Interest in D-amino acids has increased in recent decades with the development of new analytical methods highlighting their presence in all kingdoms of life. Their involvement in physiological functions, and the presence of metabolic routes for their synthesis and degradation have been shown. Furthermore, D-amino acids are gaining considerable importance in the pharmaceutical industry. The immense amount of information scattered throughout the literature makes it difficult to achieve a general overview of their applications. This review summarizes the state-of-the-art on D-amino acid applications and occurrence, providing both established and neophyte researchers with a comprehensive introduction to this topic.
The binding properties of a glutathione S-transferase (EC 2.5.1.18) from Schistosoma japonicum to substrate glutathione (GSH) has been investigated by intrinsic fluorescence and isothermal titration calorimetry (ITC) at pH 6.5 over a temperature range of 15±30 8C. Calorimetric measurements in various buffer systems with different ionization heats suggest that protons are released during the binding of GSH at pH 6.5. We have also studied the effect of pH on the thermodynamics of GSH±GST interaction. The behaviour shown at different pHs indicates that at least three groups must participate in the exchange of protons. Fluorimetric and calorimetric measurements indicate that GSH binds to two sites in the dimer of 26-kDa glutathione S-transferase from Schistosoma japonicum (SjGST). On the other hand, noncooperativity for substrate binding to SjGST was detected over a temperature range of 15±30 8C.Among thermodynamic parameters, whereas DG8 remains practically invariant as a function of temperature, DH and DS8 both decrease with an increase in temperature. While the binding is enthalpically favorable at all temperatures studied, at temperatures below 25 8C, DG8 is also favoured by entropic contributions. As the temperature increases, the entropic contributions progressively decrease, attaining a value of zero at 24.3 8C, and then becoming unfavorable. During this transition, the enthalpic contributions become progressively favorable, resulting in an enthalpy±entropy compensation. The temperature dependence of the enthalpy change yields the heat capacity change (DC p 8) of 20.238^0.04 kcal per K per mol of GSH bound.
Yeast isolates from orange fruit and juice in a spontaneous fermentation were identified and classified by two molecular techniques. The first was analysis of the restriction pattern generated from the polymerase chain reaction (PCR)-amplified 5.8S rRNA gene and the two internal transcribed spacers (ITS) using specific primers. The second technique was sequence analysis of the ITS regions using the same two primers. Nine different restriction profiles were obtained from the size of the PCR products and the restriction analyses with three endonucleases (CfoI, HaeIII and HinfI). These groups were identified as Candida tropicalis, Clavispora lusitaniae, Hanseniaspora uvarum, Pichia anomala, Pichia fermentans, Rhodotorula mucilaginosa, Saccharomyces cerevisiae, Saccharomyces unisporus, and Trichosporon asahii. Checking against identification according to morphological, physiological and biochemical traits corroborated this molecular identification. A total concordance was found in the identification with PCR-restriction fragment length polymorphism of the ITS region after analysing certified yeast strains from two different culture collections. Consequently, a rapid and reliable identification of the yeast populations was achieved by using molecular techniques.
Yeast isolates from orange fruit and juice in a spontaneous fermentation were identified and classified by two molecular techniques. The first was analysis of the restriction pattern generated from the polymerase chain reaction (PCR)-amplified 5.8S rRNA gene and the two internal transcribed spacers (ITS) using specific primers. The second technique was sequence analysis of the ITS regions using the same two primers. Nine different restriction profiles were obtained from the size of the PCR products and the restriction analyses with three endonucleases (CfoI, HaeIII and HinfI). These groups were identified as Candida tropicalis, Clavispora lusitaniae, Hanseniaspora uvarum, Pichia anomala, Pichia fermentans, Rhodotorula mucilaginosa, Saccharomyces cerevisiae, Saccharomyces unisporus, and Trichosporon asahii. Checking against identification according to morphological, physiological and biochemical traits corroborated this molecular identification. A total concordance was found in the identification with PCR-restriction fragment length polymorphism of the ITS region after analysing certified yeast strains from two different culture collections. Consequently, a rapid and reliable identification of the yeast populations was achieved by using molecular techniques.
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