ABSTRACT
(1) Background: Lipases and esterases are important enzymes that share the α/ß hydrolase fold. The activity and cellular localization are important characteristics to understand the role of such enzymes in an organism. (2) Methods: Bioinformatic and biochemical tools were used to describe a new α/ß hydrolase from a Litopenaeus vannamei transcriptome (LvFHS for Family Serine Hydrolase). (3) Results: The enzyme was obtained by heterologous overexpression in Escherichia coli and showed hydrolytic activity towards short-chain lipid substrates and high affinity to long-chain lipid substrates. Anti-LvFHS antibodies were produced in rabbit that immunodetected the LvFSH enzyme in several shrimp tissues. (4) Conclusions: The protein obtained and analyzed was an α/ß hydrolase with esterase and lipase-type activity towards long-chain substrates up to 12 carbons; its immunodetection in shrimp tissues suggests that it has an intracellular localization, and predicted roles in energy mobilization and signal transduction.
Subject(s)
Hydrolases/metabolism , Penaeidae/enzymology , Amino Acid Sequence , Animals , Hydrolases/chemistry , Hydrolases/genetics , Intracellular Space/metabolism , Models, Molecular , Penaeidae/cytology , Protein Structure, Secondary , Serine/metabolism , Signal TransductionABSTRACT
BACKGROUND: The giant squid (Dosidicus gigas) has been proposed as raw material to obtain myofibrillar protein concentrates. However, it has been observed that colloidal systems formed from squid proteins have limited stability. Therefore, the isolation and characterization of the actomyosin-paramyosin isolated (API) complex were performed, because they are the main proteins to which functionality has been attributed. RESULTS: Densitogram analysis revealed 45% of actin, 38% of myosin and 17% of paramyosin. The amino acid profile indicates a higher proportion of acidic amino acids, which gives a higher negative charge; this was supported by the zeta potential. Total sulfhydryl (TSH) content was lower compared with proteins of other aquatic species. CONCLUSION: The higher percentage of actin in relation to myosin, the presence of paramyosin, as well as the low content of sulfhydryl groups, could comprise the main causes of the low technological functional property of proteins from D. gigas mantle. © 2017 Society of Chemical Industry.
Subject(s)
Actomyosin/chemistry , Decapodiformes/chemistry , Tropomyosin/chemistry , Actins/chemistry , Actins/metabolism , Actomyosin/metabolism , Animals , Decapodiformes/metabolism , Protein Stability , Seafood/analysis , Tropomyosin/metabolismABSTRACT
The aim of this study was to compare in vitro the antioxidant potential of sorghum kafirin and sorghum flour and their influence on lipids and antioxidant capacity in rats. The antioxidant activity in sorghum kafirin extract measured by the DPPH and TEAC methods was increased 30 and 65 times, respectively, compared to that of its counterpart, sorghum flour. According to electrophoresis assay, the kafirins tert-butanol extract showed a high proportion of α-kafirin monomers, and its amino acid composition revealed higher hydrophobic amino acid content such as alanine, isoleucine, leucine, tyrosine and phenylalanine than sorghum flour extract. Diets supplemented with sorghum kafirin extract have improved lipid metabolism and increased the serum antioxidant potential (67%) especially in rats fed with added cholesterol. The bioactive peptides generated from kafirin in vivo hydrolysis appear to be associated with the positive effect on serum lipids and antioxidant activity. According to these results, sorghum kafirin extract at the levels used in this study apparently could be used for prevention of atherosclerosis and other chronic diseases.
Subject(s)
Antioxidants/metabolism , Dietary Supplements , Hyperlipidemias/diet therapy , Hyperlipidemias/metabolism , Lipids/blood , Plant Proteins/administration & dosage , Animals , Dose-Response Relationship, Drug , Flour , Hyperlipidemias/diagnosis , Rats , Rats, Wistar , Treatment OutcomeABSTRACT
Three isoamylases of Rhyzopertha dominica (termed RdA70, RdA79, and RdA90 according to their relative mobility in gel electrophoresis) were isolated by ammonium sulfate fractionation and hydrophobic interaction chromatography. RdA70 and RdA79 showed an optimal pH of 7.0, whereas for RdA90 the optimal pH was 6.5. The three isoamylases remained stable at 50 degrees C for 1 h, but at 60 degrees C, all lost 50% of their activity in 20 min and were completely inactivated in 1 h. RdA70 and RdA79 were inhibited by albumin extracts from wheat samples varying widely in amylase inhibitory activity; however, RdA90 was highly resistant to inhibition. beta-Mercaptoethanol up to 30 mM increased the activity of the three isoamylases by 2.5-fold. The action pattern of the three isoamylases was typical of endoamylases; however, differences were observed on the hydrolytic efficiency rates measured as V(max)/K(m) ratio on starch, amylopectin, and amylose. The hydrolyzing action of RdA90 on starch and amylopectin (V(max)/K(m)=90.4+/-2.3 and 78.9+/-6.6, respectively) was less efficient than that on amylose (V(max)/K(m)=214+/-23.2). RdA79 efficiently hydrolyzed both amylopectin and amylose (V(max)/K(m)=260.6+/-12.9 and 326.5+/-9.4, respectively). RdA70 hydrolyzed starch and amylose at similar rates (V(max)/K(m)=202.9+/-5.5 and 215.9+/-6.2, respectively), but amylopectin was a poor substrate (V(max)/K(m)=124.2+/-7.4). The overall results suggest that RdA70 and RdA79 appear to belong to a group of saccharifying isoamylases that breaks down long fragments of oligosaccharide chains produced by the hydrolytic action of RdA90. The simultaneous action of the three isoamylases on starch, aside from the high resistance of RdA90 to wheat amylase inhibitors, might allow R. dominica to feed and reproduce successfully on the wheat kernel.