Magnetotactic bacteria

Magnetotactic bacteria are a diverse group of microorganisms that have the ability to orient themselves along the Earth's magnetic field. This unique behavior, known as magnetotaxis, is facilitated by the presence of magnetosomes, which are intracellular structures containing magnetic mineral crystals.

History[edit | edit source]

The existence of magnetotactic bacteria was first reported in the 1970s by Richard P. Blakemore. He observed that certain bacteria moved towards the magnetic north and south when placed under a light microscope, a behavior that was later termed as magnetotaxis.

Magnetosomes[edit | edit source]

Magnetosomes are unique organelles found in magnetotactic bacteria. They are composed of magnetic mineral crystals, either magnetite (Fe3O4) or greigite (Fe3S4), surrounded by a lipid bilayer. These magnetosomes are arranged in chains within the bacteria, allowing them to act like a compass needle and align the bacteria with the Earth's magnetic field.

Magnetotaxis[edit | edit source]

Magnetotaxis is the ability of magnetotactic bacteria to orient themselves along the Earth's magnetic field. This behavior is thought to aid in their search for optimal conditions in stratified environments, such as aquatic sediments. The bacteria move along the magnetic field lines towards the oxic-anoxic interface, a region with low oxygen concentration, which is their preferred habitat.

Diversity and Habitat[edit | edit source]

Magnetotactic bacteria are a diverse group of microorganisms that can be found in various environments around the world, including freshwater and marine habitats. They are most commonly found in the sediments of aquatic environments, where they occupy the oxic-anoxic interface.

Biotechnological Applications[edit | edit source]

Due to their unique properties, magnetotactic bacteria have potential applications in various fields such as biotechnology, nanotechnology, and medicine. For instance, the magnetosomes of these bacteria can be used for drug delivery, magnetic hyperthermia treatment for cancer, and as contrast agents in magnetic resonance imaging (MRI).