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17. List of contributors

Author

Ansari, Mohammad Israil, primary, Arora, Upma, additional, Asija, Sejal, additional, Bhardwaj, Tamanna, additional, Bhardwaj, Renu, additional, Czékus, Zalán, additional, Devi, Kamini, additional, Dhiman, Shalini, additional, Ferrante, Antonio, additional, Francini, Alessandra, additional, Ibrahim, Mohd, additional, Iqbal, Noushina, additional, Jain, Kajal, additional, Jindal, Arpit, additional, Kapoor, Nitika, additional, Kaur, Amandeep, additional, Khan, M. Iqbal R., additional, Khanna, Kanika, additional, Khatoon, Sayeda, additional, Kour, Jaspreet, additional, Kumar, Amit, additional, Madaan, Isha, additional, Mahajan, Moksh, additional, Mariyam, Safoora, additional, Mir, Bilal Ahmad, additional, Mohammad, Firoz, additional, Ohri, Puja, additional, Pal, Priti, additional, Parrey, Zubair Ahmad, additional, Poór, Péter, additional, Sehgal, Simerpreet Kaur, additional, Seth, Tanashvi, additional, Seth, Chandra Shekhar, additional, Shah, Sajad Hussain, additional, Sharma, Indu, additional, Sharma, Neerja, additional, Sidhu, Anmol, additional, Singh, Amrit Pal, additional, Singh, Arun Dev, additional, and Sirhindi, Geetika, additional

Published
2023
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18. Contributors

Author

Anjum, Naser A., primary, Bailly, Christophe, additional, Carillo, Petronia, additional, Casey, Matthew, additional, Ceusters, Johan, additional, Corbineau, Françoise, additional, Dhorajiwala, Rakhee, additional, Dijkwel, Paul P., additional, Ferrante, Antonio, additional, Francini, Alessandra, additional, Fusco, Giovanna Marta, additional, Garcia, Queila Souza, additional, Gautam, Harsha, additional, Husain, Tajammul, additional, Iqbal, Noushina, additional, Jahan, Badar, additional, Jurdak, Rana, additional, Kanojia, Aakansha, additional, Khan, Md. Iqbal R., additional, Khan, Nafees A., additional, Lear, Bianca, additional, Majid, Arif, additional, Masood, Asim, additional, Mir, Iqbal R., additional, Mohorović, Petar, additional, Müller, Maren, additional, Munné-Bosch, Sergi, additional, Natalini, Alessandro, additional, Palma, Daniela, additional, Per, Tasir S., additional, Prasad, Sheo Mohan, additional, Rather, Bilal A., additional, Rogers, Hilary J., additional, Santos, Jessyca Adelle Silva, additional, Sehar, Zebus, additional, Suhel, Mohammad, additional, Umar, Shahid, additional, Van de Poel, Bram, additional, Vaughan-Hirsch, John, additional, Vincent, Celia, additional, and Xu, Xi, additional

Published
2023
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22. Polyamines Interaction with Gaseous Signaling Molecules for Resilience Against Drought and Heat Stress in Plants.

Author

Nidhi, Iqbal, Noushina, and Khan, Nafees A.

Subjects
HEAT adaptation, HYDROGEN sulfide, CARBON monoxide, CARBON dioxide, PLANT regulators
Abstract

Plants face a range of environmental stresses, such as heat and drought, that significantly reduce their growth, development, and yield. Plants have developed complex signaling networks to regulate physiological processes and improve their ability to withstand stress. The key regulators of plant stress responses include polyamines (PAs) and gaseous signaling molecules (GSM), such as hydrogen sulfide (H2S), nitric oxide (NO), methane (CH4), carbon monoxide (CO), carbon dioxide (CO2), and ethylene (ET). The functions of PAs and GSM in stress perception, signal transduction, and stress-responsive pathways have been explored. However, there is a lack of detailed, updated information on the interaction of PAs and GSM in the adaptation of drought and heat stress. This review explores the interaction between PAs and GSM for the adaptation to drought and heat stress. It explores their synergistic effects in mitigating the negative impacts of drought and heat stress on plant growth, development, and productivity. Moreover, a comprehensive analysis of physiological, biochemical, and molecular approaches demonstrates that their interaction activates key stress-responsive pathways, enhances antioxidant systems, and modulates gene expression. These combined effects contribute to improved drought and heat tolerance in plants. The information presented in the review provides valuable insights into plant stress resilience strategies and suggests potential measures for developing climate-resilient crops to address the increasing environmental challenges. [ABSTRACT FROM AUTHOR]

Published
2025
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26. Lignan Enhancement: An Updated Review on the Significance of Lignan and Its Improved Production in Crop Plants.

Author

Singh, Ragini, Iqbal, Noushina, Umar, Shahid, and Ahmad, Sayeed

Subjects
PLANT growth regulation, PLANT metabolites, METABOLITES, LIGNANS, ESTROGEN receptors, PLANT cell culture, PLANT defenses
Abstract

Lignans are a prominent group of phenolic compounds ubiquitously present in the plant kingdom, playing a critical role in both plant physiology and human health. Structurally they are characterized by the dimerization of two phenylpropane units to attain diverse chemical configurations that contribute to their wide range of biological activities. In plants, lignans function primarily as defense molecules, protecting against pathogens, herbivores, and environmental stressors. These compounds also participate in plant growth regulation and lignification processes. From a nutritional and medicinal perspective, lignans are valued for their significant health benefits. They act as phytoestrogens, which can modulate estrogen receptors in humans, thereby offering protective effects against hormone-related diseases such as breast cancer and menopausal symptoms. Additionally, lignans possess potent antioxidant and anti-inflammatory properties, contributing to cardiovascular health and cancer prevention. This review aims to provide a comprehensive overview of the importance of lignans in plants, highlighting their chemical diversity, health-promoting properties and stress adaptation. By synthesizing recent research findings, this review underscores the significance of lignans in enhancing plant resilience under stress and human health. It explores their potential applications in the food and pharmaceutical industries. Besides, it will also focus on the widely used method for enhancing the production of these high-value secondary metabolites in plant cell cultures to meet their requirement in pharmaceutical industries. [ABSTRACT FROM AUTHOR]

Published
2024
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36. List of Contributors

Author

Raina, Aamir, primary, Banerjee, Aditya, additional, Kamal, Aisha, additional, Francini, Alessandra, additional, Trivellini, Alice, additional, Ahmad, Altaf, additional, Singh, Amarjeet, additional, Singh, Ananya, additional, Giro, Andrea, additional, Ferrante, Antonio, additional, Karumanchi, Appa Rao, additional, Frukh, Arajmand, additional, Roychoudhury, Aryadeep, additional, Talakayala, Ashwini, additional, Masood, Asim, additional, Ordog, Attila, additional, Jahan, Badar, additional, Saikia, Banashree, additional, Ahmad, Bilal, additional, Mir, BilalAhmad, additional, Surekha, Challa, additional, Puli, Chandra Obul Reddy, additional, Akila, Chandra Sekhar, additional, Chikkaputtaiah, Channakeshavaiah, additional, Pucciariello, Chiara, additional, Massa, Daniele, additional, Chakrabarty, Debasis, additional, Bhatt, Deepesh, additional, Punita, Devineni Lakshmi, additional, Srivastava, Dipali, additional, Shah, Durdana, additional, Simsek, Eray, additional, Khan, Fareed Ahmad, additional, Ahmad, Farhan, additional, Raghib, Fariha, additional, Naushin, Fauzia, additional, Jawahar, Gandra, additional, Cocetta, Giacomo, additional, Sacchi, Gian Attilio, additional, Verma, Giti, additional, Franzoni, Giulia, additional, Rajasheker, Guddimalli, additional, Boruah, H.P.D., additional, Jaleel, Hassan, additional, Ahmad, Iffat Zareen, additional, Bhatt, Indra Dutt, additional, Baruah, Indrani, additional, Debbarma, Johni, additional, Khanna, Kanika, additional, Sharma, Kapil, additional, Sharma, Kiran K., additional, Guduru, Krishna Kumar, additional, Divya, Kummari, additional, Freschi, Luciano, additional, Khan, M. Iqbal R., additional, Tiwari, Madhu, additional, Garladinne, Mallikarjuna, additional, Nath, Manoj, additional, Sharma, Mayank, additional, Bhatt, Megha D., additional, Fatma, Meher, additional, Ahanger, Mohammad Abass, additional, Ansari, Mohammad lsrail, additional, Naikoo, Mohd Irfan, additional, Dar, Mudasir Irfan, additional, Dikilitas, Murat, additional, Khan, Nafees A., additional, Neelapu, Nageswara Rao Reddy, additional, Jalaja, Naravula, additional, Anjum, Naser A., additional, Sajjad, Nasreena, additional, Velmurugan, Natarajan, additional, Nazir, Nazish, additional, Handa, Neha, additional, Sreenivasulu, Nese, additional, Negrini, Noemi, additional, Iqbal, Noushina, additional, Bakshi, Palak, additional, Reddy, Palakolanu Sudhakar, additional, Kumari, Palavalasa Hima, additional, Santisree, Parankusam, additional, Kaur, Parminder, additional, Ahmad, Parvaiz, additional, Maheshwari, Parveda, additional, Poor, Peter, additional, Kishor, Polavarapu Bilhan Kavi, additional, Rathnagiri, Polavarapu, additional, Mathur, Pooja Bhatnagar-, additional, Sharma, Pooja, additional, Saini, Poonam, additional, Tiwari, Poonam, additional, Singh, Pradyumna Kumar, additional, Arora, Priya, additional, Sharma, Priyanka, additional, Reddy, Ramesha A., additional, Ferrari, Renata Callegari, additional, Bhardwaj, Renu, additional, Marwein, Riwandahun, additional, Bulgari, Roberta, additional, Ali, Rohaya, additional, Afreen, Ruhi, additional, Khan, Samiullah, additional, Melito, Sara, additional, Badoni, Saurabh, additional, Karakas, Sema, additional, Wani, Shabir H., additional, Umar, Shahid, additional, Sareen, Shelja, additional, Nandi, Shyamal Kumar, additional, Morgutti, Silvia, additional, Shah, Snober, additional, Kumar, Somanaboina Anil, additional, Adimulam, Srivani. S, additional, Hassan, Sumaya, additional, Mellacheruvu, Sunitha, additional, Sagar, Sushma, additional, Jalil, Syed Uzma, additional, Siddiqi, Tariq Omar, additional, Chakradhar, Thammineni, additional, Chandrasekhar, Thummala, additional, Dutta, Titash, additional, Gautam, Vandana, additional, Pandey, Veena, additional, Verma, Vinod, additional, Sarki, Yogita N., additional, Czekus, Zalin, additional, Sehar, Zebus, additional, and Li, Zhong-Guang, additional

Published
2019
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37. The Ethylene Biosynthetic Enzymes, 1-Aminocyclopropane-1-Carboxylate (ACC) Synthase (ACS) and ACC Oxidase (ACO): The Less Explored Players in Abiotic Stress Tolerance.

Author

Khan, Sheen, Alvi, Ameena Fatima, Saify, Sadaf, Iqbal, Noushina, and Khan, Nafees A.

Subjects
ABIOTIC stress, ETHYLENE, GERMINATION, PLANT hormones, PLANT physiology, ENZYMES, FRUIT ripening
Abstract

Ethylene is an essential plant hormone, critical in various physiological processes. These processes include seed germination, leaf senescence, fruit ripening, and the plant's response to environmental stressors. Ethylene biosynthesis is tightly regulated by two key enzymes, namely 1-aminocyclopropane-1-carboxylate synthase (ACS) and 1-aminocyclopropane-1-carboxylate oxidase (ACO). Initially, the prevailing hypothesis suggested that ACS is the limiting factor in the ethylene biosynthesis pathway. Nevertheless, accumulating evidence from various studies has demonstrated that ACO, under specific circumstances, acts as the rate-limiting enzyme in ethylene production. Under normal developmental processes, ACS and ACO collaborate to maintain balanced ethylene production, ensuring proper plant growth and physiology. However, under abiotic stress conditions, such as drought, salinity, extreme temperatures, or pathogen attack, the regulation of ethylene biosynthesis becomes critical for plants' survival. This review highlights the structural characteristics and examines the transcriptional, post-transcriptional, and post-translational regulation of ACS and ACO and their role under abiotic stress conditions. Reviews on the role of ethylene signaling in abiotic stress adaptation are available. However, a review delineating the role of ACS and ACO in abiotic stress acclimation is unavailable. Exploring how particular ACS and ACO isoforms contribute to a specific plant's response to various abiotic stresses and understanding how they are regulated can guide the development of focused strategies. These strategies aim to enhance a plant's ability to cope with environmental challenges more effectively. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Salicylic Acid Mitigates Arsenic Stress in Rice (Oryza sativa) via Modulation of Nitrogen–Sulfur Assimilation, Ethylene Biosynthesis, and Defense Systems.

Author

Mahajan, Moksh, Nazir, Faroza, Jahan, Badar, Siddiqui, Manzer H., Iqbal, Noushina, and Khan, M. Iqbal R.

Subjects
SALICYLIC acid, ARSENIC, HEAVY metal toxicology, RICE, ETHYLENE, AGRICULTURE, FOOD crops
Abstract

During climate change, various unparalleled perils to agricultural systems have been observed worldwide. The detrimental impacts of heavy metal toxicity (HMs) lead to a considerable decrease in crop productivity and yield, thereby putting the agricultural system at risk and exerting a significant impact on food production. This has sparked significant worry regarding the achievement of the sustainable development goals (SDGs) pertaining to ensuring food and nutritional security for the constantly growing global population. In the current study, we have endeavored to reveal the significance of salicylic acid (SA) under arsenic (As) stress conditions in rice (Oryza sativa) plants. Being a toxic metalloid, As has adverse effects on the efficiency of photosynthesis and the assimilation of nitrogen (N) and sulphur (S) growth, and also causes alterations in defense systems and ethylene biosynthesis. The study revealed that the positive influence of SA in promoting nutrient metabolism, photosynthesis and growth under As stress was the result of its interplay with ethylene biosynthesis and the enhanced capacity of defense systems to reduce oxidative stress-mediated cellular injuries and cell deaths. In conclusion, SA can be considered a crucial physiological criterion for the development of As-tolerant rice plants. [ABSTRACT FROM AUTHOR]

Published
2023
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