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Graham J. Kemp Hamed I. Khouja Abdulla Ahmado R. Graham G. Russell Alan Bevington 《Cell biochemistry and function》1993,11(1):13-23
Osteoblast-like cells possess Na-dependent transporters which accumulate orthophosphate (Pi) from the extracellular medium. This may be important in bone formation. Here we describe parallel measurements of Pi uptake and cellular [Pi] in such cells from the rat (UMR 106–01 and UMR 106–06) and human (OB), and in non-osteoblastic human fibroblasts (Detroit 532 (DET)). In UMR 106–01, cellular [Pi] was weakly dependent on extracellular [Pi] and higher than expected from passive transport alone. [32Pi]-uptake was inhibited by Na deprivation, but paradoxically increased on K deprivation. With Na, 87 per cent of cellular 32P was found in organic phosphorus pools after only 5 min. Na deprivation also decreased cellular [Pi], in both UMR 106–01 and DET, but the decrease was smaller than that in [32Pi]-uptake. Ouabain decreased [32Pi]-uptake and cellular [Pi] in DET, but not in UMR 106–01. Regulation of cellular [Pi] is therefore at least partly dependent on Na/Pi co-transport, but this does not seem to be an exclusive property of osteoblasts. 相似文献
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《Current biology : CB》2020,30(18):3580-3590.e7
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研究表明,骨钙素(osteocalcin)是由骨骼中成熟的成骨细胞合成并分泌的一种非胶原蛋白质,在骨骼的合成和重建过程中起着重要作用。近年来研究显示,骨骼亦可作为一种分泌器官,通过分泌骨钙素,作用于胰腺、脂肪、睾丸等器官,调节能量代谢、雄性生殖能力。此外,临床研究表明,骨钙素与糖尿病、心血管疾病等也有着密切的联系。因此,本文一方面概述了骨钙素的基本特征,另一方面着重介绍了骨钙素在调节能量代谢等方面的研究进展,以便为治疗糖尿病等代谢性疾病提供新的治疗靶点。 相似文献
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Climate change in our backyards: the reshuffling of North America's winter bird communities 下载免费PDF全文
Much of the recent changes in North American climate have occurred during the winter months, and as result, overwintering birds represent important sentinels of anthropogenic climate change. While there is mounting evidence that bird populations are responding to a warming climate (e.g., poleward shifts) questions remain as to whether these species‐specific responses are resulting in community‐wide changes. Here, we test the hypothesis that a changing winter climate should favor the formation of winter bird communities dominated by warm‐adapted species. To do this, we quantified changes in community composition using a functional index – the Community Temperature Index (CTI) – which measures the balance between low‐ and high‐temperature dwelling species in a community. Using data from Project FeederWatch, an international citizen science program, we quantified spatiotemporal changes in winter bird communities (n = 38 bird species) across eastern North America and tested the influence of changes in winter minimum temperature over a 22‐year period. We implemented a jackknife analysis to identify those species most influential in driving changes at the community level and the population dynamics (e.g., extinction or colonization) responsible for these community changes. Since 1990, we found that the winter bird community structure has changed with communities increasingly composed of warm‐adapted species. This reshuffling of winter bird communities was strongest in southerly latitudes and driven primarily by local increases in abundance and regional patterns of colonization by southerly birds. CTI tracked patterns of changing winter temperature at different temporal scales ranging from 1 to 35 years. We conclude that a shifting winter climate has provided an opportunity for smaller, southerly distributed species to colonize new regions and promote the formation of unique winter bird assemblages throughout eastern North America. 相似文献