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991.
Little detailed information exists on the anatomy of the nervous system and the musculature of Entoprocta. Herein we describe the distribution of the neurotransmitters RFamide and serotonin as well as the myo-anatomy of adults and asexually produced budding stages of the solitary entoproct species Loxosomella vivipara and L. parguerensis using immunocytochemistry and epifluorescence as well as confocal microscopy. The development of the RFamidergic and serotonergic nervous system starts in early budding stages. In the adults, RFamide is present in the bilateral symmetric cerebral ganglion, a pair of oral nerves that innervate two pairs of nerve cell clusters in the heel of the foot, a pair of aboral nerves, the paired lateral nerves, the calyx nerves, the atrial ring nerve, the tentacle nerves, the stomach nerves, and the rectal nerves. Serotonin is only found in the cerebral ganglion, the oral nerves, and in the tentacle nerves. Some differences in the distribution of both neurotransmitters were found between L. vivipara and L. parguerensis and are most obvious in the differing number of large serotonergic perikarya associated with the oral nerves. Nerves arising from the cerebral ganglion and running in a ventral direction have not been described for Entoprocta before, and the homology of these to the ventral nerve cords of other Spiralia is considered possible. The body musculature of both Loxosomella species comprises longitudinal and diagonal muscles in the foot, the stalk, and the calyx. We found several circular muscles in the calyx. The stalk and parts of the foot and the calyx are surrounded by a fine outer layer of ring muscles. In addition to the congruent details regarding the myo-anatomy of both species, species-specific muscle structures could be revealed. The comparison of our data with recent findings of the myo-anatomy of two Loxosoma species indicates that longitudinal and diagonal body muscles, atrial ring muscles, tentacle muscles, esophageal and rectal ring muscles, as well as intestinal and anal sphincters are probably part of the ancestral entoproct muscle bauplan. 相似文献
992.
993.
Xie H Patching SG Gallagher MP Litherland GJ Brough AR Venter H Yao SY Ng AM Young JD Herbert RB Henderson PJ Baldwin SA 《Molecular membrane biology》2004,21(5):323-336
NupG from Escherichia coli is the archetype of a family of nucleoside transporters found in several eubacterial groups and has distant homologues in eukaryotes, including man. To facilitate investigation of its molecular mechanism, we developed methods for expressing an oligohistidine-tagged form of NupG both at high levels (>20% of the inner membrane protein) in E. coli and in Xenopus laevis oocytes. In E. coli recombinant NupG transported purine (adenosine) and pyrimidine (uridine) nucleosides with apparent K(m) values of approximately 20-30 microM and transport was energized primarily by the membrane potential component of the proton motive force. Competition experiments in E. coli and measurements of uptake in oocytes confirmed that NupG was a broad-specificity transporter of purine and pyrimidine nucleosides. Importantly, using high-level expression in E. coli and magic-angle spinning cross-polarization solid-state nuclear magnetic resonance, we have for the first time been able directly to measure the binding of the permeant ([1'-(13)C]uridine) to the protein and to assess its relative mobility within the binding site, under non-energized conditions. Purification of over-expressed NupG to near homogeneity by metal chelate affinity chromatography, with retention of transport function in reconstitution assays, was also achieved. Fourier transform infrared and circular dichroism spectroscopy provided further evidence that the purified protein retained its 3D conformation and was predominantly alpha-helical in nature, consistent with a proposed structure containing 12 transmembrane helices. These findings open the way to elucidating the molecular mechanism of transport in this key family of membrane transporters. 相似文献
994.
Evolutionary Ecology - Understanding how environmental conditions affect trait expression in animals is important for estimating the evolutionary potential of that trait. Two different mechanisms... 相似文献
995.
Bukovinszky T Gols R Hemerik L Van Lenteren JC Vet LE 《The Journal of animal ecology》2007,76(5):845-853
1. Changing plant composition in a community can have profound consequences for herbivore and parasitoid population dynamics. To understand such effects, studies are needed that unravel the underlying behavioural decisions determining the responses of parasitoids to complex habitats. 2. The searching behaviour of the parasitoid Diadegma semiclausum was followed in environments with different plant species composition. In the middle of these environments, two Brassica oleracea plants infested by the host Plutella xylostella were placed. The control set-up contained B. oleracea plants only. In the more complex set-ups, B. oleracea plants were interspersed by either Sinapis alba or Hordeum vulgare. 3. Parasitoids did not find the first host-infested plant with the same speed in the different environments. Sinapis alba plants were preferentially searched by parasitoids, resulting in fewer initial host encounters, possibly creating a dynamic enemy-free space for the host on adjacent B. oleracea plants. In set-ups with H. vulgare, also, fewer initial host encounters were found, but in this case plant structure was more likely than infochemicals to interfere with the searching behaviour of parasitoids. 4. On discovering a host-infested plant, parasitoids located the second host-infested plant with equal speed, demonstrating the effect of experience on time allocation. Further encounters with host-infested plants that had already been visited decreased residence times and increased the tendency to leave the environment. 5. Due to the intensive search of S. alba plants, hosts were encountered at lower rates here than in the other set-ups. However, because parasitoids left the set-up with S. alba last, the same number of hosts were encountered as in the other treatments. 6. Plant composition of a community influences the distribution of parasitoid attacks via its effects on arrival and leaving tendencies. Foraging experiences can reduce or increase the importance of enemy-free space for hosts on less attractive plants. 相似文献
996.
Orme CD Davies RG Olson VA Thomas GH Ding TS Rasmussen PC Ridgely RS Stattersfield AJ Bennett PM Owens IP Blackburn TM Gaston KJ 《PLoS biology》2006,4(7):e208
Large-scale patterns of spatial variation in species geographic range size are central to many fundamental questions in macroecology and conservation biology. However, the global nature of these patterns has remained contentious, since previous studies have been geographically restricted and/or based on small taxonomic groups. Here, using a database on the breeding distributions of birds, we report the first (to our knowledge) global maps of variation in species range sizes for an entire taxonomic class. We show that range area does not follow a simple latitudinal pattern. Instead, the smallest range areas are attained on islands, in mountainous areas, and largely in the southern hemisphere. In contrast, bird species richness peaks around the equator, and towards higher latitudes. Despite these profoundly different latitudinal patterns, spatially explicit models reveal a weak tendency for areas with high species richness to house species with significantly smaller median range area. Taken together, these results show that for birds many spatial patterns in range size described in geographically restricted analyses do not reflect global rules. It remains to be discovered whether global patterns in geographic range size are best interpreted in terms of geographical variation in species assemblage packing, or in the rates of speciation, extinction, and dispersal that ultimately underlie biodiversity. 相似文献
997.
SUMOylation and PPARgamma: wrestling with inflammatory signaling 总被引:1,自引:0,他引:1
998.
Volker M. Betz Stefan Kochanek Stefan Rammelt Peter E. Müller Oliver B. Betz Carolin Messmer 《The journal of gene medicine》2018,20(6)
The loss of bone tissue represents a critical clinical condition that is frequently faced by surgeons. Substantial progress has been made in the area of bone research, providing insight into the biology of bone under physiological and pathological conditions, as well as tools for the stimulation of bone regeneration. The present review discusses recent advances in the field of gene‐enhanced bone tissue engineering. Gene transfer strategies have emerged as highly effective tissue engineering approaches for supporting the repair of the musculoskeletal system. By contrast to treatment with recombinant proteins, genetically engineered cells can release growth factors at the site of injury over extended periods of time. Of particular interest are the expedited technologies that can be applied during a single surgical procedure in a cost‐effective manner, allowing translation from bench to bedside. Several promising methods based on the intra‐operative genetic manipulation of autologous cells or tissue fragments have been developed in preclinical studies. Moreover, gene therapy for bone regeneration has entered the clinical stage with clinical trials for the repair of alveolar bone. Current trends in gene‐enhanced bone engineering are also discussed with respect to the movement of the field towards expedited, translational approaches. It is possible that gene‐enhanced bone tissue engineering will become a clinical reality within the next few years. 相似文献
999.
Mehran Dastmalchi Myung Ryeol Park Jeremy S. Morris Peter Facchini 《Phytochemistry Reviews》2018,17(2):249-277
Benzylisoquinoline alkaloids (BIAs) are a group of specialized metabolites found predominantly in the plant order Ranunculales. Approximately 2500 naturally occurring BIAs have been identified, many of which possess a variety of potent biological and pharmacological properties. The initial BIA skeleton is formed via condensation by a unique enzyme, norcoclaurine synthase, of the l-tyrosine derivatives dopamine and 4-hydroxyphenylacetaldehyde, yielding (S)-norcoclaurine as a central intermediate. The vast diversity of BIA structures is subsequently derived from (1) transformation of the basic BIA backbone by oxidative enzymes, particularly cytochromes P450 and FAD-linked oxidases, and (2) further structural and functional group modification by tailoring enzymes, which also include various reductases, dioxygenases, acetyltransferases, and carboxylesterases. Most of the biosynthetic enzymes responsible for the biosynthesis of major BIAs (i.e. morphine, noscapine, papaverine, and sanguinarine) in opium poppy (Papaver somniferum), and other compounds (e.g. berberine) in related plants, have been isolated and partially characterized. Diversity in BIA metabolism is driven by the modular and repetitive recruitment, and subsequent neo-functionalization, of a limited number of ancestral enzymes. In this review, BIA biosynthetic enzymes are discussed in the context of their respective families, facilitating exploration of common phylogeny and biochemical mechanisms. 相似文献