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mentally retarded individuals. Hum. Genet. 2000, 107 (1), 51-57.

Brown, J.; Saracoglu, K.; Uhrig, S.; Speicher, M.R.; Eils, R.; Kearney, L. Subtelomeric chromosome rearrangements are detected using an innovative 12-color FISH assay (M-TEL). Nat. Med. 2001, 7 (4), 497-501. Engels, H.; Ehrbrecht, A.; Zahn, S.; Bosse, K.; Vrolijk, H.; White, S.; Kalscheuer, V.; Hoovers, J.M.; Schwanitz, G.; Propping, P.; Tanke, H.J.; Wiegant, J.; Raap, A.K. Comprehensive analysis of human subtelomeres with combined binary ratio labelling fluorescence in situ hybridisation. Eur. J. Hum. Genet. 2003, 11 (9), 643-651. Anderlid, B.M.; Schoumans, J.; Anneren, G.; Sahlen, S.; Kyllerman, M.; Vujic, M.; Hagberg, B.; Blennow, E.; Nordenskjold, M. Subtelomeric rearrangements detected in patients with idiopathic mental retardation. Am. J. Med. Genet. 2002, 107 (4), 275-284.

Clarkson, B.; Pavenski, K.; Dupuis, L.; Kennedy, S.; Meyn, S.; Nezarati, M.M.; Nie, G.; Weksberg, R.; Withers, S.; Quercia, N.; Teebi, A.S.; Teshima, I. Detecting rearrangements in children using subtelomeric FISH and SKY. Am. J. Med. Genet. 2002, 107 (4), 267 -274. Bonifacio, S.; Centrone, C.; Da Prato, L.; Scordo, M.R.; Estienne, M.; Torricelli, F. Use of primed in situ labeling (PRINS) for the detection of telomeric deletions associated with mental retardation. Cytogenet. Cell Genet. 2001, 93 (1-2), 16-18.

Joyce, C.A.; Dennis, N.R.; Cooper, S.; Browne, C.E. Subtelomeric rearrangements: Results from a study of selected and unselected probands with idiopathic mental retardation and control individuals by using high-resolution G-banding and FISH. Hum. Genet. 2001, 109 (4), 440-451.

Ghaffari, S.R.; Boyd, E.; Tolmie, J.L.; Crow, Y.J.; Trainer, A.H.; Connor, J.M. A new strategy for cryptic telomeric translocation screening in patients with idiopathic mental retardation. J. Med. Genet. 1998, 35 (3), 225-233. Joly, G.; Lapierre, J.M.; Ozilou, C.; Gosset, P.; Aurias, A.; de Blois, M.C.; Prieur, M.; Raoul, O.; Colleaux, L.; Munnich, A.; Romana, S.; Vekemans, M.; Turleau, C. Comparative genomic hybridisation in mentally retarded patients with dysmorphic features and a normal karyotype. Clin. Genet. 2001, 60 (3), 212-219. Rosenberg, M.J.; Vaske, D.; Killoran, C.E.; Ning, Y. Wargowski, D.; Hudgins, L.; Tifft, C.J.; Meck, J. Blancato, J.K.; Rosenbaum, K.; Pauli, R.M.; Weber, J. Biesecker, L.G. Detection of chromosomal aberrations by a whole-genome microsatellite screen. Am. J. Hum. Genet. 2000, 66 (2), 419-427.

Borgione, E.; Giudice, M.L.; Galesi, O.; Castiglia, L.; Failla, P.; Romano, C.; Ragusa, A.; Fichera, M. How microsatellite analysis can be exploited for subtelomeric chromosomal rearrangement analysis in mental retardation. J. Med. Genet. 2000, 38 (1), E1. Rosenberg, M.J.; Killoran, C.; Dziadzio, L.; Chang, S.; Stone, D.L.; Meck, J.; Aughton; Bird, L.M.; Bodhurtha, J.; Cassidy, S.B.; Graham, J.M., Jr.; Grix, A.; Guttmacher, A.E.; Hudgins, L.; Kozma, C.; Michaelis, R.; Pauli, R.; Biesecker, L.G. Scanning for telomeric deletions and

Getting Started With Dumbbells

Getting Started With Dumbbells

The use of dumbbells gives you a much more comprehensive strengthening effect because the workout engages your stabilizer muscles, in addition to the muscle you may be pin-pointing. Without all of the belts and artificial stabilizers of a machine, you also engage your core muscles, which are your body's natural stabilizers.

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