The Location and Protection Status of Earth’s Diminishing Marine Wilderness

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A Plausible Microtubule-Based Mechanism for Cell Division Orientation in Plant Embryogenesis

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John Kendrew and myoglobin: Protein structure determination in the 1950s

The essay reviews John Kendrew's pioneering work on the structure of myoglobin for which he shared the Nobel Prize for Chemistry in 1962. It reconstructs the status of protein X‐ray crystallography at the time Kendrew entered the field in 1945, after distinctive service in operational research during the war. It reflects on the choice of sperm whale myoglobin as research material. In particular, it highlights Kendrew's early use of digital electronic computers for crystallographic computations and the marshaling of other tools and approaches that made it possible to solve the structure at increasing resolution. The essay further discusses the role of models in structure resolution and their broader reception. It ends by briefly reviewing Kendrew's other contributions in the formation and institutionalization of molecular biology.     

《生物信息学》课程教学模式探讨

在教学实践的基础上,结合生物信息学课程的学科特点,以及现代教育技术,就开设生物信息学课程的必要性及构建最合适的复合型教育模式展开了初步的探讨,为我国生物信息学课程的教学实施提供指导。随着时代的不断进步和发展,生物信息学的内涵也在不断扩大,包括生物信息学所涉及到的计算机基础知识、生物学基础知识、生物信息学研究领域、生物信息学应用领域等等。在生物信息学的教学实施过程中,将多个基础学科交叉融合是必备的,这不仅有助于增强学生对生物信息学科的了解,也对于学生在后续的生物信息学研究中起到了基石的作用。因此,如何将这些涉及范围广、涉及内容深的生物信息学基础课程恰当的传授给学生是教师们最需要考虑的问题,从而形成一套独特的教学体系,使生物信息学的教学工作更顺利,完整的进行下去。     

Mechanisms underlying insect freeze tolerance

Freeze tolerance – the ability to survive internal ice formation – has evolved repeatedly in insects, facilitating survival in environments with low temperatures and/or high risk of freezing. Surviving internal ice formation poses several challenges because freezing can cause cellular dehydration and mechanical damage, and restricts the opportunity to metabolise and respond to environmental challenges. While freeze‐tolerant insects accumulate many potentially protective molecules, there is no apparent ‘magic bullet’ – a molecule or class of molecules that appears to be necessary or sufficient to support this cold‐tolerance strategy. In addition, the mechanisms underlying freeze tolerance have been minimally explored. Herein, we frame freeze tolerance as the ability to survive a process: freeze‐tolerant insects must withstand the challenges associated with cooling (low temperatures), freezing (internal ice formation), and thawing. To do so, we hypothesise that freeze‐tolerant insects control the quality and quantity of ice, prevent or repair damage to cells and macromolecules, manage biochemical processes while frozen/thawing, and restore physiological processes post‐thaw. Many of the molecules that can facilitate freeze tolerance are also accumulated by other cold‐ and desiccation‐tolerant insects. We suggest that, when freezing offered a physiological advantage, freeze tolerance evolved in insects that were already adapted to low temperatures or desiccation, or in insects that could withstand small amounts of internal ice formation. Although freeze tolerance is a complex cold‐tolerance strategy that has evolved multiple times, we suggest that a process‐focused approach (in combination with appropriate techniques and model organisms) will facilitate hypothesis‐driven research to understand better how insects survive internal ice formation.     

Testing MacArthur's minimisation principle: do communities minimise energy wastage during succession?

Robert MacArthur developed a theory of community assembly based on competition. By incorporating energy flow, MacArthur's theory allows for predictions of community function. A key prediction is that communities minimise energy wastage over time, but this minimisation is a trade‐off between two conflicting processes: exploiting food resources, and maintaining low metabolism and mortality. Despite its simplicity and elegance, MacArthur's principle has not been tested empirically despite having long fascinated theoreticians. We used a combination of field chronosequence experiments and laboratory assays to estimate how the energy wastage of a community changes during succession. We found that older successional stages wasted more energy in maintenance, but there was no clear pattern in how communities of different age exploited food resources. We identify several reasons for why MacArthur's original theory may need modification and new avenues to further explore community efficiency, an understudied component of ecosystem functioning.     

鲍曼不动杆菌基因分型技术的研究进展

鲍曼不动杆菌为非发酵糖类革兰阴性杆菌,具有强大的获得耐药性和克隆传播的能力,广泛分布于医院环境,是医院内感染的重要病原菌之一。因此,建立精准、高效的鲍曼不动杆菌基因分型技术,是开展其医院内感染流行病学研究和临床防控的重要工具。本文就近年来鲍曼不动杆菌基因分型技术的研究进展进行综述,并分析比较多种基因分型技术的原理、优点、局限性及应用范围。