Isolation, Identification, and Characterization of Pectinolytic Yeasts for Starter Culture in Coffee Fermentation

Pectinases are the growing enzymes of biotechnological sector, showing gradual increase in their market. They hold a leading position among the commercially produced industrial enzymes. These enzymes are ecofriendly tool of nature that are being used extensively in various industries like wine industry; food industry; paper industry for bleaching of pulp and waste paper recycling; in the processing of fruit–vegetables, tea–coffee, animal feed; extraction of vegetable oil and scouring of plant fibres. Moreover, enzymatic catalysis is preferred over other chemical methods, since it is more specific, less aggressive and saves energy. This is the review which covers the information available on the applicability potential of this group of enzymes in various sectors.

The post-harvest treatment and processing of fresh coffee cherries can impact the quality of the unroasted green coffee beans. In the present case study, freshly harvested Arabica coffee cherries were processed through two different wet and dry methods, to monitor differences in the microbial community structure, as well as substrate and metabolite profiles. The changes were followed throughout the entire post-harvest processing chain, from harvest to drying, by implementing up-to-date techniques, encompassing multiple-step metagenomic DNA extraction, high-throughput sequencing and multiphasic metabolite target analysis. During wet processing, a cohort of lactic acid bacteria ( i.e., Leuconostoc, Lactococcus, Lactobacillus ) was the most commonly identified microbial group, along with enterobacteria and yeasts ( Pichia and Starmerella ). Several of the metabolites associated with lactic acid bacterial metabolism ( e.g. , lactic acid, acetic acid, and mannitol) produced in the mucilage were also found in the endosperm. During dry processing, acetic acid bacteria ( i.e., Acetobacter, Gluconobacter ) were most abundant, along with non- Pichia yeasts ( Candida, and Saccharomycopsis ). Accumulation of associated metabolites ( e.g. , gluconic acid and sugar alcohols) took place in the drying outer layers of the coffee cherries. Consequently, both wet and dry processing significantly influenced the microbial community structures and hence the composition of the final green coffee beans. This systematic approach dissecting the coffee ecosystem contributes to a deeper understanding of coffee processing and could constitute a state-of-the-art framework for the further analysis and subsequent control of this complex biotechnological process. IMPORTANCE Coffee production is a long process starting with the harvest of coffee cherries and the on-farm drying of their beans. In a later stage, the dried green coffee beans are roasted and ground in order to brew a cup of coffee. The on-farm, post-harvest processing method applied can impact the quality of the green coffee beans. In the present case study, freshly harvested Arabica coffee cherries were processed through wet and dry processing, which are mainly encountered worldwide in four distinct variations. The microorganisms present and the chemical profiles of the coffee beans were analyzed throughout the entire post-harvest processing chain. The implemented, up-to-date techniques facilitated the investigation of differences related to the method applied. For instance, different microbial groups were associated with wet and dry processing. Additionally, accumulation of metabolites associated with the respective microorganisms took place on the final green coffee beans.