Hydrochemical apportioning of irrigation groundwater sources in an alluvial aquifer.

River floodplains sustain irrigated agriculture worldwide. Despite generalised groundwater level falls, limited hard data are available to apportion groundwater sources in many irrigated regions. In this paper, we propose a workflow based on: hydrochemical analysis, water stable isotopes, radiocarbon contents and multivariate statistical analysis to facilitate the quantification of groundwater source attribution at regional scales. Irrigation water supply wells and groundwater monitoring wells sampled in the alluvial aquifer of the Condamine River (Queensland, Australia) are used to test this approach that can easily be implemented in catchments worldwide. The methodology identified four groundwater sources: 1) river/flood water; 2) modified river/flood water; 3) groundwater recharged through regional volcanic materials and 4) groundwater recharged predominantly through sands and/or sandstone materials. The first two sources are characterised by fresh water, dominant sodium bicarbonate chemistry, short residence time and depleted water stable isotope signatures. Groundwater sources 3 and 4 are characterised by saline groundwater, sodium chloride chemistries, enriched water stable isotopes and very low radiocarbon contents, inferred to correspond to long residence times. The majority of wells assessed are dominated by flood water recharge, linked to decadal >300 mm rainfall events and associated flooding in the region. The approach presented here provides a groundwater source fingerprint, reinforcing the importance of floodwater recharge in the regional water budgets. This apportioning of groundwater sources will allow irrigators, modelers and managers to assess the long-term sustainability of groundwater use in alluvial catchments.

[Enteric alpha defensin 5 is secreted into the blood stream by colon tumors].

It was demonstrated that enteric alpha-defensin 5 is undetectable in five blood serum samples of healthy donors, whereas its processed form is present in two out of five serum samples of colon cancer patients. Obtained results open a possibility of serological diagnosis of colon tumors in high risk cancer patients.

Biotic, temporal and spatial variability of tritium concentrations in transpirate samples collected in the vicinity of a near-surface low-level nuclear waste disposal site and nearby research reactor.

The results of a 21 month sampling program measuring tritium in tree transpirate with respect to local sources are reported. The aim was to assess the potential of tree transpirate to indicate the presence of sub-surface seepage plumes. Transpirate gathered from trees near low-level nuclear waste disposal trenches contained activity concentrations of (3)H that were significantly higher (up to ∼700 Bq L(-1)) than local background levels (0-10 Bq L(-1)). The effects of the waste source declined rapidly with distance to be at background levels within 10s of metres. A research reactor 1.6 km south of the site contributed significant (p < 0.01) local fallout (3)H but its influence did not reach as far as the disposal trenches. The elevated (3)H levels in transpirate were, however, substantially lower than groundwater concentrations measured across the site (ranging from 0 to 91% with a median of 2%). Temporal patterns of tree transpirate (3)H, together with local meteorological observations, indicate that soil water within the active root zones comprised a mixture of seepage and rainfall infiltration. The degree of mixing was variable given that the soil water activity concentrations were heterogeneous at a scale equivalent to the effective rooting volume of the trees. In addition, water taken up by roots was not well mixed within the trees. Based on correlation modelling, net rainfall less evaporation (a surrogate for infiltration) over a period of from 2 to 3 weeks prior to sampling seems to be the optimum predictor of transpirate (3)H variability for any sampled tree at this site. The results demonstrate successful use of (3)H in transpirate from trees to indicate the presence and general extent of sub-surface contamination at a low-level nuclear waste site.

Movement of a tritium plume in shallow groundwater at a legacy low-level radioactive waste disposal site in eastern Australia.

Between 1960 and 1968 low-level radioactive waste was buried in a series of shallow trenches near the Lucas Heights facility, south of Sydney, Australia. Groundwater monitoring carried out since the mid 1970s indicates that with the exception of tritium, no radioactivity above typical background levels has been detected outside the immediate vicinity of the trenches. The maximum tritium level detected in ground water was 390 kBq/L and the median value was 5400 Bq/L, decay corrected to the time of disposal. Since 1968, a plume of tritiated water has migrated from the disposal trenches and extends at least 100 m from the source area. Tritium in rainfall is negligible, however leachate from an adjacent and fill represents a significant additional tritium source. Study data indicate variation in concentration levels and plume distribution in response to wet and dry climatic periods and have been used to determine pathways for tritium migration through the subsurface.

Evaporative isotope enrichment as a constraint on reach water balance along a dryland river.

Deuterium and oxygen-18 enrichment in river water during its transit across dryland region is found to occur systematically along evaporation lines with slopes of close to 4 in (2)H-(18)O space, largely consistent with trends predicted by the Craig-Gordon model for an open-water dominated evaporating system. This, in combination with reach balance assessments and derived runoff ratios, strongly suggests that the enrichment signal and its variability in the Barwon-Darling river, Southeastern Australia is acquired during the process of evaporation from the river channel itself, as enhanced by the presence of abundant weirs, dams and other storages, rather than reflecting inherited enrichment signals from soil water evaporation in the watershed. Using a steady-state isotope mass balance analysis based on monthly (18)O and (2)H, we use the isotopic evolution of river water to re-construct a perspective of net exchange between the river and its contributing area along eight reaches of the river during a drought period from July 2002 to December 2003, including the duration of a minor flow event. The resulting scenario, which uses a combination of climatological averages and available real-time meteorological data, should be viewed as a preliminary test of the application rather than as a definitive inventory of reach water balance. As expected for a flood-driven dryland system, considerable temporal variability in exchange is predicted. While requiring additional real-time isotopic data for operational use, the method demonstrates potential as a non-invasive tool for detecting and quantifying water diversions, one that can be easily incorporated within existing water quality monitoring activities.

Femtosecond laser time-of-flight mass spectrometry of labile molecular analytes: laser-desorbed nitro-aromatic molecules.

Femtosecond laser time-of-flight mass spectra of solid samples of trinitrobenzene (TNB), trinitrotoluene (TNT) and trinitrophenol (TNP) have been recorded. Desorption of the solid samples was enacted by the fourth harmonic output (266 nm) of a 5 ns Nd:YAG laser. Subsequent femtosecond post-ionisation of the plume of neutral molecules was achieved using 800 nm laser pulses of 80 fs duration. Mass spectra have been recorded for desorption laser intensities from 2-6 x 10(9) W cm(-2) with ionisation laser intensities between 2 x 10(14) and 6 x 10(15) W cm(-2). Femtosecond laser ionisation has been shown to be capable of generating precursor and characteristic high-mass fragment ions for labile nitro-aromatic molecules commonly used in high-explosive materials. This feature is critical in the future development of femtosecond laser-based analytical instruments that can be used for complex molecular identification and quantitative analysis of environmentally important labile molecules. Furthermore, a comparison of femtosecond post-ionisation mass spectra with standard 70 eV electron impact data has revealed similarities in the spectra and hence the fragmentation processes.

The insertion of two amino acids into a transcriptional inducer converts it into a galactokinase.

The transcriptional induction of the GAL genes of Saccharomyces cerevisiae occurs when galactose and ATP interact with Gal3p. This protein-small molecule complex associates with Gal80p to relieve its inhibitory effect on the transcriptional activator Gal4p. Gal3p shares a high degree of sequence homology to galactokinase, Gal1p, but does not itself possess galactokinase activity. By constructing chimeric proteins in which regions of the GAL1 gene are inserted into the GAL3 coding sequence, we have been able to impart galactokinase activity upon Gal3p as judged in vivo and in vitro. Remarkably, the insertion of just two amino acids from Gal1p into the corresponding region of Gal3p confers galactokinase activity onto the resultant protein. The chimeric protein, termed Gal3p+SA, retains its ability to efficiently induce the GAL genes. Kinetic analysis of Gal3p+SA reveals that the K(m) for galactose is similar to that of Gal1p, but the K(m) for ATP is increased. The chimeric enzyme was found to have a decreased turnover number in comparison to Gal1p. These results are discussed in terms of both the mechanism of galactokinase function and that of transcriptional induction.

Molecular cloning of diadenosine tetraphosphatase from pig small intestinal mucosa and identification of sequence blocks common to diadenosine polyphosphate hydrolases and phosphorylases.

Diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) pyrophosphohydrolase is the enzyme responsible for reducing intracellular levels of the stress-responsive nucleotide diadenosine 5',5"'-P1,P4-tetraphosphate. In order to gain more information on the relationships between the enzymes hydrolysing diadenosine polyphosphates in different eukaryotes, the Ap4A hydrolase and a corresponding cDNA have been isolated from pig small intestinal mucosa by standard procedures. The enzyme is a typical mammalian Ap4A hydrolase (Km = 0.8 microM) being sensitive to inhibition by fluoride (Ki = 24 microM) and adenosine 5'-tetraphosphate (Ki = 10 nM) and yielding ATP and AMP as products. A low Km Ap4A hydrolase (Km = 0.3 microM) was also isolated from rabbit small intestinal mucosa. These enzymes differ from the rat intestinal mucosal hydrolase, which has much higher values of Km for Ap4A and Ki for adenosine 5'-tetraphosphate. A cDNA encoding the pig enzyme was isolated from a pig ileum cDNA library. The derived amino acid sequence of the 16.8 kDa gene product shows 88% identity and 96% similarity to that of the human enzyme. The sequence has the same modification of the MutT motif found in the human enzyme in which a threonine residue replaces a hydrophobic amino acid. Sequences comparisons among eukaryotic diadenosine polyphosphate hydrolases and phosphorylases reveal two blocks of amino acid similarity, including a motif, Z[AD]Gx[ED]AGQ, which may be involved in polyphosphate binding by the hydrolases, and an invariant histidine residue that may be involved in catalysis. These sequence similarities may have arisen by convergent evolution.

Laser Time-of-Flight Mass Spectrometry of PAH-Picrate Complexes.

The laser desorption/laser ionization time-of-flight (L2ToF), mass spectra of anthracene and the anthracene-picric acid charge transfer (C-T) complex have been compared at a desorption and ionization wavelength of 266 nm. Laser desorption/ionization spectra of anthracene were obtained at low temperatures (-30 °C) to minimize the interference from gas phase ionization. Positive ion mass spectra of the picrate C-T complex at room temperature comprise the parent ion of anthracene and were devoid of signals associated with the picric acid component. The L2ToF analyses of a mixture of volatile and involatile EPA priority PAHs in picric acid show that low molecular weight PAHs form involatile charge transfer complexes. The present method reduces the possibility of volatile PAH loss during mass spectrometric analyses in vacuo.

Human diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase is a member of the MutT family of nucleotide pyrophosphatases.

The cDNA and derived amino acid sequence of human diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase have been determined with the aid of the GenBank Expressed Sequence Tag database. This enzyme possesses a modification of the MutT sequence motif found in certain nucleotide pyrophosphatases. It is unrelated to the enzymes of diadenosine tetraphosphate catabolism found in prokaryotes and fungi.

Diadenosine 5',5"'-P1,P4-tetraphosphate hydrolase is present in human erythrocytes, leukocytes and platelets.

An asymmetrically-cleaving diadenosine 5',5"'-P1,P4-tetraphosphate hydrolase (Ap4A-->ATP+AMP) is present in all higher eukaryotes and contributes to the regulation of the intracellular level of the alarmone nucleotide diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A). This enzyme has previously been isolated from unfractionated human blood cells. The aim of this report is to determine the contribution made by different blood cell types as part of our study of the roles of Ap4A as an intra- and extracellular signalling molecule. Ap4A hydrolase was partially purified from isolated human erythrocytes, leukocytes and platelets by high performance gel permeation chromatography and characterized by kinetic analysis and by probing immunoblots with an antibody raised against the human placental enzyme. Ap4A hydrolase was clearly present in all three cell types. Each enzyme comprised a single polypeptide of M(r) 19,200. The erythrocyte and platelet enzymes had a Km for Ap4A of 0.70 +/- 0.05 microM (n = 3) while the Km for the leukocyte enzyme was 1.50 +/- 0.20 microM (n = 3). All three enzymes showed substrate inhibition above 10 microM Ap4A. The specific activity of the enzyme in erythrocytes was 0.067 U/10(6) cells, 15-fold lower than that in leukocytes and platelets. However, the erythrocyte hydrolase accounted for 97% of the total activity of unfractionated blood cells (336 U out of 346 U/ml blood). The study shows that leukocytes, platelets and erythrocytes all contain Ap4A hydrolase activity. The last observation is of particular interest given the reported absence of Ap4A from enucleated erythrocytes.(ABSTRACT TRUNCATED AT 250 WORDS)

The green alga Scenedesmus obliquus contains both diadenosine 5',5'''-P1,P4-tetraphosphate (asymmetrical) pyrophosphohydrolase and phosphorylase activities.

Diadenosine 5',5'''-P1,P4-tetraphosphate (Ap4A) phosphorylase and Ap4A pyrophosphohydrolase activities have been purified from extracts of the green alga Scenedesmus obliquus. Both activities were also detected in Scenedesmus brasiliensis, Scenedesmus quadricauda and in Chlorella vulgaris. This is the first time that both types of enzyme have been detected in the same species. The Ap4A phosphorylase has a molecular mass of 46-48 kDa, a broad pH optimum between 7.5 and 9.5, and requires a divalent ion for activity (Mg2+ > Co2+ > Ca2+ = Mn2+ = Cd2+ > Zn2+). It degrades substrates with at least four phosphate groups and always produces a nucleoside 5'-diphosphate product. The Km values for Ap4A and Pi are 5.3 microM and 160 microM, respectively, and kcat. = 1.8 s-1. Arsenate, vanadate, molybdate, chromate and tungstate can substitute for phosphate. The enzyme also catalyses Ap4A synthesis (Keq. = [Ap4A] [Pi]/[ATP][ADP] = 9 x 10(-4)) and ADP arsenolysis. The Ap4A hydrolase has a molecular mass of 26-28 kDa, an alkaline pH optimum of 8.8-9.8, and prefers Zn2+ as the stimulatory ion (Zn2+ > Mg2+ > Mn2+ > Co2+ > Cd2+). It degrades substrates with at least four phosphate groups, having a slight preference for Ap5A, and always produces a nucleoside 5'-triphosphate product. The Km value for Ap4A is 6.6 microM and kcat. = 1.3 s-1. It is inhibited competitively by adenosine 5'-tetraphosphate (Ki = 0.67 microM) and non-competitively by fluoride (Ki = 150 microM). A 50-54 kDa dinucleoside 5',5'''-P1,P3-triphosphate (Ap3A) pyrophosphohydrolase was also detected in S. obliquus, S. quadricauda and C. vulgaris. The corresponding enzyme in S. brasiliensis (> 100 kDa) may be a dimer