Some bacteria strains may acquire resistance to antibiotics and/or cause a new disease by gaining spores from other bacteria.
additional water from the environment
Antibiotic resistance occurs when bacteria or other microbes builds the ability to resist the effects of the antibiotic. This happens when bacteria changes in a way that reduces or eliminates the effectiveness of the drugs designed to cure infections.
Bacteria develop resistance to antibiotics through the process of natural selection. The antibiotic will kill most of the population of bacteria but not all because some of them already have the resistance. Also if the antibiotic is not utilized correctly ( according to a physicians instructions ) some of the more hardy individuals of the bacteria population will live. These bacteria breed and produce offspring that are also more resistant to antibiotics. Generations of bacteria happen much more rapidly than with people so the ability of bacteria to adapt to new environments is much more robust with respect to time.
A bacterial chromosome provides data that is required by the bacteria to survive and reproduce. A plasmid does not. It gives a bacterium "special" attributes in during extreme conditions, such as the ability to do genetic recombination or the resistance to certain antibiotics.
Bacterial resistances are developed due to mutations that are passed down from generations of bacteria. Antibiotics generally kill all but the strongest bacteria or bacteria that have resistances to these antibiotics, resulting in only these bacteria reproducing, passing on the antibiotic resistances to future generations. Over time, entire populations of bacteria can develop a resistance to an antibiotic if they are frequently exposed to it. Bacterial resistances are developed due to mutations that are passed down from generations of bacteria. Antibiotics generally kill all but the strongest bacteria or bacteria that have resistances to these antibiotics, resulting in only these bacteria reproducing, passing on the antibiotic resistances to future generations. Over time, entire populations of bacteria can develop a resistance to an antibiotic if they are frequently exposed to it. Bacterial resistances are developed due to mutations that are passed down from generations of bacteria. Antibiotics generally kill all but the strongest bacteria or bacteria that have resistances to these antibiotics, resulting in only these bacteria reproducing, passing on the antibiotic resistances to future generations. Over time, entire populations of bacteria can develop a resistance to an antibiotic if they are frequently exposed to it.
Antibiotics are drugs that kill bacteria. Painkillers are drugs that dampen down the bodies ability to feel pain.
Bacteria have the ability to mutate and become resistant to elements that are attempting to destroy them, such as antibiotics. As a result of abuse and overuse of antibiotics, there are not antibiotic-resistant strains of bacteria such as MRSA and VRE. Even though antibiotics have become less effective in destroying these mutated superbugs, Manuka Honey is not being used to kill MRSA and effectively treat Staph infections.
Strep throat is not probably contagious after two days therapy with effective antibiotics. But it takes complete ten days to eradicate the bacteria from the throats of all the patients. Untreated the bacteria will regain their ability to infect the next host in short period, probably.
One is caused by bacteria and the other is caused by viruses. Only bacterial diseases can be successfully treated with antibiotics. Bacteria are alive, viruses are not. Viruses invade bacteria and take over their properties, including the ability to infect.
Bacteria have the ability to mutate and become resistant to elements that are attempting to destroy them, such as antibiotics. As a result of abuse and overuse of antibiotics, there are not antibiotic-resistant strains of bacteria such as MRSA and VRE. Even though antibiotics have become less effective in destroying these mutated superbugs, Manuka Honey is not being used to kill MRSA and effectively treat Staph infections.Read more: Mrsa_mutation_process
Yes, the word "bacteriophage" literally means "bacteria eater" in Greek. Bacteriophages are viruses that specifically infect and replicate within bacteria, ultimately leading to their destruction. They are known for their ability to kill bacteria and are being investigated for their potential as an alternative treatment to antibiotics.
No, not all bacteria is killed by hand gels. Most hand gel products do say that they are 99.99% effective, but the .01% is the bacteria that the hand gel cannot kill. Since bacteria have the ability to mutate to form resistance against hand gels, not all bacteria can be killed by hand gels.