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161.
Acid phosphomonoesterase (APM) (E.C. 3.1.3.2) in soil is either of plant‐root or microbial origin. Each of these sources may be dominant in certain ecosystems. Generally, extracellular APM in soil has been reported. However, the lack of suitable methods limits investigations of APM in soil. Root‐derived APM comes from intact plant roots, root exudates, root apoplastic sap, root extracts, or mycorrhizal fungi. The significance of these sources of APM is discussed in this review being the highest in intact roots or root extracts, and within wall‐ and membrane‐bound fraction of mycorrhizal fungi. Evaluation of the location of APM has been based on extraction of fractions of APM with different types of extractants. The suitability of individual extractants and lack of these procedures as well as the need to search for other suitable solutions to increase extraction efficiency, minimalize extraction of inhibitors and solubilization of organic compounds are discussed. As APM derived from roots and soil microorganisms show different kinetic properties, and differ in their response to environmental factors, determination of the significance of root and microbial APM within ecosystems requires further research aimed at evaluating the response of P transformation to climatic and other environmental changes. 相似文献
162.
Marian Malek Takashima Yusuke Harsonowati Wiwiek Murota Haruhiko Narisawa Kazuhiko 《European journal of plant pathology / European Foundation for Plant Pathology》2022,163(1):97-112
European Journal of Plant Pathology - Pythium root rot is one of the most destructive diseases on lisianthus in Japan. Current management strategies against Pythium root rot are insufficient in... 相似文献
163.
Radny MW 《Science (New York, N.Y.)》2002,298(5591):59; author reply 59
164.
Brady H Lamb MM Sokol RJ Ross CA Seifert JA Rewers MJ Norris JM 《Public health nutrition》2007,10(7):712-718
BACKGROUND: While adult populations have been well described in terms of nutritional status, such as the concentration of nutrient biomarkers, little work has been done in healthy paediatric populations. OBJECTIVE: The primary objective of this analysis was to explore the determinants of plasma micronutrients in a group of healthy infants and children. DESIGN: The Diabetes Autoimmunity Study in the Young (DAISY) has enrolled 1433 newborns at increased risk for type 1 diabetes in Denver, Colorado. A representative random sample of 257 children from the DAISY cohort between the ages of 9 months and 8 years with a total of 815 clinic visits over time was used in this analysis. Annual dietary intake was assessed over time with Willett food-frequency questionnaires that were validated in this population. Environmental tobacco smoke (ETS) was assessed using a validated survey. Plasma samples were tested for vitamins, carotenoids and total lipids. Predictors of plasma micronutrients were evaluated using mixed models for longitudinal data, while adjusting for age, human leukocyte antigen genotype, type 1 diabetes family history and other potential confounders and covariates. RESULTS: Increased micronutrient intake was associated with increased levels of their respective plasma nutrient, with the exception of gamma-tocopherol. Independent of dietary intake, levels of alpha- and beta-carotene and beta-cryptoxanthin were significantly lower, and gamma-tocopherol was significantly higher, in children who were exposed to ETS. CONCLUSION: Dietary intake predicts plasma micronutrient levels. Exposure to ETS potentially could have negative health effects in this young population. 相似文献