New archisargids from China (Insecta: Diptera)

The extinct family Archisargidae, which was rich in the Mesozoic, has been found in China, Kazakhstan and Mongolia. By now, six genera and 14 species have been found in Inner Mongolia and Liaoning Province of China. In this paper, two new species of the genus Mesosolva Hong, 1983 and a new genus Brevisolva gen. nov., represented by a new species belonging to the Archisargidae, are described from the Middle Jurassic deposits of Daohugou, Inner Mongolia. A key to the species of Mesosolva is given.     

Middle Jurassic fossils of the genus Sharasargus from Inner Mongolia, China (Diptera: Archisargidae)

To date, only two species of the genus Sharasargus are known. These Upper Jurassic species were found in Mongolia and Kazakhstan, respectively. We herein describe two new species from the Middle Jurassic, which were found in Inner Mongolia, China. They are the oldest known fossils of this genus. A key to Sharasargus species is given.     

几种离子液体的微波法合成及其对脂肪酶催化效果的影响

采用微波法合成9种目标离子液体,对中间体[Bmim]Br的合成条件及其离子液体对全细胞催化剂催化效果的影响进行考察.直接将产脂肪酶真菌粗状假丝酵母(Candida valida) T2细胞固定在聚氨酯颗粒中,制备固定化细胞催化剂,将其应用于合成离子液体介质中催化甲醇与大豆油酯交换反应制备生物柴油.结果表明:微波功率200 W下间隙照射100 s,中间体[Bmim]Br的收率达95.16%,有效地提高了离子液合成产率;在[Bmim]PF6离子液中固定化细胞酶催化转酯化反应30 h,大豆油的转化率达42%,反应效果较其他8种合成离子液体好;固定化细胞颗粒和[Bmim]PF6重复使用4次,其油脂转化率和酶活保持率分别达到29%和69%,表现出较好的催化反应稳定性.     

Development of a high-resolution molecular marker for tracking Pseudo-nitzschia pungens genetic diversity through comparative analysis of mitochondrial genomes

The harmful algal bloom (HAB) species Pseudo-nitzschia pungens is widely distributed in almost all continents. Accumulating evidence suggests that P. pungens has high genetic diversity and many strains can produce the toxin domoic acid (DA) that harms animals and humans. Nevertheless, different P. pungens strains cannot be distinguished using morphological features or using common molecular markers including 18S rDNA, 28S rDNA, ITS, cox1, and rbcL. As such, high-resolution molecular markers need to be developed to resolve P. pungens genetic diversity, facilitating accurate tracking of toxic P. pungens strains. We hypothesized that molecular markers with high resolution and high specificity can be designed through identifying regions with high genomic variations in the mitochondrial genome. Here, we describe the development of a new molecular marker Pseudo-nitzschia pungens mitochondrial 1 (ppmt1) with high resolution and high specificity through comparative analysis of mitochondrial genomes of nine P. pungens strains isolated from coastal regions of China. In conclusion, we have developed ppmt1 as a high-resolution and high-specificity molecular marker for tracking strains and genetic diversity of the HAB species P. pungens.