环境变化对水稻osfh1突变体成蛋白家族表达的影响

水稻成蛋白基因成员OsFH1在水稻根毛的生长发育中起着关键作用,这一过程受到环境因素的调控,当前的研究对环境因素如何与OsFH1互作调控水稻根毛的机制尚未阐明。为探索水稻成蛋白成员是否在环境因素介导的osfh1突变体根毛表型恢复中发挥作用,该研究使用1/2 MS液体培养液与1/2 MS固体培养基处理osfh1突变体,通过qRT-PCR技术分析成蛋白家族成员表达量,并对成蛋白家族进行生物信息学分析。结果表明:(1)与野生型相比,在液培中osfh1突变体主根根毛缺失,地上部分较短,侧根数量增加,在固体培养中osfh1突变体根毛缺失表型得到恢复。(2)与野生型相比,当osfh1突变体从液培到固培环境时,OsFH16表达量下降,OsFH17表达量上升,并且差异显著。(3)OsFH1、OsFH16、OsFH17都是第一类成蛋白亚家族成员,都具有生长素、赤霉素以及厌氧等与环境胁迫相关顺式作用元件,并且预测到OsFH1、OsFH16和OsFH17定位于质膜行使功能。(4)OsFHs在不同组织的表达模式分析表明,OsFH1在根部表达水平较高,而OsFH16、OsFH17在根部表达量相对较低。综上认为,由于OsFH16、OsFH17、OsFH1之间亲缘关系较高,调控模式相近且三者都可能在细胞质膜上行使功能,因此OsFH16、OsFH17可能参与环境因素与osfh1共同改变根毛表型这一过程。该研究结果为解析环境与osfh1基因共同调控水稻根毛发育机制奠定了一定理论基础,为探索植物成蛋白基因功能提出了新方向。     

酶标仪分光光度法在微生物耐性研究上的应用

微生物在环境中的耐性是该微生物在相应环境发挥作用的重要基础。为了获得一种用于微生物耐性分析的快速简便方法,传统平板分离法和酶标仪分光光度法被用于评估其在细菌和链霉菌紫外耐受水平检测中的差异,并分析了酶标仪分光光度法在微生物其他耐性水平检测中的适用性。结果显示,两种检测方法均能体现细菌和链霉菌对紫外线的耐受水平,前者经过稀释、涂布、培养、菌落计数,获得的是菌株在紫外线照射后的存活浓度,而后者经过接种96孔培养板、培养、吸光度检测,获得的是菌株经紫外线照射后的生长曲线,并从生长曲线获知菌株的生长速率、增殖能力等信息。此外,酶标仪分光光度法同样适用于细菌对pH和盐的耐受水平分析,对于链霉菌耐受性分析有一定的适用性。酶标仪法除了能获得与平板分离法相似的耐性水平检测外,还能获得菌株在不同耐性水平上的增殖潜力,且在操作上比平板分离法省时、省力,可用于微生物耐性分析、高通量筛选等研究工作。     

Proteomics without polyacrylamide: qualitative and quantitative uses of tandem mass spectrometry in proteome analysis

Proteomics can be thought of as an attempt to understand the information encoded in genomic sequences from the perspective of proteins; i.e. the structure, function and regulation of biological processes at the protein level. In practice it stands in stark contrast to the hypothesis-driven serial approach practiced in the last century that was so successful for protein chemists and is built on the basic understanding of protein physicochemical properties developed during that era. Proteomics attempts to study biological processes comprehensively or globally by systematic parallel analysis of proteins expressed in a cell. While there are many analytical techniques in use and under development in proteomics, mass spectrometry is currently one of the field's most important discovery-based tools. This article will review some of the current approaches for qualitative and quantitative uses of tandem mass spectrometry in the field of proteomics specifically avoiding a discussion of the use of gel electrophoresis prior to mass spectrometry. Electronic Publication     

Terbium(III) fluorescence probe studies on metal ion-binding sites in anticoagulation factor I from Agkistrodon acutus venom

Anticoagulation factor I (ACF I) isolated from the venom of Agkistrodon acutus is an activated coagulation factor X-binding protein with marked anticoagulant activity. Present studies show that holo-ACF I assumes a compactly folded structure in the range of pH 5–6, in which the most interior Trp residues and quenchers are adjacent. Tb³⁺ ions can completely replace both Ca²⁺ ions in holo-ACF I, as determined by equilibrium dialysis. Although the two Tb³⁺ ions in Tb³⁺-ACF I have slightly different luminescence efficiencies, both have similar quenching effects on the intrinsic fluorescence, suggesting that probably there are same numbers of Trp residues close to both Tb³⁺-binding sites. Two Tb³⁺-binding sites with similar apparent Tb³⁺ association constant values, (1.69 ± 0.02) × 10⁷ M^–1 and (1.42 ± 0.01) × 10⁷ M^–1, respectively, were further identified through Tb³⁺ fluorescence titration. In addition, it has been confirmed from the titration of holo-ACF I and Tb³⁺-ACF I with NBS that only interior Trp residues are involved in the energy transfer to Tb³⁺ ions and that all accessible Trp residues located in the surface of holo-ACF I have similar affinity to NBS, while those located in the surface of Tb³⁺-ACF I have two different kinds of affinity to NBS, which strongly suggests a conformational change of holo-ACF I upon substitution of Tb³⁺ for Ca²⁺. The results show that although the Tb³⁺-altered conformation of ACF I cannot support the binding of Tb³⁺-ACF I with FXa, determined by nondenaturing PAGE, Tb³⁺ ions are effective and useful fluorescence probes to analyze the structures and properties of Ca²⁺-binding sites in ACF I.     

中温碱性脂肪酶的研究——Ⅲ.扩展青霉PF868变株碱性脂肪酶的纯化及其酶学性质

扩展青霉PF868变株发酵液经硫酸铵盐析和Sephadex-G-200及Sepharose4B柱层析纯化,获得纯化倍数为32.4的酶粉.该酶分子量为23442Dal.酶学特性表明:该酶的最适作用温度为32℃,50℃保温30min仍保留50%酶活性,最适pH为9.0,作用pH稳定范围在7.0—10.0之间.Ca~(2+)Mg~(2+)对酶有激活作用.Fe~(2+)、Cu~(2+)和Mn~(2+)对酶活力有抑制作用.     

LGT蛋白质组阳性肿瘤患者免疫功能的观察报告——LGT系列论文之八

目的：了解LGT（lost goodwill target）蛋白质组阳性表达患者CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞的变化规律.方法：对30例LGT蛋白质组阳性表达的肿瘤患者分别采用美国BD公司生产的流式细胞检测仪及提供的相应单克隆抗体检测患者空腹血清CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞并用美国赛费吉（Ciphergen）公司制造的蛋白质指纹仪及该公司提供的弱阳离子交换芯片（WCX2）按其操作方法（SELDI检测技术）配对检测肿瘤患者空腹血清中的蛋白质指纹,对有病情加重的患者均检查两次以上.以指纹图上质荷比（M/Z）为11100＋H～11900＋H之间出现一峰簇样（cluster）的指纹标志为LGT阳性诊断标准,并按蛋白质指纹LGT检测阳性次数分成二组.对二组内CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞与正常参考值之间进行统计学显著性检验.结果：CD3^＋T细胞值在LGT蛋白质组持续阳性表达组是增高的,在另一组是无变化,二者之间有显著性差异,而CD8^＋T细胞在二组内同时增高,CD4^＋T细胞和NK细胞二组同时低下,无显著性差别.结论：本研究提示肿瘤晚期可能存在有酪氨酸蛋白激酶修饰的细胞内信号传导,使之病情加重,而肿瘤早期则不明显.这是一种新的看法,应加强这个方面的研究.