Melanie Ruszczyk

Publications

• 3.48

  Impact points

  Integrated physical map of the human essential tremor gene region (ETM2) on chromosome 2p24.3-p24.2.

  Joseph J Higgins, Roni Q Lombardi, Joanna Pucilowska, Melanie U Ruszczyk

  American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics. 06/2004; 127B(1):128-30.

  A gene for autosomal dominant familial essential tremor maps to a 9.1 cM interval flanked by loci D2S224 and D2S405 (ETM2) on human chromosome 2p24.3-p24.2. The recombinatorial boundaries of the interval were refined on a radiation hybrid map to a 123 cR minimal critical region (MCR) between D2S224 ... [more] A gene for autosomal dominant familial essential tremor maps to a 9.1 cM interval flanked by loci D2S224 and D2S405 (ETM2) on human chromosome 2p24.3-p24.2. The recombinatorial boundaries of the interval were refined on a radiation hybrid map to a 123 cR minimal critical region (MCR) between D2S224 and D2S2221. High-throughput non-isotopic screening of bacterial artificial chromosomes (BACs) was used to assemble a physical map of the region. A scaffold BAC map of 31 overlapping clones was ordered by their sequence tagged site (STS) content using PCR and Southern blotting. A complementary 3.9 Mb integrated physical map of the human ETM2 region was constructed by identifying GenBank contigs that contained seven BAC DNA sequences and common STSs. Thirty-three transcripts including five known genes (MATN3, LAPTM4A, SDC1, PUM2, and APOB) were identified in the MCR and ordered on an integrated contig by PCR and virtual mapping. This physical map will provide a template for genomic sequencing and the identification of a gene for essential tremor.
• 3.49

  Impact points

  Haplotype analysis of the ETM2 locus in familial essential tremor.

  Joseph J Higgins, Joseph Jankovic, Roni Q Lombardi, Joanna Pucilowska, Eng-King Tan, Tetsuo Ashizawa, Melanie U Ruszczyk

  Neurogenetics. 09/2003; 4(4):185-9.

  The objective of this study was to analyze a sample of unrelated individuals with autosomal dominant essential tremor (ET) for a genetic association with loci in a candidate region (ETM2) on chromosome 2p24.1 that harbors a disease gene for ET. ET is a common movement disorder that is genetically li... [more] The objective of this study was to analyze a sample of unrelated individuals with autosomal dominant essential tremor (ET) for a genetic association with loci in a candidate region (ETM2) on chromosome 2p24.1 that harbors a disease gene for ET. ET is a common movement disorder that is genetically linked to ETM2 in four large families. It is unknown whether this candidate locus is associated with dominantly inherited ET in other individuals. Based on information from previous genetic linkage studies, a linkage disequilibrium study was designed to compare individuals with a family history of ET (n=45) with normal controls (n=70). Three unreported dinucleotide polymorphic loci (etm1240, etm1231, and etm1234) were identified on a physical map of the ETM2 interval in a region of no recombination. The study sample was tested for allele frequency differences by the CLUMP program and haplotypes were analyzed by the FASTEHPLUS program. The allele frequencies were significantly different between ET cases and the control samples for the loci etm1231 (P< or =0.0419) and etm1234 (P<0.0001). A haplotype formed by the loci etm1231 and etm1234 occurred with a frequency of 29% in cases (n=45) and 9% in a white newborn sample (P<0.0001, n=35). The haplotype was not found in normal individuals older than 60 years without tremor (P=0.0063, n=35). This study provides evidence that an ancestral haplotype on chromosome 2p24.1 segregates with the ET disease phenotype in individuals with a family history of the disorder and will facilitate the search for a causative gene.