Raquel Bromberg scite author profile

Stu2p/XMAP215 proteins are essential microtubule polymerases that use multiple αβ-tubulin-interacting TOG domains to bind microtubule plus ends and catalyze fast microtubule growth. We report here the structure of the TOG2 domain from Stu2p bound to yeast αβ-tubulin. Like TOG1, TOG2 binds selectively to a fully ‘curved’ conformation of αβ-tubulin, incompatible with a microtubule lattice. We also show that TOG1-TOG2 binds non-cooperatively to two αβ-tubulins. Preferential interactions between TOGs and fully curved αβ-tubulin that cannot exist elsewhere in the microtubule explain how these polymerases localize to the extreme microtubule end. We propose that these polymerases promote elongation because their linked TOG domains concentrate unpolymerized αβ-tubulin near curved subunits already bound at the microtubule end. This tethering model can explain catalyst-like behavior and also predicts that the polymerase action changes the configuration of the microtubule end.DOI: http://dx.doi.org/10.7554/eLife.03069.001

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Phylogeny Reconstruction with Alignment-Free Method That Corrects for Horizontal Gene Transfer

Bromberg

Grishin

Otwinowski

2016

PLoS Comput Biol

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Advances in sequencing have generated a large number of complete genomes. Traditionally, phylogenetic analysis relies on alignments of orthologs, but defining orthologs and separating them from paralogs is a complex task that may not always be suited to the large datasets of the future. An alternative to traditional, alignment-based approaches are whole-genome, alignment-free methods. These methods are scalable and require minimal manual intervention. We developed SlopeTree, a new alignment-free method that estimates evolutionary distances by measuring the decay of exact substring matches as a function of match length. SlopeTree corrects for horizontal gene transfer, for composition variation and low complexity sequences, and for branch-length nonlinearity caused by multiple mutations at the same site. We tested SlopeTree on 495 bacteria, 73 archaea, and 72 strains of Escherichia coli and Shigella. We compared our trees to the NCBI taxonomy, to trees based on concatenated alignments, and to trees produced by other alignment-free methods. The results were consistent with current knowledge about prokaryotic evolution. We assessed differences in tree topology over different methods and settings and found that the majority of bacteria and archaea have a core set of proteins that evolves by descent. In trees built from complete genomes rather than sets of core genes, we observed some grouping by phenotype rather than phylogeny, for instance with a cluster of sulfur-reducing thermophilic bacteria coming together irrespective of their phyla. The source-code for SlopeTree is available at: http://prodata.swmed.edu/download/pub/slopetree_v1/slopetree.tar.gz.

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High-resolution cryo-EM reconstructions in the presence of substantial aberrations

Bromberg

Guo

Borek

et al. 2020

IUCrJ

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Here, an analysis is performed of how uncorrected antisymmetric aberrations, such as coma and trefoil, affect cryo-EM single-particle reconstruction (SPR) results, and an analytical formula quantifying information loss owing to their presence is inferred that explains why Fourier-shell coefficient-based statistics may report significantly overestimated resolution if these aberrations are not fully corrected. The analysis is validated with reference-based aberration refinement for two cryo-EM SPR data sets acquired with a 200 kV microscope in the presence of coma exceeding 40 µm, and 2.3 and 2.7 Å reconstructions for 144 and 173 kDa particles, respectively, were obtained. The results provide a description of an efficient approach for assessing information loss in cryo-EM SPR data acquired in the presence of higher order aberrations, and address inconsistent guidelines regarding the level of aberrations that is acceptable in cryo-EM SPR experiments.

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Real-space analysis of radiation-induced specific changes with independent component analysis

Borek

Bromberg

Hattne

et al. 2018

J Synchrotron Radiat

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A method of analysis is presented that allows for the separation of specific radiation-induced changes into distinct components in real space. The method relies on independent component analysis (ICA) and can be effectively applied to electron density maps and other types of maps, provided that they can be represented as sets of numbers on a grid. Here, for glucose isomerase crystals, ICA was used in a proof-of-concept analysis to separate temperature-dependent and temperature-independent components of specific radiation-induced changes for data sets acquired from multiple crystals across multiple temperatures. ICA identified two components, with the temperature-independent component being responsible for the majority of specific radiation-induced changes at temperatures below 130 K. The patterns of specific temperature-independent radiation-induced changes suggest a contribution from the tunnelling of electron holes as a possible explanation. In the second case, where a group of 22 data sets was collected on a single thaumatin crystal, ICA was used in another type of analysis to separate specific radiation-induced effects happening on different exposure-level scales. Here, ICA identified two components of specific radiation-induced changes that likely result from radiation-induced chemical reactions progressing with different rates at different locations in the structure. In addition, ICA unexpectedly identified the radiation-damage state corresponding to reduced disulfide bridges rather than the zero-dose extrapolated state as the highest contrast structure. The application of ICA to the analysis of specific radiation-induced changes in real space and the data pre-processing for ICA that relies on singular value decomposition, which was used previously in data space to validate a two-component physical model of X-ray radiation-induced changes, are discussed in detail. This work lays a foundation for a better understanding of protein-specific radiation chemistries and provides a framework for analysing effects of specific radiation damage in crystallographic and cryo-EM experiments.

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High-resolution cryo-EM reconstructions in the presence of substantial aberrations

Bromberg¹,

Guo

Borek³

et al. 2019

Preprint

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The beam-image shift method accelerates data acquisition in cryo-EM single particle 28 reconstruction (cryo-EM SPR) by fast repositioning of the imaging area, but at the cost of more 29 severe and complex optical aberrations. 30We analyze here how uncorrected anti-symmetric aberrations, such as coma and trefoil, affect 31 cryo-EM SPR results, and then infer an analytical formula quantifying information loss due to their 32 presence that explains why Fourier-shell coefficient (FSC)-based statistics may report 33 significantly overestimated resolution if these aberrations are not fully corrected. We validate our 34 analysis with reference-based aberration refinement for two cryo-EM SPR datasets acquired with 35 a 200 kV microscope in the presence of coma exceeding 40 µm, and obtained 2.3 and 2.7 Å 36 reconstructions for 144 and 173 kDa particles, respectively. 37Our results provide a description of an efficient approach for assessing information loss in cryo-38 EM SPR data acquired in the presence of higher-order aberrations and address inconsistent 39 guidelines regarding the level of aberrations acceptable in cryo-EM SPR experiments. 40 ZO implemented the approach; DB acquired data; RB, YG and ZO analyzed data; RB, YG, DB 307 and ZO wrote manuscript. 308 309

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Raquel Bromberg

A tethered delivery mechanism explains the catalytic action of a microtubule polymerase

Phylogeny Reconstruction with Alignment-Free Method That Corrects for Horizontal Gene Transfer

High-resolution cryo-EM reconstructions in the presence of substantial aberrations

Real-space analysis of radiation-induced specific changes with independent component analysis

High-resolution cryo-EM reconstructions in the presence of substantial aberrations

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