The mentioned name is the name of an organism, not a molecule or compound. It therefore has no specific molecular weight since it is not a chemical
Bacillus megaterium is catalase-positive, meaning it produces the enzyme catalase which breaks down hydrogen peroxide into water and oxygen. In a catalase test, if Bacillus megaterium is added to hydrogen peroxide, you would observe the formation of bubbles or effervescence due to the release of oxygen gas. This is a positive catalase test result for Bacillus megaterium.
yes
The optimum pH for Bacillus megaterium growth is typically around 7.0 to 7.5. However, the exact pH range can vary depending on the specific strain and environmental conditions. This bacterium is known for being able to adapt and survive in a wide range of pH levels.
Bacillus megaterium typically does not cause symptoms in healthy individuals. It is a common soil bacterium used in agriculture, industry, and research for its ability to produce enzymes and metabolites that have various applications. However, in rare cases, it can cause infections, particularly in immunocompromised individuals, leading to symptoms such as fever, skin and soft tissue infections, and systemic illness.
Bacillus megaterium is a spore-forming bacterium. It produces endospores as a survival mechanism in response to harsh environmental conditions.
Bacillus megaterium is catalase-positive, meaning it produces the enzyme catalase which breaks down hydrogen peroxide into water and oxygen. In a catalase test, if Bacillus megaterium is added to hydrogen peroxide, you would observe the formation of bubbles or effervescence due to the release of oxygen gas. This is a positive catalase test result for Bacillus megaterium.
no it is not harmful to us
Bacillus megaterium
yes
Bacillus megaterium forms central endospores, which are located in the center of the bacterial cell. These endospores are highly resistant structures that allow the bacterium to survive in harsh conditions.
Bacillus megaterium
it is a chain. meaning that they are linked together like a chain
Yes, Bacillus megaterium is capable of fermenting glucose through the process of glycolysis to produce ATP and other metabolic byproducts like organic acids, alcohol, and gases.
Bacillus megaterium reproduces asexually through binary fission, where a single cell divides into two identical daughter cells. This process allows the bacterium to rapidly increase its population under favorable conditions.
Russell Siboo has written: 'The characterization of some bacillus megaterium phages' -- subject(s): Bacillus megatherium, Bacteriophages
Bacillus megaterium synthesizes a capsule composed of both polypeptide and polysaccharide. The polypeptide is located laterally along the axis of the cell and the polysaccharide is located at the poles and at the equator of the cell.
Balkis Hussain has written: 'Sensitivity of Bacillus megaterium to heavy metals'