Tooth agenesis, selective, 1

Research Genetic test

offered by

Dental Research Laboratory

GTR Test Accession: GTR000324344.13

INHERITED DISEASEDYSMORPHOLOGYORAL ... View more

Last updated in GTR: 2024-05-13

View version history

GTR000324344.13, last updated: 2024-05-13

GTR000324344.12, last updated: 2023-05-26

GTR000324344.11, last updated: 2022-06-24

GTR000324344.10, last updated: 2021-07-15

GTR000324344.9, last updated: 2018-08-17

GTR000324344.8, last updated: 2017-06-21

GTR000324344.7, last updated: 2017-02-24

GTR000324344.6, last updated: 2016-02-28

GTR000324344.5, last updated: 2016-02-06

GTR000324344.4, last updated: 2015-03-01

GTR000324344.3, last updated: 2015-02-15

GTR000324344.2, last updated: 2014-03-03

GTR000324344.1, registered in GTR: 2014-03-03

Last annual review date for the lab: 2024-05-13

At a Glance

Conditions (1):

Partial congenital absence of teeth

Genes (1):

MSX1 (4p16.2)

Study description:

Our laboratory conducts analyses to characterize the underlying genetic cause(s) …

Recruitment status:

Currently closed

Eligibility criteria:

Individuals with missing teeth and a positive family history of …

Methods (2):

Molecular Genetics - Sequence analysis of the entire coding region: Bi-directional Sanger Sequence Analysis; Next-Generation (NGS)/Massively parallel sequencing (MPS)

Study Description

Name:

Proteomics and Genetics of Enamel and Dentin

Study short name:

Dental Genetics

Protocol number:

H03-00001835-M1

Test purpose:

Contribute to generalizable knowledge

Description:

Our laboratory conducts analyses to characterize the underlying genetic cause(s) of non-syndromic missing teeth, as well as non-syndromic enamel and/or dentin defects. To carry out a meaningful analysis, family (self-referred or referred by health care providers) should have clearly identified affected individual(s) from more than one generation. Upon evaluation of … View more

View citations (2)

A novel MSX1 mutation in hypodontia. De Muynck S, et al. Am J Med Genet A. 2004;128A(4):401-3. doi:10.1002/ajmg.a.30181. PMID: 15264286.
Novel MSX1 frameshift causes autosomal-dominant oligodontia. Kim JW, et al. J Dent Res. 2006;85(3):267-71. doi:10.1177/154405910608500312. PMID: 16498076.

Study aims and hypotheses:

This study aims to determine the genetic etiologies of inherited dental defects. The hypothesis is that target gene analysis and whole exome analysis can identify causal mutations in kindreds with dental defects in proven candidate genes, and also identify novel genes and mutations.

Study type:

Not applicable

Offered by:

Dental Research Laboratory

View lab's website

Person responsible for the study:

James Simmer, PhD, DDS/DMD, Lab Director

Study contact:

Jan Hu, PhD, DDS/DMD, Lab Associate Director

janhu@umich.edu

734-763-6769

Co-investigator:

Jan Hu, PhD, DDS/DMD, Lab Associate Director

Research contact policy:

Laboratory welcomes contact from patients/families interested in participating in a research study for this condition. Referrals from clinicians are also welcomed.

Participation

Recruitment status:

Currently closed

Eligibility criteria:

Individuals with missing teeth and a positive family history of missing teeth

Recruiting sites:

Dental Research Laboratory, University of Michigan School of Dentistry

Consent form:

Not provided

Conditions

Total conditions: 1

Condition/Phenotype	Identifier

Test Targets

Genes

Total genes: 1

Gene	Associated Condition	Germline or Somatic	Allele (Lab-provided)	Variant in NCBI

Methodology

Total methods: 2

Method Category

Test method

Instrument

Sequence analysis of the entire coding region

Bi-directional Sanger Sequence Analysis

Applied Biosystems 3730 capillary sequencing instrument

Sequence analysis of the entire coding region

Next-Generation (NGS)/Massively parallel sequencing (MPS)

Illumina HiSeq™2000 system

Technical Information

Test Procedure:

Method #1, target gene analysis, is the primary test procedure. When the primary test did not yield a definitive result and clinical diagnosis is reconfirmed, then Method #2, whole exome sequencing, with bioinformatic analysis may be used.

Test Confirmation:

Testing family members or using new sample

Test Comments:

When whole exome sequencing is used, we will evaluate variants of known candidate genes and genes associated with tooth development.

Additional Information

Reviews:

PubMed Clinical Queries

Clinical resources:

Consumer resources:

NCATS Office of Rare Diseases Research (GARD)

MedlinePlus

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