Macrophylloside, a flavone glucoside from Primula macrophylla

A new flavone glucoside macrophylloside has been isolated from the whole plant of Primula macrophylla and its structure was determined by spectroscopic methods as 2′-hydroxy-7-O-β- -glucopyranosyloxyflavone. Sitosterol glucoside was also isolated for the first time from this plant.     

Utilization of siderophores by Candida albicans

Candida albicans secretes both hydroxamate and phenolate-type siderophores when grown under iron-restricted conditions. The inhibition of candidal growth by iron limitation was reversed by the addition of supplemental hydroxamate on phenolate siderophores. Both siderophores produced equal stimulation of growth suggesting that C. albicans could utilize both siderophores with equal efficiency. Addition of heterologous siderophores from both bacteria and fungi also supported growth of the yeast in a deferrated medium. These results suggest that C. albicans has an iron-uptake mechanism which enables it to obtain iron by utilizing candidal and non-candidal siderophores.     

理解运动行为抑制调控的新视角：乙酰胆碱门控氯离子通道受体

Acetylcholine, the first identified neurotransmitter, plays crucial roles in various brain functions. One well-known case is its involvement as an activating neurotransmitter in the regulation of locomotion. However, its inhibitory regulatory role, particularly in locomotion, remains poorly understood. In a study conducted by Polat et al., the authors investigated the inhibitory role of acetylcholine in locomotion in C. elegans. In this organism, the acetylcholine-gated chloride channel receptor consists of four subunits. The authors thoroughly examined the loss-of-function of each subunit in movement regulation. Interestingly, the mutant worms were still capable of performing various movements such as forward, backward crawling, and turning, suggesting that the overall movement was not significantly affected. However, quantitative behavior analysis revealed subtle yet significant differences in the timing and postures of the movement in these mutants. Furthermore, the authors employed optogenetics to stimulate a specific neuron involved in backward crawling and demonstrated that the loss-of-function of the receptors in individual neurons affects the transitioning between locomotion modes. This work provides evidence for the inhibitory regulatory role of acetylcholine in locomotion. The loss-of-function of acetylcholine-gated chloride channel receptors likely disrupts the balance of neuronal and circuit physiology, thereby affecting the regulation of locomotion. Moreover, this study highlights the powerful role of quantitative behavior analysis in discovering and understanding more sophisticated functions of neural circuits.     

Physiology and characterization of a fungal milk-clotting enzyme from Aspergillus flavus.

Aspergillus flavus produced extracellularly an active rennin-like enzyme when grown aerobically in whey media. The enzyme was detected at early stages of growth reaching a maximum after three to four days at 25 degrees. The activity was destroyed by heating to temperatures higher than 50 degrees, whereas the presence of skim milk during heating preserved the enzyme activity, at least, up to 70 degrees. Calcium chloride significantly stimulated the milk-clotting activity up to 1% final concentration. The clotting time was inversely proportional to protein concentration in the range 0.2-0.6 mg/ml and the enzyme exhibited marked stability when stored at 37 degrees at pH 6.     

World Dengue Day: A call for action

Commemorating the 2021 ASEAN Dengue Day and advocacy for World Dengue Day, the International Society for Neglected Tropical Diseases (ISNTD) and Asian Dengue Voice and Action (ADVA) Group jointly hosted the ISNTD-ADVA World Dengue Day Forum–Cross Sector Synergies in June 2021. The forum aimed to achieve international and multisectoral coordination to consolidate global dengue control and prevention efforts, share best practices and resources, and improve global preparedness. The forum featured experts around the world who shared their insight, research experience, and strategies to tackle the growing threat of dengue. Over 2,000 healthcare care professionals, researchers, epidemiologists, and policy makers from 59 countries attended the forum, highlighting the urgency for integrated, multisectoral collaboration between health, environment, education, and policy to continue the march against dengue. Sustained vector control, environmental management, surveillance improved case management, continuous vaccine advocacy and research, capacity building, political commitment, and community engagement are crucial components of dengue control. A coordinated strategy based on science, transparency, timely and credible communication, and understanding of human behavior is needed to overcome vaccine hesitancy, a major health risk further magnified by the COVID-19 pandemic. The forum announced a strong call to action to establish World Dengue Day to improve global awareness, share best practices, and prioritize preparedness in the fight against dengue.     

瘦蛋白与皮肤创伤愈合

自1994年瘦蛋白（leptin）被发现以来,其生理作用得到广泛的研究。近年的研究表明,在高等动物的皮肤创伤愈合过程中,胶原与血管的生成、肉芽组织与上皮的再生以及组织的重建等因子,对皮肤的创伤愈合发挥着至关重要的作用,了解瘦蛋白与上述因子之间的相互关系与作用机制,有助于指导治疗,改善预后。     

Protein kinase C and leucine metabolism in intestinal crypt cells

Intestinal cells were separated into fractions rich in villous or crypt cells. Alkaline phosphatase, present in villous cells, but absent from crypt cells, was used as a marker. Crypt cells were 3-6 times as active as villous cells in the metabolism of leucine or mevalonate. The previously reported stimulatory effect of albumin was twice as strong in crypt cells as that in villous cells. Reduced glutathione, spermidine HCl and ethanolamine (0.5-10 mM) did not replace albumin, the effect of which was maximal at 0.02 mM. Protein kinase C was shown to be present mainly in crypt cells.     

全球啄木鸟濒危格局及研究现状

啄木鸟科物种作为初级洞巢者与蛀干害虫控制者,对森林高度依赖,是森林生态系统重要的伞护种和环境指示物种。自20世纪以来,由于全球范围的栖息地丧失和片段化,啄木鸟科物种的森林生境急剧萎缩,威胁着该类群物种的生存和繁衍。为探究啄木鸟科动物濒危情况和研究现状,本研究利用世界自然保护联盟濒危物种红色名录(IUCN Red List)和国际鸟盟(BirdLife International)在线数据库,检索并整理出1988年到2023年以下内容：(1)全球啄木鸟的物种数、濒危等级及其变化情况;(2)各大洲的啄木鸟物种数及其受威胁物种的比例;(3)啄木鸟的主要威胁因素;(4)通过Google学术搜索等方式检索并统计啄木鸟相关文章的研究内容。结果显示：(1)目前现存254种啄木鸟,33年间全球受威胁啄木鸟由7种增加至18种,受威胁物种数占当年已命名啄木鸟物种数的比例由3.4%上升至7.0%。(2)亚洲、南美洲和北美洲各分布了83种、93种和56种啄木鸟,受威胁物种占比分别为12.0%、6.4%、5.3%。非洲和欧洲分别分布了36种和11种啄木鸟,当前没有受威胁物种。(3)农业和生物资源利用以及放牧是啄木鸟的主要威胁因素。(4)共检索到研究啄木鸟的有关文章1 024篇,研究覆盖了140种啄木鸟,其中,文章数最多的物种是红顶啄木鸟(Leuconotopicus borealis)(162篇)。研究主要集中在巢相关特征(129篇)、生境选择特征(122篇)、取食行为(112篇)、繁殖行为(99篇)和种群状况(66篇)等基础生态学内容。这些研究为啄木鸟生物学、生态学积累了一定的基础,但物种覆盖程度还远远不够。在生物多样性急剧丧失的大背景下,亟需开展更为广泛和深入的研究。本研究对全球啄木鸟的濒危格局与研究现状进行了全面的分析,以期为后续啄木鸟的研究与保护工作提供参考。