Vestibulospinal influences on lower limb motoneurons

Galvanic vestibular stimulation (GVS) is a research tool used to activate the vestibular system in human subjects. When a low-intensity stimulus (1-4 mA) is delivered percutaneously to the vestibular nerve, a transient electromyographic response is observed a short time later in lower limb muscles. Typically, galvanically evoked responses are present when the test muscle is actively engaged in controlling standing balance. However, there is evidence to suggest that GVS may be able to modulate the activity of lower limb muscles when subjects are not in a free-standing situation. The purpose of this review is to examine 2 studies from our laboratory that examined the effects of GVS on the lower limb motoneuron pool. For instance, a monopolar monaural galvanic stimulus modified the amplitude of the ipsilateral soleus H-reflex. Furthermore, bipolar binaural GVS significantly altered the onset of activation and the initial firing frequency of gastrocnemius motor units. The following paper examines the effects of GVS on muscles that are not being used to maintain balance. We propose that GVS is modulating motor output by influencing the activity of presynaptic inhibitory mechanisms that act on the motoneuron pool.     

Mycobacterium tuberculosis reprograms waves of phosphatidylinositol 3-phosphate on phagosomal organelles

The potent human pathogen Mycobacterium tuberculosis persists in macrophages within a specialized, immature phagosome by interfering with the pathway of phagolysosome biogenesis. The molecular mechanisms underlying this process remain to be fully elucidated. Here, using four-dimensional microscopy, we detected on model phagosomes, which normally mature into phagolysosomes, the existence of cyclical waves of phosphatidylinositol 3-phosphate (PI3P), a membrane trafficking regulatory lipid essential for phagosomal acquisition of lysosomal characteristics. We show that mycobacteria interfere with the dynamics of PI3P on phagosomal organelles by altering the timing and characteristics of the PI3P waves on phagosomes. The default program of cyclical PI3P waves on model phagosomes is composed of an initial stage (phase I), represented by a strong PI3P burst occurring only upon the completion of phagosome formation, and a subsequent stage (phase II) of recurring PI3P waves on maturing phagosomes with the average periodicity of 20 min. Mycobacteria alter this program in two ways: (i) by inducing, in a cholesterol-dependent fashion, a neophase I* of premature PI3P production, coinciding with the process of mycobacterial entry into the macrophage, and (ii) by inhibiting the calmodulin-dependent phase II responsible for the acquisition of lysosomal characteristics. We conclude that the default pathway of phagosomal maturation into the phagolysosome includes temporally organized cyclical waves of PI3P on phagosomal membranes and that this process is targeted for reprogramming by mycobacteria as they prevent phagolysosome formation.     

Arabidopsis DCP2, DCP1, and VARICOSE form a decapping complex required for postembryonic development

mRNA turnover in eukaryotes involves the removal of m7GDP from the 5' end. This decapping reaction is mediated by a protein complex well characterized in yeast and human but not in plants. The function of the decapping complex in the development of multicellular organisms is also poorly understood. Here, we show that Arabidopsis thaliana DCP2 can generate from capped mRNAs, m7GDP, and 5'-phosphorylated mRNAs in vitro and that this decapping activity requires an active Nudix domain. DCP2 interacts in vitro and in vivo with DCP1 and VARICOSE (VCS), an Arabidopsis homolog of human Hedls/Ge-1. Moreover, the interacting proteins stimulate DCP2 activity, suggesting that the three proteins operate as a decapping complex. Consistent with their role in mRNA decay, DCP1, DCP2, and VCS colocalize in cytoplasmic foci, which are putative Arabidopsis processing bodies. Compared with the wild type, null mutants of DCP1, DCP2, and VCS accumulate capped mRNAs with a reduced degradation rate. These mutants also share a similar lethal phenotype at the seedling cotyledon stage, with disorganized veins, swollen root hairs, and altered epidermal cell morphology. We conclude that mRNA turnover mediated by the decapping complex is required for postembryonic development in Arabidopsis.     

Synthesis of poly-hydroxyalkanoates from activated sludge under various oxidation-reduction potentials

The production of poly-hydroxyalkanoates (PHA) from the activated sludge subjected to conditions with various oxidationreduction potentials (ORPs) was investigated. By controlling the dissolved oxygen concentration in the cultural media, the ORP were kept at preset levels of ?20, ?10, 0, and +10 mV. With glucose as the dedicated carbon source, we have demonstrated a correlating relationship with the ORP’s in the culture media to the PHA accumulation rate, the PHA production-yield, cell growth rate, glucose uptakes and 3-hydroxybutyrate to 3-hydroxyvalerate (HB/HV) mole ratios in the PHA copolymers. The highest PHA production yield of 0.26 g/g with HB/HV mole ratio of 8.03 was achieved at +10 mV ORP. We concluded that oxygen plays an important role in PHA accumulation and HB/HV mole ratio activated sludge-to-copolymer PHA conversion process.     

Development of allele-specific single-nucleotide polymorphism-based polymerase chain reaction markers in cytochrome oxidase I for the differentiation of Bactrocera papayae and Bactrocera carambolae (Diptera: Tephritidae)

Differentiation of Bactrocera papayae Drew & Hancock and Bactrocera carambolae Drew & Hancock (Diptera: Tephritidae) based on morphological characters has often been problematical. We describe here a single-nucleotide polymorphism (SNP)-based polymerase chain reaction (PCR) assay to differentiate between these two species. For detection of SNPs, fragments derived from each species were amplified using two primer pairs, COIF/COIR and UEA7/UEA10, sequenced, and aligned to obtain a contiguous 1,517-bp segment. Two new sets of primers were designed based on the 11 SNPs identified in the region. Results of the SNP-PCR test using any one of these species-specific primer sets indicate that these two species could be differentiated on basis of presence or absence of a band in the gel profile. We also tested the SNP-PCR primers on Bactrocera umbrosa F., Bactrocera cucurbitae Coquillett, Bactrocera latifrons Hendel, and Bactrocera tau (Walker) but did not detect any band in the gel, indicating the likelihood of a false positive for B. papayae is nil. This SNP-PCR method is efficient and useful, especially for immature life stages or when only adult body parts of the two species are available for identification, as encountered often in quarantine work.     

Complete Genome Sequence of Staphylococcus aureus Strain JKD6159, a Unique Australian Clone of ST93-IV Community Methicillin-Resistant Staphylococcus aureus

Community methicillin-resistant Staphylococcus aureus (cMRSA) is an emerging issue that has resulted in multiple worldwide epidemics. We report the first complete genome sequence of an ST93-MRSA-IV clinical isolate that caused severe invasive infection and a familial outbreak of skin infection. This isolate is a representative of the most common Australian clone of cMRSA that is more distantly related to the previously sequenced genomes of S. aureus.Staphylococcus aureus is a major cause of both hospital- and community-acquired infections, with rapid emergence of antibiotic resistance, in particular methicillin resistance, adding complexity to the treatment of this organism (3). While previously a hospital problem, methicillin-resistant S. aureus (MRSA) is now being increasingly documented in healthy patients in the community, and these isolates are termed “community MRSA” (cMRSA). A number of cMRSA genomes have been sequenced; however, these are phylogenetically closely related to each other. In contrast, ST93-MRSA-IV, a unique Australian clone, is a singleton by multilocus sequence typing (MLST) eBURST analysis (4). It is now the dominant cMRSA clone in Australia and is associated with both skin infection and severe invasive infection, including necrotizing pneumonia, deep-seated abscesses, and septicemia (5, 10). JKD6159 is a representative ST93-MRSA-IV clinical isolate which caused septicemia and multifocal pulmonary and musculoskeletal abscesses in a previously well intravenous drug user and also resulted in a familial outbreak of skin infection.The genome sequence of S. aureus strain JKD6159 was determined by high-throughput whole-genome shotgun sequencing, using both Illumina GAII (Illumina, CA) and Roche GS FLX Titanium (Roche Diagnostics, Basel, Switzerland) sequencing technologies, producing approximately 164× and 32× coverage of the genome, respectively. The GS FLX Titanium reads were assembled using Newbler 2.0.01.12, resulting in 56 contigs totaling 2.8 Mbp (9). The paired GAII reads were aligned to the contigs using SHRiMP 1.3.2 to identify and correct 74 homopolymeric sequencing errors (11). Optical mapping was used to produce a high-resolution XbaI chromosome restriction map, and the contigs were ordered and oriented against this map using MapSolver 2.1.1 (Opgen). Gap closures were performed by PCR followed by Sanger sequencing of amplification products (3730S genetic analyzer sequencer; Applied Biosystems, CA). The finished sequence was validated by reference to the XbaI optical map, Roche GS FLX Titanium mate pair analysis, and Illumina paired-end-read analysis.Protein coding regions were predicted using GeneMarkS 4.6b, tRNA genes using tRNAscan-SE 1.23, and rRNA genes using RNAmmer 1.2 (2, 7, 8). Gene products were assigned using HMMER 3.0 against the Pfam database (release 23) and BLAST 2.2.23 against RefSeq Proteins (April 2010) and the Conserved Domain Database (v2.22) (1, 6). These automated analyses were followed by manual curation, including comparison with other completed S. aureus genomes.The genome of S. aureus strain JKD6159 consists of a circular 2,811,435-bp chromosome with 33% G+C content—similar to those of other staphylococci—and one circular plasmid of 20,730 bp. A total of 2,605 coding regions, 57 tRNA genes, and 5 rRNA loci were detected. Over 67% of genes were assigned to specific Clusters of Orthologous Groups (COG) Database functional groups, and 40% were assigned an enzyme classification number (12).Initial analysis of the whole-genome sequence of JKD6159 confirms that ST93-MRSA-IV is distantly related to other previously sequenced S. aureus genomes. ST93-MRSA-IV has a distinct accessory genome. There were a number of regions of difference in JKD6159 that contain coding sequences (CDS) not present in any other published S. aureus genomes. Additionally, the ssl gene cluster in JKD6159 appears distinct from other sequenced S. aureus isolates. Comparison with other S. aureus genomes also shows that although JKD6159 carries lukSF-PV (the genes encoding Panton-Valentine leukocidin), there is a relative paucity of virulence factors such as tst-1, genes encoding staphylococcal enterotoxins A to U, and the ACME locus. Further analysis of the genome is now under way to identify factors that might explain the emergence of this MRSA strain in the community.     

Conservation of the Native Orchids Through Seedling Culture and Reintroduction—A Singapore Experience

Singapore is located near the equator, off the southern tip of the Malay Peninsula. The whole country consists mostly of lowland. It has many interesting types of natural habitats such as primary rain forest, freshwater swamp forest, mangroves, secondary forests, shrub, grasslands, and urban parks and fields. The climate is equatorial with relatively uniform temperature and high humidity. Unfortunately, many of the natural habitats and the native orchids which thrive there have disappeared due to habitat destruction. Some 226 species of native orchids have been recorded in Singapore. However, of these 178 are considered to be extinct, and only five are common. The orchid conservation programme aims to monitor existing species, explore ways to conserve their germplasm, and increase their numbers in natural, semi-natural, and urban environments through ex-situ seedling culture and subsequent re-introduction into appropriate habitats, including roadside trees, parks and natural areas. In the first phase of the programme, we have successfully propagated and carried out experiments of re-introduction on five species of native orchids, namely, Grammatophyllum speciosum, Bulbophyllum vaginatum, Bulbophyllum membranaceum, Cymbidium finlaysonianum and Cymbidium bicolor. Survival percentages 8-yr after the reintroduction events ranged from 10 to 95 for G. speciosum, the target species of the earliest re-introduction experiments. Size of the seedlings at reintroduction, host trees, and relative humidity seemed to play significant roles in the success rate of the reintroductions.     

Rab35 - A vesicular traffic-regulating small GTPase with actin modulating roles

The Rab family of GTPases are regulators of eukaryotic vesicular membrane traffic, while modulation of actin dynamics is a function conventionally associated with the Rho family of GTPases. Rab35 is a Rab protein with both plasma membrane and endosomal localization, and has been implicated in diverse processes that include T-cell receptor recycling, oocyte yolk protein recycling and cytokinesis. Rab35 regulates neurite outgrowth in neuronal-like cells, and can induce protrusions even in typically non-adherent Jurkat T-cells. Recent evidence indicates that Rab35’s activity, particularly the ability to mediate protrusive outgrowths, is due to its direct influence on actin dynamics. This can occur via activation of the Rho family of GTPases, or through the engagement of its effector fascin, an actin bundling protein.