Deuterium oxide promotes assembly and bundling of FtsZ protofilaments

The assembly and bundling of FtsZ protofilaments play an important role during bacterial cell division. Deuterium oxide (D2O) is known to have strong stabilization effects on the assembly dynamics of several proteins including tubulin, a homologue of FtsZ. Here, we found that D2O enhanced the light-scattering intensity of the assembly reaction, increased sedimentable polymer mass, and induced bundling of FtsZ protofilaments. D2O also increased the stability of FtsZ polymers under challenged GTP conditions and suppressed dilution-induced disassembly of protofilaments. D2O enhances the assembly parameters of FtsZ and microtubules albeit differently. For example, D2O induced bundling of FtsZ protofilaments, whereas it did not induce bundling of microtubules in vitro. In addition, D2O strongly suppressed the GTP hydrolysis rate of microtubules, but it had no effect on the initial rate of GTP hydrolysis of the FtsZ assembly. D2O (80%) also increased the helical content of FtsZ by 25% compared to the helical content of FtsZ in aqueous buffer. D2O was shown to reduce the binding of 4,4'-dianilino-1,1'-binaphthyl-5,5'-disulfonic acid (bis-ANS) to tubulin. In contrast, we found that D2O strongly enhanced the binding of bis-ANS to FtsZ. The results indicated that D2O promotes assembly and bundling of FtsZ protofilaments by increasing hydrophobic interactions between the protofilaments. The results also suggest that the phosphate release rather than the on-site GTP hydrolysis is the rate-limiting step of the GTP turnover reaction.     

Submergence tolerance in relation to variable floodwater conditions in rice

Flash floods adversely affect rice productivity in vast areas of rainfed lowlands in South and Southeast Asia and tropical Africa. Tolerant landraces that withstand submergence for 1–2 weeks were identified; however, incorporation of tolerance into modern high-yielding varieties through conventional breeding methods has been slow because of the complexity of both the tolerance phenotype and floodwater conditions, and the ensuing discrepancies encountered upon phenotyping in different environments. Designing an effective phenotyping strategy requires a thorough understanding of the specific floodwater characteristics that most likely affect survival during flooding. We investigated the implications of floodwater temperature and light penetration, caused by artificial shading, seasonal variation, or water turbidity, for seedling survival after submergence. Three field experiments were conducted using rice genotypes contrasting in their tolerance of submergence: FR13A and Kusuma (tolerant); Gangasiuli (intermediate); Sabita, CRK-2-6 and Raghukunwar (elongating/avoiding types); and IR42 (sensitive). We tested the hypotheses that warmer floodwater decreases plant survival and that turbid water augment plant mortality by causing effects similar to those caused by shading, by reducing light penetration. Plants survive better when water is cooler, and survival decreased at about 8% per unit increase in water temperature above 26 °C. Lower intensity of light and warmer temperatures seem to reduce biomass and increase mortality under flooding. An increase in the concentrations of O₂ and CO₂ and a decrease in water pH did not improve survival in clear unshaded water. Turbid floodwater was more damaging to rice as plant mortality increased as the percentage of silt increased, and the effects of water turbidity cannot be explained by the reduction in light penetration alone. Even the most tolerant rice cultivar, FR13A, experienced higher mortality when flooded with turbid floodwater. Correlation studies revealed that cultivars with the capacity to maintain higher biomass, higher chlorophyll, and non-structural carbohydrate concentrations after submergence had higher survival. These findings help to understand the variation observed in submergence tolerance when screening is done under different environments. The study could have implications for designing proper screening strategies and assessing the damage submergence causes across different rice-growing regions.     

Expression and localization of locally produced growth factors regulating lymphangiogenesis during different stages of the estrous cycle in corpus luteum of buffalo (Bubalus bubalis)

Recent experiments using expression, immunolocalization, and cell culture approaches have provided leading insights into regulation of luteal angiogenesis by different growth factor systems and its role in the function of corpus luteum (CL) in buffalo. On the contrary, lymphangiogenesis and its regulation in the CL are still poorly understood. The aim of this study was to evaluate the expression and localization of lymphangiogenic factors (vascular endothelial growth factor [VEGF]-C and VEGFD), their receptor (VEGFR3), and lymphatic endothelial marker (LYVE1) in bubaline CL during different stages of the estrous cycle and to investigate functional role of VEGFC and VEGFD in luteal lymphangeogenesis. The mRNA and protein expression of VEGFC, VEGFD, and VEGFR3 was significantly greater in mid and late luteal phases, which correlated well with the expression of LYVE1. The lymphangiogenic factors were localized in luteal cells, exclusively in the cytoplasm. Immunoreactivity of VEGFC was greater during midluteal phase and that of VEGFD was greater during the mid and late luteal phases. Luteal cells were cultured in vitro and treated for different time duration (24, 48, and 72 hours) with VEGFC and VEGFD each at 50, 100, and 150 ng/mL concentration and VEGFC with VEGFD at 100 ng/mL concentration. The temporal increase in LYVE1 mRNA expression was significant (P < 0.05) in VEGFC and VEGFC with VEGFD treatment and no significant change was seen in VEGFD treatment. Thus, it seems likely that VEGFD itself has little role in lymphangiogenesis but along with VEGFC it might have a synergistic effect on VEGFR3 receptors for inducing lymphangiogenesis. In summary, the present study provided evidence that VEGFC and VEGFD, and their receptor VEGFR3, are expressed in bubaline CL and are localized exclusively in the cell cytoplasm, suggesting that these factors have a functional role in lymphangiogenesis of CL in buffalo.     

Isolation of enriched carp spermatogonial stem cells from Labeo rohita testis for in vitro propagation

The in vitro culture system for spermatogonial stem cells (SSCs) is a powerful tool for exploring molecular mechanisms of male gametogenesis and gene manipulation. Very little information is available for fish SSC biology. Our aim was to isolate highly pure SSCs from the testis of commercially important farmed carp, Labeo rohita. The minced testis of L. rohita was dissociated with collagenase. Dissociated cells purified by two-step Ficoll gradient centrifugation followed by magnetic activated cell sorting (MACS) using Thy1.2 (CD90.2) antibody dramatically heightened recovery rate for spermatogonial cells. The purified cells were cultured in vitro conditions for more than two months in L-15 media containing 10% fetal bovine serum (FBS), 1% carp serum, and other nutrients. The proliferative cells were dividing as validated by 5-bromo-2′-deoxyuridine (BrdU) incorporation assay and formed colonies/clumps with the typical characteristics of SSCs A majority of enriched cell population represented a Vasa⁺, Pou5f1/pou5f1⁺, Ssea-1⁺, Tra-1-81⁺, plzf⁺, Gfrα1/gfrα1⁻, and c-Kit/c-kit⁻ as detected by immunocytochemical and/or quantitative real-time polymerase chain reaction (RT-PCR) analyses. Thus, Thy1⁺ SSCs were enriched with greater efficiency from the mixed population of testicular cells of L. rohita. A population of enriched spermatogonial cells could be cultured in an undifferentiated state. The isolated SSCs could provide avenue for undertaking research on basic and applied reproductive biology.     

BBProF: An Asynchronous Application Server for Rapid Identification of Proteins Associated with Bacterial Bioleaching

Recovery of metal value, especially from low-grade ores and overburden minerals using acidophilic bacteria through the process of bioleaching is an environmentally benign and commercially scalable biotechnology. In recent years, while the “OMICS” landscape has been witnessing extensive application of computational tools to understand and interpret global biological sequence data, a dedicated bioinformatic server for analysis of bacterial information in the context of its bioleaching ability is not available. We have developed an on-line Bacterial Bioleaching Protein Finder (BBProF) System, which rapidly identifies novel proteins involved in a bacterial bioleaching process and also performs phylogenetic analysis of 16S rRNA genes. BBProF uses the features of Asynchronous Java Script and XML (AJAX) to provide an efficient and fast user experience with minimal requirement of network bandwidth. In the input module the server accepts any bacterial or archaeal complete genome sequence in RAW format and provides a list of proteins involved in the microbial leaching process. BBProF web server is integrated with the European Bioinformatics Institute (EBI) web services such as BLAST for homology search and InterProScan for functional characterization of output protein sequences. Studying evolutionary relationship of bacterial strains of interest using Muscle and ClustalW2 phylogeny web services from EBI is another key feature of our server, where 16S rRNA gene sequences are considered as input through a JQUERY interface along with the sequences present in the BBProF database library. Complete genome sequences of 24 bioleaching microorganism characterized by genomic and physiological study in the laboratory and their respective 16S rRNA gene sequences were stored in the database of the BBProF library. To our knowledge BBProF is the first integrated bioinformatic web server that demonstrates its utility in identifying potential bioleaching bacteria. We hope that the server facilitate ongoing comparative genomic studies on of bioleaching microorganisms and also assist in identification and design of novel microbial consortia that are optimally efficient bioleaching agents.     

Extraction and characterization of biocompatible hydroxyapatite from fresh water fish scales for tissue engineering scaffold

In bone tissue engineering, porous hydroxyapatite (HAp) is used as filling material for bone defects, augmentation, artificial bone graft and scaffold material. The present paper compares the preparation and characterization of HAp from fish scale (FS) and synthetic body fluid (SBF) solution. Thermo gravimetric analysis, differential thermal analysis, Fourier transform infrared spectroscopy, X-ray diffraction (XRD), scanning electron microscopy (SEM) and particle size analysis of the samples have been performed. The analysis indicates that synthesized HAp consists of sub-micron HAp particle with Ca/P ratio corresponding to FS and SBF 1.62 and 1.71, respectively. MTT assay and quantitative DNA analysis show growth and proliferation of cells over the HA scaffold with the increase in time. The shape and size (morphology) of mesenchymal stem cells after 3 days show a transition from rounded shape to elongated and flattened shape expressing its spreading behavior. These results confirm that HAp bio-materials from fish scale are physico-chemically and biologically equivalent to the chemically synthesized HAp from SBF. Biological HAp, thus, possesses a great potential for conversion of industrial by-product into highly valuable compounds using simple effective and novel processes.     

A Y526Q Mutation in the Newcastle Disease Virus HN Protein Reduces Its Functional Activities and Attenuates Virus Replication and Pathogenicity

The hemagglutinin-neuraminidase (HN) protein of Newcastle disease virus (NDV) is a multifunctional protein that plays a crucial role in virus infectivity. In this study, using the mesogenic strain Beaudette C (BC), we mutated three conserved amino acids thought to be part of the binding/catalytic active site in the HN protein. We also mutated five additional residues near the proposed active site that are nonconserved between BC and the avirulent strain LaSota. The eight recovered NDV HN mutants were assessed for effects on biological activities. While most of the mutations had surprisingly little effect, mutation at conserved residue Y526 reduced the neuraminidase, receptor binding, and fusion activities and attenuated viral virulence in eggs and young birds.Newcastle disease virus (NDV) is an avian pathogen of the genus Avulavirus in the family Paramyxoviridae (10). The envelope of NDV contains two surface glycoproteins, the fusion (F) protein and the HN (hemagglutinin-neuraminidase [NA]) protein. The F protein mediates viral penetration and requires cleavage-activation by host protease. Cleavability of the F protein is a major determinant of virulence. However, other viral proteins, including HN, also contribute to virulence (5). HN is a multifunctional glycoprotein. It recognizes sialic acid-containing receptors on cell surfaces; promotes the fusion activity of F protein, thereby allowing the virus to penetrate the cell surface; and acts as an NA that removes sialic acid from progeny virus particles to prevent viral self-aggregation (9).HN is a type II homotetrameric glycoprotein with a monomer length of 577 amino acids for most NDV strains (14). The ectodomain of the HN protein consists of a 95-amino-acid stalk region supporting a 428-amino-acid terminal globular head. Although mutations in the transmembrane and stalk regions of the HN protein can affect the structure and activities of the protein (11, 15), the antigenic, receptor recognition, and NA active sites are all localized in the globular head (12, 16). The X-ray crystal structure of the globular head of the NDV HN protein has identified residues that appear to contribute to receptor recognition, NA, and fusion activities (4). Previous studies have proposed that conserved residues R174, I175, D198, K236, R416, R498, Y526, and E547 are important in receptor recognition and NA activities and that residues R174 and E547 influence the fusion promotion activity of the HN protein (3, 4, 6). Although transfection studies using plasmids expressing HN mutants of NDV have highlighted the importance of these residues in different biological functions of the HN protein, their contribution to NDV biology and pathogenesis in the context of the complete virus was not known.In this study, we examined the roles of three of the above-named conserved residues, R416, R498, and Y526 (all located near the sialic acid binding site), in the biological activities and pathogenesis of the HN protein of NDV in the context of infectious virus. In addition, comparison of the HN protein sequence between the avirulent strain LaSota and the moderately virulent strain Beaudette C (BC) identified 12 amino acid differences in the globular head region of the HN protein (H203, T214, I219, S228, L269, A271, E293, G310, S494, E495, T502, and N568, named according to the BC amino acid assignment). We also examined five of these nonconserved residues, T214, I219, S494, E495, and N568, located in close proximity to residues identified earlier by crystal structure studies, to determine whether these might affect HN function and contribute to the difference in pathogenicity between the LaSota and BC strains (Fig. ​(Fig.11).Open in a separate windowFIG. 1.Three-dimensional structure of the NDV HN protein showing the positions of amino acid residues that were substituted in the present study. The residues are shown in space-filling mode and represented in different colors. The MacPymol (DeLano Scientific) software was used to generate the model of the globular domain of the NDV HN monomer. The structure was derived from the crystal structure of the NDV HN protein reported by Crennell et al. (4).We used site-directed mutagenesis (2) to introduce individual amino acid substitutions into a cDNA of the HN gene of strain BC. For the conserved residues, we changed arginine at positions 416 and 498 and tyrosine at position 526 to polar glutamine. For the nonconserved residues, the assignments T214, I219, S494, E495, and N568 of strain BC were altered to the corresponding assignments of strain LaSota: S214, V219, G494, V495, and D568, respectively. Each mutagenized HN gene was then inserted into a full-length cDNA clone of the BC antigenome. These clones were transfected into HEp2 cells, and mutant viruses were recovered as previously described (8). These viruses were designated according to the substitutions introduced: T214S, I219V, R416Q, S494G, E495V, R498Q, Y526Q, and N568D. The HN genes from recovered viruses were sequenced. This confirmed the presence of each introduced mutation and the lack of adventitious mutations in the HN gene. To determine the stability of each HN mutation, the recovered viruses were passaged five times in 9-day-old embryonated chicken eggs and five times in chicken embryo fibroblast DF-1 cells. Sequence analysis of the HN gene of the mutant viruses at each passage showed that the introduced mutations were unaltered (data not shown). To rule out the possibility that change in the HN protein sequence could be compensated for by a mutation in the F protein, the F gene from each recovered virus was sequenced. No compensatory mutations in the F gene were observed (data not shown). The HN protein content of each mutant virus, determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Coomassie staining, was very similar to that of the parental BC virus (pBC) (Table ​(Table1).1). The multicycle growth kinetics of the recombinant HN mutant viruses in DF-1 cells (Fig. ​(Fig.2)2) showed that the replication kinetics of all of the HN mutant viruses were similar to those of pBC, with the exception of the Y526Q mutant, which showed delayed growth and had a lower virus yield (1.5 to 2.0 log₁₀ PFU/ml) than the parental and other mutant viruses. In addition, the Y526Q mutant produced syncytia at 72 h, whereas the parental and other mutant viruses initiated syncytia at 24 h postinfection. These studies showed the importance of amino acid residue Y526 at the active site of the HN protein of NDV.Open in a separate windowFIG. 2.Multicycle growth kinetics of HN mutants of NDV in chicken embryo fibroblast (DF-1) cells. Cells were infected with the indicated parental or mutant virus at an multiplicity of infection of 0.01. Supernatant samples were collected at 8-h intervals until 64 h postinfection, and virus titers were determined at different time points by plaque assay. Values are averages from three independent experiments.

TABLE 1.

Biological activities of HN mutants of NDV

Time-Restricted Feeding Prevents Obesity and Metabolic Syndrome in Mice Lacking a Circadian Clock

1. Download high-res image (187KB)
2. Download full-size image

     

Comparative analysis of different whole cell immobilized aspergillus niger catalysts for gluconic acid fermentation using pretreated cane molasses

To compare the efficiency of various whole cell immobilization techniques for the production of gluconic acid by Aspergillus niger were investigated using potassium ferrocyanide-treated cane molasses as the substrate. The techniques followed were: