Effect of high hydrostatic pressure on overall quality parameters of watermelon juice

Liu, Y; Xy, Zhao; Zou, Liqiang; Hu, Xiaobo Sharon

doi:10.1177/1082013212442194

Cited by 42 publications

(21 citation statements)

References 60 publications

(103 reference statements)

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“…Two different empirical models were developed to describe the PME and PG inactivation in tomato juice having pH 4.2 (Crelier and others ). However, the first‐order inactivation model was found to be suitable for PG in tomato juice (pH 4.4) as reported by Fachin and others () and for PME in watermelon juice (Liu and others ). Buckow and others () fitted the n th‐order kinetic model for the inactivation of PPO in cloudy apple juice (Figure ).…”

Section: Modeling Of High‐pressure Inactivation Of Fruit Enzymessupporting

confidence: 64%

High‐Pressure Inactivation of Enzymes: A Review on Its Recent Applications on Fruit Purees and Juices

Chakraborty

Kaushik

Rao

et al. 2014

Comp Rev Food Sci Food Safe

176

105

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In the last 2 decades high-pressure processing (HPP) has established itself as one of the most suitable nonthermal technologies applied to fruit products for the extension of shelf-life. Several oxidative and pectic enzymes are responsible for deterioration in color, flavor, and texture in fruit purees and juices (FP&J). The effect of HPP on the activities of polyphenoloxidase, peroxidase, β-glucosidase, pectinmethylesterase, polygalacturonase, lipoxygenase, amylase, and hydroperoxide lyase specific to FP&J have been studied by several researchers. In most of the cases, partial inactivation of the target enzymes was possible under the experimental domain, although their pressure sensitivity largely depended on the origin and their microenvironmental condition. The variable sensitivity of different enzymes also reflects on their kinetics. Several empirical models have been established to describe the kinetics of an enzyme specific to a FP&J. The scientific literature in the last decade illustrating the effects of HPP on enzymes in FP&J, enzymatic action on those products, mechanism of enzyme inactivation during high pressure, their inactivation kinetics, and several intrinsic and extrinsic factors influencing the efficacy of HPP is critically reviewed in this article. In addition, process optimization of HPP targeting specific enzymes is of great interest from an industrial approach. This review will give a fair idea about the target enzymes specific to FP&J and the optimum conditions needed to achieve sufficient inactivation during HPP treatment.

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Section: Modeling Of High‐pressure Inactivation Of Fruit Enzymessupporting

confidence: 64%

High‐Pressure Inactivation of Enzymes: A Review on Its Recent Applications on Fruit Purees and Juices

Chakraborty

Kaushik

Rao

et al. 2014

Comp Rev Food Sci Food Safe

176

105

View full text Add to dashboard Cite

show abstract

“…predicted that PPO and POD in pineapple puree followed first-order decay (n = 1) within 200-500 MPa/30-60°C. Consequently, PPO and POD from other fruits were also inactivated exponentially (or apparent first-order) with time within high pressure domain like PPO in peach juice ; PPO and POD in watermelon juice (Liu, Zhao, Zou, & Hu, 2013); PPO in avocado and so on. However, Buckow et al (2009) reported that inactivation of apple PPO followed nth order model with n = 2.2.…”

Section: Model Fitting To Nth Order Kineticsmentioning

confidence: 99%

“…Similar type of empirical model considering both Arrhenius and Eyring's equations has been developed in several kinetic studies (Boulekou et al, 2010;Liu et al, 2013;Polydera et al, 2004). The single multi-parameter equation (Eq.…”

Section: Inactivation Rate Constant As a Function Of Pressure And Temmentioning

confidence: 99%

Kinetic modeling of polyphenoloxidase and peroxidase inactivation in pineapple (Ananas comosus L.) puree during high-pressure and thermal treatments

Chakraborty

Rao

Mishra

2015

Innovative Food Science & Emerging Technologies

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“…(3): [31] (%) inactivation = 100 − Enzyme activity after treatment Enzyme activity before treatment × 100 (3)…”

Section: Pme Activitymentioning

confidence: 99%

Effect of High Pressure Processing on Rheological Properties, Pectinmethylesterase Activity and Microbiological Characteristics of Aloe Vera (Aloe barbadensisMiller) Juice

Hulle

Kaushik

Rao

2014

International Journal of Food Properties

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Effect of pressure level (60-740 MPa), process dwell time (3-40 min), and pH (2.32-5.68) on rheological properties, pectinmethylesterase (PME) enzyme activity and microbiological characteristics of aloe vera juice was studied. A quadratic model was developed for rheological parameters and it was found that pressure level had the most significant effect on all the responses (p < 0.05) followed by pH and dwell time. Pectinmethylesterase activity was evaluated and a maximum of up to 30% inactivation was obtained. Microbial analysis of high pressure treated samples revealed that samples treated at 400 MPa for 20 min at pH 4 reduced microbial counts to <10 cfu mL −1 achieving up to 5.66 log cycle reduction.

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Effect of high hydrostatic pressure on overall quality parameters of watermelon juice

Cited by 42 publications

References 60 publications

High‐Pressure Inactivation of Enzymes: A Review on Its Recent Applications on Fruit Purees and Juices

High‐Pressure Inactivation of Enzymes: A Review on Its Recent Applications on Fruit Purees and Juices

Kinetic modeling of polyphenoloxidase and peroxidase inactivation in pineapple (Ananas comosus L.) puree during high-pressure and thermal treatments

Effect of High Pressure Processing on Rheological Properties, Pectinmethylesterase Activity and Microbiological Characteristics of Aloe Vera (Aloe barbadensisMiller) Juice

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