Add to ORKGBiophysicists and structural biologists increasingly acknowledge the role played by the mechanical properties of macromolecules as a critical element in many biological processes. This change has been brought about, in part, by the advent of single molecule biophysics techniques that have made it possible to exert piconewton forces on key macromolecules and observe their deformations at nanometer length scales, as well as to observe the mechanical action of macromolecules such as molecular motors. This has opened up immense possibilities for a new generation of mechanical investigations that will respond to such measurements in an attempt to develop a coherent theory for the mechanical behavior of macromolecules under conditions where therm...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
AbstractAdvances in nanomanipulation techniques have made it possible to measure the response of an ...
Quantifying the basic intra- and inter-molecular forces of DNA has helped us to better understand an...
A new generation of single-molecule experiments has opened up the possibility of reexamining many of...
AbstractThe conjunction of insights from structural biology, solution biochemistry, genetics, and si...
Viral DNA packaging is a required step in the lytic cycle of many DNA viruses. A DNA polymer is pack...
SummaryA large family of multimeric ATPases are involved in such diverse tasks as cell division, chr...
AbstractSmall, icosahedral double-stranded DNA bacteriophage pack their genomes tightly into preform...
During the self-assembly of bacteriophage phi29, the viral genome is packaged into a pre-formed caps...
DNA packaging is a major step in the process of assembly of many viruses, including many dsDNA bacte...
Viruses are increasingly being studied from the perspective of fundamental physics at the nanoscale ...
ABSTRACT OF THE DISSERTATIONBiopolymers Under Large External Forces and Mean-field RNA Virus Evoluti...
The high-density packaging of DNA in many viruses is a process that requires the action of powerful ...
AbstractRecent technical developments that allow precise force measurements on single molecules, tog...
ABSTRACT During the assembly of many viruses, a powerful molecular motor compacts the genome into a ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
AbstractAdvances in nanomanipulation techniques have made it possible to measure the response of an ...
Quantifying the basic intra- and inter-molecular forces of DNA has helped us to better understand an...
A new generation of single-molecule experiments has opened up the possibility of reexamining many of...
AbstractThe conjunction of insights from structural biology, solution biochemistry, genetics, and si...
Viral DNA packaging is a required step in the lytic cycle of many DNA viruses. A DNA polymer is pack...
SummaryA large family of multimeric ATPases are involved in such diverse tasks as cell division, chr...
AbstractSmall, icosahedral double-stranded DNA bacteriophage pack their genomes tightly into preform...
During the self-assembly of bacteriophage phi29, the viral genome is packaged into a pre-formed caps...
DNA packaging is a major step in the process of assembly of many viruses, including many dsDNA bacte...
Viruses are increasingly being studied from the perspective of fundamental physics at the nanoscale ...
ABSTRACT OF THE DISSERTATIONBiopolymers Under Large External Forces and Mean-field RNA Virus Evoluti...
The high-density packaging of DNA in many viruses is a process that requires the action of powerful ...
AbstractRecent technical developments that allow precise force measurements on single molecules, tog...
ABSTRACT During the assembly of many viruses, a powerful molecular motor compacts the genome into a ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
AbstractAdvances in nanomanipulation techniques have made it possible to measure the response of an ...
Quantifying the basic intra- and inter-molecular forces of DNA has helped us to better understand an...