Autoactivation of Proteolytic Activity in Human Whole Saliva
スポンサーリンク
概要
- 論文の詳細を見る
- 2010-11-20
著者
-
WATANABE Makoto
Division of Aging and Geriatric Dentistry, Tohoku University Graduate School of Dentistry
-
Takahashi Nobuhiro
Division Of Oral Ecology And Biochemistry Tohoku University Graduate School Of Dentistry
-
Takahashi Nobuhiro
Division Of Cardiology Department Of Medicine Nihon University School Of Medicine
-
MIYOSHI Yoshitada
Division of Aging and Geriatric Dentistry, Tohoku University Graduate School of Dentistry
-
Miyoshi Yoshitada
Division Of Aging And Geriatric Dentistry Tohoku University Graduate School Of Dentistry
-
Watanabe Makoto
Division Of Aging And Geriatric Dentistry Tohoku University Graduate School Of Dentistry
-
Watanabe Makoto
Division Of Aging And Geriatric Dentistry Department Of Oral Function And Morphology Tohoku Universi
関連論文
- The Extent of Odontoblast Processes in the Dentin Is Distinct between Cusp and Cervical Regions During Development and Aging
- Comparison of expression patterns of cathepsin K and MMP-9 in odontoclasts and osteoclasts in physiological root resorption in the rat molar
- Change of Occlusal Contact Areas Following the Cure of Temporomandibular Disorders
- A new strategy for protein biomarker discovery utilizing 2-nitrobenzenesulfenyl (NBS) reagent and its applications to clinical samples
- Autoactivation of Proteolytic Activity in Human Whole Saliva
- Challenge to Metabolomics of Oral Biofilm : From "What Are They?" to "What Are They Doing?"
- Masticatory Motion Is Controlled in Humans by a Limited Set of Muscle Synergies
- Regional Differences in Physiological Roles of Human Temporal Muscle Related to Three-dimensional Bite Force
- Hypoxia and low-nutrition double stress induces aggressiveness in a murine model of melanoma
- Interleukin-6 Maintains Glucose Homeostasis to Support Strenuous Masseter Muscle Activity in Mice
- Effects of a coating resin containing S-PRG filler to prevent demineralization of root surfaces
- A high-sensitive and non-radioisotopic fluorescence dye method for evaluating bacterial adhesion to denture materials
- Detection and identification of non-Candida albicans species in human oral lichen planus
- A high-sensitive and non-radioisotopic fluorescence dye method for evaluating bacterial adhesion to denture materials