UV Doses Worldwide¶† DE Godar Photochemistry and photobiology 81 (4), 736-749, 2005 | 323 | 2005 |
UVA1 radiation triggers two different final apoptotic pathways DE Godar Journal of investigative dermatology 112 (1), 3-12, 1999 | 275 | 1999 |
UV doses of young adults¶ DE Godar, F Urbach, FP Gasparro, JC van der Leun Photochemistry and photobiology 77 (4), 453-457, 2003 | 192 | 2003 |
UV Doses of Americans¶ DE Godar, SP Wengraitis, J Shreffler, DH Sliney Photochemistry and Photobiology 73 (6), 621-629, 2001 | 166 | 2001 |
Worldwide increasing incidences of cutaneous malignant melanoma DE Godar Journal of skin cancer 2011 (1), 858425, 2011 | 134 | 2011 |
Increased UVA exposures and decreased cutaneous Vitamin D3 levels may be responsible for the increasing incidence of melanoma DE Godar, RJ Landry, AD Lucas Medical hypotheses 72 (4), 434-443, 2009 | 134 | 2009 |
Spectral dependence of UV‐induced immediate and delayed apoptosis: the role of membrane and DNA damage DE Godar, AD Lucas Photochemistry and photobiology 62 (1), 108-113, 1995 | 132 | 1995 |
Preprogrammed and programmed cell death mechanisms of apoptosis: UV‐induced immediate and delayed apoptosis DE Godar Photochemistry and photobiology 63 (6), 825-830, 1996 | 124 | 1996 |
Solar UV Doses of Young Americans and Vitamin D3 Production DE Godar, SJ Pope, WB Grant, MF Holick Environmental health perspectives 120 (1), 139-143, 2012 | 116 | 2012 |
Light and death: photons and apoptosis DE Godar Journal of Investigative Dermatology Symposium Proceedings 4 (1), 17-23, 1999 | 116 | 1999 |
Solar UV Doses of Adult Americans and Vitamin D3 Production DE Godar, SJ Pope, WB Grant, MF Holick Dermato-endocrinology 3 (4), 243-250, 2011 | 103 | 2011 |
Immediate and delayed apoptotic cell death mechanisms: UVA versus UVB and UVC radiation. DE Godar, SA Miller, DP Thomas Cell death and differentiation 1 (1), 59-66, 1994 | 84 | 1994 |
UV Doses of American Children and Adolescents¶ DE Godar Photochemistry and photobiology 74 (6), 787-793, 2001 | 77 | 2001 |
The state of nano‐sized titanium dioxide (TiO2) may affect sunscreen performance KM Tyner, AM Wokovich, DE Godar, WH Doub, N Sadrieh International journal of cosmetic science 33 (3), 234-244, 2011 | 75 | 2011 |
Long‐wavelength UVA radiation induces oxidative stress, cytoskeletal damage and hemolysis DE Godar, DP Thomas, SA Miller, W Lee Photochemistry and photobiology 57, 1018-1026, 1993 | 69 | 1993 |
Solar UV Geometric Conversion Factors: Horizontal Plane to Cylinder Model† SJ Pope, DE Godar Photochemistry and photobiology 86 (2), 457-466, 2010 | 54 | 2010 |
Exponentially increasing incidences of cutaneous malignant melanoma in Europe correlate with low personal annual UV doses and suggests 2 major risk factors SJ Merrill, S Ashrafi, M Subramanian, DE Godar Dermato-endocrinology 7 (1), e1004018, 2015 | 51 | 2015 |
Action Spectrum Conversion Factors that Change Erythemally Weighted to Previtamin D3‐weighted UV Doses† SJ Pope, MF Holick, S Mackin, DE Godar Photochemistry and photobiology 84 (5), 1277-1283, 2008 | 45 | 2008 |
Non‐nuclear damage and cell lysis are induced by UVA, but not UVB or UVC, radiation in three strains of L5178Y cells JZ Beer, KM Olvey, SA Miller, DP Thomas, DE Godar Photochemistry and photobiology 58 (5), 676-681, 1993 | 40 | 1993 |
Structural organization of the multienzyme complex of mammalian aminoacyl-tRNA synthetases DE Godar, DE Godar, V Garcia, A Jacobo, U Aebi, DCH Yang Biochemistry 27 (18), 6921-6928, 1988 | 39 | 1988 |