小麦中期染色体银染蛋白的分析

对小麦中期染色体中银染蛋白的大小、形状和分布频率进行图像分析,看到：染色体顺的银染蛋白以颗粒状的形式存在,其大小不同,分布不均匀,数量差异也较大;从形状来看,大的银粒为点状,小的银粒有的为点状,有的实际为短纤维状,结果表明：染色体骨架在小麦中是真实存在的,骨架蛋白以颗粒和纤维状的形式分布于整个染色体中。     

龙牙百合3个地方品种的形态特征及核型分析

采用经典测量和染色体常规压片法,对龙牙百合（Lilium brownii var.viridulum Baker）3个地方品种的形态特征及核型进行研究。植株形态分析结果显示：‘江西’龙牙的株高、开花口径、种球重量和周长、中外层鳞片重量和长度以及鳞片扦插产生小鳞茎数等指标均显著大于‘大叶’龙牙和‘平头’龙牙;‘大叶’龙牙的叶片最长,均值为14.54 cm。花粉、叶表皮气孔及鳞片淀粉粒的微形态特征分析结果显示：‘江西’龙牙的花粉粒径最大,均值达111.76 μm;‘平头’龙牙的叶表皮气孔最长,气孔密度也最大（约47.6个/mm²）;‘大叶’龙牙的淀粉粒径最大,均值为47.61 μm;‘江西’龙牙的淀粉粒大小分布更集中,差异性小。染色体核型分析结果显示：龙牙百合3个品种的染色体数目均为2n=2x=24,为二倍体,其中‘江西’龙牙核型公式为2n=2x=24=2m（2SAT）+6sm（2SAT）+12st（4SAT）+4t;‘平头’龙牙核型公式为2n=2x=24=4m+8sm+10st（4SAT）+2t;‘大叶’龙牙核型公式为2n=2x=24=2m（2SAT）+6sm+14st（4SAT）+2t,三者核型均为3B型。     

HBsAg阴性母亲的新生儿接种不同剂量乙型肝炎血源疫苗的效果

HBsAg阴位母亲的新生儿,按0,1、6月程序分别接种10-10-10μg(1组)、20-10-10μg(2组)和30-10-10μg(3组)乙型肝炎血源疫苗。第一针后一年,检查抗-HBs阳转率,分别为87.60％,90.64％和88.97％,无统计学显著差异。3针10μg组免疫后l～4年抗-HBs阳性率分别为88.31％、81.08％、80.10％和78.39％,虽稍下降,但无统计学显著差异。3个剂量组HBsAg阳性率分别为0.71％,0.49％和0.74％,说明HBsAg阴性母亲的新生儿,用国产血源HBsAg疫苗免疫以10μ×3效果较理想。     

利用简便微量法定量检测肠道正常菌群

利用简便微量法定量检测肠道正常菌群中的双歧杆菌和肠杆菌,10次检测结果与常规法无显著性差异。简便微量法主要优点是简便易行,节省人力物力和时间。     

Structural and functional relationships of human DNA polymerases

A continuing theme of our laboraory, has been the understanding of human DNA polymerases at the structural level. We have purified DNA polymerases delta, epsilon and alpha from human placenta. Monoclonal antibodies to these polymerases were isolated and used as tools to study their immunochemical relationships. These studies have shown that while DNA polymerases delta, epsilon and alpha are discrete protiens, they must share common structural features by virtue of the ability of several of our monoclonal antibodies to exhibit cross-reactivity. A second approach we have taken is the molecular cloning of human DNA polymerase delta and epsilon. We have cloned the DNA polymerase delta cDNA, and this has allowed us to compare its primary structure to those of human polymerase alpha and other members of this polymerase family. Multiple sequence alignments have revealed that human DNA polymerase delta is also closely related to the herpes virus family of DNA polymerases. In situ hybridization has shown that the human DNA polymerase delta gene is localized to chromosome 19 q13.3–q13.4. In order to further determine the functional regions of the DNA polymerase δ structure we are currently expressing human pol δ inE. coli and baculovirus systems. Other work in our laboratory is directed toward examining the expression of DNA polymerase δ during the cell cycle.     

Chromosome organization revealed upon the decondensation of telophase chromosomes inAllium

Chromosomes of root tip cells ofAllium cepa andAllium sativum were studied in early, middle and late telophase to examine the organization of mitotic chromosomes, taking advantage of the naturally occurring chromosome dispersion during the process of decondensation in telophase. Longitudinal and transverse sections of telophase chromosomes viewed under the transmission electron microscope showed that mitotic chromosomes inAllium were composed of helically coiled 400–550 nm chromatin fibres. In some regions of the longitudinal sections, these chromatin fibres were seen to be orientated parallel to one another but formed roughly a right angle to the long axis of the chromosome. In transverse sections, the telophase chromosome appeared to have a hollow centre encircled by the 400–550 nm chromatin fibre which in turn was a hollow tube structure formed by the coiling of a thinner fibre of 170–200 nm. In addition, cross views of chromatin fibres of 170–200 nm and 50–70 nm were also identified in telophase chromosome preparations. These two organizational levels of chromatin fibres also showed a hollow centre. The process of decondensation of telophase chromosomes is described, and some morphological characteristics associated with the activities of chromosome decondensation are analysed. Based on the observations made onAllium chromosomes in this study, various models of chromosome organization are discussed.     

A mechanism coordinating root elongation,endodermal differentiation,redox homeostasis and stress response

Root growth relies on both cell division and cell elongation, which occur in the meristem and elongation zones, respectively. SCARECROW (SCR) and SHORT-ROOT (SHR) are GRAS family genes essential for root growth and radial patterning in the Arabidopsis root. Previous studies showed that SCR and SHR promote root growth by suppressing cytokinin response in the meristem, but there is evidence that SCR expressed beyond the meristem is also required for root growth. Here we report a previously unknown role for SCR in promoting cell elongation. Consistent with this, we found that the scr mutant accumulated a higher level of reactive oxygen species (ROS) in the elongation zone, which is probably due to decreased expression of peroxidase gene 3, which consumes hydrogen peroxide in a reaction leading to Casparian strip formation. When the oxidative stress response was blocked in the scr mutant by mutation in ABSCISIC ACID 2 (ABA2) or when the redox status was ameliorated by the upbeat 1 (upb1) mutant, the root became significantly longer, with longer cells and a larger and more mitotically active meristem. Remarkably, however, the stem cell and radial patterning defects in the double mutants still persisted. Since ROS and peroxidases are essential for endodermal differentiation, these results suggest that SCR plays a role in coordinating cell elongation, endodermal differentiation, redox homeostasis and oxidative stress response in the root. We also provide evidence that this role of SCR is independent of SHR, even though they function similarly in other aspects of root growth and development.