Preface
Page: ii-ii (1)
Author: Zulqurnain Khan, Azra Yasmin and Naila Safdar
DOI: 10.2174/9789815136838123010002
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Association of Plants and Microbes: Past, Present and Future
Page: 1-26 (26)
Author: Wasim Akhtar*, Iram Fatima, Azra Yasmin*, Naila Safdar and Zulqurnain Khan
DOI: 10.2174/9789815136838123010004
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Abstract
Changing climatic conditions, biotic and abiotic stresses along with use of
synthetic fertilizers have deteriorated soil quality and crop yield. Microorganisms are
natural inhabitants of soil and plant surfaces that form a stable dynamic system with the
host plants. The plant microbiome assists in plant growth by solubilizing minerals,
recycling nutrients and inducing defense responses by mitigating environmental
stresses. These plant-associated microorganisms can be used as functional moieties to
enhance overall plant productivity and reduce negative impacts on the ecosystem. The
plants and microbes are contemplated as natural partners that harmonize various
functional traits, however, the magnitude of friendly or hostile consortium depends on
the kind of microorganisms involved. Before the scientific advent of advanced
technologies, conventional approaches such as culturing on media, microscopic
observations and biochemical tests provided awareness of how these two communicate.
Later on, contemporary molecular-based tools like polymerase chain reaction (PCR),
microarrays, enzyme-linked assays (ELISA), and nucleic acid-based methods (nextgeneration
sequencing, etc.) surfaced. This chapter will comprehend different types of
aboveground and subsurface microbes associated with the plants, their impact on
sustainable agriculture and high-throughput technologies used to investigate the plantmicrobe
relationship.
Microbiomes in Phytotherapeutics: Pros and Cons
Page: 27-48 (22)
Author: Hijab Fatima* and Azra Yasmin
DOI: 10.2174/9789815136838123010005
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Abstract
This chapter highlights the significance of microbiomes especially plant
microbiomes in the field of therapeutics. The Plant microbiome comprises epiphytes
and endophytes inhabiting the surface as well as inside of the tissues of the host. These
microbial communities occupy a well-defined habitat and perform various activities
developing certain interactions with the host such as commensalism, mutualism, and
parasitism. For the establishment and functioning of the plant microbiome, plant root
releases exudate according to the nutritional requirement of particular microbial
species. In response to the stimulus, microbes chemotactically move towards the roots,
colonize and move to other parts of the plant. Microbes also adopt certain mechanisms
not only to colonize and multiply in specific hosts but also to promote the growth of the
host by secreting various plant growth hormones and exopolysaccharides. The
numerous compounds produced by microbes make plants tolerant of biotic and abiotic
stresses. The microbial communities in plant microbiome have an active role in
maintaining the health, ecology and physiology of the host. As a major portion of the
world’s population is dependent on phytotherapeutic medicines according to the World
Health Organization, the pharmacological characteristics of major medicinal plants
such as Aesculus hippocastanum and Ginkgo biloba are described in detail. This
chapter highlights the significance of the core role of the microbiome associated with
plants in the synthesis of various medicinal compounds. The phytotherapeutic potential
of plant microbiome revealed that endophytes and epiphytes isolated from various plant
species showed great potential for the production of antimicrobial as well as antiinflammatory
substances. The medicinally rich compounds such as antibacterial
proteins, phenols, saponin glycosides, flavonoids, terpenoids, carbohydrates and fatty
acids isolated from plant-associated microbes have various applications in the
treatment of fetal diseases and also exhibit anti-inflammatory action. Certain public
concerns are raised about the side effects of medicinal plants used in phytotherapeutics.
A relevant case study about public concerns along with preventative measures such as
rigorous testing is provided in this chapter.
Soil Bacteria-Medicinal Plants Interaction
Page: 49-67 (19)
Author: Raza Ullah*, Muhammad Rahil Afzal, Hafiz Kamran Yousaf, Mustansar Aslam and Ayesha Hassan
DOI: 10.2174/9789815136838123010006
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Abstract
Regulation of biogeochemical cycles depends on soil micro biota in which
numerous and distinct types of bacteria are involved. These bacteria share a common
environment in the soil and interact with the plants at three different levels i.e.
endosphere, phyllosphere, and rhizosphere, resulting in improved soil fertility and plant
health. The study of medicinal plants is ignored in Pakistan, though there exists a large
number of different avenues for research in this field. Studying the medicinal plantbacteria
relationships in the era of new-generation sequencing paves new ways for
understanding their association and facilitates improvement in sustainable production.
Answers to new queries like “How bacteria respond to climatic changes” and “How do
they interact with one another and with medicinal plants for growth and development”
along with the exploration of rhizospheric bacteria in the future for enhancement in the
production of secondary metabolites in medicinal plants might be a new vista unlocked
for the sustainable agricultural practices. In this chapter, we focused on the role of soil
bacteria-medicinal plants interaction in growth, nutrient acquisition, environmental
stress alleviation, and quantity and quality of medicinal compounds present in these
plants.
Soil Fungi-Medicinal Plants Interaction
Page: 68-81 (14)
Author: Samiya Rehman*, Sadia Arshad, Saman Zulfiqar, Zaib un Nisa, Muhammad Saleem, Fouzia Tanvir and Tahira Tabassum
DOI: 10.2174/9789815136838123010007
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Abstract
Medicinal plants are a natural source of therapeutic compounds and
secondary metabolites; therefore, their demand is increasing day by day. Since the last
thirty decades, their cultivation as well as preservation with the help of biofertilizers or
pesticides is a point of great concern. The rhizosphere is an important area around the
roots. It is a habitat for many kinds of microorganisms like fungi. This soil microbial
performs a variety of beneficial functions for the growth of plants such as nitrogen
fixation, solubilization and removal of toxins. Endophytes are also an important class
of microbial flora that helps in the absorption of water and nutrients for the plant.
Additionally, they also make plants able to cope with environmental stresses. Fungal
endophytes supervise photosynthesis. Certain therapeutically important plants
including licorice and white ginger lily can also perform antimicrobial activity
depending upon the endophytic composition they have. These types of plants having
antimicrobial activity are of great significance as they act as eco-friendly biopesticides.
Endophytic Bacteria: Value Addition in Medicinal Plants
Page: 82-91 (10)
Author: Ahmad Mahmood*, Hafiz Shahzad Ahmad, Waleed Asghar, Tanveer ul Haq, Ali Hamid, Zulqurnain Khan, Oğuz Can Turgay and Ryota Kataoka
DOI: 10.2174/9789815136838123010008
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Abstract
Plants and microorganisms have long evolved together and our most recent
discoveries using advanced techniques have allowed us to understand the chemical
interface within the plant further explaining the relationship between them. As we
discover the interaction between the plants and the associated microorganisms, it has
been clearer to us that there has been a synergy more evident than that of antagonism
among them. A lot of chemicals or metabolites are being released favouring both the
host as well as the microbes during this contact. Such an interaction which leads to the
release of certain metabolites can be managed and manipulated in bringing about
positive effects for the biosphere and environment. One instance of this positive effect
can be the use of medicinal plants and their microbe-facilitated associated metabolites
which may be regulated through the application of different endophytic
microorganisms. If we can control the release of different metabolites from plants
particularly from those of medicinal plants, we can harvest significant benefits for
human and animal health as we are utilizing endophytes for their role as biofertilizers.
The food for medicine concept has been emerging and requires quick and efficient
identification of metabolites as well as chemicals that may be used in addressing
multiple diseases in human beings and other animals.
Probiotic Bacteria and Plants
Page: 92-110 (19)
Author: Muhammad Shahbaz*, Jawad Ali, Hammad Naeem, Shamas Murtaza, Nighat Raza and Umar Farooq
DOI: 10.2174/9789815136838123010009
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Abstract
Probiotics are microorganisms, when consumed, give health benefits due to
improvement in the activity of gut microflora. Various health claims are associated
with probiotics e.g. modulation of the immune system, mitigation of lactose
intolerance, protection from infections and maintenance of healthy gut microflora.
They have also been demonstrated to be helpful in treating a wide range of illnesses,
including cancer, inflammatory bowel syndrome, diarrhea brought on by antibiotics,
and infantile diarrhea. Streptococcus, Bacillus, Enterococcus, Escherichia coli,
Bifidobacterium, Lactobacillus, and several strains of the fungus Saccharomyces are
significant probiotic bacterial genera. In fibrous parts of plants and probiotic bacteria,
the bacteriocins play a major synergistic antimicrobial role. Prebiotics are nondigestible
plant materials i.e., complex carbohydrates, fermented in the colon, thus
yield short chain fatty acids and energy, and enhance the growth of probiotics. Inulin
and fructans are important plant prebiotics. The indirect health benefits of prebiotics
are immunomodulatory characteristics, mineral absorption, cancer prevention, and
modulation of the metabolism of gut flora, and the prevention of constipation and
diarrhea. Many fruits, tuber crops, root crops as well as vegetables contain a huge
reservoir of prebiotic carbohydrates. The function of probiotic microbes in foods
includes modulation of the immune system, normalization of gastrointestinal activity,
and the inhibition of the growth of pathogenic microbes and harmful metabolites. The
function of prebiotic food material is to promote the growth of healthy bacteria in the
intestinal tract. This chapter highlights the potential need of probiotics and prebiotics in
our diet, and it also discusses their health benefits, mode of action, sources, food
applications, distinct types, and future perspectives.
Medicinal Plants and Molecular Techniques
Page: 111-127 (17)
Author: Fatima Javeria, Saira KarimI, Shoaib ur Rehman, Furqan Ahmad, Akash Fatima, Muhammad Ashfaq, Babar Farid and Zulqurnain Khan*
DOI: 10.2174/9789815136838123010010
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Abstract
Medicinal plants provide a substantial source of bioactive compounds which
serve greatly in the pharmaceutical industry. Before revolutionary advancements in
medicines, traditional biotechnology approaches have been used in the breeding of
significant therapeutic plants. The challenge is to incorporate effective, efficient, and
resilient breeding techniques to enhance the production of phytochemicals by
medicinal plants. Genetics and biotechnology can aid in the rapid advancement of
therapeutic plants by assessing genetic diversity, conservation, proliferation, and
overproduction. Hence, the use of advanced technologies is crucial for selecting,
multiplying, and preserving medicinal plants.
Genetic Transformation in Medicinal Plants
Page: 128-139 (12)
Author: Ummara Waheed*, Sadia Shabir, Zahid Ishaq, Maria Khan, Saeed Rauf, Nadia Iqbal, Maria Siddique and Irum Shahzadi
DOI: 10.2174/9789815136838123010011
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Abstract
Genome Editing and its Applications in Plants
Page: 140-158 (19)
Author: Saba Yaseen, Azara Yasmeen, Naila Safdar and Zulqurnain Khan*
DOI: 10.2174/9789815136838123010012
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Abstract
Genome Editing in Medicinal Plants for Abiotic Stress Tolerance
Page: 159-173 (15)
Author: Zarmeen Zafar, Furqan Ahmad, Shoaib ur Rehman, Saira Karimi, Umar Akram, Zareena Ali and Zulqurnain Khan*
DOI: 10.2174/9789815136838123010013
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Abstract
Genome Editing for Biotic Stress Resistance in Medicinal Plants
Page: 174-187 (14)
Author: Muhammad Insaf, Muhammad Abu Bakar Saddique, Muhammad Ali Sher, Mahmood Alam Khan, Muhammad Usman, Saira Karimi, Rana Binyamin and Zulqurnain Khan*
DOI: 10.2174/9789815136838123010014
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Abstract
Medicinal Plants: Traditional Trends to Modern Therapeutics
Page: 188-205 (18)
Author: Naila Safdar*, Azra Yasmin and Zulqurnain Khan
DOI: 10.2174/9789815136838123010015
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Abstract
Nanotechnology in Medicinal Plants
Page: 206-229 (24)
Author: Shaghufta Perveen* and Naila Safdar
DOI: 10.2174/9789815136838123010016
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Abstract
Metallic Nanoparticles Synthesized Through Medicinal Plants: Therapeutic Improvement
Page: 230-255 (26)
Author: Bushra Hafeez Kiani*
DOI: 10.2174/9789815136838123010017
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Abstract
Carbon Nanostructures and Medicinal Plants
Page: 256-278 (23)
Author: Kalakotla Shanker*, Sushil Y. Raut, Tamatam Sunilkumar Reddy, Divya Pa, S.P. Dhanabal and Kristina Apryatina
DOI: 10.2174/9789815136838123010018
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Abstract
Nano Elicitors and Bioactive Plant Metabolites
Page: 279-310 (32)
Author: Yamin Bibi*, Sobia Nisa, Kulsoom Zahara and Abdul Qayyum
DOI: 10.2174/9789815136838123010019
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Abstract
Nanocarriers: Promising Vehicles for Controlled Bioactive Drug Delivery in Current Medical System
Page: 311-335 (25)
Author: Ajam C. Shaikh*, Ashfaq A. Shah and Amit Gupta
DOI: 10.2174/9789815136838123010020
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Abstract
Phyto-nanoformulations for the Treatment of Clinical Diseases
Page: 336-349 (14)
Author: Vaishali Ji*, Chandra Kishore and Krishna Prakash
DOI: 10.2174/9789815136838123010021
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Abstract
Subject Index
Page: 350-355 (6)
Author: Zulqurnain Khan, Azra Yasmin and Naila Safdar
DOI: 10.2174/9789815136838123010022
PDF Price: $15
Introduction
Medicinal Plants: Microbial Interactions, Molecular Techniques, and Therapeutic Trends is a comprehensive exploration of the fascinating world of medicinal plants, their therapeutic advancements, and the application of molecular techniques to unlock their full potential. This book is structured into three illuminating sections, each shedding light on different facets of this rapidly developing field. Section 1: Exploring Plant-Microbe Interactions Covers the relationship between microbes and plants, the historical context and the pivotal role of microbes in shaping the future of medicinal plants. Discover the diverse array of bacteria associated with these plants and grasp their significance in enhancing the medicinal value of plants. Section 2: Harnessing Molecular Techniques Covers cutting-edge molecular techniques such as genome editing and modern breeding methods to optimize the genetic traits of medicinal plants. By understanding these techniques, readers will learn how to enhance plant growth, yield and quality. Section 3: Nanotechnology for Therapeutic Enhancement Covers nanotechnology and its transformative impact on medicinal plants. The section highlights emerging nano-engineering technology that can revolutionize the therapeutic properties of these plants. Medicinal Plants: Microbial Interactions, Molecular Techniques, and Therapeutic Trends is a book for Interdisciplinary readers: students, scientists, academics, and industry professionals alike. Whether you're a student, scientist, academic, or industry professional, this book is your gateway to the evolving world of plant-based medicine.