Transient expression of GAP-43 in nonneuronal cells of the embryonic chicken limb.

Growth associated protein (GAP)-43 is a membrane-bound phosphoprotein expressed in neurons and is particularly abundant during periods of axonal outgrowth in development and regeneration of the nervous system. In previous work, we cloned a full-length chicken GAP-43 cDNA and described the expression of its corresponding mRNA during early development of the chicken nervous system. We report here that the GAP-43 mRNA is also expressed transiently in developing limbs of chicken embryos, which contain axons of spinal cord and dorsal root ganglion neurons, but do not contain neuronal cell bodies. GAP-43 mRNA was first detectable by RNA blot analysis in limbs from Embryonic Day 5 (E5) embryos, reached maximal levels between E6 and E8, and diminished by E10. In situ hybridization analysis showed that the GAP-43 mRNA was localized in distal regions of developing limbs and was particularly abundant in the mesenchyme surrounding the digital cartilage. In some regions of the limb, GAP-43 immunoreactivity colocalized in cells that were also immunoreactive for meromyosin, a muscle-specific marker. These data suggest that both GAP-43 mRNA and the protein are expressed in nonneuronal cells of the developing limb, some of which may be part of the muscle cell lineage.     

Toward a phylogeny and biogeography of Diaphanosoma (Crustacea: Cladocera)

Aquatic Ecology - Diaphanosoma s.l., with 40+? described species, is the largest genus of the Sididae and the Ctenopoda, similar in many ways to the anomopod genus Daphnia. Here, we offer a c...     

Past Japanese successes show the way to accomplish future goals

Many parasitic diseases have been eradicated in industrialized countries and well-proven tools and techniques exist to control them. However, the same diseases still cause incalculable ill health and suffering in the developing world. The difficulty remains how best to apply existing solutions where they are most needed. Within a period of 25 years following World War II, Japan eliminated many parasitic diseases and raised national health and living standards to world-leading levels. Gradually, the predominantly community-driven and intersectoral collaborative partnership systems (i.e. private sector, public sector, general public, etc.) and practices that worked in Japan are being extended to Asia and now Africa. These are backed by the provision of substantial human and financial resources from a nation whose population retains the reputation as being the healthiest and longest living in the world.     

Metabolomics standards initiative: ontology working group work in progress

In this article we present the activities of the Ontology Working Group (OWG) under the Metabolomics Standards Initiative (MSI) umbrella. Our endeavour aims to synergise the work of several communities, where independent activities are underway to develop terminologies and databases for metabolomics investigations. We have joined forces to rise to the challenges associated with interpreting and integrating experimental process and data across disparate sources (software and databases, private and public). Our focus is to support the activities of the other MSI working groups by developing a common semantic framework to enable metabolomics-user communities to consistently annotate the experimental process and to enable meaningful exchange of datasets. Our work is accessible via a public webpage and a draft ontology has been posted under the Open Biological Ontology umbrella. At the very outset, we have agreed to minimize duplications across omics domains through extensive liaisons with other communities under the OBO Foundry. This is work in progress and we welcome new participants willing to volunteer their time and expertise to this open effort. See the MSI Ontology Working Group website for a complete list of members and contributors. Web URL:     

A method for combined gross skeletal staining and Feulgen staining of embryonic chick tissues

This paper describes a combined technique for gross skeletal staining and Feulgen staining of avian embryonic limbs. The gross skeletal stain uses Victoria blue B, and the Feulgen stain is done en bloc before the skeletal stain is applied. The method has been useful in determining the cellular origins of supernumerary structures arising from experiments in which quail wing mesoderm is grafted into chick wing buds.     

Changes in ponderal index and body mass index across childhood and their associations with fat mass and cardiovascular risk factors at age 15

Background

Little is known about whether associations between childhood adiposity and later adverse cardiovascular health outcomes are driven by tracking of overweight from childhood to adulthood and/or by vascular and metabolic changes from childhood overweight that persist into adulthood. Our objective is to characterise associations between trajectories of adiposity across childhood and a wide range of cardiovascular risk factors measured in adolescence, and explore the extent to which these are mediated by fat mass at age 15.

Methods and Findings

Using data from the Avon Longitudinal Study of Parents and Children, we estimated individual trajectories of ponderal index (PI) from 0–2 years and BMI from 2–10 years using random-effects linear spline models (N = 4601). We explored associations between PI/BMI trajectories and DXA-determined total-body fat-mass and cardiovascular risk factors at 15 years (systolic and diastolic blood pressure, fasting LDL- and HDL-cholesterol, triglycerides, C-reactive protein, glucose, insulin) with and without adjustment for confounders. Changes in PI/BMI during all periods of infancy and childhood were associated with greater DXA-determined fat-mass at age 15. BMI changes in childhood, but not PI changes from 0–2 years, were associated with most cardiovascular risk factors in adolescence; associations tended to be strongest for BMI changes in later childhood (ages 8.5–10), and were largely mediated by fat mass at age 15.

Conclusion

Changes in PI/BMI from 0–10 years were associated with greater fat-mass at age 15. Greater increases in BMI from age 8.5–10 years are most strongly associated with cardiovascular risk factors at age 15, with much of these associations mediated by fat-mass at this age. We found little evidence supporting previous reports that rapid PI changes in infancy are associated with future cardiovascular risk. This study suggests that associations between early overweight and subsequent adverse cardiovascular health are largely due to overweight children tending to remain overweight.