贺喜白乙博士, Bayar Hexig Ph.D.
beat365在线体育唯一正版 beat365官方网站 & 实验动物研究中心
Research Center for Laboratory Animal Science
& College of Life Science,
Inner Mongolia University
24 Zhao Jun Road, Hohhot,
Inner Mongolia
Autonomous Region
, 010070,
P. R. China
Tel: ++8
6-471-529-4030
;
贺喜白乙 教授:男,蒙古族,
1972年出生于内蒙古库伦旗,博士,
2012年beat365在线体育唯一正版引进的高层次人才。
2005年
3月在日本东京工业大学获得博士学位。
2005-2007年在日本国立医药品食品卫生研究所作博士后。
2007-2012年在东京工业大学生命理工学研究科任助理教授。长期从事干细胞在再生医学上的应用研究。研究工作涉及干细胞学,发育生物学,生物功能材料与再生医学,生物
-纳米界面等交叉领域。曾分担两项日本科学振兴会的重大项目和一项日本文部省再生医学实现化的重大委托事业项目。发表研究论著
1部,研究论文
20多篇,其中
SCI论文
14篇,还有授权国际专利
2项。
学术贡献:
1、研发了可反复“单一细胞级”干细胞培养系统,彻底改变了多能干细胞培养过程中存在的由于细胞团块而无法形成单层且保持多能性的缺陷;
2、研发了无损伤均匀增殖胚胎干细胞和诱导干细胞的大量培养系统,在控制干细胞的功能方面取得了卓越的成就,研究成果领先于国际同行的研究水平;
3、开发了高效率定向分化诱导干细胞到成熟肝脏细胞的技术和高效率筛选目的功能细胞的技术;
4、提出了新的临床医疗
-生物材料细胞毒性评价方法
。
近年发表的代表性论文(著):
1. S. Sakai, J. Kim,
B. Hexig,
Y. Okahata, C.S. Cho, T. Akaike. Adsorption behaviors of recombinant E-cadherin-IgG Fc fusion protein on polystyrene surface.
Colloids and Surfaces B: Biointerfaces 1;
94:
192-
198,
2012
.
2.
Qingyuan Meng, Amranul Haque, Bayar Hexig, Toshihiro Akaike. The differe
ntiation and isolation of mouse embryonic stem cells toward hepatocytes using galactose-carrying substrata
. Biomaterials.
33, 1414-1427
,
2012.
3.
Amranul Haque, Bayar Hexig, Qingyuan Meng, Sharif Hossain, Masato Nagaoka, Toshihiro Akaike.
The effect of recombinant E-cadherin substratum on the differentiation of endoderm-derived hepatocyte-like cells from embryonic stem cells. Biomaterials. 32, 2032-2042, 2011
4.
Bayar Hexig
, Ryusuke Nakaoka, Toshie Tsuchiya. Safety Evaluation of Surgical Materials by
Cytotoxicity Test. Journal of Artificial Organs, 11, 204-211, 2008
5.
Bayar Hexig
, Hexig Alata, Naoki Asakawa, Yoshio Inoue. Generation of Compositional Gradient Structure in Biodegradable Immiscible Polyester/Polyether Blend through Intermolecular Hydrogen Bonding Interaction.
Advanced Functional Materials
, 15, 1630-1634, 2005
科研项目和成果:
(1) 研发细胞活性型融合蛋白质细胞外基质而控制
ES/iPS细胞的功能和分化过程。基盘研究
S(日本科学振兴会)
2011-2014 ,分担研究者
(2) 以钙粘素融合蛋白质作为细胞外基质的
ES/iPS细胞的单一细胞级培养系统的开发。(日本文部省委托研究事业)
“第二期再生医疗实现项目”
2008-2010, 分担负责项目执行
(3) 研发单一细胞级培养系统和刺激反应探测系统而分析
ES细胞的彷徨变异的机制。基盘研究
C,日本科学振兴会
2009-2011 分担研究者
(4) 研究分析高分子表面和可固定性融合蛋白之间的相互作用、共固定融合蛋白质的机制
东京工业大学
GCOE 青年学者奖励金
2008-2009 主持
Research interests
Stem cell biology;
Developmental biology; Directed d
ifferentiation; Cell reprograming; Regenerative medicine; Biomaterials; Na
no
-biointerface
Research Experience
2012-Present Professor, Research Center for Laboratory Animal Science & College of Life Science, Inner Mongolia University,
P. R. China
200
8
-
2012 A
ssistant professor
,
Graduate School of Bioscience
and Biotechnology
& Frontier Research Center,
Tokyo Institute of Technology
, Japan
?
Evolving Education and Research Center for Spatio-Temporal Biological Network
200
7
-
2008
Researcher,
Graduate School of Bioscience
and Biotechnology, Tokyo Institute of Technology
, Japan
?
Evolving Education and Research Center for Spatio-Temporal Biological Network
2005
-
2007
Postdoctoral Researcher,
Division of Medical Devices, National Institute of
Health Science
, Japan
?
Health and Labor Sciences Grants for Research on Advanced Medical Technology and Risk Analysis on Food and Pharmaceuticals by Ministry of Health, Labor and Welfare
Education
2005
Ph
.
D
. in Biomolecular Engineering,
Tokyo Institute of Technology
, Japan
2001 M.Sc. in Biological & Chemical Engineering, Gunma University, Japan
1994
B
.
S
c. in
Physic
s
, Inner Mongolia Normal University
, China
Grants & Funding
2013-2015 Project leader
Supported by Program of Higher-level talents of Inner Mongolia University (SPH-IMU)
2011-
2014
Project member
Grants-in Aid for Specific Research (S), Integrated Science and Innovative Science
(Comprehensive fields)
(JSPS), Japan
Project:
Regulation of functions and differentiation of ES/iPS cells by designing cell-recognizable chimera matrices
2008-2011
Project member
The Project for Realization of Regenerative Medicine; sponsored by Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan
Project:
Development of novel single cell level culture system for ES/iPS cells based on E-cadherin chimeric protein matrix
200
9
-2011
Project member
Grants-in Aid for Specific Research (C) (JSPS), Japan
Project:
Single-cell microscopy with stimulus and response device to analyze relaxation mechanism
of ES cells fluctuation
Selected peer-reviewed publications
1.
S. Sakai, J. Kim,
B. Hexig
, Y. Okahata, C.S. Cho, T. Akaike. Adsorption behaviors of recombinant E-cadherin-IgG Fc fusion protein on polystyrene surface.
Colloids and Surfaces B: Biointerfaces
, 94:192-198, 2012.
2.
Qingyuan Meng, Amranul Haque,
Bayar Hexig
, Toshihiro Akaike. The differentiation and isolation of mouse embryonic stem cells toward hepatocytes using galactose-carrying substrata.
Biomaterials
, 33:1414-1427, 2012.
3.
Amranul Haque,
Bayar Hexig
, Qingyuan Meng, Sharif Hossain, Masato Nagaoka, Toshihiro Akaike. The effect of recombinant E-cadherin substratum on the differentiation of endoderm-derived hepatocyte-like cells from embryonic stem cells.
Biomaterials
, 32:2032-2042, 2011.
4.
Dragomirka Jovic, Amranul Haque,
Bayar Hexig
, Masato Nagaoka, Toshihiro Akaike. Control of singular cell cycle synchronization of mouse ES cells for hepatocyte differentiation on E-cadherin substratum.
Journal of
Biotechnology and Biomaterials, 1:1-6, 2011
.
5. Bayar Hexig
, Kazuo Isama, Yuji Haishima, Yoshio Inoue, Toshie Tsuchiya, Toshihiro Akaike. Self-organization of the compositional gradient structure in hyaluronic acid and poly(N-isopropylacrylamide) blend film.
Journal of Biomaterials Science
, 21:1957-1970, 2010.
6. Bayar Hexig
, Ryusuke Nakaoka, Toshie Tsuchiya. Safety evaluation of surgical materials by cytotoxicity test.
Journal of Artificial Organs
, 11:204-211, 2008.
7.
Nobuyuki Osugi, Tungalag Dong,
Bayar Hexig
, Yoshio Inoue. Generation and characterization of compositional gradient structure in the biodegradable chitosan/Poly(ethylene oxide) blend.
Journal of Applied Polymer Science
, 104: 2939-2946, 2007.
8.
H. Alata,
B. Hexig
,
Y. Inoue. Effect of poly(vinyl alcohol) fine particles as a novel biodegradable nucleating agent on the crystallization of poly(3-hydroxybutyrate).
Journal of Polymer Science, Part B: Polymer Physics
, 44:1813-1820, 2006.
9. Bayar Hexig
, Hexig Alata, Naoki Asakawa, Yoshio Inoue. Generation of compositional gradient structure in biodegradable immiscible polyester/polyether blend through intermolecular hydrogen bonding interactions.
Advanced Functional Materials
, 15: 1630-1634, 2005.
10. B. Hexig
, H. Alata, Y. Inoue. Self-organization of functional gradient structure in the biodegradable chitosan/poly(vinyl alcohol) blend film from aqueous solution.
Journal of Polymer Science, Part B: Polymer Physics
, 43:3069-3076, 2005.
11. B. Hexig
, H. Alata, N. Asakawa, Y. Inoue. Novel biodegradable poly(butylenes succinate)/poly(ethylene oxide) blend film with compositional and spherulite-size gradients.
Journal of Polymer Science, Part B: Polymer Physics
, 43: 368-377, 2005.
12. Bayar Hexig
, Yong He, Naoki Asakawa, Yoshio Inoue. Diphenol miscibility effect on the immiscible polyester/polyether binary blends through intermolecular hydrogen-bonding interaction.
Journal of Polymer Science, Part B: Polymer Physics
, 42:2971-298, 2004.
Book chapter and review papers
1.
Alata Hexigand Bayar Hexig.Characterization of
c
ompositional
g
radient
s
tructure of
p
olymeric
m
aterials by FT-IR
t
echnology, Theophanides Theophile, Infrared Spectroscopy/ Book 1, Croatia, INTECH open access publisher, 2012
.
2. Bayar Hexig
, Toshihiro Akaike.
Development of large scale culture system for ES and iPS cells based on E-cadherin coated substrate.Journal of Clinical and Experimental Medicine (IGAKU NO AYUMI)
,
238, 1181- 1187, 201
1 (in Japanese)
.
3. Bayar Hexig
,
Toshihiro Akaike. Non-stress homogeneous ES/iPS cells culture system for large scale production
,
Regenerative Medicine
,
9, 323-331, 2010
(in Japanese).
4. Bayar Hexig
,
Meng QingYuan, Toshihiro Akaike.
T
he
t
echnology of
n
ano-fiber
i
nnovate
r
egenerative
m
edicine
,
Engineering Materials
,
58, 42-47, 2010 (in Japanese).
5.
Md Amranul Haque, Masato Nagaoka, Bayar Hexig
and Toshihiro Akaike.
Artificial extracellular matrix for embryonic stem cell cultures: a new frontier of nanobiomaterials.
Sci. Technol. Adv. Mater
.
11,
1-9, 2010.
Selected conference presentations
1. Bayar Hexig,
Toshihiro Akaike. Large
s
cale
n
on-stress
h
omogeneous
p
roliferation of ES/iPS
c
ells on E-cadherin
c
himeric
n
ano-material
.
The 3rd Asian Biomaterials Congress, Busan, KOREA
.
(
September
,
2011
)
2. Bayar Hexig,
Toshihiro Akaike Stress-free culture system for ES/iPS cells
.
The 9th Congress of the Japanese Society for Regenerative Medicine. Hiroshima, Japan
.
(March
,
2010)
3. Bayar Hexig,
Toshihiro Akaike. Application of cell recognizable matrix-coated nano-fib
er
network scaffolds for
regenerative medicine
. The 7th Congress of the Japanese Society for Regenerative Medicine. Nagoya, Japan (March 2008)
4. Bayar Hexig.
Development of E-cadherin/Fc-based 3D culture system for large-scale ES/iPS cells production. The 2nd Annual Congress of Regenerative Medicine & Stem Cell, Dalian, China. (August, 2009)
(
Invited Presentatio
n
)
5. Bayar Hexig,
Toshihiro Akaike. Development of E-cadherin/Fc-based 3D culture system for large-scale ES/iPS cells production.
2nd TERMIS World Congress
& 2009 Seoul Stem Cell Symposium, Seoul, Korea. (September, 2009)
6. Bayar Hexig,
Toshihiro Akaike.
Development of 3D culture system for large-scale ES/iPS cells production
. 2008 Annual Conference of Tissue Engineering and Regenerative Medicine International Society - Asian Pacific Region,
(TERMIS-AP-2008)
Taipei, Taiwan
. (
November
,
2008
)
Professional service
Organization member of
international symposium
of GCOE program (
Evolving Education and Research Center for Spatio-Temporal Biological Network),
Tokyo Institute of Technology
The 7th GCOE international symposium on Nano-biomaterials Science and Technology for Medicine and Biology
The 5th GCOE international symposium on Frontier in Biomaterials Science and Technology for Regenerative Medicine and Gene/Drug Delivery。
蒙ICP16002391号-1