1. Is an antibiotic with a narrow spectrum less effective than a broad-spectrum antibiotic? 2. Why...

Antibiotic Spectrum Mechanism of Action Penicillin Broad Inhibits functioning of transpeptidase Oxacillin Narrow (Gram +) Inhibits...

Antibiotic Spectrum Mechanism of Action Penicillin Broad Inhibits functioning of transpeptidase Oxacillin Narrow (Gram +) Inhibits functioning of transpeptidase Amoxicillin – clavulanic acid Broad Amoxicillin inhibits peptidoglycan formation; clavulanic acid inhibits beta-lactamases that destroy amoxicillin Cefazolin Broad Inhibits peptidoglycan formation Vancomycin Narrow (Gram +) Inhibits synthesis of peptidoglycan Gentamicin Narrow (Gram -) Inhibits protein synthesis Tetracyclins Broad Inhibits protein synthesis Trimethoprim-sulfa-methoxazole Broad Inhibits synthesis of folic acid which is needed for bacteria to survive Polymyxin B Narrow (Gram -) Disrupts...

Explain the difference between broad-spectrum and narrow-spectrum antibiotics? Provide an antibiotic as an example of each...

Explain the difference between broad-spectrum and narrow-spectrum antibiotics? Provide an antibiotic as an example of each type and explain their mechanism of action?

Ciprofloxacin (C17H18FN3O3) is a synthetic antibiotic that has a broad-spectrum activity against both Gram-positive and Gram-negative...

Ciprofloxacin (C17H18FN3O3) is a synthetic antibiotic that has a broad-spectrum activity against both Gram-positive and Gram-negative bacteria. Its mechanism of action centers around its ability to inhibit DNA gyrase - an essential enzyme in DNA replication in bacteria. Calculate the degrees unsaturation.

An antibiotic is a substance produced by a microorganism that can inhibit the growth of other...

An antibiotic is a substance produced by a microorganism that can inhibit the growth of other microorganisms. a) describe and explain how antibiotic-producing microorganism can protect itself from being attack by the antibiotic it produces? (6marks) b) Antibiotics can be divided into broad and narrow spectrum types. What are the major differences between the two types of antibiotics? c) Describe and explain why physicians always prescribe the broad spectrum antibiotics to a patient who suffers from an unidentified bacterial infection....

Streptomyces griseus is a Gram-positive bacterial species that produces the antibiotic Streptomycin, a broad-spectrum Aminoglycoside. Early...

Streptomyces griseus is a Gram-positive bacterial species that produces the antibiotic Streptomycin, a broad-spectrum Aminoglycoside. Early in this bacterium’s metabolism, it also produces an enzyme that inactivates Streptomycin. Can you think of a reason for this?

1. Who is at the highest risk for tuberculosis (name some populations of people). 2. How...

1. Who is at the highest risk for tuberculosis (name some populations of people). 2. How does antibiotic use promote resistant organisms? What are ways that nurses can help to reduce the spread of resistant organisms in hospitals? . 3. What is broad spectrum vs. narrow spectrum antibiotics? Name an example of each.

1. Read the following excerpt from the Center for Disease Control about Antibiotic resistance and explain...

1. Read the following excerpt from the Center for Disease Control about Antibiotic resistance and explain why this is an example of evolution by natural selection similar to the example shown in your textbook in Figure 1.16. What trait is being selected in this case? "“Antibiotic resistance occurs when bacteria develop the ability to defeat the drugs designed to kill them. When bacteria become resistant, antibiotics cannot fight them, and the bacteria multiply. Antibiotic resistance is one of the most...

1) Why might the mercury spectrum have more lines than the hydrogen spectrum? 2) Why might...

1) Why might the mercury spectrum have more lines than the hydrogen spectrum? 2) Why might the mercury spectrum have more lines than the hydrogen spectrum? 3) For these emission spectra, why are some lines more intense than other lines?

Nearly all the antibiotics used to stop bacterial infections are natural compounds that come from microbes...

Nearly all the antibiotics used to stop bacterial infections are natural compounds that come from microbes themselves. For example, penicillin is derived from a fungus, while vancomycin, the antibiotic used when bacteria are resistant to many other drugs, comes from a bacterium. Furthermore, although many antibiotics are chemically synthesized to resemble natural antibiotics, the “models” for them are natural products of microbes themselves. As more bacteria become resistant to traditional antibiotics, alternative drugs must be found. Recently, scientists discovered a...

multiple choice - choose one answer 1) Why is progestin now added to estrogen replacement therapy...

multiple choice - choose one answer 1) Why is progestin now added to estrogen replacement therapy in postmenopausal women? To reduce the risk of Alzheimer’s disease To reduce the risk of endometrial cancer To reduce the risk of breast cancer 2) The tetracyclines are most often used? As a substitute for penicillin In the treatment of gram-positive bacilli In the treatment of gram-negative bacilli When a broad spectrum antibiotic..