When speaking of motors, most people think of those powering vehicles and human machinery. However, biological motors have existed for millions of years in microorganisms. Among these, many bacterial ...
A new study from the Faculty of Medicine at the Hebrew University of Jerusalem sheds light on how bacterial motion influences the spread of antibiotic resistance. Led by Professor Sigal Ben-Yehuda and ...
(Nanowerk News) When speaking of motors, most people think of those powering vehicles and human machinery. However, biological motors have existed for millions of years in microorganisms. Among these, ...
Recently, a research group led by Prof. WANG Junfeng from the Hefei Institute of Physical Science of the Chinese Academy of Sciences, along with Prof. HE Yongxing's research group from Lanzhou ...
How well bacteria move and sense their environment directly affects their success in surviving and spreading. About half of known bacteria species use a flagella to move — a rotating appendage that ...
Bacterial flagellar systems are intricate supramolecular machines that impart motility and serve multifaceted roles in infection. Each flagellum comprises a membrane-embedded basal body, a flexible ...
New mechanistic insights into the protein complex that powers the bacterial flagellum may assist antibiotic development. A study led by researchers at the University of Copenhagen (Denmark) used ...
Scientists have uncovered a new explanation for how swimming bacteria change direction, providing fresh insight into one of biology’s most intensively studied molecular machines. Bacteria move through ...
Most of us will probably be able to recall at least vaguely that a molecule called ATP is essential for making our bodies move, but this molecule is only a small part of a much larger system. Although ...
Scientists have uncovered a new explanation for how swimming bacteria change direction, providing fresh insight into one of biology's most intensively studied molecular machines. Bacteria move through ...
The technology at the center of the growing "resolution revolution" has again shown its value to scientists at Yale by revealing the secrets of gum disease.
A new study from the Hebrew University of Jerusalem reveals that bacterial movement plays a central role in the transfer of antibiotic resistance genes. The research team discovered that the rotation ...