Ion release from magnesium materials in physiological solutions under different oxygen tensions.

Although magnesium as degradable biomaterial already showed clinical proof of concepts, the design of new alloys requires predictive in vitro methods, which are still lacking. Incubation under cell culture conditions to obtain "physiological" corrosion may be a solution. The aim of this study was to analyse the influence of different solutions, addition of proteins and of oxygen availability on the corrosion of different magnesium materials (pure Mg, WE43, and E11) with different surface finishing.

Evaluation of short-term effects of rare earth and other elements used in magnesium alloys on primary cells and cell lines.

Degradable magnesium alloys for biomedical application are on the verge of being used clinically. Rare earth elements (REEs) are used to improve the mechanical properties of the alloys, but in more or less undefined mixtures. For some elements of this group, data on toxicity and influence on cells are sparse.

Magnesium alloys as implant materials--principles of property design for Mg-RE alloys.

Magnesium alloys have attracted increasing interest in the past years due to their potential as implant materials. This interest is based on the fact that magnesium and its alloys are degradable during their time of service in the human body. Moreover magnesium alloys offer a property profile that is very close or even similar to that of human bone.

Support vector machines for spam categorization.

We study the use of support vector machines (SVM's) in classifying e-mail as spam or nonspam by comparing it to three other classification algorithms: Ripper, Rocchio, and boosting decision trees. These four algorithms were tested on two different data sets: one data set where the number of features were constrained to the 1000 best features and another data set where the dimensionality was over 7000. SVM's performed best when using binary features.

Improving generalization performance using double backpropagation.

In order to generalize from a training set to a test set, it is desirable that small changes in the input space of a pattern do not change the output components. This can be done by forcing this behavior as part of the training algorithm. This is done in double backpropagation by forming an energy function that is the sum of the normal energy term found in backpropagation and an additional term that is a function of the Jacobian.

Characteristics of chloride-dependent incorporation of glutamate into brain membranes argue against a receptor binding site.

Although membrane sites from brain, labelled with [3H]glutamate (Glu) under sodium-free conditions, are thought to represent excitatory receptors, certain anomalous characteristics of the kinetics of apparent binding raised the question of whether transport might contribute to this process, prompting a closer examination of it. Hyperosmolar media and low incubation temperatures (4 degrees C) both led to decreases in the apparent specific binding of [3H]glutamate to membranes from the brain of the rat in the presence of chloride. Furthermore, only 15% of the [3H]glutamate, bound at 37 degrees C, was dissociable when the membranes were then cooled to 4 degrees C.

Quisqualate-sensitive, chloride-dependent transport of glutamate into rat brain synaptosomes.

A chloride-dependent transport process for glutamate has been identified in partially purified rat brain synaptosomes. This process shares many characteristics with the chloride-dependent sequestration process for glutamate in brain sonicates, which was previously thought to represent a quisqualate receptor, such as sensitivity to specific inhibitors and regulation by anions. Increasing the concentrations of chloride led to an increase in the apparent Vmax without affecting the KT.

Regulation of a Neurospora crassa extracellular RNase by phosphorus, nitrogen, and carbon derepressions.

A new extracellular RNase, designated N4, was detected in culture filtrates from Neurospora crassa and its regulation was studied. Limitation of a nutrient obtainable from RNA alone was not sufficient to cause enzyme derepression. The addition of RNA to the medium had no inductive effect, but the addition of exogenous protein caused enzyme production.

Characterization and comparison of a Neurospora crassa RNase purified from cultures undergoing each of three different states of derepression.

Extracellular RNase N4 from Neurospora crassa is derepressible by limitation of any of the three nutrient elements obtainable from RNA. We have purified and characterized the enzyme from cultures grown under each of the three states of derepression. The purification procedure consisted of an ultrafiltration step, cation-exchange chromatography, and gel filtration.

Purification and characterization of an extracellular acid protease from Neurospora crassa.

An extracellular acid protease was purified 1420-fold from sulfur-starved protein-induced cultures of Neurospora crassa. The enzyme was homogeneous as determined by polyacrylamide electrophoresis. The purification procedure consisted of an ultrafiltration step, cation-exchange chromatography, and affinity chromatography on Sepharose-linked pepstatin.

Extracellular acid proteases from Neurospora crassa.

Three electrophoretically distinct acid proteases appear in culture filtrates of Neurospora crassa. Like the previously investigated alkaline and neutral proteases, these enzymes require induction by an exogenous protein. But in contrast to alkaline and neutral proteases, which are synthesized and secreted in response to limitation of any one of three nutrilites (carbon, nitrogen or sulfur), extracellular elaboration of the acidic proteases is more specifically a function of the missing nutrilite.

Alkaline protease from Neurospora crassa. Purification and partial characterization.

A simple purification procedure has been developed for the extracellular alkaline protease from Neurospora crassa. Key steps in the purification were: 1) the choice of gelatin as the protein inducer, which induces optimally at a much lower concentration than other commonly employed protein inducers; 2) heat treatment, during which the inducer is digested by the protease; and 3) a concentration step that eliminates the usual precipitation procedures and removes much of the digested protein inducer. These procedures were followed by routine ion exchange chromatography and gel filtration.

Use of thermolysin for the dissociation of lung tissue into cellular components.

A method is described for the dissociation of rat lungs into individual viable cells. Thermolysin was perfused through the vasculature and trachea. The lung was then minced and further dissociated by washing with sequential additions of thermolysin.

Regulation of exocellular proteases in Neurospora crassa: metabolic requirements of the process.

To induce exocellular proteolytic enzyme from carbon-starved exponential-phase cells of Neurospora crassa, both a protein substrate and an activating protease of certain specific properties must be present at the same time. The cells must be capable of protein synthesis, since cycloheximide inhibits the process, but cell growth, as determined by increase in cell mass, does not appear to be required. Both soluble (bovine serum albumin, myoglobin) and insoluble protein substrates (collagen, corn zein) will affect protease induction, although certain soluble, globular proteins (egg white globulin, bovine gamma globulin) will not.

Regulation of exocellular proteases in Neurospora crassa: role of Neurospora proteases in induction.

Cells of Neurospora crassa strain 74A, grown on sucrose for 12 h and transferred to a medium containing protein as sole carbon source, would not produce exocellular protease in significant amounts. When a filtrate from a culture induced to make protease by normal growth on a medium containing protein as principal carbon source was added to an exponential-phase culture in protein medium, exocellular protease was made in amounts similar to those made during normal induction. The material in the culture filtrate that participated in the induction process was identified as protease by its heat lability, molecular weight, and the dependence of induction rate on units of proteolytic activity added to the exponential-phase culture.

Regulation of exocellular proteases in Neurospora crassa: induction and repression of enzyme synthesis.

Neurospora crassa strain 74A grown on Vogel's medium containing bovine serum albumin (BSA) as principal carbon source secretes proteolytic enzymes which appear in the culture filtrate. Low concentrations of sucrose (0.1%) are necessary for growth from conidia, as conidia will not germinate on BSA alone.