字幕表 動画を再生する 英語字幕をプリント What might aliens look like? Nothing like us, possibly. Hey guys, Amy here with DNews. We haven’t found extraterrestrial life just yet, but that might be because we’re looking for entirely the wrong thing. Let’s start with a recap of life as we know it on Earth. Carbon, hydrogen, nitrogen, oxygen, phosphorus and sulfur are the six basic building blocks of all life forms on Earth, at least that we know of. Phosphorus is an integral part of DNA and RNA, the structures that carry all the genetic instructions for life. Carbon, meanwhile, is the main component of sugars, proteins, fats, DNA, muscle tissue… pretty much everything that makes up your body. Life on Earth also requires something called a phospholipid bilayer membrane, a strong, permeable, water-based membrane that houses the organic matter inside every cell, vesicles made of which are called liposomes. So these are the things astronomers look for on other planets and in alien environments to find life. And because all life on Earth needs water, we tend to look for water in the search for extraterrestrial life. But there’s increasingly more research to suggest that life on other worlds won’t necessarily have the same makeup as life does here. In 2010, a team of researchers released a study saying they’d discovered the first known microorganism able to thrive and reproduce using arsenic, a toxic chemical. In a laboratory setting, researchers successfully grew a strain of Gammaproteobacteria microorganisms on a diet lean on phosphorus and heavy on arsenic before removing the phosphorous entirely. The microbes didn’t die. Instead, they thrived, with later generations substituting arsenic for phosphorus in its DNA and other cellular components. The arsenic became a building block for a new strain of cells. When this news came out it was massively exciting for the astrobiology and space world, but the discovery was eventually debunked. The phosphate-free medium in which the microbes thrived with arsenic in their DNA turned out to have just enough phosphate in it to support life as we know it. But it didn’t turn out to be the nail in the coffin of finding interesting alien life. Just last month, scientists at Cornell University modeled a cell that could exist on Saturn’s moon Titan. Titan, Saturn’s largest moon, has a thick atmosphere, liquid ethane and methane seas, and organic-rich chemistry somewhat reminiscent of a frozen early Earth. Titan couldn’t support organic cells as they exist on Earth, but it could support methane-based, oxygen-free cells. The researchers theorized a cell membrane called an “azotosome.” It’s a membrane analogous to the liposomes we know exist in Earthly life; it has the same stability and flexibility. But these azotosomes are made from nitrogen, carbon and hydrogen molecules, molecules we know exist in Titan’s seas. So it’s possible that carbon-free life could exist on Titan, or else on some exoplanet or exomoon with a similar structure. So, to be fair, the arsenic-based bacteria was eventually disproved and the possible cell that could exist on Titan is only a model. But still, the definition of life keeps expanding and that makes the ongoing search for extraterrestrial life that much more interesting. And switching gears just a little, we are really happy that our new channel Seeker launched this week! Here on DNews, we take a look at the news from a science angle, and they take a look at the news from a human side! Like this video here about the fight to save New York subway dancers... So make sure you check that video out, it’s the first link in the description, and subscribe to Seeker so you never miss a video! So what do you guys think about non carbon-based life forms? Cool science fact or unlikely science fiction? Let us know in the comments below or you can let me know directly on Twitter as @astVintageSpace. And don’t forget to subscribe for more DNews every day of the week.
B2 中上級 米 宇宙人の生命は本当にどんな姿をしているのでしょうか? (What Could Alien Life Really Look Like?) 169 11 方韻晴 に公開 2021 年 01 月 14 日 シェア シェア 保存 報告 動画の中の単語