铬污染人工湿地薏米对铬的积累和分布

通过桶栽构筑微型垂直流人工湿地,在生活污水中添加不同浓度的Cr~(6+)(0、20、40 mg·L~(-1),用K_2Cr_2O_7配置),研究了在铬(Cr)污染条件下薏米不同器官和亚细胞水平对铬的积累及分布。结果表明:薏米根茎叶铬含量均随铬处理浓度的提高和处理时间的延长而显著增加,根部铬含量最高,其次是叶片,茎部铬含量最低。随着铬处理浓度的增加和时间的延长,细胞壁和液泡中的铬含量大幅上升,但细胞器中铬含量上升幅度较低,根部细胞壁、细胞器、可溶部分及液泡铬含量均显著大于茎、叶相关细胞组分,根、茎、叶亚细胞水平铬含量分布均依次为细胞壁液泡细胞器。其中,细胞壁铬含量极显著大于液泡以及其他细胞器,薏米根部把大部分铬隔离在细胞壁中,从而降低了地上部分对铬的吸收,导致地上部分干重、鲜重的受抑制程度均低于根系,表明根部细胞壁是降低铬在薏米体内积累的重要屏障,也是薏米在低浓度铬胁迫下能够存活的根本保证。     

A Systematic Cell‐Based Analysis of Localization of Predicted Drosophila Peroxisomal Proteins

Peroxisomes are membrane‐bound organelles found in almost all eukaryotic cells. They perform specialized biochemical functions that vary with organism, tissue or cell type. Mutations in human genes required for the assembly of peroxisomes result in a spectrum of diseases called the peroxisome biogenesis disorders. A previous sequence‐based comparison of the predicted proteome of Drosophila melanogaster (the fruit fly) to human proteins identified 82 potential homologues of proteins involved in peroxisomal biogenesis, homeostasis or metabolism. However, the subcellular localization of these proteins relative to the peroxisome was not determined. Accordingly, we tested systematically the localization and selected functions of epitope‐tagged proteins in Drosophila Schneider 2 cells to determine the subcellular localization of 82 potential Drosophila peroxisomal protein homologues. Excluding the Pex proteins, 34 proteins localized primarily to the peroxisome, 8 showed dual localization to the peroxisome and other structures, and 26 localized exclusively to organelles other than the peroxisome. Drosophila is a well‐developed laboratory animal often used for discovery of gene pathways, including those linked to human disease. Our work establishes a basic understanding of peroxisome protein localization in Drosophila. This will facilitate use of Drosophila as a genetically tractable, multicellular model system for studying key aspects of human peroxisome disease.      

家蚕血细胞特异表达新基因Bm04862的鉴定及表达

通过家蚕组织芯片数据筛选得到家蚕血细胞特异表达基因Bm04862,并首次对该基因进行了克隆与鉴定。应用RACE技术获得该基因全长,并对其进行生物信息学分析。Bm4862基因开放阅读框819 bp,共编码273个氨基酸残基,预测其为跨膜蛋白;通过q RT-PCR技术对其时空表达情况进行分析;结果显示Bm04862基因在家蚕血细胞中特异高表达,并在4龄眠期和预蛹2 d时达到表达高峰;构建Bm04862真核表达载体,转染Sf9细胞分析其蛋白的亚细胞定位情况,结果表明其定位于细胞核膜和部分细胞质中。此外,用大肠杆菌刺激蚕体24 h后,Bm04862基因表达水平显著上调,表明大肠杆菌可以诱导该基因的表达,由此推测该基因可能参与家蚕的免疫应答。这为深入研究该基因在家蚕免疫反应中的功能提供了参考。     

X-ray microanalysis of ion distribution within root cortical cells of the halophyte Suaeda maritima (L.) Dum.

The ion content of compartments within cortical cells of mature roots of the halophyte Suaeda maritima grown at 200 mol·m^-3 NaCl has been studied by X-ray microanalysis of freeze-substituted thin sections. Sodium and Cl were found in the vacuoles at about four-times the concentration in the cytoplasm or cell walls, whereas K was more concentrated in the cell walls and cytoplasm than in vacuoles. The vacuolar Na concentration was 12- to 13-times higher than that of K. The Na concentration of cell walls of cortical cells was about 95 mol·m^-3 of analysed volume. The cytoplasmic K concentration within the mature cortical cells was estimated to be 55 mol·m^-3 of analysed volume.     

Characteristics of fatty acid-binding proteins and their relation to mammary-derived growth inhibitor

Summary Based on sequence relationships the cytoplasmic fatty acid-binding proteins (FABPs) of mammalian origin are divided into at least three distinct types, namely the hepatic-, intestinal- and cardiac-type. Highly conserved sequences of FABPs within the same type correlate with immunological crossreactivities. Isoforms of hepatic-type FABP are found in several mammalian species and for bovine liver FABP specific shifts in isoelectric points upon lipidation with fatty acids are observed. Isoforms of intestinal-type FABP are not known and the occurrence of cardiac-type isoforms so far is confined to bovine heart tissue. A bovine mammary-derived growth inhibitor (MDGI) is 95% homologous to the cardiac-type FABP from bovine heart. Dissociation constants of FABP/fatty acid complexes are in the range of 1 M and 1:1 stoichiometries are usually found, but the neutral isoform of hepatic FABP from bovine liver binds 2 fatty acids. On subcellular levels hepatic- and cardiac-type FABPs are differently distributed. Though mainly cytosolic in either case, immunoelectron microscopy as well as a gelchromatographic immunofluorescence assay demonstrate the association of hepatic FABP in liver cells with microsomal and outer mitochondrial membranes and with nuclei, whereas in heart cells cardiac FABP is confined to mitochondria' matrix and nuclei. In mammary epithelial cells MDGI is associated with neither mitochondria nor endoplasmic reticulum, and is expressed in a strictly developmental-dependent spatial and temporal pattern. The specific role proposed for MDGI is to arrest growth of mammary epithelial cells when they become committed to differentiation in the mammary gland.     

Subcellular localization of glucosyltransferases involved in cardiac glycoside glucosylation in leaves of Convallaria majalis

The glucosylation of convallatoxin and convallatoxol was investigated using homogenates and various subcellular fractions from leaves of Convallaria majalis. The enzyme activity reached a maximum about 5 weeks after the onset of flowering and was found distributed among the soluble and the light membrane fraction. Upon separation of the light membranes by sucrose density gradient centrifugation, glucosyltransferase activity was found solely in a fraction banding at a density of 1.07 g/cm³, which is thought to represent vacuole membranes.     

Uptake and turnover of65Zn in subcellular fractions of brain of rat under normal and zinc-deficient conditions

After a single injection,⁶⁵Zn is slowly taken up by the brain of the rat to a maximum after 7 d, followed by a turnover phase, with a half-time of about 3 wk. In the brain of rats on a zinc-deficient diet, the⁶⁵Zn content in the brain continued to increase up to 30 d after the injection. The uptake and turnover phases in six different subcellular fractions of the brain showed a pattern similar to that of the whole brain in both the control and zinc-deficient rats. There was no internal redistribution of⁶⁵Zn in the brain under conditions of progressive zinc deficiency. The results are discussed in a model for zinc homeostasis in the brain.     

Cerebral metabolism of plasma [14C]palmitate in awake,adult rat: Subcellular localization

Following intravenous injection of [U-¹⁴C]palmitate in awake adult rats, whole brain radioactivity reached a broad maximum between 15–60 min, then declined rapidly to reach a relatively stable level between 4 hr and 20 hr. At 44 hr total radioactivity was 57% of the 4 hr value (p<0.05). About 50% of palmitate which entered the brain from the blood was oxidized rapidly, producing¹⁴C-labeled water-soluble components which later left the cytosol. Radioactivity in the cytosolic fraction peaked at 45 min and then declined, coincident with the decline in total brain radioactivity. Membrane fractions were rapidly labeled to levels which remained relatively stable from 1 to 44 hr. Increases in the relative distributions of radioactivity were seen between 1 and 4 hr for the microsomal and mitochondrial fractions, and beyond 4 hr for the synaptic and myelin membrane fractions (p<0.05). Radioactivity in membrane fractions was 80–90% lipid, 5–13% water-soluble components and 3–17% protein. The proportion of label in membrane-associated protein increased with time. Proportions of radioactivity in the combined membrane fractions increased from 65% to 76% to 80% at 4, 20 and 44 hr, respectively. The results show that plasma-derived palmitate enters oxidative and synthetic pathways to an equal extent, immediately after entry into the brain. At and after 4 hr, the radiolabel resides predominantly in stable membrane lipids and protein. Brain radioactivity at 4 hr can be used therefore, to examine incorporation of palmitate into lipids in vivo, in different experimental conditions.