José Ailton Conceição Bispo scite author profile

This paper reviews the literature on the main aspects of purification and crystallization of xylitol produced either by chemical or biotechnological routes. Different strategies have been used to clarify media containing xylitol: activated charcoal, pH adjustment, ion-exchange resins, membrane separation, chromatographic methods, liquid-liquid extraction and precipitation, or a combination of these techniques. This study explores the most recent results of research-work carried out in this field as well as the main approaches to recover and crystallize xylitol in a pure form. The effects of impurities, temperature, supersaturation, crystal seed amount, and size on xylitol crystal growth are also discussed. Downloaded by [Michigan State University] at 08:45 01 April 2015 A c c e p t e d M a n u s c r i p t 2

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Influence of acerola pulp concentration on mead production by Saccharomyces cerevisiae AWRI 796

Amorim

Lopes

Bispo

et al. 2018

LWT

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Proton dependence of tobacco mosaic virus dissociation by pressure

Santos

Bispo

Landini

et al. 2004

Biophysical Chemistry

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Entropy and Volume Change of Dissociation in Tobacco Mosaic Virus Probed by High Pressure

et al. 2012

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Virus dissociation and inactivation by high pressure have been extensively studied in recent decades. Pressure-induced dissociation of viral particles involves a reduction in the Gibbs free energy of dissociation and a negative change in volume. In this work, we investigated the combined effect of high pressure and temperature on the dissociation of tobacco mosaic virus (TMV). We assumed the presence of two states of TMV with different tendencies to dissociate. Thus one form presents a low tendency (L) and the other a high tendency (H) to dissociate. Based on the model described here, the L-H transition was favored by an increase in pressure and a decrease in temperature. The volume change of dissociation was pressure- and temperature-dependent, with a highly negative value of -80 mL/mol being recorded at 0 °C and atmospheric pressure. The entropy and enthalpy of dissociation were very temperature- and pressure-dependent, with values of entropy of 450 to -1300 kJ/mol and values of enthalpy of 5.5 × 10(4) to 2.4 × 10(4) kJ/mol. The dissociation of TMV was enthalpy-driven at all temperatures and pressures investigated. Based on these findings, we conclude that the model presented allows accurate predictions of viral dissociation behavior in different experimental conditions.

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Different urea stoichiometries between the dissociation and denaturation of tobacco mosaic virus as probed by hydrostatic pressure

Santos

Aparício

Joekes

et al. 2008

Biophysical Chemistry

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