Christina Flachmeier scite author profile

To analyze candidate genes and establish complex genotype-phenotype relationships against a background of high natural genome sequence variability, we have developed approaches to (i) compare candidate gene sequence information in multiple individuals; (ii) predict haplotypes from numerous variants; and (iii) classify haplotypes and identify specific sequence variants, or combinations of variants (pattern), associated with the phenotype. Using the human mu opioid receptor gene (OPRM1) as a model system, we have combined these approaches to test a potential role of OPRM1 in substance (heroin/cocaine) dependence. All known functionally relevant regions of this prime candidate gene were analyzed by multiplex sequence comparison in 250 cases and controls; 43 variants were identified and 52 different haplotypes predicted in the subgroup of 172 African-Americans. These haplotypes were classified by similarity clustering into two functionally related categories, one of which was significantly more frequent in substance-dependent individuals. Common to this category was a characteristic pattern of sequence variants [-1793T-->A, -1699Tins, -1320A-->G, -111C-->T, +17C-->T (A6V)], which was associated with substance dependence. This study provides an example of approaches that have been successfully applied to the establishment of complex genotype-phenotype relationships in the presence of abundant DNA sequence variation.

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SMARCAD1 Haploinsufficiency Underlies Huriez Syndrome and Associated Skin Cancer Susceptibility

Günther

Lee‐Kirsch

Matanovic

et al. 2018

Journal of Investigative Dermatology

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Identification and Characterization of KAT, a Novel Gene Preferentially Expressed in Several Human Cancer Cell Lines

Wenzel¹,

Felix²,

Flachmeier³

et al. 2003

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We describe the molecular characterization of a novel human gene on chromosome 1q23.3, termed KAT, which is highly conserved among mammals. The KAT gene spans a genomic region of approximately 1.6 kilobases and consists of 4 exons encoding a 115 amino acid protein with a molecular mass of about 12.5 kDa. The gene is expressed in several human tissues, including kidney, liver, skeletal muscle, heart, colon, thymus, spleen, placenta and lung. We identified an alternatively spliced form, lacking exon 2, in human and mouse tissues. In silico analysis of expressed sequence tags, derived from different types of human tumors, revealed another splice variant. This transcript is characterized by retention of the third intron, leading to a truncated translation product. The KAT protein is localized around the nuclear membranes. It was found to be expressed in several breast, colon and lung carcinoma cell lines, but not in normal breast epithelial cell lines. In addition, KAT protein was detected in invasive ductal carcinoma, but not in adjacent tissues. This suggests a role of this gene in tumorigenesis.

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Novel variants in 3 kb of 5?UTR of the ?1-adrenergic receptor gene (-93C>T, -210C>T, and -2146T>C): -2146C homozygotes present in patients with idiopathic dilated cardiomyopathy and coronary heart disease

Wenzel

Felix

Bauer³

et al. 2000

Hum. Mutat.

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Comparative sequencing of the human CB1 cannabinoid receptor gene coding exon: no structural mutations in individuals exhibiting extreme responses to cannabis

Hoehe

Rinn²,

Flachmeier³

et al. 2000

Psychiatric Genetics

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