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Your search keyword '"Keszthelyi, Bettina"' showing total 19 results
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19 results on '"Keszthelyi, Bettina"'

1. Insights into centriole geometry revealed by cryotomography of doublet and triplet centrioles.

Author

Greenan, Garrett A, Keszthelyi, Bettina, Vale, Ronald D, and Agard, David A

Subjects
Olfactory Receptor Neurons, CHO Cells, Cilia, Centrioles, Microtubules, Animals, Cricetulus, Drosophila melanogaster, Cryoelectron Microscopy, Electron Microscope Tomography, D. melanogaster, cell biology, centriole, centrosome, cryo-electron tomography, microtubule, Biochemistry and Cell Biology
Abstract

Centrioles are cylindrical assemblies comprised of 9 singlet, doublet, or triplet microtubules, essential for the formation of motile and sensory cilia. While the structure of the cilium is being defined at increasing resolution, centriolar structure remains poorly understood. Here, we used electron cryo-tomography to determine the structure of mammalian (triplet) and Drosophila (doublet) centrioles. Mammalian centrioles have two distinct domains: a 200 nm proximal core region connected by A-C linkers, and a distal domain where the C-tubule is incomplete and a pair of novel linkages stabilize the assembly producing a geometry more closely resembling the ciliary axoneme. Drosophila centrioles resemble the mammalian core, but with their doublet microtubules linked through the A tubules. The commonality of core-region length, and the abrupt transition in mammalian centrioles, suggests a conserved length-setting mechanism. The unexpected linker diversity suggests how unique centriolar architectures arise in different tissues and organisms.

Published
2018

2. The centrosomin CM2 domain is a multi-functional binding domain with distinct cell cycle roles.

Author

Citron, Y Rose, Fagerstrom, Carey J, Keszthelyi, Bettina, Huang, Bo, Rusan, Nasser M, Kelly, Mark JS, and Agard, David A

Subjects
Animals, Drosophila melanogaster, Homeodomain Proteins, Drosophila Proteins, Nuclear Magnetic Resonance, Biomolecular, Two-Hybrid System Techniques, Polymerase Chain Reaction, Cell Cycle, Binding Sites, Protein Binding, Nuclear Magnetic Resonance, Biomolecular, General Science & Technology
Abstract

The centrosome serves as the main microtubule-organizing center in metazoan cells, yet despite its functional importance, little is known mechanistically about the structure and organizational principles that dictate protein organization in the centrosome. In particular, the protein-protein interactions that allow for the massive structural transition between the tightly organized interphase centrosome and the highly expanded matrix-like arrangement of the mitotic centrosome have been largely uncharacterized. Among the proteins that undergo a major transition is the Drosophila melanogaster protein centrosomin that contains a conserved carboxyl terminus motif, CM2. Recent crystal structures have shown this motif to be dimeric and capable of forming an intramolecular interaction with a central region of centrosomin. Here we use a combination of in-cell microscopy and in vitro oligomer assessment to show that dimerization is not necessary for CM2 recruitment to the centrosome and that CM2 alone undergoes significant cell cycle dependent rearrangement. We use NMR binding assays to confirm this intramolecular interaction and show that residues involved in solution are consistent with the published crystal structure and identify L1137 as critical for binding. Additionally, we show for the first time an in vitro interaction of CM2 with the Drosophila pericentrin-like-protein that exploits the same set of residues as the intramolecular interaction. Furthermore, NMR experiments reveal a calcium sensitive interaction between CM2 and calmodulin. Although unexpected because of sequence divergence, this suggests that centrosomin-mediated assemblies, like the mammalian pericentrin, may be calcium regulated. From these results, we suggest an expanded model where during interphase CM2 interacts with pericentrin-like-protein to form a layer of centrosomin around the centriole wall and that at the onset of mitosis this population acts as a nucleation site of intramolecular centrosomin interactions that support the expansion into the metaphase matrix.

Published
2018

3. Longevity and Highest-Energy Cosmic Rays

Author

Frampton, Paul H., Keszthelyi, Bettina, and Ng, Y. Jack

Subjects
Astrophysics, High Energy Physics - Phenomenology
Abstract

It is proposed that the highest energy $\sim 10^{20}$eV cosmic ray primaries are protons, decay products of a long-lived progenitor which has propagated from typically $\sim 100$Mpc. Such a scenario can occur in e.g. SU(15) grand unification and in some preon models, but is more generic; if true, these unusual cosmic rays provide a window into new physics., Comment: 8 pages, RevTeX

Published
1997
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4. Constraining $\alpha_s(M_Z)$ from the Hidden Sector

Author

Frampton, Paul H., Keszthelyi, Bettina, Wright, Brian D., and Kephart, Thomas W.

Subjects
High Energy Physics - Phenomenology
Abstract

By including the effects of superstring thresholds, we reconsider minimal string unification together with the requirement of producing a supersymmetry-breaking gluino condensate in the hidden sector. This gives, for examples of phenomenologically-viable $Z_8'$ and other related orbifolds, the constraint that $0.1215 \leq \alpha_s(M_Z) \leq 0.1270$. In such models, a hidden photino can be a source of cosmological dark matter detectable by gravitational microlensing., Comment: 12 pages (23k), in ReVTeX plus 3 postscript figures (27k), Submitted to Physical Review Letters

Published
1995

5. NEUTRINOS FROM PRIMORDIAL BLACK HOLES

Author

Halzen, Francis, Keszthelyi, Bettina, and Zas, Enrique

Subjects
High Energy Physics - Phenomenology, Astrophysics
Abstract

The emission of particles from black holes created in the early Universe has detectable astrophysical consequences. The most stringent bound on their abundance has been obtained from the absence of a detectable diffuse flux of 100 MeV photons. Further scrutiny of these bounds is of interest as they, for instance, rule out primordial black holes as a dark matter candidate. We here point out that these bounds can, in principle, be improved by studying the diffuse cosmic neutrino flux. Measurements of near-vertical atmospheric neutrino fluxes in a region of low geomagnetic latitude can provide a competitive bound. The most favorable energy to detect a possible diffuse flux of primordial black hole origin is found to be a few MeV. We also show that measurements of the diffuse $\nu _\tau$ flux is the most promising to improve the existing bounds deduced from gamma-ray measurements. Neutrinos from individual black hole explosions can be detected in the GeV-TeV energy region. We find that the kilometer-scale detectors, recently proposed, are able to establish competitive bounds., Comment: 19 pages plus 9 uuencoded and compressed postscript figures

Published
1995
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