BachrachFYoungM (1927). A comparison of the degree of resemblance in dental characters shown in pairs of twins of identical and fraternal types. Br Dent J48:1293-1304.
2.
BretzWACorbyPMHartTCCostaSCoelhoMQWeyantRJ. (2005). Dental caries and microbial acid production in twins. Caries Res39:168-172.
CatalanottoFAGaulin-KremerEShawJL (1979). Sucrose taste functions and dental caries in children. J Dent Res58:1327-1332.
5.
ChmurzynskaA (2010). Fetal programming: link between early nutrition, DNA methylation, and complex diseases. Nutr Rev68:87-98.
6.
ColeMFArnoldRRRhodesMJMcGheeJR (1977). Immune dysfunction and dental caries: a preliminary report. J Dent Res56:198-204.
7.
ConryJPMesserLBBoraasJCAeppliDPBourchardTJJr (1992). Dental caries and treatment characteristics in human twins reared apart. Arch Oral Biol38:937-943.
8.
DeeleyKLetraARoseEKBrandonCAResickJMMarazitaML. (2008). Possible association of amelogenin to high caries experience in a Guatemalan-Mayan population. Caries Res42:8-13.
9.
Garcia-GodoyF (1983). Familial caries distribution in human permanent teeth: buccal and lingual pits of first molars. J Pedod7:318-323.
10.
GoldbergS (1930). “The dental arches of identical twins.” Dent Cosmos72:869-881.
11.
KellerKLTepperBJ (2004). Inherited taste sensitivity to 6-n-propylthiouracil in diet and body weight in children. Obes Res12:904-912.
12.
KhataanNHStewartLBrennerDMCornelisMCEl-SohemyA (2009). TAS2R38 genotypes and phenylthiocarbamide bitter taste perception in a population of young adults. J Nutrigenet Nutrigenomics2:251-256.
13.
LehnerTLambJRWelshKLBatchelorRJ (1981). Association between HLA-DR antigens and helper cell activity in the control of dental caries. Nature292:770-772.
14.
LinBP (2003). Caries experience in children with various genetic sensitivity levels to the bitter taste of 6-n-propylthiouracil (PROP): a pilot study. Pediatr Dent25:37-42.
15.
MandelIDZornMRuizRThompsonRHJrEllisonSA (1965). The proteins and protein-bound carbohydrates of parotid saliva in caries-immune and caries-active adults. Arch Oral Biol10:471-475.
16.
NilssonBHolmAK (1983). Taste thresholds, taste preferences, and dental caries in 15-year-olds. J Dent Res62:1069-1072.
17.
PatirASeymenFYildirimMDeeleyKCooperMEMarazitaML. (2008). Enamel formation genes are associated with high caries experience in Turkish children. Caries Res42:394-400.
18.
PeresRCCamargoGMofattoLSCortellazziKLSantosMCSantosMN. (2010). Association of polymorphisms in the carbonic anhydrase 6 gene with salivary buffer capacity, dental plaque pH, and caries index in children aged 7-9 years. Pharmacogenomics J10:114-119.
19.
RupeshSNayakUA (2006). Genetic sensitivity to the bitter taste of 6-n propylthiouracil: a new risk determinant for dental caries in children. J Indian Soc Pedod Prev Dent24:63-68.
20.
ShawLMurrayJJ (1980). A family history study of caries-resistance and caries-susceptibility. Br Dent J148:231-235.
21.
ShulerCF (2001). Inherited risks for susceptibility to dental caries. J Dent Ed65:1038-1045.
ZakharyGMClarkRMBidichandaniSIOwenWLSlaytonRLLevineM (2007). Acidic proline-rich protein Db and caries in young children. J Dent Res86:1176-1180.
26.
ZehetbauerSWojahnTHillerKASchmalzGRuhlS (2009). Resemblance of salivary protein profiles between children with early childhood caries and caries-free controls. Eur J Oral Sci117:369-373.
