| First Author | Paine CT | Year | 1998 |
| Journal | Connect Tissue Res | Volume | 38 |
| Issue | 1-4 | Pages | 257-67;discussion 295-303 |
| PubMed ID | 11063033 | Mgi Jnum | J:51772 |
| Mgi Id | MGI:1326845 | Doi | 10.3109/03008209809017046 |
| Citation | Paine CT, et al. (1998) Identification of tuftelin- and amelogenin-interacting proteins using the yeast two-hybrid system. Connect Tissue Res 39(1-3):257-267 |
| abstractText | Biomineralization of enamel is a complex process that involves the eventual replacement of an extracellular protein matrix by hydroxyapatite crystallites. To date four different enamel matrix proteins have been identified; the amelogenins, tuftelin, enamelin and ameloblastin. Assembly of the enamel extracellular matrix from these component proteins is believed to be critical in producing a matrix competent to undergo mineral replacement. Enamel formation is a complex: process and additional proteins are likely to have a role in the assembly of the extracellular matrix. In order to identify additional proteins involved in the assembly process, the yeast two-hybrid system developed by Fields and Song (1989) has been implemented. This system allows for the identification of unknown proteins that interact with proteins of interest. Typically a known protein is used as ''bait'' to screen a cDNA expression library of interest. In our studies, tuftelin or amelogenin have been used to screen a mouse teeth library produced from one day old pups, A library screening of six million clones with amelogenin as bait resulted in eleven positive clones all of which show high homology to the human leukocyte antigen- B (HLA-B) associated transcript (BAT) family of genes. A library screening of one million clones using tuftelin as the bait identified twenty-one tuftelin-interacting proteins. Ten of these proteins are either keratin K5 or keratin K6, four are constitutively expressed and the remaining seven are novel. Further characterization of the proteins shown to interact with amelogenin or tuftelin may shed additional light on this complex process of enamel matrix assembly. |
