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1.
The septins FaCdc3 and FaCdc12 are required for cytokinesis and affect asexual and sexual development,lipid metabolism and virulence in Fusarium asiaticum 下载免费PDF全文
Yu Zhang Tao Gao Wenyong Shao Zhitian Zheng Mingguo Zhou Changjun Chen 《Molecular Plant Pathology》2017,18(9):1282-1294
Septins are a highly conserved family of GTP‐binding proteins that contribute to many cellular and metabolic functions, including cell polarity, cytokinesis, cell morphogenesis and pathogenesis. In this study, we characterized the septins FaCdc3 and FaCdc12 in the filamentous fungus Fusarium asiaticum. The functions of FaCdc3 and FaCdc12 were evaluated by constructing deletion mutants of FaCdc3 and FaCdc12, designated ΔFaCdc3‐5 and ΔFaCdc12‐71, respectively. The deletion mutants exhibited a reduced rate of mycelial growth, increased aerial hyphae formation, irregularly shaped hyphae, reduced conidiation and a lack of sexual reproduction in wheat kernels. Histochemical analysis revealed that the conidia and hyphae of ΔFaCdc3‐5 and ΔFaCdc12‐71 formed large lipid droplets (LDs). ΔFaCdc3‐5 and ΔFaCdc12‐71 also exhibited increased resistance to agents that induce osmotic stress and damage the cell membrane and cell wall. In addition, the hyphae and conidia of the two mutants formed fewer septa than those of the wild‐type and exhibited aberrant nuclear distribution. Pathogenicity assays showed that ΔFaCdc3‐5 and ΔFaCdc12‐71 exhibited reduced virulence on wheat spikelets, which was indirectly correlated with a reduced level of deoxynivalenol accumulation. All of these defects were restored by genetic complementation of the two mutants with the parental FaCdc3 and FaCdc12. These results indicate that FaCdc3 and FaCdc12 play a critical role in various cellular processes in F. asiaticum. 相似文献
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Spectroscopic and in silico study of binding mechanism of cynidine‐3‐O‐glucoside with human serum albumin and glycated human serum albumin 下载免费PDF全文
The drug–serum albumin interaction plays a dominant role in drug efficacy and disposition. The glycation of serum albumin that occurs during diabetes may affect its drug‐binding properties in vivo. In order to evaluate the interactivity characteristics of cyanidin‐3‐O‐glucoside (C3G) with human serum albumin (HSA) and glycated human serum albumin (gHSA), this study was undertaken using multiple spectroscopic techniques and molecular modeling analysis. Time‐resolved fluorescence and the thermodynamic parameters indicated that the quenching mechanism was static quenching, and hydrogen bonding and Van der Waals force were the main forces. The protein fluorescence could be quenched by C3G, whereas the polarity of the fluorophore was not obviously changed. C3G significantly altered the secondary structure of the proteins. Furthermore, the interaction force that existed in the HSA–C3G system was greater than that in the gHSA–C3G system. Fluorescence excitation emission matrix spectra, red edge excitation shift, Fourier transform infrared spectroscopy and circular dichroism spectra provided further evidence that glycation could inhibit the binding between C3G and proteins. In addition, molecular modeling analysis supported the experimental results. The results provided more details for the application of C3G in the treatment of diabetes. 相似文献
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In Situ,Fast, High‐Temperature Synthesis of Nickel Nanoparticles in Reduced Graphene Oxide Matrix 下载免费PDF全文
Yiju Li Yanan Chen Anmin Nie Aijiang Lu Rohit Jiji Jacob Tingting Gao Jianwei Song Jiaqi Dai Jiayu Wan Glenn Pastel Michael R. Zachariah Reza Shahbazian Yassar Liangbing Hu 《Liver Transplantation》2017,7(11)
For the first time, a fast heating–cooling process is reported for the synthesis of carbon‐coated nickel (Ni) nanoparticles on a reduced graphene oxide (RGO) matrix (nano‐Ni@C/RGO) as a high‐performance H2O2 fuel catalyst. The Joule heating temperature can reach up to ≈2400 K and the heating time can be less than 0.1 s. Ni microparticles with an average diameter of 2 µm can be directly converted into nanoparticles with an average diameter of 75 nm. The Ni nanoparticles embedded in RGO are evaluated for electro‐oxidation performance as a H2O2 fuel in a direct peroxide–peroxide fuel cell, which exhibits an electro‐oxidation current density of 602 mA cm?2 at 0.2 V (vs Ag/AgCl), ≈150 times higher than the original Ni microparticles embedded in the RGO matrix (micro‐Ni/RGO). The high‐temperature, fast Joule heating process also leads to a 4–5 nm conformal carbon coating on the surface of the Ni nanoparticles, which anchors them to the RGO nanosheets and leads to an excellent catalytic stability. The newly developed nano‐Ni@C/RGO composites by Joule heating hold great promise for a range of emerging energy applications, including the advanced anode materials of fuel cells. 相似文献
6.
p-Coumarate 3-hydroxylase (C3H) is a rate-limiting enzyme involved in monolignol biosynthesis. The full-length cDNA from Ginkgo biloba and genomic DNA sequence encoding C3H (designated as GbC3H) were cloned and characterized for the first time by rapid amplification of cDNA ends technique. The full-length cDNA of
GbC3H was of 1860 bp containing a 1527 bp open reading frame encoding a cytochrome P450 protein of 508 amino acids with a calculated
mol wt of 57.46 kD and an isoelectric point of 7.09. Two introns were present in the GbC3H gene. Comparative and bioinformatic analyses revealed that GbC3H had close similarity with C3Hs from other species and contained
a conserved cytochrome P450 cysteine heme-iron ligand signature. Phylogenetic analysis indicated that GbC3H shared a common
evolutionary origin based on sequence and had the closest relationship to C3H from gymnosperm species. Southern blot analysis
indicated that GbC3H belonged to a small-gene family. Tissue expression pattern analysis revealed the highest expression of GbC3H in roots followed by leaves, and no expression was detected in stems. Only a few proteins of this class have been found,
so the cloning and characterization of GbC3H will be useful in understanding the role of C3Hs in the lignin biosynthesis at the molecular level.
This text was submitted by the authors in English. 相似文献
7.
以黑曲霉(A.niger)TCCC41013的总RNA作为模板,通过RT-PCR扩增出含自身信号肽的脯氨酸蛋白内肽酶基因,将其插入pUCm-T载体上,经PCR和酶切鉴定后进行测序并分析.所克隆的PEP基因全长为1 581bp,编码526个氨基酸残基,成熟肽为504个氨基酸残基.与GeneBank中已报道的A.niger CBS513.88的PEP序列同源性最高,达到99.75%.脯氨酸蛋白内肽酶是一种新型的丝氨酸蛋白酶,黑曲霉PEP与已克隆的其他菌种的PEP同源性不高. 相似文献
8.
Pingping Tian Peng Cao Dong Hu Depei Wang Jian Zhang Lin Wang Yan Zhu Qiang Gao 《Journal of industrial microbiology & biotechnology》2017,44(4-5):595-604
It was found that S-adenosylmethionine (SAM) could effectively improve avermectin titer with 30–60 μg/mL addition to FH medium. To clearly elucidate the mechanism of SAM on intracellular metabolites of Streptomyces avermitilis, a GC–MS-based comparative metabolomics approach was carried out. First, 230 intracellular metabolites were identified and 14 of them remarkably influenced avermectin biosynthesis were discriminative biomarkers between non-SAM groups and SAM-treated groups by principal components analysis (PCA) and partial least squares (PLS). Based on further key metabolic pathway analyses, these biomarkers, such as glucose, oxaloacetic acid, fatty acids (in soybean oil), threonine, valine, and leucine, were identified as potentially beneficial precursors and added in medium. Compared with single-precursor feeding, the combined feeding of the precursors and SAM markedly increased the avermectin titer. The co-feeding approach not only directly verified our hypothesis on the mechanism of SAM by comparative metabolomics, but also provided a novel strategy to increase avermectin production. 相似文献
9.
Zhi Zheng Shang Gao Meixue Zhou Guijun Yan Chunji Liu 《Molecular breeding : new strategies in plant improvement》2017,37(9):107
Fusarium crown rot (FCR) has become one of the most damaging cereal diseases in semi-arid regions worldwide. Targeting three large-effect QTL (located on the chromosome arm 3BL, 5DS and 2DL, respectively), we investigated the feasibility of enhancing FCR resistance by gene pyramiding. Significant effects were detected for each of the three QTL in both populations assessed. Lines with any combination of two resistant alleles gave significantly better resistance than those with a single resistant allele only and those without any allele, and lines possessing all three resistant alleles showed the best resistance. These results demonstrated that gene pyramiding can be an effective approach in improving FCR resistance. Those lines with resistant alleles from all three QTL could be valuable genetic stocks for breeding programs. 相似文献
10.
MDM2 is implicated in high‐glucose‐induced podocyte mitotic catastrophe via Notch1 signalling 下载免费PDF全文
Hui Tang Chun‐Tao Lei Chen Ye Pan Gao Cheng Wan Shan Chen Fang‐Fang He Yu‐Mei Wang Hua Su Chun Zhang 《Journal of cellular and molecular medicine》2017,21(12):3435-3444
Podocyte injury and depletion are essential events involved in the pathogenesis of diabetic nephropathy (DN). As a terminally differentiated cell, podocyte is restricted in ‘post‐mitosis’ state and unable to regenerate. Re‐entering mitotic phase will cause podocyte disastrous death which is defined as mitotic catastrophe (MC). Murine double minute 2 (MDM2), a cell cycle regulator, is widely expressed in renal resident cells including podocytes. Here, we explore whether MDM2 is involved in podocyte MC during hyperglycaemia. We found aberrant mitotic podocytes with multi‐nucleation in DN patients. In vitro, cultured podocytes treated by high glucose (HG) also showed an up‐regulation of mitotic markers and abnormal mitotic status, accompanied by elevated expression of MDM2. HG exposure forced podocytes to enter into S phase and bypass G2/M checkpoint with enhanced expression of Ki67, cyclin B1, Aurora B and p‐H3. Genetic deletion of MDM2 partly reversed HG‐induced mitotic phase re‐entering of podocytes. Moreover, HG‐induced podocyte injury was alleviated by MDM2 knocking down but not by nutlin‐3a, an inhibitor of MDM2‐p53 interaction. Interestingly, knocking down MDM2 or MDM2 overexpression showed inhibition or activation of Notch1 signalling, respectively. In addition, genetic silencing of Notch1 prevented HG‐mediated podocyte MC. In conclusion, high glucose up‐regulates MDM2 expression and leads to podocyte MC. Notch1 signalling is an essential downstream pathway of MDM2 in mediating HG‐induced MC in podocytes. 相似文献