B. Tracy Nixon scite author profile

Cells are organized on length scales ranging from Angstroms to microns. However, the mechanisms by which Angstrom-scale molecular properties are translated to micron-scale macroscopic properties are not well understood. Here we show that interactions between diverse, synthetic multivalent macromolecules (including multi-domain proteins and RNA) produce sharp, liquid-liquid demixing phase separations, generating micron-sized liquid droplets in aqueous solution. This macroscopic transition corresponds to a molecular transition between small complexes and large, dynamic supramolecular polymers. The concentrations needed for phase transition are directly related to valency of the interacting species. In the case of the actin regulatory protein, neuronal Wiskott-Aldrich Syndrome Protein (N-WASP) interacting with its established biological partners Nck and phosphorylated nephrin1, the phase transition corresponds to a sharp increase in activity toward the actin nucleation factor, Arp2/3 complex. The transition is governed by the degree of phosphorylation of nephrin, explaining how this property of the system can be controlled to regulatory effect by kinases. The widespread occurrence of multivalent systems suggests that phase transitions are likely used to spatially organize and biochemically regulate information throughout biology.

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Regulation of the transcriptional activator NtrC1: structural studies of the regulatory and AAA⁺ ATPase domains

Lee

et al. 2003

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Transcription by54 RNA polymerase depends on activators that contain ATPase domains of the AAA + class. These activators, which are often response regulators of two-component signal transduction systems, remodel the polymerase so that it can form open complexes at promoters. Here, we report the first crystal structures of the ATPase domain of an activator, the NtrC1 protein from the extreme thermophile Aquifex aeolicus. This domain alone, which is active, crystallized as a ring-shaped heptamer. The protein carrying both the ATPase and adjacent receiver domains, which is inactive, crystallized as a dimer. In the inactive dimer, one residue needed for catalysis is far from the active site, and extensive contacts among the domains prevent oligomerization of the ATPase domain. Oligomerization, which completes the active site, depends on surfaces that are buried in the dimer, and hence, on a rearrangement of the receiver domains upon phosphorylation. A motif in the ATPase domain known to be critical for coupling energy to remodeling of polymerase forms a novel loop that projects from the middle of an ␣ helix. The extended, structured loops from the subunits of the heptamer localize to a pore in the center of the ring and form a surface that could contact 54 .

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Opening and Closing of the Bacterial RNA Polymerase Clamp

Chakraborty

Wang

Ebright

et al. 2012

Science

224

287

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Using single-molecule fluorescence resonance energy transfer, we have defined bacterial RNA polymerase (RNAP) clamp formation at each step in transcription initiation and elongation. We find that the clamp predominantly is open in free RNAP and early intermediates in transcription initiation, but closes upon formation of a catalytically competent transcription initiation complex and remains closed during initial transcription and transcription elongation. We show that four RNAP inhibitors interfere with clamp opening. We propose that clamp opening allows DNA to be loaded into and unwound in the RNAP active-center cleft, that DNA loading and unwinding trigger clamp closure, and that clamp closure accounts for the high stability of initiation complexes and the high stability and processivity of elongation complexes.

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Conserved domains in bacterial regulatory proteins that respond to environmental stimuli

Ronson

Nixon

Ausubel

1987

Cell

468

279

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B. Tracy Nixon

Phase transitions in the assembly of multivalent signalling proteins

Regulation of the transcriptional activator NtrC1: structural studies of the regulatory and AAA⁺ ATPase domains

Opening and Closing of the Bacterial RNA Polymerase Clamp

Conserved domains in bacterial regulatory proteins that respond to environmental stimuli

Contact Info

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Resources

About

B. Tracy Nixon

Phase transitions in the assembly of multivalent signalling proteins

Regulation of the transcriptional activator NtrC1: structural studies of the regulatory and AAA+ ATPase domains

Opening and Closing of the Bacterial RNA Polymerase Clamp

Conserved domains in bacterial regulatory proteins that respond to environmental stimuli

Contact Info

Product

Resources

About

Regulation of the transcriptional activator NtrC1: structural studies of the regulatory and AAA⁺ ATPase domains