44 Publications (Page 2 of 2)
2018
Neutralizing negative epigenetic regulation by HDAC5 enhances human haematopoietic stem cell homing and engraftmentHuang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Guo, Bin⋅Guo, Bin⋅Guo, Bin⋅Guo, Bin⋅Liu, Sheng⋅Liu, Sheng⋅Liu, Sheng⋅Liu, Sheng⋅Wan, Jun⋅Wan, Jun⋅Wan, Jun⋅Wan, Jun⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E and Broxmeyer, Hal ENature communications, vol. 9, (no. 1), pp. 13, 2018-07-16.
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Nitric Oxide Promotes Human Hematopoietic Stem Cell Homing and Engraftment Via cGMP-Pkg SignalingHuang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Guo, Bin⋅Guo, Bin⋅Guo, Bin⋅Capitano, Maegan L⋅Capitano, Maegan L⋅Capitano, Maegan L⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E and Broxmeyer, Hal EBlood, vol. 132, (no. Supplement 1), pp. 807, 2018-11-29.
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Regulation of Constitutive Tip110 Expression in Human Cord Blood CD34 + Cells Through Selective Usage of the Proximal and Distal Polyadenylation Sites Within the 3'Untranslated RegionLiu, Ying⋅Liu, Ying⋅Huang, Xinxin⋅Huang, Xinxin⋅Timani, Khalid A⋅Timani, Khalid A⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅He, Johnny J and He, Johnny JStem cells and development, vol. 27, (no. 8), pp. 576, 2018-04-15.
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2017
Glucocorticoid hormone-induced chromatin remodeling enhances human hematopoietic stem cell homing and engraftmentGuo, Bin⋅Guo, Bin⋅Huang, Xinxin⋅Huang, Xinxin⋅Cooper, Scott⋅Cooper, Scott⋅Broxmeyer, Hal E and Broxmeyer, Hal ENature medicine, vol. 23, (no. 4), pp. 428, 2017-Apr.
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Improved performance for polymer solar cells using CTAB-modified MoO3 as an anode buffer layerLi, Yanping⋅Yu, Huangzhong⋅Huang, Xinxin⋅Wu, Zuping and Xu, HaihongSolar Energy Materials and Solar Cells, vol. 171, pp. 84, November 2017.
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2016
Human Hematopoietic Stem Cell Homing and Engraftment Promoted By Glucocorticoid Induced Chromatin RemodelingGuo, Bin⋅Guo, Bin⋅Huang, Xinxin⋅Huang, Xinxin⋅Cooper, Scott⋅Cooper, Scott⋅Broxmeyer, Hal E and Broxmeyer, Hal EBlood, vol. 128, (no. 22), pp. 494, 2016-12-02.
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Inhibition of HDAC5-Mediated p65 Deacetylation Enhances Human Cord Blood Hematopoietic Stem Cell Homing and Engraftment in NSG MiceHuang, Xinxin⋅Huang, Xinxin⋅Guo, Bin⋅Guo, Bin⋅Broxmeyer, Hal E and Broxmeyer, Hal EBlood, vol. 128, (no. 22), pp. 884, 2016-12-02.
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2015
Enhancing Hematopoietic Stem Cell Transplantation Efficacy by Mitigating Oxygen ShockMantel, Charlie R⋅Mantel, Charlie R.⋅Mantel, Charlie R⋅Mantel, Charlie R⋅O’Leary, Heather A.⋅O'Leary, Heather A⋅O’Leary, Heather A⋅O’Leary, Heather A⋅Chitteti, Brahmananda R⋅Chitteti, Brahmananda R⋅Chitteti, Brahmananda R⋅Chitteti, Brahmananda R.⋅Huang, XinXin⋅Huang, Xin Xin⋅Huang, XinXin⋅Huang, XinXin⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Srour, Edward F⋅Srour, Edward F.⋅Srour, Edward F⋅Srour, Edward F⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Haas, David M⋅Haas, David M⋅Haas, David M.⋅Haas, David M⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Pelus, Louis M⋅Pelus, Louis M⋅Pelus, Louis M.⋅Pelus, Louis M⋅Bardeesy, Nabeel⋅Bardeesy, Nabeel⋅Bardeesy, Nabeel⋅Bardeesy, Nabeel⋅Fitamant, Julien⋅Fitamant, Julien⋅Fitamant, Julien⋅Fitamant, Julien⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E.⋅Broxmeyer, Hal E and Broxmeyer, Hal ECell, vol. 161, (no. 7), pp. 1565, 2015-06-18.
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MicroRNA-124 Targets Tip110 Expression and Regulates HematopoiesisLiu, Ying⋅Liu, Ying⋅Liu, Ying⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Timani, Khalid Amine⋅Timani, Khalid Amine⋅Timani, Khalid Amine⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅He, Johnny J⋅He, Johnny J and He, Johnny JStem Cells and Development, vol. 24, (no. 17), pp. 2017, 2015-09-01.
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The importance of hypoxia and EPHOSS for collection and processing of stem and progenitor cells to understand true physiology/pathology of these cells ex-vivoBroxmeyer, Hal E⋅Broxmeyer, Hal⋅Broxmeyer, Hal E.⋅O’Leary, Heather⋅O Leary, Heather A⋅O’Leary, Heather A.⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Mantel, Charlie⋅Mantel, Charlie and Mantel, CharlieCurrent opinion in hematology, vol. 22, (no. 4), pp. 278, 2015-07-01.
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2014
Activation of OCT4 Enhances Ex Vivo Expansion of Phenotypically Defined and Functionally Engraftable Human Cord Blood Hematopoietic Stem and Progenitor Cells By Regulating HOXB4 ExpressionHuang, Xinxin⋅Huang, Xinxin⋅Cooper, Scott⋅Cooper, Scott⋅Broxmeyer, Hal E and Broxmeyer, Hal EBlood, vol. 124, (no. 21), pp. 4332, 2014-12-06.
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Genome‐wide screen identifies signaling pathways that regulate autophagy during Caenorhabditis elegans developmentGuo, Bin⋅Huang, Xinxin⋅Zhang, Peipei⋅Qi, Linxiang⋅Liang, Qianqian⋅Zhang, Xuebo⋅Huang, Jie⋅Fang, Bin⋅Hou, Wenru⋅Han, Jinghua and Zhang, HongEMBO reports, vol. 15, (no. 6), pp. 713, June 2014.
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Mitigation of a Newly Discovered Phenomenon, Extra Physiologic Oxygen Shock/Stress (EPHOSS), Mediated By the Mitochondria Permeability Transition Pore, Greatly Improves Stem Cell Collection and TransplantationMantel, Charlie⋅Mantel, Charlie⋅Mantel, Charlie⋅Mantel, Charlie⋅Mantel, Charlie⋅Mantel, Charlie⋅O'Leary, Heather A⋅O'Leary, Heather A⋅O'Leary, Heather A⋅O'Leary, Heather A⋅O'Leary, Heather A⋅O'Leary, Heather A⋅Chitteti, Brahmananda Reddy⋅Chitteti, Brahmananda Reddy⋅Chitteti, Brahmananda Reddy⋅Chitteti, Brahmananda Reddy⋅Chitteti, Brahmananda Reddy⋅Chitteti, Brahmananda Reddy⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Cooper, Scott⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Hangoc, Giao⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Brustovetsky, Nickolay⋅Srour, Edward F⋅Srour, Edward F⋅Srour, Edward F⋅Srour, Edward F⋅Srour, Edward F⋅Srour, Edward F⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Lee, Man Ryul⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Messina-Graham, Steven⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Falah, Nadia⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Pelus, Louis M⋅Pelus, Louis M⋅Pelus, Louis M⋅Pelus, Louis M⋅Pelus, Louis M⋅Pelus, Louis M⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Ivan, Mircea⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Kim, Kye-Seong⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E and Broxmeyer, Hal EBlood, vol. 124, (no. 21), pp. 2905, 2014-12-06.
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Progesterone directly up-regulates vitamin D receptor gene expression for efficient regulation of T cells by calcitriol 1Thangamani, Shankar⋅Thangamani, Shankar⋅Thangamani, Shankar⋅Thangamani, Shankar⋅Thangamani, Shankar⋅Kim, Myughoo⋅Kim, Myughoo⋅Kim, Myughoo⋅Kim, Myughoo⋅Kim, Myughoo⋅Son, Youngmin⋅Son, Youngmin⋅Son, Youngmin⋅Son, Youngmin⋅Son, Youngmin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Huang, Xinxin⋅Kim, Heejoo⋅Kim, Heejoo⋅Kim, Heejoo⋅Kim, Heejoo⋅Kim, Heejoo⋅Lee, Jee H⋅Lee, Jee H⋅Lee, Jee H⋅Lee, Jee H⋅Lee, Jee H⋅Cho, Jungyoon⋅Cho, Jungyoon⋅Cho, Jungyoon⋅Cho, Jungyoon⋅Cho, Jungyoon⋅Ulrich, Benjamin⋅Ulrich, Benjamin⋅Ulrich, Benjamin⋅Ulrich, Benjamin⋅Ulrich, Benjamin⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Broxmeyer, Hal E⋅Kim, Chang H⋅Kim, Chang H⋅Kim, Chang H⋅Kim, Chang H and Kim, Chang HJournal of immunology (Baltimore, Md. : 1950), vol. 194, (no. 3), pp. 886, 2014-12-29.
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SIRT1 Positively Regulates Autophagy and Mitochondria Function in Embryonic Stem Cells Under Oxidative StressOu, Xuan⋅Ou, Xuan⋅Lee, Man R⋅Lee, Man Ryul⋅Huang, Xinxin⋅Huang, Xinxin⋅Messina‐Graham, Steven⋅Messina-Graham, Steven⋅Broxmeyer, Hal E and Broxmeyer, Hal ESTEM CELLS, vol. 32, (no. 5), pp. 1194, May 2014.
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2010
C. elegans Screen Identifies Autophagy Genes Specific to Multicellular OrganismsTian, Ye⋅Tian, Ye⋅Li, Zhipeng⋅Li, Zhipeng⋅Hu, Wanqiu⋅Hu, Wanqiu⋅Ren, Haiyan⋅Ren, Haiyan⋅Tian, E⋅Tian, E⋅Zhao, Yu⋅Zhao, Yu⋅Lu, Qun⋅Lu, Qun⋅Huang, Xinxin⋅Huang, Xinxin⋅Yang, Peiguo⋅Yang, Peiguo⋅Li, Xin⋅Li, Xin⋅Wang, Xiaochen⋅Wang, Xiaochen⋅Kovács, Attila L⋅Kovács, Attila L⋅Yu, Li⋅Yu, Li⋅Zhang, Hong and Zhang, HongCell, vol. 141, (no. 6), pp. 1055, 2010.
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2009
The C. elegans engrailed homolog ceh-16 regulates the self-renewal expansion division of stem cell-like seam cellsHuang, Xinxin⋅Tian, E⋅Xu, Yanhua and Zhang, HongDevelopmental Biology, vol. 333, (no. 2), pp. 347, 2009-09-15.
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2007
The C. elegans CBFbeta homolog, BRO-1, regulates the proliferation, differentiation and specification of the stem cell-like seam cell lineagesXia, Dan⋅Zhang, Yuxia⋅Huang, Xinxin⋅Sun, Yinyan and Zhang, HongDevelopmental biology, vol. 309, (no. 2), pp. 259, 2007-Sep-15.
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The C. elegans CBFβ homolog, BRO-1, regulates the proliferation, differentiation and specification of the stem cell-like seam cell lineagesXia, Dan⋅Zhang, Yuxia⋅Huang, Xinxin⋅Sun, Yinyan and Zhang, HongDevelopmental Biology, vol. 309, (no. 2), pp. 272, 2007-09-15.
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