×
验证码:
换一张
Forgotten Password?
Stay signed in
Login With UMPASS
English
|
繁體
Login With UMPASS
Log In
ALL
ORCID
TI
AU
PY
SU
KW
TY
JN
DA
IN
PB
FP
ST
SM
Study Hall
Image search
Paste the image URL
Home
Faculties & Institutes
Scholars
Publications
Subjects
Statistics
News
Search in the results
Faculties & Institutes
Faculty of Healt... [9]
Faculty of Scien... [2]
Authors
CHEN GUOKAI [3]
ZHENG WENHUA [2]
KWOK HANG FAI [2]
LIU WEIWEI [2]
CHUXIA DENG [1]
XU REN HE [1]
More...
Document Type
Journal article [11]
Date Issued
2022 [2]
2021 [3]
2020 [3]
2019 [1]
2017 [2]
Language
英語English [11]
Source Publication
Stem Cell Resear... [6]
Stem Cell Resear... [4]
STEM CELL RESEAR... [1]
Indexed By
SCIE [10]
Funding Organization
Funding Project
×
Knowledge Map
UM
Start a Submission
Submissions
Unclaimed
Claimed
Attach Fulltext
Bookmarks
Browse/Search Results:
1-10 of 11
Help
Selected(
0
)
Clear
Items/Page:
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
Sort:
Select
Issue Date Ascending
Issue Date Descending
Journal Impact Factor Ascending
Journal Impact Factor Descending
WOS Cited Times Ascending
WOS Cited Times Descending
Submit date Ascending
Submit date Descending
Title Ascending
Title Descending
Author Ascending
Author Descending
Expansion of FGFR3-positive nucleus pulposus cells plays important roles in postnatal nucleus pulposus growth and regeneration
Journal article
Xu, Meng, Huang, Junlan, Jin, Min, Jiang, Wanling, Luo, Fengtao, Tan, Qiaoyan, Zhang, Ruobin, Luo, Xiaoqing, Kuang, Liang, Zhang, Dali, Liang, Sen, Qi, Huabing, Chen, Hangang, Ni, Zhenhong, Su, Nan, Yang, Jing, Du, Xiaolan, Chen, Bo, Deng, Chuxia, Xie, Yangli, Chen, Lin. Expansion of FGFR3-positive nucleus pulposus cells plays important roles in postnatal nucleus pulposus growth and regeneration[J]. Stem Cell Research & Therapy, 2022, 13, 227.
Authors:
Xu, Meng
;
Huang, Junlan
;
Jin, Min
;
Jiang, Wanling
;
Luo, Fengtao
; et al.
Favorite
|
TC[WOS]:
3
TC[Scopus]:
3
IF:
7.1
/
7.9
|
Submit date:2022/08/02
Intervertebral Disc Degeneration
Nucleus Pulposus
Cell Proliferation
Fgfr3
Genetic Mouse Models
Thyroid hormone enhances stem cell maintenance and promotes lineage-specific differentiation in human embryonic stem cells
Journal article
Chunhao Deng, Zhaoying Zhang, Faxiang Xu, Jiaqi Xu, Zhili Ren, Carlos Godoy-Parejo, Xia Xiao, Weiwei Liu, Zhou Zhou, Guokai Chen. Thyroid hormone enhances stem cell maintenance and promotes lineage-specific differentiation in human embryonic stem cells[J]. Stem Cell Research and Therapy, 2022, 13(1).
Authors:
Chunhao Deng
;
Zhaoying Zhang
;
Faxiang Xu
;
Jiaqi Xu
;
Zhili Ren
; et al.
Favorite
|
TC[WOS]:
6
TC[Scopus]:
6
IF:
7.1
/
7.9
|
Submit date:2022/05/13
Cell Culture
Hpscs
Pluripotency
Thyroid Hormone
Triiodothyronine (T3)
Trophoblast
Genome-wide differential expression profiling of lncRNAs and mRNAs in human induced pluripotent stem cell-derived endothelial cells exposed to e-cigarette extract
Journal article
Le, Hoai Huong Thi, Liu, Chen-wei, Denaro III, Philip, Jousma, Jordan, Shao, Ning-Yi, Rahman, Irfan, Lee, Won Hee. Genome-wide differential expression profiling of lncRNAs and mRNAs in human induced pluripotent stem cell-derived endothelial cells exposed to e-cigarette extract[J]. Stem Cell Research & Therapy, 2021, 12(1), 593.
Authors:
Le, Hoai Huong Thi
;
Liu, Chen-wei
;
Denaro III, Philip
;
Jousma, Jordan
;
Shao, Ning-Yi
; et al.
Favorite
|
TC[WOS]:
5
TC[Scopus]:
5
IF:
7.1
/
7.9
|
Submit date:2022/01/14
E-cigarettes
Endothelial Dysfunction
Fatty Acid Oxidation
Ipsc-ecs
Lncrnas
Nicotinamide promotes pancreatic differentiation through the dual inhibition of CK1 and ROCK kinases in human embryonic stem cells
Journal article
Zhang, Yumeng, Xu, Jiaqi, Ren, Zhili, Meng, Ya, Liu, Weiwei, Lu, Ligong, Zhou, Zhou, Chen, Guokai. Nicotinamide promotes pancreatic differentiation through the dual inhibition of CK1 and ROCK kinases in human embryonic stem cells[J]. Stem Cell Research & Therapy, 2021, 12(1), 362.
Authors:
Zhang, Yumeng
;
Xu, Jiaqi
;
Ren, Zhili
;
Meng, Ya
;
Liu, Weiwei
; et al.
Favorite
|
TC[WOS]:
12
TC[Scopus]:
15
IF:
7.1
/
7.9
|
Submit date:2021/12/09
Casein Kinase 1 (Ck1)
Human Embryonic Stem Cells
Kinase Inhibitor
Nicotinamide
Pancreatic Progenitors
Rho-associated Protein Kinase (Rock)
Exosomes derived from human placental mesenchymal stem cells enhanced the recovery of spinal cord injury by activating endogenous neurogenesis
Journal article
Zhou, Wenshu, Silva, Marta, Feng, Chun, Zhao, Shumei, Liu, Linlin, Li, Shuai, Zhong, Jingmei, Zheng, Wenhua. Exosomes derived from human placental mesenchymal stem cells enhanced the recovery of spinal cord injury by activating endogenous neurogenesis[J]. Stem Cell Research and Therapy, 2021, 12(1), 174.
Authors:
Zhou, Wenshu
;
Silva, Marta
;
Feng, Chun
;
Zhao, Shumei
;
Liu, Linlin
; et al.
Favorite
|
TC[WOS]:
60
TC[Scopus]:
58
IF:
7.1
/
7.9
|
Submit date:2021/12/09
Autonomic Function
Mesenchymal Stem Cell-derived Exosomes
Motor Function
Neurogenesis
Spinal Cord Injury
Novel venom-based peptides (P13 and its derivative - M6) to maintain self-renewal of human embryonic stem cells by activating FGF and TGFβ signaling pathways
Journal article
Ma,Rui, Ren,Zhili, Li,Bin, Siu,Shirley W.I., Chen,Guokai, Kwok,Hang Fai. Novel venom-based peptides (P13 and its derivative - M6) to maintain self-renewal of human embryonic stem cells by activating FGF and TGFβ signaling pathways[J]. Stem Cell Research and Therapy, 2020, 11(1), 243.
Authors:
Ma,Rui
;
Ren,Zhili
;
Li,Bin
;
Siu,Shirley W.I.
;
Chen,Guokai
; et al.
Favorite
|
TC[WOS]:
4
TC[Scopus]:
4
IF:
7.1
/
7.9
|
Submit date:2021/03/04
Embryonic Stem Cell
Peptide Modification
Pluripotency
Self-renewal
Venom Peptide
Novel venom-based peptides (P13 & its derivative -- M6) to maintain self-renewal of human embryonic stem cells by activating FGF and TGF-ß signaling pathways
Journal article
Ma, R., Ren, Z., Li, B., Siu, W. I., Chen, G., Kwok, H. F.. Novel venom-based peptides (P13 & its derivative -- M6) to maintain self-renewal of human embryonic stem cells by activating FGF and TGF-ß signaling pathways[J]. Stem Cell Research & Therapy, 2020, 11(1), 243.
Authors:
Ma, R.
;
Ren, Z.
;
Li, B.
;
Siu, W. I.
;
Chen, G.
; et al.
Favorite
|
TC[WOS]:
4
TC[Scopus]:
4
IF:
7.1
/
7.9
|
Submit date:2022/06/02
Venom-based Peptide
Stem Cell Application
Fgfr And Tgfβ Receptors
PI3K/Akt signaling pathway is essential for de novo hair follicle regeneration
Journal article
Chen, Yu, Fan, Zhimeng, Wang, Xiaoxiao, Mo, Miaohua, Zeng, Shu Bin, Xu, Ren He, Wang, Xusheng, Wu, Yaojiong. PI3K/Akt signaling pathway is essential for de novo hair follicle regeneration[J]. Stem Cell Research and Therapy, 2020, 11(1), 144.
Authors:
Chen, Yu
;
Fan, Zhimeng
;
Wang, Xiaoxiao
;
Mo, Miaohua
;
Zeng, Shu Bin
; et al.
Favorite
|
TC[WOS]:
63
TC[Scopus]:
66
IF:
7.1
/
7.9
|
Submit date:2021/12/06
Epi-scs
Hair Follicle Regeneration
Pi3k-akt Signal
Skps
Protective mechanism of artemisinin on rat bone marrow-derived mesenchymal stem cells against apoptosis induced by hydrogen peroxide via activation of c-Raf-Erk1/2-p90rsk-CREB pathway
Journal article
Fang,Jiankang, Zhao,Xia, Li,Shuai, Xing,Xingan, Wang,Haitao, Lazarovici,Philip, Zheng,Wenhua. Protective mechanism of artemisinin on rat bone marrow-derived mesenchymal stem cells against apoptosis induced by hydrogen peroxide via activation of c-Raf-Erk1/2-p90rsk-CREB pathway[J]. Stem Cell Research and Therapy, 2019, 10(1), 312.
Authors:
Fang,Jiankang
;
Zhao,Xia
;
Li,Shuai
;
Xing,Xingan
;
Wang,Haitao
; et al.
Favorite
|
TC[WOS]:
73
TC[Scopus]:
78
|
Submit date:2021/03/04
Artemisinin
Bone Marrow Mesenchymal Stem Cells
Apoptosis
Ros
Erk1/2
Raf
P90rsk
Creb
Phosphorylation
Protection
Transplantation of Isl1(+) cardiac progenitor cells in small intestinal submucosa improves infarcted heart function
Journal article
Wang, Lingjun, Meier, Elizabeth M., Tian, Shuo, Lei, Ienglam, Liu, Liu, Xian, Shaoxiang, Lam, Mai T., Wang, Zhong. Transplantation of Isl1(+) cardiac progenitor cells in small intestinal submucosa improves infarcted heart function[J]. STEM CELL RESEARCH & THERAPY, 2017, 8.
Authors:
Wang, Lingjun
;
Meier, Elizabeth M.
;
Tian, Shuo
;
Lei, Ienglam
;
Liu, Liu
; et al.
Favorite
|
TC[WOS]:
17
TC[Scopus]:
27
IF:
7.1
/
7.9
|
Submit date:2018/10/30
Cardiac Progenitor Cell
Small Intestinal Submucosa
Heart Regeneration
Myocardial Infarction