Researcher interests: Development and mineralization of human enamel. Mechanisms of regeneration of tooth supporting tissues (alveolar bone, cementum and periodontal ligament) using recombinant proteins and engineered mesenchymal stem cells. The role of various enamel proteins during enamel development. The role of various enamel proteins during mouse embryonic craniofacial development. Deciphering the structure of the human tuftelin gene, mRNA and protein, and its function during normoxia, hypoxia, cancer progression and mouse embryonic craniofacial development.
FACULTY / SCHOOL: Faculty of Dental Medicine
DEPARTMENT: Institute of Dental Sciences
Selected Publications
tuftelin s involvement in embryonic development (2019)|
Journal of Experimental Zoology|
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tuftelin is required for ngf induced differentiation of pc12 cells (2019)|
Journal of Molecular Neuroscience|
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the regeneration potential of amelogenin towards translational study (2017)|
International Journal of Oral and Maxillofacial Surgery|
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use of full length amelogenin for promoting nerve growth or regeneration (2016)|
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skeletal ligament healing using the recombinant human amelogenin protein (2016)|
Journal of Cellular and Molecular Medicine|
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regeneration and repair of mesenchymal tissue using amelogenin (2012)|
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biphasic influence of hypoxia on tuftelin expression in mouse mesenchymal c3h10t1 2 stem cells (2011)|
European Journal of Oral Sciences|
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the induction of tuftelin expression in pc12 cell line during hypoxia and ngf induced differentiation (2011)|
Journal of Cellular Physiology|
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amelogenin possible roles in regeneration of tooth supporting tissues in long bone and during embryonic craniofacial complex development (2010)|
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