This volume is a collection of articles from the Proceedings of the International School of Structural Biology and Magnetic Resonance 7th Course: Structure, Structure and Biophysics New Technologies for Current Challenges in Biology and Beyond. This NATO Advance Study Institute (ASI) was held in Erice (Italy) at the Ettore Majorana Foundation and Centre for Scientific Culture on 22 June through 3 July 2005. The ASI brought together a diverse group of experts in the fields of structural biology, biophysics, and physics. Prominent lecturers, from seven different countries, and students from...
This volume is a collection of articles from the Proceedings of the International School of Structural Biology and Magnetic Resonance 7th Course: Stru...
This volume is a collection of articles from the Proceedings of the International School of Structural Biology and Magnetic Resonance 7th Course: Structure, Structure and Biophysics New Technologies for Current Challenges in Biology and Beyond. This NATO Advance Study Institute (ASI) was held in Erice (Italy) at the Ettore Majorana Foundation and Centre for Scientific Culture on 22 June through 3 July 2005. The ASI brought together a diverse group of experts in the fields of structural biology, biophysics, and physics. Prominent lecturers, from seven different countries, and students from...
This volume is a collection of articles from the Proceedings of the International School of Structural Biology and Magnetic Resonance 7th Course: Stru...
Single-molecule techniques eliminate ensemble averaging, thus revealing transient or rare species in heterogeneous systems 1 3]. These approaches have been employed to probe myriad biological phenomena, including protein and RNA folding 4 6], enzyme kinetics 7, 8], and even protein biosynthesis 1, 9, 10]. In particular, immobilization-based fluorescence te- niques such as total internal reflection fluorescence microscopy (TIRF-M) have recently allowed for the observation of multiple events on the millis- onds to seconds timescale 11 13]. Single-molecule fluorescence methods are...
Single-molecule techniques eliminate ensemble averaging, thus revealing transient or rare species in heterogeneous systems 1 3]. These approaches hav...
Single-molecule techniques eliminate ensemble averaging, thus revealing transient or rare species in heterogeneous systems 1 3]. These approaches have been employed to probe myriad biological phenomena, including protein and RNA folding 4 6], enzyme kinetics 7, 8], and even protein biosynthesis 1, 9, 10]. In particular, immobilization-based fluorescence te- niques such as total internal reflection fluorescence microscopy (TIRF-M) have recently allowed for the observation of multiple events on the millis- onds to seconds timescale 11 13]. Single-molecule fluorescence methods are...
Single-molecule techniques eliminate ensemble averaging, thus revealing transient or rare species in heterogeneous systems 1 3]. These approaches hav...
At the end of the ASI students had an appreciation of how to apply each technique to their own particular research problem and to demonstrate that multifaceted approaches and advanced technologies are needed to solve the biological challenges of our time.
At the end of the ASI students had an appreciation of how to apply each technique to their own particular research problem and to demonstrate that mul...
At the end of the ASI students had an appreciation of how to apply each technique to their own particular research problem and to demonstrate that multifaceted approaches and new technologies are needed to solve the biological challenges of our time.
At the end of the ASI students had an appreciation of how to apply each technique to their own particular research problem and to demonstrate that mul...