字幕表 動画を再生する 英語字幕をプリント Mass spectrometry is used to identify the contents of a sample, and the quantities of those substances within that sample. This is based on a substances weight, or 'mass'. A mass spectrometer is essentially a set of very accurate weighing scales. Firstly, we take a blood or tissue sample, and the mass spectrometer then works in two stages: In the first stage, the sample is passed through the instrument where the masses of its individual components are measured by their 'time of flight'. Effectively, all the components start off from the same place and are pushed through a tube towards a detector. The time it takes them to travel is related to their mass, so small things go quickly, and larger things go slower. An average molecule will travel at about 50 kilometers per second - that's one-sixth of the speed of light. As each component hits the detector, the time it took to get there is recorded, and the mass of each component is revealed. The more of a particular component there is in the sample, the more 'hits' on the detector we will get at that time. This is then shown as a 'mass spectrum'. Time of flight is converted to a mass (or mass-to-charge ratio) and is shown along the bottom, and the height of each peak represents the amount of that component in the sample. By comparing the height of each peak between many healthy people and patients, we can find which peaks are higher or lower in the two groups. This allows us to find substances which are different and which can be used as biomarkers or targets for new medicines. One further challenge however, is that many things can have a similar weight. From this initial process, we don't know for definite the identity of our biomarker, so we begin the second stage of analysis. This time, the mass spectrometer isolates the specific component of interest, by filtering out all other components that are not of the correct weight. Our pure compound then collides with a gas, commonly nitrogen, where it is broken down into smaller 'fragments'. We can now measure the masses of these fragments, using time-of-flight as before. This gives us a distinct pattern of fragments, like a molecular signature which is used to discover the identity of the compound. In reality these two stages are often done at the same time, with modern instruments capable of generating results in just seconds, allowing us to identify and quantify thousands of components from the samples in a single analysis.
B1 中級 質量分析とは何ですか? (What is mass spectrometry?) 66 5 dengliulin 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