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Your search keyword '"Shapero, Michael H."' showing total 25 results
Start Over Author "Shapero, Michael H." Publication Type Academic Journals
25 results on '"Shapero, Michael H."'

1. Design and coverage of high throughput genotyping arrays optimized for individuals of East Asian, African American, and Latino race/ethnicity using imputation and a novel hybrid SNP selection algorithm

Author

Hoffmann, Thomas J., Zhan, Yiping, Kvale, Mark N., Hesselson, Stephanie E., Gollub, Jeremy, Iribarren, Carlos, Lu, Yontao, Mei, Gangwu, Purdy, Matthew M., Quesenberry, Charles, Rowell, Sarah, Shapero, Michael H., Smethurst, David, Somkin, Carol P., Van den Eeden, Stephen K., Walter, Larry, Webster, Teresa, Whitmer, Rachel A., Finn, Andrea, Schaefer, Catherine, Kwok, Pui-Yan, and Risch, Neil

Published
2011
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2. Next generation genome-wide association tool: Design and coverage of a high-throughput European-optimized SNP array

Author

Hoffmann, Thomas J., Kvale, Mark N., Hesselson, Stephanie E., Zhan, Yiping, Aquino, Christine, Cao, Yang, Cawley, Simon, Chung, Elaine, Connell, Sheryl, Eshragh, Jasmin, Ewing, Marcia, Gollub, Jeremy, Henderson, Mary, Hubbell, Earl, Iribarren, Carlos, Kaufman, Jay, Lao, Richard Z., Lu, Yontao, Ludwig, Dana, Mathauda, Gurpreet K., McGuire, William, Mei, Gangwu, Miles, Sunita, Purdy, Matthew M., Quesenberry, Charles, Ranatunga, Dilrini, Rowell, Sarah, Sadler, Marianne, Shapero, Michael H., Shen, Ling, Shenoy, Tanushree R., Smethurst, David, Van den Eeden, Stephen K., Walter, Larry, Wan, Eunice, Wearley, Reid, Webster, Teresa, Wen, Christopher C., Weng, Li, Whitmer, Rachel A., Williams, Alan, Wong, Simon C., Zau, Chia, Finn, Andrea, Schaefer, Catherine, Kwok, Pui-Yan, and Risch, Neil

Published
2011
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3. Whole genome DNA copy number changes identified by high density oligonucleotide arrays

Author

Huang Jing, Wei Wen, Zhang Jane, Liu Guoying, Bignell Graham R, Stratton Michael R, Futreal P, Wooster Richard, Jones Keith W, and Shapero Michael H

Subjects
SNPs, genotypes, amplifications, deletions, copy number, LOH, Medicine, Genetics, QH426-470
Abstract

Abstract Changes in DNA copy number are one of the hallmarks of the genetic instability common to most human cancers. Previous micro-array-based methods have been used to identify chromosomal gains and losses; however, they are unable to genotype alleles at the level of single nucleotide polymorphisms (SNPs). Here we describe a novel algorithm that uses a recently developed high-density oligonucleotide array-based SNP genotyping method, whole genome sampling analysis (WGSA), to identify genome-wide chromosomal gains and losses at high resolution. WGSA simultaneously genotypes over 10,000 SNPs by allele-specific hybridisation to perfect match (PM) and mismatch (MM) probes synthesised on a single array. The copy number algorithm jointly uses PM intensity and discrimination ratios between paired PM and MM intensity values to identify and estimate genetic copy number changes. Values from an experimental sample are compared with SNP-specific distributions derived from a reference set containing over 100 normal individuals to gain statistical power. Genomic regions with statistically significant copy number changes can be identified using both single point analysis and contiguous point analysis of SNP intensities. We identified multiple regions of amplification and deletion using a panel of human breast cancer cell lines. We verified these results using an independent method based on quantitative polymerase chain reaction and found that our approach is both sensitive and specific and can tolerate samples which contain a mixture of both tumour and normal DNA. In addition, by using known allele frequencies from the reference set, statistically significant genomic intervals can be identified containing contiguous stretches of homozygous markers, potentially allowing the detection of regions undergoing loss of heterozygosity (LOH) without the need for a matched normal control sample. The coupling of LOH analysis, via SNP genotyping, with copy number estimations using a single array provides additional insight into the structure of genomic alterations. With mean and median inter-SNP euchromatin distances of 244 kilobases (kb) and 119 kb, respectively, this method affords a resolution that is not easily achievable with non-oligonucleotide-based experimental approaches.

Published
2004
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5. Global variation in copy number in the human genome

Author

Redon, Richard, Ishikawa, Shumpei, Fitch, Karen R., Feuk, Lars, Perry, George H., Andrews, T. Daniel, Fiegler, Heike, Shapero, Michael H., Carson, Andrew R., Chen, Wenwei, Cho, Eun Kyung, Dallaire, Stephanie, Freeman, Jennifer L., Gonzalez, Juan R., Gratacos, Monica, Huang, Jing, Kalaitzopoulos, Dimitrios, Komura, Daisuke, MacDonald, Jeffrey R., Marshall, Christian R., Mei, Rui, Montgomery, Lyndal, Nishimura, Kunihiro, Okamura, Kohji, Shen, Fan, Somerville, Martin J., Tchinda, Joelle, Valsesia, Armand, Woodwark, Cara, Yang, Fengtang, Zhang, Junjun, Zerjal, Tatiana, Zhang, Jane, Armengol, Lluis, Conrad, Donald F., Estivill, Xavier, Tyler-Smith, Chris, Carter, Nigel P., Aburatani, Hiroyuki, Lee, Charles, Jones, Keith W., Scherer, Stephen W., and Hurles, Matthew E.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Richard Redon [1]; Shumpei Ishikawa [2, 3]; Karen R. Fitch [4]; Lars Feuk [5, 6]; George H. Perry [7]; T. Daniel Andrews [1]; Heike Fiegler [1]; Michael H. Shapero [...]

Published
2006
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9. Exon sequence and structure requirements for tRNA splicing in Saccharomyces cerevisae

Author

Shapero, Michael H. and Greer, Chris L.

Subjects
RNA splicing -- Research, Microbial genetics -- Research, Saccharomyces -- Research, Biological sciences, Chemistry
Abstract

tRNA splicing in Saccharomyces cerevisae was studied in terms of exon sequence and structural prerequisites for the process using in vitro prepared pre-tRNA substrates. The findings revealed that not all features of exon sequences or structure are recognized by the splicing enzymes. These showed the importance of formation of base-pairs in splicing regardless of primary sequences. Endonuclease excision became more efficient with altered primary sequence with retention of secondary structure of the aminoacyl stem. These effects may be indirect through structural modifications.

Published
1992

10. Improved detection of global copy number variation using high density, non-polymorphic oligonucleotide probes

Author

Liu Guoying, Zhang Jane, Chen Wenwei, Kirby Andrew, Truong Vivi B, Fitch Karen R, Huang Jing, Shen Fan, McCarroll Steven A, Jones Keith W, and Shapero Michael H

Subjects
Genetics, QH426-470
Abstract

Abstract Background DNA sequence diversity within the human genome may be more greatly affected by copy number variations (CNVs) than single nucleotide polymorphisms (SNPs). Although the importance of CNVs in genome wide association studies (GWAS) is becoming widely accepted, the optimal methods for identifying these variants are still under evaluation. We have previously reported a comprehensive view of CNVs in the HapMap DNA collection using high density 500 K EA (Early Access) SNP genotyping arrays which revealed greater than 1,000 CNVs ranging in size from 1 kb to over 3 Mb. Although the arrays used most commonly for GWAS predominantly interrogate SNPs, CNV identification and detection does not necessarily require the use of DNA probes centered on polymorphic nucleotides and may even be hindered by the dependence on a successful SNP genotyping assay. Results In this study, we have designed and evaluated a high density array predicated on the use of non-polymorphic oligonucleotide probes for CNV detection. This approach effectively uncouples copy number detection from SNP genotyping and thus has the potential to significantly improve probe coverage for genome-wide CNV identification. This array, in conjunction with PCR-based, complexity-reduced DNA target, queries over 1.3 M independent NspI restriction enzyme fragments in the 200 bp to 1100 bp size range, which is a several fold increase in marker density as compared to the 500 K EA array. In addition, a novel algorithm was developed and validated to extract CNV regions and boundaries. Conclusion Using a well-characterized pair of DNA samples, close to 200 CNVs were identified, of which nearly 50% appear novel yet were independently validated using quantitative PCR. The results indicate that non-polymorphic probes provide a robust approach for CNV identification, and the increasing precision of CNV boundary delineation should allow a more complete analysis of their genomic organization.

Published
2008
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11. CARAT: A novel method for allelic detection of DNA copy number changes using high density oligonucleotide arrays

Author

Ishikawa Shumpei, Mei Rui, Di Xiaojun, Liu Guoying, Zhang Jane, Chen Joyce, Wei Wen, Huang Jing, Aburatani Hiroyuki, Jones Keith W, and Shapero Michael H

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background DNA copy number alterations are one of the main characteristics of the cancer cell karyotype and can contribute to the complex phenotype of these cells. These alterations can lead to gains in cellular oncogenes as well as losses in tumor suppressor genes and can span small intervals as well as involve entire chromosomes. The ability to accurately detect these changes is central to understanding how they impact the biology of the cell. Results We describe a novel algorithm called CARAT (Copy Number Analysis with Regression And Tree) that uses probe intensity information to infer copy number in an allele-specific manner from high density DNA oligonuceotide arrays designed to genotype over 100, 000 SNPs. Total and allele-specific copy number estimations using CARAT are independently evaluated for a subset of SNPs using quantitative PCR and allelic TaqMan reactions with several human breast cancer cell lines. The sensitivity and specificity of the algorithm are characterized using DNA samples containing differing numbers of X chromosomes as well as a test set of normal individuals. Results from the algorithm show a high degree of agreement with results from independent verification methods. Conclusion Overall, CARAT automatically detects regions with copy number variations and assigns a significance score to each alteration as well as generating allele-specific output. When coupled with SNP genotype calls from the same array, CARAT provides additional detail into the structure of genome wide alterations that can contribute to allelic imbalance.

Published
2006
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12. Axiom Microbiome Array, the next generation microarray for high-throughput pathogen and microbiome analysis.

Author

Thissen, James B., Be, Nicholas A., McLoughlin, Kevin, Gardner, Shea, Rack, Paul G., Shapero, Michael H., Rowland, Raymond R. R., Slezak, Tom, and Jaing, Crystal J.

Subjects
MICROARRAY technology, VIRAL disease diagnosis, DIAGNOSIS of bacterial diseases, CIRCOVIRUSES, VACCINIA
Abstract

Microarrays have proven to be useful in rapid detection of many viruses and bacteria. Pathogen detection microarrays have been used to diagnose viral and bacterial infections in clinical samples and to evaluate the safety of biological drug materials. In this study, the Axiom Microbiome Array was evaluated to determine its sensitivity, specificity and utility in microbiome analysis of veterinary clinical samples. The array contains probes designed to detect more than 12,000 species of viruses, bacteria, fungi, protozoa and archaea, yielding the most comprehensive microbial detection platform built to date. The array was able to detect Shigella and Aspergillus at 100 genome copies, and vaccinia virus DNA at 1,000 genome copies. The Axiom Microbiome Array made correct species-level calls in mock microbial community samples. When tested against serum, tissue, and fecal samples from pigs experimentally co-infected with porcine reproductive and respiratory syndrome virus and porcine circovirus type 2, the microarray correctly detected these two viruses and other common viral and bacterial microbiome species. This cost-effective and high-throughput microarray is an efficient tool to rapidly analyze large numbers of clinical and environmental samples for the presence of multiple viral and bacterial pathogens. [ABSTRACT FROM AUTHOR]

Published
2019
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13. MicroRNA Polymorphisms and Risk of Colorectal Cancer.

Author

Schmit, Stephanie L., Gollub, Jeremy, Shapero, Michael H., Shu-Chen Huang, Rennert, Hedy S., Finn, Andrea, Rennert, Gad, and Gruber, Stephen B.

Abstract

The article presents study on the contribution of micro ribonucleic acid (miRNA)-related polymorphisms to the etiology of colorectal cancer across the genome, using the Axiom miRNA Target Site Genotyping Array. It mentions that miRNAs act in post-transcriptional regulation of gene expression and genetic variation in miRNA-encoding sequences may affect the fidelity of the miRNA-mRNA interaction. It adds association of marker and colorectal cancer was examined using logistic regression.

Published
2015
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14. Integrated detection and population-genetic analysis of SNPs and copy number variation.

Author

McCarroll, Steven A., Kuruvilla, Finny G., Korn, Joshua M., Cawley, Simon, Nemesh, James, Wysoker, Alec, Shapero, Michael H., de Bakker, Paul I. W., Maller, Julian B., Kirby, Andrew, Elliott, Amanda L., Parkin, Melissa, Hubbell, Earl, Webster, Teresa, Rui Mei, Veitch, James, Collins, Patrick J., Handsaker, Robert, Lincoln, Steve, and Nizzari, Marcia

Subjects
POPULATION genetics, HUMAN genetic variation, DISEASE risk factors, GENOMES, HEREDITY
Abstract

Dissecting the genetic basis of disease risk requires measuring all forms of genetic variation, including SNPs and copy number variants (CNVs), and is enabled by accurate maps of their locations, frequencies and population-genetic properties. We designed a hybrid genotyping array (Affymetrix SNP 6.0) to simultaneously measure 906,600 SNPs and copy number at 1.8 million genomic locations. By characterizing 270 HapMap samples, we developed a map of human CNV (at 2-kb breakpoint resolution) informed by integer genotypes for 1,320 copy number polymorphisms (CNPs) that segregate at an allele frequency >1%. More than 80% of the sequence in previously reported CNV regions fell outside our estimated CNV boundaries, indicating that large (>100 kb) CNVs affect much less of the genome than initially reported. Approximately 80% of observed copy number differences between pairs of individuals were due to common CNPs with an allele frequency >5%, and more than 99% derived from inheritance rather than new mutation. Most common, diallelic CNPs were in strong linkage disequilibrium with SNPs, and most low-frequency CNVs segregated on specific SNP haplotypes. [ABSTRACT FROM AUTHOR]

Published
2008
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15. Improved detection of global copy number variation using high density, non-polymorphic oligonucleotide probes.

Author

Fan Shen, Jing Huang, Fitch, Karen R., Truong, Vivi B., Kirby, Andrew, Wenwei Chen, Zhang, Jane, Guoying Liu, McCarroll, Steven A., Jones, Keith W., and Shapero, Michael H.

Subjects
NUCLEIC acid probes, NUCLEOTIDE sequence, HUMAN genome, GENETIC polymorphisms, NUCLEOTIDES
Abstract

Background: DNA sequence diversity within the human genome may be more greatly affected by copy number variations (CNVs) than single nucleotide polymorphisms (SNPs). Although the importance of CNVs in genome wide association studies (GWAS) is becoming widely accepted, the optimal methods for identifying these variants are still under evaluation. We have previously reported a comprehensive view of CNVs in the HapMap DNA collection using high density 500 K EA (Early Access) SNP genotyping arrays which revealed greater than 1,000 CNVs ranging in size from 1 kb to over 3 Mb. Although the arrays used most commonly for GWAS predominantly interrogate SNPs, CNV identification and detection does not necessarily require the use of DNA probes centered on polymorphic nucleotides and may even be hindered by the dependence on a successful SNP genotyping assay. Results: In this study, we have designed and evaluated a high density array predicated on the use of nonpolymorphic oligonucleotide probes for CNV detection. This approach effectively uncouples copy number detection from SNP genotyping and thus has the potential to significantly improve probe coverage for genome-wide CNV identification. This array, in conjunction with PCR-based, complexity-reduced DNA target, queries over 1.3 M independent NspI restriction enzyme fragments in the 200 bp to 1100 bp size range, which is a several fold increase in marker density as compared to the 500 K EA array. In addition, a novel algorithm was developed and validated to extract CNV regions and boundaries. Conclusion: Using a well-characterized pair of DNA samples, close to 200 CNVs were identified, of which nearly 50% appear novel yet were independently validated using quantitative PCR. The results indicate that non-polymorphic probes provide a robust approach for CNV identification, and the increasing precision of CNV boundary delineation should allow a more complete analysis of their genomic organization. [ABSTRACT FROM AUTHOR]

Published
2008
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16. Evaluating potential for whole-genome studies in Kosrae, an isolated population in Micronesia.

Author

Bonnen, Penelope E., Pe'er, Itsik, Plenge, Robert M., Salit, Jackie, Lowe, Jennifer K., Shapero, Michael H., Lifton, Richard P., Breslow, Jan L., Daly, Mark J., Reich, David E., Jones, Keith W., Stoffel, Markus, Altshuler, David, and Friedman, Jeffrey M.

Subjects
GENOMES, GENOMICS, GENETICS, GENES, POPULATION, ISLANDS
Abstract

Whole-genome association studies are predicted to be especially powerful in isolated populations owing to increased linkage disequilibrium (LD) and decreased allelic diversity, but this possibility has not been empirically tested. We compared genome-wide data on 113,240 SNPs typed on 30 trios from the Pacific island of Kosrae to the same markers typed in the 270 samples from the International HapMap Project. The extent of LD is longer and haplotype diversity is lower in Kosrae than in the HapMap populations. More than 98% of Kosraen haplotypes are present in HapMap populations, indicating that HapMap will be useful for genetic studies on Kosrae. The long-range LD around common alleles and limited diversity result in improved efficiency in genetic studies in this population and augments the power to detect association of 'hidden SNPs'. [ABSTRACT FROM AUTHOR]

Published
2006
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17. Whole genome DNA copy number changes identified by high density oligonucleotide arrays.

Author

Jing Huang, Wen Wei, Jane Zhang, Guoying Liu, Bignell, Graham R., Stratton, Michael R., Futreal, P. Andrew, Wooster, Richard, Jones, Keith W., and Shapero, Michael H.

Subjects
DNA, GENES, NUCLEIC acids, GENETIC polymorphisms, DNA microarrays, OLIGONUCLEOTIDES
Abstract

Changes in DNA copy number are one of the hallmarks of the genetic instability common to most human cancers. Previous microarray-based methods have been used to identify chromosomal gains and losses; however, they are unable to genotype alleles at the level of single nucleotide polymorphisms (SNPs), Here we describe a novel algorithm that uses a recently developed high-density oligonucleotide array-based SNP genotyping method, whole genome sampling analysis (WGSA), to identify genome-wide chromosomal gains and losses at high resolution. WGSA simultaneously genotypes over 10,000 SNPs by allele-specific hybridisation to perfect match (PM) and mismatch (MM) probes synthesised on a single array. The copy number algorithm jointly uses PM intensity and discrimination ratios between paired PM and MM intensity values to identify and estimate genetic copy number changes. Values from an experimental sample are compared with SNP-specific distributions derived from a reference set containing over 100 normal individuals to gain statistical power. Genomic regions with statistically significant copy number changes can be identified using both single point analysis and contiguous point analysis of SNP intensities. We identified multiple regions of amplification and deletion using a panel of human breast cancer cell lines. We verified these results using an independent method based on quantitative polymerase chain reaction and found that our approach is both sensitive and specific and can tolerate samples which contain a mixture of both tumour and normal DNA. In addition, by using known allele frequencies from the reference set, statistically significant genomic Intervals can be identified containing contiguous stretches of homozygous markers, potentially allowing the detection of regions undergoing loss of heterozygosity (LOH) without the need for a matched normal control sample. The coupling of LOH analysis, via SNP genotyping, with copy number estimations using a single array provides additional insight into the structure of genomic alterations. With mean and median inter-SNP euchromatin distances of 244 kilobases (kb) and 119 kb, respectively, this method affords a resolution that is not easily achievable with non-oligonucleotide-based experimental approaches. [ABSTRACT FROM AUTHOR]

Published
2004
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22. High-Resolution Analysis of DNA Copy Number Using Oligonucleotide Microarrays.

Author

Bignell, Graham R., Huang, Jing, Greshock, Joel, Watt, Stephen, Butler, Adam, West, Sofie, Grigorova, Mira, Jones, Keith W., Wen Wei, Stratton, Michael R., Futreal, P. Andrew, Weber, Barabara, Shapero, Michael H., and Wooster, Richard

Subjects
*OLIGONUCLEOTIDES, *GENETIC polymorphisms, *DNA, *DNA microarrays, *CANCER cells, *GENE amplification
Abstract

Examines the effectiveness of an oligonucleotide array originally designed to detect single-nucleotide polymorphisms in assessing DNA copy number. Variation of flourescent signal from the oligonucleotide array in proportion to both decreases and increases in copy number; Genetic alterations in cancer cells with identification of complex events including loss and reduplication of loci; Consistency of patterns of loss of heterozygosity and low-level amplification.

Published
2004
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23. Genome-wide detection of human copy number variations using high-density DNA oligonucleotide arrays.

Author

Komura, Daisuke, Fan Shen, Ishikawa, Shumpei, Fitch, Karen R., Wenwei Chen, Zhang, Jane, Guoying Liu, Ihara, Sigeo, Nakamura, Hiroshi, Hurles, Matthew E., Lee, Charles, Scherer, Stephen W., Jones, Keith W., Shapero, Michael H., Jing Huang, and Aburatani, Hiroyuki

Subjects
*HUMAN genome, *NUCLEOTIDES, *GENETIC polymorphisms, *GENOMES, *HUMAN chromosomes, *HUMAN gene mapping, *OLIGONUCLEOTIDES, *GENOMICS
Abstract

Recent reports indicate that copy number variations (CNVs) within the human genome contribute to nucleotide diversity to a larger extent than single nucleotide polymorphisms (SNPs). In addition, the contribution of CNVs to human disease susceptibility may be greater than previously expected, although a complete understanding of the phenotypic consequences of CNVs is incomplete. We have recently reported a comprehensive view of CNVs among 270 HapMap samples using high-density SNP genotyping arrays and BAC array CGH. In this report, we describe a novel algorithm using Affymetrix GeneChip Human Mapping 500K Early Access (500K EA) arrays that identified 1203 CNVs ranging in size from 960 bp to 3.4 Mb. The algorithm consists of three steps: (1) Intensity pre-processing to improve the resolution between pairwise comparisons by directly estimating the allele-specific affinity as well as to reduce signal noise by incorporating probe and target sequence characteristics via an improved version of the Genomic Imbalance Map (GIM) algorithm; (2) CNV extraction using an adapted SW-ARRAY procedure to automatically and robustly detect candidate CNV regions; and (3) copy number inference in which all pairwise comparisons are summarized to more precisely define CNV boundaries and accurately estimate CNV copy number. Independent testing of a subset of CNVs by quantitative PCR and mass spectrometry demonstrated a >90% verification rate. The use of high-resolution oligonucleotide arrays relative to other methods may allow more precise boundary information to be extracted, thereby enabling a more accurate analysis of the relationship between CNVs and other genomic features. [ABSTRACT FROM AUTHOR]

Published
2006
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24. DMET microarray technology for pharmacogenomics-based personalized medicine.

Author

Burmester JK, Sedova M, Shapero MH, and Mansfield E

Subjects
Carrier Proteins metabolism, Clopidogrel, Cytochrome P-450 Enzyme System metabolism, DNA analysis, DNA chemistry, DNA genetics, DNA metabolism, Enzymes metabolism, Equipment Reuse, Gene Frequency, Genome genetics, Humans, Nucleic Acid Hybridization, Oligonucleotide Array Sequence Analysis instrumentation, Pharmaceutical Preparations metabolism, Pharmacogenetics instrumentation, Polymerase Chain Reaction, Precision Medicine instrumentation, Staining and Labeling, Ticlopidine analogs & derivatives, Ticlopidine metabolism, Warfarin metabolism, Oligonucleotide Array Sequence Analysis methods, Pharmacogenetics methods, Precision Medicine methods
Abstract

Human genome sequence variation in the form of single nucleotide polymorphisms (SNPs) as well as more complex structural variation such as insertions, duplications, and deletions underlies each individual's response to drugs and thus the likelihood of experiencing an adverse drug reaction. The ongoing challenge of the field of pharmacogenetics is to further understand the relationship between genetic variation and differential drug responses, with the overarching goal being that this will lead to improvements in both the safety and efficacy of drugs. The Affymetrix DMET Plus Premier Pack (DMET stands for Drug Metabolizing Enzymes and Transporters) enables highly multiplexed genotyping of known polymorphisms in Absorption, Distribution, Metabolism, and Elimination (ADME)-related genes on a single array. The DMET Plus Panel interrogates markers in 225 genes that have documented functional significance in phase I and phase II drug metabolism enzymes as well as drug transporters. The power of the DMET Assay has previously been demonstrated with regard to several different drugs including warfarin and clopidogrel. In a research study using an earlier four-color version of the assay, it was demonstrated that warfarin dosing can be influenced by a cytochrome P450 (CYP) 4F2 variant. Additionally, the assay has been used to demonstrate that CYP2C19 variants with decreased enzyme activity led to lower levels of the active clopidogrel metabolite, resulting in a decreased inhibition of platelets and a higher rate of cardiovascular events when compared to noncarriers of the DNA variant. Thus, highly multiplexed SNP genotyping focused on ADME-related polymorphisms should enable research into development of safer drugs with greater efficacy.

Published
2010
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25. In Vivo Persistence of Donor Cells following Adoptive Transfer of Allogeneic Dendritic Cells in HIV-Infected Patients.

Author

Shapero MH, Kundu SK, Engleman E, Laus R, Van Schooten WCA, and Merigan TC

Abstract

Peripheral blood samples from HIV-seropositive individuals enrolled in a pilot clinical trial investigating the use of allogeneic dendritic cell therapy were evaluated for mixed chimerism. In this study, dendritic cells from HLA-identical, HIV-seronegative siblings were used. Patients received an infusion of dendritic cells pulsed with HIV MN gp160 protein or with peptides from HLA-A2 restricted epitopes of env, gag, and pol proteins every month for 6-9 months. Of the five allogeneic dendritic cell recipients, two showed increases in HIV antigen-specific immune responses. Allele-specific polymorphisms were identified in three sib-pairs that allowed infused donor cells to be detected using sensitive PCR-based molecular methods. Analysis of blood samples from patients showed similar patterns of donor cell persistence after the first infusion, in that cells were detectable for at least 1 week. Also, differences were observed in the kinetics of cell survival between the first and subsequent infusion cycles in all three patients. This suggests variation in HIV-specific immune responses detected among these three patients was not due to differences in persistence of infused donor cells.

Published
2000
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