The processes were
regulated by electrons in the electrical circuit, but the ions» journeys — and the battery structures — subtly changed each time.
The most accurate atomic clock we have now is
regulated by the electrons of a single aluminium ion as they move between two different orbits with sharply defined energy levels.
Not exact matches
For the first time, they managed to control the shape of the laser pulse to keep an
electron both free and bound to its nucleus, and were at the same time able to
regulate the electronic structure of this atom dressed
by the laser.
Through a combination of high - resolution cryo -
electron microscopy (cryo - EM) and a unique methodology for image analysis, a team of researchers with Berkeley Lab and the University of California (UC) Berkeley has produced an atomic view of microtubules that enabled them to identify the crucial role played
by a family of end - binding (EB) proteins in
regulating microtubule dynamic instability.
It is still a magnetic field that is responsible for the fact that the polarisation is rotated, however, it is no longer the strength of the magnetic field that determines the strength of the effect, but the amount of
electrons involved in the process, and this amount can be
regulated simply
by electrical potential.
The authors also employed other advanced imaging techniques — including
electron microscopy and super-resolution imaging — to discover that the formation, and subsequent loosening, of these contacts is
regulated by a lysosomal protein called RAB7.
The chapter on photosynthesis is about to be rewritten, thanks to work
by David Kramer and his research team at Washington State University's Institute of Biological Chemistry.Using instruments they designed and built themselves, Kramer and his group have discovered that plants adjust their light intake to match their metabolic needs
by regulating the level of protons within sealed chambers in the chloroplasts.Traditionally, plant physiologists have focused on the role of
electrons in photosynthesis.
CS30 was shown to be thermo -
regulated, expressed at 37 °C, but not at 20 °C,
by SDS - page and mass spectrometry analyses as well as
electron microscopy imaging.