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Journal home Advance online publication Current issue Archive Press releases Focuses Guide to authors Online submission For referees Free online issue Contact the journal Subscribe Advertising work@npg Reprints and permissions About this site For librarians   NPG Resources Nature Nature Reviews Immunology Nature Medicine Nature Cell Biology NI Tutorial: Finding regulatory DNA regions Signaling Gateway Immunology & Cell Biology Mucosal Immunology Nature Conferences Nature Stem Cells NPG Subject areas Biotechnology Cancer Chemistry Clinical Medicine Dentistry Development Drug Discovery Earth Sciences Evolution & Ecology Genetics Immunology Materials Science Medical Research Microbiology Molecular Cell Biology Neuroscience Pharmacology Physics Browse all publications Article Nature Immunology  4, 1238 - 1246 (2003) Published online: 9 November 2003; | doi:10.1038/ni1007 Transplantation and in vivo imaging of multilineage engraftment in zebrafish bloodless mutants David Traver1, Barry H Paw1, Kenneth D Poss2, W Todd Penberthy3, Shuo Lin3 & Leonard I Zon1 1  Children's Hospital Boston and the Howard Hughes Medical Institute, 320 Longwood Avenue, Enders 720, Boston, Massachusetts 02115, USA. 2  Department of Cell Biology, Box 3709, Duke University Medical Center, Durham, North Carolina 27710, USA. 3  University of California at Los Angeles, 621 Charles Young Drive South, LS4325, Los Angeles, California 90095, USA. Correspondence should be addressed to Leonard I Zon zon@rascal.med.harvard.eduThe zebrafish is firmly established as a genetic model for the study of vertebrate blood development. Here we have characterized the blood-forming system of adult zebrafish. Each major blood lineage can be isolated by flow cytometry, and with these lineal profiles, defects in zebrafish blood mutants can be quantified. We developed hematopoietic cell transplantation to study cell autonomy of mutant gene function and to establish a hematopoietic stem cell assay. Hematopoietic cell transplantation can rescue multilineage hematopoiesis in embryonic lethal gata1-/- mutants for over 6 months. Direct visualization of fluorescent donor cells in embryonic recipients allows engraftment and homing events to be imaged in real time. These results provide a cellular context in which to study the genetics of hematopoiesis. You have created an error.  Top Abstract Previous | Next Table of contents Full text Download PDF Send to a friend Save this link Open Innovation Challenges Protect Enzyme from In Planta Degradation Deadline: Jul 15 2009 Reward: $20,000 USD A proposal for stable expression of an enzyme in corn seed is desired. Efficient Chromosome Doubling: Plant Cell Division Deadline: Jul 15 2009 Reward: $20,000 USD The Seeker is looking for an efficient chromosome doubling method in plants and in particular, metho... More Challenges Powered by: nature jobs Developer - Functional Genomics European Bioinformatics Institute (EBI) Cambridge CB10 1SD United Kingdom Research Scientist - Phd - Genomics - Primary Cell Lines KSR Richmond, VA, USA More science jobs Post a job for free Figures & Tables Supplementary info Export citation Search buyers guide:   ADVERTISEMENT

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