@article {19460,
title = {Maristem{\textemdash}Stem Cells of Marine/Aquatic Invertebrates: From Basic Research to Innovative Applications},
journal = {Sustainability},
volume = {10},
year = {2018},
month = {2018-02-15 00:00:00},
pages = {526},
publisher = {MDPI (Multidisciplinary Digital Publishing Institute)},
abstract = {p.p1 {margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Helvetica}
\ The {\textquotedblleft}stem cells{\textquotedblright} discipline represents one of the most dynamic areas in biomedicine.
While adult marine/aquatic invertebrate stem cell (MISC) biology is of prime research and medical interest, studies on stem cells from organisms outside the classical vertebrate (e.g., human, mouse, and zebrafish) and invertebrate (e.g., Drosophila , Caenorhabditis ) models have not been pursued vigorously. Marine/aquatic invertebrates constitute the largest biodiversity and the widest phylogenetic radiation on Earth, from morphologically simple organisms (e.g., sponges, cnidarians), to the more complex mollusks, crustaceans, echinoderms, and protochordates. These organisms contain a kaleidoscope of MISC-types that allow the production of a large number of novel bioactive-molecules, many of which are of significant potential interest for human health. MISCs further participate in aging and regeneration phenomena, including whole-body regeneration. For years, the European MISC-community has been highly fragmented and has established scarce ties with biomedical industries in an attempt to harness MISCs for human welfare. Thus, it is important to (i) consolidate the European community of researchers working on MISCs; (ii) promote and coordinate European research on MISC biology; (iii) stimulate young researchers to embark on research in MISC-biology; (iv) develop, validate, and share novel MISC tools and methodologies; (v) establish the MISC discipline as a forefront interest of biomedical disciplines, including nanobiomedicine; and (vi) establish collaborations with industries to exploit MISCs as sources of bioactive molecules. In order to fill the recognized gaps, the EC-COST Action 16203 {\textquotedblleft}MARISTEM{\textquotedblright} has recently been launched. At its initial stage, the consortium unites 26 scientists from EC countries, Cooperating countries, and Near Neighbor Countries.
},
keywords = {aging, bioactive molecules, blue biotechnology, Cancer, cell culture, COST Action, Europe, marine/aquatic invertebrates, regeneration, Stem cells},
issn = {2071-1050},
doi = {10.3390/su10020526},
url = {http://www.mdpi.com/2071-1050/10/2/526},
author = {Ballarin, L. and Rinkevich, B. and Bartscherer, K. and Burzynski, A. and Cambier, S. and Cammarata, M. and Domart-Coulon, I. and Drobne, D. and Encinas, J. and Frank, U. and Geneviere, A. - M. and Hobmayer, B. and L{\"o}helaid, H. and Lyons, D. and Martinez, P. and Oliveri, P. and Peric, L. and Piraino, S. and Ram{\v s}ak, A. and Rakers, S. and Rentzsch, F. and Rosner, A. and Silva, T. H. and Somorjai, I. and Suleiman, S. and Coelho, A. V.}
}
