Multi-path Routing Improved Protocol in AODV Based on Nodes Energy

Xiaoxia Qi,Qijin Wang,Fan Jian 보안공학연구지원센터 2015 International Journal of Future Generation Communi Vol.8 No.1

Aiming at energy-constrained of Ad Hoc network, this paper proposes a multi-path routing protocol (EM-AODV)I n AODV that based on nodes energy. EM-AODV designs methods of obtaining nodes energy by upgrading the route discovery and route maintenance process of AODV, calculates the path of comprehensive energy derived path priority by routes total hops and nodes energy to format the multi-path routing mechanism. The energy as the metric prerequisite during the routing process, by setting nodes energy bound and balancing nodes data forwarding to postpone network lifetime. Simulation results show that EM-AODV has lower average end-to-end delay, well improve the energy consumption.

Rapid Detection of Noroviruses in Fecal Samples and Shellfish by Nucleic Acid Sequence-based Amplification

Xiaoxia Kou,Qingping Wu,Jumei Zhang,Hongying Fan 한국미생물학회 2006 The journal of microbiology Vol.44 No.4

The purpose of this study was to determine the efficacy of a nucleic acid sequence-based amplification (NASBA) method of detecting noroviruses in artificially and naturally contaminated shellfish. We used 58 fecal samples that tested positive for noroviruses with electron microscopy (EM) to develop an NASBA assay for these viruses. Oligonucleotide primers targeting the polymerase coding region were used to amplify the viral RNA in an isothermal process that resulted in the accumulation of RNA amplicons. These amplicons were detected by hybridization with digoxigenin-labeled oligonucleotide probes that were highly specific for genogroup I (GI) and genogroup II (GII) of noroviruses. The expected band of 327 bp appeared in denaturing agarose gel without any nonspecific band. The specific signal for each amplicon was obtained through Northern blotting in many repeats. All fecal samples of which 46 (79.3%) belonged to GII and 12 (20.6%) belonged to GI were positive for noroviruses by EM and by NASBA. Target RNA concentrations as low as 5 pg/ml were detected in fecal specimens using NASBA. When the assay was applied to artificially contaminated shellfish, the sensitivity to nucleic acid was 100 pg/1.5 g shellfish tissue. The potential use of this assay was also confirmed in naturally contaminated shellfish collected from different ponds in Guangzhou city of China, of which 24 (18.76%) out of 128 samples were positive for noroviruses; of these, 19 (79.6%) belonged to GII and 5 (20.4%) belonged to GI. The NASBA assay provided a more rapid and efficient way of detecting noroviruses in fecal samples and demonstrated its potential for detecting noroviruses in food and environmental samples with high specificity and sensitivity.

Rapid Detection of Noroviruses in Fecal Samples and Shellfish by Nucleic Acid Sequence-based Amplification

Kou Xiaoxia,Wu Qingping,Zhang Jumei,Fan Hongying The Microbiological Society of Korea 2006 The journal of microbiology Vol.44 No.4

The purpose of this study was to determine the efficacy of a nucleic acid sequence-based amplification (NASBA) method of detecting noroviruses in artificially and naturally contaminated shellfish. We used 58 fecal samples that tested positive for noroviruses with electron microscopy (EM) to develop an NASBA assay for these viruses. Oligonucleotide primers targeting the polymerase coding region were used to amplify the viral RNA in an isothermal process that resulted in the accumulation of RNA amplicons. These amplicons were detected by hybridization with digoxigenin-labeled oligonucleotide probes that were highly specific for genogroup I (GI) and genogroup II (GII) of noroviruses. The expected band of 327bp appeared in denaturing agarose gel without any nonspecific band. The specific signal for each amplicon was obtained through Northern blotting in many repeats. All fecal samples of which 46(79.3%) belonged to GII and 12(20.6%) belonged to GI were positive for noroviruses by EM and by NASBA. Target RNA concentrations as low as 5pg/ml were detected in fecal specimens using NASBA. When the assay was applied to artificially contaminated shellfish, the sensitivity to nucleic acid was 100pg/1.5g shellfish tissue. The potential use of this assay was also confirmed in naturally contaminated shellfish collected from different ponds in Guangzhou city of China, of which 24 (18.76%) out of 128 samples were positive for noroviruses; of these, 19 (79.6%) belonged to GII and 5 (20.4%) belonged to GI. The NASBA assay provided a more rapid and efficient way of detecting noroviruses in fecal samples and demonstrated its potential for detecting noroviruses in food and environmental samples with high specificity and sensitivity.

Lotus-Like Nano-Architectures Constructed from Self-Assembled Micelles via Hierarchical Assembly

Rongli Zhang,Xiaoxia Fan,Xiaofang Xu,Jingjing Lv,Zhenzhen Jin,Hui Hao,Cuige Zhang 한국고분자학회 2018 Macromolecular Research Vol.26 No.1

Dopamine modified γ-polyglutamic acid (γ-PGA-DA) copolymer and melamine (Mel) can self-assemble into Mel/γ-PGA-DA micelles via weak intermolecular interactions in aqueous solution containing small amount of methanol. When Mel/γ-PGA-DA micellar solution was cast on the surface of formvar stabilized with carbon support films, the lotus-like nano-architectures were formed on the surface of substrate via hierarchical assembly of micelles. The size of lotus-like nanoarchitectures was approximately 200 nm×500 nm. The possible driving forces for hierarchical assembly of micelles were the solution fluid and interaction between micelles. The hierarchical assembly of micelles was similar to the fractal aggregation of inorganic particles and a possible reason was discussed.

A Case of Benign Atrophic Papulosis in a Young Male

Lingyi Lu,Bingjiang Lin,Ru Dai,Xin Fan,Yingzhe Yu,Ying Qi,Xiaoxia Zhu,Ping Zhou 대한피부과학회 2022 Annals of Dermatology Vol.34 No.4

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Phenylboronic acid-functionalized gelatin–oleic acid nanoparticles for high loading and efficient transdermal delivery of Celastrol towards the treatment of psoriasis

Jiangtao Su,Na Lin,Xiangyu You,Heshuang Dai,Meng Rao,Lu Ye,Fan Ye,Le Cai,Yuxin Chen,Gao Zhou,Xiaoxia Guo 한국고분자학회 2023 Macromolecular Research Vol.31 No.11

Systemic toxicity, poor aqueous solubility, and poorly cell permeable ability hindered the clinical application of Celastrol. In this study, we aimed to design and synthesize an amphiphilic conjugate to encapsulate Celastrol into micelles to improve its water solubility, cellular membrane penetration, improving the clinic translation potential of Celastrol for the treatment of psoriasis. For this purpose, we first synthesized gelatin and oleic acid conjugate (GOC-1), and then covalently bonded 4-(3-boronophenylamino)-4-oxobutanoic acid (BPOA) with GOC-1 to form a stable GOC-2 conjugate which can self-assemble into micelles in aqueous solution. Celastrol (Cel) was physically encapsulated into the core of GOCs micelles. The dynamic stability, particle size, drug release, zeta potential, drug-loading efficiency, and surface morphology of Cel/loaded GOCs nano-micelles were determined. In addition, cell viability, cellular uptake of Cel/loaded GOC-2, and skin permeation and in vivo anti-psoriasis effect of Cel-loaded GOC-2 were investigated. Our results have shown that Cel/loaded GOC-1 and Cel/loaded GOC-2 have spherical shapes with diameters of around 200–300 nm. Compared to GOC-1, GOC-2 micelles showed higher drug-loading efficiency and excellent permeation ability in vitro. Moreover, Cel/GOC-2 micelles reduced erythema and white scales on the dorsal skin of psoriatic mice. In conclusion, BPOA attached GOC nanoparticles as a Celastrol carrier not only increase its water solubility but also improve drug-loading efficiency and cell permeation ability, exhibiting superior anti-psoriatic effect than the commercially available tacrolimus. Our work is expected to provide a facile approach to prepare nanocarrier for Celastrol to improve the clinic translation potential of Celastrol.

Dual stimuli-responsive polymeric prodrug consisting of reversible covalent bonded celastrol for tumor targeted delivery

Jiangtao Su,Meng Rao,Heshuang Dai,Le Cai,Fan Ye,Lu Ye,Yuchen Hu,Ban Chen,Xiaoxia Guo 한국고분자학회 2024 Macromolecular Research Vol.32 No.2

In this work, pH/GSH-responsive amphiphilic polymeric prodrug (EDA-GLA/CE/2-FPBA) was successfully prepared and could self-assembled into micelles in an aqueous solution. The EDA-GLA/CE/2-FPBA micelles possessed high stability in physiological condition and were pH and GSH sensitive due to the reversible borate ester bonds and disulfide bonds within the prodrug polymer. The structures of the prodrug polymers were characterized by NMR, FTIR, UV–vis spectroscopy. Transmission electron microscopy and dynamic light scattering measurement indicated that the resulting micelles have desirable size distribution and regular spherical shape. Free active Celastrol can be released under low pH and high GSH environment; In vitro cellular uptake and growth inhibition assays suggested that the blank polymer micelles showed good biocompatibility. EDA-GLA/CE/2-FPBA micelles were more efficiently internalized by monolayer tumor cells and demonstrated superior tumor targeting effects as compared to free Celastrol control. These results demonstrated that the novel prodrug self-assembled dual-responsive nano-delivery platform was able to improve the bioavailability and tumor targeting activity of Celastrol, which provides a basis for further clinical applications of Celastrol and its derivatives.