Preface
Page: ii-ii (1)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010002
Background and Basic Concepts of Indicator Displacement Assays
Page: 1-34 (34)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010003
PDF Price: $15
Abstract
Taking a step forward from the indicator spacer receptor (ISR) method
comprising covalent linkages between receptors and indicators via a spacer, the
indicator displacement assay (IDA) offers an innovative and powerful sensing
approach for various target analytes in the realm of host-guest chemistry. In this
chapter, we have assembled the background and conceptual details in order to give
essence to the readers about this innovative sensing approach. The photophysical
phenomenon and diverse non-covalent interactions involved in the sensing mechanism
have been detailed. We have elucidated the need and urgency to replace the ISR
approach with IDA, one having numerous advantages. The evolutionary extension of
IDA for enzymatic conversion known as supramolecular tandem assays has also been
described in this chapter. We believe that the present introductory chapter will give a
better understanding to readers who are new to this field.
Colorimetric Indicator Displacement Assays (CIDAs)
Page: 35-59 (25)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010004
PDF Price: $15
Abstract
Owing to the unique advantages of naked eye color detection in the sensing
of various important analytes, colorimetric indicator displacement assay (C-IDA) has
received its recognition as the principal evolutionary extension of IDA. This chapter,
besides dealing with all conceptual details of C-IDA, also offers basic criteria for the
development and classification of chromogenic sensing ensembles. A plethora of
examples in order to elucidate the C-IDA sensing mechanism for the detection of
anionic, cationic, and neutral analytes via prominent UV-vis spectral changes have
been revealed. Besides, the recognition of several biologically essential analytes viz.
phosphate and saccharides have also been discussed in detail through numerous
examples. The authors believe that this chapter on C-IDA will offer new dimensions to
the design and fabrication of IDA-based colorimetric sensors.
Fluorescence Indicator Displacement Assays (FIDAs)
Page: 60-90 (31)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010005
PDF Price: $15
Abstract
Owing to the ease in their usage and versatility, fluorescent chemosensors
have attracted the remarkable attention of researchers across the globe. In fact, the
dawn of supramolecular chemistry has begun a new journey in the design, construction,
and development of diverse fluorescent chemosensors. Fluorescent indicator
displacement assays (F-IDAs) in principle utilize fluorescent indicators and emission
phenomenon for the construction of various IDA-based Turn-ON/OFF fluorescent
sensors. Particularly, F-IDAs have been found valuable in pattern-based recognition,
where slightly different multiple sensors are constructed from diverse receptors simply
by swapping fluorescent indicators in and out of receptors or even varying the
concentration ratio. These F-IDAs offer huge potential to develop proficient optical
sensors from numerous supramolecular receptors and imply the effective molecular
recognition event via competitive assay of receptors with an indicator and an analyte.
Besides conceptual and mechanistic details, authors have ensured the significance of FIDAs in the recognition of biologically and environmentally essential cationic, anionic,
and neutral analytes through various examples.
Metal Complexing Indicator Displacement Assays (M-IDAs)
Page: 91-118 (28)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010006
PDF Price: $15
Abstract
As a sub-class of colorimetric indicator displacement assays (C-IDAs) as
well as fluorimetric indicator displacement assays (F-IDAs), metal indicator
displacement assays (M-IDAs) involve primarily the coordination of metal ions with a
target receptor and subsequent coordination of colorimetric or fluorimetric indicator
with complexed metal ions and also with the target receptor. The chronological
addition of an interested analyte brings the displacement of the colorimetric or
fluorimetric indicator from the metal ion and the receptor, which in turn illustrates the
binding affair either through colorimetric or fluorescence Turn-ON/OFF response. The
authors have illustrated the role of M-IDAs in the detection of various indispensable
analytes through a vast number of examples and deduced their need in various domains
from future perspectives. The authors are of the opinion that this chapter will bring new
dimensions to metal coordination chemistry in general and sensor development in
particular.
Recent Extensions of IDA-based Sensing Protocols
Page: 119-142 (24)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010007
PDF Price: $15
Abstract
With the advancement of supramolecular chemistry in the realm of sensing,
researchers across the globe have developed various evolutionary extensions of IDAs
from time to time. These comprise enantioselective indicator displacement assays (eIDAs), intramolecular indicator displacement assays (I-IDAs), indicator catalyst
displacement assays (ICDA), reaction-based indicator displacement assays (R-IDAs),
mechanically controlled indicator displacement assays (MC-IDAs), allosteric indicator
displacement assays (A-IDAs), catalytic chemosensing assay (CCA), dimer dye
assembly assay (DDA), and quencher displacement assay (QDA). All these
evolutionary extensions of IDAs have been discussed in detail from concept to
applications along with the possible future outcomes. The authors are of the viewpoint
that this chapter will develop a better understanding of the researchers worldwide in the
context of the advancement of IDAs.
IDA-based Differential Sensory Arrays and Assays
Page: 143-165 (23)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010008
PDF Price: $15
Abstract
For the pattern-based recognition of various metal species and bioanalytes,
nature has stimulated an emergent supramolecular domain of synthetic receptor arrays
and assays. It is not always necessary for a synthetic receptor to be selective for a
particular analyte in a differential receptor array, but the inclusive signal response from
a typical sensory array must be diagnostic for the target analyte. This new category of
molecular recognition is rapidly advancing with various groups constructing novel
array platforms as well as receptors. Owing to easy operation and better selectivity, the
sensory array has gained significant attention in the realm of complex system analysis.
Besides the conceptual background, the authors have elaborated on the applications of
various differential arrays through numerous examples. The authors believe that this
chapter devoted to IDA-based differential sensory arrays and assays will bring a new
episode of IDA-based chemosensors for target analytes.
Electrochemical Sensors Based on Indicator Displacement Assays
Page: 166-192 (27)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010009
PDF Price: $15
Abstract
Owing to the low cost, fast response, easy miniaturization, portable
instrumentation, and multiple analyte detection capabilities, electrochemical sensors
stand out in the realm of sensing and thus occupy a prominent place in analytical
supramolecular chemistry. Over the past several decades, the recognition of
biologically and environmentally vital analytes via electrochemical responses (increase
or decrease in current density), has attracted much attention from supramolecular
chemists. The fabrication of electrochemical sensors through a competitive sensing
phenomenon known as indicator displacement assay (IDA) has made them more
realistic for target analyte detection. In this chapter, besides discussing various types
and techniques of electrochemical sensors, we envisioned discussing diverse IDAbased electrochemical sensors for saccharides, biomarkers, neurotransmitters, and
various other analytes. The authors are of the viewpoint that this chapter will meet the
needs of the researchers working on the design, fabrication, and application of IDAbased electrochemical sensors.
List of Abbreviations
Page: 193-195 (3)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010010
PDF Price: $15
Subject Index
Page: 196-201 (6)
Author: Ishfaq Ahmad Rather* and Rashid Ali*
DOI: 10.2174/9789815165913124010011
Introduction
This book explores a revolutionary sensing technique called Indicator Displacement Assays (IDAs). It is designed to provide readers with a comprehensive understanding of the conceptual foundation and wide-ranging applications of IDAs. The book aims to fulfill a crucial gap in the existing references on the subject. The content starts by explaining fundamental concepts, design strategies, and the scope of IDAs. Subsequent chapters elaborate on the intricate molecular recognition of various analytes, offering insights into sensing mechanisms for cationic, anionic, and neutral molecules. The design and construction of colorimetric, fluorescence, and metal complexing IDAs are also thoroughly explored in later chapters, followed by recent extensions of IDAs, including enantioselective indicator displacement assays, intramolecular indicator displacement assays, reaction-based indicator displacement assays, and more. Innovative applications of IDAs, such as sensory arrays and electrochemical sensors, are also discussed in detail, providing a comprehensive understanding of their conceptual foundations and practical implementations. The book is a primer on IDAs for researchers who want to understand the fundamentals of the technique, as well as postgraduate students aiming to specialize in supramolecular and analytical chemistry.