4% identity at the cDNA level to that of Litopenaeus vannamei and Marsupenaeus japonicus, respectively. The predicted amino acid sequence had an overall similarity with a comparable region of L. vannamei (96.8%) and M. japonicus (93.4%). Based
on the cDNA sequence, the genomic structure of the gene was characterized. Sequence analysis revealed that the Fcchi-3 gene was composed of seven exons with 411, 252, 186, 132, 171, 117 and 135 bp and six introns with 232, 196, 121, 90, 159 and 157 bp. Analysis by RT-PCR revealed that Fcchi-3 was a hepatopancreas specific gene. Semi-quantitative RT-PCR analysis revealed that Fcchi-3 transcript Prexasertib purchase was down-regulated significantly in response to the challenge of WSSV at 5 h post-injection and then came back to normal level at 37 h. A fusion protein containing Fcchi-3 was produced and the purified recombinant protein exhibited similar biological function. The result of identification through LC-ESI-MS showed that three peptide fragments (-MAADPVLR-, -ATIDPAYNVPELSK- and -AILAVGGWNEGSPK-) of the recombinant protein were identical to the corresponding sequence of L. vannamei chitinase-3. The recombinant Fcchi-3 could
degrade the colloid chitin confirming that the recombinant protein is actually the chitinase.”
“Oil-in-water nanoemulsions are being used in the food, beverage, and pharmaceutical industries to encapsulate, GW4869 purchase protect, and deliver lipophilic bioactive components, such as drugs, vitamins, and nutraceuticals. However, nanoemulsions are thermodynamically unstable FK228 cost systems that breakdown over time. We investigated the influence of posthomogenization cosurfactant addition on the thermal and storage stability of vitamin E acetate nanoemulsions (VE-nanoemulsions) formed from 10% oil phase (VE), 10% surfactant (Tween 80), 20% cosolvent (ethanol), and 60% buffer solution (pH 3). Addition of a nonionic cosurfactant (0.5% Tween 20) caused
little change in droplet charge, whereas addition of anionic (0.5% SDS) or cationic (0.5% lauric arginate) cosurfactants caused droplets to be more negative or positive, respectively. Tween 20 addition had little impact on the cloud point of VE-nanoemulsions, but slightly decreased their isothermal storage stability at elevated temperatures (37 degrees C). Lauric arginate or SDS addition appreciably increased the cloud point, but did not improve storage. stability. Indeed, SDS actually decreased the storage stability of the VE-nanoemulsions at elevated temperatures. We discuss these effects in terms of the influence of surfactants on droplet growth through Ostwald ripening and/or coalescence mechanisms. This study provides important information about the effect of cosurfactants on the stability of VE-nanoemulsions suitable for use in pharmaceutical and food products.
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