Recent Advances in Applied Microbiology: Editorial

The importance of microbiology has grown exponentially since the development of genomics, transcriptomics, and proteomics, making it possible to clarify microbial biogeochemical processes and their interactions with macroorganisms in both health and disease. Particular attention is being payed to applied microbiology, a discipline that deals with the application of microorganisms to specific endeavors, whose economic value is expected to exceed USD 675.2 billion by 2024. In the Special Issue “Recent Advances in Applied Microbiology”, twenty-four papers were published (four reviews and twenty original research papers), covering a wide range of subjects within applied microbiology, including: microbial pathogenesis, the health-promoting properties of microorganisms and their by-products, food conservation, the production of alcoholic beverages, bioremediation and the application of microbiology to several industrial processes.

fermentations. The review by Kobayashi et al. [6] described the d-amino acids produced by lactic acid bacteria. Besides being important for the flavour characteristics of lactic-acid-fermented foods, authors reported that those amino-acids have functional roles (e.g., in increasing collagen and preventing cells' oxidation). Another team provided an update on the research on diatoms, a fundamental source of carbon, using a very interesting methodology-latent dirichlet allocation (LDA), a generative model that identifies the investigation trends in a given topic [7].
The original research articles published also covered a wide range of sectors. Across the field of medical microbiology, an innovative study explored the immunomodulatory properties of a mixture of lactic acid bacteria with probiotic features in an in vitro model of macrophage-like cells and a chemically induced colorectal cancer model [8]. Another interesting study reported the hepatoprotective properties of dietary Clostridium butyricum; such effects were mediated by the modulation of genes and pathways associated with immunoregulation and lipid metabolism [9]. Combarros-Fuertes et al. [10] analysed the mechanisms underlying the antibacterial activity of manuka honey; it induced metabolic disruption in Staphylococcus aureus and was able to block efflux pump activity in a dose-dependent fashion in Escherichia coli. Also within this scope, Rocha et al. [11] analysed the diversity of the endophytic fungi produced by the medicinal plant Schinus terebinthifolius, the chemical compounds produced by the endophytes, and their antibacterial and antioxidant activities.
Concerning the topic of food microbiology, Cao et al. [12] described, for the first time, the promising characteristics of encapsulated Bdellovibrio powder as a bio-disinfectant against whiteleg shrimp-pathogenic vibrios. Regarding the production of alcoholic beverages, Pereira et al. [13] studied the volatile composition and sensory properties of mead produced using free and immobilized yeasts. Another Portuguese study by Esteves et al. [14] provided evidence that non-conventional yeast Saccharomycodes ludwigii has potential for wine production, either in monoculture fermentation or as a co-starter culture with Saccharomyces cerevisiae.
Within the scope of agricultural microbiology, Xu et al. [15] evaluated the effects of eucalyptus age and species on the soil microbial biomass and enzyme activities. In addition, two studies, performed by the same group, intended to explore the diversity and characteristics of rumen bacterial community [16], the digestive ability and physiological characteristics of finishing cattle after dietary changes [17].
Three studies provided advances in the field of bioremediation. Fang et al. [18] studied three denitrifying bacteria and two functional genes as potential biomarkers for total nitrogen removal. Cai et al. [19] used metagenomics analysis to explore the biodegradation related metabolism in an abnormally low dissolved inorganic carbon petroleum-contaminated aquifer. Algal biomass degradation by marine fungi isolated from the brown seaweed Fucus sp. was also studied [20]. Another team focused the production of biodiesel using E. coli with an engineered overexpressed fatty acid operon [21].
Within the framework of industrial bioprocesses, Gomes et al. [22] assessed the production of hyaluronic acid using Kluyveromyces lactis following the addition of the genes hasA and hasB (from Pasteurella multocida and Xenopus leavis, respectively). The experiments carried out by Lee et al. [23], using Deinococcus geothermalis, uncovered the pathway towards a better understanding of the physiological pros and cons of transposition phenomena. A German team investigated glucose-6-phosphate dehydrogenase genes expressed heterologously in a zwf1 deletion yeast. Considering the major role of those genes in human diseases and in plant growth, such systems are expected to possess a broad range of applications [24]. In another publication, Feng et al. [25], using a multilayer dielectric model of filamentous fugal cells, provided theoretical support for applying high-voltage pulsed electric fields to kill fungi, which may be useful for several practical applications. Aspergillus oryzae is an important industrial microorganism for the production of traditional fermented products and enzymes; the report of Shao et al. [26] provides innovative information regarding the responses of this filamentous fungi against various oxidative stresses. Last but not the least, a Korean group used Pseudomonas fluorescens to produce bacteriotoxic phospholipase A1, which is useful to efficiently degum oil [27].