Overexpression of Sedum SpHMA2, SpHMA3 and SpNramp6 in Brassica napus increases multiple heavy metals accumulation for phytoextraction.

Phytoextraction is an environmentally friendly phytoremediation technology that can reduce the total amount of heavy metals (HMs) in the soil. Hyperaccumulators or hyperaccumulating transgenic plants with biomass are important biomaterials for phytoextraction. In this study, we show that three different HM transporters from the hyperaccumulator Sedum pumbizincicola, SpHMA2, SpHMA3, and SpNramp6, possess Cd transport. These three transporters are located at the plasma membrane, tonoplast, and plasma membrane, respectively. Their transcripts could be strongly stimulated by multiple HMs treatments. To create potential biomaterials for phytoextraction, we overexpressed the three single genes and two combining genes, SpHMA2&SpHMA3 and SpHMA2&SpNramp6, in rapes having high biomass and environmental adaptability, and found that the aerial parts of the SpHMA2-OE3 and SpHMA2&SpNramp6-OE4 lines accumulated more Cd from single Cd-contaminated soil because SpNramp6 transports Cd from root cells to the xylem and SpHMA2 from the stems to the leaves. However, the accumulation of each HM in the aerial parts of all selected transgenic rapes was strengthened in multiple HMs-contaminated soils, probably due to the synergistic transport. The HMs residuals in the soil after the transgenic plant phytoremediation were also greatly reduced. These results provide effective solutions for phytoextraction in both Cd and multiple HMs-contaminated soils.

Progress on research and development in diabetes mellitus.

Diabetes mellitus is a kind of metabolic disease characterized by hyperglycemia resulting from insulin insufficiency and insulin resistance. It has become one of the major diseases threatening human health. In this paper, we analyze the current R&D status of diabetes from the aspects of papers, patents, drugs and industrial development. The results show that scientific outcomes are increasing steadily and the hot topics are diabetic complications and epidemiological research. In terms of technology development, large pharmaceutical companies, such as Janssen Pharmaceutical, Lilly pharmaceutical, Boehringer Ingelheim, are actively engaged in diagnosis, treatment and management of diabetes. By March 23 2022, 207 drugs have been launched and a large number of candidate drugs are in the pre-clinical and clinical stage. In terms of industrial development, the potential diabetes market is huge and the digital management of diabetes is developing rapidly. China has certain strength in diabetes research and development. In the future, measures should be taken to strengthen the transformation of research outcomes, and promote product development to meet China's huge needs of diabetes cares.

Heavy metal transporters: Functional mechanisms, regulation, and application in phytoremediation.

Heavy metal pollution in soil is a global problem with serious impacts on human health and ecological security. Phytoextraction in phytoremediation, in which plants uptake and transport heavy metals (HMs) to the tissues of aerial parts, is the most environmentally friendly method to reduce the total amount of HMs in soil and has wide application prospects. However, the molecular mechanism of phytoextraction is still under investigation. The uptake, translocation, and retention of HMs in plants are mainly mediated by a variety of transporter proteins. A better understanding of the accumulation strategy of HMs via transporters in plants is a prerequisite for the improvement of phytoextraction. In this review, the biochemical structure and functions of HM transporter families in plants are systematically summarized, with emphasis on their roles in phytoremediation. The accumulation mechanism and regulatory pathways related to hormones, regulators, and reactive oxygen species (ROS) of HMs concerning these transporters are described in detail. Scientific efforts and practices for phytoremediation carried out in recent years suggest that creation of hyperaccumulators by transgenic or gene editing techniques targeted to these transporters and their regulators is the ultimate powerful path for the phytoremediation of HM contaminated soils.

[Cell membrane chromatography and its application progress in studies of traditional Chinese medicines].

As a novel bioaffinity chromatography technique, cell membrane chromatography (CMC) was first established by Professor He in 1996, with which combined high performance liquid chromatography, cytobiology, and receptor pharmacology. The cell membrane stationary phase (CMSP) consists of porous silica coated with active cell membranes. By immersing silica into a suspension of cell membranes, the whole surface of silica was covered by the cell membranes. In CMC, the interaction of drugs or compounds with the immobilized cell membrane or its receptors is investigated using liquid chromatography. In general, with the aim to provide scientific foundation for further development and application, this paper mainly focuses on the characteristics of the cell membrane stationary phase (CMSP), the CMC analytical system, and its applications in traditional Chinese medicines (TCMs) about CMC. With the development of CMC, the breakthrough progress of it in studying active components of TCMs field is expectant.