小型猪与梅山猪Prop1基因的比较分析

Prop1是一种新发现的参与早期胚胎垂体发育的特异性转录因子。在人和动物均已发现由于该基因突变而引起的综合性垂体功能障碍,进而影响生长和繁殖。小型猪与梅山猪比较,其繁殖力和生长性能差异显著,为了了解这些差异的遗传基础,本试验对五指山猪、藏猪和版纳猪三种小型猪的Prop1基因进行克隆测序,并与已知梅山猪的序列进行对比,结果为:五指山猪与藏猪外显子1第69位发生G-A碱基替换,编码同义氨基酸;藏猪外显子2第115位发生A-G碱基替换,编码终止密码子;藏猪与版纳猪外显子3第466位和第631位均发生C-T碱基替换,第466位藏猪编码同义氨基酸;第631位版纳猪编码丝氨酸(TCC),梅山猪编码脯氨酸(CCC),即两种猪的Prop1基因产物不同。在Prop1基因终止密码下游250左右有一个腺苷酸丰富区,五指山猪与藏猪有15个腺苷酸串联,版纳猪有12个。上述结果为进一步研究大猪和小型猪之间生产性能差异的遗传基础提供了新线索。     

树突状细胞在肾小管间质纤维化中作用及缬沙坦的干预调节

探讨树突状细胞(DC)在肾纤维化大鼠肾小管间质中分布,以及缬沙坦对DC浸润聚集的干预作用。建立肾大部切除大鼠模型,随机分为正常组(n=18),假手术组(n=18),模型组(n=18),缬沙坦治疗组(n=18)。分别于建模1、4、12周取肾组织,采用HE和Masson染色评定各组肾小管间质纤维化(TIF)程度;采用免疫双染及荧光图像分析法,观察DC-SIGN DC在各组大鼠肾组织中分布变化;采用免疫组化方法,观察P-选择素以及TGF-β1、α-平滑肌肌动蛋白(α-SMA)、III型胶元(ColIII)、纤维连接蛋白(FN)在上述肾组织中表达;以及RT-PCR检测P-选择素、TGF-β1、α-SMA、ColIII、FN的mRNA水平。结果显示,(1)模型组DC-SIGN DC主要分布于肾小管、肾间质和肾血管,以肾间质最为明显;其分布数量于12周较1和4周呈明显增多,且与慢性肾功能减退呈正相关。(2)12周时手术组大鼠肾小管间质区P-选择素、TGF-β1、α-SMA、ColIII、FN mRNA转录水平和蛋白质表达均明显增加,并与TIF程度以及DC-SIGN DC分布数量呈正相关。(3)经缬沙坦治疗后,DC-SIGN DC分布减少,以及P-选择素、TGF-β1、α-SMA、ColIII、FN mRNA转录水平和蛋白质表达下降,TIF程度减轻及肾功能改善。研究结果表明,DC启动参与了肾小管间质纤维化形成,并与肾功能损害程度密切相关。缬沙坦对此具有明显的抑制和肾脏保护作用。     

Increased Insect Virulence in Beauveria bassiana Strains Overexpressing an Engineered Chitinase

Entomopathogenic fungi are currently being used for the control of several insect pests as alternatives or supplements to chemical insecticides. Improvements in virulence and speed of kill can be achieved by understanding the mechanisms of fungal pathogenesis and genetically modifying targeted genes, thus improving the commercial efficacy of these biocontrol agents. Entomopathogenic fungi, such as Beauveria bassiana, penetrate the insect cuticle utilizing a plethora of hydrolytic enzymes, including chitinases, which are important virulence factors. Two chitinases (Bbchit1 and Bbchit2) have previously been characterized in B. bassiana, neither of which possesses chitin-binding domains. Here we report the construction and characterization of several B. bassiana hybrid chitinases where the chitinase Bbchit1 was fused to chitin-binding domains derived from plant, bacterial, or insect sources. A hybrid chitinase containing the chitin-binding domain (BmChBD) from the silkworm Bombyx mori chitinase fused to Bbchit1 showed the greatest ability to bind to chitin compared to other hybrid chitinases. This hybrid chitinase gene (Bbchit1-BmChBD) was then placed under the control of a fungal constitutive promoter (gpd-Bbchit1-BmChBD) and transformed into B. bassiana. Insect bioassays showed a 23% reduction in time to death in the transformant compared to the wild-type fungus. This transformant also showed greater virulence than another construct (gpd-Bbchit1) with the same constitutive promoter but lacking the chitin-binding domain. We utilized a strategy where genetic components of the host insect can be incorporated into the fungal pathogen in order to increase host cuticle penetration ability.     

Numerical simulations of surface plasmon resonance system for monitoring DNA hybridization and detecting protein-lipid film interactions

This paper presents a simple method to extract information about thin organic films from surface plasmon resonance (SPR) spectra. From numerical simulations it was found that a shift (Δθ _SPR) of an absorption peak in the SPR spectrum was directly proportional to the product of the thin organic film thickness and the refractive index difference between the thin organic film and a buffer soaking the sample. It was also found that Δθ _SPR was not sensitive to the thin organic film support of a gold film and a glass cover slip. Relationships between Δθ _SPR and distributions of macromolecule structures, in the thin organic films were theoretically established. Formulae were derived for a homemade SPR system to calculate length, transverse area, density and surface concentration of macromolecules in the thin organic film. The validity of these treatments was checked by precisely measuring the size of a single distearoylphosphatidylcholine molecule on a gold-supported phospholipid film; by quantitatively monitoring hybridization of synthesized oligonucleotides strands based on a biotin/avidin system; and by quantitatively detecting the steric hindrance of rabbit C-reactive protein specifically bound to phospholipid monolayers composed of synthesized lipids. Received: 4 May 1998 / Revised version: 27 July 1998 / Accepted: 27 August 1998     

Comparison of Erysiphe cichoracearum and E. cruciferarum and a survey of 360 Arabidopsis thaliana accessions for resistance to these two powdery mildew pathogens

In previous work, UEA1 and UCSC1, two geographically distinct, powdery mildew isolates, were recognized for their ability to infect Arabidopsis thaliana. We have clarified the identity of these isolates by determining their host ranges, reexamining their morphology, and comparing their DNA sequences for the 5.8S ribosomal RNA and two flanking internal transcribed spacer sequences. These experiments confirm that UEA1 is a member of Erysiphe cruciferarum and that UCSC1 belongs to E. cichoracearum. Interactions of the two Erysiphe isolates with 360 A. thaliana accessions were examined to provide a comprehensive profile of naturally occurring powdery mildew resistance in this weedy species. The majority of A. thaliana accessions (213) were susceptible to both isolates. Among the accessions exhibiting some degree of resistance, most (84) responded differentially to UEA1 and UCSC1 and the remainder were resistant to both isolates. Notably, resistance to UCSC1 cosegregated with RPW7, a locus previously demonstrated to confer resistance to UEA1 in Ms-0 x Landsberg (erecta) crosses. With this large collection of resistant accessions, questions about species specificity, genetic diversity and the evolution of resistance to powdery mildews can be addressed.     

An Acidic Cluster in the Cytosolic Domain of Human Cytomegalovirus Glycoprotein B Is a Signal for Endocytosis from the Plasma Membrane

We previously reported that human cytomegalovirus (CMV) glycoprotein B (gB) is transported to apical membranes in CMV-infected polarized retinal pigment epithelial (ARPE-19) cells and in Madin-Darby canine kidney (MDCK) epithelial cells constitutively expressing gB. The cytosolic domain of gB contains a cluster of acidic amino acids, a motif that plays a pivotal role in vectorial trafficking in polarized epithelial cells and may also function as a signal for entry into the endocytic pathway. Here we compared gB internalization and recycling to the plasma membrane in CMV-infected human fibroblasts (HF) and ARPE-19 cells by using antibody-internalization experiments. Immunofluorescence and quantitative assays showed that gB was internalized from the cell surface into clathrin-coated transport vesicles and then recycled to the plasma membrane. gB colocalized with clathrin-coated vesicles containing the transferrin receptor in the early endocytic/recycling pathway, indicating that gB traffics in this pathway. The specific role of the acidic cluster in regulating the sorting of gB-containing vesicles in the early endocytic/recycling pathway was examined in MDCK cells expressing mutated gB derivatives. Immunofluorescence assays showed that derivatives lacking the acidic cluster were impaired in internalization and failed to recycle. These findings, together with our earlier observation that the acidic cluster is a key determinant for targeting gB molecules to apical membranes in epithelial cells, establish that this signal is recognized by cellular proteins that participate in polarized sorting and transport in the early endocytic/recycling pathway.     

Characterization and analysis of thermal denaturation of antibodies by size exclusion high-performance liquid chromatography with quadruple detection

Size exclusion chromatography (SEC) coupled with online light scattering, viscometry, refractometry, and UV-visible spectroscopy provides a very powerful tool for studying protein size, shape, and aggregation. This technique can be used to determine the molecular weight of the component peaks independent of the retention times in the SEC column and simultaneously measure the hydrodynamic radius and polydispersity of the protein. We applied this technology by coupling an Agilent Chemstation high-performance liquid chromatography system with a diode array UV-visible detector and a Viscotek 300 EZ Pro triple detector (combination of a light scattering detector, refractometer, and differential pressure viscometer) to characterize and compare the molecular properties of a number of monoclonal antibodies. Our studies reveal that different monoclonal immunoglobulin Gs (IgGs) and chimeric IgGs show slightly different retention times and therefore different molecular weights in gel filtration analysis. However, when they are analyzed by light scattering, refractometry, and viscometry, different IgGs have comparable molecular weight, molecular homogeneity (polydispersity), and size. Gel filtration coupled with UV or refractive index detection suggests that antibodies purified and formulated for preclinical and clinical development are more than 95% monomer with little or no detectable soluble aggregates. Light scattering measurements showed the presence of trace amounts of soluble aggregate in all the IgG preparations. The different IgG molecules showed different susceptibility to heat and pH. One of the murine antibodies was considerably less stable than the others at 55 degrees C. The application of this powerful technology for the characterization of monoclonal antibodies of therapeutic potential is discussed.     

Directed evolution for increased chitinase activity

Directed evolution through DNA shuffling and screening was used to enhance the catalytic ability of a fungal, Beauveria bassiana, chitinase, Bbchit1. The Bbchit gene was first linked to various prokaryotic signal sequences and expressed in Escherichia coli. The signal peptide, PelB, from Erwinia carotovora resulted in greatest chitinase secretion into broth. The nucleotide sequence expressing PelB signal peptide was then incorporated into an E. coli vector to express Bbchit1 variants generated by three rounds of DNA shuffling. A Bbchit1 library with 150,000 variants was constructed with a nucleotide point mutation frequency of 0.6% and screened for chitinolytic activity. Two Bbchit1 variants (SHU-1 and SHU-2) were selected that showed increased chitinolytic activity compared to the wild type. Sequence analysis of these variants revealed mutations in amino acid residues that would not normally be considered for rational design of improved chitinase activity. The amino acid substitutions occurred outside of the two putative substrate-binding sites and the catalytic region.