Comprehending the influence of critical cultivation parameters on the oleaginous behaviour of potent rotten fruit yeast isolates

Advances in the Application of the Non-Conventional Yeast Pichia kudriavzevii in Food and Biotechnology Industries

Pichia kudriavzevii is an emerging non-conventional yeast which has attracted increased attention for its application in food and biotechnology areas. It is widespread in various habitats and often occurs in the spontaneous fermentation process of traditional fermented foods and beverages. The contributions of P. kudriavzevii in degrading organic acid, releasing various hydrolase and flavor compounds, and displaying probiotic properties make it a promising starter culture in the food and feed industry. Moreover, its inherent characteristics, including high tolerance to extreme pH, high temperature, hyperosmotic stress and fermentation inhibitors, allow it the potential to address technical challenges in industrial applications. With the development of advanced genetic engineering tools and system biology techniques, P. kudriavzevii is becoming one of the most promising non-conventional yeasts. This paper systematically reviews the recent progress in the application of P. kudriavzevii to food fermentation, the feed industry, chemical biosynthesis, biocontrol and environmental engineering. In addition, safety issues and current challenges to its use are discussed.

Key media microsupplements for boosting de novo lipogenesis in an oleaginic yeast isolate

Present work reports a simple approach of microsupplementing nitrogen starved production media with potential activators of lipogenic enzymes for boosting de novo lipogenesis and demonstrated a 70-117 % rise in lipid content (LC) of yeast isolate Geotrichum candidum NBT-1. A hypothesis was proposed to increase the LC in the isolate at fixed minimum C/N ratio and small molecular activators for 3 key enzymes of lipogenic pathways. ATP citrate lyase, malic enzyme and acetyl CoA-carboxylase were screened in silico. Screened molecules were microsupplemented in nitrogen-starved media for examining the actual influence of their individual and synergistic combination on boosting LC of the isolate, which revealed sodium acetate as a major effector. Acetate in 4 mM concentration, independently and in combination with citric acid and sucrose resulted in a 2-2.2-fold increase in G. candidum LC from 24.8% in control to 49.27% and 53.96%, respectively. A volumetric lipid productivity of 0.0288 g/L/h with appreciable lipid coefficient of 9.77 was achieved in acetate supplemented media. Extracted lipids were 70-90% concentrated in a medium chain fatty acid (MCFA)-caprylic acid (C8:0), which has upsurging nutritional and nutraceutical importance.

Ir56d-dependent fatty acid responses in Drosophila uncover taste discrimination between different classes of fatty acids

Chemosensory systems are critical for evaluating the caloric value and potential toxicity of food. While animals can discriminate between thousands of odors, much less is known about the discriminative capabilities of taste systems. Fats and sugars represent calorically potent and attractive food sources that contribute to hedonic feeding. Despite the differences in nutritional value between fats and sugars, the ability of the taste system to discriminate between different rewarding tastants is thought to be limited. In Drosophila, taste neurons expressing the ionotropic receptor 56d (IR56d) are required for reflexive behavioral responses to the medium-chain fatty acid, hexanoic acid. Here, we tested whether flies can discriminate between different classes of fatty acids using an aversive memory assay. Our results indicate that flies are able to discriminate medium-chain fatty acids from both short- and long-chain fatty acids, but not from other medium-chain fatty acids. While IR56d neurons are broadly responsive to short-, medium-, and long-chain fatty acids, genetic deletion of IR56d selectively disrupts response to medium-chain fatty acids. Further, IR56d+ GR64f+ neurons are necessary for proboscis extension response (PER) to medium-chain fatty acids, but both IR56d and GR64f neurons are dispensable for PER to short- and long-chain fatty acids, indicating the involvement of one or more other classes of neurons. Together, these findings reveal that IR56d is selectively required for medium-chain fatty acid taste, and discrimination of fatty acids occurs through differential receptor activation in shared populations of neurons. Our study uncovers a capacity for the taste system to encode tastant identity within a taste category.

A Deuteromycete Isolate Geotrichum candidum as Oleaginous Cell Factory for Medium-Chain Fatty Acid-Rich Oils

Single cell oils (SCO) are oils derived from microorganisms which have potential to hyperaccumulate intracellular lipids (called oleaginous) under some essential nutrient (nitrogen, phosphorous or sometimes sulphur) starvation and an excess of carbon. The present work investigates the influence of these key parameters (for triggering oleaginicity), i.e. carbon (C) and nitrogen (N) on oleaginous behaviour of an oleaginous isolate, with the objective of improving the lipid content and obtaining oils of applicative interest. Eleven yeasts were isolated from rotten fruits and a unique yeast from rotten apple was screened on the basis of its ~ 20% (of dry mass) lipid content (LC), trademark of oleaginicity under nitrogen-stressed culture conditions. Subsequent investigation on influence of C, N and w/w ratio of carbon source concentration (Cs) to nitrogen source concentration (Ns) was conducted on this isolate. The isolate was identified as a Deuteromycete-Geotrichum candidum. 4.8 g/l was found to be minimum N concentration and glucose as suitable C source for optimum balance between biomass and lipid content. The highest LC of 73.6% (172.5% higher compared to 27% LC at Cs/Ns 80/4.8) was obtained at Cs/Ns 150/4.8 with a lipid coefficient of 8.7 (g lipid/100 g substrate). While remarkably higher production economy (lipid coefficient of 28.45) was noted at Cs/Ns 100/4.8 with significant LC of 54.4% (~ 100% higher than at Cs/Ns 80/4.8). The derived oils were predominantly rich in medium-chain fatty acids (MCFA)-caprylic acid, rare in plant oils. G. candidum is a previously referred oleaginous species; however, for the first time this study illustrates its detailed oleaginous behaviour and lipid compositional characteristics with varying nutritional parameters. The work is a progressive contribution towards current and upcoming researches in field of SCOs. Compositional characteristics of derived oils, make it an important candidate for potential medical and nutritional applications in future.

Modified high-throughput Nile red fluorescence assay for the rapid screening of oleaginous yeasts using acetic acid as carbon source

Background

Over the last years oleaginous yeasts have been studied for several energetic, oleochemical, medical and pharmaceutical purposes. However, only a small number of yeasts are known and have been deeply exploited. The search for new isolates with high oleaginous capacity becomes imperative, as well as the use of alternative and ecological carbon sources for yeast growth.

Results

In the present study a high-throughput screening comprising 366 distinct yeast isolates was performed by applying an optimised protocol based on two approaches: (I) yeast cultivation on solid medium using acetic acid as carbon source, (II) neutral lipid estimation by fluorimetry using the lipophilic dye Nile red.

Conclusions

Results showed that, with the proposed methodology, the oleaginous potential of yeasts with broad taxonomic diversity and variety of growth characteristics was discriminated. Furthermore, this work clearly demonstrated the association of the oleaginous yeast character to the strain level, contrarily to the species-level linkage, as usually stated.

Volatile fatty acids as novel building blocks for oil-based chemistry via oleaginous yeast fermentation

Microbial oils are proposed as a suitable alternative to petroleum-based chemistry in terms of environmental preservation. These oils have traditionally been studied using sugar-based feedstock, which implies high costs, substrate limitation, and high contamination risks. In this sense, low-cost carbon sources such as volatile fatty acids (VFAs) are envisaged as promising building blocks for lipid biosynthesis to produce oil-based bioproducts. VFAs can be generated from a wide variety of organic wastes through anaerobic digestion and further converted into lipids by oleaginous yeasts (OYs) in a fermentation process. These microorganisms can accumulate in the form of lipid bodies, lipids of up to 60% wt/wt of their biomass. In this context, OY is a promising biotechnological tool for biofuel and bioproduct generation using low-cost VFA media as substrates. This review covers recent advances in microbial oil production from VFAs. Production of VFAs via anaerobic digestion processes and the involved metabolic pathways are reviewed. The main challenges as well as recent approaches for lipid overproduction are also discussed.