共查询到20条相似文献,搜索用时 437 毫秒
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Mattison SM 《Human nature (Hawthorne, N.Y.)》2011,22(1-2):64-88
Matriliny has long been debated by anthropologists positing either its primitive or its puzzling nature. More recently, evolutionary anthropologists have attempted to recast matriliny as an adaptive solution to modern social and ecological environments, tying together much of what was known to be associated with matriliny. This paper briefly reviews the major anthropological currents in studies of matriliny and discusses the contribution of evolutionary anthropology to this body of literature. It discusses the utility of an evolutionary framework in the context of the first independent test of Holden et al.'s 2003 model of matriliny as daughter-biased investment. It finds that historical daughter-biased transmission of land among the Mosuo is consistent with the model, whereas current income transmission is not. In both cases, resources had equivalent impacts on male and female reproduction, a result which predicts daughter-biased resource transmission given any nonzero level of paternity uncertainty. However, whereas land was transmitted traditionally to daughters, income today is invested in both sexes. Possible reasons for this discrepancy are discussed. 相似文献
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Jason D. Hoffert Chung-Lin Chou Mark A. Knepper 《The Journal of biological chemistry》2009,284(22):14683-14687
Vasopressin controls renal water excretion largely through actions to
regulate the water channel aquaporin-2 in collecting duct principal cells. Our
knowledge of the mechanisms involved has increased markedly in recent years
with the advent of methods for large-scale systems-level profiling such as
protein mass spectrometry, yeast two-hybrid analysis, and oligonucleotide
microarrays. Here we review this progress.Regulation of water excretion by the kidney is one of the most visible
aspects of everyday physiology. An outdoor tennis game on a hot summer day can
result in substantial water losses by sweating, and the kidneys respond by
reducing water excretion. In contrast, excessive intake of water, a frequent
occurrence in everyday life, results in excretion of copious amounts of clear
urine. These responses serve to exact tight control on the tonicity of body
fluids, maintaining serum osmolality in the range of 290–294 mosmol/kg
of H2O through the regulated return of water from the pro-urine in
the renal collecting ducts to the bloodstream.The importance of this process is highlighted when the regulation fails.
For example, polyuria (rapid uncontrolled excretion of water) is a sometimes
devastating consequence of lithium therapy for bipolar disorder. On the other
side of the coin are water balance disorders that result from excessive renal
water retention causing systemic hypo-osmolality or hyponatremia. Hyponatremia
due to excessive water retention can be seen with severe congestive heart
failure, hepatic cirrhosis, and the syndrome of inappropriate
antidiuresis.The chief regulator of water excretion is the peptide hormone
AVP,2 whereas the
chief molecular target for regulation is the water channel AQP2. In this
minireview, we describe new progress in the understanding of the molecular
mechanisms involved in regulation of AQP2 by AVP in collecting duct cells,
with emphasis on new information derived from “systems-level”
approaches involving large-scale profiling and screening techniques such as
oligonucleotide arrays, protein mass spectrometry, and yeast two-hybrid
analysis. Most of the progress with these techniques is in the identification
of individual molecules involved in AVP signaling and binding interactions
with AQP2. Additional related issues are addressed in several recent reviews
(1–4). 相似文献
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C Popov T Radic F Haasters W C Prall A Aszodi D Gullberg M Schieker D Docheva 《Cell death & disease》2011,2(7):e186
Although mesenchymal stem cells (MSCs) are the natural source for bone regeneration, the exact mechanisms governing MSC crosstalk with collagen I have not yet been uncovered. Cell adhesion to collagen I is mostly mediated by three integrin receptors – α1β1, α2β1 and α11β1. Using human MSC (hMSC), we show that α11 subunit exhibited the highest basal expression levels but on osteogenic stimulation, both α2 and α11 integrins were significantly upregulated. To elucidate the possible roles of collagen-binding integrins, we applied short hairpin RNA (shRNA)-mediated knockdown in hMSC and found that α2 or α11 deficiency, but not α1, results in a tremendous reduction of hMSC numbers owing to mitochondrial leakage accompanied by Bcl-2-associated X protein upregulation. In order to clarify the signaling conveyed by the collagen-binding integrins in hMSC, we analyzed the activation of focal adhesion kinase, extracellular signal-regulated protein kinase and serine/threonine protein kinase B (PKB/Akt) kinases and detected significantly reduced Akt phosphorylation only in α2- and α11-shRNA hMSC. Finally, experiments with hMSC from osteoporotic patients revealed a significant downregulation of α2 integrin concomitant with an augmented mitochondrial permeability. In conclusion, our study describes for the first time that disturbance of α2β1- or α11β1-mediated interactions to collagen I results in the cell death of MSCs and urges for further investigations examining the impact of MSCs in bone conditions with abnormal collagen I. 相似文献
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Hidekuni Yamakawa Sosuke Yagishita Eugene Futai Shoichi Ishiura 《The Journal of biological chemistry》2010,285(3):1634-1642
The amyloid-β (Aβ) peptide, widely known as the causative molecule of Alzheimer disease (AD), is generated by the sequential cleavage of amyloid precursor protein (APP) by the aspartyl proteases BACE1/β-secretase and presenilin/γ-secretase. Inhibition of BACE1, therefore, is a promising strategy for preventing the progression of AD. However, β-secretase inhibitors (BSIs) exhibit unexpectedly low potency in cells expressing “Swedish mutant” APP (APPswe) and in the transgenic mouse Tg2576, an AD model overexpressing APPswe. The Swedish mutation dramatically accelerates β-cleavage of APP and hence the generation of Aβ; this acceleration has been assumed to underlie the poor inhibitory activity of BSI against APPswe processing. Here, we studied the mechanism by which the Swedish mutation causes this BSI potency decrease. Surprisingly, decreased BSI potency was not observed in an in vitro assay using purified BACE1 and substrates, indicating that the accelerated β-cleavage resulting from the Swedish mutation is not its underlying cause. By focusing on differences between the cell-based and in vitro assays, we have demonstrated here that the potency decrease is caused by the aberrant subcellular localization of APPswe processing and not by accelerated β-cleavage or the accumulation of the C-terminal fragment of β-cleaved APP. Because most patients with sporadic AD express wild type APP, our findings suggest that the wild type mouse is superior to the Tg2576 mouse as a model for determining the effective dose of BSI for AD patients. This work provides novel insights into the potency decrease of BSI and valuable suggestions for its development as a disease-modifying agent. 相似文献
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Hwangbeom Kim Hyojun Han Jinwoo Ahn Joongoo Lee Namjin Cho Hoon Jang Hyoki Kim Sunghoon Kwon Duhee Bang 《Nucleic acids research》2012,40(18):e140
We developed a highly scalable ‘shotgun’ DNA synthesis technology by utilizing microchip oligonucleotides, shotgun assembly and next-generation sequencing technology. A pool of microchip oligonucleotides targeting a penicillin biosynthetic gene cluster were assembled into numerous random fragments, and tagged with 20 bp degenerate barcode primer pairs. An optimal set of error-free fragments were identified by high-throughput DNA sequencing, selectively amplified using the barcode sequences, and successfully assembled into the target gene cluster. 相似文献
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Mukesh Saxena Samarendra Singh Shamsu Zzaman Deepak Bastia 《The Journal of biological chemistry》2010,285(8):5695-5704
A typical plasmid replicon of Escherichia coli, such as ori γ of R6K, contains tandem iterons (iterated initiator protein binding sites), an AT-rich region that melts upon initiator-iteron interaction, two binding sites for the bacterial initiator protein DnaA, and a binding site for the DNA-bending protein IHF. R6K also contains two structurally atypical origins called α and β that are located on either side of γ and contain a single and a half-iteron, respectively. Individually, these sites do not bind to initiator protein π but access it by DNA looping-mediated interaction with the seven π-bound γ iterons. The π protein exists in 2 interconvertible forms: inert dimers and active monomers. Initiator dimers generally function as negative regulators of replication by promoting iteron pairing (“handcuffing”) between pairs of replicons that turn off both origins. Contrary to this existing paradigm, here we show that both the dimeric and the monomeric π are necessary for ori α-driven plasmid maintenance. Furthermore, efficient looping interaction between α and γ or between 2 γ iterons in vitro also required both forms of π. Why does α-γ iteron pairing promote α activation rather than repression? We show that a weak, transitory α-γ interaction at the iteron pairs was essential for α-driven plasmid maintenance. Swapping the α iteron with one of γ without changing the original sequence context that caused enhanced looping in vitro caused a significant inhibition of α-mediated plasmid maintenance. Therefore, the affinity of α iteron for π-bound γ and not the sequence context determined whether the origin was activated or repressed. 相似文献
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