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  • When I was a little kid, my parents would let me take my favorite set of dinosaurs into

  • the tubprobably to persuade me into taking a bath.

  • I remember my dinosaurs well!

  • In fact, I used to know all of my dinosaurs.

  • I had epic dinosaur battles.

  • Sometimes my sister would play with them, toojust…a little differently.

  • Anyway, I remember that one day, unfortunately, my favorite stegosaurus lost his head.

  • I mean, literally, it just popped off.

  • And while I was determined to get my parents to fix it, we discovered that there was stuff

  • growing in the toy.

  • Now, I realize what was actually large enough to be visible was likely mold, but at the

  • time, my mother told me that Sergeant Stegosaurus would have to retire from the bathtub, and

  • I'd have to get a new one because bacteria had taken over.

  • It led to two misconceptions I developed about bacteria: (1) that bacteria were only found

  • on or in things that had gotten contaminated somehow and (2) that bacteria are always bad

  • and that is why Sergeant Stegosaurus required replacing.

  • Those are both not correct.

  • First of all, there probably were bacteria in the dinosaur along with the mold.

  • But that shouldn't be surprising, because bacteria are everywhere.

  • Bacteria are found in our houses- yes, even very clean houses- and they are found outside.

  • Bacteria colonize our skin and our digestive system.

  • That addresses the first misconception that you only find bacteria on contaminated or

  • dirtysurfaces.

  • And as for the second misconception, well, bacteria sure do get a bad reputation.

  • Now I'm not disagreeing that the toy should have been thrown out.

  • That was a good decision.

  • There was probably mold that was in that toy dinosaur- a fungus - but there was likely

  • plenty of bacteria growing there with it.

  • A growing community of mold and bacterianot ideal for a bath toy.

  • But we do want to mention that many times, all bacteria are lumped together as a bad

  • thing- which shouldn't happen, because not all bacteria are bad.

  • In fact, many types of bacteria are helpful for organisms and ecosystems.

  • We'll give you some examples.

  • Some of the bacteria that colonize your skin are beneficial and actually help keep harmful

  • strains and other types of pathogens from growing.

  • Bacteria in your digestive system actually help break down food and some can produce

  • certain vitamins.

  • Some types of bacteria are used in producing some foods that we eat.

  • In ecosystems, bacteria have a very important role as decomposers.

  • Bacteria also have major roles in the nitrogen cycle to fix nitrogen that plants need.

  • These are just a few examples of helpful, beneficial bacteria.

  • Now that's not to say bacteria can't be pathogens.

  • Bacteria are the cause of strep throat, tetanus, tooth decay, some forms of pneumonia, diphtheria,

  • salmonella, cholera…I could go on.

  • Antibiotics can be used to combat some of these.

  • And while antibiotics are very important for destroying bacterial infections, we shouldn't

  • leave out saying that some broad spectrum antibiotics can harm some of thegood

  • bacteria as well.

  • Also, we should mention that antibiotics do not work on viruses.

  • Viruses are pathogens that are not made of cells at all; you can check out our video

  • on them.

  • Additionally, there are vaccines which can prevent many types of both bacterial and viral

  • infections.

  • Ok, so what are bacteria exactly?

  • In the three domains of life, bacteria encompass one of them.

  • They come in different types of shapes as you can see here.

  • Some of them are heterotrophs---meaning they consume or feed on some organic matter.

  • But some are autotrophsthey can make their own food.

  • Plants aren't the only one that can be autotrophs.

  • Let's take a look at a bacterium here---bacterium is just singular word while bacteria is plural.

  • A bacterium is a prokaryotic cell, which are generally much smaller than eukaryotic cells

  • like ours.

  • If you recall from our prokaryotic vs. eukaryotic cells video, that means bacteria do not have

  • a nucleus or other membrane-bound organelles.

  • But you will find ribosomes, cytoplasm, a cell membrane, and nearly all bacteria have

  • a cell wall.

  • Like all living organisms, bacteria have DNA.

  • Bacterial DNA, while still double stranded, is arranged in a circular shape.

  • Depending on the species, bacteria can also have a flagellum to help with movement, a

  • capsule which can help give them extra protection or attachment abilities, or pili which can

  • help with attaching to surfacesincluding each other.

  • Oh, and many bacterial species have a plasmid.

  • Which is basically likeextra DNA.

  • More about that later.

  • Bacteria have some intriguing abilities that are different from our human cells that we'd

  • like to mention.

  • Unlike our own body cells which perform mitosis and cytokinesis to divide, bacteria generally

  • multiply even faster in a process called binary fission.

  • This is a type of asexual reproduction when the bacteria can easily divide to make a copy

  • of themselves.

  • Since it is asexual reproduction, the daughter cells would be expected to be identical to

  • the parent cells unless there is a mutation.

  • Some types of bacteria do have the ability to share genetic material with each other.

  • Remember how we mentioned that bacteria can have a plasmid---an extra copy of DNA with

  • usually just a few genes on it?

  • Bacteria can share these plasmids with each other in a process known as conjugation.

  • The pili can be used to share this genetic information with each other.

  • If the plasmid happens to have a gene that gives some degree of resistance to an antibiotic,

  • this may allow the bacterium that received the plasmid to survive exposure to that antibiotic.

  • Which could be very problematic.

  • You can learn more about how antibiotic resistance can develop over time in bacteria in our natural

  • selection video.

  • Bacteria can also pick up plasmids from their environment.

  • Often when this happens it is during a time of stress for the bacteria.

  • In a process known as bacterial transformation, scientists can use a type of stimulussuch

  • as a heat shock---to induce bacteria in a lab setting to pick up genetic material.

  • There are all kinds of these uses for these genetically engineered bacteria that you can

  • explore.

  • Some types of bacteria can form endospores.

  • Endospores allow bacteria to be survivors in all kinds of hostile environments: lack

  • of nutrients, freezing temperatures, drought...just some examples.

  • This is a reason why hospitals have to be very good at sterilization processes.

  • We won't go through the process of endosporulation---or how bacteria reactivate after forming endospores---but

  • this is definitely something interesting to explore

  • Finally, some types of bacteria (along with other types of prokaryotes called Archaea),

  • can be extremophiles.

  • Unlike our own cells, extremophiles can live in extreme environments where there may be

  • excessive heat, chemicals that our cells would find toxic, or even radiation.

  • Overall, we share this planet with so many kinds of bacteria that scientists continue

  • to learn more about them every day.

  • And if this kind of topic interests you, you may want to look into the study of microbiology.

  • So many careers- from agriculture to the medical field to environmental work- rest heavily

  • on the study of microbiology.

  • Well, that's it for the Amoeba Sisters, and we remind you to stay curious.

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細菌とウイルス (Bacteria and VIRUS)

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    chung に公開 2021 年 01 月 14 日
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