玉米黑粉菌DNA载体的构建和它的原生质球的转化和再生

我们用玉米黑粉菌(Ustilago maydis)热休克基因(Heat shock gene,hsp 70)的启动子和终止子与新霉素磷酸转移酶基因相连,构建成了有效的双功能质粒pDL1(在E。coli中用Amp作为选择标记,在玉米黑粉菌中用新霉素作为选择标记)。以分离的一株新霉素敏感的玉米黑粉菌作为受体菌,用构建的pDL1质粒作为供体DNA,对影响受体菌原生质球的形成条件(培养基、菌龄、各种酶、酶的浓度、作用时间和渗透压稳定剂)、再生条件和DNA转化条件进行了初步研究。对数前中期收集的菌体,以5mg/ml真菌溶壁酶处理30分钟左右,90%都形成原生质球,其再生率为60—80%,转化率为300—1000转化子/μg DNA。随机选出25个转化子,DNA杂交都为阳性。分析dot-blot和Southern blot DNA杂交结果,发现质粒在细胞中以整合形式存在,一个细胞可以有多拷贝的整合质粒,质粒可能以非完全同源性的重组形式,参入性地整合进染色体中。     

hSSB1 (NABP2/ OBFC2B) is required for the repair of 8-oxo-guanine by the hOGG1-mediated base excision repair pathway

The maintenance of genome stability is essential to prevent loss of genetic information and the development of diseases such as cancer. One of the most common forms of damage to the genetic code is the oxidation of DNA by reactive oxygen species (ROS), of which 8-oxo-7,8-dihydro-guanine (8-oxoG) is the most frequent modification. Previous studies have established that human single-stranded DNA-binding protein 1 (hSSB1) is essential for the repair of double-stranded DNA breaks by the process of homologous recombination. Here we show that hSSB1 is also required following oxidative damage. Cells lacking hSSB1 are sensitive to oxidizing agents, have deficient ATM and p53 activation and cannot effectively repair 8-oxoGs. Furthermore, we demonstrate that hSSB1 forms a complex with the human oxo-guanine glycosylase 1 (hOGG1) and is important for hOGG1 localization to the damaged chromatin. In vitro, hSSB1 binds directly to DNA containing 8-oxoguanines and enhances hOGG1 activity. These results underpin the crucial role hSSB1 plays as a guardian of the genome.     

Vacuolar H(+)-ATPase of adrenal secretory granules. Rapid partial purification and reconstitution into proteoliposomes.

The possible role of tyrosine phosphorylation in the activation of granulocytic HL60 cells was examined using vanadate, a phosphotyrosine phosphatase inhibitor. Treatment of permeabilized cells with micromolar concentrations of vanadate resulted in a substantial accumulation of tyrosine-phosphorylated proteins, detected by immunoblotting. At comparable concentrations, vanadate was also found to elicit an NADPH-dependent burst of oxygen utilization. Actin assembly, studied using 7-nitrobenz-2-oxa-1,3-diazole (NBD)-phallacidin, was similarly stimulated by vanadate, though considerably higher concentrations were required to observe this effect. In contrast with these responses, the secretion of lysozyme was not stimulated by vanadate, nor did vanadate affect calcium-induced secretion. Therefore, accumulation of tyrosine-phosphorylated proteins is associated with stimulation of some, but not all, of the responses characteristic of granulocytic cell activation. This indicates that the effects of vanadate are selective and suggests divergence of the signalling pathways leading to the individual effectors.     

Influence of landscape and social interactions on transmission of disease in a social cervid

The mechanisms of pathogen transmission are often social behaviours. These occur at local scales and are affected by landscape-scale population structure. Host populations frequently exist in patchy and isolated environments that create a continuum of genetic and social familiarity. Such variability has an important multispatial effect on pathogen spread. We assessed elk dispersal (i.e. likelihood of interdeme pathogen transmission) through spatially explicit genetic analyses. At a landscape scale, the elk population was composed of one cluster within a southeast-to-northwest cline spanning three spatially discrete subpopulations of elk across two protected areas in Manitoba (Canada). Genetic data are consistent with spatial variability in apparent prevalence of bovine tuberculosis (TB) in elk. Given the existing population structure, between-subpopulation spread of disease because of elk dispersal is unlikely. Furthermore, to better understand the risk of spread and distribution of the TB, we used a combination of close-contact logging biotelemetry and genetic data, which highlights how social intercourse may affect pathogen transmission. Our results indicate that close-contact interaction rate and duration did not covary with genetic relatedness. Thus, direct elk-to-elk transmission of disease is unlikely to be constrained to related individuals. That social intercourse in elk is not limited to familial groups provides some evidence pathogen transmission may be density-dependent. We show that the combination of landscape-scale genetics, relatedness and local-scale social behaviours is a promising approach to understand and predict landscape-level pathogen transmission within our system and within all social ungulate systems affected by transmissible diseases.     

The PDZ scaffold NHERF-2 interacts with mGluR5 and regulates receptor activity

The two members of the group I metabotropic glutamate receptor family, mGluR1 and mGluR5, both couple to G(q) to mediate rises in intracellular calcium. The alternatively spliced C termini (CT) of mGluRs1 and 5are known to be critical for regulating receptor activity and to terminate in motifs suggestive of potential interactions with PDZ domains. We therefore screened the CTs of both mGluR1a and mGluR5 against a PDZ domain proteomic array. Out of 96 PDZ domains examined, the domain that bound most strongly to mGluR5-CT was the second PDZ domain of the Na(+)/H(+) exchanger regulatory factor 2 (NHERF-2). This interaction was confirmed by reverse overlay, and a single point mutation to the mGluR5-CT was found to completely disrupt the interaction. Full-length mGluR5 robustly associated with full-length NHERF-2 in cells, as assessed by co-immunoprecipitation and confocal microscopy experiments. In contrast, mGluR1a was found to bind NHERF-2 in vitro with a weaker affinity than mGluR5, and furthermore mGluR1a did not detectably associate with NHERF-2 in a cellular context. Immunohistochemical experiments revealed that NHERF-2 and mGluR5 exhibit overlapping patterns of expression in mouse brain, being found most abundantly in astrocytic processes and postsynaptic neuronal elements. In functional experiments, the interaction of NHERF-2 with mGluR5 in cells was found to prolong mGluR5-mediated calcium mobilization and to also potentiate mGluR5-mediated cell death, whereas coexpression of mGluR1a with NHERF-2 had no evident effects on mGluR1a functional activity. These observations reveal that NHERF-2 can selectively modulate mGluR5 signaling, which may contribute to cell-specific regulation of mGluR5 activity.     

Zinc is required for the catalytic activity of the human deubiquitinating isopeptidase T

Two recombinant human isopeptidase T isoforms, ISOT-S and ISOT-L, differing by an insertion of 23 amino acids in ISOT-L, were previously classified as thiol proteases. Both contain one Zn2+-binding site of high-affinity, which is part of a cryptic nitrilo-triacetate-resistant pocket (site 1). A second Zn2+ site (site 2) was disclosed when both isoforms of the holoenzyme were incubated with an excess of Zn2+. The firmly bound Zn2+ of site 1 could be removed either slowly by dialysis against 1,10-phenanthroline at pH 5.5 or rapidly by treatment at pH 3.0 in the presence of 6 M urea followed by gel filtration at neutral pH. Zn2+ in site 1, but not in site 2, is essential for proteolytic activity because apoproteins were inactive. Inhibition of the catalytic activity was not due to a loss of ubiquitin binding capacity. CD spectra of both isoforms disclosed no major structural differences between the apo- and holoenzymes. The reconstitution of apoenzyme with Zn2+ under nondenaturing conditions at pH 5.5 completely restored enzymatic activity, which was indistinguishable from the reconstitution carried out in urea at pH 3.0. Thus, both human ISOTs are either thiol proteases with a local structural Zn2+ or monozinc metalloproteases that might use in catalysis a Zn2+-activated hydroxide ion polarized by Cys335.     

A Mouse Surgical Model for Metastatic Ovarian Granulosa Cell Tumor

We recently described a genetically engineered mouse model that develops ovarian granulosa cell tumors (GCTs) that mimic many aspects of the advanced human disease, including distant dissemination. However, because the primary tumors killed their hosts before metastases were able to form, the use of these mice to study metastatic disease required the development of a simple, reliable, and humane surgical protocol for the excision of large GCTs from debilitated mice. Here we describe a protocol involving multimodal anesthesia, tumor removal through ventral midline celiotomy and perioperative fluid therapy, and analgesia that led to the postoperative survival of more than 90% of mice, despite the removal of tumors representing as much as 10% of the animal''s body weight. Intraabdominal recurrence of the GCT did not occur in surviving animals, but most developed pulmonary or adrenal metastases (or both) by 12 wk after surgery. We propose that this mouse model of metastatic GCT will serve as a useful preclinical model for the development of novel treatment modalities and diagnostic techniques. Furthermore, our results delineate anesthetic and surgical principles for the removal of large abdominal tumors from mice that will be applicable to other models of human cancers.Abbreviation: GCT, granulosa cell tumorThe ovarian granulosa cell tumor (GCT) is the most prevalent sex cord tumor in women and is thought to represent up to 5% of all ovarian cancers.⁸ It is generally considered a low-grade malignancy, but a small percentage of GCTs are considered aggressive, and a large proportion of patients develop recurrent disease postoperatively.¹⁰ Few therapeutic options are available for the recurrent disease, and fastidious long-term follow-up is required in most patients, given that recurrent lesions have been diagnosed as long as 40 y after removal of the original tumor.⁴One of the key factors that has limited progress in the development of therapeutic approaches for ovarian cancer is the dearth of relevant animal models.⁹ Our laboratory has recently developed a genetically engineered mouse model (Pten^{tm1Hwu/tm1Hwu}; Ctnnb1^tm1Mmt/+;Amhr2^{tm3(cre)Bhr/+}) that develops an aggressive form of GCT in animals of both sexes.¹ In female mice, the disease is characterized by perinatal onset and rapid tumor development in both ovaries, causing death by approximately 8 wk of age. Histopathologic analyses of 6- to 8-wk-old Pten^{tm1Hwu/tm1Hwu}; Ctnnb1^tm1Mmt/+; Amhr2^{tm3(cre)Bhr/+} tissues revealed the presence of tumor cell embolisms in the lungs, suggesting metastatic potential for GCTs.⁶ However, the mice invariably died or required euthanasia for humane reasons before true metastases were able to form. Surgical excision of the primary tumors allowed for the postoperative survival of the mice for several months, and permitted the development of metastases in several tissues including lung and adrenal gland, thereby confirming the metastatic potential of the tumor cells.⁶Because of its mimicry of advanced human disease from the molecular to tumor biology level, we have proposed that the Pten^{tm1Hwu/tm1Hwu};Ctnnb1^tm1Mmt/+;Amhr2^{tm3(cre)Bhr/+} model could represent a powerful tool for the development of new therapeutic strategies for metastatic GCT. However, because the GCTs kill their hosts before metastases are able to form, their use as a model of the metastatic disease requires the development of a simple, reliable, and humane surgical protocol for the excision of the primary tumors. Such a protocol would need to take into account that pulmonary tumor cell embolisms have not been noted in these mice before the age of 6 wk, necessitating that surgery be performed in debilitated animals with tumor burdens approaching 10% of their body weight. A review of the existing literature on anesthesia, fluid therapy, pain management, and surgical techniques in mice yielded little information applicable to our model, necessitating that we develop a novel protocol that addressed both the medical needs of the mice and the scientific objectives of the research program.     

Resistance of tomato infected with cucumber mosaic virus satellite RNA to potato spindle tuber viroid

Tomato (Lycopersicon esculentum cvs Rutgers and Lichun) plants were firstly pre-inoculated either with a cucumber mosaic virus (CMV) isolate containing satellite RNA (CMV-S52) or with a CMV isolate without satellite RNA, and then challenged 14 days later with a severe strain of potato spindle tuber viroid (PSTVd). Also, tomato plants transformed with CMV satellite cDNA and non-transgenic control plants were directly inoculated with PSTVd. Protection effects were assessed by the observation of symptoms and by assay of PSTVd accumulation in tomato plants using return polyacrylamide gel electrophoresis and silver staining. The results indicated that the satellite-transgenic plants and plants pre-inoculated with CMV-S52 showed much milder symptoms of PSTVd infection than the respective control plants. The concentration of PSTVd RNA in the satellite-transgenic plants and CMV-S52 pre-inoculated plants was reduced to about 0.02-0.03 of the controls. PSTVd infection did not increase the amount of satellite ds-RNA in plants. It is concluded that the plant resistance to PSTVd is induced by the presence of satellite RNA rather than the CMV infection. It is suggested that as there is considerable sequence similarity between satellite RNA and PSTVd, base pairings may be a cause of reduction of both symptoms and the accumulation of PSTVd.