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Role of Mesenchymal Stem Cells—Derived Exosomes in Osteoarthritis Treatment

REFERENCES 1. Admyre, C., Grunewald, J., Thyberg, J., Gripenbäck, S., Tornling G., Eklund A., 2003: Exosomes with major histo-compatibility complex class II and co-stimulatory molecules are present in human BAL fluid. Eur. Respir. J. , 22, 578—583. 2. Bruno, S., Grange, C., Deregibus, M. C., 2009: Mesenchymal stem cell-derived microvesicles protect against acute tubular injury. J. Am. Soc. Nephrol. , 20, 1053—1067. 3. Caby, M. P., Lankar, D., Vincendeau-Scherrer, C., Raposo, G., Bonnerot, C., 2005: Exosomal-like vesicles are present in

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Stem breakage and forking in low and high elevation Pinus tecunumanii

Scheme R.4346. Oxford Forestry Institute, University of Oxford. Final Report. 136 pp. D vorak , W. S., C. E. B alocchi and R. H. R aymond (1989): Performance and stability of provenances and families of Pinus tecunumanii in the tropics and subtropics. In: Proc. Of an IUFRO conference on Breeding Tropical Trees: Population Structure and Genetic Improvement Strategies in Clonal and seedling forestry. Pattaya, Thailand, 28 November – 3 December, 1988, pp 187–196. D vorak , W. S., C. C. L ambeth and B. L i (1993): Genetic and site effects on stem

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Effects of Cell Seeding Methods on Chondrogenic Differentiation of Rat Mesenchymal Stem Cells in Polyhydroxybutyrate/Chitosan Scaffolds

REFERENCES 1. Barry, F. P., Murphy, J. M., 2004: Review Mesenchymal stem cells: clinical applications and biological characterization. Int. J. Biochem. Cell Biol , 36, 568—584. DOI: 10.1016/j.biocel.2003.11.001. 2. Bornes, T. D., Jomha, N. M., Mulet-Sierra, A., Adesida, A. B., 2016: Optimal seeding densities for in vitro chondrogenesis of two- and three-dimensional-isolated and expanded bone marrow-derived mesenchymal stromal stem cells within a porous collagen scaffold. Tissue Engn. C: Methods , 22, 208— 220. DOI: 10.1089/ten.tec.2015

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An Evaluation of Selection for Volume Growth in Loblolly Pine

South Carolina piedmont. Forest Research Series No. 7. Clemson University. Clemson, South Carolina. ISIK, F., K. ISIK and S. J. LEE (1999): Genetic variation in Pinus brutia in Turkey: I. Growth, Biomass and Stem Quality Traits. For. Gene. 6: 89-99. LARSON, P. R. (1963): Stem form development of forest trees. Vol. 5. Society of American Foresters. Washington, DC. 42 p. LOEHLE, C. and G. NAMKOONG (1987): Constraints on tree breeding: Growth tradeoffs, growth strategies, and defense investments. For. Sci. 33: 1089

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Density and wood biomass development in whole-tree analyses of Scots pine, and aspects on heritability estimates

-felling. For. Ecol. Manage. 177 : 65–74. E liasson , N. (2003): Effects of pre-commercial thinning time and stem density on the amount of juvenile wood in Scots pine. Swedish University of Agricultural Sciences, Department of Silviculture, Umeå, Sweden, Examensarbeten 2003:10, MSc-thesis. F ries , A. and T. E ricsson (2006): Estimating genetic parameters for wood density of Scots pine ( Pinus sylvestris L.). Silvae Genet. 55 : 84–92. F ries , A. and T. E ricsson (2009): Genetic parameters for earlywood and latewood densities and development by

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Low Cost Improvement of Coastal Douglas-fir (Pseudotsuga menziesii var. menziesii (Mirb.) Franco) By Application of The Breeding Seed Orchard Approach in Denmark

. LINDGREN (1998): Predicting Genetic Gain of Backward and Forward Selection in Forest Tree Breeding. Silvae Genet. 47: 42-50. SAS Inst. Inc. (1999): SAS OnlineDoc® version eight, SAS Institute Inc., Cary, NC, USA, SCHERMANN, N., W. T. ADAMS, S. N. AITKEN and J. CH. BASTIEN (1997): Genetic Parameters of Stem Form Traits in a 9-Year-Old Coastal Douglas-fir Progeny Test in Washington. Silvae Genet. 46: 166-170. SILEN R. R., D. L. OLSON and J. C. WEBER (1993): Genetic variation in susceptibility to

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Variation and Correlations Among Stem Growth and Wood Traits of Calycophyllum spruceanum Benth. from the Peruvian Amazon

, Lima, Peru. 73 p. SOTELO MONTES, C., H. VIDAURRE and J. C. WEBER (2003): Variation in stem-growth and branch-wood traits among provenances of Calycophyllum spruceanum Benth. from the Peruvian Amazon. New Forests 26: 1-16. STEARNS, S. C. (1989): The evolutionary significance of phenotypic plasticity. Biological Science 39: 436-45. STERN, R. D., R. COE, E. F. ALLAN and I. C. DALE (Eds.) (2004): Good Statistical Practice for Natural Resources Research. CABI Publishing, CAB International, Wallingford, U.K. 388 p

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Resistance of Castanea Clones to Phytophthora Cinnamomi: Testing and Genetic Control

. CRANE and F. C. S. TAY (1994): Invasion of Phloem and Xylem of Woody Stems and Roots of Eucalyptus marginata and Pinus radiata by Phytophthora cinnamomi. Phytophatology 84 (4): 335-340. DIXON, K.W. and K. THINLAY SIVASITHAMPARAM (1984): Technique for rapid assessment of tolerance of Banksia spp. to root rot caused by Phytophthora cinnamomi. Plant Disease 68, 1077-80. EGEL, D. S. (1999): Preventing seedling diseases in the greenhouse. Purdue University Cooperative Extensio service. http

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Selection of Poplar Hybrid Clones (Populus ssp.) from Backcrossed Progenies of the Aigeiros Section for Industrial Purpose

References ADRIAN, A. (2002): Changes through time in traits of poplar clones in selection trials. New For. 23: 109-111. CEULEMANS, R., R. F. STETTLER, T. M. HINCKELY, J. G. ISEBRANDS and P. E. HEILMAN (1990): Crown architecture of Populus clones as determined by branch orientation and branch characteristics. Tree Physiol. 7: 157-167. DEBELL, J. D., B. L. GARTNER and D. S. DEBELL (1998): Fiber length in young hybrid Populus stems grown at extremely different rates. Can. J. For. Res. 28: 603

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Genetic variation in tree growth, stem form and mortality of Guazuma crinita in slower- and faster-growing plantations in the Peruvian Amazon

. Silvae Genetica 45 : 24–30. C ornelius , J. and F. M esén (1997): Provenance and family variation in growth rate, stem straightness, and foliar mineral concentration in Vochysia guatemalensis . Canadian Journal of Forest Research 27 : 1103–1109. D vorak , W. S., H. U rueña , L. A. M oreno and J. G oforth (1998): Provenance and family variation in Sterculia apetala in Colombia. Forest Ecology and Management 111 : 127–135. E ncarnación , F. (1983): Nomenclatura de las Especies Forestales Comunes en el Perú. Proyecto PNUD/FAO/PER/81

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