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101.
A highly reproducible system for efficient plant regeneration from protoplast via somatic embryogenesis was developed in cotton (Gossypium hirsutum L.) cultivar ZDM-3. Embryogenic callus, somatic embryos and suspension culture cells were used as explants. Callus-forming
frequency (82.86 %) was obtained in protoplast cultures from suspension culture cells in KM8P medium with 0.45 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 0.93 μM kinetin (KIN), 1.5 % glucose and 1.5 % maltose. Protocolonies
formed in two months with plating efficiency of 14 %. However, the callus-forming efficiencies from other two explants were
low. The calli from protoplast culture were transferred to somatic embryo induction medium and 12.7 % of normal plantlets
were obtained on medium contained 3 % maltose or 1 % of each sucrose + maltose + glucose, 2.46 μM indole-3-butyric acid (IBA)
and 0.93 μM KIN. Over 100 plantlets were obtained from protoplasts derived from three explants. The regenerated plants were
transferred to the soil and the highest survival rate (95 %) was observed in transplanting via a new method. 相似文献
102.
Toth ZE Shahar T Leker R Szalayova I Bratincsák A Key S Lonyai A Németh K Mezey E 《Experimental cell research》2007,313(9):1943-1950
The green fluorescent protein (GFP) is among the most commonly used expression markers in biology. GFP-tagged cells have played a particularly important role in studies of cell lineage. Sensitive detection of GFP is crucially important for such studies to be successful, and problems with detection may account for discrepancies in the literature regarding the possible fate choices of stem cells. Here we describe a very sensitive technique for visualization of GFP. Using it we can detect about 90% of cells of donor origin while we could only see about 50% of these cells when we employ the methods that are in general use in other laboratories. In addition, we provide evidence that some cells permanently silence GFP expression. In the case of the progeny of bone marrow stem cells, it appears that the more distantly related they are to their precursors, the more likely it is that they will turn off the lineage marker. 相似文献
103.
Paul R. Sanberg Dong‐Hyuk Park Nicole Kuzmin‐Nichols Eduardo Cruz Nelson Americo Hossne Jr Enio Buffolo Alison E. Willing 《Journal of cellular and molecular medicine》2010,14(3):553-563
Neovascularization is an integral process of inflammatory reactions and subsequent repair cascades in tissue injury. Monocytes/macrophages play a key role in the inflammatory process including angiogenesis as well as the defence mechanisms by exerting microbicidal and immunomodulatory activity. Current studies have demonstrated that recruited monocytes/macrophages aid in regulating angiogenesis in ischemic tissue, tumours and chronic inflammation. In terms of neovascularization followed by tissue regeneration, monocytes/macrophages should be highly attractive for cell-based therapy compared to any other stem cells due to their considerable advantages: non-oncogenic, non-teratogenic, multiple secretary functions including pro-angiogenic and growth factors, straightforward cell harvesting procedure and non-existent ethical controversy. In addition to adult origins such as bone marrow or peripheral blood, umbilical cord blood (UCB) can be a potential source for autologous or allogeneic monocytes/macrophages. Especially, UCB monocytes should be considered as the first candidate owing to their feasibility, low immune rejection and multiple characteristic advantages such as their anti-inflammatory properties by virtue of their unique immune and inflammatory immaturity, and their pro-angiogenic ability. In this review, we present general characteristics and potential of monocytes/macrophages for cell-based therapy, especially focusing on neovascularization and UCB-derived monocytes. 相似文献
104.
Mesenchymal stem cells (MSCs) have been suggested for pancreatic islet repair in Type 1 diabetes mellitus (T1DM). This study aimed to investigate the effect of human umbilical cord MSCs (hUC-MSCs) transfected with tissue inhibitors of matrix metalloproteinase (TIMP)-1 on the regeneration of β-cell islets in vitro and in vivo. hUC-MSCs were isolated, cultured, and transfected with lentiviruses for the overexpression of hTIMP-1. An in vitro coculture system of hUC-MSCs and streptozotocin-induced islets was established to examine the morphology, apoptosis, and insulin secretion of the cocultured islets. Diabetic mouse models were injected with lenti-TIMP-1-enhanced green fluorescent protein (EGFP)-hUC-MSCs to test the effect of hTIMP-1 on insulin levels and glucose tolerance in vivo. The expression of insulin and glucagon was evaluated by immunofluorescence staining. The results showed that coculture with hUC-MSCs or Lenti-TIMP-1-EGFP-hUC-MSCs improved islet viability rates. Lenti-TIMP-1-EGFP-hUC-MSC coculture increased the insulin and C-peptide secretion function of the cultured islets and increased the secretion of tumor necrosis factor-β1, interleukin-6, IL-10, and hTIMP-1. hUC-MSCs, especially those transfected with Lenti-hTIMP-1-EGFP, showed a strong protective effect in diabetic mice by alleviating weight loss and improving glucose and insulin metabolism. In addition, transplantation rescued islet histology and function in vivo. The overexpression of TIMP-1 by hUC-MSCs seems to exert beneficial effects on pancreatic islet cells. In conclusion, this study may provide a new perspective on the development of hUC-MSC-based cell transplantation therapy for T1DM. 相似文献
105.
Guang‐Zhen Jin Su‐Jin Cho Young‐S Lee Myeong‐Ok Kim Dong‐Woo Cho Il‐Keun Kong 《Cell biology international》2010,34(1):135-140
MSCs (mesenchymal stem cells) derived from the bone marrow have shown to be a promising source of stem cells in a therapeutic strategy of neurodegenerative disorder. Also, MSCs can enhance the TH (tyrosine hydroxylase) expression and DA (dopamine) content in catecholaminergic cells by in vitro co‐culture system. In the present study, we investigated the effect of intrastriatal grafts of MSCs on TH protein and gene levels and DA content in adult intact rats. When MSCs were transplanted into the striatum of normal rats, the grafted striatum not only had significantly higher TH protein and mRNA levels, but also significantly higher DA content than the untransplanted striatum. Meanwhile, the grafted MSCs differentiated into neurons, astrocytes and oligodendrocytes; however, TH‐positive cells could not be detected in our study. These experimental results offer further evidence that MSCs are a promising candidate for treating neurodegenerative diseases such as Parkinson's disease. 相似文献
106.
Long-term assessment of seed limitation in plants: results from an 11-year experiment 总被引:2,自引:1,他引:2
JOHAN EHRLÉN ZUZANA MÜNZBERGOVA† MARTIN DIEKMANN‡ OVE ERIKSSON 《Journal of Ecology》2006,94(6):1224-1232
107.
Hilgert M Hartmann J Löffelholz K Jeltsch H Cassel JC Klein J 《Neurochemical research》2003,28(3-4):467-472
The cholinergic inputs to the rat hippocampus were lesioned by intraseptal injections of 192 IgG-saporin. After 15 days, fetal septal cells were grafted into the hippocampus. Thirteen months later, hippocampal acetylcholine (ACh) release was studied by microdialysis. Lesioning reduced basal ACh release (100%) to 20% of normal, which was compensated for by the graft (71%). Infusion of the serotonin uptake inhibitor citalopram (100 M) enhanced ACh release to the same extent (% of basal release) in all rat groups. Systemic injection of 8-OH-DPAT (0.5 mg/kg, SC), an agonist of 5-HT1A receptors, caused a smaller ACh release than citalopram. Acetylcholinesterase (AChE) staining and densitometric quantification revealed that the lesion-induced reduction of the AChE-staining density was compensated for by septal grafting. In conclusion, both histochemical and biochemical methods showed that cholinergic hippocampal parameters were drastically impaired by 192 IgG-saporin lesions, but were almost completely restored by septal grafting. The graft responded to intrinsic serotonergic regulation. 相似文献
108.
Tatarkiewicz K López-Avalos MD Yoon KH Trivedi N Quickel RR Bonner-Weir S Weir GC 《Development, growth & differentiation》2003,45(1):39-50
To learn more about the potential of neonatal porcine pancreatic duct and islet cells for xenotransplantation, the development of these cells when cultured as monolayers was evaluated. Immunostaining for islet hormones and cytokeratin-7 revealed that day eight monolayers consisted of approximately 70% duct cells and less than 10% beta cells. Using Ki-67 immunostaining as a proliferation marker, the fraction of beta cells in the cell cycle was shown to decrease from 20% at day three to 10% at day eight, and for duct cells from 36 to 19%. Insulin secretion increased 2.4-fold upon glucose stimulation, and 38-fold when 10 mm theophylline was added, showing the responsiveness of the neonatal beta cells. Reaggregated monolayers consisted mostly of duct cells, but 4 weeks after transplantation, grafts contained predominantly endocrine cells, with duct cells being almost absent, suggesting in vivo differentiation of duct cells to endocrine cells. Monolayer susceptibility to retroviral transduction was also investigated using a Moloney Murine Leukemia Virus-based vector. Approximately 60% of duct cells but less than 5% of beta cells expressed the transgene, indicating that precursor duct cells are better targets for transgene expression. These results show that porcine neonatal pancreatic cells can be cultured as monolayers in preparation for transplantation. Furthermore, in such a culture setting, precursor duct cells have a high rate of proliferation and are more efficiently transduced with a retrovirus-based reporter gene than are beta cells. 相似文献
109.
Articular cartilage lacks self-repair capacity. Currently, two methods employing autologous cells are used to stimulate repair of articular cartilage. Micro-fracture induced repair induces autologous mesenchymal cell migration from bone marrow. Autologous chondrocytes' transplantation involves in vitro expansion of chondrocytes, and later implantation. In 15 patients de-differentiated chondrocytes obtained by cartilage biopsy were compared to cells derived from repair tissue induced by micro-fracture. These patients all underwent micro-fracture during the cartilage biopsy procedure. Autologous chondrocytes' transplantation was performed at least two months later then the biopsy. Tissue bits from articular cartilage and micro-fracture repair tissue were incubated in-vitro and explant cell cultures established. The cell cultures were assessed by immunohistochemistry and induced to differentiate. Differentiation into bone tissue was stimulated by addition of basic fibroblast growth factor, ascorbate and dexamethasone. High density (micro-mass) culture was used to stimulate chondrogenesis. Both cell cultures consist of mesenchymal progenitors as indicated by fibroblast growth factor receptor 3 expression and anti-CD-34+ antibodies. However, the micro-fracture generated repair tissue consists of osteocalcin-expressing cells destined to become bone. Collagen type II expression does not occur in these cells compared to autologous chondrocytes. Inducible nitric oxide synthase expression by microfracture cells is likely to damage surrounding articular cartilage in vivo. In conclusion, cells recruited by micro-fracture are inferior for cartilage regeneration purposes to those from cartilage biopsies. 相似文献
110.
Rapid progress of in vitro techniques in the lastyears enabled the creation of organotypic skin cultures offering newpossibilities in wound treatment. Rebuilding of graft is one of the keyelementsof successful outcome of the procedure.In search for the best scaffold for organotypic skin culture, the novelcomposite xenogenic collagen based material with unique properties has beencreated and used to reconstitute full thickness human skin invitro. Based on our long established technology used for theproduction of collagen dressings for the treatment of burns, this novel,composite material offers excellent growth support of highly biodegradablespongy layer, combined with mechanical strength of collagen membrane. Themodulation of collagen properties was accomplished by consecutive treatmentwithhigh temperature and gamma irradiation. The use of the substrate enabled toobtain organotypic culture that resembles full thickness skin with fibroblastslayer and well-developed multilayer epithelium. Our new material offers easyhandling of obtained graft during surgery along with accelerated cell growth andcontrolled biodegradation of the culture support. 相似文献