Ras Conformational Switching: Simulating Nucleotide-Dependent Conformational Transitions with Accelerated Molecular Dynamics

Ras mediates signaling pathways controlling cell proliferation and development by cycling between GTP- and GDP-bound active and inactive conformational states. Understanding the complete reaction path of this conformational change and its intermediary structures is critical to understanding Ras signaling. We characterize nucleotide-dependent conformational transition using multiple-barrier-crossing accelerated molecular dynamics (aMD) simulations. These transitions, achieved for the first time for wild-type Ras, are impossible to observe with classical molecular dynamics (cMD) simulations due to the large energetic barrier between end states. Mapping the reaction path onto a conformer plot describing the distribution of the crystallographic structures enabled identification of highly populated intermediate structures. These structures have unique switch orientations (residues 25–40 and 57–75) intermediate between GTP and GDP states, or distinct loop3 (46–49), loop7 (105–110), and α5 C-terminus (159–166) conformations distal from the nucleotide-binding site. In addition, these barrier-crossing trajectories predict novel nucleotide-dependent correlated motions, including correlations of α2 (residues 66–74) with α3-loop7 (93–110), loop2 (26–37) with loop10 (145–151), and loop3 (46–49) with α5 (152–167). The interconversion between newly identified Ras conformations revealed by this study advances our mechanistic understanding of Ras function. In addition, the pattern of correlated motions provides new evidence for a dynamic linkage between the nucleotide-binding site and the membrane interacting C-terminus critical for the signaling function of Ras. Furthermore, normal mode analysis indicates that the dominant collective motion that occurs during nucleotide-dependent conformational exchange, and captured in aMD (but absent in cMD) simulations, is a low-frequency motion intrinsic to the structure

Macroalgal morphogenesis induced by waterborne compounds and bacteria in coastal seawater

Axenic gametes of the marine green macroalga Ulva mutabilis Foyn (Ria Formosa, locus typicus) exhibit abnormal development into slow-growing callus-like colonies with aberrant cell walls. Under laboratory conditions, it was previously demonstrated that all defects in growth and thallus development can be completely abolished when axenic gametes are inoculated with a combination of two specific bacterial strains originally identified as Roseo-bacter sp. strain MS2 and Cytophaga sp. strain MS6. These bacteria release diffusible morphogenetic compounds (= morphogens), which act similar to cytokinin and auxin. To investigate the ecological relevance of the waterborne bacterial morphogens, seawater samples were collected in the Ria Formosa lagoon (Algarve, Southern Portugal) at 20 sampling sites and tidal pools to assess their morphogenetic effects on the axenic gametes of U. mutabilis. Specifically the survey revealed that sterile-filtered seawater samples can completely recover growth and morphogenesis of U. mutabilis under axenic conditions. Morphogenetic activities of free-living and epiphytic bacteria isolated from the locally very abundant Ulva species (i.e., U. rigida) were screened using a multiwell-based testing system. The most represented genera isolated from U. rigida were Alteromonas, Pseudoalteromonas and Sulfitobacter followed by Psychrobacter and Polaribacter. Several naturally occurring bacterial species could emulate MS2 activity (= induction of cell divisions) regardless of taxonomic affiliation, whereas the MS6 activity (= induction of cell differentiation and cell wall formation) was species-specific and is probably a feature of difficult-to-culture bacteria. Interestingly, isolated bacteroidetes such as Algoriphagus sp. and Polaribacter sp. could individually trigger complete Ulva morphogenesis and thus provide a novel mode of action for bacterial-induced algal development. This study also highlights that the accumulation of algal growth factors in a shallow water body separated from the open ocean by barrier islands might have strong implications to, for example, the wide usage of natural coastal seawater in algal (land based) aquacultures of Ulva

Genome Analysis of Planctomycetes Inhabiting Blades of the Red Alga

Porphyra is a macrophytic red alga of the Bangiales that is important ecologically and economically. We describe the genomes of three bacteria in the phylum Planctomycetes (designated P1, P2 and P3) that were isolated from blades of Porphyra umbilicalis (P.um.1). These three Operational Taxonomic Units (OTUs) belong to distinct genera; P2 belongs to the genus Rhodopirellula, while P1 and P3 represent undescribed genera within the Planctomycetes. Comparative analyses of the P1, P2 and P3 genomes show large expansions of distinct gene families, which can be widespread throughout the Planctomycetes (e.g., protein kinases, sensors/response regulators) and may relate to specific habitat (e.g., sulfatase gene expansions in marine Planctomycetes) or phylogenetic position. Notably, there are major differences among the Planctomycetes in the numbers and sub-functional diversity of enzymes (e.g., sulfatases, glycoside hydrolases, polysaccharide lyases) that allow these bacteria to access a range of sulfated polysaccharides in macroalgal cell walls. These differences suggest that the microbes have varied capacities for feeding on fixed carbon in the cell walls of P.um.1 and other macrophytic algae, although the activities among the various bacteria might be functionally complementary in situ. Additionally, phylogenetic analyses indicate augmentation of gene functions through expansions arising from gene duplications and horizontal gene transfers; examples include genes involved in cell wall degradation (e.g., κ-carrageenase, alginate lyase, fucosidase) and stress responses (e.g., efflux pump, amino acid transporter). Finally P1 and P2 contain various genes encoding selenoproteins, many of which are enzymes that ameliorate the impact of environmental stresses that occur in the intertidal habitat

Novel Allosteric Sites on Ras for Lead Generation

Aberrant Ras activity is a hallmark of diverse cancers and developmental diseases. Unfortunately, conventional efforts to develop effective small molecule Ras inhibitors have met with limited success. We have developed a novel multi-level computational approach to discover potential inhibitors of previously uncharacterized allosteric sites. Our approach couples bioinformatics analysis, advanced molecular simulations, ensemble docking and initial experimental testing of potential inhibitors. Molecular dynamics simulation highlighted conserved allosteric coupling of the nucleotide-binding switch region with distal regions, including loop 7 and helix 5. Bioinformatics methods identified novel transient small molecule binding pockets close to these regions and in the vicinity of the conformationally responsive switch region. Candidate binders for these pockets were selected through ensemble docking of ZINC and NCI compound libraries. Finally, cell-based assays confirmed our hypothesis that the chosen binders can inhibit the downstream signaling activity of Ras. We thus propose that the predicted allosteric sites are viable targets for the development and optimization of new drugs

A taxonomy of visual perception skills for teaching photography in the elementary school

The purpose of this study was to investigate the teaching of photography in the elementary school as a means of enhancing the development of visual awareness in children. Studies have shown that children's visual perception development can be advanced through training programs that encourage observation and responsive selection of visual stimuli. Because perceptual development is one of the goals of art education, the development of art curricula that can best account for children's perceptual growth is warranted. The photography curriculum developed in this study attempts to enhance the perceptual development of children.In Chapter I, the problem area was discussed and procedures for conducting the study were established. The problem was two-fold and questioned first whether or not a taxonomy of visual perception skills could be developed and used for the identification of educational goals and objectives, and second what black and white photographic projects should be included in a visual perceptual curriculum. Strategies were presented to insure a detailed and systematic examination of the perception and photography areas.Chapter II included an examination of the background literature pertinent to the development of the problem. The two areas covered were: 1) children's visual perceptual development, and 2) the teaching of photography. An analysis of selected perceptual theories and conditions important to the development of a taxonomy was presented in Chapter III. Due to the excessive number of perceptual theories found in the literature, only the theories of Jean Piaget, Jerome Bruner, Eleanor Gibson, James Gibson, June McFee, Viktor Lowenfeld, along with some of the theories concerning Gestalt psychology, perceptual orientation, perceptual sets, and motivation were included. None of these theories attempted to provide all the answers to perception, but each was used as an empirical base from which a taxonomy of visual perception skills was developed.In Chapter IV a taxonomy was presented for classifying the various visual perception concepts and skills into an organized structure. Taxonomic systems have been used in diverse educational situations for identifying goals and objectives. From an analysis of the visual perception literature, the major components of perception discussed by the various authors were isolated and organized into a workable list. Each component was defined and analyzed to determine similarities and differences. From the analysis the following major categories were chosen to comprise the taxonomy:1.00 Perception of Form2.00 Perception of Space3.00 Perception of Movement and Events4.00 Perception of Illusions5.00 Perception of RepresentationsFinally, in Chapter V the material presented in the previous chapters was synthesized into a photography curriculum for the elementary school. The taxonomy developed in Chapter IV was the system used for identifying the major goals and objectives required for enhancing the perceptual development of children. If the goal of art education is the development of children's visual awareness, then a properly structured photography program may provide the necessary educational experiences for this development.Based on the study and a review of the literature, the author concluded that photography can be singled out as a potentially viable method for stimulating visual awareness in children. However, photography remains one of the least understood and investigated communication mediums. Children today live in a highly visual society that constantly bombards them with instant communication media. Therefore, further investigations need to take place to reveal the educational potentialities which photography has for the elementary school curriculum.Thesis (D. Ed.

Cu2+-cyclen as Probe to Identify Conformational States in Guanine Nucleotide Binding Proteins

(31)P NMR spectroscopy is a suitable method for identifying conformational states in the active site of guanine nucleotide binding proteins detecting the nucleotide placed there. Because there is no labeling necessary, this method is gaining increasing interest. By (31)P NMR spectroscopy two major conformational states, namely state 1(T) and state 2(T), can be detected in active Ras protein characterized by different chemical shifts. Depending on the conformational state Ras shows clearly different physiological properties. Meanwhile analogous conformational equilibria could also be shown for other members of the Ras superfamily. It is often difficult to determine the conformational states of the proteins on the basis of chemical shift alone; therefore, direct detection would be a great advantage. With the use of Cu(2+)-cyclen which selectively interacts only with one of the major conformational states (state 1) one has a probe to distinguish between the two states, because only proteins existing in conformational state 1 interact with the Cu(2+)-cyclen at low millimolar concentrations. The suitability was proven using Ras(wt) and Ras mutants, Ras complexed with GTP, GppNHp, or GTPγS, as well as two further members of the Ras superfamily namely Arf1 and Ran

Structural insights into the small G protein Arl13B and implications for Joubert syndrome

Ciliopathies are human diseases arising from defects in primary or motile cilia. The small G-protein Arl13B (ADP-ribosylation factor-like 13B) localizes to microtubule doublets of the ciliary axoneme and is mutated in Joubert syndrome. Its GDP/GTP mechanistic cycle and the effect of its mutations in patients with Joubert syndrome remain elusive. In the present study we applied high resolution structural and biochemical approaches to study Arl13B. The crystal structure of Chlamydomonas rheinhardtii Arl13B, comprising the G-domain and part of its unique C-terminus, revealed an incomplete active site, and together with biochemical data the present study accounts for the absence of intrinsic GTP hydrolysis by this protein. The structure shows that the residues representing patient mutations R79Q and R200C are involved in stabilizing important intramolecular interactions. Our studies suggest that Arg79 is crucial for the GDP/GTP conformational change by stabilizing the large two-residue register shift typical for Arf (ADP-ribosylation factor) and Arl subfamily proteins. A corresponding mutation in Arl3 induces considerable defects in effector and GAP (GTPase-activating protein) binding, suggesting a loss of Arl13B function in patients with Joubert syndrome