微区XRF技术分析无机元素在植物中的原位分布

植物的无机元素分布特征对植物生理过程具有重要的指标作用, 可揭示营养物质分布、代谢途径及毒理耐受性等多种生命过程。用微区XRF技术测试样品中无机元素的分布, 具有原位无损、可进行较大面积样品连续成像分析以及前处理过程简单等诸多优势。将微区XRF技术应用于植物样品不同器官的无机元素分布检测, 旨在探讨该技术在植物样品测试中的仪器参数选择、样品前处理方法和数据后处理手段等对测试结果的影响。为得到可靠的实验结果, 对不同含水量的器官进行不同的前处理, 并比较不同驻留时间、测试腔体真空与否等仪器条件对测试结果的影响, 同时对数据处理方法进行探索, 包括对获得的数据进行图像叠加及对不同元素浓度比例进行半定量分析。研究结果表明, 微区XRF技术测试植物样品中无机元素分布具有一定的技术优势。     

Analysis of In Situ Distribution of Inorganic Elements in Plants by Micro-XRF

植物的无机元素分布特征对植物生理过程具有重要的指标作用, 可揭示营养物质分布、代谢途径及毒理耐受性等多种生命过程。用微区XRF技术测试样品中无机元素的分布, 具有原位无损、可进行较大面积样品连续成像分析以及前处理过程简单等诸多优势。将微区XRF技术应用于植物样品不同器官的无机元素分布检测, 旨在探讨该技术在植物样品测试中的仪器参数选择、样品前处理方法和数据后处理手段等对测试结果的影响。为得到可靠的实验结果, 对不同含水量的器官进行不同的前处理, 并比较不同驻留时间、测试腔体真空与否等仪器条件对测试结果的影响, 同时对数据处理方法进行探索, 包括对获得的数据进行图像叠加及对不同元素浓度比例进行半定量分析。研究结果表明, 微区XRF技术测试植物样品中无机元素分布具有一定的技术优势。     

流式细胞仪检测中细胞DNA样品制备的探讨

为了获得适合流式细胞仪检测的样品,通过碘化同啶标记和流式细胞仪对食管癌细胞内DNA含量分布进行分析,在不同的时间内对血液中淋巴细胞内DNA含量的测定结果进行研究。结果显示：结构完整的细胞DNA的荧光点图形成二倍体,四倍体的区域。组A各样品具有良好一致性,1～3天内差异小;组B各样品差异较大,因此细胞的完整性是DNA含量检测的基本条件,细胞经PI染色后若不能及时检测,可避光、4℃放置1～3天仍可获得较理想的实验结果。     

DNA条形码在入侵植物鉴定中的应用进展

生物入侵对世界经济、环境造成了巨大的影响,已经成为世界关注的焦点。传统的海关检验方法存在鉴定缓慢、准确率低、鉴定专家稀缺等问题,因此急需一种鉴定率高、操作简单和快速的方法对入侵植物的繁殖体进行精确的鉴别。DNA条形码是一种基于DNA序列差异进行物种鉴定的技术,鉴定结果只受样品组织内DNA保存状况影响,不受形态学性状保存状态影响,只需掌握简单分子生物学技术的工作人员即可实现对未知样品的鉴定,在入侵植物检疫鉴定中有很大的应用潜力。根据入侵植物进化快、变异多的特点,可优先考虑种间、种内差异度高的ITS基因作为核心条形码,再以mat K和rbc L基因为辅助条形码。本文分析了植物DNA条形码技术及其衍生出的超级DNA条形码和metabarcoding技术在入侵植物鉴定中的应用潜力,提出构建入侵植物DNA条形码参考数据库与智能植物志(i Flora)相结合,为利用DNA条形码技术对入侵植物进行快速鉴定和相关研究提供参考。     

流式细胞术的发展及在植物研究中的应用

流式细胞术是通过对液流中各种荧光标记的颗粒进行多参数快速高效的定性或定量测定的方法,在科学研究的多个领域发挥重要作用。然而,由于植物组织及细胞壁和次生代谢产物等细胞的特殊成分和结构,限制了其在植物研究领域的应用。本文在介绍流式细胞仪发展和组成分类的基础上,着重讨论了流式细胞术在植物领域的应用、研究进展及应用限制,进而展望该研究领域的发展趋势,为拓宽植物流式细胞术的潜在应用范围提供新的思考方向。     

植物总DNA样品的快速制备

利用Ｑｉａｇｅｎ微量植物ＤＮＡ提取试剂盒,在１小时内即可从植物组织获得总ＤＮＡ,提取过程中勿需酚／氯仿和ＳＤＳ抽提,操作简便、快捷。所得ＤＮＡ样品的ＯＤ２６０／ＯＤ２８０值在１．７－１．９之间。样品纯度高;该样品不含ＰＣＲ反应抑制剂及其他酶反应抑制剂,可被各种限制性内酶完全降解,适合于ＰＣＲ、印迹、ＲＡＰＤ、ＡＦＬＰ和ＲＦＬＰ分析等各种下游应用。     

保存方法和保存时间对竹子核DNA含量（2C-值）检测的影响

竹子核DNA含量（2C-值）的检测对竹资源的科学研究具有重要意义,而大部分野外采集的样本,通过不同方法保存后,均使用流式细胞仪技术进行核DNA含量检测。本文选取麻竹（Dendrocalamuslati—florus）、筇竹（Chimonobambusatumidissinoda）和毛花酸竹（Acidosasapurpurea）三种竹子样本,使用硅胶保存法和Sampleprotector试剂保存法分别保存4d、8d、12d、16d后,采用流式细胞术检测样品2c．值。CV值可以用来反映数据检测结果质量,是对检测结果准确性以及精确性的评价标准,我们通过样品CV值的大小和2c-值的变异率来评价保存方法和保存时间对竹子2c-值检测的影响。方差分析显示,保存时间对CV值具有显著性影响（P〈0．001）,随着保存时间增大,CV值增大;保存方法对2c-值变异率有显著性影响（P〈0．001）。硅胶保存法保存后的样品,测量值比新鲜材料大;Sampleprotector试剂保存法保存后,测量值比新鲜材料小。因此,随着保存时间的增加,样品CV值增大,引起检测结果质量降低。研究发现,硅胶保存法和Sampleprotector试剂保存法会影响竹子样本2c．值大小,但2c-值大小的变化小于10％。     

实时荧光PCR检测食品中致敏原芥末成分

对植物原料产品和植物源性食品中芥末成分的快速鉴定是避免过敏性疾病发生的重要措施。依据芥末Sin A1管家基因的核酸序列设计特异性引物和探针,对3种芥末样品和21种非芥末植物样品进行实时荧光PCR检测,结果显示,过敏原芥末管家基因的样品FAM通道有荧光信号检出,非芥末样品FAM通道均无荧光信号检出。灵敏度实验表明,植物原料产品中对芥末的检测低限可达到1 mg/kg。此外对市售的芥菜籽等样品和深加工的芥末致敏原参考物质(葡萄糖)进行实际样品的检测,均能很好检出致敏原芥末成分。     

保存方法和保存时间对竹子核DNA含量 （2C-值） 检测的影响

竹子核DNA含量（2C 值）的检测对竹资源的科学研究具有重要意义,而大部分野外采集的样本,通过不同方法保存后,均使用流式细胞仪技术进行核DNA含量检测。本文选取麻竹（Dendrocalamus latiflorus）、筇竹（Chimonobambusa tumidissinoda）和毛花酸竹（Acidosasa purpurea）三种竹子样本,使用硅胶保存法和Sample protector试剂保存法分别保存4d、8d、12d、16d后,采用流式细胞术检测样品2C 值。CV值可以用来反映数据检测结果质量,是对检测结果准确性以及精确性的评价标准,我们通过样品CV值的大小和2C 值的变异率来评价保存方法和保存时间对竹子2C 值检测的影响。方差分析显示,保存时间对CV值具有显著性影响（P < 0001）,随着保存时间增大,CV值增大;保存方法对2C 值变异率有显著性影响(P < 0001)。硅胶保存法保存后的样品,测量值比新鲜材料大;Sample protector试剂保存法保存后,测量值比新鲜材料小。因此,随着保存时间的增加,样品CV值增大,引起检测结果质量降低。研究发现,硅胶保存法和Sample protector试剂保存法会影响竹子样本2C 值大小,但2C 值大小的变化小于10%。     

基因芯片技术及其应用

基因芯片是近年来产生的一项生物高技术。它是利用原位合成或合成后交联法,将大量的核酸片段有规则地固定在固相支持物如载玻片、金属片、尼龙膜上,制成芯片,然后将要检测的样品用荧光素或同位素标记,再与做成的芯片充分杂交,通过对杂交信号的检测来分析样品中的信息。基因芯片技术已在基因表达水平的检测、基因点突变及多态性检测、DNA序列测定、寻找可能的致病基因和疾病相关基因、蛋白质作图、基因组文库作图等方面显示出了广阔的应用前景。     

Plant DNA flow cytometry and estimation of nuclear genome size

BACKGROUND: DNA flow cytometry describes the use of flow cytometry for estimation of DNA quantity in cell nuclei. The method involves preparation of aqueous suspensions of intact nuclei whose DNA is stained using a DNA fluorochrome. The nuclei are classified according to their relative fluorescence intensity or DNA content. Because the sample preparation and analysis is convenient and rapid, DNA flow cytometry has become a popular method for ploidy screening, detection of mixoploidy and aneuploidy, cell cycle analysis, assessment of the degree of polysomaty, determination of reproductive pathway, and estimation of absolute DNA amount or genome size. While the former applications are relatively straightforward, estimation of absolute DNA amount requires special attention to possible errors in sample preparation and analysis. SCOPE: The article reviews current procedures for estimation of absolute DNA amounts in plants using flow cytometry, with special emphasis on preparation of nuclei suspensions, stoichiometric DNA staining and the use of DNA reference standards. In addition, methodological pitfalls encountered in estimation of intraspecific variation in genome size are discussed as well as problems linked to the use of DNA flow cytometry for fieldwork. CONCLUSIONS: Reliable estimation of absolute DNA amounts in plants using flow cytometry is not a trivial task. Although several well-proven protocols are available and some factors controlling the precision and reproducibility have been identified, several problems persist: (1) the need for fresh tissues complicates the transfer of samples from field to the laboratory and/or their storage; (2) the role of cytosolic compounds interfering with quantitative DNA staining is not well understood; and (3) the use of a set of internationally agreed DNA reference standards still remains an unrealized goal.     

Determination of the Total Microbial Abundance in Black Sea Bottom Sediments Using Flow Cytometry

Microbiology - The known approaches to sample preparation have been improved to achieve a more complete detection of microorganisms of the Black Sea bottom sediments using flow cytometry of SYBR...     

Two new nuclear isolation buffers for plant DNA flow cytometry: a test with 37 species

Background and Aims: After the initial boom in the application of flow cytometryin plant sciences in the late 1980s and early 1990s, which wasaccompanied by development of many nuclear isolation buffers,only a few efforts were made to develop new buffer formulas.In this work, recent data on the performance of nuclear isolationbuffers are utilized in order to develop new buffers, generalpurpose buffer (GPB) and woody plant buffer (WPB), for plantDNA flow cytometry. Methods: GPB and WPB were used to prepare samples for flow cytometricanalysis of nuclear DNA content in a set of 37 plant speciesthat included herbaceous and woody taxa with leaf tissues differingin structure and chemical composition. The following parametersof isolated nuclei were assessed: forward and side light scatter,propidium iodide fluorescence, coefficient of variation of DNApeaks, quantity of debris background, and the number of particlesreleased from sample tissue. The nuclear genome size of 30 selectedspecies was also estimated using the buffer that performed betterfor a given species. Key Results: In unproblematic species, the use of both buffers resulted inhigh quality samples. The analysis of samples obtained withGPB usually resulted in histograms of DNA content with higheror similar resolution than those prepared with the WPB. In morerecalcitrant tissues, such as those from woody plants, WPB performedbetter and GPB failed to provide acceptable results in somecases. Improved resolution of DNA content histograms in comparisonwith previously published buffers was achieved in most of thespecies analysed. Conclusions: WPB is a reliable buffer which is also suitable for the analysisof problematic tissues/species. Although GPB failed with someplant species, it provided high-quality DNA histograms in speciesfrom which nuclear suspensions are easy to prepare. The resultsindicate that even with a broad range of species, either GPBor WPB is suitable for preparation of high-quality suspensionsof intact nuclei suitable for DNA flow cytometry.     

利用流式细胞光度术鉴定苹果倍性的研究

利用流式细胞光度术测定了苹果１２个二倍体,５个三倍体细胞ＤＮＡ含量。结果表明：二倍体细胞核ＤＮＡ含量平均为２．２７ｐｇ,三倍体细胞核ＤＮＡ含量平均为３．１３ｐｇ。     

Preparation of HMW DNA from Plant Nuclei and Chromosomes Isolated from Root Tips

Simple, fast and cost-effective method for preparation of DNA with high molecular weight (HMW DNA) from plant nuclei and mitotic chromosomes has been developed. The technique involves mechanical homogenization of formaldehyde-fixed root tips, purification of nuclei and/or chromosomes on sucrose gradient, embedding in low-melting-point agarose, and DNA isolation in agarose plugs. Alternatively, nuclei and chromosomes may be purified using flow cytometry. Majority of DNA obtained is megabase-sized and well digestible by restriction endonucleases. The method is highly efficient as microgram amounts of DNA can be obtained from only several milligrams of plant tissue. Handling negligible amounts of plant material reduces the consumption of chemicals. Furthermore, the use of root tips makes it possible to obtain high-quality DNA even from plant species with leaves that are rigid or rich in secondary metabolites such as polyphenols. It is expected that preparation of HMW DNA from root tip nuclei will facilitate long-range mapping and construction of large-insert DNA libraries also in these species. Successful isolation of HMW DNA from flow-sorted chromosomes opens a way for construction of chromosome-specific large-insert libraries in plants. This revised version was published online in July 2006 with corrections to the Cover Date.     

In vivo plant flow cytometry: a first proof-of-concept

In vivo flow cytometry has facilitated advances in the ultrasensitive detection of tumor cells, bacteria, nanoparticles, dyes, and other normal and abnormal objects directly in blood and lymph circulatory systems. Here, we propose in vivo plant flow cytometry for the real-time noninvasive study of nanomaterial transport in xylem and phloem plant vascular systems. As a proof of this concept, we demonstrate in vivo real-time photoacoustic monitoring of quantum dot-carbon nanotube conjugates uptake by roots and spreading through stem to leaves in a tomato plant. In addition, in vivo scanning cytometry using multimodal photoacoustic, photothermal, and fluorescent detection schematics provided multiplex detection and identification of nanoparticles accumulated in plant leaves in the presence of intensive absorption, scattering, and autofluorescent backgrounds. The use of a portable fiber-based photoacoustic flow cytometer for studies of plant vasculature was demonstrated. These integrated cytometry modalities using both endogenous and exogenous contrast agents have a potential to open new avenues of in vivo study of the nutrients, products of photosynthesis and metabolism, nanoparticles, infectious agents, and other objects transported through plant vasculature.     

A five-minute DNA extraction method for expedited detection of Phytophthora ramorum following prescreening using Phytophthora spp. lateral flow devices

In a direct comparison with established methods for Phytophthora ramorum detection (isolation followed by morphological identification, or conventional DNA extraction followed by TaqMan real-time PCR) a rapid, simplified detection method in which membranes of lateral flow devices (LFDs) are added directly to TaqMan real-time PCR reactions was used to test 202 plant samples collected by plant health inspectors in the field. P. ramorum prevalence within the 202 samples was approximately 40% according to routine testing by isolation or TaqMan real-time PCR. The diagnostic sensitivity and specificity of the rapid detection method were 96.3% and 91.2%, respectively. This method can be used in conjunction with Phytophthora spp. lateral flow devices to reduce the number of samples requiring testing using more laborious conventional methods. The effect of combining prescreening for Phytophthora spp. with P. ramorum-specific tests is discussed in terms of the positive and negative predictive values of species-specific detection when testing samples collected in different inspection scenarios.     

基于流式细胞技术的灵芝基因组大小估测

以药典规定的灵芝正品来源灵芝Ganoderma lucidum作为研究对象,利用已完成全基因组测序的黑曲霉Aspergillus niger作为内标,通过机械破碎菌丝体的方法获得合适浓度的细胞核悬液,碘化丙啶荧光染色后成功应用流式细胞术进行基因组大小估测。经过优化材料培养、样品制备、上机分析等实验条件,估测得出灵芝基因组大小(48.98±0.60)Mb,为灵芝基因组学研究提供重要数据。该方法简捷稳定,在蕈菌范围内,首次得到了全基因组测序数据与光学图谱结果验证,为蕈菌基因组学研究提供重要技术平台。     

High-resolution flow cytometry of nuclear DNA in higher plants

Summary High-resolution flow cytometry of nuclear DNA in higher plants has been performed from chopped plant tissues and plant protoplasts. A preparation and staining procedure with the DNA specific fluorochrome DAPI, successfully employed for precise flow cytometric DNA analysis of animal and human cells has been used in a slightly modified manner for the DNA analysis of plant cell material. High-resolution DNA histograms coefficients of variation about 1–1.5% have been obtained routinely from plant species with different DNA content. Staining of nuclei with DAPI in combination with the protein fluorochrome sulforhodamine 101 allows bi-parametric analysis of nuclear DNA and protein. The described simple and precise method might be very promising for the analysis of DNA in basic and applied cytogenetic investigations of plant cell research.Abbreviations CV coefficient of variation - DAPI 4,6-diamidino-2-phenylindole - SR 101 sulforhodamine 101