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Fulltext Ozone application in fresh fruits and vegetables

Khawarizmi Mohd Aziz, Ding, Phebe

The Pertanika Journal of Scholarly Research Reviews, 2018;4(2):29-35.
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The demand of fruits and vegetables across the world had increased throughout the years which urge the need to have better and proper way to increase produce safety, quality and postharvest life. Traditionally pesticides or other chemicals had been used to encounter microbes related to postharvest diseases. Over time, consumers are concern towards health effect of consuming those produce treated with chemicals. Ozone is one of the approach that provide both of the needs to deal with pathogenic microbes and also give no harmful residue throughout the process. Several reports had proven that ozone can almost kill or inhibit all pathogenic microbes on treated commodity which promote higher quality and postharvest life during storage. This review focus and summarise the use of ozone in the form of aqueous and gaseous towards fresh produces, its benefits and also the precaution during ozone application.
Trends and advances in edible biopolymer coating for tropical fruit: A review

Md Nor S, Ding P

Food Res Int, 2020 08;134:109208.
PMID: 32517939 DOI: 10.1016/j.foodres.2020.109208

Nowadays, many of the tropical fruits have been commercialized worldwide due to increasing demand. In 2018, global tropical fruit has reached an unprecedented peak of 7.1 million tonnes. As such, a lot of large scale farming has been initiated to cultivate the fruit for commercialization. The nature of tropical fruit is perishable make the fruit easily undergo post-harvest losses especially when the fruit travels in a long distance for distribution. Losses of tropical fruit is estimated around 18-28% after harvesting. Then, the losses will continually develop during the trading process. Applying fruit coating on the fruit can minimize substantial privation. This article compendiously reviews the needs of coating and discuss different types of coating materials. The efficiency of different coating materials; polysaccharide, protein, lipid and composite based coating on tropical fruit is highlighted. There are various types of coating available for major fruit such as banana, mango, pineapple and avocado that can effectively extend the post-harvest life, minimize water loss, reduce chilling injuries and fight against post-harvest disease. Coating from minor fruit such as durian, rambutan, passion-fruit and mangosteen are still limited especially made from lipid and protein coating. In choosing the most appropriate coating for tropical, the nature of fruit needs to be understood. In addition, the chemistry of coating components and techniques of application is important in modulating the fruit quality.
Determination of optimum harvest maturity and physico-chemical quality of Rastali banana (Musa AAB Rastali) during fruit ripening

Kheng TY, Ding P, Abdul Rahman NA

J Sci Food Agric, 2012 Jan 15;92(1):171-6.
PMID: 21780132 DOI: 10.1002/jsfa.4559

A series of physico-chemical quality (peel and pulp colours, pulp firmness, fruit pH, sugars and acids content, respiration rate and ethylene production) were conducted to study the optimum harvest periods (either week 11 or week 12 after emergence of the first hand) of Rastali banana (Musa AAB Rastali) based on the fruit quality during ripening.
Physico-chemical and structural changes of red-fleshed dragon fruit (Hylocereus polyrhizus) during fruit development

Jamaludin NA, Ding P, Hamid AA

J Sci Food Agric, 2011 Jan 30;91(2):278-85.
PMID: 21031359 DOI: 10.1002/jsfa.4182

Determination of physico-chemical (weight, length, diameter, stomatal density, respiration rate, colour, soluble solids concentration, titratable acidity, chlorophyll and betacyanin content) and structural changes of red-fleshed dragon fruit (Hylocereus polyrhizus (Weber) Britton & Rose) was carried out from 5 to 35 days after pollination (DAP) in order to explain their growth, development, maturations and ripening stages.
Fulltext Morphometrics and Structural Changes of "Terung Asam" Sarawak (Solanum lasiocarpum Dunal) During Growth and Development

Soon ATK, Ding P, Ramaiya SD

Trop Life Sci Res, 2023 Sep;34(3):23-36.
PMID: 37860092 DOI: 10.21315/tlsr2023.34.3.2

"Terung asam" Sarawak (Solanum lasiocarpum Dunal) is an underutilised fruit vegetable. Information on the fruit growth is very lacking. Thus, this study was conducted to characterise fruit growth pattern based on physical characters and cellular structures. Data were recorded weekly from fruit set until senescence. All the morphological growth of "terung asam" fruit exhibits a single sigmoid growth pattern that fitted well to logistic model. There are three distinct phases of growth, i.e., S1, S2 and S3. At S1, the size of fruit cells was small without intercellular spaces. As fruit grew to S2, cell size increased with distinct vascular tissues. By S3, fruit has achieved its maximum size with green peel turn to yellow and finally golden yellow at late S3. Cuticle and two types of trichomes formed the outer layer of fruit. The thickness of fruit exocarp increased while density of trichomes decreased as fruit developed.
Fulltext Potential of UVC germicidal irradiation in suppressing crown rot disease, retaining postharvest quality and antioxidant capacity of Musa AAA "Berangan" during fruit ripening

S Mohamed NT, Ding P, Kadir J, M Ghazali H

Food Sci Nutr, 2017 Sep;5(5):967-980.
PMID: 28948014 DOI: 10.1002/fsn3.482

Crown rot caused by fungal pathogen is the most prevalent postharvest disease in banana fruit that results significant economic losses during transportation, storage, and ripening period. Antifungal effects of ultraviolet C (UVC) irradiation at doses varied from 0.01 to 0.30 kJ m-2 were investigated in controlling postharvest crown rot disease, maintenance of fruit quality, and the effects on antioxidant capacity of Berangan banana fruit during ripening days at 25 ± 2°C and 85% RH. Fruits irradiated with 0.30 kJ m-2 exhibited the highest (i.e., 62.51%) reduction in disease severity. However, the application of UVC at all doses caused significant browning damages on fruit peel except the dose of 0.01 kJ m-2. This dose synergistically reduced 46.25% development of postharvest crown and did not give adverse effects on respiration rate, ethylene production, weight loss, firmness, color changes, soluble solids concentration, titratable acidity, and pH in banana as compared to the other treatments and control. Meanwhile, the dose also enhanced a significant higher level of total phenolic content, FRAP, and DPPH values than in control fruits indicating the beneficial impact of UVC in fruit nutritional quality. The results of scanning electron micrographs confirmed that UVC irradiation retarded the losses of wall compartments, thereby maintained the cell wall integrity in the crown tissue of banana fruit. The results suggest that using 0.01 kJ m-2 UVC irradiation dose as postharvest physical treatment, the crown rot disease has potential to be controlled effectively together with maintaining quality and antioxidant of banana fruit.
Fulltext Nitrate, ascorbic acid, mineral and antioxidant activities of Cosmos caudatus in response to organic and mineral-based fertilizer rates

Hassan SA, Mijin S, Yusoff UK, Ding P, Wahab PE

Molecules, 2012 Jun 28;17(7):7843-53.
PMID: 22743588 DOI: 10.3390/molecules17077843

The source and quantity of nutrients available to plants can affect the quality of leafy herbs. A study was conducted to compare quality of Cosmos caudatus in response to rates of organic and mineral-based fertilizers. Organic based fertilizer GOBI (8% N:8% P₂O₅:8% K₂O) and inorganic fertilizer (15% N, 15% P₂O₅, 15% K₂O) were evaluated based on N element rates at 0, 30, 60, 90, 120 kg h⁻¹. Application of organic based fertilizer reduced nitrate, improved vitamin C, antioxidant activity as well as nitrogen and calcium nutrients content. Antioxidant activity and chlorophyll content were significantly higher with increased fertilizer application. Fertilization appeared to enhance vitamin C content, however for the maximum ascorbic acid content, regardless of fertilizer sources, plants did not require high amounts of fertilizer.
Determination of optimum harvest maturity and non-destructive evaluation of pod development and maturity in cacao (Theobroma cacao L.) using a multiparametric fluorescence sensor

Tee YK, Balasundram SK, Ding P, M Hanif AH, Bariah K

J Sci Food Agric, 2019 Mar 15;99(4):1700-1708.
PMID: 30206959 DOI: 10.1002/jsfa.9359

BACKGROUND: A series of fluorescence indices (anthocyanin, flavonol, chlorophyll and nitrogen balance) were deployed to detect the pigments and colourless flavonoids in cacao pods of three commercial cacao (Theobroma cacao L.) genotypes (QH1003, KKM22 and MCBC1) using a fast and non-destructive multiparametric fluorescence sensor. The aim was to determine optimum harvest periods (either 4 or 5 months after pod emergence) of commercial cacao based on fluorescence indices of cacao development and bean quality.
RESULTS: As pod developed, cacao exhibited a rise with the peak of flavonol occurring at months 4 and 5 after pod maturity was initiated while nitrogen balance showed a decreasing trend during maturity. Cacao pods contained high chlorophyll as they developed but chlorophyll content declined significantly on pods that ripened at month 5.
CONCLUSION: Cacao pods harvested at months 4 and 5 can be considered as commercially-ready as the beans have developed good quality and comply with the Malaysian standard on cacao bean specification. Thus, cacao pods can be harvested earlier when they reach maturity at month 4 after pod emergence to avoid germinated beans and over fermentation in ripe pods harvested at month 5. © 2018 Society of Chemical Industry.
PpWRKY33 positively regulates PpPGIP1 to enhance defense against Monilinia fructicola in peach fruit

Gao Y, Wei Y, Chen Y, Jiang S, Ye J, Xu F, et al.

Int J Biol Macromol, 2024 Sep 04;279(Pt 3):135350.
PMID: 39242007 DOI: 10.1016/j.ijbiomac.2024.135350

In plant-pathogen interactions, numerous pathogens secrete polygalacturonase (PG) to degrade plants cell walls, whereas plants produce PG-inhibiting protein (PGIP) that specifically binds to pathogen-derived PG to inhibit its activity and resist pathogen infection. In the present study, we dshowed that PpPGIP1 was significantly upregulated in peaches after Monilinia fructicola infection, and the prokaryotic expression of the PpPGIP1 protein inhibited M. fructicola by mitigating its PG activity. Transient overexpression of PpPGIP1 in peaches significantly enhanced their resistance to M. fructicola. PpPGIP1 promoter had several W-box the defense elements that can bind to WRKY transcription factors. Transcriptome analysis identified 20 differentially expressed WRKY genes, including the classic disease resistance gene WRKY33. PpWRKY33 is significantly upregulated in M. fructicola infected peaches. PpWRKY33 is localized in the nucleus and can bind to the W-box in the PpPGIP1 promoter to transcriptional activate the expression of PpPGIP1. Transient overexpression PpWRKY33 upregulated PpPGIP1 expression in peaches, and silencing PpWRKY33 decreased the PpPGIP1 expression. These results indicated that PpPGIP1 positively regulates fungal disease resistance in peaches and is transcriptionally activated by PpWRKY33. These findings reveal the disease resistant role of PpPGIP1 in peaches, and provide new insights into its transcriptional regulation.