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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191121T160000
DTEND;TZID=America/New_York:20191221T170000
DTSTAMP:20260414T111321
CREATED:20191031T192509Z
LAST-MODIFIED:20191203T214834Z
UID:10001051-1574352000-1576947600@asrc.gc.cuny.edu
SUMMARY:Objects & objectivities: Convergences in epistemic divergence
DESCRIPTION:An art exhibit of paintings\, photographs\, and scientific imaging\, featuring the work of Linda Vigdor\, Ye He\, and Andrew Reinmann. \nPlease register to attend the exhibition opening and reception on Thursday\, November 21\, 2019. The exhibit will be available for viewing until December 21\, 2019. \nIt may be reasonably argued that science\, at least in part\, is driven by humans’ desire to control nature\, as well as a belief that we can\, and should (or are entitled to do so). From this vantage point comes a not unrelated notion of objectivity – that the truths of scientific knowledge and observation are unfettered by human biases. Objectivity\, in this picture\, is truth. The works in this exhibition present different orientations to objectivity as each investigates some aspect of the mechanisms\, outcomes\, and questions regarding the intersection of the brain and our environment\, from different epistemological lenses.
URL:https://asrc.gc.cuny.edu/event/exhibition-objects-objectivity-convergences-in-epistemic-divergence/
LOCATION:ASRC 4th Floor Foyer\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191202T150000
DTEND;TZID=America/New_York:20191202T170000
DTSTAMP:20260414T111321
CREATED:20191122T150557Z
LAST-MODIFIED:20191202T154436Z
UID:10001063-1575298800-1575306000@asrc.gc.cuny.edu
SUMMARY:POSTPONED: Science for Everyone: Making the Most of your Science Communication
DESCRIPTION:THIS EVENT HAS BEEN POSTPONED DUE TO ANTICIPATED INCLEMENT WEATHER. \nSarah McAnulty is a squid biologist and the executive director of the science communication non-profit Skype a Scientist! She believes that the first step toward improving science literacy is making science feel more approachable by building connections between scientists and non-scientists. In Sarah’s talk\, she will discuss the many ways that scientists can get involved in their communities\, both local and online. She will highlight ways that every scientist\, from the extroverts to the introverts\, can make everyone feel that science has space for them. We will discuss how to break out from the “NPR crowd” to make maximum impact from science communication efforts.
URL:https://asrc.gc.cuny.edu/event/science-for-everyone-making-the-most-of-your-science-communication/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191204T120000
DTEND;TZID=America/New_York:20191204T130000
DTSTAMP:20260414T111321
CREATED:20191121T164339Z
LAST-MODIFIED:20191121T164339Z
UID:10000982-1575460800-1575464400@asrc.gc.cuny.edu
SUMMARY:Seminar in Biochemistry\, Biophysics & Biodesign: Kendra Frederick\, UT Southwestern Medical Center
DESCRIPTION:Speaker: Kendra Frederick\, Assistant Professor\, Department of Biophysics Center for Alzheimer’s and Neurodegenerative Diseases\, Green Comprehensive Center for Molecular\, Computational and Systems Biology UT Southwestern Medical Center \nTitle: In-cell structural biology of proteins behaving badly \nAbstract: The misfolded proteins associated with neurodegenerative disease can adopt a variety of different conformations\, some of which are toxic. Because these proteins have identical amino acid sequences\, the cellular environment clearly influences the final state\, yet most structural studies do not include the cellular context and\, perhaps because we are not studying the correct conformation\, not a single therapeutic strategy for these diseases addresses the underlying protein misfolding pathology. Using new sensitivity-enhancement technology for solid state NMR spectroscopy\, we study protein structure in native environments—inside living cells—to reveal how both healthy and disease-relevant cellular environments influence protein structure. \n 
URL:https://asrc.gc.cuny.edu/event/seminar-in-biochemistry-biophysics-biodesign-kendra-frederick-ut-southwestern-medical-center-2/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191204T130000
DTEND;TZID=America/New_York:20191204T150000
DTSTAMP:20260414T111321
CREATED:20191202T213729Z
LAST-MODIFIED:20191202T213729Z
UID:10001071-1575464400-1575471600@asrc.gc.cuny.edu
SUMMARY:Lab Safety Training
DESCRIPTION:Lab safety training for ASRC researchers and core facility users. Contact: Aldo Orlando\, aldo.orlando@asrc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/lab-safety-training-7/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T083000
DTEND;TZID=America/New_York:20191205T123000
DTSTAMP:20260414T111321
CREATED:20191125T150833Z
LAST-MODIFIED:20191125T150833Z
UID:10001068-1575534600-1575549000@asrc.gc.cuny.edu
SUMMARY:Cybersecurity for Small Business
DESCRIPTION:The Greater Harlem Chamber of Commerce\, NY District Attorney’s Office\, and NYC & Company have partnered to offer “Cybersecurity for Small Business”\, to provide information and tools for NYC businesses. The expert panel will discuss threats\, best practices\, and tools available to mitigate risk.
URL:https://asrc.gc.cuny.edu/event/cybersecurity-for-small-business/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T110000
DTEND;TZID=America/New_York:20191205T120000
DTSTAMP:20260414T111321
CREATED:20191122T153636Z
LAST-MODIFIED:20191122T153636Z
UID:10001065-1575543600-1575547200@asrc.gc.cuny.edu
SUMMARY:Neuroscience Seminar: Ernesto Guccione\, Icahn School of Medicine at Mount Sinai
DESCRIPTION:Speaker: Ernesto Guccione\, Ph.D.\, Associate Professor\, Dept. of Oncological Sciences\, Icahn School of Medicine at Mount Sinai \nTitle: The regulation\, functions and clinical relevance of arginine methylation \nAbstract: Methylation of arginine residues by protein arginine methyltransferases (PRMTs) is involved in the regulation of fundamental cellular processes\, including transcription\, RNA processing\, propagation of signal transduction cascades\, the DNA damage response (DDR) and liquid– liquid phase separation. Recent studies have provided remarkable advances in the identification of experimental tools and  clinically-relevant  PRMT inhibitors. I will discuss the role in development and cancer of PRMT5\, the major Type II PRMT promoting Symmetric Arginine Dimethylation\, and the clinical relevance of PRMT5 inhibitors currently used in the clinic. \n 
URL:https://asrc.gc.cuny.edu/event/neuroscience-seminar-ernesto-guccione-icahn-school-of-medicine-at-mount-sinai/
LOCATION:ASRC 1st Floor Seminar Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T120000
DTEND;TZID=America/New_York:20191205T130000
DTSTAMP:20260414T111321
CREATED:20191126T202307Z
LAST-MODIFIED:20191126T203212Z
UID:10001069-1575547200-1575550800@asrc.gc.cuny.edu
SUMMARY:Environmental Sciences Seminar: Róisín Commane\, Lamont-Doherty Earth Observatory at Columbia University
DESCRIPTION:Speaker: Róisín Commane\, Ph.D.\, Assistant Professor\, Dept. of Earth & Environmental Sciences\, Lamont-Doherty Earth Observatory at Columbia University \nTitle: Interactions between Energy & Environment: Measuring Air Quality & Greenhouse Gases in NYC \nAbstract: Carbon dioxide (CO2)\, methane and nitrous oxide are potent greenhouse gases and emitted in large quantities from urban areas. CO2 emissions from combustion sources (such as power plants and vehicles) are closely tied to emissions of nitrogen dioxide (NO2)\, which produces ozone (O3) in the presence of VOCs (Volatile Organic Compounds). Although New York is the largest urban source of CO2 and NO2 in the US\, there have been limited CO2 measurements in the New York metro area until now. I will discuss our first steps to establish a comprehensive greenhouse gas measurement network around New York and preliminary results from measurements made in collaboration with NGENS. \nBio: Roisin is an Assistant Professor in the Dept. Earth and Environmental Sciences\, Lamont-Doherty Earth Observatory at Columbia University\, where her group examines multidisciplinary questions drawing together atmospheric chemistry\, composition and transport\, and terrestrial ecology. She has a PhD from University of Leeds\, UK in atmospheric chemistry and was a Research Associate at Harvard University 2009-2018.
URL:https://asrc.gc.cuny.edu/event/environmental-sciences-seminar-roisin-commane-lamont-doherty-earth-observatory-at-columbia-university/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T130000
DTEND;TZID=America/New_York:20191205T140000
DTSTAMP:20260414T111321
CREATED:20191122T155708Z
LAST-MODIFIED:20191122T155708Z
UID:10001067-1575550800-1575554400@asrc.gc.cuny.edu
SUMMARY:Nanoscience Seminar: Robert MacFarlane\, Massachusetts Institute of Technology
DESCRIPTION:Speaker: Robert MacFarlane\, Massachusetts Institute of Technology (MIT) \nTitle: Systems-Level Control of Structural Hierarchy \nAbstract: Structural hierarchy is a powerful design concept where specific geometric motifs are used to influence material structure across multiple size regimes. These complex levels of organization are typically achieved in the laboratory by manipulating the thermodynamics of chemical bonding between small-scale components to control how they build up into larger length scale patterns. Conversely\, complex assemblies in natural systems are commonly achieved through a more holistic approach where not only does structural information contained in molecular building blocks filter upwards to dictate material form at the nano to macroscopic levels\, but also that the environment created by the larger length scale features affects the behavior of individual components. Here\, we will discuss a new method to synthesize materials in a systems-focused approach that mimics nature’s ability to general complex structural motifs across a wide range of size regimes. This synthesis technique uses nanoscale design handles to deliberately control the multivalent assembly of particle-grafted supramolecular binding moieties\, where control over both molecular and nanostructure of material building blocks is then used to manipulate the mesoscale structure of the resulting materials. Assembling materials in this manner therefore expands our ability to program hierarchical ordering at the molecular\, nano\, and macroscale simultaneously. \nBio: Rob Macfarlane joined MIT in 2015 as a faculty member in the Department of Materials Science and Engineering\, where he is currently the Paul M. Cook Assistant Professor. Rob obtained his PhD in chemistry in 2013 at Northwestern University\, followed by a Kavli Nanoscience Institute post-doctoral fellowship at Caltech. He is an expert in the fields of self-assembly\, nanocomposites\, materials chemistry\, and nanomaterials processing\, and his research lab sits at the interface of these fields to establish new materials fabrication techniques. His lab’s research focuses on developing systems-level approaches to materials synthesis\, where structural features at the molecular\, nano\, and macroscopic length scales act together as integrated design handles to control a material’s hierarchical ordering. These materials range from inorganic nanoparticles to synthetic polymers to biomacromolecules like DNA\, and the structures have potential utility in diverse applications ranging from energy storage to protective coatings.
URL:https://asrc.gc.cuny.edu/event/nanoscience-seminar-robert-macfarlane-massachusetts-institute-of-technology/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Nanoscience
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191205T140000
DTEND;TZID=America/New_York:20191205T150000
DTSTAMP:20260414T111321
CREATED:20191121T194357Z
LAST-MODIFIED:20191121T194357Z
UID:10001061-1575554400-1575558000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Cheng-Wei Qiu\, National University of Singapore
DESCRIPTION:Speaker: Cheng-Wei Qiu\, National University of Singapore \nTitle: Synthetic interfacial optics with metasurfaces and 2D monolayers \nAbstract: Metasurfaces and 2D materials have been developing as two important candidates in the interfacial engineering\, providing a plethora of new possibilities in novel optoelectronic functions and applications. The synergies between those two domains hold great promises in manipulating light-matter interaction. In this tutorial talk\, I will review and report some of the most recent developments in this field of interfacial engineering\, via the artificially constructed hybridized structures of ultrathin thickness compared to the wavelength. In particular\, the low-dimension and high-frequency scaling may promise a lot more applications. The atomic thickness of 2D monolayers provides many interesting physical properties\, but limits the sufficient interaction with the light. Hence\, nano-patterned metasurfaces are deployed with 2D monolayers to modulate and structure novel light behavior. The following advanced functional optical devices\, developed by our group\, will be discussed: 3D meta-hologram\, high-pixelated nanoprinting\, dynamic OAM generation\, and more interestingly\, the 2D-material meta-lens of <1nm thickness\, significantly enhanced SHG\, PL\, and tunable structural colors\, by the coordinated hybridization between those two parties. Our work paves a roadmap to design sophisticated and advanced optical devices\, with low dimension\, miniaturization\, randomness\, and scaled-up capability. \nBio: Prof. Cheng-Wei Qiu received his B.Eng. and Ph. D. degree in 2003 and 2007\, respectively. He was a Postdoctoral Fellow at Physics Department in MIT till the end of 2009. Since December 2009\, he joined NUS as an Assistant Professor and was promoted to Associate Professor with tenure in Jan 2017. From 1st Jan 2018\, he was promoted to Dean’s Chair Professor in Faculty of Engineering\, NUS. He was the recipient of the SUMMA Graduate Fellowship in Advanced Electromagnetics in 2005\, IEEE AP-S Graduate Research Award in 2006\, URSI Young Scientist Award in 2008\, NUS Young Investigator Award in 2011\, MIT TR35@Singapore Award in 2012\, Young Scientist Award by Singapore National Academy of Science in 2013\, Faculty Young Research Award in NUS 2013\, SPIE Rising Researcher Award in 2017\, and Young Engineering Research Award 2018 in NUS. He is currently Associate Editor for Photonics Research\, Editor-in-Chief for eLight\, and Associate Editor of PhotoniX. His research is known for the structured light for beam manipulation and nanoparticle manipulation. He has published over 230 peer-reviewed journal papers\, including Science\, Nature Photonics\, Nature Materials\, Nature Communications\, Science Advances\, Physical Review Letters\, etc.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-cheng-wei-qiu-national-university-of-singapore/
LOCATION:ASRC 1st Floor Seminar Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191209T153000
DTEND;TZID=America/New_York:20191209T163000
DTSTAMP:20260414T111321
CREATED:20191205T162349Z
LAST-MODIFIED:20191205T193924Z
UID:10001073-1575905400-1575909000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Costas Valagiannopoulos\, Nazarbayev University
DESCRIPTION:Speaker: Costas Valagiannopoulos\, Nazarbayev University \nTitle: Photonic Concepts Translated Into Quantum Arena \nAbstract: A new funding landscape for quantum engineering research has been recently shaped comprising impressive state strategies like National Quantum Initiative Act that echoed extensive investments from industry giants like IBM\, Google\, Microsoft and Intel. Indeed\, US Army Research Laboratory (ARL)\, Department of Defense (DoD)\, National Science Foundation (NSF) and Air Force Office of Scientific Research (AFOSR) have already approved numerous large-scale\, multidisciplinary programs\, most of them related to quantum interactions between particles and texture whose disruptive effects are behind a broad range of applications from quantum sensing and filtering to quantum circuits and memory. \nFrom a fundamental point of view\, the quantum side of any particle beam is described mostly by matter waves while the quantum texture by macroscopic quantities like the potential energy and the effective mass of the electrons therein. Given the fact that Schrodinger and Helmholtz equations look similar and wave functions and probability currents respect ordinary Dirichlet and Neumann boundary conditions\, a direct analogy to Electromagnetics is formulated. Therefore\, many photonic concepts can be translated into the quantum arena and reveal new dynamics and utilities that are useful in related applications. \nIn this talk\, I will present certain cases that this translation is meaningful starting from super-scattering spherical inclusions made of realistic quantum media hosted in high-potential diamond environment that can work efficiently as sensors for the incoming beam energies. Furthermore\, the well-known Fabry-Perot resonator will be investigated from the quantum point of view by focusing on its ability of selecting specific directions of the incident matter waves. The extreme angular selectivity in matter-wave tunneling will be demonstrated again with use of actual quantum materials and two different mechanisms of accomplishing it\, will be identified. Finally\, I will mention examples of optimally sharp planar filters for particle energies and quantum waveguides of maximal ability to get dissipatively coupled with external cavities. \nBio: Constantinos Valagiannopoulos (IEEE M’12\, SM’16) was born in Athens\, Greece\, in 1982. He received the Dipl. Eng. (Hons.) degree in Electrical Engineering from the National Technical University of Athens\, Greece\, in 2004\, and the Ph.D. degree on Electromagnetic Theory in 2009 from the same Institute. Between 2010 and 2014\, he was a Postdoctoral Researcher in the Group of Theoretical and Applied Electromagnetics of Complex Media at Department of Electronics and Nanoengineering\, Aalto University\, Finland (advisor: Sergei Tretyakov). During the academic year 2014–2015\, he was with the Laboratory of Metamaterials and Plasmonics at Department of Electrical and Computer Engineering\, University of Texas at Austin\, USA (advisor: Andrea Alu). From 2015\, he is with Nazarbayev University (NU)\, Kazakhstan\, as an Assistant and from 2018 as an Associate Professor in the Department of Physics. Meanwhile\, he has been a visiting Assistant Professor at University of Southampton (Pavlos Lagoudakis group) and a visiting Scholar at Harvard University (Efthimios Kaxiras group). He currently leads the Metamaterials Modeling and Design Group at NU performing research on the forward and inverse design of photonic devices manipulating the light. He has authored or coauthored more than 90 works published at international refereed scientific journals and presented numerous reports in scientific conferences. He is currently participating as Principal Investigator (PI) or co-PI in the successful execution of national and international winning research grants with total annual budget more than 450K USD. Dr. Valagiannopoulos received the inaugural 2015 JOPT Research Excellence Award for his work: “Perfect absorption in graphene multilayers” and is a Senior Member of IEEE and OSA. He also received the International Chorafas Prize for the Best Doctoral Thesis in 2008\, and the Academy of Finland Postdoctoral Grant for 2012–2015.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-costas-valagiannopoulos-nazarbayev-university/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191211T100000
DTEND;TZID=America/New_York:20191211T110000
DTSTAMP:20260414T111321
CREATED:20191205T163817Z
LAST-MODIFIED:20191206T163019Z
UID:10001074-1576058400-1576062000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Said Rahimzadeh-Kalaleh Rodriguez\, AMOLF
DESCRIPTION:Speaker: Said Rahimzadeh-Kalaleh Rodriguez \nTitle: Scaling and universality in optical bistability \nAbstract: Driven nonlinear dynamical systems can reside in two steady states at a single driving condition. This feature\, known as bistability\, is associated with emergent phenomena in phase transitions\, scaling\, and universal behavior. In descriptions of bistable systems\, it is typically assumed that the nonlinear force responsible for bistability acts instantaneously on the system. In addition\, the role of quantum fluctuations on bistability was until recently largely assumed to be irrelevant to experiments. In this talk\, I will present two experiments where these two assumptions were challenged.  Both of these experiments were based on nonlinear optical cavities driven by light\, but similar physics is expected in other systems.  The experiments we performed consisted of scanning a driving parameter (e.g. laser intensity or frequency) across an optical bistability at various speeds\, and analyzing the resultant dynamic optical hysteresis. Intriguingly\, both quantum fluctuations and non-instantaneous interactions lead to a universal power law decay of the hysteresis area as a function of the scanning speed. However\, universal scaling behavior emerges in the opposite limits of slow and fast scans when quantum fluctuations and non-instantaneous interactions are taken into account\, respectively. I will conclude with perspectives for realizing lattices of bistable optical cavities\, and the opportunities that these bring for performing analog computation and studying non-Markovian nonlinear dynamics with light. \nBio: Said Rodriguez leads the Interacting Photons group at the Center for Nanophotonics in AMOLF. Said got his PhD (Cum Laude) in Applied Physics at the Eindhoven University of Technology\, in the former AMOLF/Philips group of Prof. Gómez Rivas. Said’s thesis received the FOM Physics thesis prize – an annual award for the best physics thesis in the Netherlands. Said then received a Marie-Curie fellowship to study quantum and nonlinear optics in the group of Prof. J. Bloch and Dr. A. Amo at the Center for Nanoscience and Nanotechnologies (France). Next\, Said did a short postdoc in the group of Prof. A. Mosk at Utrecht University. Throughout this time\, Said has worked with various optical systems\, including plasmonic lattices\, waveguides\, organic & inorganic emitters\, integrated semiconductor cavities\, photonic crystal cavities\, and most recently tunable cavities. Said is the recipient of an ERC Starting grant aimed at realizing strongly correlated polaritons in optoelectronic nanostructures. Recently\, the Royal Netherlands Academy of Arts and Sciences (KNAW) granted Said the Early Career Award in the domain of Natural and Technical Sciences. Said’s current research interests include stochastic nonlinear dynamics\, quantum optics\, strong light-matter coupling\, sensing\, and emergent phenomena in condensed matter systems.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-said-rahimzadeh-kalaleh-rodriguez-amolf/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191211T120000
DTEND;TZID=America/New_York:20191211T130000
DTSTAMP:20260414T111321
CREATED:20191108T175100Z
LAST-MODIFIED:20191205T195324Z
UID:10000980-1576065600-1576069200@asrc.gc.cuny.edu
SUMMARY:Seminar in Biochemistry\, Biophysics & Biodesign: Igor A. Kaltashov\, Univ. of Massachusetts Amherst
DESCRIPTION:Speaker: Igor A. Kaltashov\, Professor\, Department of Chemistry. University of Massachusetts Amherst \nTitle: New mass spectrometry-based approaches to characterization of highly heterogeneous macromolecules: focus on heparin \nAbstract: Understanding molecular mechanisms governing interactions of glycosaminoglycans (such as heparin) with proteins remains challenging due to their enormous structural heterogeneity. Commonly accepted approaches seek to reduce this structural complexity by searching for “minimal protein-binding epitopes” within the limited subsets of short heparin oligomers produced either enzymatically or synthetically. An alternative approach presented in this work seeks to preserve the chemical diversity displayed by heparin by allowing the intact polysaccharide chains to interact with the client protein. Native mass spectrometry (MS) is used in combination with ion chemistry in the gas phase to characterize intact protein/heparin complexes\, providing information on their composition and binding stoichiometry. More detailed structural information is obtained by carrying out enzymatic foot-printing in solution by lysing the protein-bound heparin chains followed by the product analysis using size exclusion chromatography with on-line MS detection. When applied to a paradigmatic heparin/antithrombin system\, the new method generates a series of oligomers with surprisingly distinct sulfation levels\, highlighting the important role of the electrostatics outside of the binding core (where the protein/heparin association is guided by structural complementarity). In addition to being an auxiliary force\, electrostatic interactions may rescue protein/heparin association when the structurally complementary binders are unavailable. Applications of MS-based approaches to other therapeutically relevant protein/heparin systems are also considered.
URL:https://asrc.gc.cuny.edu/event/seminar-in-biochemistry-biophysics-biodesign-igor-a-kaltashov-univ-of-massachusetts-amherst/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20191219T120000
DTEND;TZID=America/New_York:20191219T130000
DTSTAMP:20260414T111321
CREATED:20191126T203128Z
LAST-MODIFIED:20191126T203128Z
UID:10001070-1576756800-1576760400@asrc.gc.cuny.edu
SUMMARY:Environmental Sciences Seminar: Michael Menser\, Brooklyn College
DESCRIPTION:Speaker: Michael Menser\, Ph.D.\, Associate Professor\, Philosophy\, Urban Sustainability Studies\, Caribbean Studies\, Brooklyn College \nTitle: Resilience\, Participatory Budgeting and the New Civic Engagement Commission: The Role of CUNY \nAbstract: One year ago New Yorkers overwhelmingly approved ballot measures that made participatory budgeting city wide and created a new government organization\, the civic engagement commission\, which is supposed to promote interagency coordination and provide technical assistance to community boards. Mike Menser will discuss how both could help NYC become more equitable and resilient especially if they partnered with CUNY. \nBio: Dr. Michael Menser teaches Philosophy\, Urban Sustainability Studies\, and Caribbean Studies at Brooklyn College and Earth and Environmental Sciences and Environmental Psychology at the CUNY Graduate Center. He is an advisor for community engagement for the Science and Resilience Institute at Jamaica Bay and on the board of the Center for the Study of Brooklyn. He is the author of We Decide! Theories and Cases in Participatory Democracy (Temple 2018) and is a contributor to Prospects for Resilience: Insights from New York City’s Jamaica Bay (Island 2016). He is the co-founder and President of the Board of the Participatory Budgeting Project and helped launch one of the first PB processes in NYC working with the residents of Flatbush Brooklyn. Menser received his PhD from CUNY\, has taught at Brooklyn College since 1995 and is a member of the Professional Staff Congress union (PSC CUNY). His early research was in philosophy of biology and science and technology studies and he co-edited the volume Technoscience and Cyber-culture (Routledge 1996) and since then has published scholarly papers on the democratizing the food system\, political theory and democratizing the state\, and bioregionalism and urban resilience. His current research is on climate justice for urban socio-ecological systems and how to create more equity-enhancing\, effective\, informed\, and collaborative governance systems at different governmental levels in policies and programs such as the Green New Deal.
URL:https://asrc.gc.cuny.edu/event/environmental-sciences-seminar-michael-menser-brooklyn-college/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200108T130000
DTEND;TZID=America/New_York:20200108T150000
DTSTAMP:20260414T111321
CREATED:20200103T213259Z
LAST-MODIFIED:20200103T213259Z
UID:10001088-1578488400-1578495600@asrc.gc.cuny.edu
SUMMARY:Lab Safety Training
DESCRIPTION:Lab safety training for ASRC researchers and core facility users. \nContact: Aldo Orlando\, aldo.orlando@asrc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/lab-safety-training-8/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200117T143000
DTEND;TZID=America/New_York:20200117T200000
DTSTAMP:20260414T111321
CREATED:20200103T154035Z
LAST-MODIFIED:20200103T154035Z
UID:10001081-1579271400-1579291200@asrc.gc.cuny.edu
SUMMARY:Glia Club Meeting
DESCRIPTION:This will be an opportunity to start the new year by sharing exciting new discoveries and meeting old and new friends working on the fascinating biology of glial cells. \nWe welcome talks from speakers who would like to get feedback on their latest research findings and especially encourage abstracts and poster presentations by trainees. \nThis is the time to mingle\, present your work\, meet new people\, get honest feedback on your work. \nThe community is growing and it is all because your participation makes it possible. \nPlease register for the event via eventbrite by January 10th. Although registration is not required to attend the symposium\, it will help us with the planning. If you are presenting a poster\, please provide the title during registration\, also due on January 10th. \nRegister online at https://bit.ly/38xMYCp
URL:https://asrc.gc.cuny.edu/event/glia-club-meeting/
LOCATION:ASRC Auditorium & Cafe\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200124T140000
DTEND;TZID=America/New_York:20200124T160000
DTSTAMP:20260414T111321
CREATED:20191211T220838Z
LAST-MODIFIED:20200122T180344Z
UID:10001075-1579874400-1579881600@asrc.gc.cuny.edu
SUMMARY:STEM Undergraduate Summer Research Info Session
DESCRIPTION:This event will feature a number of undergraduate summer research programs which place students with mentors at the CUNY ASRC and other local institutions. Many programs offer stipends and other support packages. \nParticipants will also have the opportunity to meet with a representative from The Graduate Center’s Office of Admissions\, tour ASRC labs\, mingle with faculty\, and visit our IlluminationSpace visitor center. \nPlease register to attend in-person or via livestream. \nSCHEDULE:  \n2 p.m. – Introduction\nAnnette “Nina” Gray\, PhD\nAssociate Dean for the Sciences\, The Graduate Center\nExecutive Director\, CUNY Advanced Science Research Center \n2:05 p.m. – Program Presentations  \n\nCUNY Summer Undergraduate Program (CSURP)\nMaterials Research Center Research Experience for Undergraduates Program (MRSEC REU) and Nano-NY\nResearch Experience for Undergraduates program in Biochemistry\, Biophysics and Biodesign (B3-REU)\nCREST Center for Interface Design and Engineered Assembly of Low Dimensional Systems Research Experience for Undergraduates (CREST IDEALS REU)\nThe Graduate Center Office of Admissions\n\n3:00 p.m. – Meet & Greet and ASRC Tours\nMeet with program representatives\, tour ASRC labs\, and mingle with faculty and students. Refreshments will be served.
URL:https://asrc.gc.cuny.edu/event/stem-undergraduate-summer-research-info-session/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200127T110000
DTEND;TZID=America/New_York:20200127T120000
DTSTAMP:20260414T111322
CREATED:20191213T145415Z
LAST-MODIFIED:20200108T150709Z
UID:10001076-1580122800-1580126400@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Christian Kern\, University of Utah
DESCRIPTION:Speaker: Christian Kern\, University of Utah \nTitle: On the Hall effect in three-dimensional metamaterials \nAbstract: The Hall effect describes the appearance of a transversal voltage\, the so-called Hall voltage\,in a current-carrying slab of material that is subject to an external magnetic field. Mathematically\, the effect is described by an antisymmetric contribution to the conductivity tensor that is proportional to the magnetic field. This antisymmetric contribution is linked to the nonreciprocity of the effect\, which is a result of the external magnetic field breaking time-reversal symmetry. In the isotropic case\, the relevant material properties are given by a scalar parameter\, the so-called Hall coefficient. In metamaterials\, very unusual values of the effective Hall coefficient can be realized by tailoring their microscopic structure. In this talk\, based on the work of Marc Briane and Graeme Milton\, I will show that the effective Hall coefficient of a single-constituent porous metamaterial can be sign-inverted with respect to the Hall coefficient of the constituent material and how we were able to demonstrate this effect experimentally. Furthermore\, I will discuss structures with lower symmetry\, which are described by a rank-two tensor instead of a scalar Hall coefficient. In the last part of my talk\, I will elaborate on bounds on the effective Hall coeffcient and related effective material parameters. Such bounds can be obtained using results from perturbation theory or via the variational principles of Cherkaev\, Gibiansky\, and Milton. \nBio: Christian Kern is a Research Assistant Professor in the Department of Mathematics at the University of Utah\, Salt Lake City. His research focuses on the theoretical description and experimental realization of three-dimensional composites and metamaterials with highly non-trivial geometries. C. Kern received his Ph.D. in Physics from Karlsruhe Institute of Technology in 2019\, where he was advised by Martin Wegener. He holds a B.Sc. and a M.Sc. in Physics from ETH Zurich.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-christian-kern-university-of-utah/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200129T120000
DTEND;TZID=America/New_York:20200129T130000
DTSTAMP:20260414T111322
CREATED:20191227T152305Z
LAST-MODIFIED:20200116T214458Z
UID:10001077-1580299200-1580302800@asrc.gc.cuny.edu
SUMMARY:Seminar in Biochemistry\, Biophysics & Biodesign: Colin A. Smith\, Wesleyan University
DESCRIPTION:Speaker: Colin A. Smith\, Assistant Professor in Chemistry\, Wesleyan University Middletown\, CT \nTitle: Elucidating Effects of Motion on Designed Fluorescent Proteins through Simulation and Improved Modeling of NMR Data \nAbstract: The de novo computational design of proteins with a predefined three-dimensional structure is becoming routine. However\, giving those molecules useful functions is often much more difficult. In that regard\, the recent design of proteins that activate the fluorescence of a small molecule chromophore is noteworthy. The design process created a large library of variants\, but gave no rational explanation of why one variant is brighter than another. Using both quantum mechanics and molecular dynamics simulations\, we show that the ability of the protein to resist chromophore motion can predict brightness. In addition to providing avenues for optimizing these proteins\, this represents an ideal model system for studying how to design proteins that stabilize a particular ligand conformation\, a critical aspect of enzyme design. To further characterize the solution dynamics of this and other proteins in full-atom detail\, we are developing new computational techniques that can extract dynamics from nuclear Overhauser effect (NOE) experiments used for structure determination. Due to numerous approximations\, those structures often have limited accuracy and many aspects of inherent protein flexibility are neglected. To overcome this\, we recently developed a new computational method\, called the Kinetic Ensemble approach\, that rigorously quantifies protein motion from NOE data. \n 
URL:https://asrc.gc.cuny.edu/event/seminar-in-biochemistry-biophysics-biodesign-colin-a-smith-wesleyan-university/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200129T120000
DTEND;TZID=America/New_York:20200129T130000
DTSTAMP:20260414T111322
CREATED:20200129T213219Z
LAST-MODIFIED:20200129T213219Z
UID:10001104-1580299200-1580302800@asrc.gc.cuny.edu
SUMMARY:RNAScope
DESCRIPTION:
URL:https://asrc.gc.cuny.edu/event/rnascope/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200130T140000
DTEND;TZID=America/New_York:20200130T150000
DTSTAMP:20260414T111322
CREATED:20200108T162112Z
LAST-MODIFIED:20200121T215914Z
UID:10001089-1580392800-1580396400@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Andrea Blanco-Redondo\, NOKIA Bell Labs
DESCRIPTION:Speaker: Andrea Blanco-Redondo\, NOKIA Bell Labs \nTitle: Topological quantum photonics and novel soliton physics \nAbstract: In this talk I will review our work on topological and nonlinear photonics. First\, I will cover the latest developments in the field of topological quantum photonics with special emphasis on our experimental results on entangled states of topological modes in silicon waveguide arrays. Following I will unveil our most recent results on the recently discovered pure-quartic solitons\, including our demonstration of the first pure-quartic soliton laser. \nBio: Andrea Blanco-Redondo is the Head of the Silicon Photonics department at Nokia Bell Labs and an OSA Director at Large. Prior to this\, from 2015 to early 2019\, she was the Professor Harry Messel Research Fellow of the School of Physics of the University of Sydney\, in Australia\, and from 2007 to 2014 she was a senior photonics researcher with the Aerospace and Telecom departments of Tecnalia\, Spain. She got her PhD in photonics at the University of the Basque Country\, Bilbao\, Spain\, and her MSc in Telecom Engineering at the University of Valladolid\, Valladolid\, Spain. She is an Associate Editor with OSA Continuum and a member of the Editorial Board of APL Photonics. She is also the recipient of the 2016 Geoff Opat Award of the Australian Optical Society to the top Australian Early Career Researcher\, and of the Spanish 2014 Ada Byron Award to the top Women in Technology.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-andrea-blanco-redondo-nokia-bell-labs/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200131T110000
DTEND;TZID=America/New_York:20200131T120000
DTSTAMP:20260414T111322
CREATED:20200121T214118Z
LAST-MODIFIED:20200121T215457Z
UID:10001099-1580468400-1580472000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Mohammad Hafezi\, University of Maryland
DESCRIPTION:Speaker: Mohammad Hafezi\, University of Maryland \nTitle: Topological physics: from photons to electrons \nAbstract: There are many intriguing physical phenomena that are associated with topological features — global properties that are not discernible locally. The best-known examples are quantum Hall effects in electronic systems\, where insensitivity to local properties manifests itself as conductance through edge states which are insensitive to defects and disorder. In the talk\, we first discuss how similar physics can be explored with photons; specifically\, how various quantum Hall Hamiltonians can be simulated in an optical system.  We then discuss how strong interaction between photons can be created by the integration of topological photonic structures with solid-state quantum emitters. Our results may enable the development classical and quantum optical devices with built-in protection for next-generation optoelectronic and quantum technologies. \nBio: Mohammad Hafezi is an Associate Professor with a joint appointment in the Physics and Electrical and Computer Engineering Departments at the University of Maryland and a fellow of the Joint Quantum Institute. He studied for two years at Sharif University before completing his undergraduate degree from École Polytechnique. He received his Ph.D. in Physics from Harvard University in 2009. His research interest includes quantum optics\, topological physics\, condensed materials\, and quantum information sciences. He has had a number of pioneering contributions in exploring topological physics in synthetic systems such as photonic and atomic platforms\, including the first proposal and realization of topological edge states for optical photons. He is the recipient of the Sloan Fellowship\, the Young Investigator Award of the US Naval Research Office.
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-mohammad-hafezi-university-of-maryland/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200204T163000
DTEND;TZID=America/New_York:20200204T173000
DTSTAMP:20260414T111322
CREATED:20200122T171426Z
LAST-MODIFIED:20200122T171426Z
UID:10001101-1580833800-1580837400@asrc.gc.cuny.edu
SUMMARY:March for Science Information Session
DESCRIPTION:March for Science NYC is the official satellite of March for Science\, a volunteer network of scientists committed to science for a common good. In NYC\, we are expanding our team and programming in 2020! This information session will give an introduction to our organization and our plans for 2020\, including our upcoming march and expo on April 19\, 2020. \nFor more information contact Ingrid Paredes at ijparedes@nyu.edu.
URL:https://asrc.gc.cuny.edu/event/march-for-science-information-session/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200205T120000
DTEND;TZID=America/New_York:20200205T130000
DTSTAMP:20260414T111322
CREATED:20191227T174029Z
LAST-MODIFIED:20200203T170245Z
UID:10001078-1580904000-1580907600@asrc.gc.cuny.edu
SUMMARY:Seminar in Biochemistry\, Biophysics & Biodesign: Cynthia Wolberger\, Johns Hopkins
DESCRIPTION:Speaker: Cynthia Wolberger; Professor\, Department of Biophysics & Biophysical Chemistry Johns Hopkins University School of Medicine \nTitle: Histone H2B ubiquitination in transcription and nucleosome dynamics \nAbstract: Post-translational modifications of histones play a central role in regulating all cellular processes requiring access to DNA. Cross-talk between histone modifications\, in which one histone modification regulates deposition of a second\, provides an additional layer of regulation and specificity. Monoubiquitinated histone H2B-K120 (in humans; K123 in yeast) is a hallmark of actively transcribed genes that is required for methylation of histone H3K79 and H3K4\, two other marks of active regions of transcription. H3K79 is methylated by Dot1L in humans and H3K4 is methylated by the COMPASS complex in yeast. To determine the molecular basis of cross-talk between histone ubiquitination and methylation\, we have determined cryo-EM structures of the respective enzyme complexes bound to H2B-ubiquitinated nucleosomes. In addition to revealing the mechanism of ubiquitin recognition and enzyme stimulation\, our studies have revealed surprising plasticity in the histone core of the nucleosome that has implications for interactions with other histone-modifying enzymes.
URL:https://asrc.gc.cuny.edu/event/seminar-in-biochemistry-biophysics-biodesign-cynthia-wolberger-johns-hopkins/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200205T130000
DTEND;TZID=America/New_York:20200205T150000
DTSTAMP:20260414T111322
CREATED:20200108T162352Z
LAST-MODIFIED:20200108T162352Z
UID:10001091-1580907600-1580914800@asrc.gc.cuny.edu
SUMMARY:Lab Safety Training
DESCRIPTION:Lab safety training for ASRC researchers and core facility users. \nContact: Aldo Orlando\, aldo.orlando@asrc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/lab-safety-training-9/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200206T120000
DTEND;TZID=America/New_York:20200206T130000
DTSTAMP:20260414T111322
CREATED:20200108T164129Z
LAST-MODIFIED:20200206T152608Z
UID:10001093-1580990400-1580994000@asrc.gc.cuny.edu
SUMMARY:Environmental Sciences Seminar: Jason Smith (NY Restoration Project) & Chester Zarnoch (Baruch College) [CANCELLED]
DESCRIPTION:Speaker(s): \nJason Smith\, MS\, MFA. Director of Northern Manhattan Parks for the NY Restoration Project \nChester Zarnoch\, PhD. Professor CUNY\, Dept. of Natural Science at Baruch College \nTitle: A Living Shoreline on the Harlem River: From Design Challenges to Ecosystem Services \nAbstract: The Sherman Creek Living Shoreline is an intervention intended to adapt a coastal park in Northern Manhattan to the impacts of climate change while improving the ecosystem function of the shoreline. In the Spring of 2020 an artificial oyster reef will be installed in the Harlem River to alter sediment dynamics and facilitate the establishment of intertidal wetlands. As a collaboration between a non-profit\, government agencies\, and CUNY researchers\, this project is an example of how to integrate collaborative research into the adaptation of urban public space. Ongoing research will assess the role of mussels in the success of wetland establishment\, and evaluate changes to carbon storage and sediment gas fluxes. This work will demonstrate the potential of living shorelines to provide critical ecosystem services in eutrophic waters such as the Harlem\nRiver. \nBio: \nJason Smith is the Director of Northern Manhattan Parks for the New York Restoration Project. In this capacity\, he manages the stewardship of parkland and implements projects that enhance the resilience of northern Manhattan communities. Jason’s interests include ecological land management and nexus of design and conservation in cities. Prior to working at NYRP\, Jason taught art and design at SUNY Buffalo and Canisius College. Jason received an MS from Brooklyn College in Earth and Environmental Science and an MFA in Visual Art from SUNY Buffalo. Jason’s experiences in construction\, landscaping\, art and education inform his approach to interdisciplinary urban research and practice. \nChester B. Zarnoch holds a Ph.D. in Biology and is a Professor of Environmental Studies and Biology at Baruch College\, City University of New York (CUNY) and is Graduate Faculty in the Biology Program at CUNY’s Graduate Center. He has been an active researcher in marine ecology and aquaculture since 2001 and has published papers on shellfish biology\, sediment nitrogen cycling\, and intensive aquaculture. His current research aims to describe the biological and physical processes that influence ecosystem services derived from restored habitats in eutrophic estuaries. \nLivestream Link:\n Click here to join through Zoom. Note: you may be asked to install a small Zoom app before being able to join. In case the link does not work\, the Zoom Meeting ID is 347 137 665.
URL:https://asrc.gc.cuny.edu/event/environmental-sciences-seminar-jason-smith-ny-restoration-project-chester-zarnoch-baruch-college/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200206T160000
DTEND;TZID=America/New_York:20200206T183000
DTSTAMP:20260414T111322
CREATED:20200110T210205Z
LAST-MODIFIED:20200122T150606Z
UID:10001097-1581004800-1581013800@asrc.gc.cuny.edu
SUMMARY:CUNY STEM Postdoc Town Hall
DESCRIPTION:Come share your insights on the professional development\, career navigation\, and networking needs of CUNY’s STEM postdocs with the goal of shaping future programs from the ASRC and Graduate Center. Refreshments will be served during a reception after the townhall so you can meet your colleagues. \nPlease register to attend in-person or online by Monday\, February 3.
URL:https://asrc.gc.cuny.edu/event/cuny-stem-postdoc-town-hall/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200219T120000
DTEND;TZID=America/New_York:20200219T130000
DTSTAMP:20260414T111322
CREATED:20191227T174339Z
LAST-MODIFIED:20200207T194948Z
UID:10001079-1582113600-1582117200@asrc.gc.cuny.edu
SUMMARY:Seminar in Biochemistry\, Biophysics & Biodesign: Ioannis Gelis\, Univ. of South Florida
DESCRIPTION:Speaker: Ioannis Gelis\,  Assistant Professor Department of Chemistry\, Univ. of South Florida Tampa\, FL \nTitle: Molecular insights into the progression of Hsp90-mediated kinase chaperone cycle \nAbstract: Molecular chaperones play an essential role in the maintenance of a balanced protein homeostasis\, by promoting protein folding and preventing protein misfolding and aggregation. Broad scope chaperones such as those found in the heat shock protein (Hsp) family\, including Hsp60\, Hsp70\, Hsp90\, Hsp100 and small Hsps\, do not function independently but make the core of elaborate macromolecular machineries formed with partner proteins\, termed cochaperones\, that regulate their functions\, fine-tune progression through the chaperone cycle and even bridge chaperone machineries\, creating intricate chaperone networks. Thus\, the composition and architecture of chaperone complexes is highly dynamic\, requiring remodeling of protein-protein interfaces for efficient processing of the substrate during chaperone cycles. We use NMR spectroscopy together with other biophysical and biochemical techniques to characterize early steps of the Hsp90-mediated chaperone cycle of protein kinases\, and particularly substrate entry. I will discuss how the kinase-specific cochaperone of Hsp90\, Cdc37\, assists in the recruitment of protein kinases and essentially orchestrates progression through the kinase chaperone cycle. Sensing of kinase thermodynamic stability permits Cdc37 to discriminate between client- and non-client kinases and therefore allows for selective client entry to the chaperone cycle. Phosphorylation induced unfolding of Cdc37\, coupled to global conformational rearrangements\, then lead to the release of the cochaperone and possessing of the substrate kinase assisted by a series of late cochaperones implicated in regulating the ATPase activity of Hsp90.
URL:https://asrc.gc.cuny.edu/event/seminar-in-biochemistry-biophysics-biodesign-ioannis-gelis-univ-of-south-florida/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200219T120000
DTEND;TZID=America/New_York:20200219T130000
DTSTAMP:20260414T111322
CREATED:20200129T213539Z
LAST-MODIFIED:20200203T200137Z
UID:10001106-1582113600-1582117200@asrc.gc.cuny.edu
SUMMARY:RNAScope
DESCRIPTION:RNAScope \nInnovative RNA in situ hybridization technology \n  \nThe RNAscope® and Basescope® assays have streamlined & revolutionized RNA ISH\, making it accessible to any laboratory\, including those that are yet to perform in situ hybridization. \nOur invited speakers will show how this next generation in situ hybridization enables and accelerates their research. They will present their scientific challenges and results and will describe how they set up the RNAscope™ assays and established them as a core assay in their labs. \nThis event aims to promote and facilitate scientific discussions and exchanges among existing and future users from various institutions who want single-molecule sensitive detection of target expression in disease and normal tissue.
URL:https://asrc.gc.cuny.edu/event/rnascope-2/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Neuroscience
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20200220
DTEND;VALUE=DATE:20200222
DTSTAMP:20260414T111322
CREATED:20191204T150744Z
LAST-MODIFIED:20191204T163709Z
UID:10001072-1582156800-1582329599@asrc.gc.cuny.edu
SUMMARY:GRAPHENE FOR US
DESCRIPTION:New York (USA) will host the 3rd edition of the Graphene & 2D Materials International Conference and Exhibition (GrapheneforUS): February 20-21\, 2020. \nGrapheneUS 2020 will be a 2 days event that means to gather the key players of the Graphene Community and related sectors. This event is launched again following the success of the 2018 &2019 editions and the lack of meetings in the field in the US. It aims to become an established event\, attracting global participants\, intent on sharing\, exchanging and exploring new avenues of graphene-related scientific and commercial developments. \nThe Industrial Forum will again present the most recent advances in technology developments and business opportunities in graphene commercialization. Key representatives of “graphene companies” will share their market vision and business opportunities\, while selected talks from industrial exhibitors will present commercial showcases in all current market fields of graphene products. \nFor more information visit http://www.grapheneforus.com/2020/index.php
URL:https://asrc.gc.cuny.edu/event/graphene-for-us/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20200220T120000
DTEND;TZID=America/New_York:20200220T130000
DTSTAMP:20260414T111322
CREATED:20200210T173126Z
LAST-MODIFIED:20200219T214217Z
UID:10001006-1582200000-1582203600@asrc.gc.cuny.edu
SUMMARY:Environmental Sciences Seminar: Marissa Matsler\, The Cary Institute of Ecosystems Studies & UREx SRN
DESCRIPTION:Speaker: Marissa Matsler\, Ph.D. Postdoctoral Research Associate\, The Cary Institute of Ecosystems Studies & UREx SRN \nTitle: Making Nature into Infrastructure: Interdisciplinary Challenges across the Eco-Techno Spectrum of Green Infrastructure \nAbstract: Green infrastructure (GI) development is increasing in US municipalities. However\, despite technical optimism regarding the benefits provided by GI\, governance challenges create significant barriers to effective GI implementation and maintenance. This stems in part from the contested definition of GI\, i.e. stakeholders place varied\, often conflicting demands on the concept. This lack of conceptual clarity means that GI programs currently consist of a mishmash of disparate facility types\, from large-scale natural areas to small-scale engineered bioswales\, all of which are designed\, implemented\, and maintained by organizations with different\, sometimes conflicting\, goals. \nTo make sense of GI management\, I organize this variety along the Eco-Techno Spectrum\, arranging facilities according to the degree to which ‘nature’ or biological entities (i.e. plants\, soils\, microbes) are incorporated as infrastructural components in facilities. On the ‘eco’ end of the spectrum are remnant forests and floodplains where most components are biological. On the ‘techno’ end of the spectrum are engineered green roofs and permeable pavement where components are primarily human-made technologies. This spectrum allows for the combination of ecological and engineering data\, which are usually siloed. Importantly\, this spectrum also provides a platform on which to integrate governance and socio-political concerns with technical engineering and ecological data. The Eco-Techno Spectrum captures the diversity of technologies\, institutional actors\, scales\, jurisdictions\, and ecosystems that make up GI in cities today. While relatively simplistic\, this heuristic is powerful because it organizes facilities across different social\, ecological\, and technical boundaries into a single framework. This unified framework can generate and organize variables of interest from different disciplines and can help create a link between research and practice. In this presentation\, I will show the Eco-Techno Spectrum’s utility to an interdisciplinary examination of urban governance through cases in Portland and Baltimore. \nBio: Dr. Marissa Matsler is an interdisciplinary scholar. Her research is focused on understanding the institutional and ecological challenges of green infrastructure development. Her work combines the insights of political ecology\, science and technology studies (STS)\, urban ecology\, and urban planning to examine the conflicts between green infrastructure as a conceptual greenspace planning tool and an engineering practice on-the-ground\, in particular understanding the consequences of differing green infrastructure policies on marginalized communities and urban ecosystems. She is currently a postdoctoral research associate at the Cary Institute of Ecosystem Studies working as a part of the Urban\nResilience to Extremes Sustainability Research Network (UREx SRN). She has a PhD in Urban Studies from Portland State University\, a Masters of Environmental Management from the Yale School of Forestry and Environmental Studies\, and a BS in Marine Biology from Oregon State University. \nJoin this seminar on Zoom by clicking here.
URL:https://asrc.gc.cuny.edu/event/environmental-sciences-seminar-marissa-matsler-the-cary-institute-of-ecosystems-studies-urex-srn/
LOCATION:ASRC 5th Floor Conference Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences
END:VEVENT
END:VCALENDAR