Difference between revisions of "Know the Difference Between Bacteria and Viruses"

66.172.189.3 (66.172.189.3)
 
Kipkis (Kipkis | contribs)
m (Text replacement - "[[Category: C" to "[[Category:C")
 
(5 intermediate revisions by the same user not shown)
Line 1: Line 1:
{{fa}}Studying for a biology exam? Stuck in bed with the flu and curious to find out what sort of microorganisms have made you so sick? While bacteria and viruses can both make you sick in similar ways, they are actually ''very'' different organisms with a wide range of differing qualities. Learning these differences can help you stay informed about any medical treatments you're undergoing and give you a better understanding of the complex biology that's going on inside you all the time. You can learn how to tell the difference between bacteria and viruses not only by learning the basics about them but also by examining them through a microscope and discovering more about their makeup and functions.  
+
Studying for a biology exam? Stuck in bed with the flu and curious to find out what sort of microorganisms have made you so sick? While bacteria and viruses can both make you sick in similar ways, they are actually ''very'' different organisms with a wide range of differing qualities. Learning these differences can help you stay informed about any medical treatments you're undergoing and give you a better understanding of the complex biology that's going on inside you all the time. You can learn how to tell the difference between bacteria and viruses not only by learning the basics about them but also by examining them through a microscope and discovering more about their makeup and functions.  
  
 
[[Category:Colds and Viruses]]
 
[[Category:Colds and Viruses]]
Line 5: Line 5:
  
 
=== Learning the Differences ===
 
=== Learning the Differences ===
#Learn the basic differences. There are key differences between bacteria and viruses in size, origins, and effects on the body.<ref>http://www.diffen.com/difference/Bacteria_vs_Virus</ref>
+
#Learn the basic differences. There are key differences between bacteria and viruses in size, origins, and effects on the body.<ref name="rf1">http://www.diffen.com/difference/Bacteria_vs_Virus</ref>
 
#* Viruses are the smallest and simplest life form; they are 10 to 100 times smaller than bacteria.  
 
#* Viruses are the smallest and simplest life form; they are 10 to 100 times smaller than bacteria.  
#* Bacteria are single-celled organisms that can live either inside or outside other cells. They can survive without a cellular host.<ref>http://www.medicinenet.com/script/main/art.asp?articlekey=13954</ref> Viruses, on the other hand, are only intracellular organisms, meaning that they infiltrate the host cell and live inside the cell. Viruses change the host cell's genetic material from its normal function to producing the virus itself.
+
#* Bacteria are single-celled organisms that can live either inside or outside other cells. They can survive without a cellular host.<ref name="rf2">http://www.medicinenet.com/script/main/art.asp?articlekey=13954</ref> Viruses, on the other hand, are only intracellular organisms, meaning that they infiltrate the host cell and live inside the cell. Viruses change the host cell's genetic material from its normal function to producing the virus itself.
#* Antibiotics cannot kill viruses, but can kill most bacteria, with the exception of bacteria that have become resistant to the antibiotic.<ref>http://learn.genetics.utah.edu/content/microbiome/antibiotics/</ref> Misuse and overuse of antibiotics have led to antibiotic resistance. Antibiotics are becoming less effective against potentially harmful bacteria. <ref>http://www.fda.gov/ForConsumers/ConsumerUpdates/ucm092810.htm</ref> Gram-negative bacteria are highly resistant to treatment with antibiotics, but can be killed by some.<ref>http://www.cdc.gov/hai/organisms/gram-negative-bacteria.html</ref>
+
#* Antibiotics cannot kill viruses, but can kill most bacteria, with the exception of bacteria that have become resistant to the antibiotic.<ref name="rf3">http://learn.genetics.utah.edu/content/microbiome/antibiotics/</ref> Misuse and overuse of antibiotics have led to antibiotic resistance. Antibiotics are becoming less effective against potentially harmful bacteria. <ref name="rf4">http://www.fda.gov/ForConsumers/ConsumerUpdates/ucm092810.htm</ref> Gram-negative bacteria are highly resistant to treatment with antibiotics, but can be killed by some.<ref name="rf5">http://www.cdc.gov/hai/organisms/gram-negative-bacteria.html</ref>
#Recognize the differences in reproduction. Viruses must have a living host to multiply, such as a plant or animal. Meanwhile, most bacteria can grow on non-living surfaces.<ref>http://www.medicalnewstoday.com/articles/158179.php</ref>
+
#Recognize the differences in reproduction. Viruses must have a living host to multiply, such as a plant or animal. Meanwhile, most bacteria can grow on non-living surfaces.<ref name="rf6">http://www.medicalnewstoday.com/articles/158179.php</ref>
 
#* Bacteria have all the "machinery" (cell organelles) needed for their growth and multiplication and usually reproduce asexually.  
 
#* Bacteria have all the "machinery" (cell organelles) needed for their growth and multiplication and usually reproduce asexually.  
 
#* By contrast, viruses generally carry information - for example, DNA or RNA, packaged in a protein and/or membranous coat. They need the host cell's machinery to reproduce. The "legs" of a virus attach onto the surface of the cell and then the genetic material contained inside the virus is injected into the cell. Put differently, viruses are not really "living", but are essentially information (DNA or RNA) that float around until they encounter a sufficient host.
 
#* By contrast, viruses generally carry information - for example, DNA or RNA, packaged in a protein and/or membranous coat. They need the host cell's machinery to reproduce. The "legs" of a virus attach onto the surface of the cell and then the genetic material contained inside the virus is injected into the cell. Put differently, viruses are not really "living", but are essentially information (DNA or RNA) that float around until they encounter a sufficient host.
#Determine whether the organism has a beneficial effect in the body. Though it may seem hard to believe, many, many tiny organisms live within (but are distinct from) our bodies. In fact, in terms of pure number of cells, most people are roughly 90% microbial life and only 10% human cells.<ref>http://bigthink.com/amped/humans-10-human-and-90-bacterial</ref> Many bacteria exist peacefully with our bodies; some even perform very important tasks, like making vitamins, breaking down waste, and making oxygen.<ref>http://bigthink.com/amped/humans-10-human-and-90-bacterial</ref>
+
#Determine whether the organism has a beneficial effect in the body. Though it may seem hard to believe, many, many tiny organisms live within (but are distinct from) our bodies. In fact, in terms of pure number of cells, most people are roughly 90% microbial life and only 10% human cells.<ref name="rf7">http://bigthink.com/amped/humans-10-human-and-90-bacterial</ref> Many bacteria exist peacefully with our bodies; some even perform very important tasks, like making vitamins, breaking down waste, and making oxygen.<ref name="rf7" />
#* For example, much of the process of digestion is done by a type of bacteria called "gut flora." These bacteria also help maintain pH balance in the body.<ref>http://bigthink.com/amped/humans-10-human-and-90-bacterial</ref>
+
#* For example, much of the process of digestion is done by a type of bacteria called "gut flora." These bacteria also help maintain pH balance in the body.<ref name="rf7" />
#*While people are familiar with "good bacteria" (such as gut flora), there are also "good" viruses, such as bacteriophages, that "hijack" the bacteria's cellular mechanisms and cause cell death.<ref>http://www.medicalnewstoday.com/articles/158179.php</ref> Researchers from Yale have designed a virus that may help defeat brain tumors.<ref>http://www.technologyreview.com/news/409688/a-viral-attack-against-brain-tumors/</ref> Most viruses, however, have not been proven to perform any functions that are beneficial to humans. They typically only cause harm.
+
#*While people are familiar with "good bacteria" (such as gut flora), there are also "good" viruses, such as bacteriophages, that "hijack" the bacteria's cellular mechanisms and cause cell death.<ref name="rf6" /> Researchers from Yale have designed a virus that may help defeat brain tumors.<ref name="rf8">http://www.technologyreview.com/news/409688/a-viral-attack-against-brain-tumors/</ref> Most viruses, however, have not been proven to perform any functions that are beneficial to humans. They typically only cause harm.
 
#Determine whether the organism meets the criteria for life. Though there is no precise, formal definition of what constitutes life, scientists agree that bacteria are undoubtedly alive. On the other hand, viruses are a bit more like zombies: they're not dead, but they're definitely non-living. For example, viruses have some characteristics of life, like having genetic material, evolving over time through natural selection, and being able to reproduce by creating multiple copies of themselves. However, viruses don't have a cellular structure or their own metabolism; they need a host cell to reproduce. In other respects, viruses are basically non-living. Consider the following:
 
#Determine whether the organism meets the criteria for life. Though there is no precise, formal definition of what constitutes life, scientists agree that bacteria are undoubtedly alive. On the other hand, viruses are a bit more like zombies: they're not dead, but they're definitely non-living. For example, viruses have some characteristics of life, like having genetic material, evolving over time through natural selection, and being able to reproduce by creating multiple copies of themselves. However, viruses don't have a cellular structure or their own metabolism; they need a host cell to reproduce. In other respects, viruses are basically non-living. Consider the following:
#* When they have not invaded another organism's cell, viruses are essentially dormant in every way. No biological processes occur within them. They can’t metabolize nutrients, produce or excrete wastes, or move around on their own. In other words, they are very similar to inanimate material. They can stay in this "non-living" state for long periods of time.<ref>http://serc.carleton.edu/microbelife/yellowstone/viruslive.html</ref>
+
#* When they have not invaded another organism's cell, viruses are essentially dormant in every way. No biological processes occur within them. They can’t metabolize nutrients, produce or excrete wastes, or move around on their own. In other words, they are very similar to inanimate material. They can stay in this "non-living" state for long periods of time.<ref name="rf9">http://serc.carleton.edu/microbelife/yellowstone/viruslive.html</ref>
#* When the virus comes in contact with a cell that it can invade, it latches on and a protein enzyme dissolves part of the cell wall so that it can inject its genetic material into the cell. At this point, as it hijacks the cell to make copies of itself, it starts to show one important characteristic of life: the ability to move its genetic material into future generations, producing more organisms that are like itself.<ref>http://serc.carleton.edu/microbelife/yellowstone/viruslive.html</ref>   
+
#* When the virus comes in contact with a cell that it can invade, it latches on and a protein enzyme dissolves part of the cell wall so that it can inject its genetic material into the cell. At this point, as it hijacks the cell to make copies of itself, it starts to show one important characteristic of life: the ability to move its genetic material into future generations, producing more organisms that are like itself.<ref name="rf9" />   
 
#Identify the bacterial and viral causes of common illnesses. If you are suffering from a disease and you know what it is, figuring out whether you are being affected by bacteria or a virus can be as simple as looking up information about your illness. Common illnesses caused by bacteria and viruses include:
 
#Identify the bacterial and viral causes of common illnesses. If you are suffering from a disease and you know what it is, figuring out whether you are being affected by bacteria or a virus can be as simple as looking up information about your illness. Common illnesses caused by bacteria and viruses include:
#* '''Bacteria:''' Pneumonia, food poisoning (commonly caused by ''E. coli''), meningitis, strep throat, ear infections, wound infections, gonorrhea.<ref>http://www.healthgrades.com/conditions/bacterial-diseases</ref>
+
#* '''Bacteria:''' Pneumonia, food poisoning (commonly caused by ''E. coli''), meningitis, strep throat, ear infections, wound infections, gonorrhea.<ref name="rf10">http://www.healthgrades.com/conditions/bacterial-diseases</ref>
 
#* '''Viruses:''' influenza, chickenpox, the common cold, Hepatitis B, rubella, SARS, measles, Ebola, HPV, herpes, rabies, HIV (the virus that causes AIDS).
 
#* '''Viruses:''' influenza, chickenpox, the common cold, Hepatitis B, rubella, SARS, measles, Ebola, HPV, herpes, rabies, HIV (the virus that causes AIDS).
 
#* Note that some illnesses, like diarrhea and "head colds," can be caused by either type of organism.
 
#* Note that some illnesses, like diarrhea and "head colds," can be caused by either type of organism.
Line 25: Line 25:
 
#*One way to confirm whether you have a virus or bacteria is to assess whether your current antibiotic treatments are effective. Antibiotics such as penicillin will only help if you have a bacterial infection, as opposed to a viral infection. This is why you should not take antibiotics unless your doctor has prescribed them.  
 
#*One way to confirm whether you have a virus or bacteria is to assess whether your current antibiotic treatments are effective. Antibiotics such as penicillin will only help if you have a bacterial infection, as opposed to a viral infection. This is why you should not take antibiotics unless your doctor has prescribed them.  
 
#*Most viral infections and diseases, including the common cold, do not have cures, but there are anti-viral drugs that can often help manage or limit the symptoms and severity.
 
#*Most viral infections and diseases, including the common cold, do not have cures, but there are anti-viral drugs that can often help manage or limit the symptoms and severity.
#Use this simple chart to learn the basic differences between bacteria and viruses. <ref>http://www.diffen.com/difference/Bacteria_vs_Virus</ref>
+
#Use this simple chart to learn the basic differences between bacteria and viruses. <ref name="rf1" />
 
#* Though there are more differences than the ones listed here, these are among the most important.
 
#* Though there are more differences than the ones listed here, these are among the most important.
 
{|border="1" cellspacing="0" style="text-align: center; margin: 1em auto 1em auto;"
 
{|border="1" cellspacing="0" style="text-align: center; margin: 1em auto 1em auto;"
Line 33: Line 33:
 
| Bacteria || Larger (about 1000 nanometers) || One cell: peptidoglycan/polysaccharide cell wall; cell membrane; ribosomes; DNA/RNA floating freely || Asexual. Duplicates DNA and reproduces by fission (splitting apart). || Antibiotics; antibacterial cleaners for external sterilizing || Yes
 
| Bacteria || Larger (about 1000 nanometers) || One cell: peptidoglycan/polysaccharide cell wall; cell membrane; ribosomes; DNA/RNA floating freely || Asexual. Duplicates DNA and reproduces by fission (splitting apart). || Antibiotics; antibacterial cleaners for external sterilizing || Yes
 
|-style="background:#fff;"
 
|-style="background:#fff;"
| Viruses || Smaller (20-400 nanometers) || No cells: simple protein structure; no cell wall or membrane; no ribosomes, DNA/RNA enclosed in protein coat || Hijacks a host cell, forcing it to make copies of viral DNA/RNA; new viruses released from host cell. || No known cures. Vaccines can prevent illness; symptoms may be treatable.|| Unknown; do not meet all traditional standards for life.<ref>http://serc.carleton.edu/microbelife/yellowstone/viruslive.html</ref>
+
| Viruses || Smaller (20-400 nanometers) || No cells: simple protein structure; no cell wall or membrane; no ribosomes, DNA/RNA enclosed in protein coat || Hijacks a host cell, forcing it to make copies of viral DNA/RNA; new viruses released from host cell. || No known cures. Vaccines can prevent illness; symptoms may be treatable.|| Unknown; do not meet all traditional standards for life.<ref name="rf9" />
 
|-style="background:#fff;"
 
|-style="background:#fff;"
 
|}
 
|}
  
 
=== Analyzing Microscopic Features ===
 
=== Analyzing Microscopic Features ===
#Look for the presence of a cell. In terms of structure, bacteria are more complex than viruses. Bacteria are what is known as ''unicellular''. This means that each bacteria is made up of only one cell. By contrast, the human body contains many trillions of cells.<ref>http://scienceblogs.com/gregladen/2011/11/28/how-many-cells-are-there-in-th/</ref>
+
#Look for the presence of a cell. In terms of structure, bacteria are more complex than viruses. Bacteria are what is known as ''unicellular''. This means that each bacteria is made up of only one cell. By contrast, the human body contains many trillions of cells.<ref name="rf11">http://scienceblogs.com/gregladen/2011/11/28/how-many-cells-are-there-in-th/</ref>
#* Viruses, on the other hand, ''do not have any cells''. Viruses are made up of a protein structure called a capsid.<ref>http://www.ncbi.nlm.nih.gov/books/NBK21523/</ref> Though this capsid contains the virus's genetic material, it lacks the features of a true cell, such as cell walls, transport proteins, cytoplasm, organelles, and so on.<ref>Le, T. (2012). Microbiology. In First Aid for the USMLE Step 1 2012. New York: McGraw-Hill Medical.</ref>
+
#* Viruses, on the other hand, ''do not have any cells''. Viruses are made up of a protein structure called a capsid.<ref name="rf12">http://www.ncbi.nlm.nih.gov/books/NBK21523/</ref> Though this capsid contains the virus's genetic material, it lacks the features of a true cell, such as cell walls, transport proteins, cytoplasm, organelles, and so on.<ref name="rf13">Le, T. (2012). Microbiology. In First Aid for the USMLE Step 1 2012. New York: McGraw-Hill Medical.</ref>
 
#* In other words, if you see a cell through the microscope, you know you're looking at bacteria and not a virus.
 
#* In other words, if you see a cell through the microscope, you know you're looking at bacteria and not a virus.
#Check the organism's size. One of the quickest ways to tell the difference between a bacterium and a virus is to determine whether you can see it with a regular microscope. If you can see it, it is not a virus. The average virus is about 10 to 100 times smaller than run-of-the-mill bacteria. They are so small that you cannot see a virus under a normal microscope, only its effects on cells. You need an electron or other extremely high-powered microscope to see viruses.<ref>http://www.microscopy-uk.org.uk/mag/artmar10/mol-mar1.html</ref>
+
#Check the organism's size. One of the quickest ways to tell the difference between a bacterium and a virus is to determine whether you can see it with a regular microscope. If you can see it, it is not a virus. The average virus is about 10 to 100 times smaller than run-of-the-mill bacteria. They are so small that you cannot see a virus under a normal microscope, only its effects on cells. You need an electron or other extremely high-powered microscope to see viruses.<ref name="rf14">http://www.microscopy-uk.org.uk/mag/artmar10/mol-mar1.html</ref>
#*Bacteria are nearly always far bigger than viruses. In fact, the very biggest viruses are only ''just'' as big as the very smallest bacteria.<ref>http://www.diffen.com/difference/Bacteria_vs_Virus</ref>
+
#*Bacteria are nearly always far bigger than viruses. In fact, the very biggest viruses are only ''just'' as big as the very smallest bacteria.<ref name="rf1" />
#*Bacteria tend to have dimensions of one to several micrometers (1000+ nanometers).<ref>http://www.whatarebacteria.com/size-of-bacteria/</ref> By contrast, most viruses have sizes of less than 200 nanometers, which means you won't be able to see them with most everyday microscopes.
+
#*Bacteria tend to have dimensions of one to several micrometers (1000+ nanometers).<ref name="rf15">http://www.whatarebacteria.com/size-of-bacteria/</ref> By contrast, most viruses have sizes of less than 200 nanometers, which means you won't be able to see them with most everyday microscopes.
#Check for ribosomes (and no other organelles). While bacteria have cells, they are not complex ones. Bacteria lack a nucleus and any organelles except for ribosomes.<ref>http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/R/Ribosomes.html</ref>
+
#Check for ribosomes (and no other organelles). While bacteria have cells, they are not complex ones. Bacteria lack a nucleus and any organelles except for ribosomes.<ref name="rf16">http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/R/Ribosomes.html</ref>
#* You can spot ribosomes by looking for small, simple organelles. In cell drawings, they are usually represented as dots or circles.<ref>http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/R/Ribosomes.html</ref>
+
#* You can spot ribosomes by looking for small, simple organelles. In cell drawings, they are usually represented as dots or circles.<ref name="rf16" />
 
#* By contrast, viruses lack all organelles, including ribosomes. In fact, besides the outer protein capsid, some simple protein enzymes, and genetic material in the form of DNA/RNA, there is not much else in the structure of most viruses.
 
#* By contrast, viruses lack all organelles, including ribosomes. In fact, besides the outer protein capsid, some simple protein enzymes, and genetic material in the form of DNA/RNA, there is not much else in the structure of most viruses.
 
#Monitor the organism's reproductive cycle. Bacteria and viruses aren't like most animals. They don't need to have sex or exchange genetic information with other organisms of the same type to reproduce. However, this is not to say that bacteria and viruses have the same reproductive strategies.
 
#Monitor the organism's reproductive cycle. Bacteria and viruses aren't like most animals. They don't need to have sex or exchange genetic information with other organisms of the same type to reproduce. However, this is not to say that bacteria and viruses have the same reproductive strategies.
#* Bacteria practice asexual reproduction. To reproduce, a bacteria replicates its own DNA, elongates, and splits into two daughter cells. Each daughter cell gets one copy of the DNA, making them clones (exact copies). You can usually watch this process occur under a microscope.<ref>http://www.microbiologyonline.org.uk/about-microbiology/introducing-microbes/bacteria</ref> Each daughter cell will grow and eventually divide into two more cells. Depending on the species of bacteria and the external conditions, bacteria can multiply very rapidly this way. You can watch this process occur under a microscope and in this way tell a bacterium from a regular cell.
+
#* Bacteria practice asexual reproduction. To reproduce, a bacteria replicates its own DNA, elongates, and splits into two daughter cells. Each daughter cell gets one copy of the DNA, making them clones (exact copies). You can usually watch this process occur under a microscope.<ref name="rf17">http://www.microbiologyonline.org.uk/about-microbiology/introducing-microbes/bacteria</ref> Each daughter cell will grow and eventually divide into two more cells. Depending on the species of bacteria and the external conditions, bacteria can multiply very rapidly this way. You can watch this process occur under a microscope and in this way tell a bacterium from a regular cell.
#* Viruses, in contrast, can't reproduce on their own. Instead, they invade other cells and use their internal machinery to make new viruses.<ref>http://www.microbeworld.org/what-is-a-microbe/viruses</ref> Eventually, so many viruses are made that the invaded cell bursts open and dies, releasing the new viruses.
+
#* Viruses, in contrast, can't reproduce on their own. Instead, they invade other cells and use their internal machinery to make new viruses.<ref name="rf18">http://www.microbeworld.org/what-is-a-microbe/viruses</ref> Eventually, so many viruses are made that the invaded cell bursts open and dies, releasing the new viruses.
  
 
== Related Articles ==
 
== Related Articles ==
Retrieved from "https://kipkis.com/Know_the_Difference_Between_Bacteria_and_Viruses"