Hui‐Meng Lu scite author profile

Comparative analysis of primate genomes within a phylogenetic context is essential for understanding the evolution of human genetic architecture and primate diversity. We present such a study of 50 primate species spanning 38 genera and 14 families, including 27 genomes first reported here, with many from previously less well represented groups, the New World monkeys and the Strepsirrhini. Our analyses reveal heterogeneous rates of genomic rearrangement and gene evolution across primate lineages. Thousands of genes under positive selection in different lineages play roles in the nervous, skeletal, and digestive systems and may have contributed to primate innovations and adaptations. Our study reveals that many key genomic innovations occurred in the Simiiformes ancestral node and may have had an impact on the adaptive radiation of the Simiiformes and human evolution.

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Cycling Temperature Strategy: A Method to Improve the Efficiency of Crystallization Condition Screening of Proteins

Zhang

Yin

et al. 2008

Crystal Growth & Design

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Temperature is generally considered as an important factor in protein crystallization. Such is true because crystals usually grow at a preferable temperature in a certain crystallization solution. If a nonsuitable temperature is used, the solution will not yield crystals. However, it is difficult to decide the best temperature suited for screening the crystallization condition of proteins. In this study, it was found out that, compared to constant temperature, a variation in a reasonable range can result in a more efficient crystallization screening. Using the Sparse Matrix Screen with the screening kit Index, this study tested nine commercially available proteins and proved that, compared to the conventional constant temperature strategy, a varying temperature strategy can actually increase the possibility of obtaining crystals. Consequently, the cycling temperature strategy (CTS) is then proposed to be utilized in most screening tasks when the suitable crystallization temperature is unknown.

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Effect of Audible Sound on Protein Crystallization

Zhang

Wang

Schubert³

et al. 2016

Crystal Growth & Design

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The successful crystallization of proteins is important because their molecular three-dimensional structures can be obtained through X-ray diffraction when in their crystalline form. Investigation of the crystallization process is beneficial for this purpose. We have reported that protein crystallization is sensitive to audible sound, which is commonly present but is often ignored. Here we investigate the effect of audible sound parameters, especially frequency, on a protein crystallization. We show a significant facilitation of protein crystallization using 5000 Hz audible sound, possible mechanism was also tried to be clarified. Suitably controlled audible sound can be beneficial for promoting protein crystallization. Therefore, audible sound can be used as a simple tool to promote protein crystallization. In addition, the processing of other types of materials may also be affected by audible sound.

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A containerless levitation setup for liquid processing in a superconducting magnet

Yin

et al. 2008

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Containerless processing of materials is considered beneficial for obtaining high quality products due to the elimination of the detrimental effects coming from the contact with container walls. Many containerless processing methods are realized by levitation techniques. This paper describes a containerless levitation setup that utilized the magnetization force generated in a gradient magnetic field. It comprises a levitation unit, a temperature control unit, and a real-time observation unit. Known volume of liquid diamagnetic samples can be levitated in the levitation chamber, the temperature of which is controlled using the temperature control unit. The evolution of the levitated sample is observed in real time using the observation unit. With this setup, containerless processing of liquid such as crystal growth from solution can be realized in a well-controlled manner. Since the levitation is achieved using a superconducting magnet, experiments requiring long duration time such as protein crystallization and simulation of space environment for living system can be easily succeeded.

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Hui‐Meng Lu

Recent treatment progress of triple negative breast cancer

Phylogenomic analyses provide insights into primate evolution

Cycling Temperature Strategy: A Method to Improve the Efficiency of Crystallization Condition Screening of Proteins

Effect of Audible Sound on Protein Crystallization

A containerless levitation setup for liquid processing in a superconducting magnet

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