Your search keyword '"Randolph, Lisa"' showing total 6 results

1. (Sub-)Picosecond Surface Correlations of Femtosecond Laser Excited Al-Coated Multilayers Observed by Grazing-Incidence X-ray Scattering.

Author

Randolph, Lisa, Banjafar, Mohammadreza, Yabuuchi, Toshinori, Baehtz, Carsten, Bussmann, Michael, Dover, Nicholas P., Huang, Lingen, Inubushi, Yuichi, Jakob, Gerhard, Kläui, Mathias, Ksenzov, Dmitriy, Makita, Mikako, Miyanishi, Kohei, Nishiuchi, Mamiko, Öztürk, Özgül, Paulus, Michael, Pelka, Alexander, Preston, Thomas R., Schwinkendorf, Jan-Patrick, and Sueda, Keiichi

Subjects

*FEMTOSECOND pulses, *X-ray scattering, *ULTRASHORT laser pulses, *FEMTOSECOND lasers, *SMALL-angle X-ray scattering, *SURFACE dynamics, *MULTILAYERS, *SURFACE morphology

Abstract

Femtosecond high-intensity laser pulses at intensities surpassing 1014 W/cm2 can generate a diverse range of functional surface nanostructures. Achieving precise control over the production of these functional structures necessitates a thorough understanding of the surface morphology dynamics with nanometer-scale spatial resolution and picosecond-scale temporal resolution. In this study, we show that single XFEL pulses can elucidate structural changes on surfaces induced by laser-generated plasmas using grazing-incidence small-angle X-ray scattering (GISAXS). Using aluminium-coated multilayer samples we distinguish between sub-picosecond (ps) surface morphology dynamics and subsequent multi-ps subsurface density dynamics with nanometer-depth sensitivity. The observed subsurface density dynamics serve to validate advanced simulation models representing matter under extreme conditions. Our findings promise to open new avenues for laser material-nanoprocessing and high-energy-density science. [ABSTRACT FROM AUTHOR]

Published

2024

2. Pum2 Shapes the Transcriptome in Developing Axons through Retention of Target mRNAs in the Cell Body.

Author

Martínez, José C., Randolph, Lisa K., Iascone, Daniel Maxim, Pernice, Helena F., Polleux, Franck, and Hengst, Ulrich

Subjects

*AXONS, *IMMOBILIZED proteins, *RNA-binding proteins, *PROTEIN synthesis, *TRANSCRIPTOMES

Abstract

Localized protein synthesis is fundamental for neuronal development, maintenance, and function. Transcriptomes in axons and soma are distinct, but the mechanisms governing the composition of axonal transcriptomes and their developmental regulation are only partially understood. We found that the binding motif for the RNA-binding proteins Pumilio 1 and 2 (Pum1 and Pum2) is underrepresented in transcriptomes of developing axons. Introduction of Pumilio-binding elements (PBEs) into mRNAs containing a β-actin zipcode prevented axonal localization and translation. Pum2 is restricted to the soma of developing neurons, and Pum2 knockdown or blocking its binding to mRNA caused the appearance and translation of PBE-containing mRNAs in axons. Pum2-deficient neurons exhibited axonal growth and branching defects in vivo and impaired axon regeneration in vitro. These results reveal that Pum2 shapes axonal transcriptomes by preventing the transport of PBE-containing mRNAs into axons, and they identify somatic mRNAs retention as a mechanism for the temporal control of intra-axonal protein synthesis. • Presence of a PBE negatively regulates mRNA localization and translation • Pum2 retains PBE-containing mRNAs in the soma • Developmental regulation of Pum2 controls axonal transcriptome composition • Pum2 function is required for proper axon branching and outgrowth in vivo Local translation of a specific subset of mRNAs in axons is critical for neuronal development. Martínez et al. report that the RNA-binding protein Pumilio 2 controls which transcripts are transported into axons by retaining its target mRNAs in the soma. [ABSTRACT FROM AUTHOR]

Published

2019

3. Automated matching of two-time X-ray photon correlation maps from phase-separating proteins with Cahn--Hilliard-type simulations using autoencoder networks.

Author

Timmermann, Sonja, Starostin, Vladimir, Girelli, Anita, Ragulskaya, Anastasia, Rahmann, Hendrik, Reiser, Mario, Begam, Nafisa, Randolph, Lisa, Sprung, Michael, Westermeier, Fabian, Fajun Zhang, Schreiber, Frank, and Gutt, Christian

Subjects

*PHOTON correlation, *FREE electron lasers, *X-rays, *PHASE separation, *X-ray lasers, *DIFFERENTIAL evolution

Abstract

Machine learning methods are used for an automated classification of experimental two-time X-ray photon correlation maps from an arrested liquid--liquid phase separation of a protein solution. The correlation maps are matched with correlation maps generated with Cahn--Hilliard-type simulations of liquid--liquid phase separations according to two simulation parameters and in the last step interpreted in the framework of the simulation. The matching routine employs an auto-encoder network and a differential evolution based algorithm. The method presented here is a first step towards handling large amounts of dynamic data measured at high-brilliance synchrotron and X-ray free-electron laser sources, facilitating fast comparison with phase field models of phase separation. [ABSTRACT FROM AUTHOR]

Published

2022

4. Low Dose X-Ray Speckle Visibility Spectroscopy Reveals Nanoscale Dynamics in Radiation Sensitive Ionic Liquids.

Author

Verwohlt, Jan, Reiser, Mario, Randolph, Lisa, Matic, Aleksandar, Medina, Luis Aguilera, Madsen, Anders, Sprung, Michael, Zozulya, Alexey, and Gutt, Christian

Subjects

*IONIC liquids, *RADIATION damage, *X-ray spectroscopy

Abstract

X-ray radiation damage provides a serious bottleneck for investigating microsecond to second dynamics on nanometer length scales employing x-ray photon correlation spectroscopy. This limitation hinders the investigation of real time dynamics in most soft matter and biological materials which can tolerate only x-ray doses of kGy and below. Here, we show that this bottleneck can be overcome by low dose x-ray speckle visibility spectroscopy. Employing x-ray doses of 22-438 kGy and analyzing the sparse speckle pattern of count rates as low as 6.7×10-3 per pixel, we follow the slow nanoscale dynamics of an ionic liquid (IL) at the glass transition. At the prepeak of nanoscale order in the IL, we observe complex dynamics upon approaching the glass transition temperature TG with a freezing in of the alpha relaxation and a multitude of millisecond local relaxations existing well below TG. We identify this fast relaxation as being responsible for the increasing development of nanoscale order observed in ILs at temperatures below TG. [ABSTRACT FROM AUTHOR]

Published

2018

5. δ-COP modulates Aβ peptide formation via retrograde trafficking of APP.

Author

Bettayeb, Karima, Chang, Jerry C., Wenjie Luo, Aryal, Suvekshya, Varotsis, Dante, Randolph, Lisa, Netzer, William J., Greengard, Paul, and Flajolet, Marc

Subjects

*AMYLOID beta-protein precursor, *ALZHEIMER'S disease research, *COAT proteins (Viruses), *ENDOPLASMIC reticulum, *AMYLOID beta-protein

Abstract

The components involved in cellular trafficking and protein recycling machinery that have been associated with increased Alzheimer's disease (AD) risk belong to the late secretory compartments for the most part. Here, we hypothesize that these late unavoidable events might be the consequence of earlier complications occurring while amyloid precursor protein (APP) is trafficking through the early secretory pathway. We investigated the relevance to AD of coat protein complex I (COPI)-dependent trafficking, an early step in Golgi-to-endoplasmic reticulum (ER) retrograde transport and one of the very first trafficking steps. Using a complex set of imaging technologies, including inverse fluorescence recovery after photobleaching (iFRAP) and photoactivatable probes, coupled to biochemical experiments, we show that COPI subunit δ (δ-COP) affects the biology of APP, including its subcellular localization and cell surface expression, its trafficking, and its metabolism. These findings demonstrate the crucial role of δ-COP in APP metabolism and, consequently, the generation of amyloid-β (Aβ) peptide, providing previously nondescribed mechanistic explanations of the underlying events. [ABSTRACT FROM AUTHOR]

Published

2016

6. Relevance of the COPI complex for Alzheimer's disease progression in vivo.

Author

Bettayeb, Karima, Hooli, Basaraj V., Parrado, Antonio R., Randolph, Lisa, Varotsis, Dante, Aryal, Suvekshya, Gresack, Jodi, Tanzi, Rudolph E., Greengard, Paul, and Flajolet, Marc

Subjects

*ALZHEIMER'S disease risk factors, *COAT proteins (Viruses), *ENDOPLASMIC reticulum, *AMYLOID beta-protein precursor, *CELL membranes

Abstract

Cellular trafficking and recycling machineries belonging to late secretory compartments have been associated with increased Alzheimer's disease (AD) risk. We have shown that coat protein complex I (COPI)-dependent trafficking, an early step in Golgi-to-endoplasmic reticulum retrograde transport, affects amyloid precursor protein subcellular localization, cell-surface expression, as well as its metabolism. We present here a set of experiments demonstrating that, by targeting subunit δ-COP function, the moderation of the COPI-dependent trafficking in vivo leads to a significant decrease in amyloid plaques in the cortex and hippocampus of neurological 17 mice crossed with the 2xTg AD mouse model. Remarkably, an improvement of the memory impairments was also observed. Importantly, human genetic association studies of different AD cohorts led to the identification of 12 SNPs and 24 mutations located in COPI genes linked to an increased AD risk. These findings further demonstrate in vivo the importance of early trafficking steps in AD pathogenesis and open new clinical perspectives. [ABSTRACT FROM AUTHOR]

Published

2016