22,[24][25] . The role of the CTD in 103 these chaperones remains unclear, and the literature reveals conflicting results, 104 suggesting either that it drives oligomerization or that it mediates intramolecular 105 contacts [22][23][24] 26 . The functional role of the oligomeric state of DnaJB6b and DnaJB8 106 remains unclear, although it has been proposed to serve as a type of phase-separated 107 storage form capable of capturing substrates 25 . The characteristic structural and dynamic 108 heterogeneity of the oligomers has greatly hindered efforts to study them, with recent 109 structural studies resorting to deletion mutants to gain structural insight [22][23] . A 110 combination of variables, including large size and polydispersity, has made these 111 chaperones recalcitrant to both classical and modern structural biology methods, 112 including cryoEM 25 . 113 114 The oligomeric chaperones DnaJB6b and DnaJB8 have been shown to be potent 115 suppressors of aggregation of amyloid proteins in cells and in vitro 22, 26 . Despite several 116 studies demonstrating a role for DnaJB6b in suppressing assembly of amyloid-prone 117 substrates it is unclear which domains directly interact with substrates, and how 118 oligomerization plays a role in this process. For example, the serine/threonine domain of 119 DnaJB6b is important for suppression of mutant huntingtin protein aggregation in cells, 27 120 and its deletion limits oligomerization yielding a stable monomer at the expense of 121 activity 23 . In absence of a comprehensive understanding of the full-length structural 122 behavior for this class of DnaJ chaperones, it remains unclear how they fulfill their critical 123 function to protect the proteome from aggregation. 124 125Here we examine in unprecedented detail the DnaJB8 variant. DnaJB8 was shown to be 126 particularly effective at preventing formation of polyglutamine deposits, even more so than 127 DnaJB6b, despite...

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Size‐Control by Anion Templating in Mechanochemical Synthesis of Hemicucurbiturils in the Solid State

et al. 2019

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Self‐organization is one of the most intriguing phenomena of chemical matter. While the self‐assembly of macrocycles and cages in dilute solutions has been extensively studied, it remains poorly understood in solvent‐free environments. Provided here is the first example of using anionic templates to achieve selective assembly of differently‐sized macrocycles in a solvent‐free system. Using acid‐catalyzed synthesis of cyclohexanohemicucurbiturils as a model, size‐controlled, quantitative synthesis of 6‐ or 8‐membered macrocycles by spontaneous anion‐directed reorganization of mechanochemically‐made oligomers in the solid state is demonstrated.

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Hidden motions and motion-induced invisibility: Dynamics-based spectral editing in solid-state NMR

Cited by 90 publications

References 151 publications

Heterochromatin Protein HP1α Gelation Dynamics Revealed by Solid‐State NMR Spectroscopy

Heterochromatin Protein HP1α Gelation Dynamics Revealed by Solid‐State NMR Spectroscopy

Auto-regulatory J-domain interactions control Hsp70 recruitment to the DnaJB8 chaperone

Size‐Control by Anion Templating in Mechanochemical Synthesis of Hemicucurbiturils in the Solid State

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