High-coherence electron bunches produced by femtosecond photoionization.

With the development of ultrafast electron and X-ray sources it is becoming possible to study structural dynamics with atomic-level spatial and temporal resolution. Because of their short mean free path, electrons are particularly well suited for investigating surfaces and thin films, such as the challenging and important class of membrane proteins. To perform single-shot diffraction experiments on protein crystals, an ultracold electron source was proposed, based on near-threshold photoionization of laser-cooled atoms, which is capable of producing electron pulses of both high intensity and high coherence. Here we show that high coherence electron pulses can be produced by femtosecond photoionization, opening up a new regime of ultrafast structural dynamics experiments. The transverse coherence turns out to be much better than expected on the basis of the large bandwidth of the femtosecond ionization laser pulses. This surprising result can be explained by analysis of classical electron trajectories.

Maximal epidermal growth-factor-induced cytosolic phospholipase A2 activation in vivo requires phosphorylation followed by an increased intracellular calcium concentration.

The 85 kDa cytosolic phospholipase A2 (cPLA2) preferentially catalyses the hydrolysis of arachidonic acid from the sn-2 position of phospholipids. cPLA2 can be activated by extracellular stimuli such as thrombin, platelet-derived growth factor and epidermal growth factor (EGF): A full activation of cPLA2 requires an increase of intracellular Ca2+ concentration and phosphorylation on Ser-505 by mitogen-activated protein (MAP) kinase. Because EGF can provoke an increase in intracellular [Ca2+] ([Ca2+]i) and activation of MAP kinase, we investigated the role of these pathways in EGF-induced activation of cPLA2. Characterization of two cell lines expressing different numbers of EGF receptors (HERc13 and HER14) revealed that both were activating MAP kinase in response to EGF, but only HER14 responded with an increase in [Ca2+]i. In this study we used both cell lines as a tool to clarify the role of each pathway in cPLA2 activation. We show that EGF stimulates cPLA2 activity in both cell lines in vitro as measured in cytosolic fractions, but only in HER14 in vivo as measured by 3H release from cells prelabelled with [3H]arachidonic acid. This latter activation can be restored in HERc13 cells by the addition of the ionophore A23187. Interestingly, this effect is only observed when EGF stimulation precedes A23187 addition. The phosphorylation of MAP kinase, however, was identical under identical conditions. We conclude that a maximal cPLA2 activation by EGF requires both, and in this order: MAP kinase activation followed by a rise in [Ca2+]i concentration.

Is increased ammonia liberation after bleeding in the digestive tract the consequence of complete absence of isoleucine in hemoglobin? A study in pigs.

A variable protein-induced toxicity has been reported in liver disease. The aim of this study was to establish the cause of increased ammonia liberation in the gut after intraluminal bleeding. Therefore, blood was sampled from catheterized piglets [20 +/- 0.8 kg (means +/- S.E.); n = 10] to determine ammonia, urea and amino acid levels before and 1, 2, 3 and 6 hr after a standard pig meal (750 gm, 12% protein). After 1 week, this procedure was repeated after ingestion of an isonitrogenous amount of bovine whole blood (400 ml). In a second series of experiments, the same procedures were performed after ingestion of plasma, whole blood, erythrocytes and feed. Electromagnetically measured total intestinal, small and large bowel flow was not significantly influenced by the type of meal ingested. Portal ammonia release was significantly increased 2-fold after a blood meal, whereas intestinal glutamine utilization did not increase. Plasma urea levels were increased 200 to 300% after whole blood and erythrocytes, whereas after ingestion of plasma, urea levels were similar to values in controls. Glutamine utilization was not different among the various groups and occurred predominantly in the small bowel. In the fasted state, small bowel glutamine utilization paralleled ammonia production. In the fed state, this equimolar relationship could not be assessed because luminal glutamine utilization could not be determined. Isoleucine levels decreased to 25% of fasting levels. Analysis of blood constituents revealed a complete lack of isoleucine in the hemoglobin molecule. Net total alpha-amino-nitrogen absorption was doubled after a blood meal.(ABSTRACT TRUNCATED AT 250 WORDS)

Fully automated liquid-chromatographic determination of amino acids.

This inexpensive method for fully automated amino acid analysis combines the advantages of automated precolumn derivatization with o-phthaldialdehyde and favorable analytical conditions to separate and quantify 30 amino acids found in normal plasma. The system can run unattended for almost four days, during which the data are processed automatically by a personal computer and a maximum of 76 samples and 19 standards can be processed (cycle time per analysis: 55 min). Only 1 microL of deproteinized plasma is required per analysis. Coefficients of variation for retention times and areas measured for all relevant amino acids are less than 1% and 3%, respectively. The system described is well suited for quick, sensitive operation in daily practice.