黑线姬鼠华北亚种与长江亚种几项生化指标的比较观察

黑线姬鼠(Apodemus agrarius Pallas)在我国分布广泛,是大部分地区的主要农田害鼠,它传播多种疾病,是流行性出血热病毒的主要携带者。国内外学者对我国黑线姬鼠的分类、分布、数量变动、生活习性等进行过一些研究,但对黑线姬鼠许多生化指标的研究尚未见报道。     

间充质干细胞促进脐带血干细胞体外扩增的研究进展

非亲缘脐带血移植是治疗造血系统疾病的重要移植方式之一,但脐带血移植面临的最大挑战是造血干细胞(HSCs)数量不足,特别是成人患者受到脐带血干细胞数量的限制,导致造血及免疫恢复延迟,非复发死亡率升高。体外扩增脐带血HSCs(UCB-HSCs)是解决该问题的途径之一。研究发现可以通过模拟骨髓造血龛(niche)这一生态位使HSCs在体外进行自我更新增殖,而间充质干细胞(MSCs)正是造血龛的重要的组成细胞之一。本文将探讨MSCs在UCB-HSCs体外扩增中的应用。重点以MSCs促造血的特点、机制,促进脐带血干细胞增殖的各种策略以及其临床应用和前景做一综述。     

利用CRISPR/Cas9n double nick系统构建人DNAH2基因敲除的U2OS细胞株

基于CRISPR/Cas9n double nick技术构建人DNAH2(Homo sapiens dynein,axonemal,heavy chain 2)基因敲除的U2OS稳定细胞株,旨在研究DNAH2基因的生物学功能。首先设计并合成A、B两个sg RNA(Single guide RNA)以及各自的互补链,退火连接形成DNAH2 sg RNA-A、B双链,再分别与带有BbsⅠ粘性末端的p X462线性载体相连,形成p X462-DNAH2-A、p X462-DNAH2-B重组真核表达质粒。质粒共转染至U2OS细胞后,加入嘌呤霉素,以有限稀释法获得阳性单克隆细胞株,再以蛋白印迹实验检测DNAH2蛋白的表达,最后通过PCR-基因测序技术分析突变特点。结果显示A、B sg RNA双链成功插入p X462载体,U2OS-DNAH2-KO单克隆细胞株中DNAH2蛋白不表达,DNAH2基因发生移码突变,从而证实利用CRISPR/Cas9n double nick系统成功构建人DNAH2基因敲除的U2OS稳定细胞株,为研究DNAH2基因提供有利工具。     

Bioinformatics analysis of proteomic profiles during the process of anti-Thy1 nephritis

Anti-Thy1 nephritis is a well-established experimental mesangial proliferative nephritis model. Exploring the molecular mechanisms of pathophysiology in anti-Thy1 nephritis may elucidate the pathogeneses of mesangial proliferation. We examined the roles and acting mechanisms of differentially expressed proteins (DEPs) by bioinformatics analysis of glomeruli proteomic profiles during the course of anti-Thy1 nephritis. In total, 108 DEPs were found by two-dimensional fluorescence difference gel electrophoresis (2D-DIGE), and 40 DEPs were identified by matrix-assisted laser desorption ionization/time of flight and liquid chromatography-MS. DEPs were classified into five clusters (Clusters 1-5), according to their expression trends using Cluster 3.0 software, involved in regulating biological processes such as the stress response, cell proliferation, apoptosis, energy metabolism, transport, and the actin cytoskeleton. The expression patterns of ten DEPs, distributed across five clusters, including AKR1A1, AGAT, ATP6V1B2, HIBADH, MDH1, MPST, NIT2, PRDX6, PSMB7, and TPI1, were validated by Western blotting. Based on Western blotting and immunohistochemistry, we also found that the DEP FHL2, which was primarily expressed in the mesangial region, was down-regulated on days 3 and 5, and up-regulated on day 10. In vitro, we found that FHL2 overexpression induced mesangial cell proliferation by increasing the number of S-phase cells and decreasing G2/M-phase cells, whereas inhibiting FHL2 had the opposite effect. This study explored novel DEPs and their expression patterns during anti-Thy1 nephritis, and elucidated FHL2's effect on mesangial cell proliferation. These results will contribute to our understanding of the pathogenesis of mesangial proliferation.     

太行山猕猴髋臼性别二态性研究

本文使用几何形态测量法探讨42例成年太行山猕猴Macaca mulatta tcheliensis髋臼的性别二态性。结果显示,太行山猕猴雌雄个体的髋臼形态具有明显的性别二态性,利用髋臼可以正确判别92.3%的雌性和87.5%的雄性个体。髋臼的形态差异主要分布于月状面的后上部,即与髋臼切迹相对的月状面区域的宽度表现为雄性大于雌性,另外雄性髋臼大小的波动范围也比雌性更广。造成髋臼性别二态性的生物学原因可能与其功能有关,髋臼作为髋关节的组成部分,起着支撑身体和协同运动的功能,能够优化关节接触面的压力分布。推测雄性髋臼受到的体质量压力更大可能是雄性进化出比雌性更宽大的月状面的主要原因。     

麻疹疫苗生产连续培养多次收获工艺研究

本研究对连续培养多次收获工艺用于麻疹疫苗生产的可行性、疫苗维持液保护剂、冻干保护剂及冻干过程等进行了大量反复试验,结果表明在现行条件下,本生产工艺具有重复性好、成本低、投入产出率高、易于质量控制等优势。对本工艺生产疫苗进行全面检定,表明成品滴度和稳定性试验指标等均高于９０版《生物制品规程》要求,并在试验基础上制定出了生产工艺流程。     

The Cholinesterase-like Domain, Essential in Thyroglobulin Trafficking for Thyroid Hormone Synthesis, Is Required for Protein Dimerization

The carboxyl-terminal cholinesterase-like (ChEL) domain of thyroglobulin (Tg) has been identified as critically important in Tg export from the endoplasmic reticulum. In a number of human kindreds suffering from congenital hypothyroidism, and in the cog congenital goiter mouse and rdw rat dwarf models, thyroid hormone synthesis is inhibited because of mutations in the ChEL domain that block protein export from the endoplasmic reticulum. We hypothesize that Tg forms homodimers through noncovalent interactions involving two predicted α-helices in each ChEL domain that are homologous to the dimerization helices of acetylcholinesterase. This has been explored through selective epitope tagging of dimerization partners and by inserting an extra, unpaired Cys residue to create an opportunity for intermolecular disulfide pairing. We show that the ChEL domain is necessary and sufficient for Tg dimerization; specifically, the isolated ChEL domain can dimerize with full-length Tg or with itself. Insertion of an N-linked glycan into the putative upstream dimerization helix inhibits homodimerization of the isolated ChEL domain. However, interestingly, co-expression of upstream Tg domains, either in cis or in trans, overrides the dimerization defect of such a mutant. Thus, although the ChEL domain provides a nidus for Tg dimerization, interactions of upstream Tg regions with the ChEL domain actively stabilizes the Tg dimer complex for intracellular transport.The synthesis of thyroid hormone in the thyroid gland requires secretion of thyroglobulin (Tg)² to the apical luminal cavity of thyroid follicles (1). Once secreted, Tg is iodinated via the activity of thyroid peroxidase (2). A coupling reaction involving a quinol-ether linkage especially engages di-iodinated tyrosyl residues 5 and 130 to form thyroxine within the amino-terminal portion of the Tg polypeptide (3, 4). Preferential iodination of Tg hormonogenic sites is dependent not on the specificity of the peroxidase (5) but upon the native structure of Tg (6, 7). To date, no other thyroidal proteins have been shown to effectively substitute in this role for Tg.The first 80% of the primary structure of Tg (full-length murine Tg: 2,746 amino acids) involves three regions called I-II-III comprised of disulfide-rich repeat domains held together by intradomain disulfide bonds (8, 9). The final 581 amino acids of Tg are strongly homologous to acetylcholinesterase (10–12). Rate-limiting steps in the overall process of Tg secretion involve its structural maturation within the endoplasmic reticulum (ER) (13). Interactions between regions I-II-III and the cholinesterase-like (ChEL) domain have recently been suggested to be important in this process, with ChEL functioning as an intramolecular chaperone and escort for I-II-III (14). In addition, Tg conformational maturation culminates in Tg homodimerization (15, 16) with progression to a cylindrical, and ultimately, a compact ovoid structure (17–19).In human congenital hypothyroidism with deficient Tg, the ChEL domain is a commonly affected site of mutation, including the recently described A2215D (20, 21), R2223H (22), G2300D, R2317Q (23), G2355V, G2356R, and the skipping of exon 45 (which normally encodes 36 amino acids), as well as the Q2638stop mutant (24) (in addition to polymorphisms including P2213L, W2482R, and R2511Q that may be associated with thyroid overgrowth (25)). As best as is currently known, all of the congenital hypothyroidism-inducing Tg mutants are defective for intracellular transport (26). A homozygous G2300R mutation (equivalent to residue 2,298 of mouse Tg) in the ChEL domain is responsible for congenital hypothyroidism in rdw rats (27, 28), whereas we identified the Tg-L2263P point mutation as the cause of hypothyroidism in the cog mouse (29). Such mutations perturb intradomain structure (30), and interestingly, block homodimerization (31). Acquisition of quaternary structure has long been thought to be required for efficient export from the ER (32) as exemplified by authentic acetylcholinesterase (33, 34) in which dimerization enhances protein stability and export (35).Tg comprised only of regions I-II-III (truncated to lack the ChEL domain) is blocked within the ER (30), whereas a secretory version of the isolated ChEL domain of Tg devoid of I-II-III undergoes rapid and efficient intracellular transport and secretion (14). A striking homology positions two predicted α-helices of the ChEL domain to the identical relative positions of the dimerization helices in acetylcholinesterase. This raises the possibility that ChEL may serve as a homodimerization domain for Tg, providing a critical function in maturation for Tg transport to the site of thyroid hormone synthesis (1).In this study, we provide unequivocal evidence for homodimerization of the ChEL domain and “hetero”-dimerization of that domain with full-length Tg, and we provide significant evidence that the predicted ChEL dimerization helices provide a nidus for Tg assembly. On the other hand, our data also suggest that upstream Tg regions known to interact with ChEL (14) actively stabilize the Tg dimer complex. Together, I-II-III and ChEL provide unique contributions to the process of intracellular transport of Tg through the secretory pathway.     

Predicting the responses of forest distribution and aboveground biomass to climate change under RCP scenarios in southern China

In the past three decades, our global climate has been experiencing unprecedented warming. This warming has and will continue to significantly influence the structure and function of forest ecosystems. While studies have been conducted to explore the possible responses of forest landscapes to future climate change, the representative concentration pathways (RCPs) scenarios under the framework of the Coupled Model Intercomparison Project Phase 5 (CMIP5) have not been widely used in quantitative modeling research of forest landscapes. We used LANDIS‐II, a forest dynamic landscape model, coupled with a forest ecosystem process model (PnET‐II), to simulate spatial interactions and ecological succession processes under RCP scenarios, RCP2.6, RCP4.5 and RCP8.5, respectively. We also modeled a control scenario of extrapolating current climate conditions to examine changes in distribution and aboveground biomass (AGB) among five different forest types for the period of 2010–2100 in Taihe County in southern China, where subtropical coniferous plantations dominate. The results of the simulation show that climate change will significantly influence forest distribution and AGB. (i) Evergreen broad‐leaved forests will expand into Chinese fir and Chinese weeping cypress forests. The area percentages of evergreen broad‐leaved forests under RCP2.6, RCP4.5, RCP8.5 and the control scenarios account for 18.25%, 18.71%, 18.85% and 17.46% of total forest area, respectively. (ii) The total AGB under RCP4.5 will reach its highest level by the year 2100. Compared with the control scenarios, the total AGB under RCP2.6, RCP4.5 and RCP8.5 increases by 24.1%, 64.2% and 29.8%, respectively. (iii) The forest total AGB increases rapidly at first and then decreases slowly on the temporal dimension. (iv) Even though the fluctuation patterns of total AGB will remain consistent under various future climatic scenarios, there will be certain responsive differences among various forest types.     

高等植物局部生长素合成的生物学功能及其调控机制

局部生长素合成是目前植物生长素研究领域中的重要热点之一, 受内源发育信号和外界环境因子的时空调控。局部生长素合成在植物配子体发生、胚胎与果实发育、器官发生、向性生长和逆境响应中具有重要的生物学功能。该文在扼要介绍生长素局部合成与顶端合成、极性运输及其稳态之间互作的基础上, 重点介绍了近年来有关局部生长素合成的生物学功能及其调控机制的最新进展。