The MSW and the MPA: Confrontation of Two Professions in Public Welfare

From its inception in the 1930\u27s, public welfare has emerged as a major service industry commanding a sizeable portion of the public tax dollar. Concomitant with growth and size and expenditure has come the federalization of the program. In the face of a series of changes--the growth of welfare, added administrative complexity, and the emergence of new economic function--public welfare\u27s identification with social work was weakened. Correspondingly, and perhaps logically, its identification with public administration has been strengthened. In this paper, there is exploration of the changes leading to the confrontation between social work and public administration within public welfare. A comparative analysis of this confrontation is undertaken, and the methods of conflict resolution between the professions are explored. The principal purpose of the paper, however, is to draw attention to the argument, stimulate further debate about this course of events, and encourage some public policy direction in public welfare

Phylogenetic distribution of three pathways for propionate production within the human gut microbiota

Propionate is produced in the human large intestine by microbial fermentation and may help maintain human health. We have examined the distribution of three different pathways used by bacteria for propionate formation using genomic and metagenomic analysis of the human gut microbiota and by designing degenerate primer sets for the detection of diagnostic genes for these pathways. Degenerate primers for the acrylate pathway (detecting the lcdA gene, encoding lactoyl-CoA dehydratase) together with metagenomic mining revealed that this pathway is restricted to only a few human colonic species within the Lachnospiraceae and Negativicutes. The operation of this pathway for lactate utilisation in Coprococcus catus (Lachnospiraceae) was confirmed using stable isotope labelling. The propanediol pathway that processes deoxy sugars such as fucose and rhamnose was more abundant within the Lachnospiraceae (based on the pduP gene, which encodes propionaldehyde dehydrogenase), occurring in relatives of Ruminococcus obeum and in Roseburia inulinivorans. The dominant source of propionate from hexose sugars, however, was concluded to be the succinate pathway, as indicated by the widespread distribution of the mmdA gene that encodes methylmalonyl-CoA decarboxylase in the Bacteroidetes and in many Negativicutes. In general, the capacity to produce propionate or butyrate from hexose sugars resided in different species, although two species of Lachnospiraceae (C. catus and R. inulinivorans) are now known to be able to switch from butyrate to propionate production on different substrates. A better understanding of the microbial ecology of short-chain fatty acid formation may allow modulation of propionate formation by the human gut microbiota