Developmental and biophysical leaf characteristics that influence post-harvest shelf life in lettuce, an important leafy crop, have been examined. The traits were studied using 60 informative F9 recombinant inbed lines (RILs) derived from a cross between cultivated lettuce (Lactuca sativa cv. Salinas) and wild lettuce (L. serriola acc. UC96US23). Quantitative trait loci (QTLs) for shelf life co-located most closely with those for leaf biophysical properties such as plasticity, elasticity, and breakstrength, suggesting that these are appropriate targets for molecular breeding for improved shelf life. Significant correlations were found between shelf life and leaf size, leaf weight, leaf chlorophyll content, leaf stomatal index, and epidermal cell number per leaf, indicating that these pre-harvest leaf development traits confer post-harvest properties. By studying the population in two contrasting environments in northern and southern Europe, the genotype by environment interaction effects of the QTLs relevant to leaf development and shelf life were assessed. In total, 107 QTLs, distributed on all nine linkage groups, were detected from the 29 traits. Only five QTLs were common in both environments. Several areas where many QTLs co-located (hotspots) on the genome were identified, with relatively little overlap between developmental hotspots and those relating to shelf life. However, QTLs for leaf biophysical properties (breakstrength, plasticity, and elasticity) and cell area correlated well with shelf life, confirming that the ideal ideotype lettuce should have small cells with strong cell walls. The identification of QTLs for leaf development, strength, and longevity will lead to a better understanding of processability at a genetic and cellular level, and allow the improvement of salad leaf quality through marker-assisted breeding.
The ineffective cleaning of surgical instruments may be a vector for the transmission of hospital-acquired infections. The aim of this research was to investigate whether further decontamination procedures need to be instigated in sterile-service departments (SSDs) to reduce the risk of nosocomial illnesses, such as endotoxemia, sepsis, or iatrogenic Creutzfeldt-Jakob disease (to date, 1,147 cases of confirmed Creutzfeldt-Jakob disease deaths in the United Kingdom since 1990 have been reported). Instrument sets were obtained from nine anonymous United Kingdom National Health Service (NHS) primary care trust SSDs. The investigation implemented an advanced light microscopy technique, episcopic differential interference contrast microscopy with the sensitive fluorescent reagents SYPRO Ruby and 4,6-diamidino-2-phenylindole dihydrochloride (DAPI), to detect proteinaceous and microbial contamination levels. Gram-negative lipopolysaccharide (LPS) endotoxin was monitored using a dansylated polymyxin B fluorochrome agent. None of the 260 instruments examined displayed signs of microbial colonization or LPS endotoxin contamination. However, over 60 percent of the instruments showed a high degree of protein soiling (0.4 to 4.2 g protein/mm2 ). Some instruments appeared soiled with crystalline deposits that may consist of a potentially hazardous material contributing to inflammation and/or surgical shock. It is clear that the overall standard for cleaning must be raised in order to fulfill the imminent introduction of new European standards and to reduce the risk of cross-patient contamination and iatrogenic transmission.
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