Transformation and regeneration of Brassica rapa using Agrobacterium tumefaciens

Summary Transformation and regeneration procedures for obtaining transgenic Brassica rapa ssp. oleifera plants are described. Regeneration frequencies were increasedby using silver nitrate and by adjusting the duration of exposure to 2,4-D. For transformation, Agrobacterium tumefaciens strain EHA101 containing a binary plasmid with the neomycin phosphotransferase gene (NPT II) and the b-glucuronidase gene (GUS) was cocultivated with hypocotyl explants from the oilseed B. rapa cvs. Tobin and Emma. Transformed plants were obtained within three months of cocultivation. Transformation frequencies for the cultivars Tobin and Emma were 1–9%. Evidence for transformation was shown by NPT II dot blot assay, the GUS fluorometric assay, Southern analysis, and segregation of the kanamycin-resistance trait in the progeny. The transformation and regeneration procedure described here has been used routinely to transform two cultivars of B. rapa and 18 cultivars of B. napus.     

Properties of the pyruvate dehydrogenase kinase bound to and separated from the dihydrolipoyl transacetylase-protein X subcomplex and evidence for binding of the kinase to protein X

Studies were conducted on four pyruvate dehydrogenase kinase-containing fractions: purified pyruvate dehydrogenase complex, the dihydrolipoyl transacetylase-protein X-kinase subcomplex (E2.X.K), a kinase fraction (K fraction) prepared from the E2.X.K subcomplex, and a kinase fraction generated by limited trypsin-digestion of E2.X.K. We characterized the gel electrophoresis properties of dissociated subunits (one-dimensional and two-dimensional), the catalytic and ATP binding properties of kinase-containing fractions, and the subunit requirements for kinase binding to and being activated by the transacetylase-protein X subcomplex (E2.X). A significant portion of protein X was retained with the transacetylase core following release of virtually all the kinase. The K fraction had four major bands separated by sodium dodecyl sulfate-slab gel electrophoresis which corresponded to the dihydrolipoyl dehydrogenase, protein X, the trypsin-resistant catalytic subunit of the kinase and a chymotrypsin-resistant subunit which had a high pI and comigrated in one-dimensional systems with the chymotrypsin-sensitive alpha-subunit of the pyruvate dehydrogenase component. While purified kidney complex contained only about three molecules of kinase (determined by [14C]ATP binding), one molecule of E2.X subcomplex activated a large number (greater than 15) molecules of kinase associated with the protein X-containing K fraction. Sephadex G-200 chromatography of the K fraction in the presence of dithiothreitol led to coelution of protein X and kinase subunits. Limited trypsin digestion converted the transacetylase into subdomains and cleaved protein X and the high pI subunit of the kinase. Under those conditions, the intact catalytic subunit of the kinase did not bind to the large inner domain of the transacetylase but could be activated by untreated E2.X subcomplex. Thus, binding of the catalytic subunit of the kinase and its activation by E2.X required either protein X or the lipoyl-bearing outer domain of the transacetylase. In combination, our results suggest that protein X serves to anchor the kinase to the core of the complex.     

Maintenance of the cellobiose utilization genes of Escherichia coli in a cryptic state

The genes for cellobiose utilization are normally cryptic in Escherichia coli. The cellobiose system was used as a model to understand the process by which silent genes are maintained in microbial populations. Previously reported was (1) the isolation of a mutant strain that expresses the cellobiose-utilization (Cel) genes and (2) that expression of those genes allows utilization of three beta- glucoside sugars: cellobiose, arbutin, and salicin. The Cel gene cluster has now been cloned from that mutant strain. In the course of locating the Cel genes within the cloned DNA segment, it was discovered that inactivation of the Cel-encoded hydrolase rendered the host strain sensitive to all three beta-glucosides as potent inhibitors. This sensitivity arises from the accumulation of the phosphorylated beta- glucosides. Because even the fully active genes conferred some degree of beta-glucoside sensitivity, the effects of cellobiose on a series of five Cel+ mutants of independent origin were investigated. Although each of those strains utilizes cellobiose as a sole carbon and energy source, cellobiose also acts as a potent inhibitor that reduces the growth rate on glycerol 2.5-16.5-fold. On the other hand, wild-type strains that cannot utilize cellobiose are not inhibited. The observation that the same compound can serve either as a nutrient or as an inhibitor suggests that, under most conditions in which cellobiose will be present together with other resources, there is a strong selective advantage to having the cryptic (Cel0) allele. In those environments in which cellobiose is the sole, or the best, resource, mutants that express the genes (Cel+) will have a strong selective advantage. It is suggested that temporal alternation between these two conditions is a major factor in the maintenance of these genes in E. coli populations. This alternation of environments and fitnesses was predicted by the model for cryptic-gene maintenance that was previously published.      

The significance of tryptophan in human nutrition

Summary Aside from its role as one of the limiting essential amino acids in protein metabolism, tryptophan (TRP) serves as precursor for the synthesis of the neurotransmitters serotonin and tryptamine as well as for the synthesis of the antipellagra vitamin nicotinic acid and the epiphyseal hormone melatonin.By involvement in so manifold pathways, TRP and its metabolites regulate neurobehavioral effects such as appetite, sleeping-waking-rhythm and pain perception. TRP is the only amino acid which binds to serum albumin to a high degree. Its transport through cell membranes is competetrvely inhibited by large neutral amino acids (NAA). The TRP/NAA ratio in plasma is essential for the TRP availability and thus for the serotonin synthesis in the brain.Due to its high TRP-concentration, human milk protein provides optimal conditions for the availability of the neurotransmitter serotonin. Low protein cow's milk-based infant formulas supplemented with-lactalbumin — a whey protein fraction containing 5.8% TRP — present themselves as a new generation of formulas, with an amino acid pattern different from the currently used protein mixtures of adapted formulas, resembling that of human milk to a much higher degree.     

Observations on the Leydig cells in the male East African spring hare (Pedetes surdaster larvalis).

The morphology of Leydig cells of the testis of sexually mature and sexually immature spring hares was studied. The cytoplasm of the Leydig of cells the sexually immature spring hares was packed with large lipid droplets leaving little space for the other organelles. Smooth endoplasmic reticulum was poorly developed and occasionally formed concentric layers of fenestrated cisterns around the large lipid droplets. The Leydig of cells the sexually mature spring hares were almost devoid of lipid droplets and their cytoplasm was occupied by abundant tubular smooth endoplasmic reticulum. Cells which shared characteristics with both immature Leydig cells and undifferentiated mesenchymal cells were observed in the limiting membrane of the seminiferous tubulus. These Leydig-like cells may play a role in the differentiation of Leydig cells in the spring hare.     

Self-Diffusion in Electrostatically Stabilized Colloidal Suspensions Using Brownian Dynamics

Abstract

Brownian dynamics is applied to suspended colloidal particles interacting through a screened Coulombic pair potential in the dilute region where the hydrodynamics is approximated by Stokes drag. Calculated properties include the osmotic pressure, the radial distribution function, and the self-diffusion coefficient. Verification is obtained by comparing the results to independently evaluated properties. Self-diffusion coefficicents are compared to approximate theories in the literature. The self-diffusion coefficient is observed to depend strongly on the local structure but only slightly on the longer range structure.     

Requirements of protein kinase cdelta for catalytic function. Role of glutamic acid 500 and autophosphorylation on serine 643

Recently, we reported that, in contrast to protein kinase C (PKC)alpha and betaII, PKCdelta does not require phosphorylation of a specific threonine (Thr505) in the activation loop for catalytic competence (Stempka et al. (1997) J. Biol. Chem. 272, 6805-6811). Here, we show that the acidic residue glutamic acid 500 (Glu500) in the activation loop is important for the catalytic function of PKCdelta. A Glu500 to valine mutant shows 76 and 73% reduced kinase activity toward autophosphorylation and substrate phosphorylation, respectively. With regard to thermal stability and inhibition by the inhibitors G?6976 and G?6983 the mutant does not differ from the wild type, indicating that the general conformation of the molecule is not altered by the site-directed mutagenesis. Thus, Glu500 in the activation loop of PKCdelta might take over at least part of the role of the phosphate groups on Thr497 and Thr500 of PKCalpha and betaII, respectively. Accordingly, PKCdelta exhibits kinase activity and is able to autophosphorylate probably without posttranslational modification. Autophosphorylation of PKCdelta in vitro occurs on Ser643, as demonstrated by matrix-assisted laser desorption ionization mass spectrometry of tryptic peptides of autophosphorylated PKCdelta wild type and mutants. A peptide containing this site is phosphorylated also in vivo, i.e. in recombinant PKCdelta purified from baculovirus-infected insect cells. A Ser643 to alanine mutation indicates that autophosphorylation of Ser643 is not essential for the kinase activity of PKCdelta. Probably additional (auto)phosphorylation site(s) exist that have not yet been identified.