玉米自交系间遗传距离与产量杂种优势,杂种产量的关系

以13个玉米自交系及其按双列杂交配制的78个单交种为材料,研究性状选择、亲本选择对遗传距离与产量杂种优势、杂种产量关系的影响,结果表明:(1)当性状数较少时,遗传距离与产量杂种优势、杂种产量的关系因性状的不同而异;当性状数较多时,遗传距离与产量杂种优势、杂种产量的关系为抛物线,受性状影响较小;(2)当所选亲本材料的遗传差异较大时,遗传距离与产量杂种优势的关系为抛物线;当所选亲本材料的遗传差异较小时,遗传距离与产量杂种优势的关系为直线或不相关。     

小鼠精母细胞联会复合体RNA组分的电镜研究

本文运用常规染色和Bernhard染色方法对切片标本中小鼠粗线期精母细胞联会复合体(SC)的超微结构和电镜细胞化学特点进行了研究。经常规染色后,可见SC由侧生组分(LE)、中央组分(CE)和L-C纤维组成;SC宽约210nm,LE宽约60nm,中央间隔区宽约90nm。在Bernhard染色标本中,SC的LE、CE和L-C纤维着色较深,说明其中含有RNA;SC各结构组分的宽度和形态特点与常规染色标本中的基本一致。本文讨论了SC中存在有RNA等问题。     

倭竹属地理分布的研究

倭竹属Shibataea Makino隶于禾本科之竹亚科,现已知有8种,分布于我国东南部的浙江、福建、江苏、安徽、江西等省,广东、台湾两省有少量栽培,日本产1种。苏联、西德、印尼等国所栽培的倭竹均系自我国或日本引入。我国浙-闽地区产8种,且都有野生发现,是本属的现代分布中心。倭竹属植物体型矮小,常植于庭院或公园中供观赏。近年来盆景艺术迅速发展,微型园林日益兴起,倭竹属植物体态优美,常绿,耐寒且易于栽培,为广大园林工作者所垂青。     

A dominant Th epitope in influenza nucleoprotein. Analysis of the fine specificity and functional repertoire of T cells recognizing a single determinant.

The sequence 260-283 of the nucleoprotein (NP) of influenza A virus is an epitope recognized by virus-immune lymph node cells from CBA (H-2k), B6 (H-2b), and B10.S (H-2s) mice. Further analysis shows that there are at least two Th epitopes within this sequence: the one close to the N-terminal (p260-273) is recognized by T cells from CBA and B6 mice while that close to the carboxyl-terminal (p270-283) is a dominant Th determinant in B10.S mice. The fine specificity of the recognition of this epitope by NP-specific T cell clones is also studied. When B10.S mice were infected intranasally or i.v. with live influenza virus, or immunized by different ways with various Ag preparations, P270-283 persistently emerged as a dominant T cell epitope. Immunization of B10.S mice with peptide p270-283 induces T cells with different in vivo functions including class II-restricted cytotoxicity, cognate help for Ag-specific antibody synthesis and delayed type hypersensitivity. This may have important implications for the understanding of the differentiation and classification of subsets of CD4+ T cells. The corresponding sequence of the NP of an equine influenza virus, A/Eq/Prague/56, which has a substitution (leucine to proline) at position 283, was not recognized by the lymph node cells from mice primed with either A/Okuda or A/Eq/Prague. However, the peptide, p270-283(E), representing this sequence induced T cell responses to both human and equine viruses. The data are discussed with respect to the development of viral vaccines.     

Serine-palmitoyl transferase activity in cultured human keratinocytes

Sphingolipids comprise approximately 25% of the stratum corneum lipids and are considered critical constituents of the epidermal permeability barrier. Whether sphingoid base structures are synthesized in the epidermis or whether they are derived from circulating or dermal sources is not known. We report here the initial characterization of serine-palmitoyl transferase (EC 2.3.1.50; SPT), the rate-limiting enzyme in the synthesis of sphingolipids, from cultured human neonatal keratinocytes. Subcellular fractionation studies demonstrated that 79% of the total cellular SPT activity was associated with the microsomes. The specific activity of keratinocyte SPT was 270 +/- 20 pmol/min per mg of microsomal protein, a level significantly higher than activities reported in other tissues. Keratinocyte SPT showed an apparent Km for L-serine of 0.40 (+/- 0.04 mM, with an alkaline pH optimum (8.2 +/- 0.4). Keratinocyte SPT utilizes palmitoyl-CoA preferentially over other saturated or unsaturated acyl-CoA substrates; increasing acyl-CoA chain lengths above C16 by one or two carbons was less detrimental to activity than similar decrements in chain length. Finally, the mechanism-based inhibitors L-cycloserine and beta-chloro-L-alanine, demonstrated potent inhibition of keratinocyte SPT activity, with 50% inhibitory concentrations of approximately 3.0 and 25 microM, respectively. In summary, we have found that cultured human neonatal keratinocytes contain unusually high levels of serine-palmitoyl transferase activity, and that the substrate specificity of keratinocyte SPT may determine the base composition of epidermal sphingolipids.     

The biological effect of sodium butyrate (NaBT) on SGC-7901 cells

Changes of (Na+-K+)-ATPase activity, cAMP and fibronectin (FN) content and cell surface microvilli were studied cytochemically, immunocytochemically and scanning electron microscopically on human stomach Glandular carcinoma (SGC-7901) cells treated with NaBT(2.5 mM). It was found that NaBT not only inhibited cell growth but also remarkably decreased the activity of cell surface (Na+-K+)-ATPase of SGC-7901 cells. Note worthy was that, in comparison with the untreated tumor cells, the increase of the intensity of intracellular cAMP and FN immunofluorescence in NaBT-treated tumor cells was striking. Moreover, in contrast to untreated tumor cells, the cell surface of NaBT-treated tumor cells showed more smooth and fewer microvilli under SEM. That NaBT may induce differentiation of SGC-7901 cells through inhibition of (Na+-K+)-ATPase activity and modulation of cellular cAMP and FN content was discussed.