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About 150 species belonging to 14 families are mentioned in the scattered literature dealing with the land molluscs of Chile. However, the records of the Streptaxidae and Haplotrematidae are dubious and all those for the Limacidae, Zonitidae and Helicidae correspond to introduced species. The remaining 9 families are represented by endemic genera and subgenera present either in the oceanic islands (Fernandezia, Tornatellina, Ambrosiella) or in continental Chile (Bostryx (Ataxus), Chiliborus). A few are limited in their distribution to the southern part of South America (Austrodiscus, Stephadiscus, Macrocyclis) or are found both in the islands and along the continent (Amphiodoxa, Stephanoda). The majority of the other genera have a wider distribution in the Indo‐Pacific (Punctum, Ptychodon, Champa), in South America, the Americas in general and/or in the other parts of the world. The distribution of molluscan genera and species in continental Chile is discussed with regard to the biogeographic units proposed by various authors for plants and animals. Their probable relationships with the faunas of neighbouring countries and other biogeographic regions is briefly outlined. A taxonomic list of the species indicating the original reference, general distribution and the uncertain position of some of them within the different genera is given. Only about 120 species appear relatively well characterized. 相似文献
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Karl-Ernst Reinert 《Journal of biomolecular structure & dynamics》2013,31(6):973-990
Abstract It is argued that the enhancement of the apparent DNA contour length by the specifically binding non-intercalating drug netropsin (Nt) (Reinert et al., NAR 9,2335, 1981) at very low Nt/DNA-phosphate ratios essentially is the result of an abolition of periodically arranged intrinsic helix bends in A · T rich tracts of base pairs. In the preceding paper the existence of pronounced DNA tertiary structure components has been postulated for (two species of) natural eukaryotic DNA. The resulting model suggests local apparent solenoid-related DNA tertiary structure components at high sodium ion concentration cs, partly/totally molten out at 45/60 C. With decreasing cs the tertiary structure components have been found to be gradually reduced, at least below cs = 0.010 M, as titration viscometrically revealed by a gradual rise of the apparent DNA contour length (Reinert et al., JBSD 9, 537, 1991). Hence, we performed titration viscometric analyses about Nt interaction with calf thymus DNA (ctDNA) at cs = 0.075 M, 0.010 M and 0.004 M Na+. The concomitant DNA conformational changes are quantitatively described in terms of the relative changes of both DNA persistence length and hydrodynamically operative apparent DNA contour length for the three first resolved interaction modes below a Nt/DNA-P ratio of 0.03. These experiments, together with previous respective analyses at cs = 0.20 M Na+ and different temperatures (I.e.), suggest that those DNA sites binding Nt most strongly predominantly are responsible for the formation of solenoid-related DNA tertiary structure components. Most probably these are A tract-containing sequences. As the essential factor for their apparent elongation effect at low Na+ concentrations, a gradual alteration of the number of base pairs per helix turn seems to occur below cs = 0.010 M Na+ and, concomitantly, a change in phasing between intrinsic helix bends and helix screw. 相似文献
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K E Reinert 《Biochimica et biophysica acta》1973,319(2):135-139
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Elmar Porten Beate Seliger Verena A. Schneider Stefan W?ll Daniela Stangel Rene Ramseger Stephan Kr?ger 《The Journal of biological chemistry》2010,285(5):3114-3125
Clustering or overexpression of the transmembrane form of the extracellular matrix proteoglycan agrin in neurons results in the formation of numerous highly motile filopodia-like processes extending from axons and dendrites. Here we show that similar processes can be induced by overexpression of transmembrane-agrin in several non-neuronal cell lines. Mapping of the process-inducing activity in neurons and non-neuronal cells demonstrates that the cytoplasmic part of transmembrane agrin is dispensable and that the extracellular region is necessary for process formation. Site-directed mutagenesis reveals an essential role for the loop between β-sheets 3 and 4 within the Kazal subdomain of the seventh follistatin-like domain of TM-agrin. An aspartic acid residue within this loop is critical for process formation. The seventh follistatin-like domain could be functionally replaced by the first and sixth but not by the eighth follistatin-like domain, demonstrating a functional redundancy among some follistatin-like domains of agrin. Moreover, a critical distance of the seventh follistatin-like domain to the plasma membrane appears to be required for process formation. These results demonstrate that different regions within the agrin protein are responsible for synapse formation at the neuromuscular junction and for process formation in central nervous system neurons and suggest a role for agrin''s follistatin-like domains in the developing central nervous system. 相似文献
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Richard W. Clayton Ewan A. Langan David M. Ansell Ivo J. H. M. de Vos Klaus Gbel Marlon R. Schneider Mauro Picardo Xinhong Lim Maurice A. M. van Steensel Ralf Paus 《Biological reviews of the Cambridge Philosophical Society》2020,95(3):592-624
The nervous system communicates with peripheral tissues through nerve fibres and the systemic release of hypothalamic and pituitary neurohormones. Communication between the nervous system and the largest human organ, skin, has traditionally received little attention. In particular, the neuro‐regulation of sebaceous glands (SGs), a major skin appendage, is rarely considered. Yet, it is clear that the SG is under stringent pituitary control, and forms a fascinating, clinically relevant peripheral target organ in which to study the neuroendocrine and neural regulation of epithelia. Sebum, the major secretory product of the SG, is composed of a complex mixture of lipids resulting from the holocrine secretion of specialised epithelial cells (sebocytes). It is indicative of a role of the neuroendocrine system in SG function that excess circulating levels of growth hormone, thyroxine or prolactin result in increased sebum production (seborrhoea). Conversely, growth hormone deficiency, hypothyroidism, and adrenal insufficiency result in reduced sebum production and dry skin. Furthermore, the androgen sensitivity of SGs appears to be under neuroendocrine control, as hypophysectomy (removal of the pituitary) renders SGs largely insensitive to stimulation by testosterone, which is crucial for maintaining SG homeostasis. However, several neurohormones, such as adrenocorticotropic hormone and α‐melanocyte‐stimulating hormone, can stimulate sebum production independently of either the testes or the adrenal glands, further underscoring the importance of neuroendocrine control in SG biology. Moreover, sebocytes synthesise several neurohormones and express their receptors, suggestive of the presence of neuro‐autocrine mechanisms of sebocyte modulation. Aside from the neuroendocrine system, it is conceivable that secretion of neuropeptides and neurotransmitters from cutaneous nerve endings may also act on sebocytes or their progenitors, given that the skin is richly innervated. However, to date, the neural controls of SG development and function remain poorly investigated and incompletely understood. Botulinum toxin‐mediated or facial paresis‐associated reduction of human sebum secretion suggests that cutaneous nerve‐derived substances modulate lipid and inflammatory cytokine synthesis by sebocytes, possibly implicating the nervous system in acne pathogenesis. Additionally, evidence suggests that cutaneous denervation in mice alters the expression of key regulators of SG homeostasis. In this review, we examine the current evidence regarding neuroendocrine and neurobiological regulation of human SG function in physiology and pathology. We further call attention to this line of research as an instructive model for probing and therapeutically manipulating the mechanistic links between the nervous system and mammalian skin. 相似文献