Characterizing the impacts of highway pavement in a newly planned greater bay area economic belt in China

The International Journal of Life Cycle Assessment - As an ambitious strategy of national interest in China and with an aim at achieving the ‘one-hour economic circle’ among Greater Bay...     

Rpf蛋白：一种激活休眠状态放线菌的复苏促进因子

放线菌能产生多样性丰富的小分子化合物,但大多数放线菌因为处于“活的尚未培养”状态而无法分离培养。造成“活的尚未培养”状态的原因之一可能是由于一些环境因素,例如有机物、重金属、抗生素等胁迫使细胞处于休眠保护状态,直到遇到适宜的条件才能继续复苏生长。复苏促进因子（Resuscitation-Promoting Factor,Rpf）是由某些放线菌分泌的一类蛋白质,首次在藤黄微球菌（Micrococcus luteus）中发现,之后人们对Rpf蛋白的功能和分布给予了更多的关注。Rpf蛋白能促进一些休眠的革兰氏阳性细菌复苏,这为“活的尚未培养”放线菌的分离培养提供了可能性。同时,针对一些致病放线菌物种,开发Rpf蛋白抑制物为相关疾病的治疗也提供了一条新的途径。基于此,本文对Rpf蛋白的结构组成、特征功能、作用机制及应用前景进行了简要的概述。     

Revisiting influenza A virus life cycle from a perspective of genome balance

Influenza A virus (IAV) genome comprises eight negative-sense RNA segments, of which the replication is well orchestrated and the delicate balance of multiple segments are dynamically regulated throughout IAV life cycle. However, previous studies seldom discuss these balances except for functional hemagglutinin-neuraminidase balance that is pivotal for both virus entry and release. Therefore, we attempt to revisit IAV life cycle by highlighting the critical role of "genome balance". Moreover, we raise a "balance regression" model of IAV evolution that the virus evolves to rebalance its genome after reassortment or interspecies transmission, and direct a "balance compensation" strategy to rectify the "genome imbalance" as a result of artificial modifications during creation of recombinant IAVs. This review not only improves our understanding of IAV life cycle, but also facilitates both basic and applied research of IAV in future.