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181.
Ingrid C. A. Boucaud Pénélope A. Valère Mélissa L. N. Aguirre Smith Blandine Doligez Laure Cauchard Fanny Rybak Clémentine Vignal 《Ibis》2016,158(3):630-644
Although most bird species show monogamous pair bonds and bi‐parental care, little is known of how mated birds coordinate their activities. Whether or not partners communicate with each other to adjust their behaviour remains an open question. During incubation and the first days after hatching, one parent – generally the female – stays in the nest for extended periods, and might depend on acoustic communication to exchange information with its mate outside. The Great Tit Parus major is an interesting study system to investigate intra‐pair communication at the nest because males address songs to their mate while she is in the nest cavity, and females answer the male from the cavity with calls. However, the function of this communication remains unknown. In this study, we recorded the vocalizations and observed the resulting behaviour of Great Tit pairs around the nest at different breeding stages (laying, incubation and chick‐rearing). We observed vocal exchanges (vocalization bouts, alternated on the same tempo, between the female inside the nest and her male outside) in three contexts with different outcomes: (1) the female left the nest, (2) the male entered the box with food, and the female then used specific call types, (3) mates stopped calling but did not leave or enter the nest. The structure of vocal exchanges was globally stable between contexts, but females used calls with an up‐shifted spectrum during exchanges, at the end of which they left the nest or the male entered the nest. Birds vocalized more and at higher tempo during exchanges that ended up in feeding inside the nest. Birds also vocalized more during exchanges taking place during laying – a period of active mate guarding – than during incubation. We conclude that vocal exchanges could signal the females’ need for food and the males’ mate guarding behaviour, and discuss other possible functions of this communication. 相似文献
182.
纤维素多孔微载体的制备及其用于动物细胞培养 总被引:7,自引:0,他引:7
将纤维素铜氨溶液喷洒至-40℃的硅油:正己烷=1:4的冷冻液中形成含冰晶的微球,用-30℃、40%的H2SO4再生纤维素,并用EDAE盐酸盐修饰其表面,制成适合动物细胞培养的纤维素多孔微载体。利用该微载体培养能分泌尿激酶原(Pro-UK)的重组CHO细胞,在100mL搅拌瓶中换液培养25d,细胞最高密度为6.3×106/mL,尿激酶原最高活性为2325IU/mL,共获28.7mg产品。之后转入1000mL搅拌瓶中培养,可观察到细胞可从种子微载体中自动转移到新微载体中生长繁殖直至所有微载体中都长有细胞。在25d二级培养中,细胞最高密度为7.3×106/mL,尿激酶原最高活性为3108IU/mL,共获含353mg尿激酶原的上清13.7L。在培养后期换用无血清培养基培养,细胞生长及蛋白表达水平正常。 相似文献
183.
It has long been known that a simple hard particle model quantitatively explains the osmotic properties of monomeric hemoglobin near its isoelectric point. However, we find that a hard particle model is not consistent with the osmotic properties of polymerized hemoglobin and that substantial soft repulsions are indicated. With allowance for different interactions among monomers and among polymers, a self-consistent quantitative fit to the experimental data is obtained. The results suggest that the decreasing “solubility” of deoxy sickle cell hemoglobin with increasing temperature from 20 to 37°C is due to weaker repulsions between polymers at higher temperatures rather than stronger polymerization. The temperature dependence of these variables indicates that the aggregation of monomers is enthalpically and entropically driven (the latter effect being stronger), while the approach of polymers toward each other is enthalpically disfavored and entropically favored (with the former dominating). In both cases, the entropic contribution suggests that water is released. © 1998 John Wiley & Sons, Inc. Biopoly 45: 299–306, 1998 相似文献
184.
Effect of circular permutation on the structure and function of type 1 blue copper center in azurin
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Yang Yu Igor D. Petrik Kelly N. Chacón Parisa Hosseinzadeh Honghui Chen Ninian J. Blackburn Yi Lu 《Protein science : a publication of the Protein Society》2017,26(2):218-226
Type 1 copper (T1Cu) proteins are electron transfer (ET) proteins involved in many important biological processes. While the effects of changing primary and secondary coordination spheres in the T1Cu ET function have been extensively studied, few report has explored the effect of the overall protein structural perturbation on active site configuration or reduction potential of the protein, even though the protein scaffold has been proposed to play a critical role in enforcing the entatic or “rack‐induced” state for ET functions. We herein report circular permutation of azurin by linking the N‐ and C‐termini and creating new termini in the loops between 1st and 2nd β strands or between 3rd and 4th β strands. Characterization by electronic absorption, electron paramagnetic spectroscopies, as well as crystallography and cyclic voltammetry revealed that, while the overall structure and the primary coordination sphere of the circular permutated azurins remain the same as those of native azurin, their reduction potentials increased by 18 and 124 mV over that of WTAz. Such increases in reduction potentials can be attributed to subtle differences in the hydrogen‐bonding network in secondary coordination sphere around the T1Cu center. 相似文献
185.
《Journal of molecular recognition : JMR》2017,30(3)
Heparan sulfates are complex polysaccharides belonging to the family of glycosaminoglycans that participate to the regulation of cell behavior and tissue homeostasis. The biological activities conferred to heparan sulfates are largely dependent on the content and positioning of the sulfate groups along their saccharidic units. At present, identification of particular sulfation patterns in biologically relevant heparan sulfate sequences remains challenging. Although several approaches for structure analysis exist, the complexity of heparan sulfates makes new and original approaches still required. Here, we used molecular imprinting technologies to prepare a library of polyethylene glycol acrylate functionalized hydrogels with the aim to investigate their applicability as specific recognizing systems for fondaparinux, a synthetic pentasaccharide analog to the antithrombin binding site of heparin. Adequate choice of the hydrogel composition and controlling rebinding conditions were important determinants for improving the sulfated oligosaccharide recognition specificity and selectivity. Our results suggest that molecular imprinting approaches could be a possibility for the specific recognition of biologically active sequences in heparan sulfates. 相似文献
186.
High‐Performance and Stable All‐Polymer Solar Cells Using Donor and Acceptor Polymers with Complementary Absorption
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Zhaojun Li Wei Zhang Xiaofeng Xu Zewdneh Genene Dario Di Carlo Rasi Wendimagegn Mammo Arkady Yartsev M. R. Andersson René A. J. Janssen Ergang Wang 《Liver Transplantation》2017,7(14)
To explore the advantages of emerging all‐polymer solar cells (all‐PSCs), growing efforts have been devoted to developing matched donor and acceptor polymers to outperform fullerene‐based PSCs. In this work, a detailed characterization and comparison of all‐PSCs using a set of donor and acceptor polymers with both conventional and inverted device structures is performed. A simple method to quantify the actual composition and light harvesting contributions from the individual donor and acceptor is described. Detailed study on the exciton dissociation and charge recombination is carried out by a set of measurements to understand the photocurrent loss. It is unraveled that fine‐tuned crystallinity of the acceptor, matched donor and acceptor with complementary absorption and desired energy levels, and device architecture engineering can synergistically boost the performance of all‐PSCs. As expected, the PBDTTS‐FTAZ:PNDI‐T10 all‐PSC attains a high and stable power conversion efficiency of 6.9% without obvious efficiency decay in 60 d. This work demonstrates that PNDI‐T10 can be a potential alternative acceptor polymer to the widely used acceptor N2200 for high‐performance and stable all‐PSCs. 相似文献
187.
Toward High Efficiency Polymer Solar Cells: Influence of Local Chemical Environment and Morphology
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Cheng Zhou Guichuan Zhang Chengmei Zhong Xiaoe Jia Peng Luo Rongguo Xu Ke Gao Xiaofang Jiang Feng Liu Thomas P. Russell Fei Huang Yong Cao 《Liver Transplantation》2017,7(1)
The chemical structure of conjugated polymers plays an important role in determining their physical properties that, in turn, dictates their performance in photovoltaic devices. 5‐Fluoro‐2,1,3‐benzothiadiazole, an asymmetric unit, is incorporated into a thiophene‐based polymer backbone to generate a hole conducting polymers with controlled regioregularity. A high dipole moment is seen in regioregular polymers, which have a tighter interchain stacking that promotes the formation of a morphology in bulk heterojunction blends with improved power conversion efficiencies. Aliphatic side chain substitution is systematically varied to understand the influence of side chain length and symmetry on the morphology and resultant performance. This side chain modification is found to influence crystal orientation and the phase separated morphology. Using the asymmetric side chain substitution with regioregularity of the main chain, an optimized power conversion efficiency of 9.06% is achieved, with an open circuit voltage of 0.72 V, a short circuit current of 19.63 mA cm?2, and a fill factor over 65%. These results demonstrate that the local chemical environment can dramatically influence the physical properties of the resultant material. 相似文献
188.
Duncan J. Woods Reiner Sebastian Sprick Charlotte L. Smith Alexander J. Cowan Andrew I. Cooper 《Liver Transplantation》2017,7(22)
Direct photocatalytic water splitting is an attractive strategy for clean energy production, but multicomponent nanostructured systems that mimic natural photosynthesis can be difficult to fabricate because of the insolubility of most photocatalysts. Here, a solution‐processable organic polymer is reported that is a good photocatalyst for hydrogen evolution from water, either as a powder or as a thin film, suggesting future applications for soluble conjugated organic polymers in multicomponent photocatalysts for overall water splitting. 相似文献
189.
Lisa Åkerlund Rikard Emanuelsson Stéven Renault Hao Huang Daniel Brandell Maria Strømme Martin Sjödin 《Liver Transplantation》2017,7(20)
An organic cathode material based on a copolymer of poly(3,4‐ethylenedioxythiophene) containing pyridine and hydroquinone functionalities is described as a proton trap technology. Utilizing the quinone to hydroquinone redox conversion, this technology leads to electrode materials compatible with lithium and sodium cycling chemistries. These materials have high inherent potentials that in combination with lithium give a reversible output voltage of above 3.5 V (vs Li0/+) without relying on lithiation of the material, something that is not showed for quinones previously. Key to success stems from coupling an intrapolymeric proton transfer, realized by an incorporated pyridine proton donor/acceptor functionality, with the hydroquinone redox reactions. Trapping of protons in the cathode material effectively decouples the quinone redox chemistry from the cycling chemistry of the anode, which makes the material insensitive to the nature of the electrolyte cation and hence compatible with several anode materials. Furthermore, the conducting polymer backbone allows assembly without any additives for electronic conductivity. The concept is demonstrated by electrochemical characterization in several electrolytes and finally by employing the proton trap material as the cathode in lithium and sodium batteries. These findings represent a new concept for enabling high potential organic materials for the next generation of energy storage systems. 相似文献
190.