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欧洲研究发现养分增加会抑制新近沉积泥炭的碳积累 快报文章
气候变化快报,2025年第10期
作者:  裴惠娟
Microsoft Word(16Kb)  |  收藏  |  浏览/下载:430/1  |  提交时间:2025/05/20
Peat  Carbon Accumulation  Nutrient Supply  
英研究揭示影响刚果中部泥炭碳积累和损失的两大因素 快报文章
气候变化快报,2023年第20期
作者:  秦冰雪
Microsoft Word(28Kb)  |  收藏  |  浏览/下载:527/0  |  提交时间:2023/10/20
Carbon Accumulation  Carbon Loss  Central Congo Peatlands  
瑞典海草碳积累率首次得到评估 快报文章
资源环境快报,2023年第2期
作者:  董利苹
Microsoft Word(20Kb)  |  收藏  |  浏览/下载:627/0  |  提交时间:2023/01/31
Sweden  Seagrass Carbon Accumulation Rates  Fjord System at the Skagerrak Coast  
中国海洋大学在近海沉积物碳储存研究方面取得进展 快报文章
气候变化快报,2022年第17期
作者:  秦冰雪
Microsoft Word(13Kb)  |  收藏  |  浏览/下载:683/0  |  提交时间:2022/09/05
Coastal Sediments  Organic Carbon Accumulation  Sediment Mixed Layer  
天然林再生带来的气候变化减缓潜力被低估11% 快报文章
气候变化快报,2020年第20期
作者:  裴惠娟
Microsoft Word(15Kb)  |  收藏  |  浏览/下载:392/0  |  提交时间:2020/10/20
Natural Forest Regrowth  Carbon Accumulation Potential  Mapping  
Ice retreat in Wilkes Basin of East Antarctica during a warm interglacial 期刊论文
NATURE, 2020, 583 (7817) : 554-+
作者:  T. Blackburn;  G. H. Edwards;  S. Tulaczyk;  M. Scudder;  G. Piccione;  B. Hallet;  N. McLean;  J. C. Zachos;  B. Cheney;  J. T. Babbe
收藏  |  浏览/下载:58/0  |  提交时间:2020/08/09

Uranium isotopes in subglacial precipitates from the Wilkes Basin of the East Antarctic Ice Sheet reveal ice retreat during a warm Pleistocene interglacial period about 400,000 years ago.


Efforts to improve sea level forecasting on a warming planet have focused on determining the temperature, sea level and extent of polar ice sheets during Earth'  s past interglacial warm periods(1-3). About 400,000 years ago, during the interglacial period known as Marine Isotopic Stage 11 (MIS11), the global temperature was 1 to 2 degrees Celsius greater(2)and sea level was 6 to 13 metres higher(1,3). Sea level estimates in excess of about 10 metres, however, have been discounted because these require a contribution from the East Antarctic Ice Sheet(3), which has been argued to have remained stable for millions of years before and includes MIS11(4,5). Here we show how the evolution of(234)U enrichment within the subglacial waters of East Antarctica recorded the ice sheet'  s response to MIS11 warming. Within the Wilkes Basin, subglacial chemical precipitates of opal and calcite record accumulation of(234)U (the product of rock-water contact within an isolated subglacial reservoir) up to 20 times higher than that found in marine waters. The timescales of(234)U enrichment place the inception of this reservoir at MIS11. Informed by the(234)U cycling observed in the Laurentide Ice Sheet, where(234)U accumulated during periods of ice stability(6)and was flushed to global oceans in response to deglaciation(7), we interpret our East Antarctic dataset to represent ice loss within the Wilkes Basin at MIS11. The(234)U accumulation within the Wilkes Basin is also observed in the McMurdo Dry Valleys brines(8-10), indicating(11)that the brine originated beneath the adjacent East Antarctic Ice Sheet. The marine origin of brine salts(10)and bacteria(12)implies that MIS11 ice loss was coupled with marine flooding. Collectively, these data indicate that during one of the warmest Pleistocene interglacials, the ice sheet margin at the Wilkes Basin retreated to near the precipitate location, about 700 kilometres inland from the current position of the ice margin, which-assuming current ice volumes-would have contributed about 3 to 4 metres(13)to global sea levels.


  
An acute immune response underlies the benefit of cardiac stem cell therapy 期刊论文
NATURE, 2020, 577 (7790) : 405-+
作者:  Schmacke, Niklas A.;  Hornung, Veit
收藏  |  浏览/下载:38/0  |  提交时间:2020/07/03

Clinical trials using adult stem cells to regenerate damaged heart tissue continue to this day(1,2), despite ongoing questions of efficacy and a lack of mechanistic understanding of the underlying biological effect(3). The rationale for these cell therapy trials is derived from animal studies that show a modest but reproducible improvement in cardiac function in models of cardiac ischaemic injury(4,5). Here we examine the mechanistic basis for cell therapy in mice after ischaemia-reperfusion injury, and find that-although heart function is enhanced-it is not associated with the production of new cardiomyocytes. Cell therapy improved heart function through an acute sterile immune response characterized by the temporal and regional induction of CCR2(+) and CX3CR1(+) macrophages. Intracardiac injection of two distinct types of adult stem cells, cells killed by freezing and thawing or a chemical inducer of the innate immune response all induced a similar regional accumulation of CCR2(+) and CX3CR1(+) macrophages, and provided functional rejuvenation to the heart after ischaemia-reperfusion injury. This selective macrophage response altered the activity of cardiac fibroblasts, reduced the extracellular matrix content in the border zone and enhanced the mechanical properties of the injured area. The functional benefit of cardiac cell therapy is thus due to an acute inflammatory-based wound-healing response that rejuvenates the infarcted area of the heart.


  
Senolytic CAR T cells reverse senescence-associated pathologies 期刊论文
NATURE, 2020, 583 (7814) : 127-+
作者:  Cortez, Jessica T.;  Montauti, Elena;  Shifrut, Eric;  Gatchalian, Jovylyn;  Zhang, Yusi;  Shaked, Oren;  Xu, Yuanming;  Roth, Theodore L.;  Simeonov, Dimitre R.;  Zhang, Yana;  Chen, Siqi;  Li, Zhongmei;  Woo, Jonathan M.;  Ho, Josephine;  Vogel, Ian A.
收藏  |  浏览/下载:85/0  |  提交时间:2020/07/03

Cellular senescence is characterized by stable cell-cycle arrest and a secretory program that modulates the tissue microenvironment(1,2). Physiologically, senescence serves as a tumour-suppressive mechanism that prevents the expansion of premalignant cells(3,4)and has a beneficial role in wound-healing responses(5,6). Pathologically, the aberrant accumulation of senescent cells generates an inflammatory milieu that leads to chronic tissue damage and contributes to diseases such as liver and lung fibrosis, atherosclerosis, diabetes and osteoarthritis(1,7). Accordingly, eliminating senescent cells from damaged tissues in mice ameliorates the symptoms of these pathologies and even promotes longevity(1,2,8-10). Here we test the therapeutic concept that chimeric antigen receptor (CAR) T cells that target senescent cells can be effective senolytic agents. We identify the urokinase-type plasminogen activator receptor (uPAR)(11)as a cell-surface protein that is broadly induced during senescence and show that uPAR-specific CAR T cells efficiently ablate senescent cells in vitro and in vivo. CAR T cells that target uPAR extend the survival of mice with lung adenocarcinoma that are treated with a senescence-inducing combination of drugs, and restore tissue homeostasis in mice in which liver fibrosis is induced chemically or by diet. These results establish the therapeutic potential of senolytic CAR T cells for senescence-associated diseases.


Chimeric antigen receptor (CAR) T cells targeting uPAR, a cell-surface protein that is upregulated on senescent cells, eliminate senescent cells in vitro and in vivo and reduce liver fibrosis in mice.


  
Plant 22-nt siRNAs mediate translational repression and stress adaptation 期刊论文
NATURE, 2020, 581 (7806) : 89-+
作者:  Roulis, Manolis;  Kaklamanos, Aimilios;  Schernthanner, Marina;  Bielecki, Piotr;  Zhao, Jun;  Kaffe, Eleanna;  Frommelt, Laura-Sophie;  Qu, Rihao;  Knapp, Marlene S.;  Henriques, Ana;  Chalkidi, Niki;  Koliaraki, Vasiliki;  Jiao, Jing;  Brewer, J. Richard;  Bacher, Maren;  Blackburn, Holly N.;  Zhao, Xiaoyun;  Breyer, Richard M.;  Aidinis, Vassilis;  Jain, Dhanpat;  Su, Bing;  Herschman, Harvey R.;  Kluger, Yuval;  Kollias, George;  Flavell, Richard A.
收藏  |  浏览/下载:52/0  |  提交时间:2020/07/03

Characterization of 22-nucleotide short interfering RNAs in plants finds that they accumulate in response to environmental stress, causing translational repression, inhibition of plant growth and enhanced stress responses.


Small interfering RNAs (siRNAs) are essential for proper development and immunity in eukaryotes(1). Plants produce siRNAs with lengths of 21, 22 or 24 nucleotides. The 21- and 24-nucleotide species mediate cleavage of messenger RNAs and DNA methylation(2,3), respectively, but the biological functions of the 22-nucleotide siRNAs remain unknown. Here we report the identification and characterization of a group of endogenous 22-nucleotide siRNAs that are generated by the DICER-LIKE 2 (DCL2) protein in plants. When cytoplasmic RNA decay and DCL4 are deficient, the resulting massive accumulation of 22-nucleotide siRNAs causes pleiotropic growth disorders, including severe dwarfism, meristem defects and pigmentation. Notably, two genes that encode nitrate reductases-NIA1 and NIA2-produce nearly half of the 22-nucleotide siRNAs. Production of 22-nucleotide siRNAs triggers the amplification of gene silencing and induces translational repression both gene specifically and globally. Moreover, these 22-nucleotide siRNAs preferentially accumulate upon environmental stress, especially those siRNAs derived from NIA1/2, which act to restrain translation, inhibit plant growth and enhance stress responses. Thus, our research uncovers the unique properties of 22-nucleotide siRNAs, and reveals their importance in plant adaptation to environmental stresses.


  
Structure and catalytic mechanism of a human triacylglycerol-synthesis enzyme 期刊论文
NATURE, 2020, 581 (7808) : 323-+
作者:  Nikoo, Mohammad Samizadeh;  Jafari, Armin;  Perera, Nirmana;  Zhu, Minghua;  Santoruvo, Giovanni;  Matioli, Elison
收藏  |  浏览/下载:31/0  |  提交时间:2020/07/03

Triacylglycerols store metabolic energy in organisms and have industrial uses as foods and fuels. Excessive accumulation of triacylglycerols in humans causes obesity and is associated with metabolic diseases(1). Triacylglycerol synthesis is catalysed by acyl-CoA diacylglycerol acyltransferase (DGAT) enzymes(2-4), the structures and catalytic mechanisms of which remain unknown. Here we determined the structure of dimeric human DGAT1, a member of the membrane-bound O-acyltransferase (MBOAT) family, by cryo-electron microscopy at approximately 3.0 angstrom resolution. DGAT1 forms a homodimer through N-terminal segments and a hydrophobic interface, with putative active sites within the membrane region. A structure obtained with oleoyl-CoA substrate resolved at approximately 3.2 angstrom shows that the CoA moiety binds DGAT1 on the cytosolic side and the acyl group lies deep within a hydrophobic channel, positioning the acyl-CoA thioester bond near an invariant catalytic histidine residue. The reaction centre is located inside a large cavity, which opens laterally to the membrane bilayer, providing lipid access to the active site. A lipid-like density-possibly representing an acyl-acceptor molecule-is located within the reaction centre, orthogonal to acyl-CoA. Insights provided by the DGAT1 structures, together with mutagenesis and functional studies, provide the basis for a model of the catalysis of triacylglycerol synthesis by DGAT.


Cryo-electron microscopy structures and functional and mutagenesis studies provide insights into the catalysis of triacylglycerol synthesis by human acyl-CoA diacylglycerol acyltransferase at its intramembrane active site.