Phylogenetic Relationship of Dendranthema （DC.） Des Moul. Revealed by Fluorescent In Situ Hybridization

Phylogenetic relationships of the different species in the genus Dendranthema (DC.) Des Moul. were estimated based on chromosome fluorescent in situ hybridization (FISH) with 18S-26S rDNA of Arabidopsis and genomic DNA of Dendranthema as probes. The results revealed that there was no positive correlation between the number of nuclear organization region (NOR) loci and the ploidy of Dendranthema.The exact cytogenetic information of NORs about 14 operational taxonomic units (OTUs) indicated that D.vestitum (Hemsl.) Ling et Shih was closer to the cultivars than other putative species, whereas D. zawadskii (Herb.) Tzvel. was the most distinct. The ambiguously distributed signals of genomic in situ hybridization (GISH) with genomic DNA of lower ploidy species as probes suggested that different genomes among Dendranthema were mixed. The result also indicated the limitation of GISH in studies on the phylogenetic relationships of the different species in this genus Dendranthema and on the origin of cultivated chrysanthemums. Based on these results and previous research, the origin of Chinese cultivated chrysanthemum is discussed.     

体外诱导分化神经细胞的原位分子杂交方法

经１×１０－６ｍｏｌ／Ｌ视黄酸诱导的Ｐ１９细胞体外可向神经方向分化,接种于多聚赖氨酸（ｐｏｌｙＤｌｙｓｉｎｅ）和纤连蛋白（ｆｉｂｒｏｎｅｃｔｉｎ）包被的玻片后,细胞逐渐聚集成团,此时细胞的贴壁性较差,进行原位分子杂交时容易脱落。我们尝试在细胞表面覆盖一层明胶,减少了细胞的脱落,又比较了蛋白酶Ｋ和胃蛋白酶对细胞蛋白质的消化作用,确定胃蛋白酶可较温和地消化细胞蛋白质,使探针有效地透入结合,杂交后细胞亦能较完整地保留于玻片上。     

小偃6号背景下黑麦遗传物质的荧光原位杂交分析

利用普通小麦(Triticum aesttvum L.)"小偃6号"与黑麦(Secale cereale L.)品种"德国白粒"杂交,选育出"小偃6号"类型带有黑麦性状的种质材料.应用总基因组原位杂交(GISH)进行检测,在8份材料中探测到黑麦染色质的存在,其中附加系3个,代换系1个,易位系4个;进一步用荧光绿标记探针pScll9.2及荧光红标记探针pAsl的双色荧光原位杂交(FISH)技术,对其中部分品系的染色体组成进行分析鉴定,结果表明:易位系BCll6-1是1RS/1BL小麦/黑麦易位系,BCl52-l是涉及一条lB染色体的1RS/1BL易位系,代换系BC97-2是2R(2D)二体代换系;附加系BCl22-3附加了一条6R黑麦染色体,一条6B染色体的长臂缺失.同时,对连续的总基因组原位杂交和双色荧光原位杂交技术在小麦育种中的应用进行了讨论.     

RNA原位杂交技术的一些应用技巧

目的:检测基因在动物组织或细胞中的时空表达模式。方法:转录反义RNA探针;利用RNA原位杂交技术检测人和小鼠牙原基中若干基因的表达。结果与结论:通过优化条件,转录出完整的反义RNA探针,并成功地利用RNA原位杂交技术在组织中检测到基因的表达;分析了一些在RNA原位杂交的过程中可能碰到的问题及其解决方法。     

In Situ Hybridization of Lilium Whole Mount Synaptonemal Complex Chromosomal Preparations

Whole mount meiotic preparations of the synaptonemal complex complement of Lilium have been used for in situ hybridization experiments. A probe of the maize ribosomal DNA gene cluster has been successfully hybridized to the lily preparations. Three strong signals, corresponding to the three known lily nucleolus organizer regions, have been seen in most of the chromosome preparations. In situ hybridization experiments using meiotic preparations should be useful for identifying specific chromosomes, and for investigating the role of particular DNA molecules important to meiotic function.     

Variations of 18S rDNA Loci Among Six Populations of Paeonia obovata Maxim. （Paeoniaceae） Revealed by Fluorescence In Situ Hybridization

The localization of 18S ribosomal RNA genes （rDNA） by fluorescence in situ hybridization （FISH） had been performed for some species of Paeonla. However, the pattern of 18S rDNA loci among populations Is Indistinct. In the present study, we localized 18S rDNA loci on meiotic or mitotic chromosomes of six populations of Paeonla obovata Maxim. （Paeonlaceae）. Different numbers of rDNA loci were found with different diploid （2n=10） populations, namely eight （Lushl and Mt. JIuhua populations）, 10 （Mt. Talbal population）, and seven （Mt. Guandl population）, whereas tetraplold （2n=20） populations were all found with 16 loci. Aii rDNA loci were mapped near teiomeres of mitotic chromosomes and there was no chromosome with two loci. The present results show that molecular cytological polymorphlsm exists among P. obovata diploid populations, Indicating that structural variations occurred frequently during the evolutionary history of this species, accompanied with differentiation among populations.     

荧光原位杂交技术在医学微生物学中的应用

以16S rRNA 为靶序列的寡核苷酸探针荧光原位杂交技术已广泛应用于分析复杂环境中的微生物群落构成,包括监测和鉴定病原微生物以及未被培养微生物．通过对临床样品中微生物细胞的检测能提供微生物在人体中的种类、数量和空间分布等信息．其结果快速准确,较之传统的病原微生物诊断方法具有明显的优越性,在临床应用中有广泛的前景．     

A Simple and Reliable Technique to Combine Oligonucleotide Probe in Situ Hybridization with Neuronal Tract Tracing in Vertebrate Embryos

We describe a simple and reliable combination of in situ hybridization with neuronal tracing. The technique uses recent advances in the field of neuronal tract tracing including fast diffusing, low molecular weight dextran amines and fade resistant fluorescent dyes, and combines them with in situ hybridization using a sensitive Oligonucleotide probe. Using this technique we have investigated the mRNA encoding the trkB receptor for brain-derived neurotrophic factor in identified facial and vestibular afferent and efferent neurons. We found very low levels of trkB mRNA in facial efferent neurons, whereas in the vestibular afferent neurons, clear labeling for the trkB mRNA could be seen. This technique can be applied to the developing embryo to study topology of a variety of cellular markers with reference to neuronal population or fibers identified by their origin or target.     

Detection of Bacteria in Phagocyte-Smears from Septicemia-Suspected Blood by In Situ Hybridization Using Biotinylated Probes

We report herein the detection of intracellular bacteria in phagocyte-smears obtained from septicemia-suspected blood samples by in situ hybridization. This was obtained by using nick-translated biotin-11-dUTP-labeled DNA probes and streptavidin-alkaline phosphatase conjugates for visualization of the hybridized signals. The probes were made from random genomic DNA clones of bacteria which are frequently the causative agents of bacteremia, such as Staphylococcus spp., Pseudomonas aeruginosa, Enterococcus faecalis, Escherichia coli, Klebsiella spp. and Enterobacter spp. When our in situ hybridization method was compared with conventional culture protocols for the ability to detect bacteria from the blood of patients suspected of having septicemia, 30 positive results were obtained in 50 specimens by in situ hybridization methods. In contrast, only 7 positive results were obtained by blood cultures. Thus, even if bacteria cannot be detected by conventional blood cultures and histology, our in situ hybridization method allows for direct observation of bacterial foci in circulating phagocytes and identification of the bacteria. Our investigations suggest that in septicemia, circulating polymorphonuclear neutrophils carry some surviving bacteria as well as metabolized bacterial DNA and RNA for a considerable period of time. Thus, our in situ hybridization method using the phagocyte-smears have diagnostic value for detecting most bacteria which cause septicemia.     

Human Papillomavirus Detection In Cervical Cells By In Situ Hybridization With Biotinylated Probes

We have investigated the applicability of human papillomavirus (HPV) DNA detection by in situ hybridization with biotinylated probes in epithelial cells obtained from the cervix using a cotton tip swab. We describe a simple procedure for obtaining homogeneous cell samples and good preservation of cellular structure. This is achieved by pretreatment of cells with L-cysteine before hybridization. Separate denaturation of cellular DNA and probe DNA is also necessary for satisfactory results. Both benign HPV DNA 6/11 and potentially oncogenic HPV DNA 16/18 could be identified in our series. In situ hybridization on cervical scrapes is a rapid, simple and very specific method for detecting patients infected with oncogenic HPV types.     

In Situ Hybridization at the Electron Microscopic Level Using a Bromodeoxyuridine Labeled DNA Probe

A bromodeoxyuridine (BrdU) labeled DNA probe was used for in situ hybridization at the electron microscopic (EM) level. A BrdU labeled DNA probe was hybridized in situ to cryostat sections of paraformaldehyde fixed OCT compound embedded cultured HL-60 cells. After hybridization, some sections were incubated with FITC-conjugated anti-BrdU monoclonal antibody for fluorescence microscopy (FM). and others were embedded in Quetol for electron microscopy (EM). The ultrathin sections of Quetol-embedded specimens were incubated with the anti-BrdU monoclonal antibody and the immunoglobulin: gold colloid. In both FM and EM studies, the signals were concentrated in the rough endoplasmic reticulum. Moreover, some label was arranged from the nucleus to the cytoplasm at the EM level. Relatively simple methods using the BrdU labeled DNA probe for the detection of the defined nucleic acid sequence with reasonable tissue preservation and high resolution are described here. This method may be useful for developmental and disease related studies of specific mRNA in cells and tissues.     

用原位杂交法定位猪乳铁蛋白基因于染色体2q^12

本研究以非放射性标记的猪乳铁蛋白（Ｐｏｒｃｉｎｅ Ｌｉａｃｔｏｆｅｒｒｉｎ简称ＰＬＦ）ｃＤＮＡ为探针,通过染色体原位杂交法,对ＰＬＦ基因了染色体进行了染色体定位。实验中采用金胶抗体技术并结合使用银增强系统,提高了方法的灵敏度。利用染色体的组型分析,对杂交点的分布进行了统计学分析。５２％（２６／５０）的分裂相在第２号染色体具银粒分布,实验结果表明：ＰＬＦ基因定位于猪２号染色体２ｑ＾１２区域。     

Evaluation of the Phylogenetic Diversity of Prokaryotic Microorganisms in Sphagnum Peat Bogs by Means of Fluorescence In Situ Hybridization (FISH)

The microbial population of sphagnum peat bogs of northern Russia was analyzed with respect to the presence and cell numbers of representatives of particular phylogenetic groups of prokaryotes by means of in situ hybridization with fluorescently labeled group-specific rRNA-targeted oligonucleotide probes with broad detection spectra. The total number of cells that hybridized with universal Archaea- and Bacteria-specific probes varied, in peat samples of different bogs, from 45 to 83% of the number of cells revealed by DAPI staining. Down the bog profiles, the total number of prokaryotes and the fraction of archaea among them increased. Application of a set of oligonucleotide probes showed that the number of microorganisms belonging to such phylogenetic lineages of the domain Bacteria as the phyla Proteobacteria, Bacteroidetes, Actinobacteria, Firmicutes, Acidobacteria, and Planctomycetes constituted, in total, 14.0–26.5% of the number of eubacteria detected in the samples. Among the bacteria identified in the peat samples, the most abundant were representatives of the classes Alphaproteobacteria and Betaproteobacteria and the phyla Acidobacteria, Bacteroidetes, and Actinobacteria.     

Genetic Relationships Among Five Basic Genomes St,E,A,B and D in Triticeae Revealed by Genomic Southern and in situ Hybridization

The St and E are two important basic genomes in the perennial tribe Triticeae (Poaceae). They exist in many perennialspecies and are very closely related to the A, B and D genomes of bread wheat (Triticum aestivum L.). Genomic Southernhybridization and genomic in situ hybridization (GISH) were used to analyze the genomic relationships between the twogenomes (St and E) and the three basic genomes (A, B and D) of T. aestivum. The semi-quantitative analysis of the Southernhybridization suggested that both St and E genomes are most closely related to the D genome, then the A genome, andrelatively distant to the B genome. GISH analysis using St and E genomic DNA as probes further confirmed the conclusion.St and E are the two basic genomes of Thinopyrum ponticum (StStE~eE~bE~x) and Th. intermedium (StE~eE~b), two perennialspecies successfully used in wheat improvement. Therefore, this paper provides a possible answer as to why most of thespontaneous wheat-Thinopyrum translocations and substitutions usually happen in the D genome, some in the A genomeand rarely in the B genome. This would develop further use of alien species for wheat improvement, especially thosecontaining St or E in their genome components.     

Genetic Relationships Among Five Basic Genomes St, E, A, B and D in Triticeae Revealed by Genomic Southern and in situ Hybridization

The St and E are two important basic genomes in the perennial tribe Triticeae （Poaceae）. They exist in many perennial species and are very closely related to the A, B and D genomes of bread wheat （Triticum aestivum L.）. Genomic Southern hybridization and genomic in situ hybridization （GISH） were used to analyze the genomic relationships between the two genomes （St and E） and the three basic genomes （A, B and D） of T. aestivum. The semi-quantitative analysis of the Southern hybridization suggested that both St and E genomes are most closely related to the D genome, then the A genome, and relatively distant to the B genome. GISH analysis using St and E genomic DNA as probes further confirmed the conclusion. St and E are the two basic genomes of Thinopyrum ponticum （StStE^eE^bE^x） and Th. intermedium （StE^eE^b）, two perennial species successfully used in wheat improvement. Therefore, this paper provides a possible answer as to why most of the spontaneous wheat-Thinopyrum translocations and substitutions usually happen in the D genome, some in the A genome and rarely in the B genome. This would develop further use of alien species for wheat improvement, especially those containing St or E in their genome components.