International school principals: Routes to headship and key challenges of their role

Although there is an extensive literature across a range of national contexts concerning the evolving role of the school leader, little has been written about the rapidly expanding world of international school leadership. This paper focuses on the top tier of leadership of international schools by drawing on semi-structured interviews with 12 school principals in Malaysia, during which they reflected on the nature of their job and the routes they had taken to headship. It is argued that although the overwhelming majority had taken a school leadership qualification and found elements helpful, they felt that it did not adequately prepare them for their role. Several ways in which international school leadership differs significantly from educational school leadership in other contexts are identified, with principals needing to pay attention to loneliness, transience, cultural differences, governance, business elements, and managing school composition. By identifying key challenges faced by international heads, and by charting the paths that individuals take towards headship, this article seeks to understand the nature of senior leadership in international schools

Geographic Distribution: \u3ci\u3eIguana iguana\u3c/i\u3e (Green Iguana): USA: Florida.

A geographic distribution record for Iguana iguana in Marion County, Florida

Using GPS telemetry to validate least-cost modeling of gray squirrel ( Sciurus carolinensis) movement within a fragmented landscape

In Britain, the population of native red squirrels Sciurus vulgaris has suffered population declines and local extinctions. Interspecific resource competition and disease spread by the invasive gray squirrel Sciurus carolinensis are the main factors behind the decline. Gray squirrels have adapted to the British landscape so efficiently that they are widely distributed. Knowledge on how gray squirrels are using the landscape matrix and being able to predict their movements will aid management. This study is the first to use global positioning system (GPS) collars on wild gray squirrels to accurately record movements and land cover use within the landscape matrix. This data were used to validate Geographical Information System (GIS) least-cost model predictions of movements and provided much needed information on gray squirrel movement pathways and network use. Buffered least-cost paths and least-cost corridors provide predictions of the most probable movements through the landscape and are seen to perform better than the more expansive least-cost networks which include all possible movements. Applying the knowledge and methodologies gained to current gray squirrel expansion areas, such as Scotland and in Italy, will aid in the prediction of potential movement areas and therefore management of the invasive gray squirrel. The methodologies presented in this study could potentially be used in any landscape and on numerous species

Constructing international schools as postcolonial sites

This paper explores the discursive construction of race in Malaysian international schools and its relationship with postcolonialism. In response to the expansion of international schooling, it analyses data from a study of international school leadership in Malaysia, a former colony, through a postcolonial lens. It draws on face-to-face interviews with twelve international school leaders, and discourse analysis of sample websites from Malaysian international schools. Malaysia is an ethnocracy, with three distinct racial groups, and ethnicity affects many aspects of life, including education, and it is suggested that international schools offer no exception to this. The data indicate four emergent themes, these being constructions of: school identity; educational expertise; leadership; and Malaysia itself. The authors posit that international schools in Malaysia operate as postcolonial sites. Despite the origins of international schools lying within a movement committed to equality, these institutions are implicated in the construction and replication of racial divisions

Identification of Putative \u3cem\u3eAt\u3c/em\u3eTT2 R2R3-MYB Transcription Factor Orthologues in Tanniferous Tissues of \u3cem\u3eL. Corniculatus\u3c/em\u3e Var. \u3cem\u3eJaponicus\u3c/em\u3e Cv \u3cem\u3eGifu\u3c/em\u3e

R2R3-MYB plant transcription factors are sequence–specific DNA-binding proteins, which regulate the expression of specific gene(s) following the R2R3 DNA-binding domain interacting with the corresponding promoter sequence(s). The biosynthetic pathway leading to the production of anthocyanins has been demonstrated to be under MYB transcriptional regulatory control (Cone et al., 1986), while the accumulation of proanthocyanidins (PAs) in Arabidopsis seed coats is determined by the R2R3-MYB AtTT2 (Nesi et al., 2001). Using an informatics approach, partial sequences of putative AtTT2 orthologues have been identified and cloned from the forage legume Lotus corniculatus var. japonicus cv Gifu

Screening Coriander Gene Pool for Special Uses

Coriander (Coriandrum sativum L.) is an aromatic member of the Apiaceae with a wide diversity of uses (Diederichsen 1996). Its rapid life cycle allows it to fit into different growing seasons, making it possible to grow the crop under a wide range of conditions. Three subspecies and 10 botanical varieties of coriander have been proposed at the infraspecific level (Diederichsen and Hammer 2003) based on phenotypic characteristics; however, molecular evidence does not support classifications based on phenotypic and/or biochemical characteristics (López 2006). The objectives of our study were to assess the phenotypic and biochemical characteristics of coriander germplasm collections that would make them suitable for different uses and to use amplified fragment length polymorphism (AFLP) (Vos et al. 1995) to clarify patterns of genetic diversity and its partitioning among these populations, by means of an analysis of molecular variance (AMOVA) (Excoffier et al. 1992)

Effects of dietary nitrate supplementation on the response to extremity cooling and endothelial function in individuals with cold sensitivity. A double blind, placebo controlled, crossover, randomised control trial

Individuals with cold sensitivity have low peripheral skin blood flow and skin temperature possibly due to reduced nitric oxide (NO•) bioavailability. Beetroot has a high concentration of inorganic nitrate and may increase NO-mediated vasodilation. Using a placebo-controlled, double blind, randomised, crossover design, this study tested the hypotheses that acute beetroot supplementation would increase the rate of cutaneous rewarming following a local cold challenge and augment endothelium-dependent vasodilation in cold sensitive individuals. Thirteen cold sensitive participants completed foot and hand cooling (separately, in 15 °C water for 2 minutes) with spontaneous rewarming in 30°C air whilst skin temperature and cutaneous vascular conductance (CVC) were measured (Baseline). On two further separate visits, participants consumed 140 ml of either concentrated beetroot juice (nitrate supplementation) or nitrate-depleted beetroot juice (Placebo) 90 minutes before resting seated blood pressure was measured. Endothelial function was assessed by measuring CVC at the forearm, finger and foot during iontophoresis of 1% w/v acetylcholine followed by foot and hand cooling as for Baseline. Plasma nitrite concentrations significantly increased in nitrate supplementation compared to Placebo and Baseline (502 ± 246 nmol.L-1; 73 ± 45 nmol.L-1; 74 ± 49 nmol.L-1 respectively; n=11; P 0.05). Nitrate supplementation did not alter endothelial function in the forearm, finger or foot (all P > 0.05) compared to Placebo. Despite a physiologically meaningful rise in plasma nitrite concentrations, acute nitrate supplementation does not alter extremity rewarming, endothelial function or blood pressure in individuals with cold sensitivity

The impact of sequencing depth on the inferred taxonomic composition and AMR gene content of metagenomic samples

Shotgun metagenomics is increasingly used to characterise microbial communities, particularly for the investigation of antimicrobial resistance (AMR) in different animal and environmental contexts. There are many different approaches for inferring the taxonomic composition and AMR gene content of complex community samples from shotgun metagenomic data, but there has been little work establishing the optimum sequencing depth, data processing and analysis methods for these samples. In this study we used shotgun metagenomics and sequencing of cultured isolates from the same samples to address these issues. We sampled three potential environmental AMR gene reservoirs (pig caeca, river sediment, effluent) and sequenced samples with shotgun metagenomics at high depth (~ 200 million reads per sample). Alongside this, we cultured single-colony isolates of Enterobacteriaceae from the same samples and used hybrid sequencing (short- and long-reads) to create high- quality assemblies for comparison to the metagenomic data. To automate data processing, we developed an open- source software pipeline, ‘ResPipe’

Sulfatide Preserves Insulin Crystals Not by Being Integrated in the Lattice but by Stabilizing Their Surface

Background. Sulfatide is known to chaperone insulin crystallization within the pancreatic beta cell, but it is not known if this results from sulfatide being integrated inside the crystal structure or by binding the surface of the crystal. With this study, we aimed to characterize the molecular mechanisms underlying the integral role for sulfatide in stabilizing insulin crystals prior to exocytosis. Methods. We cocrystallized human insulin in the presence of sulfatide and solved the structure by molecular replacement. Results. The crystal structure of insulin crystallized in the presence of sulfatide does not reveal ordered occupancy representing sulfatide in the crystal lattice, suggesting that sulfatide does not permeate the crystal lattice but exerts its stabilizing effect by alternative interactions such as on the external surface of insulin crystals. Conclusions. Sulfatide is known to stabilize insulin crystals, and we demonstrate here that in beta cells sulfatide is likely coating insulin crystals. However, there is no evidence for sulfatide to be built into the crystal lattice

GPCR-styrene maleic acid lipid particles (GPCR-SMALPs):their nature and potential

G-protein-coupled receptors (GPCRs) form the largest class of membrane proteins and are an important target for therapeutic drugs. These receptors are highly dynamic proteins sampling a range of conformational states in order to fulfil their complex signalling roles. In order to fully understand GPCR signalling mechanisms it is necessary to extract the receptor protein out of the plasma membrane. Historically this has universally required detergents which inadvertently strip away the annulus of lipid in close association with the receptor and disrupt lateral pressure exerted by the bilayer. Detergent-solubilized GPCRs are very unstable which presents a serious hurdle to characterization by biophysical methods. A range of strategies have been developed to ameliorate the detrimental effect of removing the receptor from the membrane including amphipols and reconstitution into nanodics stabilized by membrane scaffolding proteins (MSPs) but they all require exposure to detergent. Poly(styrene-co-maleic acid) (SMA) incorporates into membranes and spontaneously forms nanoscale poly(styrene-co-maleic acid) lipid particles (SMALPs), effectively acting like a 'molecular pastry cutter' to 'solubilize' GPCRs in the complete absence of detergent at any stage and with preservation of the native annular lipid throughout the process. GPCR-SMALPs have similar pharmacological properties to membrane-bound receptor, exhibit enhanced stability compared with detergent-solubilized receptors and being non-proteinaceous in nature, are fully compatible with downstream biophysical analysis of the encapsulated GPCR