Project description:MamA is a unique magnetosome-associated protein that is predicted to contain six sequential tetratricopeptide-repeat (TPR) motifs. The TPR structural motif serves as a template for protein-protein interactions and mediates the assembly of multi-protein complexes. Here, the crystallization and preliminary X-ray analysis of recombinant and purified Magnetospirillum magneticum and M. gryphiswaldense MamA are reported for the first time. M. gryphiswaldense MamADelta41 crystallized in the tetragonal space group P4(1)2(1)2 or P4(3)2(1)2, with unit-cell parameters a = b = 58.88, c = 144.09 A. M. magneticum MamADelta41 crystallized in the orthorhombic space group P2(1)2(1)2(1), with unit-cell parameters a = 44.75, b = 76.19, c = 105.05 A. X-ray diffraction data were collected to resolutions of 2.0 and 1.95 A, respectively.

Project description:CRP/FNR family members are transcription factors that regulate the transcription of many genes in Escherichia coli and other organisms. Mycobacterium tuberculosis H37Rv contains a probable CRP/FNR homologue encoded by the open reading frame Rv3676. The deletion of this gene is known to cause growth defects in cell culture, in bone marrow-derived macrophages and in a mouse model of tuberculosis. The mycobacterial gene Rv3676 shares approximately 32% sequence identity with prototype E. coli CRP. The structure of the protein might provide insight into transcriptional regulation in the pathogen by this protein. The M. tuberculosis CRP/FNR transcription regulator was crystallized in space group P2(1)2(1)2(1), with unit-cell parameters a = 54.1, b = 84.6, c = 101.2 A. The crystal diffracted to a resolution of 2.9 A. Matthews coefficient and self-rotation function calculations reveal the presence of two monomers in the asymmetric unit.

Project description:MamM is a unique magnetosome-associated protein that shares substantial homology with cation diffusion facilitator (CDF) proteins, a group of heavy-metal-ion efflux transporters that participate in metal-ion homeostasis in all domains of life. Magnetotactic bacteria utilize CDF proteins in iron-oxide biomineralization and in magnetosome formation. Here, the crystallization and preliminary X-ray analysis of recombinant Magnetospirillum gryphiswaldense MamM is reported. The C-terminal domain of MamM was crystallized in the orthorhombic space group C222(1), with unit-cell parameters a = 37.1, b = 94.0, c = 53.3 Å. X-ray diffraction data were collected to a resolution of 2.0 Å.

Project description:Magnetospirillum gryphiswaldense overview

Project description:The bacterial strain Magnetospirillum gryphiswaldense MSR-1 does not produce siderophores, but it absorbs a large amount of ferric iron and synthesizes magnetosomes. We demonstrated previously the presence of six types of ferric reductase isozymes (termed FeR1 through FeR6) in MSR-1. Of these isozymes, FeR5 was the most abundant and FeR6 showed the highest ferric reductase activity. In the present study, we cloned the fer5 and fer6 genes from MSR-1 and expressed them separately in Escherichia coli. FeR5 and FeR6 were shown to be bifunctional enzymes through analysis of amino acid sequence homologies, structural predictions (using data from GenBank), and detection of enzyme activities. FeR5 is a thioredoxin reductase and FeR6 is a flavin reductase, in addition to being ferric reductases. To elucidate the functions of the enzymes, we constructed two single-gene-deletion mutant strains (?fer5 and ?fer6 mutants) and a double-gene-deletion mutant strain (?fer5 ?fer6 [?fer5+6] mutant) along with its complemented strains (C5 and C6). An evaluation of phenotypic and physiological properties did not reveal significant differences between the wild-type and single-gene-deletion strains, whereas the double-gene-deletion strain showed reduced iron absorption and no magnetosome synthesis. Complementation of the double-gene-deletion strain using either fer5 or fer6 resulted in the partial recovery of magnetosome synthesis. Quantitative real-time PCR analysis of fer5 and fer6 transcriptional levels in the wild-type and complemented strains demonstrated consistent transcription of the two genes and confirmed that FeR5 and FeR6 are bifunctional enzymes that play complementary roles during the process of magnetosome synthesis in MSR-1.

Project description:Streptococcus pneumoniae SPD0280 is a hypothetical protein that has been putatively identified as a transcriptional regulator. However, it has very low sequence identity to other well characterized transcriptional regulators. Determination of the three-dimensional structure may provide information for the characterization of proteins; therefore, it was decided to use X-ray diffraction analysis to learn more about this protein. Here, the expression, purification, crystallization and preliminary crystallographic analysis of SPD0280 from S. pneumoniae are reported. The crystals belonged to space group P2(1)2(1)2(1), with unit-cell parameters a = 45.886, b = 66.785, c = 150.050?Å, and diffracted to a resolution of 2.5?Å. The crystals are likely to contain one molecule in the asymmetric unit, with a VM value of 2.06?Å(3)?Da(-1).

Project description:CD8?? homodimers or CD8?? heterodimers form on the T-cell surface, where they are essential as co-receptors for MHC class I molecules in activation of the CTL response. To date, swine have been found to show the highest percentage of lymphocytes with surface expression of CD8?. Crystallographic analysis of swine CD8? (sCD8?) to 1.8?Å resolution revealed that the crystals belonged to space group P3(2)21, with unit-cell parameters a = 80.97, b = 80.97, c = 95.19?Å. The Matthews coefficient and the solvent content were calculated to be 3.23?Å(3)?Da(-1) and 61.89%, respectively. These results may aid further structural and functional analyses of sCD8?.

Project description:Uroguanylin, which serves as an endogenous ligand of guanylyl cyclase C, is initially secreted in the form of a precursor, prouroguanylin. The N-terminal region of prouroguanylin interacts with the mature portion of prouroguanylin during the folding pathway. Here, a preliminary X-ray crystallographic study of prouroguanylin is presented. Prouroguanylin was refolded, purified and crystallized using the hanging-drop vapour-diffusion method. Prouroguanylin crystals were cryocooled and used for data collection. The diffraction data showed that the crystals belonged to space group P6(1)22, with unit-cell parameters a = b = 55.6, c = 157.7 A, and diffracted to 2.5 A resolution. The structure is currently being analyzed.

Project description:SdiA enhances cell division by regulating the ftsQAZ operon in Escherichia coli as a transcription activator. In addition, SdiA is suggested to play a role in detecting quorum signals that emanate from other species. It is therefore a homologue of LuxR, a cognate quorum-sensing receptor that recognizes a quorum signal and activates the quorum responses. To elucidate the role of SdiA and its functional and structural relationship to LuxR, structural studies were performed on E. coli SdiA. Recombinant SdiA was overexpressed, purified and crystallized at 287 K using the hanging-drop vapour-diffusion method. X-ray diffraction data from a native crystal were collected with 99.7% completeness to 2.7 A resolution with an R(merge) of 6.0%. The crystals belong to the hexagonal space group P6(1)22 or P6(5)22, with unit-cell parameters a = b = 130.47, c = 125.23 A.

Project description:Magnetospirillum gryphiswaldense employs iron-rich nanoparticles for magnetic navigation within environmental redox gradients. This behavior termed magneto-aerotaxis was previously shown to rely on the sensory pathway CheOp1, but the precise localization of CheOp1-related chemoreceptor arrays during the cell cycle and its possible interconnection with three other chemotaxis pathways have remained unstudied. Here, we analyzed the localization of chemoreceptor-associated adaptor protein CheW1 and histidine kinase CheA1 by superresolution microscopy in a spatiotemporal manner. CheW1 localized in dynamic clusters that undergo occasional segregation and fusion events at lateral sites of both cell poles. Newly formed smaller clusters originating at midcell before completion of cytokinesis were found to grow in size during the cell cycle. Bipolar CheA1 localization and formation of aerotactic swim halos were affected depending on the fluorescent protein tag, indicating that CheA1 localization is important for aerotaxis. Furthermore, polar CheW1 localization was independent of cheOp2 to cheOp4 but lost in the absence of cheOp1 or cheA1 Results were corroborated by the detection of a direct protein interaction between CheA1 and CheW1 and by the observation that cheOp2- and cheOp3-encoded CheW paralogs localized in spatially distinct smaller clusters at the cell boundary. Although the findings of a minor aerotaxis-related CheOp4 phenotype and weak protein interactions between CheOp1 and CheOp4 by two-hybrid analysis implied that CheW1 and CheW4 might be part of the same chemoreceptor array, CheW4 was localized in spatially distinct polar-lateral arrays independent of CheOp1, suggesting that CheOp1 and CheOp4 are also not connected at the molecular level.IMPORTANCE Magnetotactic bacteria (MTB) use the geomagnetic field for navigation in aquatic redox gradients. However, the highly complex signal transduction networks in these environmental microbes are poorly understood. Here, we analyzed the localization of selected chemotaxis proteins to spatially and temporally resolve chemotaxis array localization in Magnetospirillum gryphiswaldense Our findings suggest that bipolar localization of chemotaxis arrays related to the key signaling pathway CheOp1 is important for aerotaxis and that CheOp1 signaling units assemble independent of the three other chemotaxis pathways present in M. gryphiswaldense Overall, our results provide deeper insights into the complex organization of signaling pathways in MTB and add to the general understanding of environmental bacteria possessing multiple chemotaxis pathways.