Linkage of a gene causing familial focal segmental glomerulosclerosis to chromosome 11 and further evidence of genetic heterogeneity.

Focal segmental glomerulosclerosis (FSGS) is a pathological entity characterized by proteinuria, nephrotic syndrome, and the progressive loss of renal function. It is a common cause of end-stage renal disease (ESRD). Recently, familial forms of FSGS have been identified. Two families with autosomal dominant FSGS were evaluated for linkage using 351 genomic microsatellite markers. Linkage, multipoint analysis, and tests for heterogeneity were performed on the subsequent results. In addition, three small families were used for haplotype analysis. Evidence for linkage was found on chromosome 11q21-q22 for the largest family, with a maximum lod score of 9.89. The gene is currently localized to an 18-cM area between flanking markers D11S2002 and D11S1986. The disease in a second family was not linked to this locus or to a previously described locus on chromosome 19q13. There were no shared haplotypes among affected individuals in the three smaller families. Our findings demonstrate that genetic heterogeneity is prevalent in FSGS in that at least three genes cause the FSGS phenotype. Identification of the genes that cause familial FSGS will provide valuable insights into the molecular basis and pathophysiology of FSGS.     

Reading DNA differently

Product inhibition has provided the limiting barrier to efficient template-directed ligation and polymerization reactions. Here we review the attempts to circumvent this limitation and outline a traslation strategy that does overcome the barrier and allows the information encoded in DNA to be read and amplified into backbone-modified oligonucleotides. © 1998 John Wiley & Sons, Inc. Biopoly 48: 19–28, 1998     

Comparative Proteomic Analysis for a Putative Pyridoxal Phosphate-Dependent Aminotransferase Required for Virulence in Acidovorax citrulli

Acidovorax citrulli (Ac) is the causative agent of bacterial fruit blotch disease in watermelon. Since resistant cultivars have not yet been developed, the virulence factors/mechanisms of Ac need to be characterized. This study reports the functions of a putative pyridoxal phosphate-dependent aminotransferase (PpdaAc) that transfers amino groups to its substrates and uses pyridoxal phosphate as a coenzyme. It was observed that a ppdaAc knockout mutant had a significantly reduced virulence in watermelon when introduced via germinated-seed inoculation as well as leaf infiltration. Comparative proteomic analysis predicted the cellular mechanisms related to PpdaAc. Apart from causing virulence, the PpdaAc may have significant roles in energy production, cell membrane, motility, chemotaxis, post-translational modifications, and iron-related mechanisms. Therefore, it is postulated that PpdaAc may possess pleiotropic effects. These results provide new insights into the functions of a previously unidentified PpdaAc in Ac.     

Analysis of fertilization and polyspermy in serotonin-spawned eggs of the zebra mussel,Dreissena polymorpha

Eggs isolated from animals spawned with 10⁻³ M serotonin were inseminated with sperm concentrations ranging from 10³–10⁶ sperm/ml. Multiple sperm attached to the surface of the egg and sperm incorporation occurred within 3 min postinsemination (PI). Sperm mitochondria, centrioles, and flagellum were also incorporated. Incorporation was essentially complete by 6 min PI. In the egg cortex, the sperm head rotated 180°, and a rapid translocation of the sperm through the cytoplasm towards the egg interior began by 5–6 min PI. In heavily polyspermic inseminations, translocations of the sperm were either minimal or nonexistent. In monospermic eggs, nuclear decondensation occurred after translocation was complete, beginning by 9–10 min PI. A male pronucleus began to develop in the cytoplasm by 21 min PI and enlarged to 20 μm before fusing with the female pronucleus. Oscillation of the egg cytoplasm and mitotic spindle apparatus was observed immediately prior to cleavage. Cleavage occurred at 60 min PI. Sperm incorporation and pronuclear formation were confirmed with fluorescent and confocal microscopy using the DNA-specific dyes Hoescht 33342 and 7-aminoactinomycin D. In sperm concentrations >10⁴ sperm/ml, 26–76% of the eggs exhibited polyspermy. The high incidence of polyspermy suggests that rapid, effective blocks to polyspermy were not present or were ineffective in a significant proportion of serotonin-spawned eggs. © 1996 Wiley-Liss, Inc.     

Sal/Manteca/Panela: Ethnoveterinary Practice in Highland Ecuador

In this essay, I analyze the feeding of salt, lard, and raw sugar balls to cattle, as practiced in the southern Ecuadorian highlands. These balls provide nutritional satisfaction for cattle and conceptual satisfaction for their owners. Domestic animals are understood to share many human characteristics, needs, and desires. The metaphoric extension of these traits to cattle responds to the quest not only for cognitive order, but also for the pragmatic purposes of management in an uncertain and precarious agrarian environment, [agriculture, animals, ethnoveterinary medicine, metaphor, Ecuador]     

The integration of chloroplast protein targeting with plant developmental and stress responses

The plastids, including chloroplasts, are a group of interrelated organelles that confer photoautotrophic growth and the unique metabolic capabilities that are characteristic of plant systems. Plastid biogenesis relies on the expression, import, and assembly of thousands of nuclear encoded preproteins. Plastid proteomes undergo rapid remodeling in response to developmental and environmental signals to generate functionally distinct plastid types in specific cells and tissues. In this review, we will highlight the central role of the plastid protein import system in regulating and coordinating the import of functionally related sets of preproteins that are required for plastid-type transitions and maintenance.