Seminars

Upcoming Seminars / Seminars This Week



Fri 3/7/14 11:30 am	Gerstenzang 121
Biochemistry-Biophysics Friday Lunchtime Pizza Talks
PhD Students (Biochemistry and Biophysics Program)
Rotation talks
note changed time!
Fri 3/7/14 12:30 pm	Gerstenzang 123
Molecular and Cell Biology & Neuroscience Student Seminars
Bethany Christmann (Griffith Lab)
Julian Eskin (Goode Lab)
Mon 3/10/14 11 am	Volen 201
Computational/Systems Neuroscience Journal Club
Ralf Haefner
Good noise or bad noise? The role of correlated variability in a probabilistic inference framework
The responses of sensory neurons in cortex are variable, and this variability is often correlated [Cohen and Kohn, 2011]. In the first part of my talk I will briefly review how our view of noise correlations has changed from being detrimental [Zohary et al., 1994], to "it depends" [Abbott & Dayan, 1999], to "don't matter" [Shamir and Sompolinsky, 2006; Ecker et al., 2011] to "only 'bad noise' is bad" [Pitkow et al., SfN 2013]. However, it is important to note that the mathematical model underlying this series of works is one of feedforward information processing and ignores the role of feedback influences on sensory responses. In the second part of my talk I will present my results on the structure of the correlations induced by such top-down connections -- assuming that the brain performs probabilistic inference over the task-relevant variables. I will show that if the brain has correctly learnt the task, the structure of task-induced correlations is the same as that of 'bad noise'. However, unlike in the traditional encoding/decoding framework, here their presence reflects the fact that the brain has correctly learnt the task. Furthermore, perceptual learning will increase their amplitude such that stronger correlations of the 'bad noise' structure are reflective of increased top-down task-knowledge (and better performance). Such an increase also entails a steeper relationship between choice probabilities and neurometric performance as has been observed empirically during perceptual learning [Law and Gold, 2008]. Finally, I will show how to infer the internal model used by the brain in a given task from the structure of the noise correlation matrix.
Pizza to follow.
Mon 3/10/14 12 noon	Rosenstiel 118
Molecular Genetics Journal Club
Erik Sontheimer (Northwestern University)
Genetic Interference and Genome Editing by a Processing-Independent CRISPR System
Hosted by Michael Rosbash
Mon 3/10/14 1 pm	Gerstenzang 122
Thesis Seminar (Graduate Program in Neuroscience)
Amy Ghiretti (Paradis Lab)
Negative regulation of dendritic complexity by the activity-dependent GTPase Rem2
Mon 3/10/14 3:30 pm	Shapiro Science Center GL14
Thesis Seminar (Graduate Program in Biophysics and Structural Biology)
Axel Brilot (Grigorieff Lab)
Studies of Beam-Induced Movement Of Single Particles in Vitrified Ice, and the Structure of a Pretranslocation Ribosome Complex with EF-G, A and P Site tRNA Bound
Mon 3/10/14 4 pm	Gerstenzang 121
Chemistry Department Colloquium
Ming Hammond (University of California Berkeley)
Privileged RNA Scaffolds for the In Vivo Sensing Functions
Hosted by Isaac Krauss
Tue 3/11/14 11 am	Abelson 307
String Theory Seminar
Al Shapere (University of Kentucky)
Constraints on the spectra of 2d CFTs
Hosted by Albion Lawrence
Tue 3/11/14 12:30 pm	Gerstenzang 121
Neurobiology Journal Club
Karla Kaun (Brown University)
Why flies like getting buzzed: using Drosophila to understand the neural and molecular mechanisms of addiction
Hosted by Scott Neal
Tue 3/11/14 4 pm	Abelson 131
Eisenbud Lecture Series in Mathematics and Physics (Physics Department Colloquium)
Cumrun Vafa (Harvard University)
Strings and the Magic of Extra Dimensions
Hosted by Albion Lawrence
Wed 3/12/14 11 am	Abelson 333
Eisenbud Lecture Series in Mathematics and Physics
Cumrun Vafa (Harvard University)
Recent Progress in Topological Strings I
Hosted by Albion Lawrence
Wed 3/12/14 4 pm	Gerstenzang 121
Pepose Award Lecture
Richard Masland (Harvard University)
The neuronal organization of the retina: answers and problems
Hosted by John Lisman
Wed 3/12/14 4 pm	Abelson 229
Eisenbud Lecture Series in Mathematics and Physics
Cumrun Vafa (Harvard University)
Recent Progress in Topological Strings II
Hosted by Albion Lawrence
Thu 3/13/14 12 noon	Rosenstiel 118
Psychology Department Brown Bag
Nicholas Brisbon (Lifespan Lab)
Jasmine Boshyan (Face Perception Lab)
Attitudes toward Atheists
Thu 3/13/14 4 pm	Abelson 229
MRSEC Seminar
Jeff Urbach (Dept. of Physics at Georgetown University )
Mechanical and structural sensitivity of axon growth
In the developing nervous system, axons respond to a diverse array of cues to generate the intricate connection network required for proper function. The growth cone, a highly motile structure at the tip of a growing axon, integrates information about the local environment and modulates outgrowth and guidance, but little is known about effects of external mechanical or structural cues and internal mechanical forces on growth cone behavior. We have investigated axon outgrowth and force generation on soft elastic substrates for dorsal root ganglion (DRG) neurons (from the peripheral nervous system) and hippocampal neurons (from the central) to see how the mechanics of the microenvironment affect different populations. We find that force generation and stiffness-dependent outgrowth are strongly dependent on cell type. We also observe very different internal dynamics and substrate coupling in the two populations, suggesting that the difference in force generation is due to stronger adhesions and therefore stronger substrate engagement in the peripheral nervous system neurons. I will also discuss recent analyses of the dynamic aspects of growth cone force generation and new experiments that demonstrate some surprising behavior in response to micron-scale confinement. These findings provide suggest new mechanisms through which environmental cues may guide axon growth during development and have implications for strategies to enhance recovery following nervous system injury.
Hosted by Z. Dogic
Fri 3/14/14 11:15 am	Gerstenzang 121
Biochemistry-Biophysics Friday Lunchtime Pizza Talks
Thomas Schwartz (MIT)
Toward the Structure of the Nuclear Pore Complex
Hosted by Daniel Krummel
Fri 3/14/14 12:30 pm	Gerstenzang 123
Molecular and Cell Biology & Neuroscience Student Seminars
Jason Osik (Van Hooser Lab)
Charlotte Kelley (Rodal Lab)
Tue 3/18/14 4 pm	Abelson 131
Physics Department Colloquium
Matthew Reece (Harvard University)
TBA
Hosted by Albion Lawrence
Wed 3/19/14 4 pm	Gerstenzang 121
Joint Biology/Neuroscience Colloquium
Suzanne Paradis (Brandeis University)
Signaling pathways that instruct rapid changes in neuronal connectivity
Hosted by Sacha Nelson
Thu 3/20/14 12 noon	Rosenstiel 118
Psychology Department Brown Bag
Kenneth Pitts (Health Lab)
Carrie Robertson (Knight Lab)
Thu 3/20/14 4 pm	Abelson 229
MRSEC Seminar
Yao Lin (University of Connecticut, Dept. of Chemistry)
Supramolecular Polymerizations: Incorporating Cooperativity into Macromolecule and Macromolecular Assemblies
The helical and tubular structures self-assembled from proteins have inspired scientists to design synthetic building blocks that can be "polymerized" into supramolecular polymers through coordinated non-covalent interactions. However, cooperative supramolecular polymerization from large, synthetic macromolecules remains a challenge because of the difficulty of controlling the structure and interactions of macromolecular monomers. Herein we discuss the synthesis of homopolypeptide grafted comb polymers and the use of their tunable secondary interactions in solution to achieve controlled assembly. The resulting tubular supramolecular structures, with external diameters of hundreds of nanometers and lengths of tens of micrometers, are stable and resemble to some extent biological superstructures assembled from proteins. The kinetic process of the supramolecular polymerization follows a double nucleation mechanism. The study shows that highly specific intermolecular interactions between macromolecular monomers can enable the cooperative growth of supramolecular polymers. The general applicability of this strategy was demonstrated by carrying out supramolecular polymerization from nanoparticles grafted with the same homopolypeptides on the surface. However, for the spherical nanoparticle monomers, there exist multiple polymerization pathways, which give rise to both spherical and fibrous supramolecular polymers. We discuss how the electrostatic interactions between the weakly charged monomers may play an important role in the polymerization process.
Hosted by M. Hagan
Fri 3/21/14 11 am	Gerstenzang 122
Chemistry Department Colloquium
Connie Lu (University of Minnesota)
Harnessing Metal-Metal Bonds: Bonding, Electronic Properties and Small-Molecule Reactivity
Please note date, time and place of seminar.
Hosted by Christine Thomas
Fri 3/21/14 11:15 am	Gerstenzang 121
Biochemistry-Biophysics Friday Lunchtime Pizza Talks
Judy Herzfeld (Brandeis University )
Building Buoyancy: Why Pond Scum Floats
Fri 3/21/14 12:30 pm	Gerstenzang 123
Molecular and Cell Biology & Neuroscience Student Seminars
Adriane Otopalik (Marder Lab)
Salvatore Alioto (Goode Lab)
Mon 3/24/14 10:30 am	Levine-Ross
Thesis Seminar (Graduate Program in Psychology)
Brittany Cassidy (Gutchess Lab)
Behavioral and Neural Responses to Appearance-Behavior Congruity
Much research has explored appearance- and behavior-based impressions separately, but how cues are integrated into impressions is understudied. Incoming cues may not be congruent, allowing for the possibility that people may respond differently based on appearance-behavior congruity. Using trustworthy and untrustworthy faces and valenced behaviors, we studied behavioral and neural responses to appearance-behavior congruity. We also examined the potential effects of aging on the behavioral use of appearance-behavior congruity, as aging has been associated with increased stereotype use for cognitive shortcuts. This may be critical to study in context with appearance-behavior congruity, given the stereotyped personality overgeneralizations gleaned from facial appearances. In Experiment 1, we tested whether receiving two streams of valenced information (congruent or incongruent face-behavior pairs) versus one (neutral face, valenced behavior) influenced memory for behaviors. Younger and older adults remembered congruent better than incongruent pairs, but both were remembered better than pairs including neutral faces. In Experiment 2, we tested if the strength of several social judgments differed by appearance-behavior congruity. Behaviors were further classified as high or low arousal. Trustworthiness- but not dominance-related judgments were stronger for congruent over incongruent pairs. Older adults showed congruity biases for high and low arousal approach judgments, while younger adults had biases for high arousal approach, prosociality, and trustworthiness judgments. In Experiment 3, we adopted the paradigm of Experiment 2 to examine the brain regions whose activity supports the processing of incongruent over congruent pairs, as well as pairs including valenced faces and neutral behaviors (i.e., appearance-based). Behaviorally, both congruent and incongruent face-behavior pairs received stronger judgments than appearance-based pairs. Cortical midline engagement complemented this finding, with increased activity for congruent and incongruent pairs compared to appearance-based ones. Additionally, there was increased activity in a region of dorsal medial prefrontal cortex extending into anterior cingulate cortex that was specifically active for incongruent compared to congruent face-behavior pairs. Taken together, this project provides a framework for how appearance-behavior congruity impacts social cognition and its neural underpinnings. Further, it evidences that subtle age differences may exist for the conditions under which these biases influence socio-cognitive decision-making.
Mon 3/24/14 4 pm	Gerstenzang 121
Chemistry Department Colloquium
Wenbin Lin (University of Chicago)
Molecular materials for sustainability and Human Health
Hosted by Bruce Foxman
Tue 3/25/14 11 am	Abelson 307
String Theory Seminar
David Shih (Rutgers University)
The Status of SUSY after Run I of the LHC
Hosted by Matthew Headrick
Tue 3/25/14 4 pm	Abelson 131
Physics Department Colloquium
Bulbul Chakraborty (Brandeis University)
TBA
Hosted by Physics Department
Wed 3/26/14 4 pm	Gerstenzang 121
Joint Biology/Neuroscience Colloquium
Boris Striepen (University of Georgia)
Algal past and parasite present of Apicomplexa
Hosted by Liz Hedstrom
Thu 3/27/14 12 noon	Rosenstiel 118
Psychology Department Brown Bag
William Goodman (Health Lab)
Sarah Lupis (Health Lab)
Thu 3/27/14 4 pm	Gerstenzang 122
Chemistry Seminar
Samir Zard (Ecole Polytechnique)
Adventures with Radicals. Some New Perspectives for Organic Synthesis
Hosted by Barry Snider
Thu 3/27/14 4 pm	Abelson 229
MRSEC Seminar
Kenny Breuer (Division of Engineering, Brown University)
TBA
Hosted by Seth Fraden
Fri 3/28/14 11:15 am	Gerstenzang 121
Biochemistry-Biophysics Friday Lunchtime Pizza Talks
Amy Keating (MIT)
Toward the Structure of the Nuclear Pore Complex
Hosted by Timothy Street
Fri 3/28/14 12:30 pm	Gerstenzang 123
Molecular and Cell Biology & Neuroscience Student Seminars
Brittney Gardner (Garrity Lab)
Xiao Chen (Rosbash Lab)
Mon 3/31/14 4 pm	Gerstenzang 121
Chemistry Department Colloquium
Istvan X. Kiss (Saint Louis University)
Synchronization of Electrochemical Oscillator Networks on Macro and Microscale
Hosted by Irving Epstein
Mon 3/31/14 4 pm	Gerstenzang 121
Chemistry Seminar
Brian Shoichet (University of Toronto)
Hosted by Bing Xu