Rickettsiae
No, Streptococcus pneumoniae is not an intracellular obligate parasite. It is a bacterium that typically colonizes the upper respiratory tract of humans and can cause infections such as pneumonia, sinusitis, and meningitis. It is capable of surviving and replicating both inside and outside of host cells.
Yes, antibiotics are medications that are capable of inhibiting the growth of or killing pathogenic bacterial microorganisms. They target specific pathways in the bacteria to disrupt their ability to survive and multiply, ultimately leading to their death. Antibiotics are a key tool in the treatment of bacterial infections.
The cells capable of fighting bacterial infection in the body are white blood cells, specifically neutrophils and macrophages. These cells work together to engulf and destroy bacteria using mechanisms such as phagocytosis and releasing antimicrobial substances.
Bacterial plasmids are small, circular DNA molecules that replicate independently of the bacterial chromosome. They can carry genes that provide advantages to bacteria, such as antibiotic resistance or the ability to metabolize specific compounds. Plasmids can be manipulated in the lab and used as vectors to introduce genes into bacteria for research or industrial purposes.
The bacteria that meets this description is a plasmid. Plasmids are small, circular pieces of DNA that replicate independently from the bacterial chromosome. They can carry additional genetic information and can be transferred between bacterial cells.
Intracellular processes refer to mechanisms that occur within a cell, such as protein synthesis or DNA replication. An example sentence could be: "During cellular respiration, energy is produced within the intracellular mitochondria."
No, Streptococcus pneumoniae is not an intracellular obligate parasite. It is a bacterium that typically colonizes the upper respiratory tract of humans and can cause infections such as pneumonia, sinusitis, and meningitis. It is capable of surviving and replicating both inside and outside of host cells.
Yes, antibiotics are medications that are capable of inhibiting the growth of or killing pathogenic bacterial microorganisms. They target specific pathways in the bacteria to disrupt their ability to survive and multiply, ultimately leading to their death. Antibiotics are a key tool in the treatment of bacterial infections.
Not necessarily. A negative EBITDA implies that the entity is not capable to cover its interest and tax payments with its operating profits.
The cells capable of fighting bacterial infection in the body are white blood cells, specifically neutrophils and macrophages. These cells work together to engulf and destroy bacteria using mechanisms such as phagocytosis and releasing antimicrobial substances.
The term "inflammable" is neutral, as it simply indicates that a substance is capable of being easily ignited and burning. It does not carry a positive or negative connotation.
The bacterial form that can be curved like a spiral can be either thick and rigid, known as spirilla, or thin and flexible, known as spirochetes. Both forms are capable of moving by rotating their bodies.
Bacterial plasmids are small, circular DNA molecules that replicate independently of the bacterial chromosome. They can carry genes that provide advantages to bacteria, such as antibiotic resistance or the ability to metabolize specific compounds. Plasmids can be manipulated in the lab and used as vectors to introduce genes into bacteria for research or industrial purposes.
The bacteria that meets this description is a plasmid. Plasmids are small, circular pieces of DNA that replicate independently from the bacterial chromosome. They can carry additional genetic information and can be transferred between bacterial cells.
Their own set of genetic material still capable of coding for a few proteins which these organelles use. In a circular form that indicates their bacterial origins.
No, it would kill the intestinal flora
Penicillin's discovery was partially accidental, although it did take place in a lab where the discoverer, Sir Alexander Fleming, was conducting research to identify substances that were capable of destroying bacterial infections.