Your search keyword '"Phosphatases"' showing total 5 results

1. Importance of organic phosphate hydrolyzed in stalks of the lotic diatom Didymosphenia geminata and the possible impact of atmospheric and climatic changes.

Author

Ellwood, N. and Whitton, B.

Subjects

*DIATOMS, *CLIMATE change, *PHOSPHATASES, *BIOCHEMISTRY, *HYDROLYSIS, *RIVER ecology, *WATERSHEDS

Abstract

The aquatic colonial stalked diatom, Didymosphenia geminata, has acquired notoriety in recent years because of huge increases in many rivers of temperate regions. However, in some streams in northern England it has probably or, in the case of the R. Coquet (Northumberland), certainly been abundant for many decades. The paper describes the nutrient environment and phosphatase activities of Didymosphenia in Stony Gill (N. Yorkshire), a fast-flowing stream draining an upland catchment with peaty soils overlying limestone. Organic phosphate formed 85% of the filtrable phosphate in the water during the study (January–August 2000), with a maximum in April. Colonies were most abundant in June, but had disappeared by August. Surface phosphomonoesterase (PMEase) and phosphodiesterase activities assayed from March to July showed low PMEase activity in early March, but otherwise both were high throughout the period and especially so in June and July. Use of BCIP-NBT staining procedure showed that PMEase activity occurred in the stalks. A more detailed study of colony structure and staining with material from the R. Coquet in June 2006 also showed marked PMEase activity, with staining localized in the upper part of the stalks and the cells remaining unstained. It is suggested that organic phosphate is hydrolyzed in the stalk and the inorganic phosphate passes to the cell via a central tube in the stalk. It seems likely that organic phosphate as a major P source is a key factor favouring the success of Didymosphenia. The possible impact of environmental changes in the catchment such as climatic warming, C loss from peat and atmospheric N deposition is discussed. [ABSTRACT FROM AUTHOR]

Published

2007

2. Phosphatase activities of the aquatic moss Warnstorfia fluitans (Hedw.) Loeske from an acidic stream in North-East England.

Author

Ellwood, N. T. W. and Whitton, B. A.

Subjects

*MOSSES, *PHOSPHATASES, *AQUATIC biology, *PHOSPHODIESTERS, *EUTROPHICATION, *PHOSPHORUS in water, *NITROGEN in water

Abstract

A study was made of the aquatic environment, tissue nutrient composition and surface phosphatase activities of the aquatic moss Warnstorfia fluitans in Brandon Pithouse Stream, a small acidic stream in N-E England. The water, which originates from an underground spring, had been pH 2.6 for at least 30 years, but about 3.9 during the present study. The moss was by far the most abundant phototroph during all this period. Seasonal changes in aqueous nitrogen and phosphorus fractions were measured over a 2-year period near the source. Most of the filtrable N and P were at times organic, but the very high N:P ratio (even if organic N is excluded) suggests that only organic phosphate is likely to be important for the moss. There was a high peak in organic phosphate in late spring in both study years. Surface phosphomonoesterase (PMEase) and phosphodiesterase (PDEase) activities were highly correlated in the field and in axenic culture, though there were some differences in response to environmental factors. Axenic material showed higher PMEase and PDEase activities when grown with organic P than with inorganic P. Although the data suggest that internal P content is an important factor influencing phosphatase activities, PDEase activity was especially marked when the moss was grown with the diester, DNA, as P source, indicating that at least one of its surface phosphatases can also respond directly to the environment. [ABSTRACT FROM AUTHOR]

Published

2007

3. Seasonal phosphatase activities of mosses from Upper Teesdale, northern England.

Author

Turner, Benjamin L., Baxter, Robert, Ellwood, Neil T.W., and Whitton, Brian A.

Subjects

*PHOSPHATASES, *MOSSES, *BRYOPHYTES, *NITROGEN, *UPLANDS

Abstract

Changes in tissue nutrient concentrations and surface phosphatase activities of eight moss species were measured over one year in terrestrial and semi-aquatic environments on Widdybank Fell, Upper Teesdale National Nature Reserve, northern England. Rates of phosphatase activity in apical regions of moss shoots differed markedly between species, but were generally greatest in the winter and least in the summer in most species. Mean values for phosphomonoesterase activity (µmol para-nitrophenol g[sup -1] d.wt h[sup -1]) ranged from 18.2 for Polytrichum commune to 85.8 for Palustriella commutata var. falcata. Mean phosphodiesterase activity ranged from 3.1 for Polytrichum commune to 86.2 for Hylocomium splendens. In contrast, tissue nitrogen and phosphorus concentrations remained relatively constant throughout the year. Phosphatase activities were negatively correlated with tissue phosphorus concentration for several species, although few relationships were detected between ambient nutrient concentrations and phosphatase activity, tissue nitrogen, or tissue phosphorus concentration. These results demonstrate that phosphatase activities can provide a sensitive indicator of nutrient stress in terrestrial and semi-aquatic mosses, notably in the ectohydric Hylocomium splendens. However, further studies at sites with a wide range of nutrient levels are required to determine whether the technique can be used to indicate ambient nutrient status. [ABSTRACT FROM AUTHOR]

Published

2003

4. Epilithic extracellular-enzyme activity in a zinc-contaminated stream.

Author

Chappell, K. and Goulder, R.

Subjects

EXTRACELLULAR enzymes, PHYSIOLOGICAL effects of zinc, WATER sampling, RIVERS, VOLTAMMETRY, PHOSPHATASES

Abstract

The article presents a study regarding extracellular-enzyme activity on stones from a long-term zinc-contaminated streams, the Rivers West and East Allen in Northumberland, England. The study uses sampling, differential-pulse anodic-stripping voltammetry (ASV), and epifluorescence microscopy to count the total bacteria. Results show more abundance of zinc in the West Allen than in East Allen and a significant relationship between epilithic phosphatase activity and chlorophyll in both rivers.

Published

1994

5. I094 Tristetraprolin (TTP) and dual specificity phosphatase 1 (DUSP1) cooperate to prevent inflammatory arthritis.

Author

Clark, Andy

Subjects

*PHOSPHATASES, *CONFERENCES & conventions, *DRUG delivery systems, *PROTEINS, *RHEUMATOID arthritis, *THERAPEUTICS

Published

2019