Your search keyword '"Siddiqui MW"' showing total 29 results

1. Genotypic variation affecting the main processing features of tomato cultivars

Author

Pék Z, Ilahy R, Tlili I, Égei M, Helyes L, Siddiqui MW, Lenucci MS, Hdider C, Pék, Z, Ilahy, R, Tlili, I, Égei, M, Helyes, L, Siddiqui, Mw, Lenucci, M, and Hdider, C

Published

2020

2. Agronomic and quality traits of different snake melon (Cucumis melo var. flexuosus) breeding lines and hybrids grown in Tunisia

Author

Ilahy R, Tlili I, Siddiqui MW, Montefusco A, Hdider C, Lenucci MS, Ilahy, R, Tlili, I, Siddiqui, Mw, Montefusco, A, Hdider, C, and Lenucci, Ms

Published

2018

3. Ordinary and coloured potatoes: functional quality and therapeutic value

Author

Ilahy R, Tlili I, R’him T, Nouri K, Siddiqui MW, Mani A, Hdider C, Lenucci MS, Ilahy, R, Tlili, I, R’Him, T, Nouri, K, Siddiqui, Mw, Mani, A, Hdider, C, and Lenucci, Ms

Published

2018

4. A first insight on snake melon (Cucumis melo var. Flexuosus): an underestimated source of functional compounds

Author

Ilahy R, Tlili I, R’him T, Rouhou HC, Siddiqui MW, Mani A, Hdider C, Lenucci MS, Ilahy, R, Tlili, I, R’Him, T, Rouhou, Hc, Siddiqui, Mw, Mani, A, Hdider, C, and Lenucci, Ms

Published

2018

5. Melon fruit: Functional component and allied health claims

Author

Tlili I, Imen H, Ilahy R, R’him T, Siddiqui MW, Lenucci MS, Hdider C, Tlili, I, Imen, H, Ilahy, R, R’Him, T, Siddiqui, Mw, Lenucci, M, and Hdider, C

Published

2018

6. Bioactive compounds and antioxidant activity of different powdery mildew resistant fakous (Cucumis melo subsp. flexuosus) lines selected in Tunisia

Author

Ilahy R, Tlili I, Lenucci MS, Montefusco A, Siddiqui MW, Hdider C, Ilahy, R, Tlili, I, Lenucci, M, Montefusco, A, Siddiqui, Mw, and Hdider, C

Published

2018

7. CaC 2 -induced ripening: Unveiling the bitter truth behind sweet fruit.

Author

Deshi VV, Siddiqui MW, Homa F, Lata D, and Singh DR

Subjects

Humans, Taste, Flavoring Agents metabolism, Flavoring Agents chemistry, Acetylene analogs & derivatives, Fruit chemistry, Fruit metabolism, Fruit growth & development, Calcium Compounds metabolism, Calcium Compounds chemistry, Food Safety

Abstract

Fruit ripening is a natural, irreversible process crucial for developing luscious flavor and appealing appearance. Fruits are lauded for their health benefits, forming a key part of a balanced diet. Regrettably, the continued use of calcium carbide (CaC 2 ) to ripen fruit persists in various regions due to its low cost and perceived effectiveness. This method raises significant concerns about health, safety, and the resultant fruit quality and flavor. CaC 2 and CaC 2 -ripened fruits contain harmful substances like inorganic arsenic and phosphorus hydrides, posing considerable health risks including chronic toxicity upon consumption or exposure to acetylene released during CaC 2 application. Ensuring food safety requires adherence to regulatory standards governing harmful substances in food. Thus, understanding the risks of consuming CaC 2 -ripened fruit is crucial for crafting strategies to protect consumers' nutritional well-being and food safety. This review presents a comprehensive analysis of the impacts and apprehensions regarding use of CaC 2 as a ripening agent in fresh fruit., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

8. Insights into the physiology, biochemistry and ecological significance of the red seaweed Tricleocarpa fragilis in the Andaman Sea.

Author

Banu VS, Mohan U, Kumari R, Kumar P, Singh AK, Siddiqui MH, Alamri S, Siddiqui MW, and Singh DR

Subjects

Seawater chemistry, Ecosystem, Biomass, Fatty Acids metabolism, Symbiosis physiology, Animals, Rhodophyta physiology, Rhodophyta metabolism, Seaweed physiology, Seaweed metabolism

Abstract

The present study focused on the physiological and biochemical aspects of Tricleocarpa fragilis, red seaweed belonging to the phylum Rhodophyta, along the South Andaman coast, with particular attention given to its symbiotic relationships with associated flora and fauna. The physicochemical parameters of the seawater at the sampling station, such as its temperature, pH, and salinity, were meticulously analyzed to determine the optimal harvesting period for T. fragilis. Seaweeds attach to rocks, dead corals, and shells in shallow areas exposed to moderate wave action because of its habitat preferences. Temporal variations in biomass production were estimated, revealing the highest peak in March, which was correlated with optimal seawater conditions, including a temperature of 34 ± 1.1 °C, a pH of 8 ± 0.1, and a salinity of 32 ± 0.8 psu. GC‒MS analysis revealed n-hexadecanoic acid as the dominant compound among the 36 peaks, with major bioactive compounds identified as fatty acids, diterpenes, phenolic compounds, and hydrocarbons. This research not only enhances our understanding of ecological dynamics but also provides valuable insights into the intricate biochemical processes of T. fragilis. The established antimicrobial potential and characterization of bioactive compounds from T. fragilis lay a foundation for possible applications in the pharmaceutical industry and other industries., (© 2024. The Author(s).)

Published

2024

9. Micro and nanoplastics pollution: Sources, distribution, uptake in plants, toxicological effects, and innovative remediation strategies for environmental sustainability.

Author

Kumar D, Biswas JK, Mulla SI, Singh R, Shukla R, Ahanger MA, Shekhawat GS, Verma KK, Siddiqui MW, and Seth CS

Subjects

Soil Pollutants toxicity, Soil Pollutants metabolism, Biodegradation, Environmental, Nanoparticles toxicity, Environmental Restoration and Remediation methods, Plastics metabolism, Plastics toxicity, Environmental Pollution, Microplastics toxicity, Plants metabolism, Plants drug effects

Abstract

Microplastics and nanoplastics (MNPs), are minute particles resulting from plastic fragmentation, have raised concerns due to their widespread presence in the environment. This study investigates sources and distribution of MNPs and their impact on plants, elucidating the intricate mechanisms of toxicity. Through a comprehensive analysis, it reveals that these tiny plastic particles infiltrate plant tissues, disrupting vital physiological processes. Micro and nanoplastics impair root development, hinder water and nutrient uptake, photosynthesis, and induce oxidative stress and cyto-genotoxicity leading to stunted growth and diminished crop yields. Moreover, they interfere with plant-microbe interactions essential for nutrient cycling and soil health. The research also explores the translocation of these particles within plants, raising concerns about their potential entry into the food chain and subsequent human health risks. The study underscores the urgency of understanding MNPs toxicity on plants, emphasizing the need for innovative remediation strategies such as bioremediation by algae, fungi, bacteria, and plants and eco-friendly plastic alternatives. Addressing this issue is pivotal not only for environmental conservation but also for ensuring sustainable agriculture and global food security in the face of escalating plastic pollution., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Masson SAS. All rights reserved.)

Published

2024

10. Exogenous melatonin delays oxidative browning in litchi during cold storage by regulating biochemical attributes and gene expression.

Author

Marak KA, Mir H, Siddiqui MW, Singh P, Homa F, and Alamri S

Abstract

Oxidative damage leading to loss of nutritional quality and pericarp discoloration of harvested litchi fruits drastically limits consumer acceptance and marketability. In the present investigation, the impact of postharvest melatonin application at different concentrations, i.e., 0.1 mM, 0.25 mM, and 0.5 mM, on fruit quality and shelf life of litchi fruits under cold storage conditions was studied. The results revealed the positive effect of melatonin application at all concentrations on fruit quality and shelf life. However, treatment with 0.5 mM concentration of melatonin resulted in minimum weight loss, decay loss, pericarp discoloration, and also retained higher levels of TSS, acidity, total sugar, ascorbic acid, anthocyanin, antioxidant, and phenolics content during cold storage. Melatonin administration also restricted the enzymatic activity of the polyphenol oxidase (PPO) and peroxidase (POD) enzymes in the fruit pericarp and maintained freshness of the fruits up to 30 days in cold storage. At the molecular level, a similar reduction in the expression of browning-associated genes, LcPPO, LcPOD , and Laccase, was detected in preserved litchi fruits treated with melatonin. Anthocyanin biosynthetic genes, LcUFGT and LcDFR , on the other hand showed enhanced expression in melatonin treated fruits compared to untreated fruits. Melatonin, owing to its antioxidant properties, when applied to harvested litchi fruits retained taste, nutritional quality and red color pericarp up till 30 days in cold storage., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Marak, Mir, Siddiqui, Singh, Homa and Alamri.)

Published

2024

11. γ-Aminobutyric acid is involved in overlapping pathways against chilling injury by modulating glutamate decarboxylase and defense responses in papaya fruit.

Author

Khaliq G, Ali S, Ejaz S, Abdi G, Faqir Y, Ma J, Siddiqui MW, and Ali A

Abstract

The effect of γ-aminobutyric acid (GABA) treatment at two concentrations (1 mM or 5 mM) on papaya fruit stored at 4°C and 80%-90% relative humidity for 5 weeks was investigated. The application of GABA at 5 mM apparently inhibited chilling injury, internal browning, electrolyte leakage, malondialdehyde (MDA), hydrogen peroxide (H 2 O 2 ), polyphenol oxidase (PPO), phospholipase D (PLD), and lipoxygenase (LOX) activities of papaya fruit. Fruit treated with 5 mM GABA enhanced the activities of ascorbate peroxidase (APX), catalase (CAT), glutathione reductase (GR), superoxide dismutase (SOD), glutamate decarboxylase (GAD), and phenylalanine ammonia-lyase (PAL). In addition, GABA treatment significantly displayed higher levels of proline, endogenous GABA accumulation, phenolic contents, and total antioxidant activity than the nontreated papaya. The results suggested that GABA treatment may be a useful approach to improving the chilling tolerance of papaya fruit by reducing oxidative stress and enhancing the defense system., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Khaliq, Ali, Ejaz, Abdi, Faqir, Ma, Siddiqui and Ali.)

Published

2023

12. Editorial: From classical breeding to modern biotechnological advancement in horticultural crops - trait improvement and stress resilience.

Author

Kumar P, Irfan M, Siddiqui MW, T R, and Liao W

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision

Published

2023

13. The influence of non-thermal technologies on color pigments of food materials: An updated review.

Author

Pandiselvam R, Mitharwal S, Rani P, Shanker MA, Kumar A, Aslam R, Barut YT, Kothakota A, Rustagi S, Bhati D, Siddiqui SA, Siddiqui MW, Ramniwas S, Aliyeva A, and Mousavi Khaneghah A

Abstract

The color of any food is influenced by several factors, such as food attributes (presence of pigments, maturity, and variety), processing methods, packaging, and storage conditions. Thus, measuring the color profile of food can be used to control the quality of food and examine the changes in chemical composition. With the advent of non-thermal processing techniques and their growing significance in the industry, there is a demand to understand the effects of these technologies on various quality attributes, including color. This paper reviews the effects of novel, non-thermal processing technologies on the color attributes of processed food and the implications on consumer acceptability. The recent developments in this context and a discussion on color systems and various color measurement techniques are also included. The novel non-thermal techniques, including high-pressure processing, pulsed electric field, ultrasonication, and irradiation which employ low processing temperatures for a short period, have been found effective. Since food products are processed at ambient temperature by subjecting them to non-thermal treatment for a very short time, there is no possibility of damage to heat-sensitive nutrient components in the food, any deterioration in the texture of the food, and any toxic compounds in the food due to heat. These techniques not only yield higher nutritional quality but are also observed to maintain better color attributes. However, suppose foods are exposed to prolonged exposure or processed at a higher intensity. In that case, these non-thermal technologies can cause undesirable changes in food, such as oxidation of lipids and loss of color and flavor. Developing equipment for batch food processing using non-thermal technology, understanding the appropriate mechanisms, developing processing standards using non-thermal processes, and clarifying consumer myths and misconceptions about these technologies will help promote non-thermal technologies in the food industry., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published

2023

14. Biotechnological interventions in reducing losses of tropical fruits and vegetables.

Author

Irfan M, Kumar P, Ahmad MF, and Siddiqui MW

Subjects

Anthocyanins analysis, Carbohydrates, Vitamin A analysis, Vegetables chemistry, Fruit chemistry

Abstract

Tropical fruits and vegetables are predominantly cultivated in warm climate zones, resulting in cultivar diversity in terms of structure, features, and physiology. These constitute a variety of bioactive ingredients such as vitamins, minerals, phenolic acids, anthocyanins, flavonoids, fatty acids, fiber, and their distinctive appearances attract customers across the world. The global production of fruit and vegetables has been attained a tremendous increase for the last few decades. However, huge losses at pre- and postharvest levels are major constraints in their judicious use. Traditional breeding strategies were used to minimize these losses, but their functionality is limited due to their time and labor intensiveness. Recent biotechnological, computational, and multiomics approaches not only address the losses concern but also aid in boosting crop productivity and nutritional values. This article emphasizes molecular tools that have been used to reduce losses of tropical fruits and vegetables at pre- and postharvest levels., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

15. Recent developments for controlling microbial contamination of nuts.

Author

Mir SA, Shah MA, Mir MM, Sidiq T, Sunooj KV, Siddiqui MW, Marszałek K, and Mousavi Khaneghah A

Subjects

Food Microbiology, Salmonella, Fungi, Food Contamination prevention & control, Food Contamination analysis, Nuts chemistry, Mycotoxins analysis

Abstract

In recent years, the consumption of nuts has shown an increasing trend worldwide. Nuts are an essential part of several countries' economies as an excellent source of nutrients and bioactive compounds. They are contaminated by environmental factors, improper harvesting practices, inadequate packaging procedures, improper storage, and transportation. The longer storage time also leads to the greater chances of contamination from pathogenic fungi. Nuts are infected with Aspergillus species, Penicillium species, Escherichia coli, Salmonella, and Listeria monocytogenes. Therefore, nuts are associated with a high risk of pathogens and mycotoxins, which demand the urgency of using techniques for enhancing microbial safety and shelf-life stability. Many techniques such as ozone, cold plasma, irradiation, radiofrequency have been explored for the decontamination of nuts. These techniques have different efficiencies for reducing the contamination depending on processing parameters, type of pathogen, and conditions of food material. This review provides insight into decontamination technologies for reducing microbial contamination from nuts.

Published

2023

16. Exogenous methyl jasmonate modulates antioxidant activities and delays pericarp browning in litchi.

Author

Deshi V, Homa F, Ghatak A, Aftab MA, Mir H, Ozturk B, and Siddiqui MW

Abstract

Pericarp browning (PB) is a serious problem in harvested litchi and drastically affects consumer acceptability and marketability. Postharvest PB and subsequent decay in fruit are linked to reactive oxygen species (ROS) accumulation in tissues. Antioxidants neutralize or scavenge ROS and maintain the shelf-life of fruit, especially in non-climacteric ones such as litchi. This work was aimed to assess the effect of vacuum infiltrated methyl jasmonate (MeJA; 1 and 2 mM) on the quality of harvested litchi fruit (cv. Purbi) during ambient storage (28 °C, RH 70-75%). The exogenous MeJA infiltration (2 mM) significantly retained quality attributes of litchi fruit as evident by lowered PB, weight loss, disease occurrence, quinone, and ROS (H 2 O 2 and O 2 - ) accumulation. Moreover, MeJA infiltrated fruit suppressed the activity of polyphenol oxidase and peroxidase resulting in higher anthocyanin, phenolics, antioxidant potential, phenylalanine ammonia lyase activity as well as membrane integrity throughout the storage. Control fruit showed an early quality deterioration marked by prominent PB and other biochemical degradative changes. Thus, exogenous MeJA infiltration (2 mM) could be suggested to increase the shelf life of litchi by four days under ambient conditions., (© Prof. H.S. Srivastava Foundation for Science and Society 2022, Springer Nature or its licensor holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2022

17. Effect of postharvest hydrogen sulphide on lignification and biochemical markers of pointed gourd.

Author

Lata D, Homa F, Nayyer MA, Kumar A, Aftab MA, and Siddiqui MW

Subjects

Antioxidants, Biomarkers analysis, Fruit chemistry, Food Storage methods, Hydrogen Sulfide analysis, Hydrogen Sulfide pharmacology

Abstract

Hydrogen sulphide (H 2 S) has emerged as a gasotransmitter molecule that modulates several physiological functions in plants, specially, different biotic and abiotic stresses. Pointed gourd (PG) fruits start losing their soft texture and appealing colour within 2-3 days of harvest, resulting in poor marketability and shelf life. Here, the effect of exogenous H 2 S (1 and 2 mm) application on lignification and other biochemical markers linked to ripening, shelf-life and edible quality of PG was assessed during cold (12 °C, 85-90% RH) and ambient (27 ± 2 °C, 55 ± 5% RH) storage. The synergistic effect of H 2 S was recorded during simulated storage at ambient conditions. Postharvest H 2 S treatment (1 mm) effectively delayed yellowing and chlorophyll loss (four-fold reduction) and maintained the phenolic content and higher antioxidant activity (36%). The H 2 S-treated PG fruits had significantly lower lignification and membrane permeability i.e. 15% and 13%, respectively, than control samples. H 2 S-treated fruit also maintained higher PAL and lower PPO activity. Therefore, postharvest application of H 2 S (2 mm) could be effective in maintaining postharvest quality of PG fruits and extending the marketing period., (© 2022 German Society for Plant Sciences and The Royal Botanical Society of the Netherlands.)

Published

2022

18. Hydrogen sulphide infiltration downregulates oxidative metabolism and extends postharvest life of banana.

Author

Siddiqui MW, Homa F, Lata D, Mir H, Aftab T, and Mishra P

Subjects

Antioxidants metabolism, Fruit metabolism, Oxidative Stress, Reactive Oxygen Species metabolism, Hydrogen Sulfide metabolism, Hydrogen Sulfide pharmacology, Musa metabolism

Abstract

Hydrogen sulphide (H 2 S) has emerged as a potential regulator of plant defence against different abiotic stresses. As a climacteric fruit, banana undergoes oxidative stresses shortly after harvest, resulting in faster ripening and senescence. This work examines the effects of vacuum infiltrated H 2 S on ripening inhibition of banana. Banana fruits were vacuum infiltrated with 1 mm H 2 S. Effects on oxidative stress markers, physiological changes, bioactive compounds and antioxidant potentials were examined during storage at 25 °C and 75-80% RH. Results indicate that treated fruits were less affected by oxidative stress, as evident by lower accumulation of ROS (superoxide and peroxide ions), elevated phenols content and antioxidant capacity. The ripening inhibitory effects of H 2 S delayed chlorophyll loss and reduced ethylene and CO 2 production. H 2 S infiltration also reduced MDA accumulation and electrolytic leakage, resulting in longer shelf life. Vacuum infiltration with H 2 S had a protective effect on postharvest banana through overcoming the deleterious effect of ROS and strengthening antioxidant potential. Thus, this method could be promising for enhanced preservation of banana during storage., (© 2021 German Society for Plant Sciences and The Royal Botanical Society of the Netherlands.)

Published

2022

19. Effect of Individual and Selected Combined Treatments With Saline Solutions and Spent Engine Oil on the Processing Attributes and Functional Quality of Tomato ( Solanum lycopersicon L.) Fruit: In Memory of Professor Leila Ben Jaballah Radhouane (1958-2021).

Author

Ilahy R, Tlili I, Pék Z, Montefusco A, Daood H, Azam M, Siddiqui MW, R'him T, Durante M, Lenucci MS, and Helyes L

Abstract

The results showed that soil electrical conductivity, (EC2: 7 dS/m) increased soluble solids, lycopene content, total phenolic content, hydrophilic and lipophilic radical scavenging activities (HRSA and LRSA) by 14.2, 149, 20, 46.4, and 19.0%, respectively, compared with control. Under 0.5% spent engine oil (SEO), flavonoid content decreased by 21.7% compared with the control. HRSA and LRSA of fruits subjected to EC2/SEO1 treatment were, respectively, 45.9 and 35.5% lower than control. The a * /b * ratio was positively and significantly ( P < 0.01) correlated with β-carotene (R = 0.78), lycopene (R = 0.68), total vitamin C (R = 0.71), α-tocopherol (R = 0.83), γ-tocopherol (R = 0.66), HRSA (R = 0.93), LRSA (R = 0.80), and soluble solids (R = 0.84) suggesting that it may be a promising indicator of fruit quality in areas affected by such constraints. The research revealed that combined stresses induce responses markedly different from those of individual treatments, which strain the need to focus on how the interaction between stresses may affect the functional quality of tomato fruits., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ilahy, Tlili, Pék, Montefusco, Daood, Azam, Siddiqui, R'him, Durante, Lenucci and Helyes.)

Published

2022

20. Pre- and Post-harvest Factors Affecting Glucosinolate Content in Broccoli.

Author

Ilahy R, Tlili I, Pék Z, Montefusco A, Siddiqui MW, Homa F, Hdider C, R'Him T, Lajos H, and Lenucci MS

Abstract

Owing to several presumed health-promoting biological activities, increased attention is being given to natural plant chemicals, especially those frequently entering the human diet. Glucosinolates (GLs) are the main bioactive compounds found in broccoli ( Brassica oleracea L. var. italica Plenck). Their regular dietary assumption has been correlated with reduced risk of various types of neoplasms (lung, colon, pancreatic, breast, bladder, and prostate cancers), some degenerative diseases, such as Alzheimer's, and decreased incidence of cardiovascular pathologies. GL's synthesis pathway and regulation mechanism have been elucidated mainly in Arabidopsis . However, nearly 56 putative genes have been identified as involved in the B . oleracea GL pathway. It is widely recognized that there are several pre-harvest (genotype, growing environment, cultural practices, ripening stage, etc.) and post-harvest (harvesting, post-harvest treatments, packaging, storage, etc.) factors that affect GL synthesis, profiles, and levels in broccoli. Understanding how these factors act and interact in driving GL accumulation in the edible parts is essential for developing new broccoli cultivars with improved health-promoting bioactivity. In this regard, any systematic and comprehensive review outlining the effects of pre- and post-harvest factors on the accumulation of GLs in broccoli is not yet available. Thus, the goal of this paper is to fill this gap by giving a synoptic overview of the most relevant and recent literature. The existence of substantial cultivar-to-cultivar variation in GL content in response to pre-harvest factors and post-harvest manipulations has been highlighted and discussed. The paper also stresses the need for adapting particular pre- and post-harvest procedures for each particular genotype in order to maintain nutritious, fresh-like quality throughout the broccoli value chain., (Copyright © 2020 Ilahy, Tlili, Pék, Montefusco, Siddiqui, Homa, Hdider, R'Him, Lajos and Lenucci.)

Published

2020

21. Promising applications of cold plasma for microbial safety, chemical decontamination and quality enhancement in fruits.

Author

Mir SA, Siddiqui MW, Dar BN, Shah MA, Wani MH, Roohinejad S, Annor GA, Mallikarjunan K, Chin CF, and Ali A

Subjects

Food Handling, Food Safety, Pesticides chemistry, Food Contamination prevention & control, Food Quality, Fruit chemistry, Fruit microbiology, Plasma Gases chemistry

Abstract

Consumers' demand is increasing for safe foods without impairing the phytochemical and sensory quality. In turn, it has increased research interest in the exploration of innovative food processing technologies. Cold plasma technology is getting popularity now days owing to its high efficacy in decontamination of microbes in fruit and fruit-based products. As a on-thermal approach, plasma processing maintains the quality of fruits and minimizes the thermal effects on nutritional properties. Cold plasma is also exploited for inactivating enzymes and degrading pesticides as both are directly related with quality loss and presently are most important concerns in fresh produce industry. The present review covers the influence of cold plasma technology on reducing microbial risks and enhancing the quality attributes in fruits., (© 2019 The Society for Applied Microbiology.)

Published

2020

22. Browning metabolism and quality of fresh-cut drumstick ( Moringa oleifera ) as influenced by acidulant treatments.

Author

Siddiqui MW, Homa F, Nayyer MA, Ghatak A, Yousuf B, Aftab MA, and Ali A

Abstract

Though fresh-cut products save our time, but they are very much prone to enzymatic browning that drastically affects product's quality and marketability. Drumstick pods are considered as super food due to high nutritional contents. However, the fresh-cut pods are prone to brown discoloration. The enzyme activities promote the softening and cut-surface browning of pods, thus deteriorates their texture, decreases consumer appeal and shortens the shelf life. So, we aimed to assess the effect of citric (1%) and ascorbic (1%) acid treatments on quality attributes of fresh-cut drumsticks at 3-d interval during storage (5 ± 1 °C). In general there was an increase in lignin and quinone contents, while phenolic content was decreased during storage. However, samples subjected to ascorbic acid dip had higher phenolic content, lower rate of lignin formation, and reduced membrane permeability. Enzyme activities (polyphenol oxidase and peroxidase) were found to increase during storage, however, samples treated with ascorbic acid showed lower activities than that of the control and citric acid treated samples. The reduced enzyme activities resulted in the reduced browning incidence and maintained the quality. Therefore, postharvest dip of fresh-cut drumstick in to ascorbic acid (1%) could be suggested to increase the shelf life with reduced browning during low temperature storage., (© Association of Food Scientists & Technologists (India) 2020.)

Published

2020

23. Inside and Beyond Color: Comparative Overview of Functional Quality of Tomato and Watermelon Fruits.

Author

Ilahy R, Tlili I, Siddiqui MW, Hdider C, and Lenucci MS

Abstract

The quali-quantitative evaluation and the improvement of the levels of plant bioactive secondary metabolites are increasingly gaining consideration by growers, breeders and processors, particularly in those fruits and vegetables that, due to their supposed health promoting properties, are considered "functional." Worldwide, tomato and watermelon are among the main grown and consumed crops and represent important sources not only of dietary lycopene but also of other health beneficial bioactives. Tomato and watermelon synthesize and store lycopene as their major ripe fruit carotenoid responsible of their typical red color at full maturity. It is also the precursor of some characteristic aroma volatiles in both fruits playing, thus, an important visual and olfactory impact in consumer choice. While sharing the same main pigment, tomato and watermelon fruits show substantial biochemical and physiological differences during ripening. Tomato is climacteric while watermelon is non-climacteric; unripe tomato fruit is green, mainly contributed by chlorophylls and xanthophylls, while young watermelon fruit mesocarp is white and contains only traces of carotenoids. Various studies comparatively evaluated in vivo pigment development in ripening tomato and watermelon fruits. However, in most cases, other classes of compounds have not been considered. We believe this knowledge is fundamental for targeted breeding aimed at improving the functional quality of elite cultivars. Hence, in this paper, we critically review the recent understanding underlying the biosynthesis, accumulation and regulation of different bioactive compounds (carotenoids, phenolics, aroma volatiles, and vitamin C) during tomato and watermelon fruit ripening. We also highlight some concerns about possible harmful effects of excessive uptake of bioactive compound on human health. We found that a complex interweaving of anabolic, catabolic and recycling reactions, finely regulated at multiple levels and with temporal and spatial precision, ensures a certain homeostasis in the concentrations of carotenoids, phenolics, aroma volatiles and Vitamin C within the fruit tissues. Nevertheless, several exogenous factors including light and temperature conditions, pathogen attack, as well as pre- and post-harvest manipulations can drive their amounts far away from homeostasis. These adaptive responses allow crops to better cope with abiotic and biotic stresses but may severely affect the supposed functional quality of fruits.

Published

2019

24. Dynamic Changes in Health-Promoting Properties and Eating Quality During Off-Vine Ripening of Tomatoes.

Author

Siddiqui MW, Lara I, Ilahy R, Tlili I, Ali A, Homa F, Prasad K, Deshi V, Lenucci MS, and Hdider C

Abstract

Tomato (Solanum lycopersicon L.) fruit is rich in various nutrients, vitamins and health-promoting molecules. Fresh tomatoes are an important part of the Mediterranean gastronomy, and their consumption is thought to contribute substantially to the reduced incidence of some chronic diseases in the Mediterranean populations in comparison with those of other world areas. Unfortunately, tomato fruit is highly perishable, resulting in important economic losses and posing a challenge to storage, logistic and supply management. This review summarizes the current knowledge on some important health-promoting and eating quality traits of tomato fruits after harvest and highlights the existence of substantial cultivar-to-cultivar variation in the postharvest evolution of the considered traits according to maturity stage at harvest and in response to postharvest manipulations. It also suggests the need for adapting postharvest procedures to the characteristics of each particular genotype to preserve the optimal quality of the fresh product., (© 2018 Institute of Food Technologists®.)

Published

2018

25. Advances in postharvest technologies to extend the storage life of minimally processed fruits and vegetables.

Author

Ali A, Yeoh WK, Forney C, and Siddiqui MW

Subjects

Disinfection, Food Microbiology, Time Factors, Food Storage methods, Fruit, Vegetables

Abstract

Minimally processed fresh produce is one of the fastest growing segments of the food industry due to consumer demand for fresh, healthy, and convenient foods. However, mechanical operations of cutting and peeling induce the liberation of cellular contents at the site of wounding that can promote the growth of pathogenic and spoilage microorganisms. In addition, rates of tissue senescence can be enhanced resulting in reduced storage life of fresh-cut fruits and vegetables. Chlorine has been widely adopted in the disinfection and washing procedures of fresh-cut produce due to its low cost and efficacy against a broad spectrum of microorganisms. Continuous replenishment of chlorine in high organic wash water can promote the formation of carcinogenic compounds such as trihalomethanes, which threaten human and environmental health. Alternative green and innovative chemical and physical postharvest treatments such as ozone, electrolyzed water, hydrogen peroxide, ultraviolet radiation, high pressure processing, and ultrasound can achieve similar reduction of microorganisms as chlorine without the production of harmful compounds or compromising the quality of fresh-cut produce.

Published

2018

26. Oregano Essential Oil as an Antimicrobial and Antioxidant Additive in Food Products.

Author

Rodriguez-Garcia I, Silva-Espinoza BA, Ortega-Ramirez LA, Leyva JM, Siddiqui MW, Cruz-Valenzuela MR, Gonzalez-Aguilar GA, and Ayala-Zavala JF

Subjects

Food Additives analysis, Food Analysis, Food Contamination analysis, Food Microbiology, Food Preservation, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Odorants analysis, Taste, Anti-Infective Agents analysis, Antioxidants analysis, Oils, Volatile analysis, Origanum chemistry, Plant Oils analysis

Abstract

Food consumers and industries urged the need of natural alternatives to assure food safety and quality. As a response, the use of natural compounds from herbs and spices is an alternative to synthetic additives associated with toxic problems. This review discusses the antimicrobial and antioxidant activity of oregano essential oil (OEO) and its potential as a food additive. Oregano is a plant that has been used as a food seasoning since ancient times. The common name of oregano is given to several species: Origanum (family: Lamiaceae) and Lippia (family: Verbenaceae), amongst others. The main compounds identified in the different OEOs are carvacrol and thymol, which are responsible for the characteristic odor, antimicrobial, and antioxidant activity; however, their content may vary according to the species, harvesting season, and geographical sources. These substances as antibacterial agents make the cell membrane permeable due to its impregnation in the hydrophobic domains, this effect is higher against gram positive bacteria. In addition, the OEO has antioxidant properties effective in retarding the process of lipid peroxidation in fatty foods, and scavenging free radicals. In this perspective, the present review analyzes and discusses the state of the art about the actual and potential uses of OEO as an antimicrobial and antioxidant food additives.

Published

2016

27. Antimicrobial Properties of Teas and Their Extracts in vitro.

Author

Siddiqui MW, Sharangi AB, Singh JP, Thakur PK, Ayala-Zavala JF, Singh A, and Dhua RS

Subjects

Camellia sinensis growth & development, Drug Resistance, Microbial, Fermentation, Flavonols analysis, Food Handling methods, Humans, Plant Extracts pharmacology, Plant Leaves chemistry, Species Specificity, Anti-Infective Agents, Camellia sinensis chemistry, Plant Extracts chemistry, Tea chemistry

Abstract

Tea has recently received the attention of pharmaceutical and scientific communities due to the plethora of natural therapeutic compounds. As a result, numerous researches have been published in a bid to validate their biological activity. Moreover, major attention has been drawn to antimicrobial activities of tea. Being rich in phenolic compounds, tea has the preventive potential for colon, esophageal, and lung cancers, as well as urinary infections and dental caries, among others. The venture of this review was to illustrate the emerging findings on the antimicrobial properties of different teas and tea extracts, which have been obtained from several in vitro studies investigating the effects of these extracts against different microorganisms. Resistance to antimicrobial agents has become an increasingly important and urgent global problem. The extracts of tea origin as antimicrobial agents with new mechanisms of resistance would serve an alternative way of antimicrobial chemotherapy targeting the inhibition of microbial growth and the spread of antibiotic resistance with potential use in pharmaceutical, cosmetic, and food industries.

Published

2016

28. Genotypic variation in tomatoes affecting processing and antioxidant attributes.

Author

Siddiqui MW, Ayala-Zavala JF, and Dhua RS

Subjects

Ascorbic Acid analysis, Carotenoids analysis, Chemical Phenomena, Flavonoids analysis, Fruit chemistry, Fruit and Vegetable Juices, Lycopene, Solanum lycopersicum chemistry, Solanum lycopersicum classification, Nutritive Value, Phenols analysis, Phytochemicals analysis, Antioxidants analysis, Food Handling, Genetic Variation, Genotype, Solanum lycopersicum genetics

Abstract

Tomatoes are widely consumed either raw or after processing and can provide a significant proportion of the total antioxidants in the diet associated with beneficial health properties. Over the last two or three decades an increasing interest for processing and antioxidant attributes in tomatoes has arisen. The screening of processing attributes of tomatoes is subject of a large number of articles; however, special interest has been addressed to the biochemical composition. The postharvest and industrial processing of tomato in tomato-based products includes several steps. Processing and antioxidant characteristics of the raw fruit are important considering the processing steps and final product. To respond to consumer and industrial complaints, breeders should know the range of genetic variability available in tomato resources, including local genotypes, for improving the mentioned attributes. Characterization and conservation of traditional and modern varieties is a major goal for their preservation and utilization. The bioactive contents have an impact on the processed destines so their stability must be contemplated while selecting the tomato fruits for processing. The endeavor of this review was to examine comprehensively the variation in processing and antioxidant attributes among tomatoes. Role of tomato peel in terms of bioactive contents and information on high pigment (hp) tomato mutants are also touched to some extent. Probably, patterns of variation identified/discussed in this paper would give impetus for planning breeding strategies to develop and improve the new processing cultivars with good antioxidant status.

Published

2015

29. Bioactive attributes of tomatoes possessing dg, ogc, and rin genes.

Author

Siddiqui MW, Chakraborty I, Mishra P, and Hazra P

Subjects

Antioxidants analysis, Antioxidants metabolism, Breeding, Fruit chemistry, Fruit genetics, Fruit metabolism, Solanum lycopersicum genetics, Solanum lycopersicum metabolism, Plant Extracts metabolism, Plant Proteins metabolism, Food Handling, Solanum lycopersicum chemistry, Plant Extracts analysis, Plant Proteins genetics

Abstract

We present the results of the first study characterizing new tomato hybrids, possessing dark green (dg), old gold crimson (og(c)), and ripening inhibitor (rin) genes, that determines the bioactive molecules and in vitro antioxidant potential of the peel and pulp of the fruits. The hybrids developed from Berika and BCT-115 (having the dg gene) were superior to those developed from BCT-119 and BCT-111 (carrying og(c) and rin genes, respectively), in relation to their nutritional potential. A wide range (mg/100 g FW) of ascorbic acid (∼21-40), lycopene (∼2-4), β-carotene (∼0.5-1.7), total flavonoids (∼4.6-20.0), and total phenols (∼16-30) was recorded in the pulp. The peel fraction of the tomatoes was identified as an important reservoir of antioxidant bioactive compounds viz. lycopene (∼8-25), β-carotene (∼1.6-3.1), total flavonoids (∼42-82), and total phenols (∼59-83). The radical scavenging activity ranged from ∼45-78 and 21-50% in the peel and pulp, respectively, whereas the metal chelating activity was found to range from ∼23-42 and ∼15-26% in peel and pulp, respectively, among all the hybrids. This finding offers a new direction towards the development of new tomato hybrids that possess not only a good shelf life, but also a nutritional status as well. Moreover, utilizing tomato peel as a source of phytochemicals could offer diverse opportunities for nutraceutical and functional food applications.

Published

2014