Using a combination of protein kinase A type II overlay screening, rapid amplification of cDNA ends, and database searches, a contig of 9923 bp was assembled and characterized in which the open reading frame encoded a 1901-amino-acid A-kinase-anchoring protein (AKAP) with an apparent SDS-PAGE mobility of 220 kDa, named human AKAP220 (hAKAP220). The hAKAP220 amino acid sequence revealed high similarity to rat AKAP220 in the 1167 C-terminal residues, but contained 727 residues in the N-terminus not present in the reported rat AKAP220 sequence. The hAKAP220 mRNA was expressed at high levels in human testis and in isolated human pachytene spermatocytes and round spermatids. The hAKAP220 protein was present in human male germ cells and mature sperm. Immunofluorescent labeling with specific antibodies indicated that hAKAP220 was localized in the cytoplasm of premeiotic pachytene spermatocytes and in the centrosome of developing postmeiotic germ cells, while a midpiece/centrosome localization was found in elongating spermatocytes and mature sperm. The hAKAP220 protein together with a fraction of PKA types I and II and protein phosphatase I was resistant to detergent extraction of sperm tails, suggesting an association with cytoskeletal structures. In contrast, S-AKAP84/D-AKAP1, which is also present in the midpiece, was extracted under the same conditions. Anti-hAKAP220 antisera coimmunoprecipitated both type I and type II regulatory subunits of PKA in human testis lysates, indicating that hAKAP220 interacts with both classes of R subunits, either through separate or through a common binding motif(s).
When the adult sex ratio differs between years in local populations, but still is predictable between adjacent years, it has been proposed that the best strategy would be to bias the offspring sex ratio in favour of the rare sex. We tested this hypothesis using a data set of great reed warbler offspring, sexed by molecular techniques, that were collected over 11 breeding seasons at two adjacent reed marshes. Three important assumptions for this hypothesis are fulfilled in the studied great reed warbler population. First, a substantial proportion of great reed warblers are living in small local populations where sex ratio distortions would be sufficiently large and common. Second, breeding adults and their offspring return to breed in the local population to a high degree. Third, females have a possibility to assess the breeding sex ratio before laying their eggs. At our study site, the breeding sex ratio was positively correlated between successive years. However, contrary to our prediction, female great reed warblers seemed not to adjust their offspring sex ratio in relation to the local breeding sex ratio.
Nestedness was examined for vascular plants and birds in the centres and edges of 26 sites of ancient oak‐hazel woodland in Sweden. Both taxa exhibited significant nestedness in site centres and for whole sites, but not at the edges for birds. Woodland ranks of nestedness differed between plants and birds. Rank of nestedness of birds, but not of plants, depended on area. Horizontal habitat structure affected nestedness of both plants and birds. Mobility appears decisive for creating rank differences between sites for various taxa. High mobility may also explain a greater edge effect in birds from allochtonous, more or less transient individuals. Nestedness in relation to mobility, particularly at edges, should be of theoretical interest. The possible use of nestedness patterns in conservation makes further analyses urgent for less mobile taxa.
The humoral immune responses elicited by priming with a DNA plasmid and boosting with either the plasmid or the corresponding recombinant protein in alum adjuvant were compared. The plasmid DNA encoded a sequence (M3) derived from the Plasmodium falciparum antigen Pf155/RESA, and the recombinant protein consisted of the identical malarial sequence fused to an albumin-binding region (BB) of streptococcal protein G. Mice of different genetic backgrounds (CBA, Balb/c and C57Bl/6) were primed with plasmid DNA and boosted with either plasmid or recombinant protein. In all strains of mice, boosting with protein elicited higher anti-M3 antibody levels than obtained by boosting with plasmid, yet the kinetics and longevity of the secondary responses were comparable. Antiserum obtained after protein boosting displayed an immunoglobulin (Ig)G subclass profile skewed to the IgG1 isotype, regardless of the mouse strain. In contrast, mice receiving a second injection with plasmid responded with a more mixed IgG subclass profile. Inclusion of a P. falciparum circumsporozoite protein-derived T-helper epitope (CS.T3) in the immunization plasmid as well as in the fusion protein, did not significantly change the humoral responses to M3. The results show the potential of DNA vaccination for the purpose of priming an antibody response against the malarial blood-stage antigen Pf155/RESA. When combined with a protein boost, this DNA priming results in high-titred and long-lasting anamnestic responses.
Simple models, based on Lotka-Volterra types of interactions between predator and prey, predict that enrichment will have a destabilizing effect on populations and that equilibrium population densities will change at the top trophic level and every second level below. We experimentally tested these predictions in three aquatic food web configurations subjected to either high or low nutrient additions. The results were structured by viewing the systems as either food chains or webs and showed that trophic level biomass increased with enrichment, which contradicts food chain theory. However, within each trophic level, food web configuration affected the extent to which different functional groups responded to enrichment. By dividing trophic levels into functional groups, based on vulnerability to consumption, we were able to identify significant effects that were obscured when systems were viewed as food chains. The results support the prediction that invulnerable prey may stabilize trophic-level dynamics by replacing other, more vulnerable prey. Furthermore, the vulnerable prey, such as Daphnia and edible algae, responded as predicted by the paradox of enrichment hypothesis; that is, variability in population density increased with enrichment. Hence, by describing ecosystems as a matrix of food web interactions, and by recognizing the interplay between interspecific competition and predation, a more complete description of the ecosystem function was obtained compared to when species were placed into distinct trophic levels.
Messenger RNAs (mRNA) for two of the regulatory subunits of cAMP-dependent protein kinases (PKA), RII beta and RI alpha, are transiently (maximal levels at 6 h) stimulated by 12-O-tetradecanoylphorbol 13-acetate (TPA) in cultured rat Sertoli cells in a time- and concentration-dependent manner. Whereas TPA (10(-7) M) stimulated RII beta mRNA 11 +/- 2.8 fold (mean +/- SEM), mRNA levels for RI alpha increased only 2.5 +/- 0.6-fold (mean +/- SEM). No effects of TPA on the other subunits of PKA (RII alpha, C alpha) were observed. TPA-dependent accumulation of mRNAs for RII beta and RI alpha was observed to the same extent in nucleus and cytoplasm. We have previously shown that mRNA levels for all the PKA subunits are increased by cAMP, particularly that of RII beta (greater than 50-fold). TPA modulated the stimulatory effects of cAMP on RII beta and RI alpha mRNAs in opposite directions. Whereas treatment with both 8-CPTcAMP and TPA gave an additive effect on RI alpha mRNA, TPA reduced the cAMP-dependent increase in RII beta mRNA. Although the mRNA for RII beta had returned to basal levels after 24 h of incubation with TPA, the presence of TPA still inhibited cAMP-dependent induction of mRNA for RII beta. In contrast, similar TPA treatment did not influence the subsequent cAMP-dependent stimulation of RI alpha mRNA. Preincubation with 8-CPTcAMP did not influence TPA-dependent stimulation of mRNAs for either RII beta or RI alpha. TPA induction of RII beta mRNA was completely blocked by cycloheximide (an inhibitor of protein synthesis), whereas that of RI alpha was not. The inhibitory effect of TPA on cAMP stimulation of RII beta mRNA was independent of ongoing protein synthesis. These results indicate that TPA induction of mRNAs for RI alpha and RII beta involves multiple and distinct mechanisms. The stimulatory effect of TPA on RI alpha mRNA levels and the inhibitory effect of TPA on cAMP-stimulated RII beta mRNA expression are probably mediated through stable factors, whereas proteins with rapid turnover or factors induced by TPA are involved in the stimulatory effect of TPA on RII beta mRNA.
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