Kinetochore life histories reveal an Aurora-B-dependent error correction mechanism in anaphase

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Construction of Partially Balanced Incomplete Block Designs with Nested Rows and Columns

A number of methods of construction of partially balanced incomplete block designs with nested rows and columns are developed and new balanced incomplete block designs with nested rows and columns are obtained as a by-product.     

Structure of thylakoids in cells of Rhodopseudomonas viridis as influenced by growth conditions

A vessel was constructed for growth of photosynthetic bacteria at defined light intensity, temperature and partial pressure of oxygen.Under growth conditions at light intensities larger than 1,000 lx, the particles exposed by freeze-fracturing of thylakoids are unordered.Under growth conditions at light intensities lower than 30 lx, the particles seen are hexagonally arranged. If the oxygen partial pressure is increased from 0 to 30 mm Hg while keeping the light intensity at 30 lx, the particles seen in the thylakoids are found to be unregularly arranged.The protein pattern of thylakoids isolated from bacteria grown either at 2,000 lx or at 30 lx revealed a constant ratio of reaction centre polypeptide to either of the membrane polypeptides of 8 kdalton apparent Mr and 12 kdalton apparent Mr.Dedicated to Prof. Dr. G. Drews on occasion of his 60th birthday     

Structural insights into thermostable direct hemolysin of Vibrio parahaemolyticus using single-particle cryo-EM

Thermostable direct hemolysin (TDH) is a ~19 kDa, hemolytic pore-forming toxin from the gram-negative marine bacterium Vibrio parahaemolyticus, one of the causative agents of seafood-borne acute gastroenteritis and septicemia. Previous studies have established that TDH exists as a tetrameric assembly in physiological state; however, there is limited knowledge regarding the molecular arrangement of its disordered N-terminal region (NTR)—the absence of which has been shown to compromise TDH's hemolytic and cytotoxic abilities. In our current study, we have employed single-particle cryo-electron microscopy to resolve the solution-state structures of wild-type TDH and a TDH construct with deletion of the NTR (NTD), in order to investigate structural aspects of NTR on the overall tetrameric architecture. We observed that both TDH and NTD electron density maps, resolved at global resolutions of 4.5 and 4.2 Å, respectively, showed good correlation in their respective oligomeric architecture. Additionally, we were able to locate extra densities near the pore opening of TDH which might correspond to the disordered NTR. Surprisingly, under cryogenic conditions, we were also able to observe novel supramolecular assemblies of TDH tetramers, which we were able to resolve to 4.3 Å. We further investigated the tetrameric and inter-tetrameric interaction interfaces to elaborate upon the key residues involved in both TDH tetramers and TDH super assemblies. Our current structural study will aid in understanding the mechanistic aspects of this pore-forming toxin and the role of its disordered NTR in membrane interaction.     

Mutational tests of the NMR-docked structure of the staphylococcal nuclease–metal–3′,5′-pdTp complex

In the X-ray structure of the staphylococcal nuclease–Ca²⁺ ?3′,5′-pdTp complex, the conformation of the inhibitor 3′,5′-pdTp is distroteed Lys-70* and Lys-71* from an adjacent molecule of staphylococcal nuclease (Loll, P.J., Lattman, E.E. Proteins 5 : 183-201, 1989). In order to correct this crystal packing problem, the solution conformation of enzyme-bound 3′,5′-pdTp in the staphylococcal nuclease–metal–pdTp Complex determined by NMR methods was docked into the X-ray structure of the enzyme [Weber, D. J., Serpersu, E. H., Gittis, A. G., Lattman, E. E., Mildvan, A. S. (preceding paper)]. In the NMR-docked structure, the 5′-phophate of 3′,5′-pdTp overlaps with that in the X-ray Structure. However the 3′-phosphate accepts a hydrogen bond from Lys-49 (2.89Å) rather than from Lys-84 (8.63 Å), and N3 of thymine donates a hydrogen bond to the OH of Tyr-115 (3.16 Å) which does not occur in the X-ray structure (5.28 Å). These interactions have been tested by binding studies of 3′,5′-pdTp, Ca²⁺, and Mn²⁺ to the K49A, K84A, and Y115A mutants of staphylococcal nuclease using water proton relaxation rate and EPR methods. Each mutant was fully active and structurally intact, as found by CD and two-dimensional NMR spectroscopy, but bound Ca²⁺ 9.1- to 9.9-fold more weakly than the wild-type enzyme. While thye K84A mutation did not significantly weaken 3′,5′-pdTp binding to the enzyme (1.5 ± 0.7 fold), the K49A mutation weakened 3′,5′-pdTp binding to the enzyme by the factor of 4.4 ± 1.8-fold. Similarly, the Y115A mutation weakened 3′,5′-pdTp binding to the enzyme 3.6 ± 1.6-fold. Comparable weakening effects of these mutations were found on the binding of Ca²⁺-3′,5′-pdTp. These results are more readily explained by the NMR-docked structure of staphylococcal nuclease-metal-3′,5′-pdTp than by the X-ray structure. © 1993 Wiley-Liss, Inc.     

Analyses of spatial patterns and population processes of clonal plants

The nonrandom spatial structure of terrestrial plants is formed by ecological interactions and reproduction with a limited dispersal range, and in turn this may strongly affect population dynamics and population genetics. The traditional method of modelling in population ecology is either to neglect spatial pattern (e.g. in transition matrix models) or to do straightforward computer simulation. We review here three analytical mothods to deal with plant populations in a lattice-structured habitat, which propagate both by seeds that scatter over the whole habitat and by vegetative reproduction (producing runners, rhizomes, etc.) to neighboring vacant sites. [1]Dynamics of global and local densities: Dynamical equations of population density considering nearest-neighbor correlation (spatial clumping) are developed as the joint dynamics of global average density and local density (comparable to mean crowding) based onpair approximation. If there is a linear trade-off between seed production and vegetative reproduction, the equilibrium abundance of the population may be maximized by engaging both means of reproduction. This result is accurately predicted by the pair approximation method, but not by mean-field approximation (neglect of spatial structure). [2]Cluster size distributions: Using global and local densities obtained by pair approximation, we predicted cluster size distribution, i.e. the number of clusters of occupied sites of various sizes. [3]Clonal identity probability decreasing with distance: Multi-locus measurement of allozymes or other neutral molecular markers tells us whether or not a given pair of individuals belong to the same clone. From the pattern of clonal identity probability decreasing with the distance between ramets, we can estimate the relative importance of two modes of reproduction: vegetative propagation and sexual seed production.     

Optimal local propensities for model proteins

Lattice models of proteins were used to examine the role of local propensities in stabilizing the native state of a protein, using techniques drawn from spin-glass theory to characterize the free-energy landscapes. In the strong evolutionary limit, optimal conditions for folding are achieved when the contributions from local interactions to the stability of the native state is small. Further increasing the local interactions rapidly decreases the foldability. © 1995 Wiley-Liss, Inc.     

Exhaustive enumeration of protein conformations using experimental restraints.

We present an efficient new algorithm that enumerates all possible conformations of a protein that satisfy a given set of distance restraints. Rapid growth of all possible self-avoiding conformations on the diamond lattice provides construction of alpha-carbon representations of a protein fold. We investigated the dependence of the number of conformations on pairwise distance restraints for the proteins crambin, pancreatic trypsin inhibitor, and ubiquitin. Knowledge of between one and two contacts per monomer is shown to be sufficient to restrict the number of candidate structures to approximately 1,000 conformations. Pairwise RMS deviations of atomic position comparisons between pairs of these 1,000 structures revealed that these conformations can be grouped into about 25 families of structures. These results suggest a new approach to assessing alternative protein folds given a very limited number of distance restraints. Such restraints are available from several experimental techniques such as NMR, NOESY, energy transfer fluorescence spectroscopy, and crosslinking experiments. This work focuses on exhaustive enumeration of protein structures with emphasis on the possible use of NOESY-determined distance restraints.     

Molecular Dynamics Study of Zinc-Blende GaN,AIN and InN

Abstract

We present a result of the molecular dynamics calculations with used a three-body empirical Tersoff potential. The parameters of the Tersoff potential are determined for nitride compound semiconductors such as GaN, AlN and InN. The structural and thermodynamic properties of GaN, AlN and InN in zinc-blende structure are presented. We report the equilibrium lattice constants, the bulk moduli, the cubic clastic constants, thermal expansion coefficient and specific heat. Good agreement is obtained with recent experimental and theoretical results for all constants.