Mark A. Rubino | National Institute of Environmental Health Sciences Skip Navigation Mark A. Rubino Close the left navigation Add Much of the work carried out by DTT is in support of the National Toxicology Program (NTP), an interagency partnership of the Food and Drug Administration, National Institute for Occupational Safety and Health, and NIEHS. Visit the NTP Website Mark A. Rubino Biologist Tel 984-287-3934 [email protected] Mr. Mark Rubino is a Biologist in the Pathology Support Group’s Immunohistochemistry Core Laboratory within the Comparative and Molecular Pathogenesis Branch of the Division of Translational Toxicology. Mr. Rubino joined Immunohistochemistry Core Laboratory as a biologist in 2016. Before joining the Immunohistochemistry Core, he served as a biologist in the Chromatin & Gene Expression Group of the Epigenetics & RNA Biology Laboratory (ERBL). He holds a Bachelor of Science degree in Biochemistry and Math from North Carolina Central University. He has been with NIEHS for 20 years. Recent Publications Singh A, Foley J, Rubino M, Boyle M, Tandon A, Shah R, Archer T. Brg1 Enables Rapid Growth of the Early Embryo by Suppressing Genes That Regulate Apoptosis and Cell Growth Arrest. Molecular and cellular biology 2016 Aug 01;36(15):1990-2010. Abstract Singh A, Foley J, Rubino M, Boyle M, Tandon A, Shah R, Archer T. Brg1 Enables Rapid Growth of the Early Embryo by Suppressing Genes That Regulate Apoptosis and Cell Growth Arrest. Molecular and cellular biology. 2016 Aug 01 Matsuoka T, Adair J, Lih F, Hsi L, Rubino M, Eling T, Tomer K, Yashiro M, Hirakawa K, Olden K, Roberts J. Elevated dietary linoleic acid increases gastric carcinoma cell invasion and metastasis in mice. British journal of cancer 2010 Oct 12;103(8):1182-91. Abstract Matsuoka T, Adair J, Lih F, Hsi L, Rubino M, Eling T, Tomer K, Yashiro M, Hirakawa K, Olden K, Roberts J. Elevated dietary linoleic acid increases gastric carcinoma cell invasion and metastasis in mice. British journal of cancer. 2010 Oct 12 Garcia M, Ray D, Lackford B, Rubino M, Olden K, Roberts J. Arachidonic acid stimulates cell adhesion through a novel p38 MAPK-RhoA signaling pathway that involves heat shock protein 27. The Journal of biological chemistry 2009 Jul 31;284(31):20936-45. Abstract Garcia M, Ray D, Lackford B, Rubino M, Olden K, Roberts J. Arachidonic acid stimulates cell adhesion through a novel p38 MAPK-RhoA signaling pathway that involves heat shock protein 27. The Journal of biological chemistry. 2009 Jul 31 More Recent Publications from PubMed Back to Top Last Reviewed: December 12, 2025