Abstract: | Seven variants of elongation factor G (EF-G) from Thermus thermophilus with mutations Glu494Ile, Gly495Asp, Lys496Ile, His509Leu, Lys564Ile and Tyr568Lys located in the beta-sheet of its domain IV and mutation Gly553Asp in a loop between domain III and IV were constructed using polymerase chain reaction. Functional tests demonstrated that only mutation Lys496Ile, located in the vicinity of the loop 501-504, inhibits translocation effectiveness, in the presence of the mutated EF-G. The functional analysis of all mutations constructed up to now in domain IV reveals that only those located in loops 501-504 and 573-578 markedly decrease the translocation activity of EF-G. These loops are located at the tip of domain IV and close to the decoding center of the 30S ribosomal subunit upon EF-G interaction with the ribosome. The functional role of EF-G and its domain IV in ribosomal translocation is discussed. |