BEL-7404人肝癌细胞甲胎蛋白基因表达的原位杂交与免疫细胞化学研究

本文用地高辛标记的甲胎蛋白（ＡＦＰ）ｃＤＮＡ探针原位杂交和免疫细胞化学方法观察到,几乎所有的ＢＥＬ－７４０４人肝癌细胞均能表达ＡＦＰｍＲＮＡ和相应的蛋白。     

植物基因表达的组织原位杂交和原位组织化学分析技术的改进

改良了组织原位杂交和原位酶组织化学分析的方法。主要改进有：原位杂交采用简化的ＦＡＡ固定程序,常规石蜡包埋,切片时采取液氮深冷冻;以随机引物法标记的ＤＮＡ代替转录标记的ＲＮＡ作探针,在保湿盒中进行杂交,而不用矿物油覆盖。组织化学分析中用含铁氰化钾的显色液进行ＧＵＳ染色后再包埋、切片的程序,代替先包埋、切片再显色的常规方法,可最大限度地保持酶活性的真实性。     

大鼠脊髓心房利钠肽的基因表达

用地高辛配基标记的ＡＮＰｃＤＮＡ作为探针,与大鼠脊髓腰段切片原位杂交,观察到杂交反应阳性神经元主要分布于前角（ⅨⅧ层）,少数中间带（Ⅶ层）和后角基部（Ⅶ层）。脊髓中央管室管膜上皮呈弱阳性反应。结果提示脊髓前角神经元和中央管室管膜上皮存在着ＡＮＰｍＲＮＡ,能内源性合成ＡＮＰ。     

对与小鼠胚胎发育相关的印记基因Mcts2的研究

目的：对与小鼠胚胎发育相关的印记基因Mcts2表达模式及生物学功能做初步的分析。方法：采用切片原位杂交,全胚胎原位杂交,Northern blot和real-time PCR对该基因进行了表达谱的分析。结果：切片原位杂交结果显示Mcts2基因在E13.5和E15.5胚胎中的脑、舌、心脏、肺脏、肝脏、肾脏等重要脏器中都有普遍表达。全胚胎原位杂交结果显示Mcts2基因在E10.5胚胎中的前脑、前肢、尾芽中出现较强的信号,其他部位信号较弱。Northern和Real-time PCR实验分析了Mcts2基因在E12.5,E15.5,E18.5胚胎和新生小鼠的脑、心脏、肺脏、肝脏和肾脏中的表达谱,发现Mcts2基因在这几个主要发育时期都有普遍表达,在E15.5胚胎中表达信号最为强烈。结论：Mcts2基因在小鼠胚胎的发育的各主要时期的重要脏器中都有普遍的表达,提示该基因在小鼠胚胎发育过程中起到了重要的作用。     

RNA原位杂交技术及其在植物基因表达研究中的应用

原位杂交 ( In situ Hybridization)是一种在细胞水平上研究基因表达调控的最直接有效的分子生物学技术。这一技术最初应用于动物染色体上的基因物理定位 〔1〕和特定 m RNA在组织中的空间定位〔2〕,后来又作为诊断工具检测感染病毒的细胞 〔3〕。到 80年代后期 ,原位杂交技术开始应用于植物基因表达调控的研究 〔4～ 6〕。植物基因的时空表达研究是探讨植物生长发育机制的重要手段。由于 RNA原位杂交技术能够精确确定基因表达的时空分布 ,而得到了越来越广泛的应用 ;从营养器官生长发育〔7～ 9〕、生殖器官生长发育〔10～ 13〕、自交不…     

Sequence and expression analysis of a Xenopus laevis cDNA which encodes a homologue of mammalian 14-3-3 zeta protein

We report the cloning and characterisation of a cDNA that encodes a novel member of the Xenopus laevis 14-3-3 protein family. Sequence analysis reveals that the cDNA-encoded protein shares 84% identity with the rat, human or sheep 14-3-3ζ isoform, and between 66% and 77% identity with bovine, human or rat β, bovine γ, human τ, Drosophila 14-3-3 and a previously isolated Xenopus member. The corresponding mRNA is present in all adult tissues examined with the highest levels in the brain. Although the gene is expressed throughout embryogenesis, higher levels of mRNA accumulate after gastrulation. Whole-mount in situ hybridisation on tailbud stage embryo reveals strong expression of the gene in the head, optic vesicles, spinal cord and branchial arches with weaker expression in the somites. In addition, expression along the notochord is observed at stage 45 (tadpole). This spatial and temporal expression profile along with recent studies implicating the importance of 14-3-3 proteins in the regulation of signal transduction pathways argues for a key role of this isoform in embryonic development.     

Altered transferrin gene expression in preneoplastic and neoplastic liver lesions induced in rats with N-nitrosomorpholine

The expression of the gene for the iron transport protein transferrin was found to be altered in preneoplastic and neoplastic lesions induced in the rat liver by N-nitrosomorpholine. The total RNA of ten hepatocellular carcinomas (HCC) was investigated by Northern blot analysis using a cDNA-probe comprising 150 bp of the 3′ region and compared with the total hepatic RNA in untreated rats. Seven hepatocellular carcinomas showed slight or pronounced reduction in transferrin expression. In situ hybridization of two additional hepatocellular carcinomas revealed marked reduction in the mRNA level for the transferrin gene compared with the surrounding tissue. In contrast, the majority of early preneoplastic lesions storing excess glycogen and tigroid cell foci expressed increased levels of transferrin mRNA. The loss of glycogen in mixed cell foci, which represent a later stage of hepatocarcinogenesis, was usually accompanied by a decrease in transferrin mRNA suggesting a close relationship between this change in gene expression and cellular dedifferentiation emerging during hepatocarcinogenesis.     

Expression and histochemical localization of ciliary neurotrophic factor in cultured adult rat dorsal root ganglion neurons

Ciliary neurotrophic factor (CNTF) is abundantly expressed in Schwann cells in adult mammalian peripheral nerves, but not in neurons. After peripheral nerve injury, CNTF released from disrupted Schwann cells is likely to promote neuronal survival and axonal regeneration. In the present study, we examined the expression and histochemical localization of CNTF in adult rat DRG in vivo and in vitro. In contrast to the restricted expression in Schwann cells in vivo, we observed abundant CNTF mRNA and protein expression in DRG neurons after 3 h, 2, 7, and 15 days in dissociated cell culture. At later stages (7 and 15 days) of culture, CNTF immunoreactivity was detected in both neuronal cell bodies and regenerating neurites. These results suggest that CNTF is synthesized and transported to neurites in cultured DRG neurons. Since we failed to observe CNTF immunoreactivity in DRG neurons in explant culture, disruption of cell–cell interactions, rather than the culture itself, may be an inducible factor for localization of CNTF in the neurons.     

Identification of grapevine aquaporins and expression analysis in developing berries

Aquaporins are membrane water channels that play critical roles in controlling the water content of cells and tissues. In this work, nine full-length cDNAs encoding putative aquaporins were isolated from grape berry cDNA libraries. A phylogenetic analysis conducted with 28 aquaporin genes identified in the grapevine genome and previously characterized aquaporins from Arabidopsis indicates that three cDNAs encode putative tonoplast aquaporins (TIPs) whereas six cDNAs belong to the plasma membrane aquaporin subfamily (PIPs). Specific probes designed on the 3' untranslated regions of each cDNA were used for the preparation of cDNA macroarray filters and in situ hybridization experiments. Macroarray data indicate that expression levels of most TIP and PIP genes depend on grape berry developmental stages and point out to a global decrease of aquaporin gene expression during berry ripening. In young berries, high expression of aquaporin genes was preferentially observed in dividing and elongating cells and in cells involved in water and solutes transport. Taken together, the data provided in this paper indicate that aquaporins are implicated in various physiological aspects of grape berry development.     

人胃窦部胃泌素和生长抑素及其相关mRNA表达和定位的研究

目的：了解人胃窦粘膜内胃泌素和生长抑素及其mRNA在细胞内的表达和定位。方法：用免疫细胞化学和原位杂交技术。结果：G细胞内的胃泌素主要位于细胞的基部和侧部,而其mRNA则位于核周和核上区;D细胞内的生长抑素不仅位于细胞的基部,也见于细胞突起,其mRNA则位于核周、核上区以及突起。G、D细胞均有开放型和闭合型。结论：G细胞为内分泌方式,而D细胞在人胃窦部可能存在两种细胞亚群,除旁分泌外,也有内分泌方式。     

在大肠杆菌中分泌型表达人α心钠素衍生物

<正> 我们化学合成及克隆了α-ANF基因井将其重组于大肠杆菌分泌型表达质粒pIN-Ⅲ-OmpA进行表达;表达产物为N端多11肽的39肽α-ANF类似物,完全分泌至培养外液中;生物学活性测定表明,表达产物具有与天然心钠素相同的免疫活性及降压、利尿和舒张血管的生物活性。     

外源基因在转基因油菜染色体上的定位及分析

原位杂交技术 ( in situ hybridization,ISH)是基因定位的主要技术之一。近来 ,随着植物细胞染色体制片技术的发展 ,以及酶联放大检测系统的采用 ,在植物中已有低拷贝和单拷贝甚至小于 1 kb的 DNA序列定位的成功报道 [1 ,2 ]。染色体原位杂交技术不仅可以用于基因的物理作图 ,而且可以用来对转基因植物中的外源基因进行染色体定位 [3 5] 。研究表明 ,外源目的基因在转基因植物中的表达与整合位点有关 [6] 。因而 ,进行外源基因在转基因植物染色体上的定位以及研究外源基因的整合位点与表达之间的关系 ,对于开发和利用转基因植物具有重要…     

Regional distribution and cellular expression of tryptophan hydroxylase messenger RNA in postmortem human brainstem and pineal gland

The characterization and cellular localization of tryptophan hydroxylase mRNA in the human brainstem and pineal gland were investigated by using northern blot analysis and in situ hybridization histochemistry. Northern analysis of human pineal gland revealed the presence of two mRNA species that were absent in RNA isolated from human raphe. In situ hybridization experiments revealed very dense hybridization signal corresponding to tryptophan hydroxylase mRNA in cells throughout the pineal gland. In contrast, tryptophan hydroxylase mRNA was heterogeneously distributed in neurons in the dorsal and median raphe nuclei. Within the dorsal raphe, the ventrolateral and interfascicular subnuclei contained the greatest number of tryptophan hydroxylase mRNA-positive neurons. Also, the cellular concentration of tryptophan hydroxylase mRNA varied widely within the dorsal and median raphe. Comparison of the cellular concentration of tryptophan hydroxylase mRNA between the pineal gland and the raphe nuclei revealed an 11- and 46-fold greater average grain density of tryptophan hydroxylase mRNA positive cells in the pineal gland compared with the dorsal and median raphe, respectively. These findings are the first to demonstrate the cellular localization of tryptophan hydroxylase mRNA in the human brain and pineal gland as well as heterogeneity in the cellular concentration within and between these tissues.