SECTION I: MOLECULAR GENETIC ENGINEERING AND BIOCHEMICAL TECHNOLOGY 18719. Barnthip, N.; Teeka, J.; Kantha, P.; et al. Fabrication and characterization of polycaprolactone/cellulose acetate blended nanofiber mats containing sericin and fibroin for biomedical application. Sci Rep 2022, 12(1), 22370.20. Langwald, S.V.; Ehrmann, A.; Sabantina, L. Measuring physical properties of electrospun nanofiber mats for different biomedical applications. Membranes 2023, 13(5), 488.21. Vlietinck, A.J. Screening methods for detection and evaluation of biological activities of plant preparations. InBioassay methods in natural product research and drug development. Dordrecht: Springer, Netherlands, 1999, pp. 37-52.22. McKane, L.; Kandel, J. Bacterial Growth and Laboratory Cultivation. In: Microbiology Essentials and Applications. New York: McGraw-Hill, 1996, pp. 97-125.23. Rezazadeh, A.; Kia, E.M.; Hamishehkar, H.; Jahani, B.K.G.; Ghasempour, Z. Capsaicin-incorporated zein electrospun nanofibers: Characterization and release behavior. Food Biosci 2022, 49, 101843.24. Al-Musawi, S.; Albukhaty, S.; Al-Karagoly, H.; et al. Antibacterial activity of honey/chitosan nanofibers loaded with capsaicin and gold nanoparticles for wound dressing. Molecules 2020, 25(20), 4770.25. Kolonko, A.K.; Efing, J.; Gonz%u00e1lez-Espinosa, Y.; et al. Capsaicin-loaded chitosan nanocapsules for wtCFTRmRNA delivery to a cystic fibrosis cell line. Biomedicines 2020, 8(9), 364.26. Kim, S. Competitive biological activities of chitosan and its derivatives: Antimicrobial, antioxidant, anticancer, and antiinflammatory activities. Int J Polym Sci 2018, 2018(1), 1708172.