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881.
882.
Fan Lü Tianshui Li Tianfeng Wang Liming Shao Pinjing He 《Applied microbiology and biotechnology》2014,98(2):969-977
The sludge digestate stabilized by mesophilic anaerobic digestion was further degraded through thermophilic anaerobic digestion using 0–10 % (v/v) of thermophilic, proteolytic Coprothermobacter proteolyticus, and/or methanogenic granular sludge. The results demonstrated that the temperature shift to thermophilic condition promoted abiotic solubilization of proteins and reactivated the fermentative bacteria and methanogens indigenous in the sludge digestate, resulting in a final methane yield of 6.25 mmol-CH4/g-volatile suspended solid (VSS) digestate. The addition of C. proteolyticus accelerated the hydrolysis and fermentation of proteins and polysaccharides in the digestate during the early stage of thermophilic anaerobic digestion and stimulated methane production by syntrophic cooperation with methanogenic granular sludge. In the treatment with granular sludge and inoculated with 10 % (v/v) of C. proteolyticus, a final methane yield of 7 mmol-CH4/g-VSS digestate was obtained, and 48.4 % proteins and 27.0 % polysaccharides were degraded. The dissolved proteins were contributed by abiotic factor, C. proteolyticus, and indigenous digestate bacteria, respectively, by around 16, 28, and 56 %. 相似文献
883.
Elisabeth GE de Vries Shao‐En Ong Alessandro A Sartori Marcel ATM van Vugt 《The EMBO journal》2014,33(23):2860-2879
Human cells have evolved elaborate mechanisms for responding to DNA damage to maintain genome stability and prevent carcinogenesis. For instance, the cell cycle can be arrested at different stages to allow time for DNA repair. The APC/CCdh1 ubiquitin ligase mainly regulates mitotic exit but is also implicated in the DNA damage‐induced G2 arrest. However, it is currently unknown whether APC/CCdh1 also contributes to DNA repair. Here, we show that Cdh1 depletion causes increased levels of genomic instability and enhanced sensitivity to DNA‐damaging agents. Using an integrated proteomics and bioinformatics approach, we identify CtIP, a DNA‐end resection factor, as a novel APC/CCdh1 target. CtIP interacts with Cdh1 through a conserved KEN box, mutation of which impedes ubiquitylation and downregulation of CtIP both during G1 and after DNA damage in G2. Finally, we find that abrogating the CtIP–Cdh1 interaction results in delayed CtIP clearance from DNA damage foci, increased DNA‐end resection, and reduced homologous recombination efficiency. Combined, our results highlight the impact of APC/CCdh1 on the maintenance of genome integrity and show that this is, at least partially, achieved by controlling CtIP stability in a cell cycle‐ and DNA damage‐dependent manner. 相似文献
884.
Ying Hu Lin Gao Yali Feng Tao Yang Shangzhi Huang Zhengbo Shao Huiping Yuan 《Molecular biology reports》2014,41(7):4753-4758
Cataract, defined as any opacity of the crystallin lens, can be divided into early onset (congenital or infantile) and age-related. It is the leading cause of visual disability in children, and mutations in many genes have currently been linked with this disorder. In the present study, we identified a genetic defect in a Chinese family with congenital cataract. Genomic DNA was extracted from the venous blood of the family and 100 normal controls. To screen for the disease-causing mutation, we sequenced eight candidate genes, and to predict the functional consequences of the mutation, a structural model of the protein was developed using the Protein Data Bank and PyMOL 1.1r1. We found a novel variant (c.163 A > G transition) in the gene for gap junction protein α3, or the connexin46 gene. This mutation resulted in the substitution of a highly conserved asparagine at codon 55 by aspartic acid (p.N55D). There were no nucleotide polymorphisms in the other candidate genes sequenced. 相似文献
885.
Yu Gao Jingjing Xie Haijun Chen Songen Gu Rongli Zhao Jingwei Shao Lee Jia 《Biotechnology advances》2014
Traditional chemotherapy used today at clinics is mainly inherited from the thinking and designs made four decades ago when the Cancer War was declared. The potency of those chemotherapy drugs on in-vitro cancer cells is clearly demonstrated at even nanomolar levels. However, due to their non-specific effects in the body on normal tissues, these drugs cause toxicity, deteriorate patient's life quality, weaken the host immunosurveillance system, and result in an irreversible damage to human's own recovery power. Owing to their unique physical and biological properties, nanotechnology-based chemotherapies seem to have an ability to specifically and safely reach tumor foci with enhanced efficacy and low toxicity. Herein, we comprehensively examine the current nanotechnology-based pharmaceutical platforms and strategies for intelligent design of new nanomedicines based on targeted drug delivery system (TDDS) for cancer metastasis treatment, analyze the pros and cons of nanomedicines versus traditional chemotherapy, and evaluate the importance that nanomaterials can bring in to significantly improve cancer metastasis treatment. 相似文献
886.
Lin Shao Pratiksha Bhatnagar Rajtilak Majumdar Rakesh Minocha Subhash C. Minocha 《Amino acids》2014,46(3):743-757
The effect of up-regulation of putrescine (Put) production by genetic manipulation on the turnover of spermidine (Spd) and spermine (Spm) was investigated in transgenic cells of poplar (Populus nigra × maximowiczii) and seedlings of Arabidopsis thaliana. Several-fold increase in Put production was achieved by expressing a mouse ornithine decarboxylase cDNA either under the control of a constitutive (in poplar) or an inducible (in Arabidopsis) promoter. The transgenic poplar cells produced and accumulated 8–10 times higher amounts of Put than the non-transgenic cells, whereas the Arabidopsis seedlings accumulated up to 40-fold higher amounts of Put; however, in neither case the cellular Spd or Spm increased consistently. The rate of Spd and Spm catabolism and the half-life of cellular Spd and Spm were measured by pulse-chase experiments using [14C]Spd or [14C]Spm. Spermidine half-life was calculated to be about 22–32 h in poplar and 52–56 h in Arabidopsis. The half-life of cellular Spm was calculated to be approximately 24 h in Arabidopsis and 36–48 h in poplar. Both species were able to convert Spd to Spm and Put, and Spm to Spd and Put. The rates of Spd and Spm catabolism in both species were several-fold slower than those of Put, and the overproduction of Put had only a small effect on the overall rates of turnover of Spd or Spm. There was little effect on the rates of Spd to Spm conversion as well as the conversion of Spm into lower polyamines. While Spm was mainly converted back to Spd and not terminally degraded, Spd was removed from the cells largely through terminal catabolism in both species. 相似文献
887.
Wei-Jie Zhang Xin-Yi Wang Yu-Qi Guo Xiao Luo Xue-Juan Gao Xiao-Xia Shao Ya-Li Liu Zeng-Guang Xu Zhan-Yun Guo 《Amino acids》2014,46(5):1393-1402
Relaxin-3 is a newly identified insulin/relaxin superfamily peptide that plays a putative role in the regulation of food intake and stress response by activating its cognate G-protein-coupled receptor RXFP3. Relaxin-3 has three highly conserved arginine residues, B12Arg, B16Arg and B26Arg. We speculated that these positively charged arginines may interact with certain negatively charged residues of RXFP3. To test this hypothesis, we first replaced the negatively charged residues in the extracellular domain of RXFP3 with arginine, respectively. Receptor activation assays showed that arginine replacement of Glu141 or Asp145, especially Glu141, significantly decreased the sensitivity of RXFP3 to wild-type relaxin-3. In contrast, arginine replacement of other negatively charged extracellular residues had little effect. Thus, we deduced that Glu141 and Asp145, locating at the extracellular end of the second transmembrane domain, played a critical role in the interaction of RXFP3 with relaxin-3. To identify the ligand residues interacting with the negatively charged EXXXD motif of RXFP3, we replaced the three conserved arginines of relaxin-3 with negatively charged glutamate or aspartate, respectively. The mutant relaxin-3s retained the native structure, but their binding and activation potencies towards wild-type RXFP3 were decreased significantly. The compensatory effects of the mutant relaxin-3s towards mutant RXFP3s suggested two probable interaction pairs during ligand–receptor interaction: Glu141 of RXFP3 interacted with B26Arg of relaxin-3, meanwhile Asp145 of RXFP3 interacted with both B12Arg and B16Arg of relaxin-3. Based on these results, we proposed a relaxin-3/RXFP3 interaction model that shed new light on the interaction mechanism of the relaxin family peptides with their receptors. 相似文献
888.
Haitao Li Rongmei Liu Changlong Shu Qingli Zhang Shiyuan Zhao Gaoxiang Shao Xiaofeng Zhang Jiguo Gao 《World journal of microbiology & biotechnology》2014,30(12):3075-3080
Bacillus thuringiensis (Bt) is the most widely used insecticidal microbe due to its specific toxicity and safe use with respect to animals and the environment. In this study, we isolated Bt strain Q52-7 from a soil sample collected in the Qian Shan District, Liao Ning Province, China. We observed that the Q52-7 strain produced spherical crystals. The Bt Q52-7 strain had high toxicity against Asian Cockchafer (Holotrichia parallela), exhibiting an LC50 of 3.80 × 109 cfu/g, but is not toxic for Anomala corpulenta Motschulsky and Holotrichia oblita. Using general cry8 primers, we amplified a 1.3 kb fragment with the polymerase chain reaction. Specific primers were designed for the amplified fragment to clone the full-length coding region. A novel gene, cry8Na1, had 69 % sequence similarity with cry8Ca1. cry8Na1 gene was successfully expressed in the HD-73– acrystalliferous mutant of Bt subsp. Kurstaki HD-73. Bioassays demonstrated that the Cry8Na1 protein is highly toxic for the H. parallela, with a 50 % lethal concentration of 8.18 × 1010 colony forming units per gram. 相似文献
889.
890.