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151.
Background
Gene silencing triggered by chemically synthesized small interfering RNAs (siRNAs) has become a powerful tool for deciphering gene function in many eukaryotes. However, prediction and validation of a single siRNA duplex specific to a target gene is often ineffective. RNA interference (RNAi) with synthetic siRNA suffers from lower silencing efficacy, off-target effects and is cost-intensive, especially for functional genomic studies. With the explosion of fungal genomic information, there is an increasing need to analyze gene function in a rapid manner. Therefore, studies were performed in order to investigate the efficacy of gene silencing induced by RNase III-diced-siRNAs (d-siRNA) in model filamentous fungus, Aspergillus nidulans.Methodology/Principal Findings
Stable expression of heterologous reporter gene in A. nidulans eases the examination of a new RNAi-induction route. Hence, we have optimized Agrobacterium tumefaciens-mediated transformation (AMT) of A. nidulans for stable expression of sGFP gene. This study demonstrates that the reporter GFP gene stably introduced into A. nidulans can be effectively silenced by treatment of GFP-d-siRNAs. We have shown the down-regulation of two endogenous genes, AnrasA and AnrasB of A. nidulans by d-siRNAs. We have also elucidated the function of an uncharacterized Ras homolog, rasB gene, which was found to be involved in hyphal growth and development. Further, silencing potency of d-siRNA was higher as compared to synthetic siRNA duplex, targeting AnrasA. Silencing was shown to be sequence-specific, since expression profiles of other closely related Ras family genes in d-siRNA treated AnrasA and AnrasB silenced lines exhibited no change in gene expression.Conclusions/Significance
We have developed and applied a fast, specific and efficient gene silencing approach for elucidating gene function in A. nidulans using d-siRNAs. We have also optimized an efficient AMT in A. nidulans, which is useful for stable integration of transgenes. 相似文献152.
Khobragade CN Beedkar SD Bodade RG Vinchurkar AS 《International journal of biological macromolecules》2011,48(3):466-473
In humans oxalate is end product of protein metabolism, with no enzyme present to act on it. In conditions of its enhanced endogenous synthesis or increased absorption from the diet, oxalate accumulation leads to hyperoxaluria which can further lead to a number of pathological conditions including urolithiasis. Urolithiasis has been a perplexing problem due to its high incidence and rate of recurrence after treatment like Extracorporeal-shock wave lithotripsy (ESWL). Hence other prophylactic treatment becomes necessary. One of the newer approaches of curing such metabolic disorders is the enzyme supplementation therapy. Oxalate oxidase (OxOx) is a commonly occurring enzyme in plants, bacteria and fungi that catalyses oxidative cleavage of oxalate to CO(2) with reduction of dioxygen to H(2)O(2). Present study, used Hordeum vulgare OxOx crystal structure (PDB ID 2ET1A) as a template for constructing 3D models of OxOx from Triticum aestivum, Arabidopsis thaliana, Sclerotiana sclerotiarum. Similarly Homology models for isoforms Ceriporiopsis subvermispora 336, C. subvermispora 422 were constructed by using template Bacillus subtilis oxalate decarboxylase (Oxdc) (PDB ID 2UY8A) by comparative modeling approach in SWISS MODEL, MODELLER, 3D JIGSAW and GENO 3D program server. Based on overall stereochemical quality (PROCHECK, PROSA, VARIFY 3D), best models were selected, energy minimized, refined and characterized for active site in BioMed CaChe V 6.1 workspace. Selected models were further studied for structure function relationship with substrate (oxalate) and its analogue (glycolate) by using docking approach. Calculated interaction energy between the oxalate and constructed enzyme indicated that homology models for OxOx of T. aestivum, A. thaliana and S. sclerotiarum, can account for better regio-specificity of this enzyme towards oxalate. That supports the interested metabolism and thus may further implement in enzyme supplementation therapy for urolithiasis. 相似文献
153.
Kilaru A Herrfurth C Keereetaweep J Hornung E Venables BJ Feussner I Chapman KD 《The Journal of biological chemistry》2011,286(17):15205-15214
N-acylethanolamines (NAEs) are bioactive fatty acid derivatives that occur in all eukaryotes. In plants, NAEs have potent negative growth-regulating properties, and fatty acid amide hydrolase (FAAH)-mediated hydrolysis is a primary catabolic pathway that operates during seedling establishment to deplete these compounds. Alternatively, polyunsaturated (PU)-NAEs may serve as substrates for lipid oxidation. In Arabidopsis, PU-NAEs (NAE 18:2 and NAE 18:3) were the most abundant NAE species in seeds, and their levels were depleted during seedling growth even in FAAH tDNA knock-out plants. Therefore, we hypothesized that lipoxygenase (LOX) participated in the metabolism of PU-NAEs through the formation of NAE-oxylipins. Comprehensive chromatographic and mass spectrometric methods were developed to identify NAE hydroperoxides and -hydroxides. Recombinant Arabidopsis LOX enzymes expressed in Escherichia coli utilized NAE 18:2 and NAE 18:3 as substrates with AtLOX1 and AtLOX5 exhibiting 9-LOX activity and AtLOX2, AtLOX3, AtLOX4, and AtLOX6 showing predominantly 13-LOX activity. Feeding experiments with exogenous PU-NAEs showed they were converted to hydroxide metabolites indicating that indeed Arabidopsis seedlings had the capacity for LOX-mediated metabolism of PU-NAEs in planta. Detectable levels of endogenous NAE-oxylipin metabolites were identified in FAAH fatty acid amide hydrolase seedlings but not in wild-type or FAAH overexpressors, suggesting that NAE hydroxide pools normally do not accumulate unless flux through hydrolysis is substantially reduced. These data suggest that Arabidopsis LOXs indeed compete with FAAH to metabolize PU-NAEs during seedling establishment. Identification of endogenous amide-conjugated oxylipins suggests potential significance of these metabolites in vivo, and FAAH mutants may offer opportunities to address this in the future. 相似文献
154.
Aruna C Bhagwat VR Madhusudhana R Sharma V Hussain T Ghorade RB Khandalkar HG Audilakshmi S Seetharama N 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,122(8):1617-1630
Shoot fly is one of the most important pests affecting the sorghum production. The identification of quantitative trait loci
(QTL) affecting shoot fly resistance enables to understand the underlying genetic mechanisms and genetic basis of complex
interactions among the component traits. The aim of the present study was to detect QTL for shoot fly resistance and the associated
traits using a population of 210 RILs of the cross 27B (susceptible) × IS2122 (resistant). RIL population was phenotyped in
eight environments for shoot fly resistance (deadheart percentage), and in three environments for the component traits, such
as glossiness, seedling vigor and trichome density. Linkage map was constructed with 149 marker loci comprising 127 genomic-microsatellite,
21 genic-microsatellite and one morphological marker. QTL analysis was performed by using MQM approach. 25 QTL (five each
for leaf glossiness and seedling vigor, 10 for deadhearts, two for adaxial trichome density and three for abaxial trichome
density) were detected in individual and across environments. The LOD and R
2 (%) values of QTL ranged from 2.44 to 24.1 and 4.3 to 44.1%, respectively. For most of the QTLs, the resistant parent, IS2122
contributed alleles for resistance; while at two QTL regions, the susceptible parent 27B also contributed for resistance traits.
Three genomic regions affected multiple traits, suggesting the phenomenon of pleiotrophy or tight linkage. Stable QTL were
identified for the traits across different environments, and genetic backgrounds by comparing the QTL in the study with previously
reported QTL in sorghum. For majority of the QTLs, possible candidate genes were identified. The QTLs identified will enable
marker assisted breeding for shoot fly resistance in sorghum. 相似文献
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159.
Du Z Wei L Murti A Pfeffer SR Fan M Yang CH Pfeffer LM 《Journal of cellular biochemistry》2007,102(5):1087-1094
160.
Properties of laminin peptide YIGSR and its mutated sequences YIGSD, YIGSS, YIGSN and YIGSQ have been investigated using molecular dynamics simulations (MDS) and Langmuir films at air/water interface. Simulation studies on laminin peptide YIGSR were performed in the isothermal-isobaric (N, P, T) ensemble, with run up to 5 ns in water as well as lipid environment at 298 K. From different initial configurations, shape transformations of the peptides on the timescale of nanoseconds were observed. The results showed YIGSR to be the most stable peptide with the order of minimized energy being YIGSR相似文献