Sheep in wolf's clothing: host nestling vocalizations resemble their cowbird competitor's

Nestlings of many avian brood parasites are virtuosos at mimicking host nestling vocalizations, which, like egg mimicry, presumably ensures acceptance by host parents. Having been accepted, parasitic nestlings then often exaggerate the aspects of the host's display to increase parental care. Host nestlings may, in turn, exaggerate their vocalizations to keep up with the parasite, though this possibility has not been evaluated. We experimentally parasitized song sparrow (Melospiza melodia) nests with a brown-headed cowbird (Molothrus ater) chick to evaluate how host nestlings respond. Vocalizations emitted from experimentally parasitized nests were higher in frequency, and louder, than those from unparasitized nests, consistent with the cowbird exaggerating its signalling. In response, host nestlings exaggerated the frequency and amplitude of their vocalizations, such that they resembled the cowbird's while they 'scaled back' on calls per parental provisioning bout. Sparrows in parasitized nests were fed equally often as sparrows in unparasitized nests, suggesting that exaggerating some aspects of vocalization while scaling back on others can help host nestlings confronted with a cowbird. Our results support the recently proposed hypothesis that signalling in parasitized nests involves a dynamic interaction between parasitic and host nestlings, rather than a one-way process of mimicry by the parasite.     

Does begging call convergence increase feeding rates to nestling tree swallows Tachycineta bicolor?

Some studies suggest that offspring might coordinate their begging displays to send a more effective brood signal, which in turn, could increase parental feeding rates. In tree swallows Tachycineta bicolor , when nestlings call together, their calls are more similar in structure than when they call alone. Here, we tested the hypothesis that call convergence enhances the overall brood signal, thus increasing parental provisioning rates. We played back similar and dissimilar calls (as measured by cross-correlation) to parents during a one-h playback period, and filmed the response of parents and nestlings. Contrary to our hypothesis, parental feeding rates did not differ in relation to call similarity. Based on these results, call similarity does not appear to function as a coordinated brood signal in tree swallows.     

Automated resolution of dichlorvos and methylparaoxon pesticide mixtures employing a Flow Injection system with an inhibition electronic tongue

An amperometric biosensor array has been developed to resolve pesticide mixtures of dichlorvos and methylparaoxon. The biosensor array has been used in a Flow Injection system, in order to operate automatically the inhibition procedure. The sensors used were three screen-printed amperometric biosensors that incorporated three different acetylcholinesterase enzymes: the wild type from Electric eel and two different genetically modified enzymes, B1 and B394 mutants, from Drosophila melanogaster. The inhibition response triplet was modelled using an Artificial Neural Network which was trained with mixture solutions that contain dichlorvos from 10(-4) to 0.1 microM and methylparaoxon from 0.001 to 2.5 microM. This system can be considered an inhibition electronic tongue.     

The Membrane-binding Motif of the Chloroplast Signal Recognition Particle Receptor (cpFtsY) Regulates GTPase Activity

The chloroplast signal recognition particle (cpSRP) and its receptor (cpFtsY) function in thylakoid biogenesis to target integral membrane proteins to thylakoids. Unlike cytosolic SRP receptors in eukaryotes, cpFtsY partitions between thylakoid membranes and the soluble stroma. Based on sequence alignments, a membrane-binding motif identified in Escherichia coli FtsY appears to be conserved in cpFtsY, yet whether the proposed motif is responsible for the membrane-binding function of cpFtsY has yet to be shown experimentally. Our studies show that a small N-terminal region in cpFtsY stabilizes a membrane interaction critical to cpFtsY function in cpSRP-dependent protein targeting. This membrane-binding motif is both necessary and sufficient to direct cpFtsY and fused passenger proteins to thylakoids. Our results demonstrate that the cpFtsY membrane-binding motif may be functionally replaced by the corresponding region from E. coli, confirming that the membrane-binding motif is conserved among organellar and prokaryotic homologs. Furthermore, the capacity of cpFtsY for lipid binding correlates with liposome-induced GTP hydrolysis stimulation. Mutations that debilitate the membrane-binding motif in cpFtsY result in higher rates of GTP hydrolysis, suggesting that negative regulation is provided by the intact membrane-binding region in the absence of a bilayer. Furthermore, NMR and CD structural studies of the N-terminal region and the analogous region in the E. coli SRP receptor revealed a conformational change in secondary structure that takes place upon lipid binding. These studies suggest that the cpFtsY membrane-binding motif plays a critical role in the intramolecular communication that regulates cpSRP receptor functions at the membrane.Proper compartmentalization of proteins relies on the ability of protein localization pathways to transport proteins efficiently from their sites of synthesis to their sites of function. The signal recognition particle (SRP)² and its receptor function in every kingdom of life to target proteins to the endoplasmic reticulum (eukaryotes), cytoplasmic membrane (prokaryotes), and thylakoid membrane (chloroplasts) (1). The targeting function of SRP relies on a conserved 54-kDa SRP subunit (SRP54; Ffh in Escherichia coli and cpSRP54 in chloroplasts) as well as a conserved SRP receptor (SRα; FtsY in E. coli and cpFtsY in chloroplasts). For cytosolic SRPs (SRP54 and Ffh), interactions with a substrate signal sequence and an SRP RNA moiety are prerequisite for interaction with the SRP receptor (SRα and FtsY) (2). GTP binding and hydrolysis by both SRP54 and SRα coordinate substrate release from SRP to the translocon and release of SRP from SRα. In chloroplasts, cpFtsY functions along with a unique SRP (cpSRP) to post-translationally target nuclear encoded proteins to thylakoid membranes (3). Light-harvesting chlorophyll a/b-binding proteins (LHCPs) imported into the chloroplast stroma are bound by cpSRP to form a soluble targeting complex, which directs the LHCP substrate to the thylakoid membrane translocon Alb3 (Albino3) in a GTP- and cpFtsY-dependent manner (14, 36). Although many general steps of SRP protein targeting seem largely conserved across evolutionary boundaries, the nature and dynamics of the receptor appear to have diverged.In eukaryotic systems, SRα is peripherally bound to the membrane through association with the integral membrane subunit SRβ. In contrast, no chloroplast or bacterial homolog of SRβ has been identified. cpFtsY and E. coli FtsY (EcFtsY) are found partitioned between the membrane and the stroma or cytosol, respectively. The membrane-binding capacity of EcFtsY serves to stimulate GTPase activity and appears critical in that only membrane-associated EcFtsY supports the release of nascent chains from SRP to the translocon (4, 5). However, the partitioning activity is not strictly required because EcFtsY tethered to the membrane is functional in vivo (37). Given the conserved nature of partitioning among bacterial and chloroplast SRP receptors, partitioning may play an, as of yet, unidentified role in protein targeting by SRP. Nevertheless, differences in lipid composition between bacterial and thylakoid membranes make it interesting to speculate that there are mechanistic differences in membrane partitioning.Like many prokaryotic FtsY homologs (e.g. Thermus aquaticus), cpFtsY lacks the N-terminal acidic domain (A domain) implicated in EcFtsY membrane binding (6). Although the highly conserved FtsY GTPase domain (NG domain) of EcFtsY (EcFtsY_NG) fails to support protein targeting, the addition of the last A domain residue, Phe-196 of a conserved double-Phe motif (EcFtsY_NG+1), restores protein targeting in vivo (7). In vitro studies also show that EcFtsY_NG+1 retains the capacity to bind membranes and support integration of SRP-dependent substrates, although at significantly reduced levels compared with full-length EcFtsY (8). A resolved structure of EcFtsY_NG+1 suggests that the amphipathic nature of the region containing Phe-196 plays a critical role in membrane association (9). Furthermore, it has been demonstrated that liposomes stimulate GTP hydrolysis rates of SRP with EcFtsY_NG+1, but not with EcFtsY_NG, supporting the idea that the A domain in its entirety is not strictly required.For cpFtsY, the necessity and functional role(s) of partitioning between a thylakoid-bound and a soluble phase, as well as the role of N-terminal residues in these functions, remain unknown. In addition, both the conformational state of membrane-bound cpFtsY and EcFtsY and the mechanism responsible for controlling membrane partitioning and altered GTPase activity remain unclear. Because of the gain of function exhibited by EcFtsY_NG+1 and the conserved nature of the surrounding motif (9), it seems likely that this conserved region is necessary to support membrane binding and corresponding functions not only in EcFtsY but also in FtsY homologs.To examine the functional role of the N-terminal region of cpFtsY, we have utilized deletion and point mutants in assays that reconstitute cpFtsY activities, including the cpSRP-dependent integration of LHCP. Together, our data indicate that the conserved lipid-binding motif identified in bacterial FtsY homologs is present in cpFtsY and is both necessary and sufficient for thylakoid binding and critical for LHCP targeting.     

Finfish and aquatic invertebrate pathology resources for now and the future

Utilization of finfish and aquatic invertebrates in biomedical research and as environmental sentinels has grown dramatically in recent decades. Likewise the aquaculture of finfish and invertebrates has expanded rapidly worldwide as populations of some aquatic food species and threatened or endangered aquatic species have plummeted due to overharvesting or habitat degradation. This increasing intensive culture and use of aquatic species has heightened the importance of maintaining a sophisticated understanding of pathology of various organ systems of these diverse species. Yet, except for selected species long cultivated in aquaculture, pathology databases and the workforce of highly trained pathologists lag behind those available for most laboratory animals and domestic mammalian and avian species. Several factors must change to maximize the use, understanding, and protection of important aquatic species: 1) improvements in databases of abnormalities across species; 2) standardization of diagnostic criteria for proliferative and nonproliferative lesions; and 3) more uniform and rigorous training in aquatic morphologic pathology.     

Exercise Improves Body Fat,Lean Mass,and Bone Mass in Breast Cancer Survivors

Given the negative effects of a breast cancer diagnosis and its treatments on body weight and bone mass, we investigated the effects of a 6‐month randomized controlled aerobic exercise intervention vs. usual care on body composition in breast cancer survivors. Secondary aims were to examine the effects stratified by important prognostic and physiologic variables. Seventy‐five physically inactive postmenopausal breast cancer survivors were recruited through the Yale–New Haven Hospital Tumor Registry and randomly assigned to an exercise (n = 37) or usual care (n = 38) group. The exercise group participated in 150 min/week of supervised gym‐ and home‐based moderate‐intensity aerobic exercise. The usual care group was instructed to maintain their current physical activity level. Body composition was assessed at baseline and 6‐months through dual‐energy X‐ray absorptiometry (DXA) by one radiologist blinded to the intervention group of the participants. On an average, exercisers increased moderate‐intensity aerobic exercise by 129 min/week over and above baseline levels compared with 45 min/week among usual care participants (P < 0.001). Exercisers experienced decreases in percent body fat (P = 0.0022) and increases in lean mass (P = 0.047) compared with increases in body fat and decreases in lean mass in usual care participants. Bone mineral density (BMD) was also maintained among exercisers compared with a loss among usual care participants (P = 0.043). In summary, moderate‐intensity aerobic exercise, such as brisk walking, produces favorable changes in body composition that may improve breast cancer prognosis.     

Efficient Methods of Estimating Switchgrass Biomass Supplies

Switchgrass (Panicum virgatum L.) is being developed as a biofuel feedstock for the United States. Efficient and accurate methods to estimate switchgrass biomass feedstock supply within a production area will be required by biorefineries. Our main objective was to determine the effectiveness of indirect methods for estimating biomass yields and composition of switchgrass fields. Indirect measurements were conducted in eastern Nebraska from 2003 to 2007 in which switchgrass biomass yields were manipulated using three nitrogen rates (0 kg N ha^-1, 60 kg N ha^-1, and 120 kg N ha^-1) and two harvest periods (August and post-killing frost). A modified Robel pole was used to determine visual obstruction, elongated leaf height, and canopy height measurements. Prediction models from the study showed that elongated leaf height, visual obstruction, and canopy height measurements accounted for >?91%, >?90%, and >?82% of the variation in switchgrass biomass, respectively. Regression slopes were similar by cultivar (“Cave-in-Rock” and “Trailblazer”), harvest period, and across years indicating that a single model is applicable for determining biomass feedstock supply within a region, assuming similar harvesting methods. Sample numbers required to receive the same level of precision were as follows: elongated leaf height<canopy height<visual obstruction. Twenty to 30 elongated leaf height measurements in a field could predict switchgrass biomass yield within 10% of the mean with 95% confidence. Visual obstruction is recommended on switchgrass fields with low to variable stand densities while elongated leaf height measurements would be recommended on switchgrass fields with high, uniform stand densities. Incorporating an ocular device with a Robel pole provided reasonable frequency estimates of switchgrass, broadleaf weeds, and grassy weeds at the field scale.     

Sauropod Trackway Reflecting an Unusual Walking Pattern from the Early Cretaceous of Shandong Province,China

The trackway of a quadrupedal dinosaur from the Early Cretaceous (Albian) Qingquan tracksite (Tancheng, Shandong Province) is redescribed, and the trackmaker is identified as a sauropod. The trackway makes a slight turn towards the northwest and is characterized by an extremely narrow gauge pattern and an unusual configuration, i.e., a conspicuous difference between the position of the left and right manus tracks with respect to the position of the preceding pes track. Left manus tracks are located on the inside of the trackway, very close (and sometimes even in connection) to the opposite right pes tracks. So far, the Qingquan trackway is possibly the only extremely narrow-gauge sauropod trackway known from China. However, it is not clear to what extent this extremely narrow gauge pattern is related to the turning or a special behavior, or even linked to an injury (“limping trackway”). We tentatively attribute the Qingquan trackway to cf. Parabrontopodus, even though it has a rather low heteropody that is significantly lower than in Parabrontopodus and not typical for narrow-gauge sauropod trackways, but occurs in the wide-gauge ichnotaxon Brontopodus. Because of this discrepancy, the Qingquan trackway cannot readily be attributed to a more basal sauropod, which is generally considered the producer of narrow-gauge trackways. Therefore, the identification of a distinct sauropod group is not possible presently. The only skeletal remains of sauropods from the Lower Cretaceous of Shandong Province belong to the large titanosauriform, Euhelopus zdanskyi.