细菌对喹诺酮类抗菌药的分子耐药机制

喹诺酮类是目前临床上应用较多的抗菌药。然而,喹诺酮类耐药菌时有出现。就细菌对喹诺酮类抗菌药主要耐药机制从分子水平作一综述。(1)一般认为,喹诺酮类抗菌药通过结合细菌Ⅱ类拓扑异构酶,干扰细菌复制,而发挥抑菌作用。Ⅱ类拓扑异构酶变异时,细菌可逃脱喹诺酮类的抑菌作用。高水平的耐药由DNA回旋酶和拓扑异构酶Ⅳ同时发生变异造成。(2)细菌细胞壁是抗菌药进入的屏障。细胞壁组分脂多糖和孔蛋白的改变,可减少喹诺酮类的通透。(3)有些细菌可利用“外排泵”主动将喹诺酮类排出,降低喹诺酮类在菌体内的积累浓度。(4)细菌的其他一些代谢因素也可影响喹诺酮类的抑菌作用。     

HCMV IE2-mediated inhibition of HAT activity downregulates p53 function

Targeting of cellular histone acetyltransferases (HATs) by viral proteins is important in the development of virus-associated diseases. The immediate-early 2 protein (IE2) of human cytomegalovirus (HCMV) binds to the tumor suppressor, p53, and inactivates its functions by unknown mechanisms. Here, we show that IE2 binds to the HAT domain of the p53 coactivators, p300 and CREB-binding protein (CBP), and blocks their acetyltransferase activity on both histones and p53. The minimal HAT inactivation region on IE2 involves the N-terminal 98 amino acids. The in vivo DNA binding of p53 and local histone acetylation on p53-dependent promoters are all reduced by IE2, but not by mutant IE2 proteins that lack the HAT inhibition region. Furthermore, the p53 acetylation site mutant, K320/373/382R, retains both DNA binding and promoter transactivation activity in vivo and these effects are repressed by IE2 as well. Together with the finding that only wild-type IE2 exerts an antiapoptotic effect, our results suggest that HCMV IE2 downregulates p53-dependent gene activation by inhibiting p300/CBP-mediated local histone acetylation and that IE2 may have oncogenic activity.     

不同条件下两株溶磷菌溶磷量及葡萄糖脱氢酶基因表达与酶活分析北大核心CSCD

【目的】获得大豆根际土壤中溶磷能力较强的菌株,明确在菌株溶磷过程中葡萄糖脱氢酶(GDH)的作用特点及其基因的表达水平。【方法】利用溶磷圈方法分离与纯化溶磷菌株,采用Vitek 2系统和16S r RNA序列分析菌株的分类地位;测定2菌株的溶磷量、GDH活性,并根据GDH基因的保守区序列设计引物,克隆GDH基因,利用实时荧光定量PCR测定不同条件下基因的相对表达量。【结果】筛选出2株具有较强溶磷能力的溶磷菌,分别鉴定为Pseudomonas sp.和Enterobacter sp.,2菌株最高溶磷量分别为558μg/m L和478μg/m L;成功地克隆了2株溶磷菌的GDH基因,片段大小分别为2007 bp和2066 bp;2菌株在不同磷源、不同p H值培养基中GDH活性及基因表达量不同,菌株wj1在高磷条件下基因表达量最高,磷胁迫条件下基因表达量较低,而wj3在不同磷源条件下GDH基因表达量都较低。且GDH基因表达量及酶活的变化与wj3菌株溶磷量没有直接的关系。【结论】从大豆根际土壤中分离获得溶磷能力较强的菌株Pseudomonas sp.wj1和Enterobacter sp.Wj3,GDH活性及基因表达在2株菌溶磷过程中具有不同的作用特点,2菌株溶磷机制不完全相同。     

观赏羽衣甘蓝SSR标记分型与亲缘关系研究

观赏羽衣甘蓝凭借优良的观赏特性和抗逆性已经成为重要的冷季观赏植物。国内观赏羽衣甘蓝育种起步较晚,并且缺乏对种质资源遗传背景的系统研究。本研究应用SSR标记对不同类型的观赏羽衣甘蓝材料进行标记分型和亲缘关系分析。从99对均匀分布于甘蓝基因组的SSR引物中筛选出46对多态性好的引物,对27份不同类型的观赏羽衣甘蓝材料进行标记分型,共扩增出210个多态性位点,平均PIC值为0.58。进一步利用标记分型结果进行STRUCTURE群体结构、UPGMA聚类和聚类热图分析,结果显示3种分析结果基本一致,可以将27份材料分为圆叶、羽叶和皱叶3种类型,其中圆叶和羽叶类型的亲缘关系更近,与皱叶类型的亲缘关系较远;STRUCTURE分析还可以将双亲为不同类型的杂交种材料进行区分;聚类热图分析可以将标记分型结果形象的展示出来。本研究为进一步建立观赏羽衣甘蓝分子指纹图谱,明确种质资源的遗传背景,建立观赏羽衣甘蓝分子标记辅助选择育种体系,培育具有自主知识产权的新品种奠定基础。     

Oxidative stress and NF-κB signaling are involved in LPS induced pulmonary dysplasia in chick embryos

Inflammation or dysbacteriosis-derived lipopolysaccharides (LPS) adversely influence the embryonic development of respiratory system. However, the precise pathological mechanisms still remain to be elucidated. In this study, we demonstrated that LPS exposure caused lung maldevelopment in chick embryos, including higher embryo mortality, increased thickness of alveolar gas exchange zone, and accumulation of PAS⁺ immature pulmonary cells, accompanied with reduced expression of alveolar epithelial cell markers and lamellar body count. Upon LPS exposure, pulmonary cell proliferation was significantly altered and cell apoptosis was inhibited as well, indicating a delayed progress of pulmonary development. LPS treatment also resulted in reduced CAV-1 expression and up-regulation of Collagen I, suggesting increased lung fibrosis, which was verified by Masson staining. Moreover, LPS induced enhanced Nrf2 expression in E18 lungs, and the increased reactive oxygen species (ROS) production was confirmed in MLE-12 cells in vitro. Antioxidant vitamin C restored the LPS induced down-regulation of ABCA3, SP-C and GATA-6 in MLE-12 cells. Furthermore, LPS induced activation of NF-κB signaling in MLE-12 cells, and the LPS-induced decrease in SP-C expression was partially abrogated by blocking NF-κB signaling with Bay-11–7082. Bay-11–7082 also inhibited LPS-induced increases of ROS and Nrf2 expression. Taken together, we have demonstrated that oxidative stress and NF-κB signaling are involved in LPS induced disruption of pulmonary cell development in chick embryos.     

Comparison of tRNA motions in the free and ribosomal bound structures

A general method is presented that allows the separation of the rigid body motions from the nonrigid body motions of structural subunits when bound in a complex. The application presented considers the motions of the tRNAs: free, bound to the ribosome and to a synthase. We observe that both the rigid body and nonrigid body motions of the structural subunits are highly controlled by the large ribosomal assembly and are important for the functional motions of the assembly. For the intact ribosome, its major parts, the 30S and the 50S subunits, are found to have counterrotational motions in the first few slowest modes, which are consistent with the experimentally observed ratchet motion. The tRNAs are found to have on average approximately 72-75% rigid body motions and principally translational motions within the first 100 slow modes of the complex. Although the three tRNAs exhibit different apparent total motions, after the rigid body motions are removed, the remaining internal motions of all three tRNAs are essentially the same. The direction of the translational motions of the tRNAs are in the same direction as the requisite translocation step, especially in the first slowest mode. Surprisingly the small intrinsically flexible mRNA has all of its internal motions completely inhibited and shows mainly a rigid-body translation in the slow modes of the ribosome complex. On the other hand, the required nonrigid body motions of the tRNA during translocation reveal that the anticodon-stem-loop, as well as the acceptor arm, of the tRNA enjoy a large mobility but act as rigid structural units. In summary, the ribosome exerts its control by enforcing rigidity in the functional parts of the tRNAs as well as in the mRNA.     

Electron microscopic examination of the orexin immunoreactivity in the dorsal raphe nucleus

The ultrastructure and the synaptic relationships of the orexin-A-like immunoreactive fibers in the dorsal raphe nucleus were examined with an immunoelectron microscopic method. At the electron microscopic level, most of the immunoreactive fibers, a varicosity appearance at the light microscopic level, were found as axon terminals. The large dense-cored vesicles contained in the immunoreactive axon terminals were the most intensely immunostained organellae. These axon terminals were often found to make synapses. While the axo-dendritic synapses were usually asymmetric in appearance, the axo-somatic synapses were symmetric. Orexin-A-like immunoreactive processes with no synaptic vesicles were also found. These processes often received asymmetric synapses. With less frequency, the synapses were found between the orexin-like immunoreactive processes. The results suggest that the orexin peptides are stored in the large dense-cored vesicles; the orexin-containing fibers may have influences on the physiological activities of the dorsal raphe nucleus through direct synaptic relationships.     

蛇毒类凝血酶calobin在毕赤酵母中的表达

蛇毒类凝血酶是临床上防治血栓栓塞性疾病的有效药物。参照朝鲜蝮蛇(Agkistrodon caliginosus,Korean Viper)类凝血酶calobin基因序列(GenBank AccessionNo.U32937.1),将人工合成的calobin基因克隆到酵母表达载体pPICZαA,于毕赤酵母中表达,得到了分子量约为32kD的重组calobin蛋白,经甲醇诱导培养,表达产物可获得3.5g/L的高表达量。重组蛋白经过阴离子交换柱Q-Sepharose Fast Flow和分子筛Sephacryl-S-100凝胶过滤层析等纯化步骤进行了初步纯化。纯化后的重组calobin可以在纤维蛋白原平板上形成水解圈,经SDS-PAGE实验显示,重组蛋白能水解纤维蛋白原的Aα链,产生一条约40kD左右的降解带。在实验中未能发现重组calobin对纤维蛋白原的凝固作用。