TY  - JOUR
A1  - Kunz, Felix
A1  - Kayserili, Hülya
A1  - Midro, Alina
A1  - de Silva, Deepthi
A1  - Basnayake, Sriyani
A1  - Güven, Yeliz
A1  - Borys, Jan
A1  - Schanze, Denny
A1  - Stellzig‐Eisenhauer, Angelika
A1  - Bloch‐Zupan, Agnes
A1  - Zenker, Martin
T1  - Characteristic dental pattern with hypodontia and short roots in Fraser syndrome
JF  - American Journal of Medical Genetics Part A
N2  - Fraser syndrome (FS) is a rare autosomal recessive multiple congenital malformation syndrome characterized by cryptophthalmos, cutaneous syndactyly, renal agenesis, ambiguous genitalia, and laryngotracheal anomalies. It is caused by biallelic mutations of FRAS1, FREM2, and GRIP1 genes, encoding components of a protein complex that mediates embryonic epithelial–mesenchymal interactions. Anecdotal reports have described abnormal orodental findings in FS, but no study has as yet addressed the orodental findings of FS systematically. We reviewed dental radiographs of 10 unrelated patients with FS of different genetic etiologies. Dental anomalies were present in all patients with FS and included hypodontia, dental crowding, medial diastema, and retained teeth. A very consistent pattern of shortened dental roots of most permanent teeth as well as altered length/width ratio with shortened dental crowns of upper incisors was also identified. These findings suggest that the FRAS1–FREM complex mediates critical mesenchymal–epithelial interactions during dental crown and root development. The orodental findings of FS reported herein represent a previously underestimated manifestation of the disorder with significant impact on orodental health for affected individuals. Integration of dentists and orthodontists into the multidisciplinary team for management of FS is therefore recommended.
KW  - dental roots
KW  - Fraser syndrome
KW  - hypodontia
KW  - orodental health
KW  - taurodontism
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-216147
VL  - 182
IS  - 7
SP  - 1681
EP  - 1689
ER  - 
TY  - JOUR
A1  - Hauer, Nadine N.
A1  - Popp, Bernt
A1  - Taher, Leila
A1  - Vogl, Carina
A1  - Dhandapany, Perundurai S.
A1  - Büttner, Christian
A1  - Uebe, Steffen
A1  - Sticht, Heinrich
A1  - Ferrazzi, Fulvia
A1  - Ekici, Arif B.
A1  - De Luca, Alessandro
A1  - Klinger, Patrizia
A1  - Kraus, Cornelia
A1  - Zweier, Christiane
A1  - Wiesener, Antje
A1  - Abou Jamra, Rami
A1  - Kunstmann, Erdmute
A1  - Rauch, Anita
A1  - Wieczorek, Dagmar
A1  - Jung, Anna-Marie
A1  - Rohrer, Tilman R.
A1  - Zenker, Martin
A1  - Doerr, Helmuth-Guenther
A1  - Reis, André
A1  - Thiel, Christian T.
T1  - Evolutionary conserved networks of human height identify multiple Mendelian causes of short stature
JF  - European Journal of Human Genetics
N2  - Height is a heritable and highly heterogeneous trait. Short stature affects 3% of the population and in most cases is genetic in origin. After excluding known causes, 67% of affected individuals remain without diagnosis. To identify novel candidate genes for short stature, we performed exome sequencing in 254 unrelated families with short stature of unknown cause and identified variants in 63 candidate genes in 92 (36%) independent families. Based on systematic characterization of variants and functional analysis including expression in chondrocytes, we classified 13 genes as strong candidates. Whereas variants in at least two families were detected for all 13 candidates, two genes had variants in 6 (UBR4) and 8 (LAMA5) families, respectively. To facilitate their characterization, we established a clustered network of 1025 known growth and short stature genes, which yielded 29 significantly enriched clusters, including skeletal system development, appendage development, metabolic processes, and ciliopathy. Eleven of the candidate genes mapped to 21 of these clusters, including CPZ, EDEM3, FBRS, IFT81, KCND1, PLXNA3, RASA3, SLC7A8, UBR4, USP45, and ZFHX3. Fifty additional growth-related candidates we identified await confirmation in other affected families. Our study identifies Mendelian forms of growth retardation as an important component of idiopathic short stature.
KW  - disease genetics
KW  - DNA sequencing
KW  - genetic counselling
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227899
VL  - 27
ER  -