9203菌株RNA对蕃茄花叶病（TM）的防治作用

对真菌9203菌株进行液体培养,从其菌丝体中分别用稀碱法、浓盐法、酚水法及酚试剂法提取RNA．用核酸粗提液及KNA提取液,在蕃茄植株上进行病毒免疫抑制试验,证明9203菌株RNA对番茄花叶病（TM）的防治有一定的效果．     

亲和层析法在免疫学中的应用

在免疫学研究中,很早就开始将抗原-抗体反应的特异性用于提纯抗原或抗体。其方法是先使抗原与抗体在液相中可逆结合成为免疫沉淀物,洗涤除去不反应的杂质,然后改变条件使它们解离以获得纯净的抗体或抗原。解离的方法有稀酸法、稀碱法、浓盐法、增温法等四类。     

稻草生物质的预处理及其发酵产酶与酶解效果研究

采用稀酸、稀碱、高温稀碱、亚硫酸盐法(SPORL法)和稀酸-亚硫酸盐法(稀酸SPORL法)对粉碎稻草秸秆预处理,考察不同预处理方法对稻草基质多菌发酵产纤维素酶的影响,分析预处理前后稻草基质主要成分的变化,酶水解液中糖组分的含量。结果表明:稀酸SPORL法处理的稻草粉在固态发酵产酶和酶解糖化都具有较好的效果,所得羧甲基纤维素酶(CMCase酶)和β-葡萄糖苷酶(β-G)比酶活分别达到21 511.22和51 508.41 U/g,同时酶水解率达到84.99%。除SPORL法外,其他预处理方式所得酶活均出现了不同程度的下降。稀酸预处理对稻草基质中的半纤维素去除效果较好,含量由20.77%下降到7.34%;稀碱高温处理对木质素脱除效果较好,Klason木质素含量由12.47%下降到7.58%。通过酶解糖化实验发现,未处理稻草粉酶水解率仅为17.82%,稀碱高温法效果最好,稻酶水解率达到91.66%。稀酸和稀酸SPORL法处理后,稻草粉基质的酶解糖化液中,戊聚糖占总糖相对含量较低,分别为7.38%和6.92%。     

提取山羊免疫组织总RNA两种方法的比较研究

采用山羊不同免疫组织作为原料,以氯化钠-柠檬酸钠法与苯酚-稀盐法进行RNA提取的比较;分别确定两种方法对于不同免疫组织(肝脏、脾脏和淋巴)最大提取率分别为0.156%、0.150%、0.182%和0.142%、0.127%、0.164%。采用华特生公司蛋白质浓度检验试剂盒BCA法测定蛋白含量。定磷法测DNA含量,地衣酚显色法测RNA含量,样品用紫外分光光度计进行扫描,苯酚-稀盐法提取淋巴组织,RNA紫外吸收OD260:OD280=2.042077;氯化钠-柠檬酸钠法提取淋巴组织RNA紫外吸收OD260:OD280=2.1098。     

几丁质及壳聚糖固定淀粉酶的方法探讨

洗净干燥捣碎后过筛(20目)的蟹壳经稀盐酸常温处理脱钙盐,稀碱保温处理脱蛋白,制得几丁质。几丁质再经浓碱保温处理数小时脱乙酰基,制得壳聚糖。分别以几丁质和壳聚糖为载体,各自与三种交联剂——戊二醛、环氧氯丙烷、一氯醋酸分别作用后用于淀粉酶的固定化。固定化淀粉酶活力测定表明,作为载体壳聚糖优于几丁质;作为交联剂,戊二醛最好,环氧氯丙烷次之,一氯醋酸较差。     

硫酸软骨素快速提取法研究

采用先高温蒸煮后加稀碱与酶解相结合 ,并用氯仿反萃取的方法提取硫酸软骨素 ,与其它提取方法相比较 ,缩短了一半工艺流程 ,同时提高了纯度和提取率 ,减轻了碱法提取所带来的环境污染。     

茯苓中多糖的提取及含量测定

采用水煎煮、稀碱浸提茯苓中的多糖,通过正交试验优选工艺条件。结果表明,稀碱浸提茯苓中的多糖的工艺较为合理,其操作简单,提取时间短,收率较高．为测定提取液中的多糖含量,以苯酚—硫酸法,制得有色糖醛衍生物,用分光光度法,在490nm波长处测定吸光度,回归方程线性关系好。方法简单易行、稳定、快速。     

盖玻片用稀硫酸处理效果好

有的盖玻片从未用过,上面就有许多斑点,影响观察。这样的盖玻片若用稀硫酸处理,则能使盖玻片清彻透明,效果较好。先在小烧杯里倒入一点稀硫酸(浓度不限,浓的可缩短处理时间,稀的则延长处理时间),再往硫酸内投     

芍药花瓣总RNA的提取

用TRIzol法和改良的热硼酸盐法从芍药幼嫩花瓣中提取总RNA,总RNA的D260nm／D280nm值分别为1．803、1．974。琼脂糖电泳表明,用TRIzol法提取的RNA只有28S、18S2条带,带的亮度差,说明RNA有些降解;而用改良的热硼酸盐法提取的总RNA有28S、18S、5S3条带,带的亮度强,且28S是18S宽度的2倍左右,说明提取的RNA完整、未降解,可用于后续实验。改良的热硼酸盐法更适于从芍药花瓣中提取总RNA。     

高酸值花椒种籽油的碱炼及工艺

在前人研究的基础上,对高酸值花椒籽油的碱炼除酸实用技术进步进一步的研究。结果表明,传统的常规碱炼技术可以对酸值在２０以下的花椒籽油进行精炼;用采用稀溶液分步间歇式碱炼则可以处理酸值高达６０－７０的花椒籽油。实验室试验表明稀溶液分步间歇式碱炼的工艺流程,可以在低炼耗的水平上得到酸值较理想的花椒籽碱炼油,同时该碱炼方法 显著的降低花椒籽油的色度。     

重组大肠杆菌BL21(pET28a-eIF5A)的抗逆性分析

目的:分析重组大肠杆菌BL21(pET28a-eIF5A)的抗逆性。方法:将来源于柽柳的eIF5A基因构建到原核表达载体pET28a中,在原核表达的基础上,利用分光光度计检测重组大肠杆菌BL21(pET28a-eIF5A)的抗逆性。结果:BL21(pET28a-eIF5A)的抗盐碱性明显高于对照菌株BL21(pET28a),其中重组大肠杆菌BL21(pET28a-eIF5A)的抗NaCl的临界浓度为0.8mol/L,抗NaHCO3的临界浓度为0.52mol/L,不具有抗AgNO3和抗旱性。结论:重组大肠杆菌BL21(pET28a-eIF5A)具有良好的抗NaCl和NaHCO3特性,该抗性的证明为eIF5A基因在植物抗逆基因工程中的应用提供了资料。     

Stimulation of the salt receptor of the blowfly. III. The alkali halides

Application of solutions of each of the alkali halides to the tip of a labellar sensillum of the blowfly elicited a repetitive neural discharge from the salt receptor. The records were qualitatively similar to those for NaCl. For each of the alkali chlorides and sodium halides, the shapes of the curves of the response of the salt receptor as a function of concentration were similar to that for NaCl. The alkali halides exhibited a regular pattern of relative stimulating effectiveness for the salt receptor. The effectiveness of the anions increased monotonically with atomic number. The effectiveness of the cations was greatest for potassium and declined as the atomic number was increased or decreased. This hierarchy for stimulating effectiveness was maintained at all tested molarities. The response to a mixture of two salts appeared to be an average of those to the single salts at concentrations equal to the total concentration of the mixture. Cross-adaptation was observed between the alkali halides. The results indicate that an explanation of stimulation of the salt receptor must apply to all the salts tested and that both the anion and the cation affect a salt's stimulating effectiveness.     

Identification of NaCl and NaHCO3 stress responsive proteins in tomato roots using iTRAQ-based analysis

Soil salinity and alkalinity are common constraints to crop productivity in low rainfall regions of the world. However, the physiological difference of plant response to these two stresses was short of deep investigation. This study has identified a set of differentially expressed proteins of tomato root exploring to NaCl and NaHCO₃ stress by iTRAQ (isobaric tags for relative and absolute quantitation) assay. A total of 313 proteins responsive to NaCl and NaHCO₃ were observed. Among these proteins, 70 and 114 proteins were up-regulated by salt and alkali stress, respectively. While down-regulated proteins were 80 in salt treatment and 83 in alkali treatment. Only 39 up-regulated proteins and 30 down-regulated proteins were shared by salt and alkali stresses. The majority of the down-regulated proteins accounted for metabolism and energy conversion, and the up-regulated proteins were involved in signaling or transport. Compared with salt stress, alkali stress down-regulated proteins related with the respiratory metabolism, fatty acid oxidative metabolism and nitrogenous metabolism of tomato roots, and up-regulated protein with the reactive oxygen species (ROS) scavenging and ion transport. This study provides a novel insight into tomato roots response to salt and alkali stress at a large translation level.     

A trial to improve the analysis of boron in biological materials

For the spectrophotometric determination of boron in biological materials, two decomposition methods were used. One is the alkali fusion method, and the other is the acid decomposition method using a uniseal decomposition vessel. A long-range calibration curve for the former method was obtained by using an ultrapure sulfuric acid. The alkali fusion method was applied to samples into which paraboronophenylalanine (BPA) or its hydrochloric salt (BPA.HCl) had been injected. By the acid decomposition method using a uniseal vessel, 50 mg dried liver was digested by a mixed solution of 1 ml conc. sulfuric acid and 6 ml 30% hydrogen peroxide. A problem exists, however, in that the hydrogen peroxide remaining in the decomposition solution must be eliminated without loss of boron.     

Eco-physiological responses of linseed (Linum usitatissimum) to salt and alkali stresses

AimsEffects of salt and alkali stresses (NaCl-Na₂SO₄ and NaHCO₃-Na₂CO₃) were compared on growth, photosynthesis characters, ionic balance and osmotic adjustment of linseed (Linum usitatissimum), to elucidate the mechanisms of salt and alkali stress (high pH value) damage to plants, and their physiological adaptive mechanisms to the stresses. MethodsThe experiment was carried out in an artificial greenhouse. Plants grew at approximately 700 mmol·m^-2·s^-1 photosynthetic photon flux density (PPFD) in greenhouse under photoperiod of 15 h in light and 9 h in dark. In each plastic pot (17 cm diameter) which contained 2.5 kg of washed sand, 20 linseed seeds were sown. The seedlings were exposed to stresses lasting 14 days after 2 months.Important findingsThe inhibitory effects of alkali stress on linseed growth were more remarkable than those of salt stress, indicating that alkali and salt represent two distinct forms of stress. The alkali stress increased the Na⁺ content in shoots, damaged the photosynthetic system, and highly reduced the net photosynthetic rate and C assimilation capacity. Under salinity stress, the Na⁺ content increased, the K⁺ content decreased with increasing stress. Greater changes were observed under alkali than under salt stress. Alkali stress caused the massive influx of Na⁺, which probably explained that the harmful of alkali stress on plants was stronger than that of salt stress. Under alkali stress, Ca²⁺ and Mg²⁺ decreased in roots, showing that high pH value around roots hindered the absorption of them. Fe²⁺ and Zn²⁺ had little effects on the osmotic adjustment, mainly because of they had a low ion content. Under salt stress, anion increased in order to balance the sharp increase of Na⁺. However, alkali stress made severe deficit of negative charge, broke the intracellular ionic balance and pH homeostasis, and caused a series of strain response. Our results showed that linseed enhanced the synthesis of soluble sugars to balance massive influx of Na⁺ under salt stress, but linseed enhanced the synthesis of organic acids to compensate for the shortage of inorganic anions, which might be a key pathway for the pH adjustment. In conclusion, the alkali stress (high pH value) clearly inhibited the growth, element absorption, ion homeostasis reconstruction of plants. Organic acid concentration is possibly a key adaptive factor for linseed to maintain intracellular ion balance and regulate high pH value under alkali stress.     

松嫩平原两个生态型羊草实验种群对盐碱胁迫的生理响应

采用盆栽实验,对灰绿型和黄绿型两个生态型羊草(Leymus chinensis)在幼苗期分别用不同强度的NaCl、Na2CO3和混合盐碱胁迫,测定其叶片叶绿素含量、电解质外渗率和植株脯氨酸、Na／K等生理指标。结果表明,在3种盐碱胁迫条件下,灰绿型和黄绿型羊草的叶片叶绿素含量、电解质外渗率和植株脯氨酸、Na／K均与胁强之间呈直线y=a+bx变化,达到了显著或极显著水平,两个实验种群均具有耐盐碱能力,叶片叶绿素含量、电解质外渗率和植株脯氨酸、Na／K均有显著或极显著差异,它们在耐盐碱生理特性上已产生了分化,其中,灰绿型的耐盐碱能力强于黄绿型,本文为羊草生态型分化主导生态因子是土壤盐碱所致提供了的生理学证据。     

Comparative effects of osmotic-, salt- and alkali stress on growth,photosynthesis, and osmotic adjustment of cotton plants

In this study, cotton seedlings were subjected to osmotic-, salt- and alkali stresses. The growth, photosynthesis, inorganic ions, and organic acids in the stressed seedlings were measured, to compare the mechanisms by which plants adapt to these stresses and attempt to probe the mechanisms by which plants adapt to high pH stress. Our results indicated that, at high stress intensity, both osmotic and alkali stresses showed a stronger injurious effect on growth and photosynthesis than salt stress. Cotton accumulated large amount of Na+ under salt and alkali stresses, but not under osmotic stress. In addition, the reductions of K⁺, NO₃ ⁻, and H₂PO₄ ⁻ under osmotic stress were much greater than those under salt stress with increasing stress intensity. The lack of inorganic ions limited water uptake and was the main reason for the higher injury from osmotic-compared to salt stress on cotton. Compared with salt- and alkali stresses, the most dramatic response to osmotic stress was the accumulation of soluble sugars as the main organic osmolytes. In addition, we found that organic acid metabolism adjustment may play different roles under different types of stress. Under alkali stress, organic acids might play an important role in maintaining ion balance of cotton; however, under osmotic stress, malate might play an important osmotic role.     

Fast atom bombardment mass spectrometry of estrogen glucuronides and sulfates

Fast atom bombardment (FAB) mass spectra of 13 intact, underivatized glucuronides and/or sulfate salts are reported. Spectra are characterized by abundant ions formed by attachment of a proton, [M+H]+, or of an alkali ion, [M+alkali]+, to the glucuronide or sulfate salt. Fragment ions were of low intensity. FAB spectra can be used to obtain the molecular weight of a sample, to assess its purity and to identify the nature of the alkali of the glucuronide or sulfate salt.     

盐碱胁迫对枸杞幼苗生物量积累和光合作用的影响

以内陆高寒区盐碱地重要的经济树种枸杞2年生幼苗为研究对象,采用盆栽控制试验方法,设置50、100、200、300mmol·L~(-1)共4个盐和碱(NaCl和NaHCO3)胁迫浓度,研究盐、碱胁迫对枸杞苗木生长和光合的影响,以明确枸杞幼苗生长的耐盐、碱浓度范围,探讨土壤盐碱含量与土壤水分含量的关系,为不同类型盐碱条件下枸杞的种植和水分管理提供理论依据。结果表明:(1)随着盐碱胁迫浓度的增大,枸杞幼苗根茎叶生物量及叶绿素含量(SPAD)、净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)和胞间二氧化碳浓度(Ci)等光合作用参数逐渐受到显著抑制,且碱胁迫的抑制作用更强烈;但低浓度(50mmol/L)NaCl胁迫下,枸杞幼苗叶绿素含量和净光合速率并未受到显著影响。(2)在盐碱胁迫条件下,枸杞幼苗的最大净光合速率(Pnmax)、暗呼吸速率(RD)、初始量子效率(AQY)、光饱和点(LSP)均低于对照,而光补偿点(LCP)高于对照,且随着胁迫浓度的增加,碱胁迫处理下的变幅大于盐胁迫。(3)随着胁迫浓度的增大,影响净光合速率的因素由气孔限制转向非气孔限制的临界值,在盐胁迫下的临界浓度约为200mmol/L,在碱胁迫下的临界浓度约为100mmol/L。(4)按照指标值超过对照组50%标准,经回归分析确定,枸杞耐盐和耐碱阈值分别为(246.3±2.1)mmol/L和(126.7±2.7)mmol/L;在此阈值的基础上,得到土壤含水量与土壤含盐量回归曲线方程。研究认为,枸杞幼苗具有一定的耐盐能力,但过高浓度的盐碱胁迫会损坏其光合结构,降低光环境适应能力和光合作用效率,从而影响其正常生长。