字幕表 動画を再生する 英語字幕をプリント [♪♩INTRO] Of all the cells in the human body, fat cells might get the most hate. Their main function is to store fat molecules. And while that is a very important job, a lot of people kinda maybe wish they didn't have quite so many. But it turns out that fat cells, or adipocytes, are doing a lot for your body -- maybe even more than scientists ever imagined. Because this week, a trio of British biologists reported for the first time that fat cells can move. Oh, and also it turns out they help heal wounds. The study, which was published this week in the journal Developmental Cell, was done on fruit flies. But the team thinks fat cells might do something similar in humans. The researchers were interested in how fruit flies repair their wounds, and there were some hints that fat cells could be involved — like weirdly big shadows that showed up under a microscope. For these experiments, they used lasers to make small wounds on the underside of fly pupae — I know this seems kind of mean — that's the stage just before the fly is fully grown. And to keep track of which cells were fat cells and which were other types, they turned them different colors. Then they recorded what happened next under a microscope. Almost immediately, large fat cells started traveling to the injured area to plug the hole, usually taking about an hour to get there. Then they basically turned into, like, a fat version of a band-aid, forming a tight seal on the wound that would keep bacteria out. The fat cells also worked with the flies' immune system to remove dead cells and any other debris that was hanging around. And if the researchers infected the wound on purpose, the fat cells released antimicrobial peptides, or small defense proteins, to fight them off. Seeing fat cells help heal wounds was weird enough. But really, the strangest part was the fact that these cells were moving at all. Researchers had always assumed fat cells kind of just sat there. But here was a cell swooping in to save the day. It gets even weirder, because the fat cells weren't moving the way most cells in an organism do, which is by sticking to other cells and tissues and kind of pulling themselves along. Instead, the fat cells seemed to be entirely on their own, changing their shape to propel themselves through the flies' liquidy insides. Basically, they were swimming. Now, the question is whether we also might have a bunch of Michael Phelps-like fat cells in us that mobilize when we get hurt. Obviously, there's a lot going on in flies that's different from humans. We have much more complicated clotting systems, so it's unlikely fat cells would serve the exact same purpose in us as in flies. And hopefully not too many of us are suffering from laser wounds. But there's some evidence that fat cells in mice also pump out these antimicrobial defense proteins, which could bode well for us. And frankly, no one has looked very hard to see whether any fat cells are moving. So, it could be just a fly thing, but it might not be. And maybe you should be thanking your fat cells, instead of wishing they were smaller or less numerous. Speaking of size: In another paper published this week — this one in Nature Communications — a group of French and Brazilian virologists reported discovering two new giant viruses. Giant viruses are still microscopic. You're not going to spot any crawling around in your basement. But compared to the rest of the viruses on the planet, these things are huge — they're more like the size of bacteria. And so are their genomes! Since both of the new viruses were found in Brazil, the researchers named them tupanviruses, in honor of Tupã, the thunder god of a local indigenous group known as the Guaraní. One came from the mud of a soda lake — a type of lake that's super salty and has a high pH. So as tasty as it sounds, you probably don't want to drink it unless you enjoy bleach with a side of salt. The other virus was found in deep ocean sediments off the coast of Rio de Janeiro, dug up by a helpful submarine robot. Under a microscope, the viruses look a bit like fuzzy light bulbs with extra long screw sections. They can grow to more than 2 microns, or millionths of a meter, making them one of the longest viral particles on record. Now, usually, viruses have just a handful of their own genes, because they mooch off their hosts for everything else. Influenza A, for instance, has just 8 genes, and HIV has 9. Their entire genomes are made up of less than 15,000 nucleotide building blocks. But these tupanviruses have genomes that are a hundred times bigger, with about 1.5 million of those building blocks making up a whopping 1300-1400 genes. Even more impressive is the content of those genes. Tupanviruses have more genes dedicated to synthesizing and assembling proteins than any virus we've ever seen, including roughly 200 other giant viruses. Which is surprising, because part of what makes viruses dependent on other life forms is the fact that they rely on their hosts for that very job. Now, tupanviruses still can't string proteins together on their own because they're missing a few key players. But almost all the pieces are there. The question is, where did this strange set of genes come from? One possibility is that giant viruses started off as some kind of cell, and then lost some genes over time to become a virus. But it could also be that they started off as smaller viruses, and grew bigger as they picked up genes from various hosts. Scientists are hoping to figure out how giant viruses evolved by comparing their genomes to other viruses and other organisms. The tupanviruses give us a bunch of new data to add to the pile, but they aren't enough to give us the answer own their own. We'll need to find more giant viruses to figure out what really happened. So here's to more digging! About a year ago, we launched a new channel with the help and guidance of our SciShow patrons: SciShow Psych. Well, this coming Tuesday, SciShow Psych turns one-year-old and we would like to celebrate with you. As a thank-you to our patrons, we'll be having a birthday livestream for SciShow Psych on Tuesday, March 6 at 3pm ET. I'll be there, along with my co-host on SciShow Psych, Brit Garner, and a few of our favorite behind the scenes folks as well. And if you're a SciShow patron, we hope you can be there too! Watch for the link to the livestream on Patreon and we'll see you then! Bring your party poppers and your burning psych questions. [♪♩OUTRO]
B1 中級 米 We Just Found Out Fat Cells Can Move! 12 1 joey joey に公開 2021 年 05 月 05 日 シェア シェア 保存 報告 動画の中の単語