Andrea Bodnar - Publications

Publications (16)

ECB-PERS-4138

Publications By Andrea Bodnar

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Genetically tractable embryonic cell lines from sea urchins Lytechinus variegatus and Strongylocentrotus purpuratus., Castellano KR, Manner CJ, Kell RM, McAtee RM, Capozzi NM, Wray GA, Bodnar AG., Commun Biol. October 14, 2025; 8 (1): 1457.
Genomic signatures of exceptional longevity and negligible aging in the long-lived red sea urchin., Polinski JM, Castellano KR, Buckley KM, Bodnar AG., Cell Rep. April 23, 2024; 43 (4): 114021.
Unique age-related transcriptional signature in the nervous system of the long-lived red sea urchin Mesocentrotus franciscanus., Polinski JM, Kron N, Smith DR, Bodnar AG., Sci Rep. June 8, 2020; 10 (1): 9182.
Ocean acidification impacts spine integrity but not regenerative capacity of spines and tube feet in adult sea urchins., Emerson CE, Reinardy HC, Bates NR, Bodnar AG., R Soc Open Sci. May 1, 2017; 4 (5): 170140.
Maintenance of somatic tissue regeneration with age in short- and long-lived species of sea urchins., Bodnar AG, Coffman JA., Aging Cell. August 1, 2016; 15 (4): 778-87.
Induction of innate immune gene expression following methyl methanesulfonate-induced DNA damage in sea urchins., Reinardy HC, Chapman J, Bodnar AG., Biol Lett. February 1, 2016; 12 (2): 20151057.
Profiling DNA damage and repair capacity in sea urchin larvae and coelomocytes exposed to genotoxicants., Reinardy HC, Bodnar AG., Mutagenesis. November 1, 2015; 30 (6): 829-39.
Cellular and molecular mechanisms of negligible senescence: insight from the sea urchin., Bodnar AG., Invertebr Reprod Dev. January 30, 2015; 59 (sup1): 23-27.
Tissue regeneration and biomineralization in sea urchins: role of Notch signaling and presence of stem cell markers., Reinardy HC, Emerson CE, Manley JM, Bodnar AG., PLoS One. January 1, 2015; 10 (8): e0133860.
Comparative DNA damage and repair in echinoderm coelomocytes exposed to genotoxicants., El-Bibany AH, Bodnar AG, Reinardy HC., PLoS One. September 17, 2014; 9 (9): e107815.
Oxidative damage and cellular defense mechanisms in sea urchin models of aging., Du C, Anderson A, Lortie M, Parsons R, Bodnar A., Free Radic Biol Med. October 1, 2013; 63 254-63.
Proteomic profiles reveal age-related changes in coelomic fluid of sea urchin species with different life spans., Bodnar A., Exp Gerontol. May 1, 2013; 48 (5): 525-30.
Sea urchin coelomocytes are resistant to a variety of DNA damaging agents., Loram J, Raudonis R, Chapman J, Lortie M, Bodnar A., Aquat Toxicol. November 15, 2012; 124-125 133-8.
Age-related changes in gene expression in tissues of the sea urchin Strongylocentrotus purpuratus., Loram J, Bodnar A., Mech Ageing Dev. May 1, 2012; 133 (5): 338-47.
Marine invertebrates as models for aging research., Bodnar AG., Exp Gerontol. August 1, 2009; 44 (8): 477-84.
Lack of age-associated telomere shortening in long- and short-lived species of sea urchins., Francis N, Gregg T, Owen R, Ebert T, Bodnar A., FEBS Lett. August 21, 2006; 580 (19): 4713-7.

Genetically tractable embryonic cell lines from sea urchins Lytechinus variegatus and Strongylocentrotus purpuratus., Castellano KR, Manner CJ, Kell RM, McAtee RM, Capozzi NM, Wray GA, Bodnar AG., Commun Biol. October 14, 2025; 8 (1): 1457.

Genomic signatures of exceptional longevity and negligible aging in the long-lived red sea urchin., Polinski JM, Castellano KR, Buckley KM, Bodnar AG., Cell Rep. April 23, 2024; 43 (4): 114021.

Unique age-related transcriptional signature in the nervous system of the long-lived red sea urchin Mesocentrotus franciscanus., Polinski JM, Kron N, Smith DR, Bodnar AG., Sci Rep. June 8, 2020; 10 (1): 9182.

Ocean acidification impacts spine integrity but not regenerative capacity of spines and tube feet in adult sea urchins., Emerson CE, Reinardy HC, Bates NR, Bodnar AG., R Soc Open Sci. May 1, 2017; 4 (5): 170140.

Maintenance of somatic tissue regeneration with age in short- and long-lived species of sea urchins., Bodnar AG, Coffman JA., Aging Cell. August 1, 2016; 15 (4): 778-87.

Induction of innate immune gene expression following methyl methanesulfonate-induced DNA damage in sea urchins., Reinardy HC, Chapman J, Bodnar AG., Biol Lett. February 1, 2016; 12 (2): 20151057.

Profiling DNA damage and repair capacity in sea urchin larvae and coelomocytes exposed to genotoxicants., Reinardy HC, Bodnar AG., Mutagenesis. November 1, 2015; 30 (6): 829-39.

Cellular and molecular mechanisms of negligible senescence: insight from the sea urchin., Bodnar AG., Invertebr Reprod Dev. January 30, 2015; 59 (sup1): 23-27.

Tissue regeneration and biomineralization in sea urchins: role of Notch signaling and presence of stem cell markers., Reinardy HC, Emerson CE, Manley JM, Bodnar AG., PLoS One. January 1, 2015; 10 (8): e0133860.

Comparative DNA damage and repair in echinoderm coelomocytes exposed to genotoxicants., El-Bibany AH, Bodnar AG, Reinardy HC., PLoS One. September 17, 2014; 9 (9): e107815.

Oxidative damage and cellular defense mechanisms in sea urchin models of aging., Du C, Anderson A, Lortie M, Parsons R, Bodnar A., Free Radic Biol Med. October 1, 2013; 63 254-63.

Proteomic profiles reveal age-related changes in coelomic fluid of sea urchin species with different life spans., Bodnar A., Exp Gerontol. May 1, 2013; 48 (5): 525-30.

Sea urchin coelomocytes are resistant to a variety of DNA damaging agents., Loram J, Raudonis R, Chapman J, Lortie M, Bodnar A., Aquat Toxicol. November 15, 2012; 124-125 133-8.

Age-related changes in gene expression in tissues of the sea urchin Strongylocentrotus purpuratus., Loram J, Bodnar A., Mech Ageing Dev. May 1, 2012; 133 (5): 338-47.

Marine invertebrates as models for aging research., Bodnar AG., Exp Gerontol. August 1, 2009; 44 (8): 477-84.

Lack of age-associated telomere shortening in long- and short-lived species of sea urchins., Francis N, Gregg T, Owen R, Ebert T, Bodnar A., FEBS Lett. August 21, 2006; 580 (19): 4713-7.

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