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Critical sites determining the resistance phenotype of ABC proteins from the ARE subfamily and the molecular mechanism of their function
Lenart, Jakub
Vga(A) and Msr(A) are resistance proteins belonging to the ARE subfamily of ABC -F proteins. They confer resistance to inhibitors of the peptidyltransferase center. It has been proposed that the mechanism of resistance is based on interaction with a transmembrane partner that forms the functional transporter. Their ribosomal function has been described by cryoelectron microscopy of ribosome complexes with ABCF mutants unable to hydrolyze ATP. However, the exact mechanism of resistance is not yet known. We have produced the mutant proteins combining the four amino acid residues in Vga(A) and Vga(A)LC at the linker tip, and we were the first to describe the effects of substrate specificity of the single mutants. Amino acid positions 212 and 220 are important for resistance to lincosamides and pleuromutilins, respectively, while position 219 is responsible for resistance to streptogramin A. Each amino acid property plays a critical role in conferring antibiotic specificity, as confirmed by the fact that amino acid substitution at position K218T in the Vga(A) protein causes the shift in resistance from streptogramins to lincosamides and pleuromutilins. The mechanism of resistance conferred by Vga(A) is ribosomal protection. This is supported by the fact that the rate of [3H]-lincomycin accumulation in...
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Subcellular localization of resistant proteins Vga(A)LC and Msr(A) using fluorescence microscopy
Nguyen Thi Ngoc, Bich ; Balíková Novotná, Gabriela (advisor) ; Lichá, Irena (referee)
Vga(A)LC and Msr(A) are clinically significant resistant proteins in staphylococci that confer resistance to translational inhibitors. They belong to ARE ABC-F protein subfamily, which is part of ABC transporters. Unlike typical ABC transporters, ABC-F proteins do not have transmembrane domains that are responsible for the transport of substances through the membrane. Therefore, they do not have characteristic transport function but regulatory or resistance function. Their mechanism of action on the ribosome has been described only recently, where these proteins displace the antibiotic from the ribosome. However, some aspects of their function are still unclear. For example, what is the function of the Vga(A) location on a membrane that has been detected in the membrane fraction but not in the ribosomal. In this work, using fluorescence microscopy, I observed subcellular localization of the Vga(A)LC-mEos2, Vga(A)LC-GFP and Msr(A)-eqFP650 resistant fusion proteins in live cells of S. aureus under different culture conditions . It has been shown that Vga(A)LC-GFP and Msr(A)-eqFP650 occur in a foci near the membrane. Depending on ATPase activity or the presence of an antibiotic, the localization of Msr(A)-eqFP650 in the cell changes from focal to diffuse, presumably on ribosomes, suggesting a...
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Critical sites determining the resistance phenotype of ABC proteins from the ARE subfamily and the molecular mechanism of their function
Lenart, Jakub ; Balíková Novotná, Gabriela (advisor) ; Melter, Oto (referee) ; Branny, Pavel (referee)
Vga(A) and Msr(A) are resistance proteins belonging to the ARE subfamily of ABC -F proteins. They confer resistance to inhibitors of the peptidyltransferase center. It has been proposed that the mechanism of resistance is based on interaction with a transmembrane partner that forms the functional transporter. Their ribosomal function has been described by cryoelectron microscopy of ribosome complexes with ABCF mutants unable to hydrolyze ATP. However, the exact mechanism of resistance is not yet known. We have produced the mutant proteins combining the four amino acid residues in Vga(A) and Vga(A)LC at the linker tip, and we were the first to describe the effects of substrate specificity of the single mutants. Amino acid positions 212 and 220 are important for resistance to lincosamides and pleuromutilins, respectively, while position 219 is responsible for resistance to streptogramin A. Each amino acid property plays a critical role in conferring antibiotic specificity, as confirmed by the fact that amino acid substitution at position K218T in the Vga(A) protein causes the shift in resistance from streptogramins to lincosamides and pleuromutilins. The mechanism of resistance conferred by Vga(A) is ribosomal protection. This is supported by the fact that the rate of [3H]-lincomycin accumulation in...
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Subcellular localization of resistant proteins Vga(A)LC and Msr(A) using fluorescence microscopy
Nguyen Thi Ngoc, Bich ; Balíková Novotná, Gabriela (advisor) ; Lichá, Irena (referee)
Vga(A)LC and Msr(A) are clinically significant resistant proteins in staphylococci that confer resistance to translational inhibitors. They belong to ARE ABC-F protein subfamily, which is part of ABC transporters. Unlike typical ABC transporters, ABC-F proteins do not have transmembrane domains that are responsible for the transport of substances through the membrane. Therefore, they do not have characteristic transport function but regulatory or resistance function. Their mechanism of action on the ribosome has been described only recently, where these proteins displace the antibiotic from the ribosome. However, some aspects of their function are still unclear. For example, what is the function of the Vga(A) location on a membrane that has been detected in the membrane fraction but not in the ribosomal. In this work, using fluorescence microscopy, I observed subcellular localization of the Vga(A)LC-mEos2, Vga(A)LC-GFP and Msr(A)-eqFP650 resistant fusion proteins in live cells of S. aureus under different culture conditions . It has been shown that Vga(A)LC-GFP and Msr(A)-eqFP650 occur in a foci near the membrane. Depending on ATPase activity or the presence of an antibiotic, the localization of Msr(A)-eqFP650 in the cell changes from focal to diffuse, presumably on ribosomes, suggesting a...
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