Luciana Francisco Fleuri

Seed lipases: sources, applications and properties - a review

This paper provides an overview regarding the main aspects of seed lipases, such as the reactions catalyzed, physiological functions, specificities, sources and applications. Lipases are ubiquitous in nature and are produced by several plants, animals and microorganisms. These enzymes exhibit several very interesting features, such as low cost and easy purification, which make their commercial exploitation as industrial enzymes a potentially attractive alternative. The applications of lipases in food, detergents, oils and fats, medicines and fine chemistry, effluent treatment, biodiesel production and in the cellulose pulp industry, as well as the main sources of oilseed and cereal seed lipases, are reviewed.

Orange and mango by-products: Agro-industrial waste as source of bioactive compounds and botanical versus commercial description—A review

ABSTRACT Vegetal origin agro-industrial wastes are seen as a problem since the beginning of the industrial processes; however, they are becoming attractive as raw material for numerous purposes such as active enzymes and in the molecule bioprospecting area. Moreover, it is difficult to understand what the studied residue is consisted of in studies on agro-industrial waste, since the wastes names and constituents may vary according to the used equipment, as for waste from orange and mango processing. Thus, defining a specific waste, including comparisons between botanical and industrial descriptions, can help in understanding studies about wastes. The current review sought to contextualize such a scenario by gathering definitions, relevant information and studies on agro-industrial wastes and by-products, international enzymes market, and recent studies on bioactive compounds. In this context, waste from orange and mango are interesting because of the expression of these fruits on the world market; moreover, the processing does not include steps that could disrupt these biomolecules.

Novel inexpensive fungi proteases: Production by solid state fermentation and characterization.

A comparative study was carried out for proteases production using agroindustrial residues as substrate for solid state fermentation (SSF) of several fungal strains. High protease production was observed for most of the microorganisms studied, as well as very different biochemical characteristics, including activities at specific temperatures and a wide range of pH values. The enzymes produced were very different regarding optimum pH and they showed stability at 50 °C. Aspergillus oryzae showed stability at all pH values studied. Penicillium roquefortii and Aspergillus flavipes presented optimum activity at temperatures of 50 °C and 90 °C, respectively. Lyophilized protease from A. oryzae reached 1251.60 U/g and yield of 155010.66 U/kg of substrate. Therefore, the substrate as well as the microorganism strain can modify the biochemical character of the enzyme produced. The high protease activity and stability established plus the low cost of substrates, make these fungal proteases potential alternatives for the biotechnological industry.

Obtaining lipases from byproducts of orange juice processing

The presence of lipases was observed in three byproducts of orange juice processing: peel, core and frit. The enzymes were characterised biochemically over a wide pH range from neutral (6-7) to alkaline (8-9). The optimal temperature for the activity of these byproducts showed wide range at 20°C to 70°C, indicating fairly high thermostability. The activities were monitored on p-NP-butyrate, p-NP-laurate and p-NP-palmitate. For the first time, lipase activity was detected in these residues, reaching 68.5 lipase U/g for the crude extract from fractions called frit.

Production of fungal lipases using wheat bran and soybean bran and incorporation of sugarcane bagasse as a co-substrate in solid-state fermentation

Fungal strains were screened for lipase producing activities and 10 strains were classified as good producers. Aspergillus sp., Fusarium sp., and Penicillium sp. exhibited the highest activities when fermented in wheat bran (WB) and soybean bran (SB). No fungal growth was observed using sugarcane bagasse (CB). An experimental design was applied to incorporate CB into the fermentation process for lipase production by Aspergillus sp. and Penicillium sp., and to evaluate the best moisture content for the substrate. Strains studied achieved maximum lipase activities with 25% CB combined with 75% WB or SB at 40% moisture content. The highest lipase activities were observed for WB and SB, and for SB combined with CB using Aspergillus sp. Fermentation of 96 h was the optimum period for enzyme production.

Organic and conventional fertilisation procedures on the nitrate, antioxidants and pesticide content in parts of vegetables

Different parts of plant foods are generally discarded by consumers such as peel, stalk and leaves, which could however possess a nutritional value. However, few studies have analysed the composition of these marginal foods. The phenolic compound, flavonoid, polyamine, nitrate and pesticide contents of parts of vegetables that are usually discarded – but which were cultivated according to conventional and non-conventional procedures – were analysed to provide suggestions on how to improve the consumption of these parts and to reduce the production of urban solid waste. Few, but significant, differences between the two manuring procedures were observed. Higher nitrate content and the presence of organochlorine pesticides were found in conventional cultivated papaya peel, lemon balm leaves, jack fruit pulp, and beet stalk and peel. Discarded parts of plant foods such as stalk, leaves and peels can be used as a source of antioxidant compounds, such as phenolic compounds.

Exploration of Microorganisms Producing Bioactive Molecules of Industrial Interest by Solid State Fermentation

The prospect of biomolecules using microorganisms in fermentation processes is widely used, in this context to solid state fermentation (SSF) has advantages such as the possibility of using agricultural and industrial waste and reduction of water waste. Studies show that different microorganisms can be used in SSF; actinomyces and fungi are the most used due to growth in media with low water activity. Among the highlight biomolecules produced are antibiotics, anticarcinogenic agents, anticoccidians, antiviral, neuroactive, antioxidants, and enzymes. The enzymes are produced in greater scale among the different classes; hydrolases have gained importance because of cellulases, hemicellulases, proteases, chitinases, lipases, and phytases. Cellulases are a complex capable of acting on cellulosic materials, promoting its hydrolysis to release sugars, of which glucose is the one with largest industrial interest. Xylanolytic enzymes act on xylan, hemicellulose components, which may be attached to the cellulose and lignin in the plant cell wall. The study of chitinase has been stimulated by their possible involvement as agents of defense against pathogenic organisms that contain chitin, such as insects, nematodes, and fungi. Proteases catalyze the hydrolysis of peptide bonds of proteins and may have activity on ester and amide bonds. Lipases allow catalysis of the hydrolysis and synthesis, often in chemo, regal, or enantioselective reactions. Furthermore, phytase catalyzes the hydrolysis of phytate to phosphate and inorganic phosphorus, increasing the bioavailability of phosphorus for monogastric animals.

Bioremediation of cooking oil waste using lipases from wastes

Cooking oil waste leads to well-known environmental impacts and its bioremediation by lipase-based enzymatic activity can minimize the high cytotoxic potential. In addition, they are among the biocatalysts most commercialized worldwide due to the versatility of reactions and substrates. However, although lipases are able to process cooking oil wastes, the products generated from this process do not necessarily become less toxic. Thus, the aim of the current study is to analyze the bioremediation of lipase-catalyzed cooking oil wastes, as well as their effect on the cytotoxicity of both the oil and its waste before and after enzymatic treatment. Thus, assessed the post-frying modification in soybean oil and in its waste, which was caused by hydrolysis reaction catalyzed by commercial and home-made lipases. The presence of lipases in the extracts obtained from orange wastes was identified by zymography. The profile of the fatty acid esters formed after these reactions was detected and quantified through gas chromatography and fatty acids profile compared through multivariate statistical analyses. Finally, the soybean oil and its waste, with and without enzymatic treatment, were assessed for toxicity in cytotoxicity assays conducted in vitro using fibroblast cell culture. The soybean oil wastes treated with core and frit lipases through transesterification reaction were less toxic than the untreated oils, thus confirming that cooking oil wastes can be bioremediated using orange lipases.

Improvement of lipase obtaining system by orange waste-based solid-state fermentation: production, characterization and application

Abstract Lipases are an economic important group of biocatalysts that can be produced by some fungal under solid-state fermentation. Orange wastes are source of lipases and potential substrates for lipases production. This work assessed 19 fugal strains cultivated in Citrus sinensis cv. Hamlin orange wastes (peel, frit and core) for production of lipases in order to generate compounds with antioxidant, antimicrobial and cytotoxic properties. Fifteen of those fungi grew and produced lipases, mainly the Aspergillus brasiliensis [National Institute of Quality Control (INCQS) 40036]/frit system, which showed 99.58 U/g total lipase. The substrate with the highest production of lipase was frit with 26.67 and 78.91 U/g of total lipases produced on average by the 15 microorganisms. Aspergillus niger 01/frit (33.53 U/g) and Aspergillus niger (INCQS 40015)/frit (34.76 U/g) systems showed the highest specificity values in all the herein tested synthetic substrates with 4, 12 and 16 carbons. Analysis of the fatty acid profile of hydrolysis products obtained in the most prominent systems applied to corn and sunflower oils showed: palmitic acid, linoleic acid, oleic acid, and stearic acid. These acids showed antioxidant capacity of up to 58% DPPH (2,2-diphenyl-1-pierylhydrazyl) radical reduction and antibacterial activity against Escherichia coli, Listeria monocytogenes, Pseudomonas aureginosa, Salmonella Enteritidis and Staphylococcus aureus, as well as cytotoxicity to SCC9 cells (squamous cancer cells).

Influence of sanitation on the physico-chemical and microbiological quality of organic and conventional broccoli

The present study was carried out in order to evaluate the effect of chlorinated and ozonized water on the physico-chemical characteristics of broccoli, produced under organic and conventional cultivation procedures. Organic and conventional broccolis were subjected to two sanitation treatments, using chlorine and ozone, and were kept under cold storage for seven days. Analyses of pH, titrable acidity, soluble solids and weight loss were performed and the content of Cu, Mn and Zn was determined. In addition, the presence of pesticides was verified. The results show no influence of the cultivation method or the sanitation treatment on sample weight loss. Cultivation methods and sanitizing treatments affected broccoli pH, titratable acidity, and soluble solids during the evaluation period. No differences regarding the metal content on organic and conventional broccoli were observed. Furthermore, the presence of organochlorine compounds, nor other pesticides, was not detected both in organic and conventional vegetables. Keywords : Brassica oleracea var. Italica , pesticide residues, titrable acidity, soluble solids, pH, metals, ozone, sanitation treatment African Journal of Biotechnology Vol. 12(18), pp. 2456-2463