Chemical Biology

Special Seminar: Andrew Lee (Northwestern)

Tue, 2014-07-08 15:30 - 16:30
Speaker: 
Dr. Andrew Lee Northwestern University
Location: 
Lynch Lecture Hall
Attached Document: 
Interaction of Nanoparticle-Oligonucleotide Conjugates with Serum Nucleases

Joachim Frank Sympsoium

Wed, 2014-04-23 08:30 - 15:00
Speaker: 

The Ribosome: Structure and Function

 

Research Symposium Honoring 2014 Franklin Medal Laureate Joachim Frank

Location: 

Smilow Center for Translational Research

Attached Document: 

Speakers

 

Peter B. Moore, Ph.D.

Sterling Professor of Chemistry, Professor of Molecular Biophysics and Biochemistry, Yale University

 

Barry S. Cooperman, Ph.D.

Professor of Chemistry and Biological Chemistry, University of Pennsylvania

 

Christian Spahn, Ph.D.

Director, Institute for Medical Physics and Biophysics, Charité-Universitätsmedizin, Berlin

 

Yifan Cheng, Ph.D.

Research Professor of Biochemistry and Biophysics, University of California San Francisco

Special Biological Seminar: Joshua Rabinowitz, Princeton University

Thu, 2014-03-13 10:30 - 11:30
Speaker: 

Prof. Joshua D. Rabinowitz

Princeton University

Location: 

Lynch Lecture Hall

Attached Document: 

Towards a Comprehensive Understanding of Cellular Metabolism

 

For more information on Prof. Rabinowitz, please visit here.

Special Energy Seminar: L. Robert Baker, Berkeley

Tue, 2013-11-26 22:00
Speaker: 

Dr. L. Robert Baker   
University of California, Berkeley

Location: 

Carolyn Hoff Lynch Lecture Hall
Chemistry Complex
231 South 34th Street

Attached Document: 

Charge Transfer and Chemistry at Catalytic Interfaces

Abstract

Special Seminar: Kevin Kubarych, U. Michigan

Tue, 2013-07-23 13:00
Speaker: 

Prof. Kevin J. Kubarych

University of Michigan

Location: 

Lynch Lecture Hall

Dynamical chemistry captured with ultrafast two-dimensional infrared spectroscopy

 

Greg Scholes, University of Toronto; Physical Chemistry Seminar

Thu, 2013-06-27 13:00
Speaker: 

Prof. Gregory Scholes

University of Toronto

 

Functional novelties employed in light harvesting by diverse photosynthetic systems

 

Abstract:

 

Photosynthetic light harvesting complexes are sophisticated multichromophoric assemblies used to regulate and concentrate photo-excitations for delivery to reaction centers under wide-ranging incident irradiances [1]. They provide wonderful model systems for the study of energy transfer mechanisms in well-defined structures [2]. I will describe a few examples of ultrafast energy transfer in photosynthetic light harvesting, including the incredible use of nominally dark higher excited states of carotenoids to distribute excitation energy in LH2 from purple bacteria [3]. I will address the current status and issues regarding coherent ultrafast energy transfer in light harvesting complexes of cryptophyte algae.

 

[1] G. D. Scholes, T. Mirkovic, D. B. Turner, F. Fassioli and A. Buchleitner “Solar light harvesting by energy transfer: From ecology to quantum mechanics” Energy Environ. Sci. 5, 9374–9393 (2012).

[2] G. D. Scholes, G. R. Fleming, A. Olaya-Castro and R. van Grondelle, “Lessons from nature about solar light harvesting” Nature Chem. 3, 763–774 (2011).

[3] E. E. Ostroumov, R. M. Mulvaney, R. J. Cogdell, G. D. Scholes, “Broadband 2D Spectroscopy Reveals a Carotenoid Dark State in Purple Bacteria”, Science 340, 52–56 (2013).

Location: 

Lynch Lecture Hall

NOBCChE Northeast Regional Conference

Fri, 2013-04-19 (All day) - Sat, 2013-04-20 (All day)
Location: 

Lynch Lecture Hall

The Departments of Chemistry and Chemical Engineering at the University of Pennsylvania are pleased to host the 2013 Northeast Regional Meeting of the National Organization of Black Chemists and Chemical Engineers (NOBCChE).

 

Special Seminar: David Sivak, UCSF

Mon, 2013-02-18 10:00
Speaker: 

Dr. David Sivak

University of California, San Francisco

 

Nonequilibrium Thermodynamics: Free Energy, Optimal Control, and Optimal Response

 

Abstract: Molecular machines are protein complexes that convert between different forms of energy, and they feature prominently in essentially any major cell biological process. A plausible hypothesis holds that evolution has sculpted these machines to efficiently transmit energy and information in their natural contexts, where energetic fluctuations are large and nonequilibrium driving forces are strong. Toward a systematic picture of efficient, stochastic, nonequilibrium energy and information transmission, I present theoretical developments in three distinct yet related areas of nonequilibrium statistical mechanics: How can we measure how far from equilibrium a driven system is? How do we find efficient methods to push a system rapidly from one state to another? And finally, what are generic properties of systems that efficiently harness the energy and information present in environmental fluctuations?

Location: 

Lynch Lecture Hall

Hirschmann Visiting Professor Lecture 3 - James Skinner, Univ. Wisconsin

Thu, 2013-02-21 13:00
Speaker: 

James L. Skinner, University of Wisconsin, Madison

 

Lecture 3

Protein structure and vibrational spectroscopy
Thursday, February 21, 2013
1:00 PM

Location: 

Lynch Lecture Hall

Hirschmann Visiting Professor Lecture 2 - James Skinner, Univ. Wisconsin

Wed, 2013-02-20 16:00
Speaker: 

James L. Skinner, University of Wisconsin, Madison

 


Lecture 2

Water at liquid/vapor, surfactant, and lipid interfaces
Wednesday, February 20, 2013
4:00 PM

 

PLEASE NOTE NEW TIME.

Location: 

Lynch Lecture Hall

Department of Chemistry

231 S. 34 Street, Philadelphia, PA 19104-6323

215.898.8317 voice | 215.573.2112 fax | web@chem.upenn.edu

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