How has the bacterium staphylococcus aureus become so immune to antibiotics like penicillin?
Answer
Verified526.8k+ views
Hint: Staphylococcus aureus is a Gram-positive, round-shaped bacterium that belongs to the Firmicutes family and is a common member of the body's microbiota, frequently found in the upper respiratory tract and on the skin.
Complete answer:
Staphylococcus aureus is naturally resistant to nearly every antibiotic ever developed. Resistance is frequently acquired through horizontal gene transfer from other sources, though chromosomal mutation and antibiotic selection are also important. This exquisite susceptibility of S. aureus led to the discovery of penicillin by Alexander Fleming, ushering in the “antibiotic era.”
Penicillin was truly a miracle drug, curing infections that were previously fatal. Nonetheless, by the mid-1940s, only a few years after its introduction into clinical practice, penicillin resistance was being observed in hospitals, and within a decade it had become a significant community problem. S. aureus is
remarkable in its ability to develop antibiotic resistance.
The ability of S. aureus to colonize normal people asymptomatically is a fundamental biological property. Approximately 30% of humans are asymptomatic nasal carriers of S. aureus, implying that S. aureus is a normal flora. S. aureus carriers are at a higher risk of infection and are thought to be an important source of S. aureus strain spread among individuals.
S. aureus is primarily transmitted through direct contact, typically skin-to-skin contact with a colonized or infected individual, though contact with contaminated objects and surfaces may also play a role.Various host factors, such as loss of the normal skin barrier, the presence of underlying diseases such as diabetes and acquired immunodeficiency syndrome, or neutrophil function defects, predispose to infection.
So, in this way bacterium staphylococcus aureus becomes so immune to antibiotics like penicillin.
Note: Infections caused by antibiotic-resistant strains of Staphylococcus aureus have reached epidemic proportions around the world. In many countries, the overall burden of staphylococcal disease, particularly that caused by methicillin-resistant S. aureus strains (MRSA), is rising in both healthcare and community settings.
Complete answer:
Staphylococcus aureus is naturally resistant to nearly every antibiotic ever developed. Resistance is frequently acquired through horizontal gene transfer from other sources, though chromosomal mutation and antibiotic selection are also important. This exquisite susceptibility of S. aureus led to the discovery of penicillin by Alexander Fleming, ushering in the “antibiotic era.”
Penicillin was truly a miracle drug, curing infections that were previously fatal. Nonetheless, by the mid-1940s, only a few years after its introduction into clinical practice, penicillin resistance was being observed in hospitals, and within a decade it had become a significant community problem. S. aureus is
remarkable in its ability to develop antibiotic resistance.
The ability of S. aureus to colonize normal people asymptomatically is a fundamental biological property. Approximately 30% of humans are asymptomatic nasal carriers of S. aureus, implying that S. aureus is a normal flora. S. aureus carriers are at a higher risk of infection and are thought to be an important source of S. aureus strain spread among individuals.
S. aureus is primarily transmitted through direct contact, typically skin-to-skin contact with a colonized or infected individual, though contact with contaminated objects and surfaces may also play a role.Various host factors, such as loss of the normal skin barrier, the presence of underlying diseases such as diabetes and acquired immunodeficiency syndrome, or neutrophil function defects, predispose to infection.
So, in this way bacterium staphylococcus aureus becomes so immune to antibiotics like penicillin.
Note: Infections caused by antibiotic-resistant strains of Staphylococcus aureus have reached epidemic proportions around the world. In many countries, the overall burden of staphylococcal disease, particularly that caused by methicillin-resistant S. aureus strains (MRSA), is rising in both healthcare and community settings.
Recently Updated Pages
Complete reduction of benzene diazonium chloride with class 12 chemistry CBSE
How can you identify optical isomers class 12 chemistry CBSE
The coating formed on the metals such as iron silver class 12 chemistry CBSE
Metals are refined by using different methods Which class 12 chemistry CBSE
What do you understand by denaturation of proteins class 12 chemistry CBSE
Assertion Nitrobenzene is used as a solvent in FriedelCrafts class 12 chemistry CBSE
Trending doubts
Which are the Top 10 Largest Countries of the World?
What are the major means of transport Explain each class 12 social science CBSE
Draw a labelled sketch of the human eye class 12 physics CBSE
Differentiate between insitu conservation and exsitu class 12 biology CBSE
Draw a neat and well labeled diagram of TS of ovary class 12 biology CBSE
RNA and DNA are chiral molecules their chirality is class 12 chemistry CBSE