推荐杏吧原创

Karen Schlauch

Research Professor

Summary

Biography

Dr. Schlauch is a mathematician who enjoys developing new mathematical and statistical techniques to analyze large and complex whole-Omics experiments to find meaningful biological hypotheses. Currently, Dr. Schlauch is the lead statistical geneticist on the Healthy Nevada Project housed at the Desert Research Institute and Renown Hospital.

Dr. Schlauch collaborates with a number of physicians to predict possible associations of genotype and disease in a host of interesting diseases: pre-term laboring, Chronic Fatigue Syndrome, Gulf-War Syndrome, Alzheimer's disease and obesity.

She is a strong advocate of using robust experimental designs, appropriate statistical methods, and robust mathematical tools to generate biologically meaningful and statistically rigorous results.

Research interests

  • Personalized medicine
  • Genome-wide association studies
  • Biostatistics
  • Bioinformatics

Our lab focuses on developing new and robust mathematical tools to analyze large whole-genome data sets generated on a variety of platforms.

Clustering With Confidence

As expression data contain significant amounts of random variation, and as clusters are dependent on the procedure applied, the assignment of confidence measures to clusters is useful. Specifically, we have implemented an algorithm in the statistical programming language R that assigns confidence measures to groupings of genes obtained by clustering routines. By the use of permutation testing and convex hull methods to simulate pseudo-random gene expression data sets, statistics are obtained from these randomly generated sets to provide a basis for comparison to the original data.

Graph-theoretic Tools to Model Expression Data

The analysis of big data is a significant challenge for the researcher. The parallel assay of thousands of data points, not all of which are independent, across a number of states or conditions, provides an interesting platform for statistical analyses and the construction of models. Although standard hierarchical clustering techniques can be applied to these data, no standard tools to identify such patterns exist. We have developed a graph-theoretic approach for constructing putative functional network models that suggest hypotheses about functions of unknown genes. This technique has been applied to several current experiments with promising results. An innovative distance metric is under development to provide a measure of similarity between any pair of genes in a more biologically grounded manner than commonly utilized distance metrics. Using these similarity relations, a bi-directional graph is generated by connecting genes based on their degree of similarity. From this graph one can detect "clusters" within the structure of the graph’s connectivity. These clusters provide hypotheses of gene function and interaction, and guide in the association of genes with biochemical pathway changes involved in stress responses and adaptive mechanisms of the organism under study. An on-going study focuses also on the post-analysis findings and the biological meaning behind clusters, an often-neglected step in expression data analysis. We are also comparing these methods to common co-expression network tools.

Modeling Gene Interactions with Combinatorial Methods

Complex networks are often used to model hierarchical social, biological or communication systems, as well as genetic systems. As a first approximation, Boolean networks are often used. As part of my research at the Virginia Bioinformatics Institute with Professor Reinhard Laubenbacher, we developed a method of encoding a Boolean network as a collection of simplicial complexes. We also established a combinatorial analogue of the homotopy theory of topological spaces to analyze these simplicial complexes. The resulting combinatorial invariants provide information on the dynamics of the network. By representing genetic relationships via (Boolean) network structures, applications of combinatorial homotopy theory may reveal overall network behavior and patterns of influence within and across gene subgroups.

Visualization of Microarray Gene Expression Data

An artificial heatmap of the intensity levels of a 2-color cDNA microarray is generated for each channel, and for the background-corrected ratio values. This image allows the user to quickly determine whether any spatial variation appears on the array, or whether control spots are behaving as predicted. Similarly, the tool is applicable to high density oligonucleotide arrays, such as those made by Affymetrix and Nimblegen™. This technique provides the researcher with a bird's eye view of each array in the experiment. The software is written in the R programming language, and is very simple to use and implement.

Visualization of Haplotype Sharing and Fine Mapping using SNP Data

For the analysis of data stemming from our high-throughput genotyping experiments, we have developed a tool that automates the selection of SNPs for fine-mapping genetic associations. The tool generates a graph of genotypes from phased chromosomes that are grouped by haplotype via a hierarchical clustering approach to display long-range linkage disequilibrium patterns for a given allele of interest. We are currently using phased chromosome data from the HapMap project, and among other things, highlight those SNPs included on the Affymetrix 100K SNP GeneChip. These graphs make it possible to identify the haplotypes on which an associated SNP occurs and identify the region likely to contain the causative variant for a given association.

A separate module within HapMapper identifies SNPs that serve to distinguish haplotypes, as well as those in strong linkage disequilibrium with an associated allele, and those that are proxies for other SNPs in the region. These data are integrated into the visual display, aiding in the selection of SNPs for fine mapping haplotypes that contain the associated allele. The software is written in R and has been implemented for our use in fine-mapping several regions of interest.

Courses taught

  • BCH 709 Introduction to Bioinformatics

Recent Publications

  • Schlauch KA, Kulick D, Subramanian K, De Meirleir KL, Palotás A, Lombardi VC. Single-nucleotide polymorphisms in a cohort of significantly obese women without cardiometabolic diseases. Int J Obes (Lond). 2019 Aug 17. doi: 10.1038/s41366-018-0181-3. [Epub ahead of print] PMID:30120429
  • De Meirleir KL, Mijatovic T, Subramanian K, Schlauch KA, Lombardi VC. Evaluation of four clinical laboratory parameters for the diagnosis of myalgic encephalomyelitis. J Transl Med. 2018 Nov 21;16(1):322. doi: 10.1186/s12967-018-1696-z. PMID: 30463572
  • Romanick SS, Ulrich C, Schlauch K, Hostler A, Payne J, Woolsey R, Quilici D, Feng Y, Ferguson BS. Obesity-mediated regulation of cardiac protein acetylation: parallel analysis of total and acetylated proteins via TMT-tagged mass spectrometry. Biosci Rep. 2018 Sep 7;38(5). doi: 0.1042/BSR20180721. PMID: 30061171
  • O'Brien KM, Rix AS, Egginton S, Farrell AP, Crockett EL, Schlauch K, Woolsey R, Hoffman M, Merriman S.J. Cardiac mitochondrial metabolism may contribute to differences in thermal tolerance of red- and white-blooded Antarctic notothenioid fishes. Exp Biol. 2018 Aug 13;221(Pt 15). doi: 10.1242/jeb.177816.
  • Rahmati Ishka M, Brown E, Weigand C, Tillett RL, Schlauch KA, Miller G, Harper JF. A comparison of heat-stress transcriptome changes between wild-type Arabidopsis pollen and heat-sensitive mutant harboring a knockout of cyclic nucleotide-gated cation channel 16 (cngc16). BMC Genomics. 2018 Jul 24;19(1):549. doi: 10.1186/s12864-018-4930-4. PMID: 30041596
  • Copley Salem C, Ulrich C, Quilici D, Schlauch K, Buxton ILO, Burkin H. Mechanical strain induces phosphor-proteomics signaling in uterine smooth muscle cells. J Biomech. 2018 May 17;73:99-107. doi: 10.1016/j.jbiomech.2018.03.040. Epub 2018 Mar 30. PMID: 29661501
  • Singh S, Stafford P, Schlauch KA, Tillett RR, Gollery M, Johnston SA, Khaiboullina SF, De Meirleir KL, Rawat S, Mijatovic T, Subramanian K, Palotás A, Lombardi VC. Humoral Immunity Profiling of Subjects with Myalgic Encephalomyelitis Using a Random Peptide Microarray Differentiates Cases from Controls with High Specificity and Sensitivity. Mol Neurobiol. 2018 Jan;55(1):633-641. doi: 10.1007/s12035-016-0334-0. Epub 2016 Dec 15. PMID: 27981498
  • Nadeau, JA, Petereit J, Tillett RJ, Jung M, Fotoohi M, MacLean M, Young S, Schlauch K, Blomquist GJ, Tittiger C. Comparative transcriptomics of mountain pine beetle pheromone-biosynthetic tissues and functional analysis of CYP6DE3. BMC Genomics 2017 Apr 20;18(1):311
  • Anokhin VV, Bakhteeva LB, Khasanova GR, Khaiboullina SF, Martynova EV, Tillett RL, Schlauch KA, Lombardi VC, Rizvanov AA. Previously Unidentified Single Nucleotide Polymorphisms in HIV/AIDS Cases Associate with Clinical Parameters and Disease Progression. Biomed Res Int. 2016;2016:2742648. PMID: 28050553.
  • Singh S, Stafford P, Schlauch KA, Tillett RR, Gollery M, Johnston SA, Khaiboullina SF, De Meirleir KL, Rawat S, Mijatovic T, Subramanian K, Palotás A, Lombardi VC. Humoral Immunity Profiling of Subjects with Myalgic Encephalomyelitis Using a Random Peptide Microarray Differentiates Cases from Controls with High Specificity and Sensitivity. Mol Neurobiol. 2016 Dec 15. PMID: 27981498
  • Mukhamedyarov MA, Rizvanov AA, Yakupov EZ, Zefirov AL, Kiyasov AP, Reis HJ, Teixeira AL, Vieira LB, Lima LM, Salafutdinov II, Petukhova EO, Khaiboullina SF, Schlauch KA, Lombardi VC, Palotás A. Transcriptional Analysis of Blood Lymphocytes and Skin Fibroblasts, Keratinocytes, and Endothelial Cells as a Potential Biomarker for Alzheimer's Disease. J Alzheimers Dis. 2016 Oct 18;54(4):1373-1383. PMID: 27589530
  • Petereit J, Smith S, Harris FC Jr, Schlauch KA. petal: Co-expression network modeling in R. BMC Syst Biol. 2016 Aug 1; 10 Suppl 2:51. PMID: 27490697
  • Schlauch KA, Khaiboullina SF, De Meirleir KL, Rawat S, Petereit J, Rizvanov AA, Blatt N, Mijatovic T, Kulick D, Palotás A, Lombardi VC. Genome-wide association analysis identifies genetic variations in subjects with myalgic encephalomyelitis/chronic fatigue syndrome. Transl Psychiatry 2016 Feb 9. PMID: 26859813
  • Copley Salem C, Ulrich C, Quilici D, Schlauch K, Buxton ILO, Burkin H. Mechanical strain induced phospho-proteomic signaling in uterine smooth muscle cells. J Biomech2018 May 17;73:99-107. doi: 10.1016/j.jbiomech.2018.03.040. Epub 2018 Mar 30. PubMed PMID: 29661501; PubMed Central PMCID: PMC5932261.