Podcast appearances and mentions of eva nogales

Su pasión por el conocimiento lo tuvo desde el colegio. Y si la "Marca España", tantas veces mencionada o requerida, es la huella del mérito y talento español exportable al mundo, no deberíamos estar muy lejos de pronunciar o escribir su nombre: Eva Nogales, científica, Catedrática en la universidad de Berkeley, es la mejor muestra de una vida entregada para que la de millones de todos nosotros pueda ser un poco mejor, 

Eva Nogales es una biofísica madrileña, procedente de una familia trabajadora de Madrid, que vive en Berkley, California, y acaba de ganar el 'Nobel oriental'Ya lo dejó escrito Aristóteles en su Metafísica: “Todos los hombres, por naturaleza, desean saber”.Es algo que pasa mucho a los periodistas. Una curiosidad innata nos mueve a preguntar, preguntar y repreguntar para tratar de entender un poco mejor por qué suceden las cosas… y para qué. Ahora bien. El don de la curiosidad y la capacidad de hacerse preguntas no se circunscribe en exclusiva a la profesión de esta locutora. Nuestra siguiente invitada también se hacía muchas preguntas de pequeña. Y a sus 58 años, se las sigue planteando. Sus inquietudes giraban en torno al funcionamiento de la naturaleza. Le suscitaba curiosidad entender el mecanismo que mueve a los seres vivos.El pasado mes de noviembre, Eva Nogales, una biofísica madrileña afincada en California, recogía en Hong Kong el Premio Shaw, un reconocido galardón conocido por los entendidos como el 'Nobel oriental'. En Fin de Semana reconoce que la posibilidad de alzarse con el premio de la Academia sueca no le quita el sueño. En una deliciosa entrevista repasamos su trayectoria. ESCUCHA FIN DE SEMANAEscucha ahora 'Fin de Semana' de 12 a 13. "Fin de Semana" es un programa presentado por Cristina López Schlichting, prestigiosa comunicadora de radio y articulista...

La doctora Eva Nogales es un referente a nivel mundial en el campo de la biología estructural, que permite avanzar en el funcionamiento más básico de las células. Tras recibir el Premio Shaw de Ciencias de la Vida este año, su nombre comienza a aparecer en las quinielas del Nobel. 

El pasado mes de noviembre, Eva Nogales, nacida en Colmenar Viejo y formada en la Universidad Autónoma de Madrid, recibió el premio Shaw en Ciencias de la Vida, uno de los más importantes del mundo. Según publica El País, Nogales está en las quinielas para ganar el Nobel.

#2 — Eva Nogales of UC Berkeley and Lawrence Berkeley National Laboratory uses cryoEM to study cellular processes related to cytoskeletal self-assembly and gene expression. In this episode of Cryo-Talk, Eva joins our host Eva Amsen to discuss the use of CryoEM to study complex cell biology systems and more. She chats about her current work while on sabbatical at CNIO in Spain, what music she likes, and her love of books. We also hear why she thinks it's so important to work with people that you get along with. Tune in to hear more!

This week Matthew is joined by Eva Nogales, a researcher and professor at Berkeley to talk all things microscopes, image analysis, and the future of science. Listen as Eva describes the importance of observation in scientific discovery, and shares stories about how simply looking at something can bring on revelations.

Listen to Dr. Eva Nogales describe how cryo-electron microscopy addresses the challenge of visualizing macromolecular structures.

Listen to Dr. Eva Nogales describe how cryo-electron microscopy addresses the challenge of visualizing macromolecular structures.

“Quantum Physics and Nonduality” Episode #86 Today we sit down with scientist Seth Kostek. We will be discussing his interpretation of Quantum Physics, Nonduality, and the nature of Consciousness and reality. Seth Kostek was captivated by the ostensible ability of science to unlock and play with the mystery of our apparent universe. This fascination lead to his pursuit of scientific inquiry at Georgetown University and the University of California, Berkeley; earning a Ph.D. in Molecular Biology as a graduate student under principal investigator Dr. Eva Nogales.  Through experiment, meditative practice, and extensive systematic studies of Consciousness his scientific insight into relativity, quantum physics, and black hole thermodynamic geometric information theory has lead to the unveiling that the actuality of quantum spin angular momentum (ħ) is a description of Consciousness. ħ expressed in terms of Gibbs and Bekenstein-Hawking entropic equations elucidates that the substance of the content in experience is Knowing the non-physical simultaneous abstraction and composition of complementary opposite limits within concepts as holographic interference information; thus, unifying science and Nonduality into a holistic model of Singular Consciousness. * Author of Visual perception mediated by light traversing 4-dimensional spacetime continua is an illusion * Author of c-ing Nonduality (in preparation) * Vice President — Santa Clara Systems, Inc * Exploring the Singularity of Being *Check out his youtube channel and website at: https://www.youtube.com/user/marbittherobot https://sethkostek.com/ *If you enjoy our podcast and want to help us grow, check out our Patreon account and enjoy the exclusive episodes and interviews. You can also listen to us on the go through our website listed below. https://www.patreon.com/MikeandMaurice https://www.mikeandmauricemindescape.com/ *Check out our other channel at: https://www.youtube.com/channel/UCKCf7SAPYav74Mnk7612Wuw

In this webinar, you will learn: - How structural biology can change the face of your research - The biological challenges of cancer research - Advantages of cryo-EM for your research Covering both biology and methodology, this webinar will explain how single-particle cryo-electron microscopy enables us to gain insight into cancer development through the detailed analysis of molecular structure. In single-particle cryo-EM, hundreds of thousands of images formed by electron scattering of individual molecules or complexes are analyzed to derive their three-dimensional structure. Technological and computational advances have dramatically transformed the field of cryo-EM in the past years, enabling structural insights at near-atomic resolution into assemblies that had not been tractable using any other structural biology technique. Consequently, cryo-EM has become a mainstream method structural biology, with a multitude of new facilities and research groups being established all over the world within just a couple of years. This webinar will address the roles that structural biology has been playing in cancer research, uncovering cellular processes involved in cancer development and protection, and guiding drug discovery efforts. The biological challenges of cancer research will be discussed, as well as the unique strengths of cryo-EM as an experimental approach towards these questions, briefly covering the methodology and procedures in sample preparation and data processing. We will illustrate these aspects with some of the latest research from the laboratory of Eva Nogales at UC Berkeley and assess the promises and challenges of cryo-EM in our fight against cancer.

Professor Eva Nogales started her career in a time where barely any women were seen in science departments. In college, she skipped biology to focus on physics, relying on her high-school knowledge of the former to shape her career as a biophysicist. Now, she’s using her understanding of the microtubules in our cells for improving disease management, including slowing the uncontrollable growth of cancer. This niche understanding of our cell behaviour at the molecular level is already improving the lives of humans everywhere, and the technique used by Professor Nogales called “cryo-EM” is taking the world of structural biology by storm. She recently visited the University of Melbourne to receive the 2019 Grimwade Medal, and to deliver the oration titled: Visualising the molecular dance at the heart of human gene expression. Episode recorded: February 14, 2019.Interviewer: Steve Grimwade.Producer and editor: Chris Hatzis.Co-production: Silvi Vann-Wall and Dr Andi Horvath.Banner: Berkeley Lab.

Cuando las bacterias patógenas infectan una de nuestras células se ponen en marcha una serie de mecanismos de defensa que la evolución ha ido diseñando con exquisito cuidado. En un reciente trabajo, publicado en la revista Science, nuestra invitada, Eva Nogales y un nutrido conjunto internacional en el que participan científicos de la Universidad de California y el Howard Hughes Medical Institute en Berkeley y del Consejo Superior de Investigaciones Científicas de España han logrado visualizar, utilizando el microscopio electrónico, cómo ciertas proteínas del sistema inmune se unen a una proteína existente en los flagelos de las bacterias y desencadenan una cascada de reacciones que culminan con el suicidio de la célula infectada y la destrucción de los patógenos.