RESUMO
Jikita is a traditional fermented beverage popular among the Oromo ethnic groups in Ethiopia. It is made from cereal and has a high alcohol content and thick texture. Jikita is widely consumed in the Western Oromia region of Ethiopia and holds significant socioeconomic and cultural importance. However, there is limited knowledge regarding the microbial quality and safety of Jikita, as well as its physicochemical and proximate composition. This study is aimed at assessing the current state of Jikita production and consumption. Samples were collected from two districts in the West Shewa Zone, where Jikita is most prevalent. A survey was conducted to gather information on production methods, sanitary conditions, ingredient composition, and the socioeconomic importance of Jikita. The samples were then analyzed for microbial counts, identification, and dynamics, as well as for pH, titratable acidity (TA), moisture, total solid, alcohol, carbohydrate, fat, and protein contents. The results showed that the majority of producers and sellers were middle-aged women who did not use protective clothing. Microbial counts revealed that the levels of aerobic mesophilic bacteria, yeasts, and lactic acid bacteria (LAB) were below the WHO/FDA standards, and no Salmonella spp. were detected. The samples exhibited varying pH, TA, moisture, total solid, alcohol, carbohydrate, fat, and protein contents. The microbial dynamics during fermentation showed that different groups of bacteria and yeasts dominated different stages. The overall microbial quality of Jikita was indicative of spoilage microorganisms. However, the duration of fermentation inhibited the growth of pathogenic microorganisms and extended the shelf life of the product to more than 2 months. This study provides valuable insights into traditional fermented beverages and their implications for public health. It also suggests the need for improved hygiene practices and quality control measures in Jikita production and consumption.
RESUMO
Recent studies on population genomics of Saccharomyces cerevisiae have substantially improved our understanding of the genetic diversity and domestication history of the yeast. However, the origin of the domesticated population of S. cerevisiae and the genomic changes responsible for ecological adaption of different populations and lineages remain to be fully revealed. Here we sequenced 64 African strains from various indigenous fermented foods and forests in different African countries and performed a population genomic analysis on them combined with a set of previously sequenced worldwide S. cerevisiae strains representing the maximum genetic diversity of the species documented so far. The result supports the previous observations that the wild and domesticated populations of S. cerevisiae are clearly separated and that the domesticated population diverges into two distinct groups associated with solid- and liquid-state fermentations from a single ancestor. African strains are mostly located in basal lineages of the two domesticated groups, implying a long domestication history of yeast in Africa. We identified genes that mainly or exclusively occur in specific groups or lineages and genes that exhibit evident group or lineage specific allele distribution patterns. Notably, we show that the homing endonuclease VDE is generally absent in the wild but commonly present in the domesticated lineages of S. cerevisiae. The genes with group specific allele distribution patterns are mostly enriched in functionally similar or related fundamental metabolism processes, including the evolutionary conserved TOR signaling pathway.