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Nucleic acid biosensors for environmental pollution monitoring PDF

187 Pages·2011·51.059 MB·English
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Edited by Marco Mascini and Ilaria Palchetti Nucleic Acid Biosensors for Environmental Pollution Monitoring EN nu vc irole nic m A ec ni d t a B l i Po os le lun ts ioo nrs Mf o or n i t o r i n g M a s c in i & P a lc h e t t i Nucleic Acid Biosensors for Environmental Pollution Monitoring Nucleic Acid Biosensors for Environmental Pollution Monitoring Edited by Marco Mascini and Ilaria Palchetti Dipartimento di Chimica, Universita` degli Studi di Firenze, Italy ISBN: 978-1-84973-131-7 A catalogue record for this book is available from the British Library r Royal Society of Chemistry 2011 All rights reserved Apartfromfairdealingforthepurposesofresearchfornon-commercialpurposes or for private study, criticism or review, as permitted under the Copyright, DesignsandPatentsAct1988andtheCopyrightandRelatedRightsRegulations 2003, this publication may not bereproduced, stored ortransmitted,inany form orbyanymeans,withoutthepriorpermissioninwritingofTheRoyalSocietyof Chemistry or the copyright owner, or in the case of reproduction in accordance withthetermsoflicencesissuedbytheCopyrightLicensingAgencyintheUK,or in accordance with the terms of the licences issued by the appropriate Repro- duction Rights Organization outside the UK. Enquiries concerning reproduction outsidethetermsstatedhereshouldbesenttoTheRoyalSocietyofChemistryat the address printed on this page. The RSC is not responsible for individual opinions expressed in this work. Published by The Royal Society of Chemistry, Thomas Graham House, Science Park, Milton Road, Cambridge CB4 0WF, UK Registered Charity Number 207890 For further information see our web site at www.rsc.org Preface Nucleic acids are the fundamental bricks of life. They are universal in living things, as they are found in all cells and also in viruses. Their role in nature is of tremendous importance since they are responsible for carrying genetic information from one generation to another. However,inrecentyears,thefunctionofnucleicacidshasbeenrecognizedto extend beyond the Watson–Crick base pair recognition of complementary strands.Theirchemicalcharacteristicofbeingamacromoleculecomposedofa chainofnucleotideshasbeenusedtocreateuniquechemicalcompounds.Since the early 1990s, many nucleic acid-based molecules, consisting of 40–50 nucleotides—known as aptamers—have been isolated from large libraries that are able to bind a broad range of molecules with high affinity and specificity. Themoleculesandentitiesthatcanberecognizedbyaptamersrangefromsmall organic molecules to proteins, cells, and even intact viral particles. A further advancewasmadein1994,whenforthefirsttimeDNAwasshowntoactasa catalyst. These catalytic DNA molecules are called DNAzymes. DNAzymes and aptamers can be combined to form aptazymes. In this book we have attempted to demonstrate the incredible opportunities that nucleic acids can offer to analytical chemistry, and in particular to envir- onmental analytical chemistry. These innovative biomolecules can, in fact, be used to develop smart and innovative biosensors for environmental analysis. Monitoring of contaminants in the air, water, and soil is instrumental in understandingandmanagingriskstohumanhealthandecosystems.Giventhis requirement, as well as the time and cost involved in traditional chemical analysisofenvironmentalsamples(e.g.,chromatographicmethods),thereisan expanding need for simple, rapid, cost-effective, and field portable screening methods.Abiosensorisacompactanalyticaldeviceincorporating abiological or biologically derived sensing element either integrated within or intimately associated with a physicochemical transducer. The peculiar characteristics of biosensors allow them to complement current environmental field screening NucleicAcidBiosensorsforEnvironmentalPollutionMonitoring EditedbyMarcoMasciniandIlariaPalchetti rRoyalSocietyofChemistry2011 PublishedbytheRoyalSocietyofChemistry,www.rsc.org v vi Preface and monitoring methods, especially when continuous, real-time, in situ mon- itoringisrequired.Asdescribedinthisbook,nucleicacidshaveapivotalrolein development of smart biosensors for environmental monitoring. Chapter1(byPalchettiandMascini)describesthecrucialroleofbiosensors forenvironmentalmonitoring,withspecialemphasisontheproblemsinvolved and the attempts to solve the basic requirements for increased stability, detection sensitivity, and reliability of the biomolecular recognition element. Theopportunitiesthatnucleicacidsofferinthisfieldsarehighlighted.Chapter 2 (by Erdem and Oszoz) provides a description and classification of nucleic acidsandtheirroleinlivingorganisms.Chapter3(byPalchetti,Marrazza,and Mascini) deals with the use of nucleic acid based biosensors for hybridization and their role in environmental monitoring. Chapter 4 (by Cella, Chen, and Mulchandani)andChapter5(byNagrajandLu)focusonthedevelopmentof biosensors based on aptamers and nucleic acid enzymes respectively for the detectionoforganicandinorganicpollutants.Chapter6(byRogersandGary) and Chapter 7 (by Labuda) deal with the use of nucleic acid based biosensors for environmental toxicity screening, and Chapter 8 (by Escosura-Mun˜iz, Medina, and Merkoc¸i) focuses on the use of nanomaterials (nanoparticles, quantum dots, nanotubes, etc.) as well as miniaturization and lab-on-a-chip technologies for nucleic acid based biosensing systems with interest for environmental applications. We are fortunate to have assembled contributions from world-class autho- ritiesinthisfield,andwesincerelythankallofthem.Sharingtheirenthusiasm for the field of nucleic acid based biosensors, we have brought their contribu- tions together in this book, which we believe, will be of great help to the increasing number of researchers in this field. Marco Mascini and Ilaria Palchetti Sesto Fiorentino Contents Chapter 1 Biosensor Techniques for Environmental Monitoring 1 Ilaria Palchetti and Marco Mascini 1.1 Introduction: Role of Biosensors in Environmental Analysis 1 1.2 Biosensors: Definition, Classification and a Brief History 3 1.3 InnovativeBiorecognitionElementsforEnvironmental Analysis 6 1.4 Conclusions 14 References 15 Chapter 2 Nucleic Acids as Biorecognition Element in Biosensor Development 17 Arzum Erdem and Mehmet Ozsoz 2.1 Description and Classification of Nucleic Acids 17 2.1.1 Natural Nucleic Acids 17 2.1.2 Synthetic Nucleic Acids 18 2.2 Applications of Nucleic Acid Based Biosensor Technologies 21 2.2.1 DNA Biosensors 25 2.2.2 RNA Biosensors 27 2.2.3 PNA Biosensors 28 2.2.4 LNA Biosensors 29 2.3 Conclusion 30 References 30 NucleicAcidBiosensorsforEnvironmentalPollutionMonitoring EditedbyMarcoMasciniandIlariaPalchetti rRoyalSocietyofChemistry2011 PublishedbytheRoyalSocietyofChemistry,www.rsc.org vii viii Contents Chapter 3 Genosensing Environmental Pollution 34 Ilaria Palchetti, Giovanna Marrazza and Marco Mascini 3.1 Introduction 34 3.2 Genosensor Development 35 3.2.1 Probe Design 36 3.2.2 Probe Immobilization 37 3.2.3 Sample Treatment and Hybridization 40 3.2.4 Detection 47 3.3 Genosensors for Environmental Monitoring 51 3.4 Conclusions 57 References 57 Chapter 4 Aptamer-based Biosensor for Environmental Monitoring 61 Lakshmi N. Cella, Wilfred Chen and Ashok Mulchandani 4.1 Introduction to Aptamers 61 4.2 Aptamer Properties 62 4.3 SELEX and its Variants 63 4.3.1 Bound-state SELEX Variants 64 4.3.2 Solution-based SELEX Variants 66 4.3.3 Specialized Variants 66 4.4 Aptamer-based Biosensors for Environmental Monitoring 67 4.4.1 DetectionofOrganicandInorganicPollutants 68 4.4.2 Detection of Drugs, EDCs, and PPCPs 70 4.4.3 Detection of Toxins 72 4.4.4 Detection of Pathogens 75 4.4.5 Detection of Nitroaromatic Explosives 77 4.5 Future Prospects 77 References 78 Chapter 5 Catalytic Nucleic Acid Biosensors for Environmental Monitoring 82 Nandini Nagraj and Yi Lu 5.1 Discovery of Catalytic Nucleic Acids 82 5.2 Detection of Trace Contaminants using Catalytic Nucleic Acids as Sensing Platforms 83 5.3 Isolation of Catalytic Nucleic Acids Using in vitro Selection 84 5.4 ConversionofCatalyticNucleicAcidsintoBiosensors 85 5.4.1 Fluorescence Sensing 86 5.4.2 Colorimetric Sensors 89 Contents ix 5.4.3 Dipstick Tests based on AuNP-DNAzyme Conjugates 91 5.4.4 Electrochemical Sensors 93 5.5 Expanding the Scope of the Sensing Targets of Catalytic Nucleic Acids by Employing Aptazymes 93 5.6 Summary and Future Perspectives 95 Acknowledgments 95 References 95 Chapter 6 Nucleic Acid-based Biosensors for the Detection of DNA Damage 99 Kim R. Rogers and Ronald K. Gary 6.1 Introduction 99 6.2 Optical Transduction Schemes 107 6.3 Whole-Cell Based Biosensors 110 6.4 Field Capability and Stage of Development 116 6.5 Future Trends and Summary 117 Disclaimer 118 References 118 Chapter 7 Detection of Damage to DNA Using Electrochemical and Piezoelectric DNA-Based Biosensors 121 Jan Labuda 7.1 Introduction 121 7.2 Electrochemical Biosensors 123 7.2.1 Construction of Biosensors for DNA Damage Detection 123 7.2.2 TechniquesUsed forDNADamageDetection 124 7.3 Piezoelectric Biosensors 133 7.4 Conclusions 134 References 134 Chapter8 NewTrendsinDNASensorsforEnvironmentalApplications: Nanomaterials, Miniaturization, and Lab-on-a-Chip Technology 141 Alfredo de la Escosura-Muniz, Mariana Medina and Arben Merkoc¸i 8.1 Introduction 141 8.2 Nanomaterial-based Sensors for DNA Detection 142 8.2.1 Optical Sensors 142 8.2.2 Electrochemical Sensors 146 8.3 DNA and Nanomaterial-based Sensing Platforms 148

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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.