|1.||van den Boorn, Jasper G: 3 articles (08/2011 - 01/2010)|
|2.||Luiten, Rosalie M: 3 articles (08/2011 - 01/2010)|
|3.||Zhu, Yiping: 2 articles (12/2014 - 07/2013)|
|4.||Xu, Aie: 2 articles (12/2014 - 07/2013)|
|5.||Wang, Suiquan: 2 articles (12/2014 - 07/2013)|
|6.||Konijnenberg, Debby: 2 articles (06/2011 - 01/2010)|
|7.||Picavet, Daisy I: 2 articles (06/2011 - 01/2010)|
|8.||Melief, Cornelis J M: 2 articles (06/2011 - 01/2010)|
|9.||Bos, Jan D: 2 articles (06/2011 - 01/2010)|
|10.||Pawloski, P L: 1 article (06/2015)|
07/01/2013 - "In this study, we developed a new mouse model of vitiligo by topically applying the skin-depigmenting agent monobenzone on mice. "
06/20/2015 - "The involvement on mice pigmentation, cell infiltration and cytokine levels were evaluated on vitiligo model induced by monobenzone in C56BL/6 mice. "
12/01/2014 - "We assessed the role of EGCG in vitiligo induced by monobenzone in mice. "
07/01/2013 - "Resemblance in histological characteristics and pathogenesis between monobenzone-induced depigmentation and active human vitiligo suggests good potential of our mouse model for use in vitiligo research."
07/01/2013 - "A mouse model of vitiligo induced by monobenzone."
|2.||Melanoma (Melanoma, Malignant)
06/01/2011 - "Monobenzone thereby represents a promising and readily applicable compound for immunotherapy in melanoma patients."
06/01/2011 - "In this study, we report the previously unknown mechanism of inducing robust anti-melanoma immunity by the vitiligo-inducing compound monobenzone. "
06/01/2011 - "Since the monobenzone-induced immune responses target melanocyte-differentiation antigens, this report opens the opportunity for a simple and instantaneous deployable immunotherapy of melanoma."
01/01/2010 - "Effective melanoma immunotherapy in mice by the skin-depigmenting agent monobenzone and the adjuvants imiquimod and CpG."
06/01/2011 - "Monobenzone further augments the processing and shedding of melanocyte-differentiation antigens by inducing melanosome autophagy and enhanced tyrosinase ubiquitination, ultimately activating dendritic cells, which induced cytotoxic human melanoma-reactive T cells. "
|1.||hydroquinone (Black and White)
|2.||Ethyl Ether (Ether)
|5.||Monophenol Monooxygenase (Tyrosinase)