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21.
Two-hybrid technologies in proteomics research 总被引:5,自引:0,他引:5
Given that protein-protein interactions (PPIs) regulate nearly every living process; the exploration of global and pathway-specific protein interaction networks is expected to have major implications in the understanding of diseases and for drug discovery. Consequently, the development and application of methodologies that address physical associations among proteins is of major importance in today's proteomics research. The most widely and successfully used methodology to assess PPIs is the yeast two-hybrid system (YTH). Here we present an overview on the current applications of YTH and variant technologies in yeast and mammalian systems. Two-hybrid-based methods will not only continue to have a dominant role in the assessment of protein interactomes but will also become important in the development of novel compounds that target protein interaction interfaces for therapeutic intervention. 相似文献
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Unagul P Assantachai C Phadungruengluij S Suphantharika M Tanticharoen M Verduyn C 《Bioresource technology》2007,98(2):281-287
The effect of coconut water (CW) on biomass and docosahexaenoic acid (DHA, C22:6 n3) formation by Schizochytrium mangrovei Sk-02 was studied in a yeast extract-diluted sea water medium. Optimal CW-level was ca. 33% (v/v), resulting in a biomass level of 28 g/l with a DHA-content of 20% (w/w) or 6 g DHA/l, almost 50% higher than in non-supplemented cultures at the same initial sugar level. Study on the growth-promoting effects of coconut water suggested that it could be (partially) mimicked by addition of trace elements; the fatty acids present in CW did not appear to be incorporated or effect fatty acid formation by the organism. CW-addition was also effective in media with other nitrogen sources such as casitone, peptone and tryptone. Its inclusion (at 50% v/v) increased biomass levels two-to-three-fold with concomitant increases in the DHA-level. 相似文献
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Poornima K Saranya V Abirami P Binuramesh C Suguna P Selvanayagam P Shenbagarathai R 《Bioinformation》2012,8(10):461-465
An indigenous Bacillus thuringiensis strain B.t.LDC-391 producing cytocidal proteins against human colon cancer cell line, HCT-116, was subjected to phenotypic and genotypic characterization to evaluate its relatedness to B.anthracis. The morphological features of this strain were meta-analyzed with data of other parasporin and insecticidal protein producing Bacillus thuringiensis strains. The conventional biochemical analysis and antibiotic sensitivity test proved it as an ampicillin resistant which is a salient feature, absent in B.anthracis Ames. PCR analysis showed the absence of cyt and parasporin related genes in the genome of B.t.LDC-391. But the strain was positive for cap gene. The sequencing and bio-informatic analysis of cap gene and 16S rDNA of B.t.LDC-391 placed it closer to B.thuringiensis and revealed significant divergence from that of any B.anthracis strain. However our strain lacked β- hemolysis on human erythrocytes which is a common feature of B.anthracis strains and parasporin producers. 相似文献
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Umasuthan N Bathige SD Revathy KS Lee Y Whang I Choi CY Park HC Lee J 《Fish & shellfish immunology》2012,33(4):753-765
Superoxide dismutases (SODs), antioxidant metalloenzymes, represent the first line of defense in biological systems against oxidative stress caused by excessive reactive oxygen species (ROS), in particular O(2)(?-). Two distinct members of SOD family were identified from Manila clam Ruditapes philippinarum (abbreviated as RpMnSOD and RpCu/ZnSOD). The structural analysis revealed all common characteristics of SOD family in both RpSODs from primary to tertiary levels, including three MnSOD signatures and two Cu/ZnSOD signatures as well as invariant Mn(2+)- and Cu/Zn(2+)-binding sites in RpMnSOD and RpCu/ZnSOD, respectively. Putative RpMnSOD and RpCu/ZnSOD proteins were predicted to be localized in mitochondrial matrix and cytosol, respectively. They shared 65.2% and 63.9% of identity with human MnSOD and Cu/ZnSOD, respectively. Phylogentic evidences indicated the emergence of RpSODs within molluscan monophyletic clade. The analogous spatial expression profiles of RpSODs demonstrated their higher mRNA levels in hemocytes and gills. The experimental challenges with poly I:C, lipopolysaccharide and Vibrio tapetis illustrated the time-dependent dynamic expression of RpSODs in hemocytes and gills. The recombinant RpMnSOD was expressed in a prokaryotic system and its antioxidant property was studied. The rRpMnSOD exhibited its optimum activity at 20?°C, under alkaline condition (pH 9) with a specific activity of 3299?U?mg(-1). These outcomes suggested that RpSODs were constitutively expressing inducible proteins that might play crucial role(s) in innate immunity of Manila clam. 相似文献
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Rajadurai Chinnasamy Perumal Ashok Selvaraj Saranya Ravichandran Gopal Ramesh Kumar 《Biotechnology and Bioprocess Engineering》2012,17(3):565-575
Hydrogen is considered as a renewable energy source and it is also regarded as future fuel. Currently, hydrogen production through a biotechnological approach is a research priority. Hydrogenogens, a microbial species, are of significant interest to researchers because of their ability to produce biological hydrogen. Carboxydothermus hydrogenoformans Z-2901 is one among the hydrogenogens that can grow anaerobically by utilizing pyruvate as a carbon source, and can produce molecular hydrogen. In the present study, we performed an in silico kinetic simulation using the available Kyoto Encyclopedia of Genes and Genomes (KEGG) model and reconstructed pyruvate metabolism in C. hydrogenoformans Z-2901. During this metabolism, dissimilation of pyruvate leads to the formation of energy co-factors, such as ATP and NAD+/ NADH, and the level of these co-factors influences the specific growth rate of organism and hydrogen production. Our strategy for improving hydrogen production involves maximizing the ATP and NAD+ yield by modification of kinetic properties and adding new reactions in pyruvate metabolism through metabolic pathway reconstruction. Moreover, the influence of phosphoenol pyruvate carboxylase and pyruvate dehydrogenase enzyme concentration on cofactor productions was also simulated. The theoretical molar yield of ATP and NAD+ were obtained as 2.32 and 1.83 mM, respectively, from 1 mM/mg of phosphoenol pyruvate (PEP) utilization. A higher yield of ATP is achieved when the PEP level reaches 5 mM/mg. This work also suggests that PEP can be considered as an alternative substrate. In conclusion, the simulation results reported in this paper can be applied to design and evaluate strategies of strain construction for optimal hydrogen yield in C. hydrogenoformans. 相似文献
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Chaiwat?To-anunEmail author Saranya?Limkaisang Wanwisa?Fangfuk Yukio?Sato Uwe?Braun Susumu?Takamatsu 《Mycoscience》2003,44(6):447-451
A powdery mildew fungus on leaves of Dalbergia cultrata var. cultrata (Fabaceae) collected at the Queen Sirikit Botanical Garden in northern Thailand is proven to be a new species of the genus Brasiliomyces and is described as B. chiangmaiensis sp. nov. with light and SEM micrographs. Differences in known Brasiliomyces species are discussed, and a key to species of this genus is provided. 相似文献
29.
Modeling of the potential coiled-coil structure of snapin protein and its interaction with SNARE complex 总被引:1,自引:0,他引:1 下载免费PDF全文
Autism is a developmental disability causing learning and memory disorder. The heart of the search for a cure for this syndrome is the need to understand dendrite branch patterning, a process crucial for proper synaptic transmission. Due to the association of snapin with the SNARE complex and its role in synaptic transmission it is reported as a potential drug target for autism therapies. We wish to impart the noesis of the 3D structure of the snapin protein, and in this chase we predict the native structure from its sequence of amino acid residues using the classical Comparative protein structure modeling methods. The predicted protein model can be of great assistance in understanding the structural insights, which is necessary to understand the protein function. Understanding the interactions between snapin and SNARE complex is crucial in studying its role in the neurotransmitter release process. We also presented a computational model that shows the interaction between the snapin and SNAP-25 protein, a part of the larger SNARE complex. 相似文献
30.
Wroblewski MS Wilson-Grady JT Martinez MB Kasthuri RS McMillan KR Flood-Urdangarin C Nelsestuen GL 《The FEBS journal》2006,273(20):4707-4715
A survey of plasma proteins in approximately 1,300 individuals by MALDI-TOF MS resulted in identification of a structural polymorphism of apolipoprotein C1 (ApoC1) that was found only in persons of American Indian or Mexican ancestry. MS/MS analysis revealed that the alteration consisted of a T45S variation. The methyl group of T45 forms part of the lipid-interacting surface of ApoC1. In agreement with an impact on lipid contact, the S45 variant was more susceptible to N-terminal truncation by dipeptidylpeptidase IV in vitro than was the T45 variant. The S45 protein also displayed greater N-terminal truncation (loss of Thr-Pro) in vivo than the T45 variant. The S45 variant also showed preferential distribution to the very-low-density lipoprotein fraction than the T45 protein. These properties indicate a functional effect of the S45 variant and support a role for residue 45 in lipid contact and lipid specificity. Further studies are needed to determine the effects of the variant and its altered N-terminal truncation on the metabolic functions of ApoC1. 相似文献