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@#Recently, in situ gel has been widely used as a local delivery system for periodontitis treatment because of its lesion injectability, local drug depot function, and drug sustained-release effect.Different therapeutic purposes can be achieved by loading different types of drugs such as antibiotics, bioactive factors, etc.In this review, different types of in situ gel with temperature-sensitive, ion-sensitive, pH-sensitive and solvent-exchanged characteristics were introduced for their applications and limitations in the delivery of drug for periodontitis;and the elimination of periodontal inflammation, periodontal tissue repair and the long-term role after loading microsphere achieved by the in situ gel system were also reviewed.
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The functionality of DNA biomacromolecules has been widely excavated, as therapeutic drugs, carriers, and functionalized modification derivatives. In this study, we developed a series of DNA tetrahedron nanocages (Td),
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@#Based on the three delivery forms of CRISPR/Cas9 system at the levels of DNA, RNA and protein, this paper mainly approaches the development and new strategies of CRISPR/Cas9 delivery systems, as well as their application in the biomedical field and the clinical treatment of gene-related diseases. By summarizing and elaborating the CRISPR/Cas9 system delivery and gene therapy strategy, new ideas are provided for the discovery of innovative drugs and the development of gene therapy.
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Protean mesoporous silica nanoparticles (MSNs) are propitious candidates over decades for nanoscale drug delivery systems due to their unique characteristics, including (but not limited to) changeable pore size, mesoporosity, high drug loading capacity, and biodegradability. MSNs have been drawing considerable attention as competent, safer and effective drug delivery vehicles day by day by their towering mechanical, chemical and thermal characteristics. Straightforward and easy steps are involved in the synthesis of MSNs at a relatively cheaper cost. This review reports Stober's synthesis, the first proposed synthesis procedure to prepare micron-sized, spherical MSNs, followed by other modifications later on done by scientists. To ensure the safety and compatibility of MSNs with biological systems, the hemocompatibility evaluation of MSNs using human red blood cells (RBCs) is a widely welcomed exercise. Though our main vision of this overview is to emphasize more on the hemocompatibility of MSNs to RBCs, we also brief about the synthesis and widespread applications of multifaceted MSNs. The strike of different parameters of MSNs plays a crucial role concerning the hemolytic activity of MSNs, which also has been discussed here. The inference is derived by centering some feasible measures that can be adopted to cut down or stop the hemolytic activity of MSNs in the future.
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DNA nanocages are nanoscale three-dimensional polyhedral structures formed by self-assembled oligonucleotide strands by base pairing.DNA nanocages,especially the tetrahedron DNA nanocages,were proved to be potential nanocarriers for drug delivery,due to their good stablility,high compatibility,intracellular ablility and hollow cavity for modification and drug loading..In this paper,we reviewed the structural characteristics,synthetic methods and targeted modification of DNA nanocages,as well as their development and application in drug carriers,biological imaging,in vitro diagnosis and materials science.
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Infectious bursal disease virus (IBDV) is an important member of the Birnaviridae family. IBUV mainly targets the bursa of Fabricius, the central immune organ of chicken, resulting in chicken infectious bursal disease (IBD). IBD represents one of the great challenges for ongoing development of the poultry industry. Reverse genetics for IBDV emerged over twenty years ago. Since then, the technologies behind virus rescue have continually improved leading to a deep understanding of IBDV gene function and tailored vaccine development. Our lab has also been instrumental in the field of IBDV research. Here we review studies on the pathogenic mechanism and the effective prevention and control of IBD.
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Animais , Infecções por Birnaviridae , Virologia , Galinhas , Vírus da Doença Infecciosa da Bursa , Genética , Fisiologia , Produtos Avícolas , Virologia , Genética ReversaRESUMO
A new mathematical equation characterizing the compression of pharmaceutical materials is presented. This equation presumed that the rate of change of the compressible volume of powder with respect to the pressure is proportional to the compressible volume. The new model provided a good fit to several model substances employing non-linear regression techniques. The validity of the model had been verified with experimental results of various pharmaceutical powders according to the Akaikes informatics criterion (AIC) and the sum of squared deviations (SS). The parameter of the new model might reflect quantitatively the fundamental compression behaviors of the powders. It had demonstrated that the proposed model could well predict the compaction characteristics of solid particles like the Kawakita model.
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To screen the interactive proteins with IBDV Gt VP2 protein from cDNA library of B Lymphoid cells of the bursa of Fabricius. The expression cDNA library plasmids was transformed to the yeast competent cells, which have the bait plasmid-Gt VP2. After testing for growth in synthetic complete medium lacking histidine and uracil and for production of beta-galactosidase (X-gal), we obtained 16 positive clones. We searched the gene sequences of positive clones in the NCBI website. The blast results showed that five positive clones were the gallus sequences. They were Gallus gallus breed mitochondrial DNA, O_G1cNAc transferase, Tumor protein p53 binding protein, Stathmin and Chondroitin sulfate Ga1NAcT-2, respectively. This study is helpful for the further identifying the receptors of IBDV in B Lymphoid cells of the bursa of Fabricius.