Sibel Aylin Uğur scite author profile

Pulmonary alveolar microlithiasis (PAM) is a rare disease characterized by the deposition of calcium phosphate microliths throughout the lungs. We first identified a PAM locus by homozygosity mapping to 4p15, then identified, by a candidate-gene approach, the gene responsible for the disease as SLC34A2 (the type IIb sodium-phosphate cotransporter gene), which is involved in phosphate homeostasis in several organs. We identified six homozygous exonic mutations in the seven unrelated patients with PAM we studied. Three of the mutations were frameshifts, one was a chain termination, one was an amino acid substitution, and one was a deletion spanning the minimal promoter and the first exon. Absence of functional protein product of the gene is compatible with calcium phosphate deposition in alveolar airspaces. We show that impaired activity of the phosphate transporter is presumably responsible for the microliths and that PAM is a recessive monogenic disease with full penetrance. Testicular microlithiasis (TM) is a disease that is more common than PAM. It is often associated with cancer and infertility. Since the gene we identified is also expressed in testis, we searched for mutations in subjects with TM. In 2 of the 15 subjects with TM we studied, we identified two rare variants, one synonymous and the other noncoding, that are possibly associated with the condition.

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Homozygous WNT10b mutation and complex inheritance in Split-Hand/Foot Malformation

Uğur

Tolun

2008

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Split-Hand/Foot Malformation (SHFM) is a complex limb malformation affecting the central rays of the autopod. We studied a large consanguineous kindred afflicted with autosomal recessive SHFM. Twelve affected members had central feet reductions with or without hand involvement while the remaining one had the mildest phenotype and atypical SHFM. We identified by homozygosity mapping a novel SHFM locus at 12q13.11-q13 with a maximum multipoint lod score of 5.47 and by subsequent candidate gene approach a homozygous missense WNT10b mutation (p.R332W) in all affected individuals but the atypical case plus in an asymptomatic female. We propose that either a second locus contributes to the manifestation of SHFM phenotype or a suppressor locus prevented trait manifestation in the non-penetrant female. We also investigated linkage to the five known SHFM loci. Four of the loci were excluded, while in TP63 [tumor protein p63 (SHFM4)], the only known gene responsible for SHFM, we detected in most affected subjects a rare insertion variant (rs34201045) at the alternate promoter used for transcription of the N-terminal-truncated p63 isotype. This is the first reported WNT10b mutation on the pathogenesis of limb development and recessive mutation in SHFM.

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Autosomal recessive spastic paraplegia (SPG45) with mental retardation maps to 10q24.3–q25.1

et al. 2009

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Hereditary spastic paraplegias (HSPs) are characterized by progressive spasticity in the lower limbs. They are clinically heterogeneous, and pure forms as well as complicated forms with other accompanying clinical findings are known. HSPs are also genetically heterogeneous. We performed clinical and genetic studies in a consanguineous family with five affected members. A genome scan using 405 microsatellite markers for eight members of the family identified candidate gene loci, and subsequent fine mapping in 16 members identified the gene locus responsible for the HSP. The clinical manifestations were very early onset spastic paraplegia (SPG) accompanied by mental retardation and ocular signs. The gene locus was identified as the interval 102.05-106.64 Mbp on chromosome 10. Gene MRPL43 was analyzed in the patients. No mutation but high levels of mRNA were detected. We have mapped a novel autosomal recessive complicated form of HSP (SPG45) to a 4.6-Mbp region at 10q24.3-q25.1 with multipoint logarithm of odds scores >4.5.

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A deletion in DRCTNNB1A associated with hypomyelination and juvenile onset cataract

Uğur

Tolun

2007

Eur J Hum Genet

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Hypomyelination and congenital cataract is a recently reported autosomal recessive white matter disorder characterized by hypomyelination of the central and peripheral nervous systems, progressive neurological impairment and congenital cataract and caused by mutations in gene DRCTNNB1A. Here we report a large intragenic deletion that does not lead to congenital cataract in all of the patients in an afflicted family. The clinical phenotypes described for five patients broaden the phenotype of the disease and indicate that congenital cataract is not an essential criterion for differential diagnosis.

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Identification of a locus for an autosomal recessive hyaline body myopathy at chromosome 3p22.2–p21.32

Önengüt

Uğur

Karasoy

et al. 2004

Neuromuscular Disorders

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