Effectiveness of alginate coating on antioxidant enzymes and biochemical changes during storage of mango fruit

Rastegar, Somayeh; Khankahdani, Hamed Hassanzadeh; Rahimzadeh, Mahsa

doi:10.1111/jfbc.12990

Cited by 41 publications

(15 citation statements)

References 42 publications

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“…The TA of the papaya fruit began to decline throughout the storage days (Table 3). The use of organic acids during fruit respiration and ripening could be the reason for the decrease in TA (Rastegar et al., 2019). The fruits treated with XG + PLE had the highest level of TA (0.11% citric acid equivalent) out of all the treatments.…”

Section: Resultsmentioning

confidence: 99%

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Eco‐safe composite edible coating of hydrocolloids with papaya leaf extract improves postharvest quality and shelf life of papaya fruit under ambient storage

Prasad,

Akshatha,

Pradhan

et al. 2023

Journal of Food Science

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Papaya postharvest management using low‐temperature storage is discouraged as it is a tropical fruit. Extensive research is going on to preserve papaya quality at ambient storage using edible coatings and its composites. The present investigation examined the effects of an eco‐safe composite edible coating consisting of hydrocolloid carboxymethyl cellulose (CMC) (1%), guar gum (1.5%), xanthan gum (0.3%), and Gum Arabic (10%) combined with papaya leaf extract (PLE) (1:1 ratio by volume) applied as dip treatment on “Red Lady” papaya fruit at ambient storage condition. Among all the attempted treatments, “PLE incorporated with CMC (1%)” was found to be the best, as the treated fruit exhibited the highest levels of biochemicals, whereas the lowest levels of physiological and enzymatic activity, which positively affected the shelf life. The “CMC + PLE” treatment enhanced the fruit gloss score by 70.1%, phenolics by 6.1%, ascorbic acid by 22.3%, total carotenoid content by 7.4%, and fruit predilection score by 22.0% over the control fruit. However, it lowered (controlling) the physiological loss in weight by 51.0%, decay incidence by 66.6%, and polygalacturonase and pectin methylesterase activity by 24.92% and 35.29%, respectively, over control. Moreover, this treatment exhibited the highest fruit purchase predilection score and prolonged the storage life for >3 days on the physiological loss standard basis (≤10%). This study indicates that “CMC (1%) with PLE (1:1)” composite coating application on papaya under ambient conditions might be an effective, environmentally friendly, and health‐friendly way to retain the quality and extend the storage life.

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Section: Resultsmentioning

confidence: 99%

“…As the storage day progressed, the AAC in the papaya fruit decreased (Table 4). Due to oxidation and degradation, AAC decreases as fruit ripens (Prasad & Sharma, 2018; Rastegar et al., 2019). In contrast, fruits coated with edible coatings had higher levels of AAC.…”

Section: Resultsmentioning

confidence: 99%

Eco‐safe composite edible coating of hydrocolloids with papaya leaf extract improves postharvest quality and shelf life of papaya fruit under ambient storage

Prasad,

Akshatha,

Pradhan

et al. 2023

Journal of Food Science

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“…For DS assessment, five DS scores were used, as shown in Table 1. Fruit with index scores of two, three, and four were considered to have no commercial and marketing value (Equation ( 2 (2) Tomato fruit pulp tissue extraction assays for total phenolic content (TPC) and antioxidant activities Radical scavenging activity by using (2,2-azino-bis (3-ethylbenzthiazoline-6sulfonic acid) (ABTS), Ferric Reducing Antioxidant Power (FRAP) were extracted using methods defined by Rastegar and Si [17,18], with slight modification. Four grams of tomato fruit tissue from each replicate was frozen immediately in liquid N 2 and minced using a small ceramic kitchen pestle and mortar for 30 s. The ground tissue was dissolved in 10 mL 80% (v/v methanol analytical grade) and then transferred to a 100 mL conical flask, which was covered with aluminum foil.…”

Section: Determination Of Disease Severitymentioning

confidence: 99%

Controlling Fusarium oxysporum Tomato Fruit Rot under Tropical Condition Using Both Chitosan and Vanillin

et al. 2021

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Tomato Lycopersicon esculentum Mill. is one of the most cultivated and widely consumed vegetables in the world. However, it is very susceptible to the infection initiated by Fusariumoxysporum fruit rot, which shortens post-harvest life and thus reduces market value. This disease can be regulated appropriately by the application of synthetic fungicides. However, chemical fungicides constitute a serious health risk, and have harmful environment effects and increase disease resistance, even when microbes are dead. Hence, to overcome this problem, chitosan and vanillin, which have antimicrobial bioactive properties against the growth of microorganisms, could be an alternative to disease control, while maintaining fruit quality and prolonging shelf life. The aim of this research was to evaluate the antimicrobial activity of chitosan and vanillin towards the inoculate pathogen and to investigate the effect of chitosan and vanillin coating in vivo on Fusarium oxysporum fruit rot and defense-related enzymes (PAL, PPO and POD). Chitosan and vanillin in aqueous solutions, i.e., 0.5% chitosan + 10 mM vanillin, 1% chitosan + 10 mM vanillin, 1.5% chitosan + 10 mM vanillin, 0.5% chitosan + 15 mM vanillin, 1% chitosan + 15 mM vanillin and 1.5% chitosan + 15 mM vanillin, were used as edible coatings on tomatoes stored at 26 ± 2 °C and 60 ± 5 relative humidity. The result revealed 1.5% chitosan + 15 mM vanillin was able to control disease incidence by 70.84% and severity by 70%. These combinations of coatings were also able to retain phenylalanine ammonia-lyase (PAL), peroxidase activity (POD), and polyphenol oxidase (PPO) enzyme activities as well as prolong shelf life of tomatoes up to 15 days.

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“…However, most current biomolecular hosting platforms face various challenges. For example, metal–organic frameworks (MOFs) are known to stabilize biomacromolecules in organic phases but the small pore sizes often limit this strategy to small-size enzymes. − In addition, responsive polymeric micellar materials have found applications in protein extraction (from oil or food products) but are challenged by stability and reusability. − Lastly, antioxidant enzymes are preferential for food antioxidation (in oil or other organic phases), but there have been few effective ways to stabilize these enzymes in the medium. − …”

Section: Introductionmentioning

confidence: 99%

Spatial Distribution and Solvent Polarity-Triggered Release of a Polypeptide Incorporated into Invertible Micellar Assemblies

Pan

Жолобко

et al. 2020

ACS Appl. Mater. Interfaces

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Extracting, stabilizing, or delivering biomacromolecules such as proteins and peptides in organic phases have potential applications in biocatalysis, protein extraction, and food antioxidation. However, most current delivery/stabilization platforms face various limitations such as protein/peptide molecular size, platform stability/reusability, and/or potential damage to the cargos. A potential solution to these problems is micellar self-assemblies from amphiphilic invertible polymers, which have recently been demonstrated to be powerful as molecular hosts to deliver both small molecular drugs and functional polypeptides in the aqueous phase. To better understand the function of biomacromolecules and predict the usefulness of the formed invertible micellar assemblies (IMAs) as biomacromolecular hosts in organic phases, it is critical to characterize the spatial distribution, structure, and dynamics of biomacromolecules in the IMA including those upon release. However, the background signals of the IMAs limit the application of most peptide characterization approaches. In this work, we overcome the technical barriers by using site-directed spin labeling electron paramagnetic resonance to probe the spatial arrangement and release of a model, the hemagglutinin (HA) peptide, in the IMAs formed from two different amphiphilic invertible polymers. By site-specifically probing three residues along the peptide chain, for the first time, we depict the possible spatial distribution of HA within the IMAs. By triggering the disassembly of the IMAs with a thermodynamically good solvent (in this study, acetone), we detailed the stability of IMAs in toluene and the peptide release conditions once the polarity of the medium changes. Our findings are important for the application of peptides/proteins at the polar−nonpolar interface or using this interface to extract or deliver biomacromolecules. Our work also demonstrates the power of SDSL-EPR on probing peptide or micelle dynamics, which can be generalized to understand proteins or other biomacromolecules in micellar polymer assemblies in varied applications.

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Effectiveness of alginate coating on antioxidant enzymes and biochemical changes during storage of mango fruit

Cited by 41 publications

References 42 publications

Eco‐safe composite edible coating of hydrocolloids with papaya leaf extract improves postharvest quality and shelf life of papaya fruit under ambient storage

Eco‐safe composite edible coating of hydrocolloids with papaya leaf extract improves postharvest quality and shelf life of papaya fruit under ambient storage

Controlling Fusarium oxysporum Tomato Fruit Rot under Tropical Condition Using Both Chitosan and Vanillin

Spatial Distribution and Solvent Polarity-Triggered Release of a Polypeptide Incorporated into Invertible Micellar Assemblies

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