Étude préliminaire des variations circadiennes des protéines de l'hémolymphe de Penaeus japonicus Bate

The protein contents of the haemolymph in the decapod crustacean Penaeus japonicus Bate exhibit a tricircadian rhythm characterized by two maxima during the night and another one during the day. During the night the total protein concentration in haemolymph is higher in males. Maximal values in males are approximately four times greater (100 mg/ml) than minimal ones (25 mg/ml). Variations are less in females: maximal values are approximately two and a half times higher (75 mg/ml) than minimal ones (30 mg/ml).Electrophoresis in polyacrylamide gradient showed that the different protein constituents in general exhibit similar circadian variations. Time of acrophases depends on the sex and the stage in the intermoult cycle. On the other hand, the mean concentration of each protein constituent calculated from values measured at different times of the day are similar whatever the sex and moulting stage. Between 0 and 6 h certain protein fractions - two in females and one in males - are no longer detectable by electrophoresis. At 12 h, concentration of haemocyanin and its subunits increase simultaneously in both sexes.     

In vivo study of cholesterol turnover in tissues of adult sows

The in vivo study of free and esterified cholesterol turnover was carried out in 15 tissues of adult Large White sows maintained at a constant weight for 10–12 weeks. They received a single intravenous injection either of [1-¹⁴C] acetate, or of an autologous red cell suspension or of plasma, previously labelled in vitro (for red cells) or in vivo (for plasma) with tritiated cholesterol.The tissues can be separated into four groups according to their relative rate of free cholesterol exchange between plasma and tissues. The liver and the lungs have a very fast exchange rate whereas the brain and the spinal cord have a very slow one. The whole lipoprotein particle transfer — an exclusive model for the esterified cholesterol transport from plasma to tissues — has been found in all sow tissues. When [1-¹⁴C] acetate is used as a substrate for cholesterol synthesis, lungs, adrenal glands and heart do not seem — or at an extremely low rate — to convert acetate into cholesterol whereas an intense cholesterol synthesis takes place in the small intestine. Its contribution to cholesterol synthesis in sows — taking into account the cholesterol transfer processes — reaches 70 per cent.     

Biosynthesis and transport of envelope proteins of Escherichia coli

Bacterial protein synthesis takes place in the cytoplasm, thus periplasmic and outer membrane proteins pass through the cytoplasmic membrane during their dispatch to the cell envelope. The exported proteins are synthesized as precursor that contains an extra amino-terminal sequence of amino-acids. This sequence, termed "signal sequence", is essential for transport of the envelope proteins through the inner membrane and is cleaved during the exportation process. Various hypotheses for the mechanism have been presented, and it is likely that no signal model will be suitable to the export of all cell envelope proteins. This review is focused on the relationship between the cytoplasmic membrane and the precursor form. The physiological state of the membrane - fluidity, membrane potential for instance - is the strategic requirement of exportation process. Precursors can be accumulated in whole cells with various treatments which alter the cytoplasmic membrane. This inhibition of processing is obtained by modification of unsaturated to saturated fatty acids ratio or with phenylethyl alcohol which perturbs the membrane fluidity, with uncoupler agents such as carbonyl cyanide m-chlorophenyl hydrazone which dissipate the proton motive force, or with hybrid proteins which get jamming in the membrane. However, little is known about the early steps of translocation process across the cytoplasmic membrane ; for instance, it is not clear yet whether energy is required for either or both of the first interaction membrane-precursor and the crossing through the membrane. Several studies have recently shown the presence of exportation sites and of proteins which might play a prominent role in the export process, but the mechanism of discrimination between outer membrane proteins and periplasmic proteins is unknown. Considerable work has been done by genetic or biochemical methods and we have now the first lights of the expert mechanism.     

Quantitative aspects of the interaction between ouabain and (Na + K)-activated ATPase in vitro

The inhibitory effect of ouabain on (Na⁺ + K⁺)-activated ATPase (Mg²⁺-dependent, (Na⁺ + K⁺)-activated ATP phosphohydrolase, EC 3.6.1.3) obtained from rat brain microsomal fraction was re-examined using a modified method to estimate the inhibited reaction velocity. This method involves a preincubation of a ouabain-enzyme mixture in the presence of Na⁺, Mg²⁺ and ATP to bring the ouabain-enzyme reaction to near equilibrium. The (Na⁺ + K⁺)-activated ATPase reaction was subsequently started by the addition of a KCl solution.     

Inhibitory effect of thyroxine on carbonic anhydrase B isozyme biosynthesis in rabbit reticulocyte lysates.

Biosynthesis of rabbit red cell carbonic anhydrase isozyme B and C was demonstrated in reticulocyte cell-free lysates by the specific immunoprecipitin reaction. Using this homologous protein synthesis system, it was found that 10^?5 to 10^?7 M thyroxine preferentially inhibited the synthesis of carbonic anhydrase B isozyme without affecting that of C isozyme. These results suggested that this inhibitory action of the protein synthesis by thyroxine may be responsible for the decreased level of the B type isozymes in human hyperthyroidism or experimental hyperthyroidism of rabbits.     

An easy-to-use FRET protein substrate to detect calpain cleavage in vitro and in vivo

Calpain-1 and -2 are Ca^2 +-activated intracellular cysteine proteases that regulate a wide range of cellular functions through the cleavage of their protein substrates. Unlike degradative proteases, calpains make limited, transformative cleavages, typically in accessible sequences linking discrete subdomains, to irreversibly alter substrate functions. The biological roles of calpain and their interplay with calcium signaling are of significant biomedical interest as biomarkers and potential therapeutic targets in a growing number of diseases including Alzheimer's, cancer and fibrosis. Unfortunately, many of the colorimetric and fluorimetric assays that have been developed to study calpain activity suffer from low sensitivity and/or poor calpain specificity. To address the need for a highly sensitive and calpain-specific substrate suitable for in vitro and in vivo calpain activity analysis, we have developed a protein FRET probe. We inserted the optimized calpain cleavage sequence PLFAAR between cyan fluorescent protein (CFP) and yellow fluorescent protein (YFP) and modulated its flanking sequences for optimal calpain cleavage. We demonstrate greater sensitivity and calpain-specificity of an optimal 16-residue PLFAAR-based FRET substrate compared to a standard α-spectrin-based probe. The 16-residue PLFAAR protein FRET substrate is not significantly cleaved by trypsin, chymotrypsin, cathepsin-L or caspase-3, and is highly sensitive to both calpain-1 and -2. After transfection of the substrate gene into breast cancer cells the PLFAAR protein FRET product was cut in lysed wild-type cells but not in those with a calpain knock-out phenotype. Blockage of substrate cleavage in the lysates by endogenous and exogenous calpastatin was observed, and was overcome by adding extra calpain.     

Movement of the 3'-end of 16 S RNA towards S21 during activation of 30 S ribosomal subunits

Fluorescence techniques were used to study conformational changes that occur in inactive E. coli 30 S ribosomal subunits during activation by heating in 12 mM Mg2+. Activation is associated with movement of a fluorophore on the 3'-end of 16 S RNA into a less polar environment and towards a probe on the cysteine thiol of ribosomal protein S21. The conformational change causes an apparent decrease in distance between the probes from 59 to 52 A as determined by non-radiative energy transfer.     

Tannuaspis,Tuvaspis and Ilemoraspis,endemic osteostracan genera from the Silurian and Devonian of Tuva and Khakassia (USSR)

Three osteostracan genera, Tannuaspis, Tuvaspis and Ilemoraspis, from the Silurian and Devonian of the Autonomous Republic of Tuva and the Autonomous Region of Khakassia (USSR), are revised on the basis of the type material briefly described by Obruchev (1956, 1961, 1964). Tannuaspis bears some resemblances with the Tremataspididae. Tuvaspis may be closely related to Tannuaspis. Finally, there is no evidence of paired fins and cornual processes in Ilemoraspis (neither is there any evidence of their absence). Tannuaspis and Ilemoraspis share some characters which are not found in any other osteostracan: widely separated orbits, very small and oval lateral fields, situated at the same level as the median dorsal field. These resemblances may suggest that these two genera (to which Tuvaspis may be added) form a monophyletic group of osteostracans, which may be endemic to this part of Central Asia.     

Delayed fluorescence from Rhodopseudomonas sphaeroides following single flashes

Delayed fluorescence from Rhodopseudomonas sphaeroides chromatophores was studied with the use of short flashes for excitation. Although the delayed fluorescence probably arises from a back-reaction between the oxidized reaction center bacteriochlorophyll complex (P⁺) and the reduced electron acceptor (X^?), the decay of delayed fluorescence after a flash is much faster ($\text{τ}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{≈ 120 μ}\text{s}$) than the decay of P⁺X^?. The rapid decay of delayed fluorescence is not due to the uptake of a proton from the solution, nor to a change in membrane potential. It correlates with small optical absorbance changes at 450 and 770 nm which could reflect a change in the state of X^?.The intensity of the delayed fluorescence is 11–18-fold greater if the excitation flashes are spaced 2 s apart than it is if they are 30 s apart. The enhancement of delayed fluorescence at high flash repetition rates occurs only at redox potentials which are low enough (< + 240 mV) so that electron donors are available to reduce P⁺X^? to PX^? in part of the reaction center population. The enhancement decays between flashes as PX^? is reoxidized to PX, as measured by the recovery of photochemical activity. Evidently, the reduction of P⁺X^? to PX^? leads to the storage of free energy that can be used on a subsequent flash to promote delayed fluorescence. The reduction of P⁺X^? also is associated with a carotenoid spectral shift which decays as PX^? is reoxidized to PX. Although this suggests that the free energy which supports the delayed fluorescence might be stored as a membrane potential, the ionophore gramicidin D only partially inhibits the enhancement of delayed fluorescence. With widely separated flashes, gramicidin has no effect on delayed fluorescence.At redox potentials low enough to keep X fully reduced, delayed fluorescence of the type described above does not occur, but one can detect weak luminescence which probably is due to phosphorescence of a protoporphyrin.     

The complete mitochondrial genomes of three grasshoppers, Asiotmethis zacharjini, Filchnerella helanshanensis and Pseudotmethis rubimarginis (Orthoptera: Pamphagidae)

The complete mitogenomes of Asiotmethis zacharjini, Filchnerella helanshanensis and Pseudotmethis rubimarginis are 15,660 bp, 15,657 bp and 15,661 bp in size, respectively. All three mitogenomes contain a standard set of 13 protein - coding genes, 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs) and an A + T-rich region in the same order as those of the other analysed caeliferan species, including the rearrangement of trnAsp and trnLys. The putative initiation codon for the cox1 gene in the three species is CCG. The long polythymine stretch (T-stretch) in the A + T-rich region of the three species is not adjacent to the trnIle but inside the stem–loop sequence in the majority strand. The mitogenomes of F. helanshanensis and P. rubimarginis have higher overall similarities. The characterization of the three mitogenomes will enrich our knowledge on the Pamphagidae mitogenome. The phylogenetic analyses indicated that within the Caelifera, Pyrgomorphoidea is a sister group to Acridoidea. The species from the Pamphagidae form a monophyletic group, as is the case for Acrididae. Furthermore, the two families cluster as sister groups, supporting the monophyly of Acridoidea. The relationships among eight acridid subfamilies were (Cyrtacanthacridinae + (Calliptaminae + (Catantopinae + (Oxyinae + (Melanopline + (Acridinae + (Oedipodinae + Gomphocerinae))))))).     

Comparative analyses of the complete mitochondrial genomes of the two ruminant hookworms Bunostomum trigonocephalum and Bunostomum phlebotomum

Bunostomum trigonocephalum and Bunostomum phlebotomum are blood-feeding hookworms of sheep and cattle, causing considerable economic losses to the live stock industries. Studying genetic variability within and among hookworm populations is critical to addressing epidemiological and ecological questions. Mitochondrial (mt) DNA is known to provide useful markers for investigations of population genetics of hookworms, but mt genome sequence data are scant. In the present study, the complete mitochondrial DNA (mtDNA) sequences of the sheep and goat hookworm B. trigonocephalum were determined for the first time, and the mt genome of B. phlebotomum from yak in China was also sequenced for comparative analyses of their gene contents and genome organizations. The lengths of mt DNA sequences of B. trigonocephalum sheep isolate, B.trigonocephalum goat isolate and B. phlebotomum China yak isolate were 13,764 bp, 13,771 bp and 13,803 bp in size, respectively. The identity of the mt genomes was 99.7% between B. trigonocephalum sheep isolate and B. trigonocephalum goat isolate. The identity of B. phlebotomum China yak isolate mt genomes was 85.3% with B. trigonocephalum sheep isolate, and 85.2% with B. trigonocephalum goat isolate. All the mt genes of the two hookworms were transcribed in the same direction and gene arrangements were consistent with those of the GA3 type, including 12 protein-coding genes, 2 rRNA genes and 22 tRNA genes, but lacking ATP synthetase subunit 8 gene. The mt genomes of B. trigonocephalum and B. phlebotomum were similar to prefer bases A and T, the contents of A + T are 76.5% (sheep isolate), 76.4% (goat isolate) and 76.9% (China yak isolate), respectively. Phylogenetic relationships reconstructed using concatenated amino acid sequences of 12 protein-coding genes with three methods (maximum likelihood, Bayesian inference and neighbor joining) revealed that the B. trigonocephalum and B. phlebotomum represent distinct but closely-related species. These data provide novel and useful genetic markers for studying the systematics, and population genetics of the two ruminant hookworms.     

Ppm1E is an in cellulo AMP-activated protein kinase phosphatase

Activation of 5′-AMP-activated protein kinase (AMPK) is believed to be the mechanism by which the pharmaceuticals, metformin and phenformin, exert their beneficial effects for treatment of type 2 diabetes. These biguanide drugs elevate 5′-AMP, which allosterically activates AMPK and promotes phosphorylation on Thr172 of AMPK catalytic α subunits. Although kinases phosphorylating this site have been identified, phosphatases that dephosphorylate it are unknown. The aim of this study is to identify protein phosphatase(s) that dephosphorylate AMPKα-Thr172 within cells. Our initial data indicated that members of the protein phosphatase ce:sup>/ce:sup>/Mn²⁺-dependent (PPM) family and not those of the PPP family of protein serine/threonine phosphatases may be directly or indirectly inhibited by phenformin. Using antibodies raised to individual Ppm phosphatases that facilitated the assessment of their activities, phenformin stimulation of cells was found to decrease the ce:sup>/ce:sup>/Mn²⁺-dependent protein serine/threonine phosphatase activity of Ppm1E and Ppm1F, but not that attributable to other PPM family members, including Ppm1A/PP2Cα. Depletion of Ppm1E, but not Ppm1A, using lentiviral-mediated stable gene silencing, increased AMPKα-Thr172 phosphorylation approximately three fold in HEK293 cells. In addition, incubation of cells with low concentrations of phenformin and depletion of Ppm1E increased AMPK phosphorylation synergistically. Ppm1E and the closely related Ppm1F interact weakly with AMPK and assays with lysates of cells stably depleted of Ppm1F suggests that this phosphatase contributes to dephosphorylation of AMPK. The data indicate that Ppm1E and probably PpM1F are in cellulo AMPK phosphatases and that Ppm1E is a potential anti-diabetic drug target.     

The complete mitochondrial genome of Sasakia funebris (Leech) (Lepidoptera: Nymphalidae) and comparison with other Apaturinae insects

Sasakia funebris, a member of the lepidopteran family, Nymphalidae (superfamily Papilionoidea) is a rare species and is found only in some areas of South China. In this study, the 15,233 bp long complete mitochondrial genome of S. funebris was determined, and harbors the gene arrangement identical to all other sequenced lepidopteran insects. The nucleotide composition of the genome is highly A + T biased, accounting for 81.2%. All protein-coding genes (PCGs) start with typical ATN codons, except for COI which begins with the CGA codon. All tRNAs have a typical clover-leaf secondary structure, except for tRNA^Ser(AGN), the dihydrouridine (DHU) arm of which forms a simple loop. The S. funebris A + T-rich region of 370 bp contains several features common to the Lepidoptera insects, including the motif ATAGA followed by a 19 bp poly-T stretch, and two tandem repeats consisting of 18 bp repeat units and 14 bp repeat units. The phylogenetic analyses of Apaturinae based on mitogenome sequences showed: (S. funebris + Sasakia charonda) + (Apatura metis + Apatura ilia). This result is consistent with the morphological classification.     

The analysis of microsatellites and compound microsatellites in 56 complete genomes of Herpesvirales

Simple sequence repeats (SSRs), or microsatellites, are special DNA/RNA sequences with repeated unit of 1–6 bp. The genomes of Herpesvirales have many repeating structures, which is an excellent system to study the evolution and roles of microsatellites and compound microsatellites in viruses. Therefore, 56 genomes of Herpesvirales were selected and the occurrence, composition and complexity of different repeats were investigated in the genomes. A total of 63,939 microsatellites and 5825 compound microsatellites were extracted from 56 genomes. It found that GC content has a significant strong correlation with both the counts of microsatellites (CM) and the counts of compound microsatellites (CCM). However, genome size has a moderate correlation only with CM and almost no correlation with CCM. The compound microsatellites occurring in genic regions are obviously more than that in intergenic regions. In general, the number of compound microsatellite decreases with the increase of complexity (C) (the count of individual microsatellites being part of a compound microsatellite) and the complexity hardly exceeds C = 4. The vast majority of compound microsatellites exist in intergenic regions, when C ≥ 10. The distributions of SSRs tend to be organism-specific rather than host-specific in herpesvirus genomes. The diversity of microsatellites and compound microsatellites may be helpful for a better understanding of the viral genetic diversity, genotyping, and evolutionary biology in herpesviruses genomes.