Plenary Sessions
Richard Henderson
OPENING PLENARY
Single particle electron cryomicroscopy extends the boundaries of structural biology
Angus Kirkland
PLENARY II
The future of Microscopy and perspectives – Next 50 years
Ricardo Garcia
PLENARY III
Frontiers of force microscopy at solid-liquid interfaces: From single ions to single cell nanomechanics
Petr Chlanda
PLENARY IV
SARS-CoV-2 Microscopy
Luiz Henrique de Almeida
Wanderley de Souza
PLENARY V
Celebrating 50 years of the SBMM
Conferências
Naoya Shibata
Naoya Shibata is a Director, Professor in the Institute of Engineering Innovation, The University of Tokyo. He received a PhD in Materials Science in 2003 at University of Tokyo. He was a JSPS Research Fellow at Oak Ridge National Laboratory (2003-2004) in USA. Then, He joined the Institute of Engineering Innovation at the University of Tokyo from 2004 and he became a Professor there from 2017. His research focuses on the development of new imaging techniques in scanning transmission electron microscopy and their application to interface studies in materials and devices. He has authored or co-authored more than 200 publications in refereed journals. His honors include JSPS Prize (2019), Richard M. Fulrath Award, the American Ceramic Society (2018), the 5th Nagase Award (2015), the 60th Seto Prize, The Japan Microscopy Society (2015), the 15th Sir Martin Wood Award (2013), the 6th Kazato Prize (2013).
CONFERENCE I
Differential phase-contrast scanning transmission electron microscopy
António Candéias
CONFERENCE I
Microscopy and microanalysis on restoration and cultural heritage
Ovidiu Ersen
Ovidiu ERSEN is a Full Professor at the University of Strasbourg and the French coordinator of a LIA between CNRS (France) and UFRJ. In 2019, he received the award “Le grand Prix Raymond Castaing” of the French Society of Microscopy. His expertise are the 3D imaging and in situ electron microscopy.
CONFERENCE II
In situ electron microscopy applied to the study of nanomaterials and nano-objects
Francisco de La Peña
CONFERENCE II
Computational microscopy
Leo Gross
Shadi Fatayer
CONFERENCE III
Atomic force microscopy for molecular structure elucidation
Dawidson Gomes
Possui graduação em Ciências Biológicas (1998-2002), mestrado (2002-2003) e doutorado (2003-2006) em Farmacologia Bioquímica e Molecular pela Universidade Federal de Minas Gerais (UFMG) com período sanduiche no Departamento de Medicina Interna - Yale University (2004-2006), pós-doutorado pelo departamento de Medicina Interna - Yale University (2006-2008, 2018-2020). Atualmente é professor do departamento de Bioquímica e Imunologia da UFMG. É da equipe de fundadores do centro de aquisição e processamento de imagens do ICB-UFMG (CAPI) e do laboratório de equipamentos multiusuários do departamento de Bioquímica e Imunologia. Tem experiência na área de Biologia Celular e Molecular, Parasitologia, Neurociências, Farmacologia e Fisiologia estudando principalmente as vias de transdução de sinal capazes de regular funções como: morte celular, proliferação, senescência e diferenciação celular em células tumorais e células-tronco. Estuda como receptores de tirosina cinases (RTKs) translocam para o núcleo para gerar sinais de cálcio. Estuda também as interações de nanocompostos para diversas aplicações biotecnológicas, engenharia de tecidos e órgãos. Foi fellow da Fogarty-National Institutes of Health (NIH), vice-chefe do departamento de Bioquímica e Imunologia por dois mandatos (2013-2015, 2015-2017), vice-diretor do CAPI (2013-2015, 2015-2017) e diretor do CAPI (2017-2018).
CONFERENCE III
Light microscopy studies of translocation functions from tirosina cinase receptors
Utilizando microscopia de luz para estudar a função da translocação dos receptores de tirosina cinase para na geração de sinais de cálcio intranucleares.
Prof. Dawidson Assis Gomes
Instituto de Ciências Biológicas, Universidade Federal de Minas Gerais.
Resumo
Os receptores de tirosina cinase (RTKs) regulam diversas funções como migração e proliferação celular. Inibidores destes receptores são utilizados para o tratamento de diversos tipos de câncer, mas a recidiva do tumor é frequente nos pacientes. Pesquisas recentes têm demonstrado que a resistência ao tratamento pode ser devido a presença dos RTKs no núcleo das células, onde os quimioterápicos não atuam. Estudos demonstram que os RTKs podem levar a geração de cálcio via fosfolipase C. A nossa hipótese é que os RTKs podem controlar a proliferação de células tumorais via a geração de cálcio no núcleo. Então nosso objetivo é estudar como os RTKs chegam no núcleo e como estão envolvidos na liberação de cálcio intranuclear. Utilizamos diversas técnicas de microscopia de luz para nossos estudos. Demonstramos por microscopia de confocal que RTKs saem da membrana plasmática via endocitose mediada por clatrina e dinamina para chegarem no núcleo. Estudos de decurso temporal mostraram que os ligantes dos RTKs trafegam com seus receptores e que podem iniciar sinais de cálcio no nucleoplasma. A microscopia de dois fótons foi utilizada para estudar a arquitetura da invaginações do envelope nuclear em diferentes tipos celulares. A microscopia confocal evidenciou a presença da fosfolipase delta 4 no núcleo e o envolvimento desta proteína na hidrólise de fosfaditilinositol 4,5-trisfosfato intranuclear (PIP2). Confirmamos que a hidrolise de PIP2 pode gerar Inositol 1,4,5-trisfosfato utilizando a transferência de energia tipo Förster (FRET). Recentemente, a microscopia de superresolução tem revelado imagens abaixo do limite da difração da luz dos detalhes da localização dos ligantes e dos RTKs nos compartimentos nucleares. Estudos de imagem in vivo relacionam que os sinais de cálcio nucleares com a regulação do crescimento de tumores. Em resumo, nosso grupo de pesquisa utiliza diversas técnicas de microscopia de luz para estudar como o cálcio intracelular consegue regular diversos processos celulares como morte, proliferação e senescência.
Simpósios
Quentin Ramasse
Quentin Ramasse - SuperSTEM Laboratory and University of Leeds Quentin is the Director of the SuperSTEM Laboratory, the EPSRC UK National Research Facility for Advanced Electron Microscopy, and holds a joint Chair in Electron Microscopy at the Schools of Chemical and Process Engineering & Physics and Astronomy, University of Leeds, U.K.
After a MEng in France and a MMaths at the University of Cambridge, he obtained his Ph.D. in Physics from the University of Cambridge working on optical aberration measurements methodologies for aberration-corrected STEM. Before taking up his post at SuperSTEM he held a Staff Scientist position at the National Center for Electron Microscopy (NCEM) in Berkeley, a U.S. Department of Energy-funded user facility where he took part in the TEAM project. Quentin Ramasse has published extensively in the field of STEM-EELS, and was recently awarded the Royal Microscopical Society's Mid-Career Scientific Achievement Award. His work has a dual focus on STEM technique development and applications to a wide range of materials, from 2-dimensional materials such as graphene and MoS2 nano-catalysts to complex oxides and semi-conductors.
SYMPOSIUM M1 - Transmission Electron Microscopy and Spectroscopy of Nanostructures and Engineering Materials
Recent developments in sub-100meV electron energy loss spectroscopy: from phonons to core losses in real and momentum space
Nestor J. Zaluzec
Nestor J. Zaluzec is a Senior Scientist in the Photon Sciences Directorate at ANL where he works on multi-modal, multi-dimensional hyperspectral imaging and analysis of hard and soft matter applied to both the physical and biological sciences. He holds numerous positions at Unverisities and at Professional Scientific Organizations world wide.
SYMPOSIUM M2 - Transmission Electron Microscopy and Spectroscopy of Nanostructures and Engineering Materials
Advances in Imaging and Spectroscopic Characterization of Materials using Electron-Optical Beam Lines
Otávio da Fonseca Martins Gomes
Graduou-se em Engenharia Química (1998) pela UFRJ e obteve os graus de mestre (2001) e doutor (2007) em Engenharia Metalúrgica e de Materiais pela PUC-Rio. Entre 2012 e 2013, passou um ano na Universidade de Liège (Bélgica) em um pós-doutorado. Atualmente é Tecnologista Sênior III no Centro de Tecnologia Mineral (CETEM) e Professor no Programa de Pós-Graduação em Geociências, Museu Nacional, UFRJ. Inventor com 2 patentes concedidas no USPTO (Estados Unidos). Publicou 32 artigos em periódicos científicos, 4 capítulos de livro e mais de 100 trabalhos em anais de eventos. Ministrou diversos cursos de curta duração para empresas do setor mínero-metalúrgico. Desde 2015, é bolsista de produtividade do CNPq. Atua principalmente nos seguintes temas: caracterização de materiais; microscopia (ótica, eletrônica, digital, correlativa); microtomografia de raios X; análise de imagens; e caracterização de minério de ferro e aglomerados.
SYMPOSIUM M3 - Correlative, Optical and SEM Microscopy Applications
Computer-assisted microscopy: methods, case studies, and tools for applied mineralogy
Tobias Salge
SYMPOSIUM M3 - Correlative, Optical and SEM Microscopy Applications
Advancing microanalysis of earth and planetary materials using SEM-EDS, CL and micro-XRF
Maria Alejandra Floridia
SYMPOSIUM M4 - Scanning Electron Microscopy, Microanalysis, and 3D Techniques
Towards a Correlative Approaching for the Study of Pore Space in Non-Conventional Reservoirs Beyond the Micrometer Scale
Frances Allen
SYMPOSIUM M4 - Scanning Electron Microscopy, Microanalysis, and 3D Techniques
Helium Ion Microscopy: Past, Present and Future
Tatiana Gorelik
Tatiana Gorelik works as a senior researcher at Ulm University (Germany) on development of electron diffraction techniques such as 3D ED and ePDF, and their application to a broad spectrum of materials - from peptides and proteins, through small molecules and MOFs towards inorganics and 2D crystals.
SYMPOSIUM M5 - Electron Diffraction (structure and mapping) in Materials Characterization in SEM and TEM
3D Electron Diffraction - a universal tool for structure characterization of nanocrystals
Amy Clarke
SYMPOSIUM M6 - Electron Diffraction (structure and mapping) in Materials Characterization in SEM and TEM
Multiscale Characterization of Metallic Alloy Microstructures and Links to Processing and Properties
Gilberto Medeiros Ribeiro
SYMPOSIUM ML1 - Scanning Probe Microscopy beyond image – Materials and Life Sciences
1nm Resolution With 0.1m Wavelength: Using Twisted Bilayer Graphene Moiré Patterns To Evaluated The Limits Of Near Field Immersion Microscopy
Abner de Siervo
SYMPOSIUM ML1 - Scanning Probe Microscopy beyond image – Materials and Life Sciences
Engineering New 2D Functional Materials at Surfaces: from Doped Graphene to Metal-Organic Frameworks
Nicolas Piché
SYMPOSIUM ML2 - Computational methods applied to Microscopy and Microanalysis
Deep Learning: How neural networks have changed my life and will help you extract much more information from your microscope experiments
Jenny Capua-Shenkar
SYMPOSIUM L1 - Scanning Microscopy Using Electrons and Ions
Elucidation of Cholesterol Crystal Formation in Atherosclerosis via the Application of Cryo-SEM, Cryo-FIB/SEM and Cathodoluminescence
William Lopes
SYMPOSIUM L1 - Scanning Microscopy Using Electrons and Ions
Automated identification of cell morphotypes in scanning electron microscopy
André Ambrosio
SYMPOSIUM L2 - Structural Biology/Cryo-EM
Structural mechanism and polymerization of Glutaminase in vitro and in situ
Samantha Lewis
SYMPOSIUM L3 - Enhanced resolution and non-linear optics-based microscopy
Regulation of mitochondrial genome synthesis in animal cells
Tom Wirtz
SYMPOSIUM L4 - Transmission Electron Microscopy and Spectroscopy
Multimodal characterisation on FIB instruments combining nano-scale SIMS and SE imaging
Irina Kolotueva
SYMPOSIUM L5 - 3D Electron-Microscopy (cells and tissues)
Array Tomography for the Targeted Acquisition of EM Volumes
Debora Ferreira Barreto Vieira
SYMPOSIUM L6 - Microscopy as a Tool for the Investigation of Host Cell-Virus Interactions
Morphology and morphogenesis of SARS-CoV-2 in Vero-E6 cells
Jason Mercer
SYMPOSIUM L6 - Microscopy as a Tool for the Investigation of Host Cell-Virus Interactions
28 Hours Later: Vaccinia-Induced Cell Motility Facilitates Virus Spread
Helder Veras Ribeiro Filho
SYMPOSIUM L6 - Microscopy as a Tool for the Investigation of Host Cell-Virus Interactions
Deciphering the Mayaro virus structure using single-particle Cryo-EM analysis
Luiza Mendonça
SYMPOSIUM L6 - Microscopy as a Tool for the Investigation of Host Cell-Virus Interactions
Multimodal imaging of SARS-CoV-2 replication and vaccines
Priscyla Daniely Marcato Gaspari
SYMPOSIUM ML3 - NanoBio: Interface between materials and life sciences
Considerations and challenges in the biological assays of nanostructures