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Full-Text Articles in Nanotechnology
Construction And Expression Identification Of Human Secreted Apoptosis-Related Protein 1 Gene Yeast Two-Hybrid Bait Vector, Wei Zhang, Guangzhao He, Bing Ma
Construction And Expression Identification Of Human Secreted Apoptosis-Related Protein 1 Gene Yeast Two-Hybrid Bait Vector, Wei Zhang, Guangzhao He, Bing Ma
Bing Ma
Objective: To construct human secreted apoptosis-related protein 1 (SARP1) gene yeast two-hybrid bait vector so as to study the biological functions of the SARP1 gene in the scar tissue. Methods: The target gene from SARP1 gene full-length DNA segment was amplified by PCR, the upstream and downstream primers of the SARP1 gene with restriction enzymes Nde I and Sal I were designed. pGBKT7-SARP1 recombination plasmid was constructed by ligating the vector and the PCR production and identified by PCR and sequencing. Furthermore, pGBKT7-SARP1 was transformed into competent AH109 which contained kanamycin for selecting positive clones and screened the positive clony …
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Praveesuda Lorwattanapongsa Michael
A new and simple method for fabrication of nanofiber scaffolds with gradations in fiber organization is reported. The nanofiber organization, achieved by deposition of random fibers on the uniaxially-aligned nanofiber mat in a gradient manner, directed morphological changes of applied adipose-derived stem cells. These morphological changes and resultant biochemical changes can help mimic the structural orientation of complex biomechanical structures like the collagen fiber structure at the tendon-to-bone insertion site. In addition, chemical gradients can be established through nanoencapsulation in this novel scaffold allowing for enhanced biomedical applications.
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Jingwei Xie
A new and simple method for fabrication of nanofiber scaffolds with gradations in fiber organization is reported. The nanofiber organization, achieved by deposition of random fibers on the uniaxially-aligned nanofiber mat in a gradient manner, directed morphological changes of applied adipose-derived stem cells. These morphological changes and resultant biochemical changes can help mimic the structural orientation of complex biomechanical structures like the collagen fiber structure at the tendon-to-bone insertion site. In addition, chemical gradients can be established through nanoencapsulation in this novel scaffold allowing for enhanced biomedical applications.
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Fabrication Of Nanofiber Scaffolds With Gradations In Fiber Organization And Their Potential Applications, Jingwei Xie, Bing Ma, Praveesuda Michael, Franklin Shuler
Bing Ma
A new and simple method for fabrication of nanofiber scaffolds with gradations in fiber organization is reported. The nanofiber organization, achieved by deposition of random fibers on the uniaxially-aligned nanofiber mat in a gradient manner, directed morphological changes of applied adipose-derived stem cells. These morphological changes and resultant biochemical changes can help mimic the structural orientation of complex biomechanical structures like the collagen fiber structure at the tendon-to-bone insertion site. In addition, chemical gradients can be established through nanoencapsulation in this novel scaffold allowing for enhanced biomedical applications.
Exosome-Mediated Delivery Of Functionally Active Mirna-155 Inhibitor To Macrophages, Fatemeh Momen-Heravi, Shashi Bala, Terence Bukong, Gyongyi Szabo
Exosome-Mediated Delivery Of Functionally Active Mirna-155 Inhibitor To Macrophages, Fatemeh Momen-Heravi, Shashi Bala, Terence Bukong, Gyongyi Szabo
Gyongyi Szabo
Exosomes, membranous nanovesicles, naturally carry bio-macromolecules and play pivotal roles in both physiological intercellular crosstalk and disease pathogenesis. Here, we showed that B cell-derived exosomes can function as vehicles to deliver exogenous miRNA-155 mimic or inhibitor into hepatocytes or macrophages, respectively. Stimulation of B cells significantly increased exosome production. Unlike in parental cells, baseline level of miRNA-155 was very low in exosomes derived from stimulated B cells. Exosomes loaded with a miRNA-155 mimic significantly increased miRNA-155 levels in primary mouse hepatocytes and the liver of miRNA-155 knockout mice. Treatment of RAW macrophages with miRNA-155 inhibitor loaded exosomes resulted in statistically …