Electron transport pathway for a Streptomyces cytochrome P450: cytochrome P450 105D5-catalyzed fatty acid hydroxylation in Streptomyces coelicolor A3(2)

Streptomyces and other bacterial actinomycete species produce many important natural products, including the majority of known antibiotics, and cytochrome P450 (P450) enzymes catalyze important biosynthetic steps. Relatively few electron transport pathways to P450s have been characterized in bacteria, particularly streptomycete species. One of the 18 P450s in Streptomyces coelicolor A3(2), P450 105D5, was found to bind fatty acids tightly and form hydroxylated products when electrons were delivered from heterologous systems. The six ferredoxin (Fdx) and four flavoprotein Fdx reductase (FDR) proteins coded by genes in S. coelicolor were expressed in Escherichia coli, purified, and used to characterize the electron transfer pathway. Of the many possibilities, the primary pathway was NADH --> FDR1 --> Fdx4 --> P450 105D5. The genes coding for FDR1, Fdx4, and P450 105D5 are located close together in the S. coelicolor genome. Several fatty acids examined were substrates, including those found in S. coelicolor extracts, and all yielded several products. Mass spectra of the products of lauric acid imply the 8-, 9-, 10-, and 11-hydroxy derivatives. Hydroxylated fatty acids were also detected in vivo in S. coelicolor. Rates of electron transfer between the proteins were measured; all steps were faster than overall hydroxylation and consistent with rates of NADH oxidation. Substrate binding, product release, and oxygen binding were relatively fast in the catalytic cycle; high kinetic deuterium isotope effects for all four lauric acid hydroxylations indicated that the rate of C-H bond breaking is rate-limiting in every case. Thus, an electron transfer pathway to a functional Streptomyces P450 has been established.     

Modifying ligand-induced and constitutive signaling of the human 5-HT4 receptor

G protein-coupled receptors (GPCRs) signal through a limited number of G-protein pathways and play crucial roles in many biological processes. Studies of their in vivo functions have been hampered by the molecular and functional diversity of GPCRs and the paucity of ligands with specific signaling effects. To better compare the effects of activating different G-protein signaling pathways through ligand-induced or constitutive signaling, we developed a new series of RASSLs (receptors activated solely by synthetic ligands) that activate different G-protein signaling pathways. These RASSLs are based on the human 5-HT(4b) receptor, a GPCR with high constitutive G(s) signaling and strong ligand-induced G-protein activation of the G(s) and G(s/q) pathways. The first receptor in this series, 5-HT(4)-D(100)A or Rs1 (RASSL serotonin 1), is not activated by its endogenous agonist, serotonin, but is selectively activated by the small synthetic molecules GR113808, GR125487, and RO110-0235. All agonists potently induced G(s) signaling, but only a few (e.g., zacopride) also induced signaling via the G(q) pathway. Zacopride-induced G(q) signaling was enhanced by replacing the C-terminus of Rs1 with the C-terminus of the human 5-HT(2C) receptor. Additional point mutations (D(66)A and D(66)N) blocked constitutive G(s) signaling and lowered ligand-induced G(q) signaling. Replacing the third intracellular loop of Rs1 with that of human 5-HT(1A) conferred ligand-mediated G(i) signaling. This G(i)-coupled RASSL, Rs1.3, exhibited no measurable signaling to the G(s) or G(q) pathway. These findings show that the signaling repertoire of Rs1 can be expanded and controlled by receptor engineering and drug selection.     

玉米T型细胞质雄性不育系与相应保持系线粒体蛋白质组中的差异蛋白

利用固相pH3—10梯度双向凝胶电泳．对玉米T型细胞质雄性不育系（T—CMS）及其相应保持系叶片（苗期、拔节期、孕穗期）,胚轴,胚根和花药（花粉母细胞减数分裂期、花粉粒小孢子单-双核期）线粒体蛋白质组中的差异蛋白进行分析。PDQuest2D图像软件分析表明,苗期和拔节期叶片约有150个蛋白质斑点,胚轴和胚根中可识别出150个线粒体蛋白质斑点,花药中约有100个斑点。利用MALDI—TOF—MS方法．运用MASCOT软件于NCBI进行数据查询．对T—CMS与相应保持系中存在的差异蛋白进行归属鉴定,在T—CMS中存在,保持系中缺失的线粒体蛋白质有：r40cl protein（胚轴中）,mature anther—specific protein,DNA—directed RNA polymerase 23kD subunit．hexokinaseⅡ和T—CMS中缺失而在保持系中存在的有：glutathione S—transferase．putative protein。其中T—CMS与相应保持系间．线粒体蛋白质组呈现出差异的组织有胚轴、胚根和小孢子单-双核期的花药。叶片的不同发育时期线粒体蛋白质组呈现明显变化．但T—CMS与保持系间没有差异。在小孢子单-双核期（花粉败育期）的花药中,T—CMS与保持系间线粒体蛋白质组出现明显差异,线粒体蛋白质组出现变异的时期与花粉败育时期相一致。     

高效液相色谱法测定大黄素在Caco-2细胞中的摄取

目的:采用反相高效液相色谱法,观察大黄素在Caco-2细胞中的摄取特点。方法:将大黄素与Caco-2细胞共同孵育,收集细胞样品,液氮反复冻融。取细胞裂解液,加入甲醇提取,提取液采用HPLC进行分析。色谱分析柱为C18柱(250mm×4．6mm,5μm,Diamonsil),流动相组成为85%乙腈及15%水(含0．1%乙酸),流速1ml·min-1,进样量20μl,柱温25℃,3D模式采集数据。结果:检测Caco-2细胞中大黄素的工作曲线的回归方程为Y=0．278x 0．148(Y=0．9996,n=5),线性范围为0．037～4．8μmol·L-1,最低检测浓度为0．018μmol·L-1。当细胞中大黄素的浓度为0．05、2和8．5μg·ml-1时,回收率分别为(101．3±7．3)%、(96．7±3．0)%和(98．7±2．1)%(n=5);相应的日内标准偏差分别为0．25%、2．9%和1．4%;相应的日间标准偏差分别为2．3%、5．6%和6．3%。大黄素在Caco-2细胞中的摄取达峰时间为10分钟,峰浓度为108．56±11．57 nmol/L·mg·protein,10分钟后Caco-2细胞中大黄素的含量迅速下降。浓度处于2-50μM之间时,Caco-2细胞对大黄素的摄取量呈线性增加,浓度达50μM后,随着剂量的增加大黄素的摄取量变化不明显。结论:大黄素可被Caco-2细胞迅速摄取,随着剂量的增加,大黄素在Caco-2细胞中的摄取存在饱和现象。     

The formation of improved tetraploid population of red crucian carp × common carp hybrids by androgenesis

Bisexual fertile diploid androgenetic individuals (A0) (2n=100) were formed by androgenesis. In this way, the diploid spermatozoa from male allotetraploid hybrids (AT) (4n=200) of red crucian carp (Carassius auratus red var.) (♀) × common carp (Cyprinus carpio L.) (♂) were used to fertilize the UV-treated hap- loid eggs of goldfish (Carassius auratus), and living androgenetic diploid fish were developed. The A0 became sexually mature at the age of 2 years, and they fertilized with each other to form their offspring (A1). In this study, we observed the chromosomal number, gonadal structure and appearance of A1 fish. The results are as follows: (1) In A1, there were 85% tetraploids (A1-4n), 10% triploids (A1-3n) and 5% diploids (A1-2n), suggesting that diploid A0 could produce diploid gametes. It was concluded that the formation of diploid gametes generated from diploid A0 was probably related to the mechanism of pre-meiotic endoreduplication. (2) Among A1, only A1-4n possessed normal ovaries and testes. The mature males of A1-4n produced white semen. Under the electron microscope, the head of diploid sperm generated by A1-4n was bigger than that of haploid sperm generated by red crucian carp. In the testes of the A1-4n, there were many mature normal spermatozoa with a head bearing plasma mem- brane and a tail having the typical structure of "9 2" microtubules. Between the head and the tail, there were some mitochondria. The ovaries of A1-4n developed well and mainly contained II, III and IV-stage oocytes. The IV-stage oocytes were surrounded by inner and outer follicular cells. The micropyle was observed on the oolemma of follicular cells. There were abundant yolks and plenty of endoplasmic reticulum in the cytoplasm of IV-stage oocytes. Because A1-2n and A1-3n were distant crossing diploid hybrids and triploid hybrids respectively, they possessed abnormal gonads, and no mature semen and eggs were observed. (3) Compared with allotetraploids, the A1-4n fish not only had advantages such as fast growth rate and strong resistibility but also showed some new good performances such as high ratio of body width to body length, smaller heads and shorter tails. These results indicated that an- drogenesis could produce bisexual fertile tetraploids and improve the shape of allotetraploid hybrids as well, which will be of great significance in both the cell genetics research and fish breeding.     

Numerical chromosome variation and mitotic segregation defects in the adult brain of teleost fish

Teleost fish are distinguished by their enormous potential for the generation of new cells in both the intact and the injured adult brain. Here, we present evidence that these cells are a genetic mosaic caused by somatic genomic alteration. Metaphase chromosome spreads from whole brains of the teleost Apteronotus leptorhynchus revealed an euploid complement of 22 chromosomes in only 22% of the cells examined. The rate of aneuploidy is substantially higher in brain cells than in liver cells, as shown by both metaphase chromosome spreads and flow cytometric analysis. Among the aneuploid cells in the brain, approximately 84% had fewer, and the remaining 16% more, than 22 chromosomes. Typically, multiple chromosomes were lost or gained. The aneuploidy is putatively caused by segregation defects during mitotic division. Labeling of condensed chromosomes of M-phase cells by phosphorylated histone-H3 revealed laggards, anaphase bridges, and micronuclei, all three of which indicate displaced mitotic chromosomes. Quantitative analysis has shown that in the entire brain on average 14% of all phosphorylated histone-H3-labeled cells exhibit such signs of segregation defects. Together with the recent discovery of aneuploidy in the adult mammalian brain, the results of the present investigation suggest that the loss or gain of chromosomes might provide a mechanism to regulate gene expression during development of new cells in the adult vertebrate brain.     

总体国家安全观下合成生物学风险和应对策略研究*

合成生物学是近年来兴起的一门兼材料学、医学和信息学等学科特性的交叉学科,在促进医学进步和科技转化应用的同时,也在总体国家安全内涵中被赋予了特殊的重要地位。如何在新时期应对错综复杂的安全形势和严峻挑战,是世界各国和国际社会所面临的科技治理和生物安全的重要命题。重点介绍合成生物技术相关生物武器威胁、生物恐怖威胁、生物安全国际公约条例、生物安全伦理治理框架,总结近年来合成生物技术领域生物安全风险相关问题,提出合成生物学安全风险应对策略和国家总体安全观下科技发展建议。     

深共熔溶剂提取杨树桑黄多酚类物质工艺优化及提取物抗氧化活性研究

桑黄是一类应用广泛的药用真菌,桑黄多酚具有抗氧化、抗炎和降糖作用。本研究中的杨树桑黄属于桑黄中重要且能栽培的一种。本研究采用深共熔溶剂(deep eutectic solvent,DES)从栽培杨树桑黄子实体中提取多酚类化合物,考察了不同提取条件对提取率的影响。采用氯化胆碱与尿素组成的DES体系对多酚进行提取,并进一步采用响应面法对提取条件进行优化,获得最佳提取工艺参数为21 min、80 ℃、料液比1:260 g/mL。在此条件下,多酚的提取率高达(23.17±0.88) mg/g,远高于传统方法(12.45±1.88) mg/g。最优条件提取的多酚显示了很强的DPPH和ABTS的清除能力。由此可见,采用DES法从杨树桑黄子实体中提取酚类化合物比传统方法更有效。     

鞘内注射干扰素调节因子8小干扰RNA对术后持续性疼痛大鼠痛阈及脊髓小胶质细胞活化的影响*

目的: 探究鞘内注射干扰素调节因子8小干扰RNA(IRF8 SiRNA)对PPsP大鼠痛阈及脊髓小胶质细胞活化的影响。方法: 120只雄性SD大鼠随机分为假手术组(SH,n=12),模型组(SM,n=48),溶媒组(SD,n=12)和IRF8沉默组(SS,n=48),其中,SM组于大鼠后足中部隐静脉内侧按皮肤/肌肉切开牵拉(SMIR)法建立术后持续性疼痛(PPsP)模型,SH组仅切开不牵拉;SD组与SS组建模前一周先于L4/5椎间隙行鞘内置管术, SS组于建模后第5、6日连续鞘内给予IRF8 SiRNA溶液20 μl(溶于DEPC水中,150 pmol),SD组给予等量DEPC水。测量并记录建模前(D0),建模后第1(D1)、3(D3)、7(D7)、12(D12)、22(D22)、33(D33)日等时点各组大鼠术侧后足机械刺激缩足反应阈值 (PWT); 建模后第12日各取6只,Western blot法检测脊髓背角Iba-1蛋白表达情况,并取SH组和SM组各3只,取术野隐神经行电镜观察其超微结构改变;再取SM组和SS组于上述各时点各6只,流式细胞术检测脊髓背角小胶质细胞活化情况。结果: 与D0相比, SM组在D1～D22PWT降低(P＜0.05或P＜0.01),并在D33恢复至正常水平(P＞0.05);与SH组相比,SM组PWT在D1～D22均降低(P＜0.05或P＜0.01);与SD组相比,SS组PWT在D7～D22增高(P＜0.05或P＜0.01);与SH组相比,SS组D7～D22降低(P＜0.05或P＜0.01);隐神经髓鞘平均厚度: SH组为(377.03± 69.60) nm,SM组为(369.50±73.26) nm,两组间相比无统计学意义(P＞0.05);与SH组相比,SM组Iba-1明显上调(P＜0.01);与SD组相比,SS组Iba-1表达受到抑制(P＜0.05),与SH组相比,SS组Iba-1表达也具有统计学差异(P＜0.05),而SM组与SD组之间,Iba-1的表达无统计学意义(P＞0.05);与D0相比,SM组小胶质细胞活化比率在D3～D22均显著增加(P＜0.01),而SS组小胶质细胞活化于D3达到高峰(P＜0.01);鞘内给药后,SS组脊髓背角小胶质细胞活化比率明显下降,与SM组相比,在D7～D12显著下降(P＜0.01)。结论: SMIR诱导的PPsP大鼠显著且持续的机械痛觉过敏为非明显的外周神经损伤所致,可能是基于脊髓背角小胶质细胞活化所介导,而鞘内给予IRF8小干扰RNA可抑制脊髓背角小胶质细胞的激活,并逆转SMIR诱导的痛觉过敏。