Evidence of Intact Histatins in the in vivo Acquired Enamel Pellicle
スポンサーリンク
概要
- 論文の詳細を見る
- 2010-06-01
著者
-
Margolis H.
Department Of Biomineralization
-
Oppenheim F.
Department Of Periodontology And Oral Biology Boston University Henry M. Goldman School Of Dental Me
-
Mendes F.
Department Of Pediatric Dentistry Faculty Of Dentistry University Of Sao Paulo
-
Helmerhorst E.
Department Of Periodontology And Oral Biology Boston University Henry M. Goldman School Of Dental Me
-
Helmerhorst E.
Department Of Periodontology And Oral Biology Boston University Goldman School Of Dental Medicine
-
SIQUEIRA W.
Schulich Dentistry and Department of Biochemistry, Schulich School of Medicine & Dentistry, The Univ
-
Siqueira W.
Schulich Dentistry And Department Of Biochemistry Schulich School Of Medicine & Dentistry The Un
-
Oppenheim F.
Department Of Biochemistry Boston University School Of Medicine
関連論文
- Purification, Characterization, and Cloning of Enamel Matrix Serine Proteinase 1
- MG2 and Lactoferrin Form a Heterotypic Complex in Salivary Secretions
- The Effects of Duration and Intensity of Stimulation on Total Protein and Mucin Concentrations in Resting and Stimulated Whole Saliva
- MicroRNAs Play a Critical Role in Tooth Development
- Evidence of Intact Histatins in the in vivo Acquired Enamel Pellicle
- Compositional Determinants of Mechanical Properties of Enamel
- Proteome of Human Minor Salivary Gland Secretion
- Enhanced Enamel Remineralization under Acidic Conditions in vitro
- New in vitro Model for the Acquired Enamel Pellicle : Pellicles Formed from Whole Saliva Show Inter-subject Consistency in Protein Composition and Proteolytic Fragmentation Patterns
- Functional Comparison of Native and Recombinant Human Salivary Histatin 1
- Identification of in vivo Pellicle Constituents by Analysis of Serum Immune Responses
- Role of Macromolecular Assembly of Enamel Matrix Proteins in Enamel Formation
- Temporal and Compositional Characteristics of Salivary Protein Adsorption to Hydroxyapatite
- Histatin 1 Resists Proteolytic Degradation when Adsorbed to Hydroxyapatite
- Leucine-rich Amelogenin Peptides Regulate Mineralization in vitro