Magnetosomes and Gibson Vectors

Magnetotactic Bacteria are prokaryotic organisms which possess the unique ability to align themselves along a magnetic field. This form of taxis is made possible by the formation of a magnetosome organelle. Magnetosomes are small invaginations of the bacterial cell membrane that contain magnetite nanoparticles. These particles range in size between 20 and several hundred nanometers and are aligned in one or several chains along the long axis of the bacteria. These particles act together to form a magnetic dipole across the bacteria, allowing it to perceive the earth’s magnetic field. In the northern hemisphere, magnetotactic bacteria (bacteria with magnetosomes) swim north along the earth’s magnetic field lines in search of a micro-environment with specific oxygen content. It is believed that the magnetosomes help bacteria turn the search for this perfect oxygen level from a three dimensional one (in all directions) to a one dimensional one along a single path. The formation of the magnetosome organelle is a highly regulated process requiring many essential genes. It is thought that many of the essential genes associated with magnetosome formation are located within a well-conserved region known as the magnetosome island (MAI). Our team focused on the genes of the mamAB gene cluster (R5):