In mammals, however, the glutamic acid (E) in position 6 is replaced by threonine (T) ( Huerou, Wicker, Guilloteau, Toullec, & Puigserver, 1990). As can be seen in Fig. 3, this NH2-terminal amino acid sequence from D. rhombeus exhibited high homology and revealed similarity to that of G. macrocephalus ( Fuchise et al., 2009), Theragra chalcograma ( Kishimura et al., 2008) and Eleginus gracilis ( Fuchise et al., 2009). The results of the present study suggest that the peptidase purified from D. rhombeus
is a trypsin. Because of its high activity and stability at pH from 8.5 to 11, this enzyme has good potential to be used as an additive in commercial detergent formulations, which demonstrates the feasibility of using waste from D. rhombeus as a source of biomolecules of biotechnological interest. Enzymes from fish viscera contribute toward sustainable development by utilising Ipilimumab price byproducts from waste that
are usually discarded. This study was financially supported by the following Brazilian PCI 32765 agencies: Ministry of Fisheries and Aquaculture, CAPES, CNPq, FINEP, FACEPE and PETROBRAS. “
“Brazil is known for producing distilled alcoholic beverages from sugar-cane juice fermentation. Cachaça and other cane juice spirits are some of the beverages produced and appreciated in Brazil as well as in many countries around the world. Brazil’s annual cachaça production is estimated at 1.8 × 109 L. A significant amount is exported ( Bruno, 2006). Cachaça is a typical sugar-cane spirit produced exclusively in Brazil, obtained by the distillation of fermented sugar-cane juice, with unique sensorial characteristics,
to which sugar, as sucrose, may be added at up to 6 g per litre. Brazilian standards establish that this beverage should have an alcoholic content of 38–54% (v/v), at 20 °C, obtained by lowering the alcohol concentration of the simple distillate by water addition or by distillation of simple fermented sugar-cane juice ( Brasil, 2005). The production of cachaça can be described according to the following steps: the sugar-cane is harvested, transported and received in the processing plant, and ground. The sugar-cane juice obtained is decanted and diluted Thymidine kinase to 15 °Brix. Then it is fermented and subsequently distilled to separate the fractions. The distillation process, in traditional cachaça production, produces three fractions called head, heart, and tail, corresponding to the order in which they leave the alembic during the distillation process. Cachaça is distilled in copper retorts and copper contamination can take place. The producers consider that distillation in copper apparatus is, however, necessary to guarantee good sensorial properties in the product, due to the catalytic effects of the element on the formation of flavour ( Neves, Oliveira, Fernades, & Nobrega, 2007).