Found 15 results
Author [ Keyword(Desc)] Title Type Year
Filters: Author is Ho, Emily and Keyword is Isothiocyanates  [Clear All Filters]
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Isothiocyanates
Beaver LM, Kuintzle R, Buchanan A, Wiley MW, Glasser ST, Wong CP, Johnson GS, Chang JH, Löhr CV, Williams DE et al..  2017.  Long noncoding RNAs and sulforaphane: a target for chemoprevention and suppression of prostate cancer.. J Nutr Biochem. 42:72-83.
Johnson GS, Li J, Beaver LM, W Dashwood M, Sun D, Rajendran P, Williams DE, Ho E, Dashwood RH.  2017.  A functional pseudogene, NMRAL2P, is regulated by Nrf2 and serves as a coactivator of NQO1 in sulforaphane-treated colon cancer cells.. Mol Nutr Food Res. 61(4)
Atwell LL, Zhang Z, Mori M, Farris P, Vetto JT, Naik AM, Oh KY, Thuillier P, Ho E, Shannon J.  2015.  Sulforaphane Bioavailability and Chemopreventive Activity in Women Scheduled for Breast Biopsy.. Cancer Prev Res (Phila). 8(12):1184-1191.
Abbas A, J Hall A, Patterson WL, Ho E, Hsu A, Al-Mulla F, Georgel PT.  2016.  Sulforaphane modulates telomerase activity via epigenetic regulation in prostate cancer cell lines.. Biochem Cell Biol. 94(1):71-81.
Watson GW, Wickramasekara S, Fang Y, Palomera-Sanchez Z, Maier CS, Williams DE, Dashwood RH, Perez VI, Ho E.  2015.  Analysis of autophagic flux in response to sulforaphane in metastatic prostate cancer cells.. Mol Nutr Food Res. 59(10):1954-61.
Wong CP, Hsu A, Buchanan A, Palomera-Sanchez Z, Beaver LM, E Houseman A, Williams DE, Dashwood RH, Ho E.  2014.  Effects of sulforaphane and 3,3'-diindolylmethane on genome-wide promoter methylation in normal prostate epithelial cells and prostate cancer cells.. PLoS One. 9(1):e86787.
Rajendran P, Kidane AI, Yu T-W, Dashwood W-M, Bisson WH, Löhr CV, Ho E, Williams DE, Dashwood RH.  2013.  HDAC turnover, CtIP acetylation and dysregulated DNA damage signaling in colon cancer cells treated with sulforaphane and related dietary isothiocyanates.. Epigenetics. 8(6):612-23.
Dashwood RH, Ho E.  2008.  Dietary agents as histone deacetylase inhibitors: sulforaphane and structurally related isothiocyanates.. Nutr Rev. 66 Suppl 1:S36-8.
Nian H, Delage B, Ho E, Dashwood RH.  2009.  Modulation of histone deacetylase activity by dietary isothiocyanates and allyl sulfides: studies with sulforaphane and garlic organosulfur compounds.. Environ Mol Mutagen. 50(3):213-21.
Myzak MC, W Dashwood M, Orner GA, Ho E, Dashwood RH.  2006.  Sulforaphane inhibits histone deacetylase in vivo and suppresses tumorigenesis in Apc-minus mice.. FASEB J. 20(3):506-8.
Myzak MC, Hardin K, Wang R, Dashwood RH, Ho E.  2006.  Sulforaphane inhibits histone deacetylase activity in BPH-1, LnCaP and PC-3 prostate epithelial cells.. Carcinogenesis. 27(4):811-9.
Myzak MC, Tong P, Dashwood W-M, Dashwood RH, Ho E.  2007.  Sulforaphane retards the growth of human PC-3 xenografts and inhibits HDAC activity in human subjects.. Exp Biol Med (Maywood). 232(2):227-34.
Rajendran P, Williams DE, Ho E, Dashwood RH.  2011.  Metabolism as a key to histone deacetylase inhibition.. Crit Rev Biochem Mol Biol. 46(3):181-99.
Bouranis JA, Beaver LM, Wong CP, Choi J, Hamer S, Davis EW, Brown KS, Jiang D, Sharpton TJ, Stevens JF et al..  2024.  Sulforaphane and Sulforaphane-Nitrile Metabolism in Humans Following Broccoli Sprout Consumption: Inter-individual Variation, Association with Gut Microbiome Composition, and Differential Bioactivity.. Mol Nutr Food Res. 68(4):e2300286.
Bouranis JA, Beaver LM, Choi J, Wong CP, Jiang D, Sharpton TJ, Stevens JF, Ho E.  2021.  Composition of the Gut Microbiome Influences Production of Sulforaphane-Nitrile and Iberin-Nitrile from Glucosinolates in Broccoli Sprouts.. Nutrients. 13(9)