Mutation and “Reversion” at the leu-5 locus of Neurospora and its effect on the cytoplasmic and mitochondrial leucyl-tRNA synthetases

The Neurospora mitochondrial and cytoplasmic leucyl-tRNA synthetases differ from each other not only in location but also with respect to tRNA specificity, chromatographic mobility, leucine affinity, and sensitivity to phosphate inhibition. Strain 45208t, which bears a mutation in the leu-5 cistron, produces a cytoplasmic enzyme with reduced affinity for leucine and little if any mitochondrial enzyme activity. Reversion of the 45208t mutation was found to result not only in the reappearance of mitochondrial leucyl-tRNA synthetase activity but also in the production of a cytoplasmic synthetase with an affinity for leucine intermediate between mutant and wild type. The reversion studied, then, did not involve a return to the wild-type nucleotide sequence in the leu-5 cistron. The results obtained lend further support to the conclusion that the leu-5 cistron is involved in specifying, at least in part, the structure of both the cytoplasmic and mitochondrial leucyl-tRNA synthetases, despite the physical and functional differences between them.Research was supported in part by National Science Foundation Grant 27575.     

Development and other characteristics of α-methyl-d-glucoside transport by rat kidney cortex slices

α-Methyl-d-glucoside has been shown to be a non-metabolizable sugar which is accumulated against a concentration gradient by a Na⁺-dependent and phlorizin inhibited process by adult rat renal cortical slices incubatedin vitro at 37 °C. (2) The velocity of accumulation increased linearly with substrate concentrations up to 1.5 mM, but at higher concentrations obeyed saturable kinetics with an apparentK_m of about 6 mM. (3) Uptake was enhanced as Na⁺ was increased from 0 to 100 mequiv/l. Higher Na⁺ concentrations caused no further effect. (4) A pH maximum of transport occurred between 7.35 and 8.0. (5) Glucoside uptake was inhibited byd-glucose,d-galactose,d-fructose,d-mannose andd-ribose. The inhibition byd-glucose andd-galactose was competitive with apparentK_t of 24 and 53 mM, respectively. (6) Bothd-glucose andd-galactose accelerated the efflux of α-methyl-d-glucoside from preloaded cells. (7) Kidney cortex slices from 1-day-old rats were unable to accumulate α-methyl-d-glucoside to form a concentration gradient. The ability to concentrate the glucoside increased progressively after birth, reaching near normal in tissue from 15-day-old animals. The data indicate that the transport process in the newborn is rudimentary, failing also to display accelerated efflux phenomenon. (8) α-Methyl-d-glucoside is transported in rat kidney cortex by a mechanism similar in many ways to that ofd-galactose.     

Thymineless Death in polA+ and polA− Strains of Escherichia coli

The extreme sensitivity of polA(-) cells to thymineless death is due, primarily, to the absence of an extended lag prior to the commencement of death. Once thymineless death has commenced, the rate in polA(-) cells is only slightly faster than in polA(+) cells.     

The Antiparallel Dimerization of Myosin X Imparts Bundle Selectivity for Processive Motility

Myosin X is an unconventional actin-based molecular motor involved in filopodial formation, microtubule-actin filament interaction, and cell migration. Myosin X is an important component of filopodia regulation, localizing to tips of growing filopodia by an unclear targeting mechanism. The native α-helical dimerization domain of myosin X is thought to associate with antiparallel polarity of the two amino acid chains, making myosin X the only myosin that is currently considered to form antiparallel dimers. This study aims to determine if antiparallel dimerization of myosin X imparts selectivity toward actin bundles by comparing the motility of parallel and antiparallel dimers of myosin X on single and fascin-bundled actin filaments. Antiparallel myosin X dimers exhibit selective processivity on fascin-bundled actin and are only weakly processive on single actin filaments below saturating [ATP]. Artificial forced parallel dimers of myosin X are robustly processive on both single and bundled actin, exhibiting no selectivity. To determine the relationship between gating of the reaction steps and observed differences in motility, a mathematical model was developed to correlate the parameters of motility with the biochemical and mechanical kinetics of the dimer. Results from the model, constrained by experimental data, suggest that the probability of binding forward, toward the barbed end of the actin filament, is lower in antiparallel myosin X on single actin filaments compared to fascin-actin bundles and compared to constructs of myosin X with parallel dimerization.     

Regional differences in the feeding of the ambush predator Neosebastes pandus and comparisons of diets in the Scorpaenidae,Triglidae and Platycephalidae

This study provides a comprehensive assessment of the dietary composition of the ambush predator Neosebastes pandus and compares the diets of 49 species from 39 studies of three benthic predatory families in the Scorpaeniformes: Scorpaenidae (20 species), Triglidae (19 species) and Platycephalidae (10 species). A total of 275 N. pandus were collected from the west (Rottnest Island) and south (Esperance) coasts of south‐western Australia and the percentage frequency and volumetric contribution of the stomach contents identified. Fish from the west coast consumed a greater mean number of broad taxonomic groups and were more diverse in their diet than fish from the south coast. Cephalopods, brachyurans and teleosts were the largest overall contributors to diet, with teleosts being more important to diets of west‐coast fish and polychaetes for south‐coast fish. This reflects differences in habitat between the two locations. Dietary composition also changed with increasing body size, reflecting morphological changes that allow bigger fish to capture and ingest larger, more mobile prey. Meta‐analysis of the diets of 49 species of scorpaenid, triglid and platycephalid revealed that they feed predominantly on teleosts and large crustaceans. Significant differences in diet were detected among families, with platycephalids being the most distinct and feeding more on teleosts than scorpaenids and triglids.