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Sodium balance determines the extracellular fluid volume and sets arterial blood pressure (BP). Chronically raised BP (hypertension)
represents a major health risk in Western societies. The relationship between BP and renal sodium excretion (the pressure/natriuresis
relationship) represents the key element in defining the BP homeostatic set point. The renin–angiotensin–aldosterone system
(RAAS) makes major adjustments to the rates of renal sodium secretion, but this system works slowly over a period of hours
to days. More rapid adjustments can be made by the sympathetic nervous system, although the kidney can function well without
sympathetic nerves. Attention has now focussed on regulatory mechanisms within the kidney, including extracellular nucleotides
and the P2 receptor system. Here, we discuss how extracellular ATP can control renal sodium excretion by altering the activity
of epithelial sodium channels (ENaC) present in the apical membrane of principal cells. There remains considerable controversy
over the molecular targets for released ATP, although the P2Y2 receptor has received much attention. We review the available data and reflect on our own findings in which ATP-activated
P2Y and P2X receptors make adjustments to ENaC activity and therefore sodium excretion. 相似文献
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Marcel GA van der Heijden Susanne de Bruin Ludo Luckerhoff Richard SP van Logtestijn Klaus Schlaeppi 《The ISME journal》2016,10(2):389-399
Highly diverse microbial assemblages colonize plant roots. It is still poorly understood whether different members of this root microbiome act synergistically by supplying different services (for example, different limiting nutrients) to plants and plant communities. In order to test this, we manipulated the presence of two widespread plant root symbionts, arbuscular mycorrhizal fungi and nitrogen-fixing rhizobia bacteria in model grassland communities established in axenic microcosms. Here, we demonstrate that both symbionts complement each other resulting in increased plant diversity, enhanced seedling recruitment and improved nutrient acquisition compared with a single symbiont situation. Legume seedlings obtained up to 15-fold higher productivity if they formed an association with both symbionts, opposed to productivity they reached with only one symbiont. Our results reveal the importance of functional diversity of symbionts and demonstrate that different members of the root microbiome can complement each other in acquiring different limiting nutrients and in driving important ecosystem functions. 相似文献
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Oliver Beckstein Ekaterina Ivanova Tian Geng Simone Weyand David Drew Joseph Lanigan David J Sharples Mark SP Sansom So Iwata Colin WG Fishwick A Peter Johnson Alexander D Cameron Peter JF Henderson 《The EMBO journal》2014,33(16):1831-1844
The hydantoin transporter Mhp1 is a sodium‐coupled secondary active transport protein of the nucleobase‐cation‐symport family and a member of the widespread 5‐helix inverted repeat superfamily of transporters. The structure of Mhp1 was previously solved in three different conformations providing insight into the molecular basis of the alternating access mechanism. Here, we elucidate detailed events of substrate binding, through a combination of crystallography, molecular dynamics, site‐directed mutagenesis, biochemical/biophysical assays, and the design and synthesis of novel ligands. We show precisely where 5‐substituted hydantoin substrates bind in an extended configuration at the interface of the bundle and hash domains. They are recognised through hydrogen bonds to the hydantoin moiety and the complementarity of the 5‐substituent for a hydrophobic pocket in the protein. Furthermore, we describe a novel structure of an intermediate state of the protein with the external thin gate locked open by an inhibitor, 5‐(2‐naphthylmethyl)‐L‐hydantoin, which becomes a substrate when leucine 363 is changed to an alanine. We deduce the molecular events that underlie acquisition and transport of a ligand by Mhp1. 相似文献
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DOMINIK LERMEN BRUNHILDE BLÖMEKE ROBERT BROWNE ANN CLARKE PAUL W. DYCE THOMAS FIXEMER GÜNTER R. FUHR WILLIAM V. HOLT KATARINA JEWGENOW RHIANNON E. LLOYD STEFAN LÖTTERS MARTIN PAULUS GORDON MCGREGOR REID DANIEL H. RAPOPORT DAVID RAWSON JENNIFER RINGLEB OLIVER A. RYDER GABRIELE SPÖRL THOMAS SCHMITT MICHAEL VEITH PAUL MÜLLER 《Molecular ecology》2009,18(6):1030-1033
Cryobanking, the freezing of biological specimens to maintain their integrity for a variety of anticipated and unanticipated uses, offers unique opportunities to advance the basic knowledge of biological systems and their evolution. Notably, cryobanking provides a crucial opportunity to support conservation efforts for endangered species. Historically, cryobanking has been developed mostly in response to human economic and medical needs — these needs must now be extended to biodiversity conservation. Reproduction technologies utilizing cryobanked gametes, embryos and somatic cells are already vital components of endangered species recovery efforts. Advances in modern biological research (e.g. stem cell research, genomics and proteomics) are already drawing heavily on cryobanked specimens, and future needs are anticipated to be immense. The challenges of developing and applying cryobanking for a broader diversity of species were addressed at an international conference held at Trier University (Germany) in June 2008. However, the magnitude of the potential benefits of cryobanking stood in stark contrast to the lack of substantial resources available for this area of strategic interest for biological science — and society at large. The meeting at Trier established a foundation for a strong global incentive to cryobank threatened species. The establishment of an Amphibian Ark cryobanking programme offers the first opportunity for global cooperation to achieve the cryobanking of the threatened species from an entire vertebrate class. 相似文献
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Kolla J P Narayana Peddikotla Prabhakar Muvva Vijayalakshmi Yenamandra Venkateswarlu Palakodety S J Krishna 《Polish journal of microbiology》2008,57(1):35-39
An attempt was made to study the bioactive compounds from a terrestrial Streptomyces sp. ANU 6277 isolated from laterite soil. Four active fractions were recovered from the solvent extracts obtained from the culture broth of five day-old strain. Three bioactive compounds were purified and identified as 3-phenylpropionic acid, anthracene-9,10-quinone and 8-hydroxyquinoline. The components of the partially purified fourth active fraction were analyzed by gas chromatography-mass spectrometry and identified as benzyl alcohol, phenylethyl alcohol and 2H-1, 4-benzoxazin-3 (4H)-one. Four active fractions were screened for antimicrobial activity against Gram-positive and Gram-negative bacteria, and fungi including phytopathogenic, toxigenic and dermatophytic genera. Among these metabolites, 8-hydroxyquinoline exhibited strong antibacterial and antifungal activity as compared to 3-phenylpropionic acid and anthracene-9,10-quinone. 相似文献
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T. V. Pavlova V. I. Kashuba O. V. Muravenko S. P. Yenamandra T. A. Ivanova V. I. Zabarovska E. R. Rakhmanaliev L. A. Petrenko I. V. Pronina V. I. Loginov O. Y. Yurkevich L. L. Kisselev A. V. Zelenin E. R. Zabarovsky 《Molecular Biology》2009,43(2):313-320
A new comparative genome hybridization technology using NotI microarrays is described (Karolinska Institute International Patent WO02/086163). The method is based on comparative genome hybridization of NotI-enriched probes from tumor and normal genomic DNA with radically new NotI microarrays. A total of 181 NotI-binding loci of human chromosome 3 were assayed in 200 human malignant tissue samples from various organs: kidney, lung, breast, ovary, cervix, and prostate. The most significant portion (above 30%) of aberrations (deletions and methylation) were detected in NotI sites located in the MINT24, BHLHB2, RPL15, RARbeta1, ITGA9, RBSP3, VHL, and ZIC4 genes. This indicates that they may be associated with cancer development. Methylation of these genomic loci was confirmed by methylation-specific PCR and bisulfite sequencing. The results confirm that the proposed method can contribute to cancer genomics. 相似文献