[Conclusions and recommendations of a WHO expert consultation meeting on iron supplementation for infants and young children in malaria endemic areas]. / Conclusions et recommandations à l'issue de la consultation de l'OMS sur la lutte contre la carence martiale chez le nourrisson et le jeune enfant dans les pays d'endémie palustre.

This article presents the results of an expert consultation meeting aimed at evaluating the safety and public health implications of administering supplemental iron to infants and young children in malaria-endemic areas. Participants at this meeting that took place in Lyon, France on June 12-14, 2006 reached consensus on several important issues related to iron supplementation for infants and young children in malaria-endemic areas. The conclusions in this report apply specifically to regions where malaria is endemic.

Correlation of ATP/citrate lyase activity with lipid accumulation in developing seeds of Brassica napus L.

The temporal distribution of ATP/citrate lyase (ACL) activity in developing seeds of Brassica napus L. closely paralleled both that of acetyl-CoA carboxylase and the overall rate of lipid biosynthesis. Maximum ACL activities (250 nmol acetyl-CoA formed min-1.g fresh seed) were recorded between 35 to 42 d after pollination and, if the in vitro data could be extrapolated to the situation in vivo, could account for half of the acetyl-CoA required for the measured rate of fatty acid biosynthesis during seed development. The enzyme appeared to be localized in a subcellular compartment, which was clearly separated from mitochondria on a sucrose gradient and by differential centrifugation, and which corresponded to the chloroplast organelle.

Single cell oils--have they a biotechnological future?

Although microorganisms have long been known as producers of edible oils, opportunities for their biotechnological exploitation are limited to the highest-value commodities. A recent attempt to develop a yeast oil cocoa-butter equivalent has not succeeded, not because of the inability to produce the correct formulation of fatty acids, but because of the falling price of cocoa butter on the world market. Better prospects appear to exist for producing polyunsaturated fatty acids (PUFAs) of both the n-6 and n-3 series, using either bacteria, fungi or algae. Many microbial PUFA-oils are characterized by the absence of other PUFAs, making purification of individual fatty acids an easier task than it is from other sources. Certain microorganisms may also produce prostaglandin precursors, or even prostaglandins themselves, as well as cerebroside lipids and other unusual lipids that are not normally regarded as being of microbial origin.

Participation of iron on the growth inhibition of pathogenic strains of mycobacterium avium and M. paratuberculosis in serum.

Serum, which is low in freely-available iron, was bacteriostatic for M. avium and M. paratuberculosis irrespective of the ability of these organisms to produce the iron-chelators mycobactin and exochelin for iron acquisition. Bacteriostasis was overcome when the serum was supplemented with exochelin or mycobactin, but only if the mycobacteria had previously adapted to growth in a low iron environment. The results imply that for studies on mycobacterial pathogenicity the test cultures should be grown under low iron conditions before being used. The role of the exochelins, mycobactin and iron in the development of in vivo growth is discussed.

Mycobactin and the competition for iron between Mycobacterium neoaurum and M. vaccae.

Two closely related species of mycobacteria, Mycobacterium vaccae and M. neoaurum, were grown under conditions of iron-deficiency (0.02-0.05 microgram Fe ml-1) and iron-sufficiency (2-4 micrograms Fe ml-1) in a simple glycerol/asparagine medium. The strain of M. vaccae used was a nonmycobactin producer whereas M. neoaurum synthesized between 6-8% of its cell biomass as the lipid-soluble siderophore when grown under iron-limitation. The role of mycobactin for iron-acquisition was examined using both pure and mixed cultures, with cell viability determined following growth at various iron concentrations. M. neoaurum, the mycobactin producer, outgrew M. vaccae when iron was readily available. When grown under conditions where iron was limiting, M. neoaurum showed a decline in viable cell number compared with its competitor, highlighting its increased requirement for the metal. Some recovery was observed following mycobactin biosynthesis, this being greatly enhanced by the addition of an iron supplement to the growing cells. Mycobactin biosynthesis allowed M. neoaurum to rapidly acquire any additional iron presented to the bacteria when growing under iron-limitation. However, M. vaccae did not synthesize the lipid-soluble siderophore with its iron-requirement satisfied by production of extracellular exochelin.