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131.
Manuel J. Steinbauer Richard Field John‐Arvid Grytnes Panayiotis Trigas Claudine Ah‐Peng Fabio Attorre H. John B. Birks Paulo A. V. Borges Pedro Cardoso Chang‐Hung Chou Michele De Sanctis Miguel M. de Sequeira Maria C. Duarte Rui B. Elias José María Fernández‐Palacios Rosalina Gabriel Roy E. Gereau Rosemary G. Gillespie Josef Greimler David E. V. Harter Tsurng‐Juhn Huang Severin D. H. Irl Daniel Jeanmonod Anke Jentsch Alistair S. Jump Christoph Kueffer Sandra Nogué Rüdiger Otto Jonathan Price Maria M. Romeiras Dominique Strasberg Tod Stuessy Jens‐Christian Svenning Ole R. Vetaas Carl Beierkuhnlein 《Global Ecology and Biogeography》2016,25(9):1097-1107
132.
该研究以油橄榄“鄂植-8”为材料,应用压片荧光观察花粉在柱头和花柱中的萌发及生长情况,采用石蜡制片法观察油橄榄的胚珠结构特点和授粉受精过程。结果表明:油橄榄为1子房2心室4胚珠,珠心较发达,由多层细胞构成,属于厚珠心椭圆型胚珠,胚珠直生;花开时花粉粒落到柱头上立刻萌发,随后花粉管在花粉通道中生长,再后进入子房经子房内表面,大部分花粉管不能到达胚珠,仅少数沿胎座生长经珠柄进入珠孔,释放2个精子,2个精核分别进入卵细胞和极核,并与卵核及极核相互融合;观察到合子中雌、雄性核仁融合的过程。授粉受精各阶段经历的时间为花粉落到柱头上立刻萌发;授粉后6d左右,花粉管长入胚珠的珠孔,随后释放精子;10 d左右完成授粉受精,30 d左右形成心型胚,40 d左右胚发育几乎成熟。在进行子房石蜡切片中,共观察到612个完整子房切片,发育完整的子房为97.53%,完成授粉受精的胚珠为15.52%。油橄榄在自然授粉下,约85%的胚珠授粉受精过程不能完成,在一定程度上影响其坐果。该研究结果为油橄榄授粉受精、高效生产等提供了理论依据。 相似文献
133.
Alkali metal–O2 batteries, by coupling high‐capacity alkali metal anodes with gaseous oxygen, possess extremely high gravimetric energy density that is comparable to gasoline and are potential energy storage technologies beyond lithium–ion batteries. The development of alkali metal–O2 batteries has achieved great progress in recent years, from materials to prototype devices and on fundamental mechanisms. The stability of alkali metal–O2 batteries is still poor, however, leading to a huge gap between laboratory research and commercial applications. A series of parasitic reactions result in the instability, which occur during electrochemical discharging and charging. The ubiquitous active oxygen species attack both the organic electrolyte and the carbon cathode, triggering various parasitic reactions. Meanwhile, dendrite growth and volume expansion upon repeated plating/stripping and O2 crossover severely limit the reversibility of alkali metal anodes. Here, an overview of the strategies against these issues is given to improve the stability of nonaqueous alkali metal–O2 batteries, which is discussed from three aspects: air cathodes, alkali metal anodes, and aprotic electrolytes. Furthermore, perspectives for future research of stable alkali metal–O2 batteries are outlined. 相似文献
134.
Zhe Hu Zhixin Tai Qiannan Liu Shi‐Wen Wang Huile Jin Shun Wang Weihong Lai Mingzhe Chen Lin Li Lingna Chen Zhanliang Tao Shu‐Lei Chou 《Liver Transplantation》2019,9(8)
Sodium ion batteries are now attracting great attention, mainly because of the abundance of sodium resources and their cheap raw materials. 2D materials possess a unique structure for sodium storage. Among them, transition metal chalcogenides exhibit significant potential for rechargeable battery devices due to their tunable composition, remarkable structural stability, fast ion transport, and robust kinetics. Herein, ultrathin TiS2 nanosheets are synthesized by a shear‐mixing method and exhibit outstanding cycling performance (386 mAh g?1 after 200 cycles at 0.2 A g?1). To clarify the variations of galvanostatic curves and superior cycling performance, the mechanism and morphology changes are systematically investigated. This facile synthesis method is expected to shed light on the preparation of ultrathin 2D materials, whose unique morphologies could easily enable their application in rechargeable batteries. 相似文献
135.
Susan K. Boehlein Peng Liu Ashley Webster Camila Ribeiro Masaharu Suzuki Shan Wu Jiahn‐Chou Guan Jon D. Stewart William F. Tracy A. Mark Settles Donald R. McCarty Karen E. Koch Larkin C. Hannah Tracie A. Hennen‐Bierwagen Alan M. Myers 《The Plant journal : for cell and molecular biology》2019,99(1):23-40
136.
Chou YH Flitney FW Chang L Mendez M Grin B Goldman RD 《Experimental cell research》2007,313(10):2236-2243
Intermediate filament (IF) proteins exist in multiple structural forms within cells including mature IF, short filaments or 'squiggles', and non-filamentous precursors called particles. These forms are interconvertible and their relative abundance is IF type, cell type- and cell cycle stage-dependent. These structures are often associated with molecular motors, such as kinesin and dynein, and are therefore capable of translocating through the cytoplasm along microtubules. The assembly of mature IF from their precursor particles is also coupled to translation. These dynamic properties of IF provide mechanisms for regulating their reorganization and assembly in response to the functional requirements of cells. The recent findings that IF and their precursors are frequently associated with signaling molecules have revealed new functions for IF beyond their more traditional roles as mechanical integrators of cells and tissues. 相似文献
137.
Emrich SJ Li L Wen TJ Yandeau-Nelson MD Fu Y Guo L Chou HH Aluru S Ashlock DA Schnable PS 《Genetics》2007,175(1):429-439
As an ancient segmental tetraploid, the maize (Zea mays L.) genome contains large numbers of paralogs that are expected to have diverged by a minimum of 10% over time. Nearly identical paralogs (NIPs) are defined as paralogous genes that exhibit > or = 98% identity. Sequence analyses of the "gene space" of the maize inbred line B73 genome, coupled with wet lab validation, have revealed that, conservatively, at least approximately 1% of maize genes have a NIP, a rate substantially higher than that in Arabidopsis. In most instances, both members of maize NIP pairs are expressed and are therefore at least potentially functional. Of evolutionary significance, members of many NIP families also exhibit differential expression. The finding that some families of maize NIPs are closely linked genetically while others are genetically unlinked is consistent with multiple modes of origin. NIPs provide a mechanism for the maize genome to circumvent the inherent limitation that diploid genomes can carry at most two "alleles" per "locus." As such, NIPs may have played important roles during the evolution and domestication of maize and may contribute to the success of long-term selection experiments in this important crop species. 相似文献
138.
Chou WL Chuang LM Chou CC Wang AH Lawson JA FitzGerald GA Chang ZF 《The Journal of biological chemistry》2007,282(25):18162-18172
139.
Qi SW Chaudhry MT Zhang Y Meng B Huang Y Zhao KX Poetsch A Jiang CY Liu S Liu SJ 《Proteomics》2007,7(20):3775-3787
The current study examined the aromatic degradation and central metabolism in Corynebacterium glutamicum by proteomic and molecular methods. Comparative analysis of proteomes from cells grown on gentisate and on glucose revealed that 30% of the proteins of which their abundance changed were involved in aromatic degradation and central carbon metabolism. Similar results were obtained from cells grown on benzoate, 4-cresol, phenol, and resorcinol. Results from these experiments revealed that (i) enzymes involved in degradation of benzoate, 4-cresol, gentisate, phenol, and resorcinol were specifically synthesized and (ii) that the abundance of enzymes involved in central carbon metabolism of glycolysis/gluconeogenesis, pentose phosphate pathway, and TCA cycles were significantly changed on various aromatic compounds. Significantly, three novel proteins, NCgl0524, NCgl0525, and NCgl0527, were identified on 4-cresol. The genes encoding NCgl0525 and NCgl0527 were confirmed to be necessary for assimilation of 4-cresol with C. glutamicum. The abundance of fructose-1,6-bisphosphatase (Fbp) was universally increased on all the tested aromatic compounds. This Fbp gene was disrupted and the mutant WT(Deltafbp) lost the ability to grow on aromatic compounds. Genetic complementation by the Fbp gene restored this ability. We concluded that gluconeogenesis is a necessary process for C. glutamicum growing on various aromatic compounds. 相似文献
140.