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931.
Human umbilical cord blood-derived mesenchymal stem cells (hUCB-MSCs) are regarded as an alternative source of bone marrow-derived mesenchymal stem cells because collection of cord blood is less invasive than that of bone marrow. hUCB-MSCs have recently been studied for evaluation of their potential as a source of cell therapy. In this review, the general characteristics of hUCB-MSCs and their therapeutic effects on various diseases in vitro and in vivo will be discussed. 相似文献
932.
Sung Han Shim Tae Ki Yoon Dong Hyun Cha Won Bo Han Dong Hee Choi Nam Keun Kim 《Genes & genomics.》2010,32(3):283-288
Endothelium-derived nitric oxide (NO) is synthesized from L-arginine by endothelial nitric oxide synthase (eNOS) encoded by the eNOS gene on chromosome 7. The effects of the eNOS polymorphisms with the risk of spontaneous pregnancy losses are conflicting. In this study, we investigated the association of the eNOS genotypes with spontaneously aborted embryos in Koreans. Case-control studies were performed to evaluate the association between endothelial nitric oxide synthase (eNOS) gene polymorphisms and spontaneously aborted embryos. Ninety-nine spontaneously aborted fetuses at <20 weeks of gestational age and 103 child controls and 282 adult controls. Genotype frequency of three eNOS gene polymorphisms, ?786T>C, VNTR in intron 4 (4a4b), and 894G>T in spontaneously aborted embryos was surveyed. The frequencies of ?786TC and CC genotypes in aborted embryos were significantly higher than in both child and adult controls. The frequencies of 4a4a homozygote of VNTR polymorphism in intron 4 and TT homozygote of 894G>T polymorphisms were also higher in aborted embryos than in adult controls. Haploptype analysis suggested that ?786T>C polymorphism was a possible risk factor for spontaneously aborted embryos. eNOS gene polymorphisms, ?786T>C, VNTR in intron 4 (4a4b), and 894G>T, are associated with the risk of spontaneously aborted fetuses. 相似文献
933.
Minkoo Ahn Sungsoo Kang Hee Jung Koo Jung‐Ho Lee Yoon‐Sik Lee Seung R. Paik 《Biotechnology progress》2010,26(6):1759-1764
Amyloid fibrils are considered as novel nanomaterials because of their nanoscale width, a regular constituting structure of cross β‐sheet conformation, and considerable mechanical strength. By using an amyloidogenic protein of β2‐microglobulin (β2M) related to dialysis‐related amyloidosis, nanoporous protein matrix has been prepared. The β2M granules made of around 15 monomers showed an average size of 23.1 nm. They formed worm‐like fibrils at pH 7.4 in 20 mM sodium phosphate containing 0.15 M NaCl following vigorous nondirectional shaking incubation, in which they became laterally associated and interwound to generate the porous amyloid fibrillar matrix with an average pore size of 30–50 nm. This nanoporous protein matrix was demonstrated to be selectively disintegrated by reducing agents, such as tris‐(2‐carboxyethyl) phosphine. High surface area with nanopores on the surface has been suggested to make the matrix of β2M amyloid fibrils particularly suitable for applications in the area of nanobiotechnology including drug delivery and tissue engineering. © 2010 American Institute of Chemical Engineers Biotechnol. Prog., 2010 相似文献
934.
Background
Mapping the expression changes during breast cancer development should facilitate basic and translational research that will eventually improve our understanding and clinical management of cancer. However, most studies in this area are challenged by genetic and environmental heterogeneities associated with cancer.Methodology/Principal Findings
We conducted proteomics of the MCF10AT breast cancer model, which comprises of 4 isogenic xenograft-derived human cell lines that mimic different stages of breast cancer progression, using iTRAQ-based tandem mass spectrometry. Of more than 1200 proteins detected, 98 proteins representing at least 20 molecular function groups including kinases, proteases, adhesion, calcium binding and cytoskeletal proteins were found to display significant expression changes across the MCF10AT model. The number of proteins that showed different expression levels increased as disease progressed from AT1k pre-neoplastic cells to low grade CA1h cancer cells and high grade cancer cells. Bioinformatics revealed that MCF10AT model of breast cancer progression is associated with a major re-programming in metabolism, one of the first identified biochemical hallmarks of tumor cells (the “Warburg effect”). Aberrant expression of 3 novel breast cancer-associated proteins namely AK1, ATOX1 and HIST1H2BM were subsequently validated via immunoblotting of the MCF10AT model and immunohistochemistry of progressive clinical breast cancer lesions.Conclusion/Significance
The information generated by this study should serve as a useful reference for future basic and translational cancer research. Dysregulation of ATOX1, AK1 and HIST1HB2M could be detected as early as the pre-neoplastic stage. The findings have implications on early detection and stratification of patients for adjuvant therapy. 相似文献935.
936.
Contribution of autophagy and regulation of related proteins to the degeneration of retinal pigment epithelium (RPE) in age-related macular degeneration (AMD) remain unknown. We report that upregulation of KRT8 (keratin 8) as well as its phosphorylation are accompanied with autophagy and attenuated with the inhibition of autophagy in RPE cells under oxidative stress. KRT8 appears to have a dual role in RPE pathophysiology. While increased expression of KRT8 following autophagy provides a cytoprotective role in RPE, phosphorylation of KRT8 induces pathologic epithelial-mesenchymal transition (EMT) of RPE cells under oxidative stress, which is mediated by MAPK1/ERK2 (mitogen-activated protein kinase 1) and MAPK3/ERK1. Inhibition of autophagy further promotes EMT, which can be reversed by inhibition of MAPK. Thus, regulated enhancement of autophagy with concurrent increased expression of KRT8 and the inhibition of KRT8 phosphorylation serve to inhibit oxidative stress-induced EMT of RPE cells as well as to prevent cell death, suggesting that pharmacological manipulation of KRT8 upregulation through autophagy with combined inhibition of the MAPK1/3 pathway may be attractive therapeutic strategies for the treatment of AMD. 相似文献
937.
938.
So Hyun Han Bong Gyu Kim Jeong A. Yoon Youhoon Chong Joong-Hoon Ahn 《Applied and environmental microbiology》2014,80(9):2754-2762
Plants produce two flavonoid O-pentoses, flavonoid O-xyloside and flavonoid O-arabinoside. However, analyzing their biological properties is difficult because flavonoids are not naturally produced in sufficient quantities. In this study, Escherichia coli was used to synthesize the plant-specific flavonoid O-pentosides quercetin 3-O-xyloside and quercetin 3-O-arabinoside. Two strategies were used. First, E. coli was engineered to express components of the biosynthetic pathways for UDP-xylose and UDP-arabinose. For UDP-xylose biosynthesis, two genes, UXS (UDP-xylose synthase) from Arabidopsis thaliana and ugd (UDP-glucose dehydrogenase) from E. coli, were overexpressed. In addition, the gene encoding ArnA (UDP-l-Ara4N formyltransferase/UDP-GlcA C-4″-decarboxylase), which competes with UXS for UDP-glucuronic acid, was deleted. For UDP-arabinose biosynthesis, UXE (UDP-xylose epimerase) was overexpressed. Next, we engineered UDP-dependent glycosyltransferases (UGTs) to ensure specificity for UDP-xylose and UDP-arabinose. The E. coli strains thus obtained synthesized approximately 160 mg/liter of quercetin 3-O-xyloside and quercetin 3-O-arabinoside. 相似文献
939.
940.
Yun BY Jun SY Kim NA Yoon BY Piao S Park SH Jeong SH Lee H Ha NC 《Biochemical and biophysical research communications》2011,416(1-2):92-98
Glycoside hydrolase family 4 (GH4) represents an unusual group of glucosidases with a requirement for NAD(+), Mn(2+), and reducing conditions. We found a putative α-glucosidase belonging to GH4 in hyperthermophilic Gram-negative bacterium Thermotoga neapolitana. In this study, we recombinantly expressed the putative α-glycosidase from T. neapolitana, and determined the crystal structure of the protein at a resolution of 2.0? in the presence of Mn(2+) but in the absence of NAD(+). The structure showed the dimeric assembly and the Mn(2+) coordination that other GH4 enzymes share. In comparison, we observed structural changes in T. neapolitana α-glucosidase by the binding of NAD(+), which also increased the thermostability. Numerous arginine-mediated salt-bridges were observed in the structure, and we confirmed that the salt bridges correlated with the thermostability of the proteins. Disruption of the salt bridge that linked N-terminal and C-terminal parts at the surface dramatically decreased the thermostability. A mutation that changed the internal salt bridge to a hydrogen bond also decreased the thermostability of the protein. This study will help us to understand the function of the putative glucosidase and the structural features that affect the thermostability of the protein. 相似文献