The effect of aging on cell-free protein synthesis in the free-living nematode Turbatrix aceti

The age-related reduction in cell-free protein synthesis in the free-living nematode Turbatrix aceti is due to a defect in the ribosomes. Addition of young ribosomal wash or use of young medium does not improve the activity of old, run-off ribosomes in the presence of phenylalanine and poly(U). It appears that some of the old ribosomes are incapable of binding the EF-1-GTP-aminoacyl-tRNA complex. These ineffective ribosomes are present in the 80 S (monosomal) fraction. Old ribosomes obtained from polysomes appear to bind normally.     

Age-Dependent Metabolic Differences in Peripheral Hyphae of Rhizoctonia solani

Peripheral hyphae were separated from the remaining thallus of Rhizoctonia solani in exponential and stationary phases of growth. The QO(2) in whole cells of peripheral hyphae from young fungal colonies was on the average 2.6 times and the protein content 1.6 times greater than in peripheral hyphae from old fungal colonies. The overall rate of amino acid uptake was less in old than in young fungal colonies. In a polyuridylic acid-polyphenylalanine incorporating system, the two kinds of peripheral hyphae required ribosomes, supernatant fraction, polyuridylic acid, soluble ribonucleic acid, adenosine triphosphate, and pyruvate kinase. The rate of polyphenylalanine synthesis in old fungal colonies was slower than in the young fungal colonies. The ribosomes and supernatant fraction of the young and old fungal colonies were interchangeable and active. The factor responsible for deficient protein synthesis in old fungal colonies appears to be in the soluble fraction of the mycelium.     

Protein synthesis by 80S ribosomes during plant development

Protein synthesis by ribosomes from the meristematic region of pea roots (0–0·3 cm) and 2-day-old corn shoots (young tissues) relative to ribosomes from matured regions of pea roots (2·0–2·5 cm) and 10-day-old corn leaves (aged tissues) was compared in the poly U-phenylalanine system. With normal polyribosome preparations, ribosomes from young tissues required approx. 16 mM Mg²⁺ while ribosomes from aged tissues required 20–22 mM Mg²⁺ for optimal activity. With monomeric ribosome preparations induced by anaerobic treatment of the seedlings, the Mg²⁺ optimum was 20–22 mM for ribosomes from both young and aged tissues. A higher level of peptidyl-tRNA in ribosomes from young tissues accounts, at least in part, for the differences in Mg²⁺ optima between ribosomes from young and aged tissues. Monomeric ribosomes were used for assaying the activity of ribosomes per se. Ribosomes from young pea root tips and ribosomes from 2-day-old corn shoots were 25–30% and 100–150% more active, respectively, than the corresponding ribosomes from aged tissues. Differences in ribosomal proteins revealed by gel electrophoresis correlated with the change in ribosomal activity. Reduced activity in the aged ribosomes was not due to RNase activity or inhibitors.     

The influence of host's age on the selectivity of parasitism and fecundity ofTrichogramma

Laboratory studies showed that ♀♀ ofTrichogramma embryophagum (Hartig) andT. semblidis (Aurivillius) when offered an alternative of young and old eggs of the grain moth,Sitotroga cerealella Oliv., prefer ovipositing into young eggs. The fecundity of ♀♀ that are simultaneously offered both young and old eggs was lower in comparison to ♀♀ offered only young eggs (inspite of the fact that in both variants young eggs were in excess). The results suggest that old eggs can inhibit the oviposition of some species ofTrichogramma.      

Age-dependent responses of tree-ring growth and intra-annual density fluctuations of Pinus pinaster to Mediterranean climate

Dendrochronology generally assumes that climate–growth relationships are age independent once the biological growth trend has been removed. However, tree physiology, namely, photosynthetic capacity and hydraulic conductivity changes with age. We tested whether the radial-growth response to climate and the intra-annual density fluctuations (IADFs) of Pinus pinaster Ait. varied with age. Trees were sampled in Pinhal de Leiria (Portugal), and were divided in two age classes: young (<65 years old) and old (>115 years old). Earlywood and tree-ring width of young P. pinaster trees were more sensitive to climate influence while the response of latewood width to climate was stronger in old trees. Young trees start the growing season earlier, thus a time window delay occurs between young and old trees during which wood cells of young trees integrate environmental signals. Young trees usually have a longer growing season and respond faster to climate conditions, thus young P. pinaster trees presented a higher frequency of IADFs compared with old trees. Most of the IADFs were located in latewood and were positively correlated to autumn precipitation. The radial-growth response of P. pinaster to climate and the IADFs frequency were age dependent. The use of trees with different age to create a tree-ring chronology for climate studies can increase the resolution of climatic signals. Age-dependent responses to climate can also give important clues to predict how young and old trees react to climate change.     

Parameters of bioimpedance spectroscopy in young and old erythrocytes

The parameters of bioimpedance spectroscopy (BIS) were studied in suspensions of young and old erythrocytes. The separation of erythrocytes according to age in a density gradient was performed. The BIS parameters, including the extracellular (Re) and intracellular (Ri) fluid resistances, characteristic frequency (Fchar), cell membranes’ capacitance (Cm), and the Alpha parameter of concentrated suspensions of young and old erythrocytes (n = 6) were measured using an ABC-01 Medass bioimpedance analyzer in the frequency range 5–500 kHz. Re (300.4 ± 30.0 and 261.2 ± 21.8 Ω in old and young erythrocytes, respectively, p < 0.05), Ri (86.6 ± 9.1 Ω and 73.4 ± 7.3 Ω in old and young erythrocytes, respectively, p < 0.001), and Alpha (0.305 ± 0.003 and 0.302 ± 0.001 in old and young erythrocytes respectively, p < 0.05) were greater in the suspension of old erythrocytes than in the suspension of young erythrocytes; and Fchar (308.3 ± 42.0 kHz and 347.4 ± 48.0 kHz in old and young erythrocytes, respectively, p < 0.05) and Cm (99.3 ± 10.1 pF and 112.8 ± 6.3 pF in old and young erythrocytes, respectively, p < 0.01) were less in the suspension of old erythrocytes than in the suspension of young erythrocytes. These differences between the BIS parameters of old and young erythrocytes were possibly due to the structural change in erythrocytes during aging (an increase in the concentration of intracellular hemoglobin, the change in the shape of the erythrocyte, their converging due to the decrease in cellular negative surface charge, and an increase in membrane permeability to ions). Thus, the BIS parameters depend on the erythrocyte age composition.     

Response of Solanum tuberosum to Myzus persicae infestation at different stages of foliage maturity

Young leaves of the potato Solanum tuberosum L. cultivar Kardal contain resistance factors to the green peach aphid Myzuspersicae （Sulzer） （Hemiptera： Aphididae） and normal probing behavior is impeded. However, M. persicae can survive and reproduce on mature and senescent leaves of the cv. Kardal plant without problems. We compared the settling ofM. persicae on young and old leaves and analyzed the impact of aphids settling on the plant in terms of gene expression. Settling, as measured by aphid numbers staying on young or old leaves, showed that after 21 h significantly fewer aphids were found on the young leaves. At earlier time points there were no difference between young and old leaves, suggesting that the young leaf resistance factors are not located at the surface level but deeper in the tissue. Gene expression was measured in plants at 96 h postinfestation, which is at a late stage in the interaction and in compatible interactions this is long enough for host plant acceptance to occur. In old leaves of cv. Kardal （compatible interaction）, M. persicae infestation elicited a higher number of differentially regulated genes than in young leaves. The plant response to aphid infestation included a larger number of genes induced than repressed, and the proportion of induced versus repressed genes was larger in young than in old leaves. Several genes changing expression seem to be involved in changing the metabolic state of the leaf from source to sink.     

The biology of cartilage. I. Invertebrate cartilages: Limulus gill cartilage

The endoskeletal structure supporting the gill-books of Limulus polyphemus has been investigated by means of light and electron microscopy, chemical analysis and x-ray diffraction. This tissue is a cartilage which has significant correspondences with both vertebrate cartilage and plant tissues. Morphologically, the Limulus cartilage resembles certain cellular vertebrate cartilages with relatively scant matrix, and also certain plant parenchyme, collenchyme and sclerenchyme tissues. Of particular interest, was the observation that during cytoplasmic division, a phragmasome-like structure appears between the daughter cells of the dividing gill cartilage cells. This phragmasome-like structure appears to be a precursor of new matrix (cell-wall) formation between the young chondrocytes, in much the same fashion as its counterpart in plant tissues. Perichondrial cells and underlying chondrocytes contain lipid droplets, abundant glycogen and ribosomes, as do corresponding vertebrate cartilage cells. In some of the Limulus cells, glycogen and ribosomes appear to be admixed with lipid, forming aggregates in which all three materials are in intimate intraparticulate relationship. During molting, the number of ribosomes seen in chondrocytes increases. The tissue contains both hydroxyproline and hydroxylysine, and gives a weak x-ray diffraction pattern.     

Evaluation of muscle oxidative potential by 31P-MRS during incremental exercise in old and young humans

The purpose of this study was to compare muscle oxidative capacity between moderately active young and old humans by measuring intracellular threshold (IT) during exercise with ³¹P-magnetic resonance spectroscopy (³¹P-MRS). Changes in phosphocreatine, inorganic phosphate, and intracellular pH were measured by ³¹P-MRS during a progressive unilateral ankle plantar flexion exercise protocol in groups of moderately active old (n=12, mean age 66.7 years) and young (n=13, mean age 26.2 years) individuals. From muscle biopsy samples of the lateral gastrocnemius, citrate synthase (CS) activity was determined in six subjects from each group, and fibre type composition was determined in nine old and ten young subjects. The old group had a lower IT for pH, as a percentage of peak work rate (P<0.05), despite a similar CS activity compared to the young. IT was significantly correlated with CS activity (R=0.59; P<0.05), but not with fibre type composition. It was concluded that metabolic responses to exercise are affected by ageing, as indicated by a lower IT in old compared to young individuals. Accepted: 7 May 1998     

Age dependent changes in fungi: Ribosomes and protein synthesis inRhizoctonia solani mycelium

Summary Increasing age ofRhizoctonia solani cells was accompanied by a decrease in protein synthesis but not by a fall in the number of ribosomes present. There was, however, a shift from predominantly polyribosomes in young cells actively synthesizing protein, to mainly monoribosomes in older less active cells, and it is suggested that protein synthesis is restricted in these older cells by some defect at the initiation step of protein synthesis. The major site of protein synthesis throughout ageing was the free ribosome fraction with little or no contribution from membrane-bound ribosomes. For reasons not understood, the free ribosomes failed to sediment through 2.0 M sucrose, and only by using 1.4 M sucrose were good separations obtained.     

The relation of protein synthesis to the concentrations of free and membrane-bound ribosomes in brain at different ages

Free and membrane-bound ribosomes were prepared from the brains of young (3- and 8-day-old) and adult (30 day) rats by the method of Ramsey and Steele (1977). Though the concentration of RNA in young brain is higher than that in adult brain, the fraction of the RNA which is ribosomal is virtually the same (64%) as is the ratio of free ribosomes total ribosomes (61%) at all ages studied. The rate of protein synthesis measured in vivo, expressed in the usual terms of “% per h”, is much higher in young compared to adult brain, but when expressed as the ribosomal specific activity, i.e. “mg protein synthesized per hour per mg ribosomal RNA”, is the same in the three age groups (0.61, 0.58 and 0.60, respectively). Thus, even during early development, when protein is increasing rapidly, ribosomes are no more active than in adult brain, suggesting that synthesis rates in brain are limited by ribosomal content.     

Genetic diversity,structure, and demography of Pandanus boninensis (Pandanaceae) with sea drifted seeds,endemic to the Ogasawara Islands of Japan: Comparison between young and old islands

Pandanus boninensis, endemic to the Ogasawara Islands, Japan, is distributed on both the older Bonin and younger Volcano Islands. In this study, we conducted population genetic analyses of P. boninensis on these islands to examine the population diversity and structure across old and young islands, to assess potential differences in population demography with island age, and to collect any evidence of migration between old and young islands. We found that the genetic diversity of expressed sequence tag (EST)–based microsatellite (SSR) markers, the nucleotide diversity of nuclear DNA sequences, and the haplotype diversity of chloroplast DNA on young islands were lower than those on old islands. Clustering analyses of EST‐SSR indicated that populations on old islands were strongly diverged from those on young islands. Approximate Bayesian computation analysis of EST‐SSR suggested that population expansion occurred on old islands while population reduction occurred on young islands. We also found evidence of migration among old islands (mostly from south to north), while it appears that there have been very few migration events between old and young islands. These differences could be due to the fact that young islands tend to be geographically isolated and support smaller populations that began a shorter time ago from limited founders. The P. boninensis populations on the Volcano Islands are interesting from an evolutionary perspective as they constitute a classic example of the early stages of progressive colonization on oceanic islands with small effective population sizes and low genetic diversity.     

Effect of long-term swimming exercise on zinc,magnesium, and copper distribution in aged rats

Trace element content of different tissues might be altered by both age and exercise training. We aimed to determine the effects of a 1-yr swimming protocol (60 min/d, 5 day/wk) on tissue levels and the distribution of zinc (Zn), magnesium (Mg), and copper (Cu) in aging rats. Three groups were formed: sedentary and trained old groups and a young control group. Tissue Zn, Mg, and Cu concentrations were measured in the kidney, heart, liver, lungs, and gastrocnemius and soleus muscles. Kidney zinc concentration significantly decreased in the sedentary old group compared to the young control group (p<0.01) and was significantly higher in the trained old group compared to the sedentary old group (p<0.01), whereas Zn levels in the soleus muscle significantly increased in the sedentary old group in comparison to young controls (p<0.05). Tissue Mg concentrations remained unchanged. The sedentary old group exhibited a significant decrease in kidney Cu concentration compared to the young control group (p<0.01). Although kidney Cu levels also decreased in trained old rats in comparison to young controls (p<0.05), they were significantly higher than in sedentary old rats (p<0.01). The decrease in kidney Zn and Cu content as a result of aging was partly prevented by long-term swimming exercise.     

Serum and Testicular Trace Element Concentration in Rabbits at Different Ages

Trace elements such as Zinc (Zn), copper (Cu), iron (Fe), and selenium (Se) are essential for male fertility. The fertilizing capacity of most animals reduced with advancing age. The objective of the present work was to determine the serum and testicular levels of Zn, Cu, and Se in young (10 months old) and old (30 months old) rabbits. Blood and testicular samples were obtained from rabbits after their slaughter. All samples were digested by concentrated acids and analyzed for trace elements by flame emission atomic absorption spectrophotometer. The results showed that serum Zn and Cu were lower in old rabbits than young (P < 0.01). Serum Se was higher in old than young rabbits (P < 0.05). Testicular Cu and Se were significantly lower in old than young rabbits (P < 0.01). However, Zn level was higher in old compared to young rabbits (P < 0.01). The serum Zn and Se were higher than the testicular levels (P < 0.01). The testicular Cu in both ages was higher than the serum level (P < 0.01), which suggest a very important role for Cu in the process of spermatogenesis in rabbits.     

Ribosome Specificity of Transfer Factors from Unicellular Algae

Abstract

Ribosome specificity of polymerizing enzymes prepared from Nostoc muscorum and from photosynthesizing and non-photosynthesizing strains of Euglena gracilis and Chlorella vulgaris was determined by assaying protein synthesis in vitro with Escherichia coli (70 S type) and Saccharomyces cerevisiae (80 S type) ribosomes. Polymerizing enzymes prepared from the prokaryote N. muscorum are active only on E. coli ribosomes, while the enzymes prepared from the photosynthesizing strains of E. gracilis and C. vulgaris are active on both 70 S and 80 S type ribosomes. Polymerizing enzymes from dark-grown cells of E. gracilis and of an achloric strain are active only on 80 S type ribosomes, and the activity on E. coli ribosomes may be restored by adding E. coli transfer factor T. In addition, activity on 70 S ribosomes becomes evident a few hours after exposure to light of dark-grown cells of E. gracilis. On the contrary, polymerizing enzymes prepared from a non-photosynthetic strain of C. vulgaris, and from the naturally occuring achloric alga Prototheca zopfii are active on both types of ribosomes. C. vulgaris and its achloric strain contain both 70 S and 80 S type ribosomes, while in P. zopfii only 80 S type ribosomes are evident.     

WILD GAMETOPHYTES OF PHANEROSORUS MAJOR (MATONIACEAE)

The gametophytes of Phanerosorus major collected from wild populations in Seram Island are described. Young gametophytes are slender, ribbon-like and uniformly one cell thick. They develop to old gametophytes with a broad thick cushion and coarsely ruffled wings. The gametophytes are monoecious and protandrous, although archegonia-bearing thalli occasionally become antheridia-bearing. Massive antheridia form on the ventral surface of young and old gametophytes while archegonia are borne on the cushion of old ones. Both young and old gametophytes reproduce vegetatively. The gametophytic characters are compared with those of Matonia. The life cycle of P. major is discussed with reference to its ecology.     

Accelerated food source location in aging Drosophila

Adequate energy stores are essential for survival, and sophisticated neuroendocrine mechanisms evolved to stimulate foraging in response to nutrient deprivation. Food search behavior is usually investigated in young animals, and it is not known how aging alters this behavior. To address this question in Drosophila melanogaster, we compared the ability to locate food by olfaction in young and old flies using a food‐filled trap. As aging is associated with a decline in motor functions, learning, and memory, we expected that aged flies would take longer to enter the food trap than their young counterparts. Surprisingly, old flies located food with significantly shorter latency than young ones. Robust food search behavior was associated with significantly lower fat reserves and lower starvation resistance in old flies. Food‐finding latency (FFL) was shortened in young wild‐type flies that were starved until their fat was depleted but also in heterozygous chico mutants with reduced insulin receptor activity and higher fat deposits. Conversely, food trap entry was delayed in old flies with increased insulin signaling. Our results suggest that the difference in FFL between young and old flies is linked to age‐dependent differences in metabolic status and may be mediated by reduced insulin signaling.     

Massive ribonucleoprotein bodies in gametophyte vegetative cells of the mossTimmiella barbuloides (Brid.) Moenk

Summary Vegetative cells of the gametophyte phase of the mossTimmiella barbuloides (Pottiales) are characterized by large cytoplasmic bodies of spherical shape (SBs) whose ribonucleoprotein composition is cytochemically demonstrated. SBs seem to be derived from massive aggregation of cytoplasmic ribosomes, with possible participation by rough endoplasmic reticulum elements. SBs have been found in stereids, parenchymatous cells and young hydroids of the gametophyte stem, and in euricysts of the leaf nerve. The SBs develop early in the course of cell differentiation and, once formed, persist until advanced stages of cell senescence.     

Male age and its association with reproductive traits in captive and wild house sparrows

Evolutionary theory predicts that females seek extra‐pair fertilizations from high‐quality males. In socially monogamous bird species, it is often old males that are most successful in extra‐pair fertilizations. Adaptive models of female extra‐pair mate choice suggest that old males may produce offspring of higher genetic quality than young males because they have proven their survivability. However, old males are also more likely to show signs of reproductive senescence, such as reduced sperm quality. To better understand why old males account for a disproportionally large number of extra‐pair offspring and what the consequences of mating with old males are, we compared several sperm traits of both captive and wild house sparrows, Passer domesticus. Sperm morphological traits and cloacal protuberance volume (a proxy for sperm load) of old and young males did not differ substantially. However, old males delivered almost three times more sperm to the female's egg than young males. We discuss the possibility of a post‐copulatory advantage for old over young males and the consequences for females mated with old males.