Well-ordered three-dimensional crystals of 70 S ribosomes and 30 S ribosomal subunits from extrem... more Well-ordered three-dimensional crystals of 70 S ribosomes and 30 S ribosomal subunits from extremely thermophilic bacteria Thermus thermophilus have been obtained. Positively stained thin sections of the crystals have been analyzed by electron microscopy. Redissolved crystalline ribosomes and small ribosomal subunits reveal sedimentation constants of 70 S and 30 S, respectively, and are functionally active in the poly(U)system. Ribosome; 30 S Ribosomal subunit; Three-dimensional crystal; Electron microscopy; (Thermus thermophilus
The crystal structure of ribosomal protein L1 from the bacterium Aquifex aeolicus was solved by t... more The crystal structure of ribosomal protein L1 from the bacterium Aquifex aeolicus was solved by the molecular replacement method and refined to R cryst = 19.4% and R free = 25.1%. This protein consists of two domains linked together by a flexible hinge region. In the structure under consideration, the domains are in close proximity and adopt a closed conformation. Earlier, this conformation has been found in the struc ture of protein L1 from the bacterium Thermus thermophilus, whereas the structures of archaeal L1 proteins and the structures of all L1 proteins in the RNA bound form have an open conformation. The fact that a closed conformation was found in the structures of two L1 proteins which crystallize in different space groups and belong to different bacteria suggests that this conformation is a characteristic feature of L1 bacterial pro teins in the free form.
Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (... more Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (netakimab) against human IL-17A is one of the new inhibitors of this cytokine. In netakimab, the VH domain is replaced by the VHH domain of Lama glama possessing a long complementarity determining region (CDR-H3) in its heavy chain. Here we demonstrate the high affinity of IL-17A to the Fab fragment of netakimab and to its integral part, the VHH domain. We have determined the crystal structure of the Fab fragment of netakimab at 1.9 Å resolution. High variability in the orientation of light and heavy chains of the Fab fragment of netakimab was shown, which is determined by the peculiarity of the structural organization of the CDR-H3. As the high conformational plasticity of the molecule hampers modeling the Fab fragment of netakimab complexed to IL-17A, we have carried out modeling the complex between the antigen and the integral part of the Fab fragment, the VHH domain. We explain the h...
Acta Crystallographica Section D Structural Biology
The structure of the γ subunit of archaeal translation initiation factor 2 (aIF2) from Sulfolobus... more The structure of the γ subunit of archaeal translation initiation factor 2 (aIF2) from Sulfolobus solfataricus (SsoIF2γ) was determined in complex with GDPCP (a GTP analog). Crystals were obtained in the absence of magnesium ions in the crystallization solution. They belonged to space group P1, with five molecules in the unit cell. Four of these molecules are related in pairs by a common noncrystallographic twofold symmetry axis, while the fifth has no symmetry equivalent. Analysis of the structure and its comparison with other known aIF2 γ-subunit structures in the GTP-bound state show that (i) the magnesium ion is necessary for the formation and the maintenance of the active form of SsoIF2γ and (ii) in addition to the two previously known structural switches 1 and 2, eukaryotic translation initiation factor 2 (eIF2) and aIF2 molecules have another flexible region (switch 3), the function of which may consist of initiation of the hydrolysis of GTP and the removal of e/aIF2 from the...
Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (... more Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (netakimab) against human IL-17A is one of the new inhibitors of this cytokine. In netakimab, the VH domain is replaced by the VHH domain of Lama glama possessing a long complementarity determining region (CDR-H3) in its heavy chain. Here we demonstrate the high affinity of IL-17A to the Fab fragment of netakimab and to its integral part, the VHH domain. We have determined the crystal structure of the Fab fragment of netakimab at 1.9 Å resolution. High variability in the orientation of light and heavy chains of the Fab fragment of netakimab was shown, which is determined by the peculiarity of the structural organization of the CDR-H3. As the high conformational plasticity of the molecule hampers modeling the Fab fragment of netakimab complexed to IL-17A, we have carried out modeling the complex between the antigen and the integral part of the Fab fragment, the VHH domain. We explain the h...
This review contains recent data on the structure of the functionally important ribosomal domain,... more This review contains recent data on the structure of the functionally important ribosomal domain, L12/P stalk, of the large ribosomal subunit. It is the most mobile site of the ribosome; it has been found in ribosomes of all living cells, and it is involved in the interaction between ribosomes and translation factors. The difference between the structures of the ribosomal proteins forming this protuberance (despite their general resemblance) determines the specificity of interaction between eukaryotic and prokaryotic ribosomes and the respective protein factors of translation. In this review, works on the structures of ribosomal proteins forming the L12/P-stalk in bacteria, archaea, and eukaryotes and data on structural aspects of interactions between these proteins and rRNA are described in detail.
The crystal structure of the 92-nucleotide L1-specific fragment of 23S rRNA from Haloarcula maris... more The crystal structure of the 92-nucleotide L1-specific fragment of 23S rRNA from Haloarcula marismortui (Hma) has been determined at 3.3 Å resolution. Similar to the corresponding bacterial rRNA fragments, this structure contains joined helix 76-77 topped by an approximately globular structure formed by the residual part of the L1 stalk rRNA. The position of HmaL1 relative to the rRNA was found by its docking to the rRNA fragment using the L1-rRNA complex from Thermus thermophilus as a guide model. In spite of the anomalous negative charge of the halophilic archaeal protein, the conformation of the HmaL1-rRNA interface appeared to be very close to that observed in all known L1-rRNA complexes. The designed structure of the L1 stalk was incorporated into the H. marismortui 50S ribosomal subunit. Comparison of relative positions of L1 stalks in 50S subunits from H. marismortui and T. thermophilus made it possible to reveal the site of inflection of rRNA during the ribosome function.
The two-domain ribosomal protein L1 has a dual function as a primary rRNA-binding ribosomal prote... more The two-domain ribosomal protein L1 has a dual function as a primary rRNA-binding ribosomal protein and as a translational repressor that binds its own mRNA. Here, we report the crystal structure of a complex between the isolated domain I of L1 from the bacterium Thermus ...
Three 5S rRNA-binding ribosomal proteins (L5, L18, TL5) of extremely thermophilic bacterium Therm... more Three 5S rRNA-binding ribosomal proteins (L5, L18, TL5) of extremely thermophilic bacterium Thermus thermophilus have earlier been isolated. Structural analysis of their complexes with rRNA requires identification of their binding sites in the 5S rRNA. Previously, a TL5-binding site has been identified, a TL5-RNA complex crystallized, and its structure determined to 2.3 Å. The sites for L5 and L18 were characterized, and two corresponding 5S rRNA fragments constructed. Of these, a 34-nt fragment specifically interacted with L5, and a 55-nt fragment interacted with L5, L18, and with both proteins. The 34-nt fragment-L5 complex was crystallized; the crystals are suitable for high-resolution X-ray analysis.
Ribosomal protein L11 is an important part of the GTPase-associated centre in ribosomes of all or... more Ribosomal protein L11 is an important part of the GTPase-associated centre in ribosomes of all organisms. L11 is a highly conserved two-domain ribosomal protein. The C-terminal domain of L11 is an RNA-binding domain that binds to a fragment of 23S rRNA and stabilizes its structure. The complex between L11 and 23S rRNA is involved in the GTPase activity of the translation elongation and release factors. Bacterial and archaeal L11-rRNA complexes are targets for peptide antibiotics of the thiazole class. To date, there is no complete structure of archaeal L11 owing to the mobility of the N-terminal domain of the protein. Here, the crystallization and X-ray analysis of the ribosomal protein L11 from Methanococcus jannaschii are reported. Crystals of the native protein and its selenomethionine derivative belonged to the orthorhombic space group I222 and were suitable for structural studies. Native and single-wavelength anomalous dispersion data sets have been collected and determination ...
The crystal structure of Thermus thermophilus elongation factor G without guanine nucleotide was ... more The crystal structure of Thermus thermophilus elongation factor G without guanine nucleotide was determined to 2.85 A. This GTPase has five domains with overall dimensions of 50 x 60 x 118 A. The GTP binding domain has a core common to other GTPases with a unique subdomain which probably functions as an intrinsic nucleotide exchange factor. Domains I and II are homologous to elongation factor Tu and their arrangement, both with and without GDP, is more similar to elongation factor Tu in complex with a GTP analogue than with GDP. Domains III and V show structural similarities to ribosomal proteins. Domain IV protrudes from the main body of the protein and has an extraordinary topology with a left-handed cross-over connection between two parallel beta-strands.
Background: Elongation factor G (EF-G) catalyzes the translocation step of translation. During tr... more Background: Elongation factor G (EF-G) catalyzes the translocation step of translation. During translocation EF-G passes through four main conformational states: the GDP complex, the nucleotide-free state, the GTP complex, and the GTPase conformation. The first two of these conformations have been previously investigated by crystallographic methods.
As a preface to an analysis of the ribosomal elongation cycle, we examine the energetics of macro... more As a preface to an analysis of the ribosomal elongation cycle, we examine the energetics of macromolecular structural transformations. We show that the kinetic barriers and changes of the energetic levels during these transformations are essentially determined by disruption of hydrogen and cation–ligand bonds, and by uncompensated losses of these bonds (ULBs). The disruption of a hydrogen or cation–ligand bond increases the heights of kinetic barriers by the energy of these bonds. The association and dissociation of macromolecules, and conformational transitions within macromolecules, can change the numbers of ULBs but cannot completely eliminate them. Two important general conclusions are drawn from this analysis. First, occupation of enzyme active centers by substrates should be accompanied by a reduction in the number of ULBs. This reduction decreases the activation barriers in enzyme reactions, and is a major contributor to catalysis. Second, the enzymic reactions of the ribosomal cycle (structural changes caused by transpeptidation and by GTP hydrolyses in EF-Tu and EF-G) disrupt kinetic traps that prevent tRNAs from dissociating into solution during their motion within the ribosome and are necessary for progression of the cycle. These results are general purpose structural-functional blocks for building a molecular model of the ribosomal elongation cycle. Here, we demonstrate the utility of these blocks for analysis of acceptance of cognate tRNAs into the ribosomal elongation cycle.
Protein S8 from Thermus thermophilus consists of 138 amino acids of M(r) 15,840. Its primary stru... more Protein S8 from Thermus thermophilus consists of 138 amino acids of M(r) 15,840. Its primary structure was established using peptide sequences from two different digests. Protein S8 from T. thermophilus shares a high percentage of identity with protein S8 from Thermus aquaticus. There are some consensus sequences between proteins S8 from eubacteria, archebacteria, chloroplasts, and cyanelles.
Well-ordered three-dimensional crystals of 70 S ribosomes and 30 S ribosomal subunits from extrem... more Well-ordered three-dimensional crystals of 70 S ribosomes and 30 S ribosomal subunits from extremely thermophilic bacteria Thermus thermophilus have been obtained. Positively stained thin sections of the crystals have been analyzed by electron microscopy. Redissolved crystalline ribosomes and small ribosomal subunits reveal sedimentation constants of 70 S and 30 S, respectively, and are functionally active in the poly(U)system. Ribosome; 30 S Ribosomal subunit; Three-dimensional crystal; Electron microscopy; (Thermus thermophilus
The crystal structure of ribosomal protein L1 from the bacterium Aquifex aeolicus was solved by t... more The crystal structure of ribosomal protein L1 from the bacterium Aquifex aeolicus was solved by the molecular replacement method and refined to R cryst = 19.4% and R free = 25.1%. This protein consists of two domains linked together by a flexible hinge region. In the structure under consideration, the domains are in close proximity and adopt a closed conformation. Earlier, this conformation has been found in the struc ture of protein L1 from the bacterium Thermus thermophilus, whereas the structures of archaeal L1 proteins and the structures of all L1 proteins in the RNA bound form have an open conformation. The fact that a closed conformation was found in the structures of two L1 proteins which crystallize in different space groups and belong to different bacteria suggests that this conformation is a characteristic feature of L1 bacterial pro teins in the free form.
Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (... more Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (netakimab) against human IL-17A is one of the new inhibitors of this cytokine. In netakimab, the VH domain is replaced by the VHH domain of Lama glama possessing a long complementarity determining region (CDR-H3) in its heavy chain. Here we demonstrate the high affinity of IL-17A to the Fab fragment of netakimab and to its integral part, the VHH domain. We have determined the crystal structure of the Fab fragment of netakimab at 1.9 Å resolution. High variability in the orientation of light and heavy chains of the Fab fragment of netakimab was shown, which is determined by the peculiarity of the structural organization of the CDR-H3. As the high conformational plasticity of the molecule hampers modeling the Fab fragment of netakimab complexed to IL-17A, we have carried out modeling the complex between the antigen and the integral part of the Fab fragment, the VHH domain. We explain the h...
Acta Crystallographica Section D Structural Biology
The structure of the γ subunit of archaeal translation initiation factor 2 (aIF2) from Sulfolobus... more The structure of the γ subunit of archaeal translation initiation factor 2 (aIF2) from Sulfolobus solfataricus (SsoIF2γ) was determined in complex with GDPCP (a GTP analog). Crystals were obtained in the absence of magnesium ions in the crystallization solution. They belonged to space group P1, with five molecules in the unit cell. Four of these molecules are related in pairs by a common noncrystallographic twofold symmetry axis, while the fifth has no symmetry equivalent. Analysis of the structure and its comparison with other known aIF2 γ-subunit structures in the GTP-bound state show that (i) the magnesium ion is necessary for the formation and the maintenance of the active form of SsoIF2γ and (ii) in addition to the two previously known structural switches 1 and 2, eukaryotic translation initiation factor 2 (eIF2) and aIF2 molecules have another flexible region (switch 3), the function of which may consist of initiation of the hydrolysis of GTP and the removal of e/aIF2 from the...
Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (... more Interleukin 17A (IL-17A) is a proinflammatory cytokine produced by Th17 cells. Antibody BCD-085 (netakimab) against human IL-17A is one of the new inhibitors of this cytokine. In netakimab, the VH domain is replaced by the VHH domain of Lama glama possessing a long complementarity determining region (CDR-H3) in its heavy chain. Here we demonstrate the high affinity of IL-17A to the Fab fragment of netakimab and to its integral part, the VHH domain. We have determined the crystal structure of the Fab fragment of netakimab at 1.9 Å resolution. High variability in the orientation of light and heavy chains of the Fab fragment of netakimab was shown, which is determined by the peculiarity of the structural organization of the CDR-H3. As the high conformational plasticity of the molecule hampers modeling the Fab fragment of netakimab complexed to IL-17A, we have carried out modeling the complex between the antigen and the integral part of the Fab fragment, the VHH domain. We explain the h...
This review contains recent data on the structure of the functionally important ribosomal domain,... more This review contains recent data on the structure of the functionally important ribosomal domain, L12/P stalk, of the large ribosomal subunit. It is the most mobile site of the ribosome; it has been found in ribosomes of all living cells, and it is involved in the interaction between ribosomes and translation factors. The difference between the structures of the ribosomal proteins forming this protuberance (despite their general resemblance) determines the specificity of interaction between eukaryotic and prokaryotic ribosomes and the respective protein factors of translation. In this review, works on the structures of ribosomal proteins forming the L12/P-stalk in bacteria, archaea, and eukaryotes and data on structural aspects of interactions between these proteins and rRNA are described in detail.
The crystal structure of the 92-nucleotide L1-specific fragment of 23S rRNA from Haloarcula maris... more The crystal structure of the 92-nucleotide L1-specific fragment of 23S rRNA from Haloarcula marismortui (Hma) has been determined at 3.3 Å resolution. Similar to the corresponding bacterial rRNA fragments, this structure contains joined helix 76-77 topped by an approximately globular structure formed by the residual part of the L1 stalk rRNA. The position of HmaL1 relative to the rRNA was found by its docking to the rRNA fragment using the L1-rRNA complex from Thermus thermophilus as a guide model. In spite of the anomalous negative charge of the halophilic archaeal protein, the conformation of the HmaL1-rRNA interface appeared to be very close to that observed in all known L1-rRNA complexes. The designed structure of the L1 stalk was incorporated into the H. marismortui 50S ribosomal subunit. Comparison of relative positions of L1 stalks in 50S subunits from H. marismortui and T. thermophilus made it possible to reveal the site of inflection of rRNA during the ribosome function.
The two-domain ribosomal protein L1 has a dual function as a primary rRNA-binding ribosomal prote... more The two-domain ribosomal protein L1 has a dual function as a primary rRNA-binding ribosomal protein and as a translational repressor that binds its own mRNA. Here, we report the crystal structure of a complex between the isolated domain I of L1 from the bacterium Thermus ...
Three 5S rRNA-binding ribosomal proteins (L5, L18, TL5) of extremely thermophilic bacterium Therm... more Three 5S rRNA-binding ribosomal proteins (L5, L18, TL5) of extremely thermophilic bacterium Thermus thermophilus have earlier been isolated. Structural analysis of their complexes with rRNA requires identification of their binding sites in the 5S rRNA. Previously, a TL5-binding site has been identified, a TL5-RNA complex crystallized, and its structure determined to 2.3 Å. The sites for L5 and L18 were characterized, and two corresponding 5S rRNA fragments constructed. Of these, a 34-nt fragment specifically interacted with L5, and a 55-nt fragment interacted with L5, L18, and with both proteins. The 34-nt fragment-L5 complex was crystallized; the crystals are suitable for high-resolution X-ray analysis.
Ribosomal protein L11 is an important part of the GTPase-associated centre in ribosomes of all or... more Ribosomal protein L11 is an important part of the GTPase-associated centre in ribosomes of all organisms. L11 is a highly conserved two-domain ribosomal protein. The C-terminal domain of L11 is an RNA-binding domain that binds to a fragment of 23S rRNA and stabilizes its structure. The complex between L11 and 23S rRNA is involved in the GTPase activity of the translation elongation and release factors. Bacterial and archaeal L11-rRNA complexes are targets for peptide antibiotics of the thiazole class. To date, there is no complete structure of archaeal L11 owing to the mobility of the N-terminal domain of the protein. Here, the crystallization and X-ray analysis of the ribosomal protein L11 from Methanococcus jannaschii are reported. Crystals of the native protein and its selenomethionine derivative belonged to the orthorhombic space group I222 and were suitable for structural studies. Native and single-wavelength anomalous dispersion data sets have been collected and determination ...
The crystal structure of Thermus thermophilus elongation factor G without guanine nucleotide was ... more The crystal structure of Thermus thermophilus elongation factor G without guanine nucleotide was determined to 2.85 A. This GTPase has five domains with overall dimensions of 50 x 60 x 118 A. The GTP binding domain has a core common to other GTPases with a unique subdomain which probably functions as an intrinsic nucleotide exchange factor. Domains I and II are homologous to elongation factor Tu and their arrangement, both with and without GDP, is more similar to elongation factor Tu in complex with a GTP analogue than with GDP. Domains III and V show structural similarities to ribosomal proteins. Domain IV protrudes from the main body of the protein and has an extraordinary topology with a left-handed cross-over connection between two parallel beta-strands.
Background: Elongation factor G (EF-G) catalyzes the translocation step of translation. During tr... more Background: Elongation factor G (EF-G) catalyzes the translocation step of translation. During translocation EF-G passes through four main conformational states: the GDP complex, the nucleotide-free state, the GTP complex, and the GTPase conformation. The first two of these conformations have been previously investigated by crystallographic methods.
As a preface to an analysis of the ribosomal elongation cycle, we examine the energetics of macro... more As a preface to an analysis of the ribosomal elongation cycle, we examine the energetics of macromolecular structural transformations. We show that the kinetic barriers and changes of the energetic levels during these transformations are essentially determined by disruption of hydrogen and cation–ligand bonds, and by uncompensated losses of these bonds (ULBs). The disruption of a hydrogen or cation–ligand bond increases the heights of kinetic barriers by the energy of these bonds. The association and dissociation of macromolecules, and conformational transitions within macromolecules, can change the numbers of ULBs but cannot completely eliminate them. Two important general conclusions are drawn from this analysis. First, occupation of enzyme active centers by substrates should be accompanied by a reduction in the number of ULBs. This reduction decreases the activation barriers in enzyme reactions, and is a major contributor to catalysis. Second, the enzymic reactions of the ribosomal cycle (structural changes caused by transpeptidation and by GTP hydrolyses in EF-Tu and EF-G) disrupt kinetic traps that prevent tRNAs from dissociating into solution during their motion within the ribosome and are necessary for progression of the cycle. These results are general purpose structural-functional blocks for building a molecular model of the ribosomal elongation cycle. Here, we demonstrate the utility of these blocks for analysis of acceptance of cognate tRNAs into the ribosomal elongation cycle.
Protein S8 from Thermus thermophilus consists of 138 amino acids of M(r) 15,840. Its primary stru... more Protein S8 from Thermus thermophilus consists of 138 amino acids of M(r) 15,840. Its primary structure was established using peptide sequences from two different digests. Protein S8 from T. thermophilus shares a high percentage of identity with protein S8 from Thermus aquaticus. There are some consensus sequences between proteins S8 from eubacteria, archebacteria, chloroplasts, and cyanelles.
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Papers by Maria Garber