Nowadays resistant bacteria represents a growing problem which seriously affects human health. Prevalence and inappropriate use of antibiotics has created a strong evolutionary pressure on the emergence of bacteria that are either naturally resistant to antibiotics or have the possibility to acquire resistance. In the developed world bacterial infections are still a major cause of death. This is why the progress in the synthesis of new antimicrobial agents is urgently needed. Recently new active substances with different mechanisms of action are being discovered in comparison to the compounds on the market. The main reason is that bacteria are acquiring multidrug resistance. As a last line of defense for multidrug resistant strains, only a few antimicrobial agents are currently available. A lot of attention is devoted to agents that directly affects cell wall synthesis. Peptidoglycan in the cell wall is an important target, because it can be blocked by inhibiting the synthesis of several different enzymes. Glycosyltransferase and transpeptidase domain of penicillin-binding proteins participate in the final stages of peptidoglycan synthesis. Within the framework of the thesis, we planned and synthesized inhibitors of bacterial glycosyltransferase. Enzyme glycosyltransferase polymerizes the glycan chain using the lipid II substrate. There are two main groups of inhibitors of bacterial glycoslytransferase. In the first one are compounds which bind to the substrate by identifying the structural elements within lipid II and emerging peptidogylcan. In the second one are compounds which bind to glycosyltransferase. We planned and synthesized derivatives of tryptamine and 5-methoxytryptamine, which presumably inhibit glycosyltranferase by binding to lipid II. Various methods for identification such us NMR, IR and MS were used. The purity of the compounds was identified with HPLC. The compounds were also sent for testing cytotoxicity and antimicrobial effectiveness. The test results have shown that some of the compounds have good antimicrobial activity and a low level of cytotoxicity.