Suppression of the Double-Strand-Break-Repair Defect of the Saccharomyces cerevisiae rad57 Mutant

The Rad51 paralogs Rad55 and Rad57 form a heterodimer required to mediate the formation and/or stabilization of the Rad51 filament. To further characterize the function of Rad55-Rad57, we used a combination of rad57 partial suppressors to determine whether the DNA repair and recombination defects of the rad57 mutant could be completely suppressed. The combination of all suppressors, elevated temperature, srs2, rad51-I345T, and mating-type (MAT) heterozygosity resulted in almost complete suppression of the rad57 mutant defect in the recruitment of Rad51 to DNA-damaged sites, as well as survival in response to ionizing radiation and camptothecin. In a physical assay to monitor the kinetics of double-strand-break (DSB)-induced gene conversion, the rad57 mutant defect was effectively suppressed by srs2 and MAT heterozygosity, but these same suppressors failed to suppress the spontaneous recombination defect. Thus the Rad55-Rad57 heterodimer appears to have a unique function in spontaneous recombination that is not essential for DSB repair. Furthermore, we investigated the currently unknown mechanism of rad57 suppression by MAT heterozygosity and found that it is independent of DNL4.     

Mercury‐associated DNA hypomethylation in polar bear brains via the LUminometric Methylation Assay: a sensitive method to study epigenetics in wildlife

In this paper we describe a novel approach that may shed light on the genomic DNA methylation of organisms with non‐resolved genomes. The LUminometric Methylation Assay (LUMA) is permissive for genomic DNA methylation studies of any genome as it relies on the use of methyl‐sensitive and ‐insensitive restriction enzymes followed by polymerase extension via Pyrosequencing technology. Here, LUMA was used to characterize genomic DNA methylation in the lower brain stem region from 47 polar bears subsistence hunted in central East Greenland between 1999 and 2001. In these samples, average genomic DNA methylation was 57.9% ± 6.69 (SD; range was 42.0 to 72.4%). When genomic DNA methylation was related to brain mercury (Hg) exposure levels, an inverse association was seen between these two variables for the entire study population (P for trend = 0.17). After dichotomizing animals by gender and controlling for age, a negative trend was seen amongst male animals (P for trend = 0.07) but no associations were found in female bears. Such sexually dimorphic responses have been found in other toxicological studies. Our results show that genomic DNA methylation can be quantitatively studied in a highly reproducible manner in tissue samples from a wild organism with a non‐resolved genome. As such, LUMA holds great promise as a novel method to explore consequential questions across the ecological sciences that may require an epigenetic understanding.     

A targeted lipidomics approach to the study of eicosanoid release in synovial joints

Introduction  

Articular tissues are capable of producing a range of eicosanoid mediators, each of which has individual biological effects and may be affected by anti-inflammatory treatment. We set out to develop and evaluate a high performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) approach for the simultaneous analysis of multiple eicosanoid lipid mediators in equine synovial fluid (SF), and to illustrate its use for investigation of the in vivo effects of non-steroidal anti-inflammatory drug (NSAID) treatment.     

DNA end resection--unraveling the tail

Homology-dependent repair of DNA double-strand breaks (DSBs) initiates by the 5'-3' resection of the DNA ends to create single-stranded DNA (ssDNA), the substrate for Rad51/RecA binding. Long tracts of ssDNA are also required for activation of the ATR-mediated checkpoint response. Thus, identifying the proteins required and the underlying mechanism for DNA end resection has been an intense area of investigation. Genetic studies in Saccharomyces cerevisiae show that end resection takes place in two steps. Initially, a short oligonucleotide tract is removed from the 5' strand to create an early intermediate with a short 3' overhang. Then in a second step the early intermediate is rapidly processed generating an extensive tract of ssDNA. The first step is dependent on the highly conserved Mre11-Rad50-Xrs2 complex and Sae2, while the second step employs the exonuclease Exo1 and/or the helicase-topoisomerase complex Sgs1-Top3-Rmi1 with the endonuclease Dna2. Here we review recent in vitro and in vivo findings that shed more light into the mechanisms of DSB processing in mitotic and meiotic DSB repair as well as in telomere metabolism.     

诱导型一氧化氮合酶基因多态性与2型糖尿病关系研究

目的：观察诱导型一氧化氮合酶（iNOs）基因Ser608Leu位点基因多态性与2型糖尿病的相关性。方法：采用测序法测定261例2型糖尿病患者和128例正常对照者iNOS基因Ser608Leu位点基因多态性。结果：两组间iNOS基因Ser608Leu位点基因型及等位基因频率构成存在差异。结论：iNOS基因Ser608Leu位点多态性与2型糖尿病有关。     

Sgs1--the maestro of recombination

The Sgs1 DNA helicase and its mammalian homolog BLM control crossover formation in mitotic cells. Zakharyevich et?al. and De Muyt et?al. now uncover a key role for Sgs1 in meiotic crossover regulation, which in turn reveals a joint molecule resolution pathway that produces the majority of crossovers in budding yeast.     

Activation of human phagocytes through carbohydrate antigens (CD15, sialyl-CD15, CDw17, and CDw65).

The leukocyte carbohydrate (CHO) Ag CD15, sialyl-CD15, and CDw65 have recently been found to function as ligands for CD62 and ELAM-1 cell adhesion molecules on platelets and endothelium, respectively. Cell adhesion ligands also may act as receptors capable of signal transduction. We therefore investigated the possibility that these CHO Ag and CDw17, a glycolipid Ag whose expression is regulated by leukocyte activation, may have receptor-like characteristics. The effects of antibody cross-linking of CHO Ag on phagocyte activation were measured by using flow cytometry and fluorescent indicators for cytoplasmic calcium ions, oxidative burst, and the granule-associated proteins CD11b and CD67. Cross-linking of CD15, sialyl-CD15, CDw65, or CDw17 induced a moderate release of calcium ions into the cytoplasm of granulocytes, a strong activation of oxidative burst, and a low up-regulation of CD11b and CD67 compared to the effects of treatment with 4 microM FMLP. The results suggest a role for CHO Ag in leukocyte signal transduction and support the view that these molecules are involved in phagocyte activation.     

重组腺病毒Ad-HGF体外感染成纤维细胞后转染效率及表达的检测

押检测携带人肝细胞生长因子基因的重组腺病毒Ad-HGF在体外对成纤维细胞的感染效率以及感染细胞对目的蛋白的表达。以不同感染复数(m.o.i.)(25,50,100,200)的Ad-GFP感染NIH3T3细胞,48h时用流式细胞仪检测转染效率;以50m.o.i.感染NIH3T3细胞后48h,用ELISA和Western印迹杂交法分别检测感染上清中HGF的表达。分别以50m.o.i.的Ad-GFP和Ad-HGF感染原代培养人瘢痕成纤维细胞,以检测重组腺病毒对原代培养人瘢痕成纤维细胞的转染效率和其对HGF的表达。结果表明,当m.o.i.为50时,重组腺病毒对NIH3T3细胞的转染效率已达95%以上;HGF的表达量可达每2×106细胞249ng;并可检测到HGF蛋白的一特异杂交带。以50m.o.i.的Ad-GFP感染原代培养人瘢痕成纤维细胞,72h时GFP表达达高峰,此时转染效率可高达36.75%。Ad-HGF感染原代培养人瘢痕成纤维细胞后HGF的表达在72h时达高峰,表达量可达每3.3×105细胞66ng。初步认为重组腺病毒可有效地介导HGF基因转染正常或瘢痕成纤维细胞,且感染细胞可有效表达目的蛋白。