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Molecular Mechanisms Underlying Cell-Fate Specification and Cellular Diversity of the Trophoblast Lineage during Placental Morphogenesis in Mice: 《Reproductive and Developmental Medicine》2021年第4期220-236,共17页Jian-Qi Wang Change Mu Yang Sun Jin-Hua Lu Hai-Bin Wang; National Key R&D Program of China(2018YFC1004102 to J.L.);National Natural Science Foundation of China(81830045 to H.W., 31971071 and 82171660 to J.L., and 31701016 to J. W.); Placental morphogenesis is a highly dynamic process involving mutual recognition and interlacing between the trophoblast-uterus and ultimately the initiation of the maternal-fetal circulatory system.During placental m...; 关键词：Differentiation MORPHOGENESIS MULTIPOTENCY PLACENTA TROPHOBLAST

Multidifferentiation potential of dental-derived stem cells被引量：1: 《World Journal of Stem Cells》2021年第5期342-365,共24页Jing-Yao Yin Xing-Hong Luo Wei-Qing Feng Sheng-Hong Miao Ting-Ting Ning Qian Lei Tao Jiang Dan-Dan Ma; Supported by National Natural Science Foundation of China,No.81970930.; Tooth-related diseases and tooth loss are widespread and are a major public health issue.The loss of teeth can affect chewing,speech,appearance and even psychology.Therefore,the science of tooth regeneration has emerg...; 关键词：Dental mesenchymal stem cells Regenerative medicine Tissue engineering MULTIPOTENCY Odontogenic differentiation Osteogenic differentiation

Decreased morphogenetic potential in peach palm stem-like cells in long-term in vitro conditions: 《Journal of Forestry Research》2020年第2期485-495,共11页Erika Mendes Graner Gilvano Ebling Brondani Cristina Vieira de Almeida Katherine Derlene Batagin-Piotto Marcilio de Almeida; Peach palm(Bactris gasipaes Kunth)has been micropropagated from pre-procambial cells that provide stem-like cell niches,(i.e.,pre-procambial cells),multipotent,pluripotent and totipotent for direct vascularization,adv...; 关键词：MICROPROPAGATION MULTIPOTENCY Pluripotency TOTIPOTENCY Pre-procambial cells Peach palm Bactris gasipaes

Comment on 'Multipotency and secretome:the mechanisms behind the regenerative potential of adipose-derived stem cells': 《Plastic and Aesthetic Research》2017年第6期104-105,共2页Young-Joon Jun; The application of stem cells technology to the intractable disease has emerged in the 21st century.It has been applied to almost all areas of medicine,including cardiovascular,nervoulogic,hematologic,genetic,liver,en...; 关键词：Application MECHANISMS MULTIPOTENCY

Multipotency and secretome: themechanisms behind the regenerativepotential of adipose-derived stem cells: 《Plastic and Aesthetic Research》2017年第3期32-40,共9页Doruk Orgun Hiroshi Mizuno; The use of stem cells for regenerating damaged organs and tissues which are unable to heal on their own is a widely studied field in plastic and reconstructive surgery as well as medicine in general. Among various ste...; 关键词：Stem cell transplantation PARACRINE communication angiogenesis wound HEALING radiation injuries MACROPHAGES (M2 subtype)

Elimination of the geomagnetic field stimulates the proliferation of mouse neural progenitor and stem cells被引量：4: 《Protein & Cell》2016年第9期624-637,共14页Jing-Peng Fu Wei-Chuan Mo Ying Liu Perry F. Bartlett Rong-Qiao He; Living organisms are exposed to the geomagnetic field （GMF） throughout their lifespan. Elimination of the GMF, resulting in a hypogeomagnetic field （HMF）, leads to central nervous system dysfunction and abnormal d...; 关键词：hypomagnetic field neural progenitor/stemcells NEUROSPHERE PROLIFERATION STERNNESS MULTIPOTENCY

Effect of Chinese Materia Medica with Tonifying Kidney Function on Transplantation of Multipotency Mesenchymal Stem Cells from Human Umbilical Cord in Mice Model of Acute Kidney Injury: 《Chinese Herbal Medicines》2016年第2期173-181,共9页Xiao-qian Chu Li Wang Wen Li Paulina Duya Yu-hong Bian; National Natural Science Foundation of China(No.81072741);Program for Changjiang Scholars and Innovative Research Team in University(PCSIRT,No.IRT_14R41); Objective Mesenchymal stem cells（MSCs） represent a promising population for supporting new clinical concepts in cellular therapy, and they can be reprogrammed into induced pluripotent stem cells（iPSCs） by defined ...; 关键词：acute kidney injury Chinese materia medica tonifying kidney ICARIIN OCT-4 umbilicalcord mesenchymal stem cells

Morphogenesis of human embryonic stem cells into mature neurons under in vitro culture conditions: 《World Journal of Experimental Medicine》2016年第4期72-79,共8页Geeta Shroff; AIM To describe the morphogenesis of different neuronal cells from the human embryonic stem cell(h ESC) line,SCT-N,under in vitro culture conditions.METHODS The directed neuronal cell line was produced from a single,s...; 关键词：Human EMBRYONIC stem CELLS MULTIPOTENCY NEURAL differentiation NEURAL PROGENITOR CELLS In-vitro fertilization

FGF8 signaling sustains progenitor status and multipotency of cranial neural crest-derived mesenchymal cells in vivo and in vitro被引量：1: 《Journal of Molecular Cell Biology》2015年第5期441-454,共14页Meiying Shao Chao Liu Yingnan Song Wenduo Ye Wei He Guohua Yuan Shuping Gu Congxin Lin Liang Ma Yanding Zhang Weidong Tian Tao Hu YiPing Chen; This work was supported by the National Institutes of Health(R01DE24152 and R01DE14044 to Y.C.);the National Basic Research Program of China(2010CB944800)to W.T.;the National Natural Science Foundation of China(81371134)to T.H.; The cranial neural crest(CNC)cells play a vital role in craniofacial development and regeneration.They are multi-potent progenitors,being able to differentiate into various types of tissues.Both pre-migratory and post...; 关键词：FGF8 cranial neural crest cell fate DIFFERENTIATION TOOTH

Characterization of Nestin-positive stem Leydig cells as a potential source for the treatment of testicular Leydig cell dysfunction被引量：18: 《Cell Research》2014年第12期1466-1485,共20页Mei Hua Jiang Bing Cai Ying Tuo Jiancheng Wang Zhi Jun Zang Xiang'an Tu Yong Gao Zhijian Su Weiqiang Li Guilan Li Min Zhang Jianwei Jiao Zi Wan Chunhua Deng Bruce T Lahn Andy Peng Xiang; The ability to identify and isolate lineage-specific stem cells from adult tissues could facilitate cell replacement therapy. Leydig cells （LCs） are the primary source of androgen in the mammalian testis, and the pr...; 关键词：stem Leydig cell NESTIN SELF-RENEWAL MULTIPOTENCY Leydig cell dysfunction

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