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相关概念视频

Mass Spectrometers01:16

Mass Spectrometers

5.4K
This lesson details the instrumentation of a mass spectrometer—a physical instrument to perform mass spectrometry on analyte molecules and record the characteristic mass spectra. This is achieved via three chief functions:
5.4K
Mass Spectrometry: Overview01:19

Mass Spectrometry: Overview

5.2K
Mass spectrometry is an analytical technique used to determine the molecular mass and molecular formula of a compound. The basic principle of mass spectrometry is to generate ions from the analyte molecule and measure these ion abundances against their molecular mass.  One common type of ionization, known as electrospray ionization or EI, bombards the analyte molecules in the gas phase with high-energy electron beams. The electron beams displace an electron from the molecule and leave...
5.2K
Tandem Mass Spectrometry01:21

Tandem Mass Spectrometry

992
Tandem mass spectrometry is a technique that uses multiple mass analyzers in series to obtain a higher selectivity and signal-to-noise ratio for the analyte. Instruments with multiple analyzers separated by an interaction cell enable secondary fragmentation and selected study of the fragment ions.
Secondary fragmentations occur in the interaction cell and can be induced by various factors. Fragmentation induced by collision with inert gases, such as N2, Ar, He, etc., is called collision-induced...
992
Mass Spectrometry: Complex Analysis01:21

Mass Spectrometry: Complex Analysis

768
Mass spectrometry is an important technique for the identification of pure compounds. However, it has some limitations for the analysis of complex mixtures, often due to excessive fragmentation making the spectrum too complicated to decipher. Mass spectrometry can be combined with suitable separation methods in sequence, forming hyphenated methods, which are useful in the analysis of complex mixtures.
GC–MS is a powerful hyphenated method commonly used in forensics and environmental...
768
Mass Spectrum: Interpretation01:24

Mass Spectrum: Interpretation

1.2K
An unknown compound can be established by identifying the molecular ion peak in the mass spectrum. The molecular ion peak is often weak or absent due to the predominance of fragmentation in high-energy electron beams. In such cases, a low-energy electron beam can be used to scan the spectrum to enhance the intensity of the molecular ion peak. Additionally, chemical ionization, field ionization, and desorption ionization spectra are used to obtain a relatively intense molecular ion peak.
To...
1.2K
Peptide Identification Using Tandem Mass Spectrometry01:33

Peptide Identification Using Tandem Mass Spectrometry

6.4K
Tandem mass spectrometry, also known as MS/MS or MS2, is an analytical technique that employs two mass analyzers. Essentially it is a series of mass spectrometers that helps isolate a particular biomolecule and then helps study its chemical properties.
This technique helps gather information regarding the protein from which the peptide was obtained and to study the peptides’ amino acid sequence. Identifying peptides from a complex mixture is an important component of the growing field of...
6.4K

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相关实验视频

Updated: Jun 30, 2025

Sample Preparation Strategies for Mass Spectrometry Imaging of 3D Cell Culture Models
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定量质谱成像 (qMSI):一个教程.

Russell R Kibbe1, David C Muddiman1

  • 1Department of Chemistry, FTMS Laboratory for Human Health Research, North Carolina State University, Raleigh, North Carolina, USA.

Journal of mass spectrometry : JMS
|March 15, 2024
PubMed
概括
此摘要是机器生成的。

质谱成像 (MSI) 允许同时检测和组织中的化学物质的空间映射. 本教程指导设计用于疾病和药物研究的定量MSI (qMSI) 实验.

关键词:
绝对量化的绝对量化.质谱仪成像成像 质谱仪成像成像在QMSI中,QMSI是相对量化的相对量化.

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Preparation of Homogeneous MALDI Samples for Quantitative Applications
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Dithranol as a Matrix for Matrix Assisted Laser Desorption/Ionization Imaging on a Fourier Transform Ion Cyclotron Resonance Mass Spectrometer
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Preparation of Homogeneous MALDI Samples for Quantitative Applications
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科学领域:

  • 分析化学 分析化学
  • 生物医学成像技术 生物医学成像技术
  • 分子病理学分子病理学

背景情况:

  • 质谱成像 (MSI) 是一种强大的分析技术,用于同时检测生物组织内的众多化学物种,保持空间分布.
  • 目前的MSI应用程序擅长识别和定位分子,对健康和疾病研究产生重大影响.
  • 定量质谱 (qMS) 与MSI的整合是精确定位和定量疾病标志物或药物效应的下一个前沿.

研究的目的:

  • 为设计定量质谱成像 (qMSI) 实验提供一个教程.
  • 突出关键的考虑和方法,以克服QMSI的复杂性.
  • 帮助新进入MSI领域的研究人员采用定量方法.

主要方法:

  • 详细讨论设计qMSI实验的关键因素.
  • 解释MSI中定量分析的既定和新兴方法.
  • 专注于与实验设置和数据解释相关的实际方面.

主要成果:

  • 为成功的qMSI实验设计提供了一个框架.
  • 确定解决定量分子成像挑战的策略.
  • 授权研究人员实施qMSI进行先进的生物医学研究.

结论:

  • 定量质谱成像 (qMSI) 是分子成像技术的重大进步.
  • 成功的qMSI设计和执行对于准确的疾病和药物作用分析至关重要.
  • 本教程是进入qMSI领域的研究人员的基础指南.