酸胁迫下短乳杆菌NCL912蛋白质的差异表达及其作用

【目的】本文从蛋白质组水平,对本实验室分离的一株高产γ-氨基丁酸的短乳杆菌NCL912(Lactobacillus brevis)在酸胁迫下蛋白质的差异表达及其应激机理进行探讨。【方法】利用双向凝胶电泳技术对pH 5.0和pH 4.0条件下,不含L-谷氨酸钠的培养物的蛋白质组电泳图谱进行了分析,并对酸胁迫下差异表达的蛋白进行了比较。利用质谱检测技术和生物信息学技术对这些差异表达的蛋白进行了鉴定、功能分类和代谢途径分析等。【结果】通过双向凝胶电泳技术,可以得到均匀、背景清晰、分辨率高、重复性好的Lb.brevis NCL912的双向凝胶电泳图谱。对pH 5.0和pH 4.0条件下培养的该菌总蛋白质电泳图谱进行比较,发现有25个差异表达的蛋白点。对这25个差异表达的蛋白进行了质谱鉴定。由于缺乏短乳杆菌NCL912的全基因组,所以其中只有8个蛋白点被质谱鉴定和分析得到。它们分别参与了蛋白质的合成、核苷酸的合成、糖酵解代谢、细胞能量水平的调节等。【结论】酸应激下这些表达蛋白质可通过其相应的功能来保护细胞耐受酸胁迫,从而使菌能够在酸性环境下生存增值。这可能就是Lb.brevis NCL912的酸胁迫应激机理之一。     

胃癌细胞高尔基体的蛋白质组学技术平台的建立

采用蔗糖密度梯度超速离心法分离纯化高尔基体,双向凝胶电泳（2-DE）分离高尔基体蛋白质,用ImageMaster 2D软件分析所得图谱,基质辅助激光解吸离子化飞行时间质谱(MALDI—TOF MS)鉴定蛋白质点等一系列亚细胞器蛋白质组学方法建立胃癌细胞内高尔基体的蛋白图谱。结果显示分离出的纯度较高的高尔基体建立了分辨率和重复性均较好的双向电泳图谱,运用质谱技术鉴定出12个蛋白质,包括蛋白合成相关蛋白、膜融合蛋白、调节蛋白、凋亡相关蛋白、运输蛋白、细胞增殖分化相关蛋白。通过亚细胞器分离纯化,双向电泳的蛋白分离及MALDI-TOF MS蛋白鉴定分析,首次成功建立了胃癌细胞SGC7901中高尔基体的蛋白质组学技术路线,为胃癌细胞内高尔基体功能的深入研究奠定了基础。     

脂肪酶在微乳液和微乳液凝胶中催化辛酸辛醇的酯化反应

脂肪酶在合成反应中具有很高的区域选择性和立体选择性 ,已广泛用于食品工业和药物工业[1,2 ] ,在有机介质中的脂肪酶催化反应已有较多研究[3 ,4 ] 。微乳液一般由表面活性剂、助表面活性剂、油和水等组份组成 ,它是一种热力学稳定、光学透明、宏观均匀而微观不均匀的体系 ,能提供酶催化所需要的巨大油 /水界面[5] 。而将脂肪酶增溶于油包水(Ｗ /Ｏ)微乳液中的纳米级“水池”中 ,可使酶以分子水平分散[6] ,图 1(ａ) ,从而可用来模拟细胞微环境中的反应。油包水微乳液中的酶可通过加入明胶而制成固定化酶 ,含明胶的微乳液凝胶 (ＭＢＧｓ)最早…     

兰州百合精细胞表膜上存在被牛精子抗体识别的抗原决定簇

以兔抗牛精子 Ig G为一抗 ,对植物精细胞蛋白进行 Western blot分析 ,发现兰州百合 (Liliumdavidii Duch.)精细胞和生殖细胞中各有一分子量为 64k D的蛋白显示阳性反应 ;在玉米 (Zea mays)精细胞蛋白中也发现了阳性反应条带 ,其分子量为 65 k D和 2 2 k D;而兰州百合花丝、花药壁和玉米黄化苗的蛋白中均没有阳性条带。用兔抗牛精子 Ig G对兰州百合精细胞进行间接免疫荧光标记 ,结果表明在兰州百合精细胞表面 ,有兔抗牛精子 Ig G的识别位点。根据以上结果 ,作者认为植物精细胞中有与动物精子相同或相似的抗原决定簇 ,它 (们 )主要分布于精细胞表膜上 ,并为精细胞所特有     

Enhancement of Astragalus polysaccharide on the immune responses in pigs inoculated with foot-and-mouth disease virus vaccine

The effects of Astragalus polysaccharides (APS) on the immune response in pigs immunized with foot-and-mouth disease virus (FMDV) vaccine were investigated. Fifteen pigs were randomly divided into five groups. Four groups were vaccinated with a FMDV inactivated vaccine. Pigs in three experimental groups were administered varying doses of APS (APS1, 5 mg/kg; APS2, 10 mg/kg; APS3, 20 mg/kg). The influence of APS on the number of CD3⁺CD4⁻CD8⁺ cytotoxic T cells, CD3⁺CD4⁺CD8⁺ T helper memory cells, and CD3⁻CD4⁻CD8⁺ natural killer cells among peripheral blood lymphocytes (PBL) in the three APS groups were significant compared to the vaccine group. In vitro stimulation of PBL by Con A and LPS in APS groups induced a stronger proliferative response at 2 and 6 weeks post-inoculation (PI). APS markedly increased the titer of FMDV-specific antibody in a dose-dependent manner, and up-regulated mRNA expression of IFN-γ and IL-6. APS could potentially be used as an immunomodulator for a FMDV vaccine and provide better protection against FMDV.     

损伤神经自发放电节律分岔与频率变化的非线性特征

为了研究神经放电节律回周分岔与放电频率变化之间的关系,采用大鼠坐骨神经慢性结扎模型,记录损伤区的自发放电,观察放电节律转化的动力学规律,分析相应的放电频率的变化,并用理论模型进行数值模拟。结果表明,与放电节律加周分岔相对应,放电频率的变化呈现非线性的特征,数值模拟支持实验的发现。研究提示：神经放电的频率变化与刺激强度的改变并非呈简单的线性相关,可能具有更复杂的关系。     

微小RNA与肺癌耐药

肺癌细胞对化疗药物产生耐药性是目前肺癌化疗过程中遇到的主要问题。微小RNA（miRNA）是一类内源性非编码短链小分子RNA,它能调节细胞生长、凋亡和信号转导。miRNA的多态性与药物代谢和耐药形成密切相关,异常表达的miRNA对预测肺癌化疗药物敏感性有重要作用。调节特异miRNA的表达,将为克服肺癌耐药和选择个体化治疗开辟新的途径。     

A photo‐responsive F‐box protein FOF2 regulates floral initiation by promoting FLC expression in Arabidopsis

Floral initiation is regulated by various genetic pathways in response to light, temperature, hormones and developmental status; however, the molecular mechanisms underlying the interactions between different genetic pathways are not fully understood. Here, we show that the photoresponsive gene FOF2 (F‐box of flowering 2) negatively regulates flowering. FOF2 encodes a putative F‐box protein that interacts specifically with ASK14, and its overexpression results in later flowering under both long‐day and short‐day photoperiods. Conversely, transgenic plants expressing the F‐box domain deletion mutant of FOF2 (FOF2ΔF), or double loss of function mutant of FOF2 and FOL1 (FOF2‐LIKE 1) present early flowering phenotypes. The late flowering phenotype of the FOF2 overexpression lines is suppressed by the flc‐3 loss‐of‐function mutation. Furthermore, FOF2 mRNA expression is regulated by autonomous pathway gene FCA, and the repressive effect of FOF2 in flowering can be overcome by vernalization. Interestingly, FOF2 expression is regulated by light. The protein level of FOF2 accumulates in response to light, whereas it is degraded under dark conditions via the 26S proteasome pathway. Our findings suggest a possible mechanistic link between light conditions and the autonomous floral promotion pathway in Arabidopsis.     

单克隆人胰腺干细胞分化特性的研究

研究1例来源于4月龄男性流产胎儿胰腺组织的单克隆人胰腺干细胞（monoclonal human pancreatic stem cell,mhPSC）系的体内外分化特性。将mhPSCs接种在铺有0．1％明胶的培养皿内,扩增培养3d后,加高糖DMEM诱导液诱导培养25d。相差显微镜下．观察细胞生长状况。采用双硫腙染色法、RT—PCR及葡萄糖刺激释放胰岛素和C肽实验．对体外定向诱导mhPSCs分化为功能性胰岛进行检测。将mhPSCs悬液注射在成年雄性裸鼠腹股沟皮下．注射30d时,取出移植物,采用SP法进行免疫组织化学反应,以检测mhPSCs的体内自然分化潜能。体外扩增培养,mhPSCs贴壁生长,呈多角形上皮样。生长至单层．呈“铺路石”状。体外定向诱导,细胞逐渐由多角形变成圆形,并聚集成类胰岛。诱导培养15d时．形成的类胰岛中少数细胞分化为B细胞,双硫腙染色阳性。诱导培养25d时,多数细胞分化为8细胞,双硫腙染色阳性,转录表达胰岛素的mRNA。用不同浓度葡萄糖刺激．诱导胰岛不仅释放胰岛素和C肽,而且其释放量随糖刺激浓度升高显著增加（0．01〈P〈0．05）。体内分化实验显示,mhPSCs在裸鼠背部形成类畸胎瘤。类畸胎瘤易与裸鼠分离,色白,血管丰富。显著表达pdx1、胰岛素、胰高血糖素、CK、MBP及NF蛋白。该研究结果证实单克隆人胰腺干细胞系体外定向诱导分化为包含大量β细胞的功能性类胰岛,在体内自然分化为胰岛、上皮及神经组织细胞。     

Activation characteristics of transient receptor potential ankyrin 1 and its role in nociception

Transient receptor potential (TRP) ankyrin 1 (TRPA1) is a Ca(2+)-permeant, nonselective cationic channel. It is predominantly expressed in the C afferent sensory nerve fibers of trigeminal and dorsal root ganglion neurons and is highly coexpressed with the nociceptive ion channel transient receptor potential vanilloid 1 (TRPV1). Several physical and chemical stimuli have been shown to activate the channel. In this study, we have used electrophysiological techniques and behavioral models to characterize the properties of TRPA1. Whole cell TRPA1 currents induced by brief application of lower concentrations of N-methyl maleimide (NMM) or allyl isothiocyanate (AITC) can be reversed readily by washout, whereas continuous application of higher concentrations of NMM or AITC completely desensitized the currents. The deactivation and desensitization kinetics differed between NMM and AITC. TRPA1 current amplitude increased with repeated application of lower concentrations of AITC, whereas saturating concentrations of AITC induced tachyphylaxis, which was more pronounced in the presence of extracellular Ca(2+). The outward rectification exhibited by native TRPA1-mediated whole cell and single-channel currents was minimal as compared with other TRP channels. TRPA1 currents were negatively modulated by protons and polyamines, both of which activate the heat-sensitive channel, TRPV1. Interestingly, neither protein kinase C nor protein kinase A activation sensitized AITC-induced currents, but each profoundly sensitized capsaicin-induced currents. Current-clamp experiments revealed that AITC produced a slow and sustained depolarization as compared with capsaicin. TRPA1 is also expressed at the central terminals of nociceptors at the caudal spinal trigeminal nucleus. Activation of TRPA1 in this area increases the frequency and amplitude of miniature excitatory or inhibitory postsynaptic currents. In behavioral studies, intraplantar and intrathecal administration of AITC induced more pronounced and prolonged changes in nociceptive behavior than those induced by capsaicin. In conclusion, the characteristics of TRPA1 we have delineated suggest that it might play a unique role in nociception.