Professor Richard Berry D. Phil.

Fluorescence measurement of intracellular sodium concentration in single Escherichia coli cells.

Biophys J 90:1 (2006) 357-365

Authors:

Chien-Jung Lo, Mark C Leake, Richard M Berry

Abstract:

The energy-transducing cytoplasmic membrane of bacteria contains pumps and antiports maintaining the membrane potential and ion gradients. We have developed a method for rapid, single-cell measurement of the internal sodium concentration ([Na(+)](in)) in Escherichia coli using the sodium ion fluorescence indicator, Sodium Green. The bacterial flagellar motor is a molecular machine that couples the transmembrane flow of ions, either protons (H(+)) or sodium ions (Na(+)), to flagellar rotation. We used an E. coli strain containing a chimeric flagellar motor with H(+)- and Na(+)-driven components that functions as a sodium motor. Changing external sodium concentration ([Na(+)](ex)) in the range 1-85 mM resulted in changes in [Na(+)](in) between 5-14 mM, indicating a partial homeostasis of internal sodium concentration. There were significant intercell variations in the relationship between [Na(+)](in) and [Na(+)](ex), and the internal sodium concentration in cells not expressing chimeric flagellar motors was 2-3 times lower, indicating that the sodium flux through these motors is a significant fraction of the total sodium flux into the cell.

Torque-speed relationship of the bacterial flagellar motor

Proceedings of the National Academy of Sciences of the USA 103 (2006) 1260-1265

Authors:

RM Berry, Bai F, Oster G, Xing J

Chemistry: Rapid chiral assembly of rigid DNA building blocks for molecular nanofabrication

Science 310:5754 (2005) 1661-1665

Authors:

RP Goodman, IAT Schaap, CF Tardin, CM Erben, RM Berry, CF Schmidt, AJ Turberfield

Abstract:

Practical components for three-dimensional molecular nanofabrication must be simple to produce, stereopure, rigid, and adaptable. We report a family of DNA tetrahedra, less than 10 nanometers on a side, that can self-assemble in seconds with near-quantitative yield of one diastereomer. They can be connected by programmable DNA linkers. Their triangulated architecture confers structural stability; by compressing a DNA tetrahedron with an atomic force microscope, we have measured the axial compressibility of DNA and observed the buckling of the double helix under high loads.

Rapid chiral assembly of rigid DNA building blocks for molecular nanofabrication.

Science 310:5754 (2005) 1661-1665

Authors:

RP Goodman, IAT Schaap, CF Tardin, CM Erben, RM Berry, CF Schmidt, AJ Turberfield

Abstract:

Practical components for three-dimensional molecular nanofabrication must be simple to produce, stereopure, rigid, and adaptable. We report a family of DNA tetrahedra, less than 10 nanometers on a side, that can self-assemble in seconds with near-quantitative yield of one diastereomer. They can be connected by programmable DNA linkers. Their triangulated architecture confers structural stability; by compressing a DNA tetrahedron with an atomic force microscope, we have measured the axial compressibility of DNA and observed the buckling of the double helix under high loads.

Direct observation of steps in rotation of the bacterial flagellar motor

Nature 437 (2005) 916-919

Authors:

RM Berry, Leake MC, Rowe AD, Sowa Y