Pip介导铜绿假单胞菌吩嗪基因簇phz2的表达

[目的]为了确定铜绿假单胞菌调控因子Pip对两个不同吩嗪合成基因簇(phz1和phz2)的具体调控方式与可能的调控机制.[方法]根据基因比对结果,采用同源重组技术构建Pip调控因子缺失突变株PA-PG以及克隆ip基因作互补分析;再以已构建的吩嗪基因簇缺失突变株PA-Z1G和PA-Z2K为受体菌,构建突变株PA-PD-Z1G和PA-PG-Z2K,测定并比较野生株及相关突变株的吩嗪-1-羧酸和绿脓菌素的合成量,推定Pip对两个不同吩嗪合成基因簇的调控方式.[结果]在GA培养基中,突变株PA-PG的吩嗪-1-羧酸和绿脓菌素都比野生型明显减少;互补分析显示,突变株PA-PG的吩嗪-1-羧酸和绿脓菌素都显著提高并恢复到野生株PAO1水平;突变株PA-Z1G的吩嗪-1-羧酸和绿脓菌素合成量因Pip缺失而显著减少;而突变株PA-Z2K的吩嗪-1-羧酸和绿脓菌素合成量在Pip缺失后仍保持不变.[结论]初步推定,转录调控因子Pip对铜绿假单胞菌吩嗪合成代谢的确具有促进作用;Pip通过正向调控吩嗪基因簇phz2的合成功能实现对吩嗪合成代谢的调控.     

Molecular Analysis of a Deletion Hotspot in the NRXN1 Region Reveals the Involvement of Short Inverted Repeats in Deletion CNVs

NRXN1 microdeletions occur at a relatively high frequency and confer increased risk for neurodevelopmental and neurobehavioral abnormalities. The mechanism that makes NRXN1 a deletion hotspot is unknown. Here, we identified deletions of the NRXN1 region in affected cohorts, confirming a strong association with the autism spectrum and other neurodevelopmental disorders. Interestingly, deletions in both affected and control individuals were clustered in the 5′ portion of NRXN1 and its immediate upstream region. To explore the mechanism of deletion, we mapped and analyzed the breakpoints of 32 deletions. At the deletion breakpoints, frequent microhomology (68.8%, 2–19 bp) suggested predominant mechanisms of DNA replication error and/or microhomology-mediated end-joining. Long terminal repeat (LTR) elements, unique non-B-DNA structures, and MEME-defined sequence motifs were significantly enriched, but Alu and LINE sequences were not. Importantly, small-size inverted repeats (minus self chains, minus sequence motifs, and partial complementary sequences) were significantly overrepresented in the vicinity of NRXN1 region deletion breakpoints, suggesting that, although they are not interrupted by the deletion process, such inverted repeats can predispose a region to genomic instability by mediating single-strand DNA looping via the annealing of partially reverse complementary strands and the promoting of DNA replication fork stalling and DNA replication error. Our observations highlight the potential importance of inverted repeats of variable sizes in generating a rearrangement hotspot in which individual breakpoints are not recurrent. Mechanisms that involve short inverted repeats in initiating deletion may also apply to other deletion hotspots in the human genome.     

A high salt tolerant neutral protease from Aspergillus Oryzae: Purification, characterization and kinetic properties

A neutral high salt tolerant protease from Aspergillus oryzae CICIM F0899 which could be used for soy sauce production and other relevant applications under high-salt conditions was purified to homogeneity through ammonium sulfate precipitation, ion-exchange chromatography and gel filtration chromatography with overall recovery of 2%. Its molecular weight was estimated to be 50 kDa by SDS-PAGE. The optimum pH and temperature for activity of the extracellular protease of A. oryzae CICIM F0899 were shown to be between 7.0–9.0, and 50°C, respectively. The protease behaved high salt tolerance in 18% NaCl and retained 72% of initial activity after 14 days, indicating the high stability. The enzyme activity was inhibited by metal ions such as Al³⁺ and Ag⁺, and slightly activated by Mn²⁺ and Cu²⁺. A kinetic model incorporating the Debye-Hückel limiting law was proposed for A. oryzae CICIM F0899 protease hydrolysis of casein at ionic strength NaCl from 0.10 to 3.18 M. It was found that, with the higher ionic strength, the Michaelis constant K _m of the protease monotonically increased while the turnover number k _cat decreased in accordance with first order kinetic model. The high-salt tolerant protease has been demonstrated to be promising for the soy sauce production process.     

Inhibition of fatty acid synthase suppresses U-2 OS cell invasion and migration via downregulating the activity of HER2/PI3K/AKT signaling pathway in vitro

FASN plays an important role in the malignant phenotype of various tumors. Our previous studies show that inhibition FASN could induce apoptosis and inhibit proliferation in human osteosarcoma (OS) cell in vivo and vitro. The aim in this study was to investigate the effect of inhibition FASN on the activity of HER2/PI3K/AKT axis and invasion and migration of OS cell. The expression of FASN, HER2 and p-HER2(Y1248) proteins was detected by immunohistochemistry in OS tissues from 24 patients with pulmonary metastatic disease, and the relationship between FASN and p-HER2 as well as HER2 was investigated. The results showed that there was a positive correlation between FASN and HER2 as well as p-HER2 protein expression. The U-2 OS cells were transfected with either the FASN specific RNAi plasmid or the negative control RNAi plasmid. FASN mRNA was measured by RT-PCR. Western blot assays was performed to examine the protein expression of FASN, HER2, p-HER2(Y1248), PI3K, Akt and p-Akt (Ser473). Migration and invasion of cells were investigated by wound healing and transwell invasion assays. The results showed that the activity of HER2/PI3K/AKT signaling pathway was suppressed by inhibiting FASN. Meanwhile, the U-2OS cells migration and invasion were also impaired by inhibiting the activity of FASN/HER2/PI3K/AKT. Our results indicated that inhibition of FASN suppresses OS cell invasion and migration via down-regulation of the “HER2/PI3K/AKT” axis in vitro. FASN blocker may be a new therapeutic strategy in OS management.     

Comparative study of four rice cultivars with different levels of cadmium tolerance

Cadmium (Cd) has been identified as a significant pollutant due to its high solubility in water and soil and high toxicity to plants and animals. Rice, as one of the most important food crops, is grown in soils with variable levels of Cd and therefore, is important to discriminate the Cd tolerance of different rice cultivars to determine their suitability for cultivation in Cd-contaminated soils. This study investigates the primary mechanisms employed by four rice cultivars in attaining Cd tolerance. HA63 cultivar reduces Cd uptake by increasing Fe absorption through activation of phytosiderophores. T3028 cultivar accumulates the highest level of Cd in leaves while also activating its reactive oxygen species (ROS) scavenging system, including antioxidant enzymes and phytochelatins. In some rice cultivars (such as HA63), a cyanide-resistant respiration mechanism, important in Cd detoxification, was also promoted under the Cd stress. In conclusion, different rice cultivars may adopt different biochemical strategies and respond with different efficiency to Cd stress.