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Journal home Advance online publication Current issue Archive Press releases Free Association (blog) Supplements 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 Biotechnology Nature Cell Biology Nature Medicine Nature Methods Nature Reviews Cancer Nature Reviews Genetics Nature Reviews Molecular Cell Biology news@nature.com Nature Conferences Nature Reports Stem Cells RNAi Gateway 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 Review Nature Genetics  34, 135 - 141 (2003) doi:10.1038/ng0603-135 When calcium goes wrong: genetic alterations of a ubiquitous signaling route Rosario Rizzuto1 & Tullio Pozzan2 1  Department of Experimental and Diagnostic Medicine and Interdisciplinary Centre for the Study of Inflammation, University of Ferrara, Section of General Pathology, Via Borsari 46, 44100 Ferrara, Italy. 2  Department of Biomedical Sciences, University of Padova and Venetian Institute of Molecular Medicine, Italy. Correspondence should be addressed to Rosario Rizzuto rosario.rizzuto@unife.itIn all eukaryotic cells, the cytosolic concentration of calcium ions ([Ca2+]c) is tightly controlled by complex interactions among transporters, pumps, channels and binding proteins. Finely tuned changes in [Ca2+]c modulate a variety of intracellular functions, and disruption of Ca2+ handling leads to cell death. Here we review the human genetic diseases associated with perturbations in the Ca2+ signaling machinery. Despite the importance of Ca2+ in physiology and pathology, the number of known genetic diseases that can be attributed to defects in proteins directly involved in Ca2+ homeostasis is limited to few examples, which will be discussed. This paucity in contrast with the wide molecular repertoire may depend on the extreme severity of the phenotype (leading to death in utero) or, conversely, on functional compensation due to redundancy. In the latter case, it stands to reason that other genetic defects in calcium signaling have yet to be identified owing to their subtle phenotype. MORE ARTICLES LIKE THIS These links to content published by NPG are automatically generated REVIEWS Neurological diseases: Neurobiology of migraine Nature Reviews Neuroscience Review (01 May 2003)  Top Abstract Previous | Next Table of contents Full text Download PDF Send to a friend Save this link Open Innovation Challenges 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... Fast Growth of Transformed Soybean Shoots Deadline: Jul 15 2009 Reward: $10,000 USD A method for accelerating growth of soybean shoots is desired. More Challenges Powered by: nature jobs Professorship in Bioprocess Engineering University of Natural Resources and Applied Life Sciences Vienna Vienna 1180 Austria Biochemical Pharmacologist Eisai London Research Laboratories Ltd Hatfield, United Kingdom More science jobs Post a job for free Figures & Tables Export citation Search buyers guide:   ADVERTISEMENT

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