Book Volume 2
Preface
Page: i-ii (2)
Author: Atta-ur-Rahman, M. Iqbal Choudhary and Syed Ghulam Musharraf
DOI: 10.2174/9789815050059124020001
PDF Price: $30
Ion Mobility-Mass Spectrometry for Macromolecule Analysis
Page: 1-35 (35)
Author: Mehmet Atakay, Hacı Mehmet Kayılı, Ülkü Güler and Bekir Salih*
DOI: 10.2174/9789815050059122020003
PDF Price: $30
Abstract
The need for conformational information is increasing by the time in studies on macromolecules. For example, proteins may have various functions and properties depending on their folding states that make their conformational analyses very important. Mass spectrometry is one of the most effective analytical techniques that separate ions in the gas phase by their mass-to-charge ratio. It provides useful data on molecular characterization in many areas of research with high precision, accuracy, and sensitivity. Although mass spectrometry is a very powerful analytical technique, it cannot distinguish different species having identical mass-to-charge ratio. The analytical technique combining mass spectrometry with ion mobility spectrometry (IM-MS), which provides information about the three-dimensional structure of an ion, solves this problem by separating them according to their collision cross sections (CCS) in the gas phase. This analytical method also provides the advantages of higher precision and better resolution in the rapid analysis of different types of complex samples. The separation of isomers with the same molecular weight, increasing the dynamic range and distinguishing ions from chemical noise are the most important features that this technique contributes to mass spectrometry. As improvements have been made in IM-MS technology, the number and quality of publications in the areas where this technique is used increases rapidly. In this chapter, the use of IM-MS techniques in the fields such as proteomics, glycoproteomics and polymer characterization are explained by presenting their various applications in the literature.
Recent Advancements in the Detection of Organic Contaminants in Wastewater Using Advanced Mass Spectrometry
Page: 36-89 (54)
Author: Senuri Kumarage, Laksiri Weerasinghe and Imalka Munaweera*
DOI: 10.2174/9789815050059122020004
PDF Price: $30
Abstract
With the increase of industrialization and urbanization, pollution of clean
water has become a critical issue in the contemporary world. Despite organic pollutants
such as pharmaceuticals, pesticides, industrial chemicals, poly- and per-fluoroalkyl
substances (PFASs) and hormones, contaminants originating from the industrial
effluents, urban run-offs, agricultural run-offs and domestic sewage have become a
greater threat to the aquatic eco-systems. The availability of some of these highly
potent contaminants at low concentrations and the simultaneous analysis of multiple
samples have been identified as the major concerns in current analytical methods in
water pollution analysis. In this regard, modern mass spectrometric methods have
emerged as suitable techniques for the analysis of smallest concentrations even at a
level of nanograms or femtograms while allowing the detection of hundreds of analytes
in a single analysis within a short duration of time.
Recently, combinational mass spectrometric analysis has become the state of the art in
several qualitative and quantitative analyses of organic pollutants in water. The
sensitivity of the detection has been enhanced by coupling with various sample
extraction methods, chromatographic techniques and different mass analyzers in mass
spectrometry. Utilization of modern sample extraction methods coupled with mass
analyzers has facilitated the accuracy of the detection of organic pollutants in water
samples. Sample extraction methods involve sophisticated solid-phase extraction,
solid-phase microextraction, and liquid-liquid extraction methods, whereas mass
analyzers include time-of-flight, orbitrap, ion-trap and triple quadrupole, etc. The
hallmark of these hyphenated techniques is the ability of allowing the screening of
targeted analytes, non-targeted analytes and suspect analytes without the need of
authentic standards. This chapter will focus on the recent advancement of mass
spectrometry in qualitative and quantitative analysis of several organic contaminants in
wastewater samples.
Poisonous Substances in Tropical Medicinal and Edible Plants: Traditional Uses, Toxicology, and Characterization by Hyphenated Mass Spectrometry Techniques
Page: 90-126 (37)
Author: Amanda E. de Athayde, Monalisa A. Moreira, Gabriella B. Souza, Tiago Tizziani, Maique W. Biavatti and Louis P. Sandjo*
DOI: 10.2174/9789815050059122020005
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Abstract
Alkaloids are natural metabolites containing nitrogen atoms, produced for different biological functions by plants, animals, and microorganisms. In most cases, its production is related to the defense mechanism of an organism through allelopathic effects. Because of this allelopathic property, some of these alkaloids are used as pesticides and can somehow be found in food and beverages as exogenous contaminants. Other contaminations by alkaloids come from industrial processing; so, ingestion of contaminated food or drinks can cause poisoning or death. Many of these plants, although composed of toxic substances, are also used as traditional medicines. Therefore, the compilation of these plants, their chemical constituents, and their pharmacological effects remain important. This paper aims to report traditional preparations and the use of edible plants containing toxic components, their toxicological records of a part of these poisonous metabolites, some regulations on their tolerable dose, and appropriate hyphenated techniques related to mass spectrometric for their separation, detection, quantification, and characterization. In addition, a particular emphasis will be placed on the properties of the stationary and mobile phases used for these studies. The fragmentation mechanism pathways based on mass spectrometry data for these substances will be widely described, and the diagnostic peak will be highlighted.
LC-MS Analysis of Endogenous Neuropeptides from Tissues of Central Nervous System: An Overview
Page: 127-187 (61)
Author: Neva Alasağ* and Erol Şener
DOI: 10.2174/9789815050059122020006
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Abstract
In recent years, various methods and technological advances demonstrated
that neurochemical measurements have contributed to significant improvements in our
understanding of the relationship between chemistry in the central nervous system
(CNS) and the organism. Techniques based on Liquid Chromatography-Mass
Spectrometry (LC-MS) are potent approaches for separating and quantifying
endogenous neuropeptides in CNS. The separation ability and reliability of LC with
sensitivity and selectivity of MS have become a valuable combination for peptide
analysis either qualitatively or quantitively. Thus, new peptides have been identified
using this technique. When applied to disease models, pathophysiological mechanisms
can be identified and used as drug targets or biomarkers. Due to the low concentrations
of neuropeptides in the biological samples, they restrict developing analysis methods
and the understanding of their biological function. This book chapter focuses on novel
developments of LC-MS/MS for endogenous neuropeptides. It has also emphasized the
applications that cite preparation techniques used for brain tissue analysis, published in
recent years.
Advances in Structural Proteomics using Mass Spectrometry
Page: 188-208 (21)
Author: Sarah Otun*, Tshele Mokhantso and Ikechukwu Achilonu
DOI: 10.2174/9789815050059124020007
PDF Price: $30
Abstract
Structural proteomic techniques have recently evolved because of advances in mass spectrometry (MS). Several MS techniques, such as, Hydrogen-deuterium exchange, oxidative footprinting or radical probe mass spectrometry, chemical crosslinking, affinity purification, and ion mobility separation, can now be used to analyse protein interaction networks, conformational changes, protein structures, and other downstream applications. This article examines proteomic MS techniques' progression from convectional to advanced techniques, tandem MS techniques, MS of multiprotein complexes, and emerging MS techniques for structural proteomics. Also, the applications that were gleaned from these techniques were reviewed. Lastly, the future of this rapidly emerging field was highlighted.
Recent Trends of Modern Mass Spectrometry: Application towards Drug Discovery and Development Process
Page: 209-224 (16)
Author: Shweta Sharma*
DOI: 10.2174/9789815050059124020008
PDF Price: $30
Abstract
Mass spectrometry has evolved significantly in recent years and has become a powerful analytical tool in the field of drug discovery and development. It allows for the identification and characterization of small molecules, peptides, and proteins in complex biological samples with high sensitivity and accuracy. This chapter provides an overview of the recent trends in modern mass spectrometry and its application towards the drug discovery and development process. It discusses the advancements in mass spectrometry technology, such as high-resolution mass spectrometry (HRMS), ambient ionization mass spectrometry (AIMS), data-independent acquisition (DIA) mass spectrometry, tandem mass spectrometry (LC-MS/MS), and how they have enabled the analysis of complex biological samples. The chapter also highlights the use of mass spectrometry in various stages of the drug discovery and development process, including target identification, hit identification, lead optimization, and drug metabolism and pharmacokinetic studies. Additionally, it discusses the challenges and future prospects of mass spectrometry in drug discovery and development. Overall, mass spectrometry has revolutionized the drug discovery and development process and will continue to play a crucial role in the future.
Subject Index
Page: 225-230 (6)
Author: Atta-ur-Rahman, M. Iqbal Choudhary and Syed Ghulam Musharraf
DOI: 10.2174/9789815050059124020009
PDF Price: $30
Introduction
Applications of Modern Mass Spectrometry, Volume 2, covers the latest advances in mass spectrometry in scientific research. The series presents readers with information on the broad range of mass spectrometry techniques and configurations, data analysis, and practical applications. Each volume contains contributions from eminent researchers who present their findings in an easy-to-read format. The multidisciplinary nature of the works presented in each volume of this book series makes it a valuable reference on mass spectrometry to academic researchers and industrial R&D specialists in applied sciences, biochemistry, life sciences, and allied fields. The second volume of the series presents 6 reviews: Ion Mobility-Mass Spectrometry for Macromolecule Analysis - Recent Advancements in Detection of Organic Contaminants in Wastewater Using Advanced Mass Spectrometry - Poisonous Substances in Tropical Medicinal and Edible Plants: Traditional Uses, Toxicology, and Characterization by Hyphenated Mass Spectrometry Techniques - LC-MS Analysis of Endogenous Neuropeptides from Tissues of Central Nervous System: An Overview - Advances in Structural Proteomics Using Mass Spectrometry and Recent Trends of Modern Mass Spectrometry: Application towards Drug Discovery and Development Process.