Authors: Arking, R Giroux, C

Citation: R. Arking et C. Giroux, Antioxidant genes, hormesis, and demographic longevity, J ANTI-AG M, 4(2), 2001, pp. 125-136

Authors: Vettraino, J Buck, S Arking, R

Citation: J. Vettraino et al., Direct selection for paraquat resistance in Drosophila results in a different extended longevity phenotype, J GERONT A, 56(10), 2001, pp. B415-B425

Authors: Buck, S Vettraino, J Force, AG Arking, R

Citation: S. Buck et al., Extended longevity in Drosophila is consistently associated with a decrease in developmental viability, J GERONT A, 55(6), 2000, pp. B292-B301

Authors: Arking, R Burde, V Graves, K Hari, R Feldman, E Zeevi, A Soliman, S Saraiya, A Buck, S Vettraino, J Sathrasala, K

Citation: R. Arking et al., Identical longevity phenotypes are characterized by different patterns of gene expression and oxidative damage, EXP GERONT, 35(3), 2000, pp. 353-373

Authors: Arking, R Burde, V Graves, K Hari, R Feldman, E Zeevi, A Soliman, S Saraiya, A Buck, S Vettraino, J Sathrasala, K Wehr, N Levine, RL

Citation: R. Arking et al., Forward and reverse selection for longevity in Drosophila is characterizedby alteration of antioxidant gene expression and oxidative damage patterns, EXP GERONT, 35(2), 2000, pp. 167-185

Authors: Kuether, K Arking, R

Citation: K. Kuether et R. Arking, Drosophila selected for extended longevity are more sensitive to heat shock, AGE, 22(4), 1999, pp. 175-180