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1. Deletion within the Src homology domain 3 of Bruton's tyrosine kinase resulting in X-linked agammaglobulinemia (XLA).

Author

Zhu, Q, Zhang, M, Rawlings, DJ, Vihinen, M, Hagemann, T, Saffran, DC, Kwan, SP, Nilsson, L, Smith, CI, Witte, ON, Chen, SH, and Ochs, HD

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Adult, Agammaglobulinaemia Tyrosine Kinase, Agammaglobulinemia, Amino Acid Sequence, B-Lymphocytes, Base Sequence, Blotting, Northern, DNA, Female, Genetic Carrier Screening, Genetic Linkage, Humans, Male, Molecular Sequence Data, Pedigree, Protein-Tyrosine Kinases, Proto-Oncogene Proteins pp60(c-src), RNA Splicing, Sequence Deletion, Sequence Homology, Amino Acid, X Chromosome, Medical and Health Sciences, Immunology
Abstract

The gene responsible for X-linked agammaglobulinemia (XLA) has been recently identified to code for a cytoplasmic tyrosine kinase (Bruton's agammaglobulinemia tyrosine kinase, BTK), required for normal B cell development. BTK, like many other cytoplasmic tyrosine kinases, contains Src homology domains (SH2 and SH3), and catalytic kinase domain. SH3 domains are important for the targeting of signaling molecules to specific subcellular locations. We have identified a family with XLA whose affected members have a point mutation (g-->a) at the 5' splice site of intron 8, resulting in the skipping of coding exon 8 and loss of 21 amino acids forming the COOH-terminal portion of the BTK SH3 domain. The study of three generations within this kinship, using restriction fragment length polymorphism and DNA analysis, allowed identification of the mutant X chromosome responsible for XLA and the carrier status in this family. BTK mRNA was present in normal amounts in Epstein-Barr virus-induced B lymphoblastoid cell lines established from affected family members. Although the SH3 deletion did not alter BTK protein stability and kinase activity of the truncated BTK protein was normal, the affected patients nevertheless have a severe B cell defect characteristic for XLA. The mutant protein was modeled using the normal BTK SH3 domain. The deletion results in loss of two COOH-terminal beta strands containing several residues critical for the formation of the putative SH3 ligand-binding pocket. We predict that, as a result, one or more crucial SH3 binding proteins fail to interact with BTK, interrupting the cytoplasmic signal transduction process required for B cell differentiation.

Published
1994

9. Recommendations for Locus-Specific Databases and Their Curation

Author

Cotton, R. G.H., Auerbach, A. D., Beckmann, J. S., Blumenfeld, O. O., Brookes, A. J., Brown, A. F., Carrera, P., Cox, D. W., Gottlieb, B., Greenblatt, M. S., Hilbert, P., Lehvaslaiho, H., Liang, P., Marsh, S., Nebert, D. W., Povey, S., Rossetti, S., Scriver, C. R., Summar, M., Tolan, D. R., Verma, I. C., Vihinen, M., and den Dunnen, J. T.

Published
2008
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10. A Structured Simple Form for Ordering Genetic Tests Is Needed to Ensure Coupling of Clinical Detail (Phenotype) with DNAVariants (Genotype) to Ensure Utility in Publication and Databases†

Author

Cotton, R. G.H., Auerbach, A. D., Brown, A. F., Carrera, P., Christodoulou, J., Claustres, M., Compton, J., Cox, D. W., De Baere, E., den Dunnen, J. T., Greenblatt, M., Fujiwara, M., Hilbert, P., Jani, A., Lehvaslaiho, H., Nebert, D. W., Verma, I., and Vihinen, M.

Published
2007
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15. Expanded national database collection and data coverage in the FINDbase worldwide database for clinically relevant genomic variation allele frequencies

Author

Viennas, E. (Emmanouil), Komianou, A. (Angeliki), Mizzi, C. (Clint), Stojiljkovic, M. (Maja), Mitropoulou, C. (Christina), Muilu, J. (Juha), Vihinen, M. (Mauno), Grypioti, P. (Panagiota), Papadaki, S. (Styliani), Pavlidis, C. (Cristiana), Zukic, B. (Branka), Katsila, T. (Theodora), Spek, P.J. (Peter) van der, Pavlovic, S. (Sonja), Tzimas, G. (Giannis), Patrinos, G.P. (George), Viennas, E. (Emmanouil), Komianou, A. (Angeliki), Mizzi, C. (Clint), Stojiljkovic, M. (Maja), Mitropoulou, C. (Christina), Muilu, J. (Juha), Vihinen, M. (Mauno), Grypioti, P. (Panagiota), Papadaki, S. (Styliani), Pavlidis, C. (Cristiana), Zukic, B. (Branka), Katsila, T. (Theodora), Spek, P.J. (Peter) van der, Pavlovic, S. (Sonja), Tzimas, G. (Giannis), and Patrinos, G.P. (George)

Abstract

FINDbase (http://www.findbase.org) is a comprehensive data repository that records the prevalence of clinically relevant genomic variants in various populations worldwide, such as pathogenic variants leadingmostly tomonogenic disorders and pharmacogenomics biomarkers. The database also records the incidence of rare genetic diseases in various populations, all in well-distinct data modules. Here, we report extensive data content updates in all data modules, with direct implications to clinical pharmacogenomics. Also, we report significant new developments in FINDbase, namely (i) the release of a new version of the ETHNOS software that catalyzes development curation of national/ethnic genetic databases, (ii) the migration of all FINDbase data content into 90 distinct national/ethnicmutation databases, all built around Microsoft's PivotViewer (http://www.getpivot.com) software (iii) new data visualization tools and (iv) the interrelation of FINDbase with DruGeVar database with direct implications in clinical pharmacogenomics. The abovementioned updates further enhance the impact of FINDbase, as a key resource for Genomic Medicine applications.

Published
2017
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16. Expanded national database collection and data coverage in the FINDbase worldwide database for clinically relevant genomic variation allele frequencies

Author

Viennas, E, Komianou, A, Mizzi, Clint, Stojiljkovic, M, Mitropoulou, C, Muilu, J, Vihinen, M, Grypioti, P, Papadaki, S, Pavlidis, C, Zukic, B, Katsila, T, van der Spek, Peter, Pavlovic, S, Tzimas, G, Patrinos, George, Viennas, E, Komianou, A, Mizzi, Clint, Stojiljkovic, M, Mitropoulou, C, Muilu, J, Vihinen, M, Grypioti, P, Papadaki, S, Pavlidis, C, Zukic, B, Katsila, T, van der Spek, Peter, Pavlovic, S, Tzimas, G, and Patrinos, George

Published
2017

18. Standard development at the Human Variome Project

Author

Smith, TD, Vihinen, M, Smith, TD, and Vihinen, M

Abstract

The Human Variome Project (HVP) is a world organization working towards facilitating the collection, curation, interpretation and free and open sharing of genetic variation information. A key component of HVP activities is the development of standards and guidelines. HVP Standards are systems, procedures and technologies that the HVP Consortium has determined must be used by HVP-affiliated data sharing infrastructure and should be used by the broader community. HVP guidelines are considered to be beneficial for HVP affiliated data sharing infrastructure and the broader community to adopt. The HVP also maintains a process for assessing systems, processes and tools that implement HVP Standards and Guidelines. Recommended System Status is an accreditation process designed to encourage the adoption of HVP Standards and Guidelines. Here, we describe the HVP standards development process and discuss the accepted standards, guidelines and recommended systems as well as those under acceptance. Certain HVP Standards and Guidelines are already widely adopted by the community and there are committed users for the others.

Published
2015

19. BTKbase: XLA-mutation registry

Author

Vihinen, M., Brooimans, Ra, Kwan, Sp, Lehvaslaiho, H., Litman, Gw, Ochs, Hd, Resnick, I., Schwaber, Jh, Vorchovsky, I., and C. I. Edvard SMITH

Subjects
Immunology
Published
1996
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20. Mutation (variation) databases and registries: a rationale for coordination of efforts

Author

Auerbach, A.D., Burn, J., Cassiman, J.J., Claustres, M., Cotton, R.G.H., Cutting, G., Dunnen, J.T. den, El-Ruby, M., Vargas, A.F., Greenblatt, M.S., Macrae, F., Matsubara, Y., Rimoin, D.L., Vihinen, M., Broeckhoven, C. van, Human Variome Project, Department of Clinical Genetics/EMGO Institute for Health and Care research, Laboratoire de génétique des maladies rares. Pathologie moleculaire, etudes fonctionnelles et banque de données génétiques (LGMR), IFR3, Université Montpellier 1 (UM1)-Université Montpellier 1 (UM1)-Université de Montpellier (UM)-Institut National de la Santé et de la Recherche Médicale (INSERM), Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), United Kingdom Met Office [Exeter], Johns Hopkins University School of Medicine [Baltimore], Department of Human Genetics, Leiden University Medical Center (LUMC), Department of Colorectal Medicine and Genetics, The Royal Melbourne Hospital, Medical Genetics Institute, Department of Experimental Medical Science, Lund University [Lund], Neurodegenerative Brain Diseases Group, and VIB

Subjects
[SDV]Life Sciences [q-bio], Human Variome Project, Developing country, computer.software_genre, 03 medical and health sciences, Annotation, 0302 clinical medicine, Resource (project management), Databases, Genetic, Genetics, Humans, Medicine, Relevance (information retrieval), Biology, Molecular Biology, ComputingMilieux_MISCELLANEOUS, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Database, business.industry, Biobank, 3. Good health, Incentive, Mutation (genetic algorithm), Human medicine, business, computer, 030217 neurology & neurosurgery
Abstract

Here we argue that coor-dination of international efforts for develop -ing comprehensive mutation databases and patient phenotype registries is essential for optimal genetic health care.Well-funded international efforts for set -ting up mutation databases or registries are crucial for several reasons. Many variants that are found during clinical testing world-wide are not submitted to databases, where they could form an important resource for patient care. Many laboratories and clini-cians do not have the capacity or incentive to submit data to databases. This is espe-cially the case in developing countries owing mainly to technical insufficiency, lack of public awareness, lack of international com -munications, the absence of the concept of DNA biobanking, national authority restric -tions and lack of translation from original languages to English. The Human Variome Project (HVP) was initiated to facilitate the collection of all variants in all genes from all countries and to include annotation of these variants for pathogenicity and relevance to clinical medicine

Published
2011
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21. How to catch all those mutations--the report of the third Human Variome Project Meeting, UNESCO Paris, May 2010

Author

Kohonen-Corish, M.R.J., Al-Aama, J.Y., Auerbach, A.D., Axton, M., Barash, C.I., Bernstein, I., Beroud, C., Burn, J., Cunningham, F., Cutting, G.R., Dunnen, J.T. den, Greenblatt, M.S., Kaput, J., Katz, M., Lindblom, A., Macrae, F., Maglott, D., Moslein, G., Povey, S., Ramesar, R., Richards, S., Seminara, D., Sobrido, M.J., Tavtigian, S., Taylor, G., Vihinen, M., Winship, I., Cotton, R.G.H., Contributors Human Variome Project, HNPCC-register, Hvidovre Hospital, University of Copenhagen = Københavns Universitet (KU), Laboratoire de génétique des maladies rares. Pathologie moleculaire, etudes fonctionnelles et banque de données génétiques (LGMR), Université Montpellier 1 (UM1)-IFR3, Université Montpellier 1 (UM1)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM), European Bioinformatics Institute [Hinxton] (EMBL-EBI), EMBL Heidelberg, McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University (JHU), Metabolic Unit, Dept Clinical Chemistry, University of Vermont College of Medicine, University of Vermont [Burlington], University of Massachusetts [Amherst] (UMass Amherst), University of Massachusetts System (UMASS), Department of Clinical Genetics, Karolinska University Hospital [Stockholm], Department of Colorectal Medicine and Genetics, The Royal Melbourne Hospital, National Center for Biotechnology Information (NCBI), Dept of Genetics, Evolution and Environment [London] (UCL-GEE), University College of London [London] (UCL), National Cancer Institute [Bethesda] (NCI-NIH), National Institutes of Health [Bethesda] (NIH), Fundacion Publica Galega de Medicina Xenomica, Fundación Pública Galega de Medicina Xenómica, Department of Oncological Sciences, University of Utah-Huntsman Cancer Institute, Imperial College London, Department of Experimental Medical Science, Lund University [Lund], University of Copenhagen = Københavns Universitet (UCPH), IFR3, and Université Montpellier 1 (UM1)-Université Montpellier 1 (UM1)-Université de Montpellier (UM)-Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects
education, Human Variome Project, Library science, Human genetic variation, Biology, computer.software_genre, Article, 03 medical and health sciences, 0302 clinical medicine, Health care, Genetics, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Data collection, business.industry, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, 3. Good health, Variome, Incentive, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, 030220 oncology & carcinogenesis, Sustainability, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM], business, computer, Data integration
Abstract

International audience; The third Human Variome Project (HVP) Meeting "Integration and Implementation" was held under UNESCO Patronage in Paris, France, at the UNESCO Headquarters May 10-14, 2010. The major aims of the HVP are the collection, curation, and distribution of all human genetic variation affecting health. The HVP has drawn together disparate groups, by country, gene of interest, and expertise, who are working for the common good with the shared goal of pushing the boundaries of the human variome and collaborating to avoid unnecessary duplication. The meeting addressed the 12 key areas that form the current framework of HVP activities: Ethics; Nomenclature and Standards; Publication, Credit and Incentives; Data Collection from Clinics; Overall Data Integration and Access-Peripheral Systems/Software; Data Collection from Laboratories; Assessment of Pathogenicity; Country Specific Collection; Translation to Healthcare and Personalized Medicine; Data Transfer, Databasing, and Curation; Overall Data Integration and Access-Central Systems; and Funding Mechanisms and Sustainability. In addition, three societies that support the goals and the mission of HVP also held their own Workshops with the view to advance disease-specific variation data collection and utilization: the International Society for Gastrointestinal Hereditary Tumours, the Micronutrient Genomics Project, and the Neurogenetics Consortium.

Published
2010
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23. Of genes and phenotypes: the immunological and molecular spectrum of combined immune deficiency. Defects of the gamma(c)-JAK3 signaling pathway as a model

Author

Notarangelo, Ld, Giliani, S, Mazza, C, Mella, P, Savoldi, G, Rodriguez Pérez, C, Mazzolari, E, Fiorini, M, Duse, Marzia, Plebani, A, Ugazio, Ag, Vihinen, M, Candotti, F, and Schumacher, Rf

Subjects
Male, T-Lymphocytes, Janus Kinase 3, Receptors, Interleukin-2, Protein-Tyrosine Kinases, Models, Biological, Killer Cells, Natural, Phenotype, Mutation, Cytokines, Humans, Female, Severe Combined Immunodeficiency, Signal Transduction
Abstract

Cytokines play a major role in lymphoid development. Defects of the common gamma chain (gamma(c)) or of the JAK3 protein in humans have been shown to result in a severe combined immune deficiency (SCID), with a profound defect in T and natural killer (NK)-cell development, whereas B-cell generation is apparently unaffected (T-B+NK-SCID). While extensive molecular and biochemical analysis of these patients has been instrumental in understanding better the biological properties of the gamma(c) and JAK3 protein, an unexpected phenotypic heterogeneity of gamma(c) and JAK3 deficiency has emerged, indicating the need for appropriate and extensive investigations even in patients with atypical presentations. At the same time, characterization of the defects has been instrumental in the development of novel therapeutic approaches, from in utero hematopoietic stem cell transplantation to gene therapy.

Published
2001

24. Analysis of Btk mutations in patients with X-linked agammaglobulinaemia (XLA) and determination of carrier status in normal female relatives: a nationwide study of Btk deficiency in Greece

Author

Speletas, M Kanariou, M Kanakoudi-Tsakalidou, F and Papadopoulou-Alataki, E Arvanitidis, K Pardali, E and Constantopoulos, A Kartalis, G Vihinen, M Sideras, P and Ritis, K

Subjects
hemic and lymphatic diseases
Abstract

Bruton’s tyrosine kinase (Btk) is a nonreceptor tyrosine kinase, critical for B-cell development and function. Mutations that inactivate this kinase were found in families with X-linked agammaglobulinaemia (XLA). In this study the Btk gene was analyzed in 13 registered Greek patients with XLA phenotype originated from 12 unrelated families, in order to provide a definite diagnosis of the XLA. The structure of Btk was analyzed at the cDNA level using the recently developed method, NIRCA (Non-Isotopic-Rnase-Cleavage-Assay). Alterations were detected in all patients and sequencing analysis confirmed the results and defined six novel XLA-associated Btk mutations (three missense mutations: C337G, L346R, L452P; one nonsense mutation: Y392X, and two frameshift alterations: cl211-1212delA, c1306-1307insA). Having defined the genetic alteration in the affected males of these families, the information was used to design polymerase chain reaction (PCR) primers and the Btk segments containing the mutated sequences were amplified from peripheral blood derived genomic DNA of potential female carriers. The PCR products were directly sequenced and carrier status was determined in 12 out of 16 phenotypically normal females analyzed. This protocol can be used once the nature of the Btk mutation has been defined in one of the affected males and provides a convenient, simple and reliable way to determine the carrier status of other female family members. Molecular genetic analysis constitutes a determinative tool for the definitive diagnosis of XLA and may allow accurate carrier and prenatal diagnosis for genetic counselling.

Published
2001

25. Primary immunodeficiency mutation databases

Author

Vihinen, M., Arredondo-Vega, Fx, Casanova, Jl, Etzioni, A., Giliani, S., Hammarstrom, L., Hershfield, Ms, Heyworth, Pg, Hsu, Ap, Lahdesmaki, A., Lappalainen, I., Notarangelo, Ld, Puck, Jm, Reith, W., Roos, D., Schumacher, Rf, Schwarz, K., Vezzoni, P., Villa, A., Valiaho, J., and C. I. Edvard SMITH

Subjects
Databases, Factual, Genotype, Models, Genetic, Immunologic Deficiency Syndromes/ genetics, Immunologic Deficiency Syndromes, Mutation, Missense, Chromosome Mapping, ddc:616.07, Phenotype, Mutation, Humans, CpG Islands, Alleles
Abstract

Primary immunodeficiencies are intrinsic defects of immune systems. Mutations in a large number of cellular functions can lead to impaired immune responses. More than 80 primary immunodeficiencies are known to date. During the last years genes for several of these disorders have been identified. Here, mutation information for 23 genes affected in 14 immunodefects is presented. The proteins produced are employed in widely diverse functions, such as signal transduction, cell surface receptors, nucleotide metabolism, gene diversification, transcription factors, and phagocytosis. Altogether, the genetic defect of 2,140 families has been determined. Diseases with X-chromosomal origin constitute about 70% of all the cases, presumably due to full penetrance and because the single affected allele causes the phenotype. All types of mutations have been identified; missense mutations are the most common mutation type, and truncation is the most common effect on the protein level. Mutational hotspots in many disorders appear in CPG dinucleotides. The mutation data for the majority of diseases are distributed on the Internet with a special database management system, MUTbase. Despite large numbers of mutations, it has not been possible to make genotype-phenotype correlations for many of the diseases.

Published
2000

28. Planning the human variome project: the Spain report.

Author

Kaput, J., Cotton, R.G., Hardman, L., Watson, M., Aqeel, A.I. Al, Al-Aama, J.Y., Al-Mulla, F., Alonso, S., Aretz, S., Auerbach, A.D., Bapat, B., Bernstein, I.T., Bhak, J., Bleoo, S.L., Blocker, H., Brenner, S.E., Burn, J., Bustamante, M., Calzone, R., Cambon-Thomsen, A., Cargill, M., Carrera, P., Cavedon, L., Cho, Y.S., Chung, Y.J., Claustres, M., Cutting, G., Dalgleish, R., Dunnen, J.T. den, Diaz, C., Dobrowolski, S., Santos, M.R. dos, Ekong, R., Flanagan, S.B., Flicek, P., Furukawa, Y., Genuardi, M., Ghang, H., Golubenko, M.V., Greenblatt, M.S., Hamosh, A., Hancock, J.M., Hardison, R., Harrison, T.M., Hoffmann, R., Horaitis, R., Howard, H.J., Barash, C.I., Izagirre, N., Jung, J., Kojima, T., Laradi, S., Lee, Y.S., Lee, J.Y., Gil-da-Silva-Lopes, V.L., Macrae, F.A., Maglott, D., Marafie, M.J., Marsh, S.G., Matsubara, Y., Messiaen, L.M., Moslein, G., Netea, M.G., Norton, M.L., Oefner, P.J., Oetting, W.S., O'Leary, J.C., Ramirez, A.M. de, Paalman, M.H., Parboosingh, J., Patrinos, G.P., Perozzi, G., Phillips, I.R., Povey, S., Prasad, S., Qi, M., Quin, D.J., Ramesar, R.S., Richards, C.S., Savige, J., Scheible, D.G., Scott, R.J., Seminara, D., Shephard, E.A., Sijmons, R.H., Smith, T.D., Sobrido, M.J., Tanaka, T., Tavtigian, S.V., Taylor, G.R., Teague, J., Topel, T., Ullman-Cullere, M., Utsunomiya, J., Kranen, H.J. van, Vihinen, M., Webb, E., Weber, T.K., Yeager, M., Kaput, J., Cotton, R.G., Hardman, L., Watson, M., Aqeel, A.I. Al, Al-Aama, J.Y., Al-Mulla, F., Alonso, S., Aretz, S., Auerbach, A.D., Bapat, B., Bernstein, I.T., Bhak, J., Bleoo, S.L., Blocker, H., Brenner, S.E., Burn, J., Bustamante, M., Calzone, R., Cambon-Thomsen, A., Cargill, M., Carrera, P., Cavedon, L., Cho, Y.S., Chung, Y.J., Claustres, M., Cutting, G., Dalgleish, R., Dunnen, J.T. den, Diaz, C., Dobrowolski, S., Santos, M.R. dos, Ekong, R., Flanagan, S.B., Flicek, P., Furukawa, Y., Genuardi, M., Ghang, H., Golubenko, M.V., Greenblatt, M.S., Hamosh, A., Hancock, J.M., Hardison, R., Harrison, T.M., Hoffmann, R., Horaitis, R., Howard, H.J., Barash, C.I., Izagirre, N., Jung, J., Kojima, T., Laradi, S., Lee, Y.S., Lee, J.Y., Gil-da-Silva-Lopes, V.L., Macrae, F.A., Maglott, D., Marafie, M.J., Marsh, S.G., Matsubara, Y., Messiaen, L.M., Moslein, G., Netea, M.G., Norton, M.L., Oefner, P.J., Oetting, W.S., O'Leary, J.C., Ramirez, A.M. de, Paalman, M.H., Parboosingh, J., Patrinos, G.P., Perozzi, G., Phillips, I.R., Povey, S., Prasad, S., Qi, M., Quin, D.J., Ramesar, R.S., Richards, C.S., Savige, J., Scheible, D.G., Scott, R.J., Seminara, D., Shephard, E.A., Sijmons, R.H., Smith, T.D., Sobrido, M.J., Tanaka, T., Tavtigian, S.V., Taylor, G.R., Teague, J., Topel, T., Ullman-Cullere, M., Utsunomiya, J., Kranen, H.J. van, Vihinen, M., Webb, E., Weber, T.K., and Yeager, M.

Abstract

Contains fulltext : 81952.pdf (publisher's version ) (Closed access), The remarkable progress in characterizing the human genome sequence, exemplified by the Human Genome Project and the HapMap Consortium, has led to the perception that knowledge and the tools (e.g., microarrays) are sufficient for many if not most biomedical research efforts. A large amount of data from diverse studies proves this perception inaccurate at best, and at worst, an impediment for further efforts to characterize the variation in the human genome. Because variation in genotype and environment are the fundamental basis to understand phenotypic variability and heritability at the population level, identifying the range of human genetic variation is crucial to the development of personalized nutrition and medicine. The Human Variome Project (HVP; http://www.humanvariomeproject.org/) was proposed initially to systematically collect mutations that cause human disease and create a cyber infrastructure to link locus specific databases (LSDB). We report here the discussions and recommendations from the 2008 HVP planning meeting held in San Feliu de Guixols, Spain, in May 2008.

Published
2009

29. Planning the Human Variome Project: The Spain Report

Author

Kaput, J, Cotton, RGH, Hardman, L, Watson, M, Al Aqeel, AI, Al-Aama, JY, Al-Mulla, F, Alonso, S, Aretz, S, Auerbach, AD, Bapat, B, Bernstein, IT, Bhak, J, Bleoo, SL, Bloecker, H, Brenner, SE, Burn, J, Bustamante, M, Calone, R, Cambon-Thomsen, A, Cargill, M, Carrera, P, Cavedon, L, Cho, YS, Chung, Y-J, Claustres, M, Cutting, G, Dalgleish, R, den Dunnen, JT, Diaz, C, Dobrowolski, S, dos Santos, MRN, Ekong, R, Flanagan, SB, Flicek, P, Furukawa, Y, Genuardi, M, Ghang, H, Golubenko, MV, Greenblatt, MS, Hamosh, A, Hancock, JM, Hardison, R, Harrison, TM, Hoffmann, R, Horaitis, R, Howard, HJ, Barash, CI, Izagirre, N, Jung, J, Kojima, T, Laradi, S, Lee, Y-S, Lee, J-Y, Gil-da-Silva-Lopes, VL, Macrae, FA, Maglott, D, Marafie, MJ, Marsh, SGE, Matsubara, Y, Messiaen, LM, Moeslein, G, Netea, MG, Norton, ML, Oefner, PJ, Oetting, WS, O'Leary, JC, Oller de Ramirez, AM, Paalman, MH, Parboosingh, J, Patrinos, GP, Perozzi, G, Phillips, IR, Povey, S, Prasad, S, Qi, M, Quin, DJ, Ramesar, RS, Richards, CS, Savige, J, Scheible, DG, Scott, RJ, Seminara, D, Shephard, EA, Sijmons, RH, Smith, TD, Sobrido, M-J, Tanaka, T, Tavtigian, SV, Taylor, GR, Teague, J, Toepel, T, Ullman-Cullere, M, Utsunomiya, J, van Kranen, HJ, Vihinen, M, Webb, E, Weber, TK, Yeager, M, Yeom, YI, Yim, S-H, Yoo, H-S, Kaput, J, Cotton, RGH, Hardman, L, Watson, M, Al Aqeel, AI, Al-Aama, JY, Al-Mulla, F, Alonso, S, Aretz, S, Auerbach, AD, Bapat, B, Bernstein, IT, Bhak, J, Bleoo, SL, Bloecker, H, Brenner, SE, Burn, J, Bustamante, M, Calone, R, Cambon-Thomsen, A, Cargill, M, Carrera, P, Cavedon, L, Cho, YS, Chung, Y-J, Claustres, M, Cutting, G, Dalgleish, R, den Dunnen, JT, Diaz, C, Dobrowolski, S, dos Santos, MRN, Ekong, R, Flanagan, SB, Flicek, P, Furukawa, Y, Genuardi, M, Ghang, H, Golubenko, MV, Greenblatt, MS, Hamosh, A, Hancock, JM, Hardison, R, Harrison, TM, Hoffmann, R, Horaitis, R, Howard, HJ, Barash, CI, Izagirre, N, Jung, J, Kojima, T, Laradi, S, Lee, Y-S, Lee, J-Y, Gil-da-Silva-Lopes, VL, Macrae, FA, Maglott, D, Marafie, MJ, Marsh, SGE, Matsubara, Y, Messiaen, LM, Moeslein, G, Netea, MG, Norton, ML, Oefner, PJ, Oetting, WS, O'Leary, JC, Oller de Ramirez, AM, Paalman, MH, Parboosingh, J, Patrinos, GP, Perozzi, G, Phillips, IR, Povey, S, Prasad, S, Qi, M, Quin, DJ, Ramesar, RS, Richards, CS, Savige, J, Scheible, DG, Scott, RJ, Seminara, D, Shephard, EA, Sijmons, RH, Smith, TD, Sobrido, M-J, Tanaka, T, Tavtigian, SV, Taylor, GR, Teague, J, Toepel, T, Ullman-Cullere, M, Utsunomiya, J, van Kranen, HJ, Vihinen, M, Webb, E, Weber, TK, Yeager, M, Yeom, YI, Yim, S-H, and Yoo, H-S

Abstract

The remarkable progress in characterizing the human genome sequence, exemplified by the Human Genome Project and the HapMap Consortium, has led to the perception that knowledge and the tools (e.g., microarrays) are sufficient for many if not most biomedical research efforts. A large amount of data from diverse studies proves this perception inaccurate at best, and at worst, an impediment for further efforts to characterize the variation in the human genome. Because variation in genotype and environment are the fundamental basis to understand phenotypic variability and heritability at the population level, identifying the range of human genetic variation is crucial to the development of personalized nutrition and medicine. The Human Variome Project (HVP; http://www.humanvariomeproject.org/) was proposed initially to systematically collect mutations that cause human disease and create a cyber infrastructure to link locus specific databases (LSDB). We report here the discussions and recommendations from the 2008 HVP planning meeting held in San Feliu de Guixols, Spain, in May 2008.

Published
2009

30. The EUROclass trial: Defining subgroups in common variable immunodeficiency

Author

Wehr, C. (Claudia), Kivioja, T. (Teemu), Schmitt, C. (Christian), Ferry, B. (Berne), Witte, T. (Torsten), Eren, E. (Efrem), Vlkova, M. (Marcela), Hernandez, M. (Manuel), Detkova, D. (Drahomira), Bos, P.R. (Philip), Poerksen, G. (Gonke), Bernuth, H. (Horst) von, Baumann, U. (Ulrich), Goldacker, S. (Sigune), Gutenberger, S. (Sylvia), Schlesier, M. (Michael), Bergeron-Van der Cruyssen, F. (Florence), Le Garff, M. (Magali), Debré, P. (Patrice), Jacobs, R. (Roland), Jones, J. (John), Bateman, E. (Elizabeth), Litzman, J. (Jiri), Hagen, P.M. (Martin) van, Plebani, A. (Alessandro), Schmidt, R. (Reinhold), Thon, V. (Vojtech), Quinti, I. (Isabella), Espanol, T. (Teresa), Webster, A.D. (David), Chapel, H. (Helen), Vihinen, M. (Mauno), Oksenhendler, E. (Eric), Peter, H.H., Warnatz, K. (Klaus), Wehr, C. (Claudia), Kivioja, T. (Teemu), Schmitt, C. (Christian), Ferry, B. (Berne), Witte, T. (Torsten), Eren, E. (Efrem), Vlkova, M. (Marcela), Hernandez, M. (Manuel), Detkova, D. (Drahomira), Bos, P.R. (Philip), Poerksen, G. (Gonke), Bernuth, H. (Horst) von, Baumann, U. (Ulrich), Goldacker, S. (Sigune), Gutenberger, S. (Sylvia), Schlesier, M. (Michael), Bergeron-Van der Cruyssen, F. (Florence), Le Garff, M. (Magali), Debré, P. (Patrice), Jacobs, R. (Roland), Jones, J. (John), Bateman, E. (Elizabeth), Litzman, J. (Jiri), Hagen, P.M. (Martin) van, Plebani, A. (Alessandro), Schmidt, R. (Reinhold), Thon, V. (Vojtech), Quinti, I. (Isabella), Espanol, T. (Teresa), Webster, A.D. (David), Chapel, H. (Helen), Vihinen, M. (Mauno), Oksenhendler, E. (Eric), Peter, H.H., and Warnatz, K. (Klaus)

Abstract

The heterogeneity of common variable immunodeficiency (CVID) calls for a classification addressing pathogenic mechanisms as well as clinical relevance. This European multicenter trial was initiated to develop a consensus of 2 existing classification schemes based on flowcytometric B-cell phenotyping and the clinical course. The clinical evaluation of 303 patients with the established diagnosis of CVID demonstrated a significant coincidence of granulomatous disease, autoimmune cytopenia, and splenomegaly. Phenotyping of B-cell subpopulations confirmed a severe reduction of switched memory B cells in most of the patients that was associated with a higher risk for splenomegaly and granulomatous disease. An expansion of CD21lowB cells marked patients with splenomegaly. Lymphadenopathy was significantly linked with transitional B-cell expansion. Based on these findings and pathogenic consideration of B-cell differentiation, we suggest an improved classification for CVID (EUROclass), separating patients with nearly absent B cells (less than 1%), severely reduced switched memory B cells (less than 2%), and expansion of transitional (more th

Published
2008
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31. Determination and analysis of antigenic epitopes of prostate specific antigen (PSA) and human glandular kallikrein 2 (hK2) using synthetic peptides and computer modeling

Author

Piironen, T., Villoutreix, B. O., Becker, C., Hollingsworth, K., Vihinen, M., Bridon, D., Qiu, X., Rapp, J., Dowell, B., Lövgren, T., Pettersson, K., and Lilja, H.

Subjects
Sequence Homology, Amino Acid, Molecular Sequence Data, Antibodies, Monoclonal, Biotin, Prostate-Specific Antigen, urologic and male genital diseases, Catalysis, Epitopes, Humans, Computer Simulation, Kallikreins, Amino Acid Sequence, Peptides, Tissue Kallikreins, Research Article
Abstract

Prostate specific antigen (PSA) and human glandular kallikrein 2 (hK2), produced essentially by the prostate gland, are 237-amino acid monomeric proteins, with 79% identity in primary structure. Twenty-five anti-PSA monoclonal antibodies (Mabs) were studied for binding to a large array of synthetic linear peptides selected from computer models of PSA and hK2, as well as to biotinylated peptides covering the entire PSA sequence. Sixteen of the Mabs were bound to linear peptides forming four independent binding regions (I-IV). Binding region I was localized to amino acid residues 1-13 (identical sequence for PSA and hK2), II (a and b) was localized to residues 53-64, III (a and b) was localized to residues 80-91 (= kallikrein loop), and IV was localized to residues 151-164. Mabs binding to regions I and IIa were reactive with free PSA, PSA-ACT complex, and with hK2; Mabs binding to regions IIb, IIIa, and IV were reactive with free PSA and PSA-ACT complex, but unreactive with hK2; Mabs binding to region IIIb detected free PSA only. All Mabs tested (n = 7) specific for free PSA reacted with kallikrein loop (binding region IIIb). The presence of Mabs interacting with binding region I did not inhibit the catalytic activity of PSA, whereas Mabs interacting with other binding regions inhibited the catalysis. Theoretical model structures of PSA, hK2, and the PSA-ACT complex were combined with the presented data to suggest an overall orientation of PSA with regard to ACT.

Published
1998

32. Molecular and structural characterization of five novel mutations in the Bruton's tyrosine kinase gene from patients with X-linked agammaglobulinemia

Author

Saha, B. K., Curtis, S. K., Vogler, L. B., and Vihinen, M.

Subjects
Adult, Male, X Chromosome, Sequence Homology, Amino Acid, Genetic Linkage, Infant, Blood Proteins, Protein-Tyrosine Kinases, Phosphoproteins, Protein Structure, Tertiary, Agammaglobulinemia, hemic and lymphatic diseases, Child, Preschool, Mutation, Agammaglobulinaemia Tyrosine Kinase, Humans, Child, Polymorphism, Single-Stranded Conformational, Research Article
Abstract

BACKGROUND: The Btk (Bruton's tyrosine kinase) gene has been shown to be mutated in the human immunodeficiency disease, XLA (X-linked agammaglobulinemia). Btk is a member of the Tec family of cytosolic protein tyrosine kinases with distinct functional domains PH, TH, SH3, SH2, and kinase. Mutations have been observed in each of the Btk subdomains in XLA. We have analyzed the Btk gene in six XLA patients from five unrelated families. MATERIALS AND METHODS: DNA was prepared from the patients peripheral blood. The Btk exons including the junctional sequences were analyzed by single-strand conformation polymorphism (SSCP) followed by direct nucleotide sequencing after PCR-amplification. For structural analysis, the missense mutations were introduced into three-dimensional models of the PH and kinase domains of Btk and the outcome was predicted based on the knowledge of the protein function. RESULTS: Five novel mutations and two novel polymorphisms, all of which resulted from single-base alterations, were identified. Three of the five mutations were in the PH domain and two were in the kinase domain of Btk. Three of these mutations were of the missense type, two of which altered the same codon in the PH domain; the third one was located in the kinase domain. The fourth mutation was a point deletion in the PH domain causing a frameshift followed by premature termination. The fifth mutation was a splice donor-site mutation within the kinase domain which could result in an exon skipping. In four of the five instances, mothers of the patients were shown to be obligate carriers. In one instance, a sibling sister was identified as a heterozygote establishing her as a carrier. CONCLUSIONS: Functional consequences of the mutations causing frameshifts and altered splicing can be inferred directly. Functional consequences of the missense mutations were interpreted by 3-dimensional structural modeling of Btk domains. It is proposed that the two PH domain mutations will interfere with membrane localization while the kinase domain mutation will interfere with the enzymatic function of Btk. This study provides further insight into the role of Btk in XLA.

Published
1997

33. CD40lbase: a database of CD40L gene mutations causing X-linked hyper-IgM syndrome

Author

Notarangelo, Ld, Peitsch, Mc, Abrahamsen, Tg, Bachelot, C., Bordigoni, P., Cant, Aj, Chapel, H., Clementi, M., Deacock, S., Saint Basile, G., Duse, M., Espanol, T., Etzioni, A., Fasth, A., Fischer, A., Giliani, S., Gomez, L., Hammarstorm, L., Jones, A., Kanariou, M., Kinnon, C., Klemola, T., Kroczek, Ra, Levy, J., Matamoros, N., Monafo, V., Paolucci, P., Reznick, I., Sanal, O., C. I. Edvard SMITH, Thompson, Ra, Tovo, P., Villa, A., Vihinen, M., Vossen, J., and Zegers, Bj

Subjects
Membrane Glycoproteins, X Chromosome, Databases, Factual, Genetic Linkage, X-linked hyper-IgM syndrome, CD40L, CD40 Ligand, hemic and immune systems, Ligands, Immunoglobulin M, Hypergammaglobulinemia, Mutation, Humans, CD40 Antigens
Abstract

X-linked hyper-IgM syndrome (X-HIM) is an immunodeficiency caused by mutations in the gene encoding the CD40 ligand (CD40L). A database (CD40Lbase) of CD40L mutations has now been established, and the resultant information, together with other mutations reported elsewhere in the literature, is presented here.

Published
1996

35. Genetic Tests Need the Human Variome Project

Author

Cotton, R.G.H., Vihinen, M., Dunnen, J.T. den, and Human Variome Project Nomenclature

Subjects
medicine.medical_specialty, Political science, Human Variome Project, medicine, Medical genetics, General Medicine, Data science, Genetics (clinical)
Published
2011
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37. The Tec family of cytoplasmic tyrosine kinases : mammalian Btk, Bmx, Itk, Tec, Txk and homologs in other species

Author

Smith, C I E, Islam, T C, Mattsson, Pekka T, Mohamed, A J, Nore, B F, Vihinen, M, Smith, C I E, Islam, T C, Mattsson, Pekka T, Mohamed, A J, Nore, B F, and Vihinen, M

Abstract

Cytoplasmic protein-tyrosine kinases (PTKs) are enzymes involved in transducing a vast number of signals in metazoans, The importance of the Tec family of kinases was immediately recognized when, in 1993, mutations in the gene encoding Bruton's tyrosine kinase (Btk) were reported to cause the human disease X-linked agammaglobulinemia (XLA).((1,2)) Since then, additional kinases belonging to this family have been isolated, and the availability of full genome sequences allows identification of all members in selected species enabling phylogenetic considerations. Tec kinases are endowed with Pleckstrin homology (PH) and Tec homology (TH) domains and are involved in diverse biological processes related to the control of survival and differentiation fate, Membrane translocation resulting in the activation of Tec kinases with subsequent Ca2+ release seems to be a general feature, However, nuclear translocation may also be of importance, the purpose of this essay is to characterize members of the Tec family and discuss their involvement in signaling. The three-dimensional structure, expression pattern and evolutionary aspects will also be considered.

Published
2001
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38. Somatic mutation databases as tools for molecular epidemiology and molecular pathology of cancer: Proposed guidelines for improving data collection, distribution, and integration

Author

Olivier, M., primary, Petitjean, A., additional, Teague, J., additional, Forbes, S., additional, Dunnick, J.K., additional, den Dunnen, J.T., additional, Langerød, A., additional, Wilkinson, J.M., additional, Vihinen, M., additional, Cotton, R.G.H., additional, and Hainaut, P., additional

Published
2008
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41. Recommendations for locus-specific databases and their curation

Author

Cotton, R.G.H., primary, Auerbach, A.D., additional, Beckmann, J.S., additional, Blumenfeld, O.O., additional, Brookes, A.J., additional, Brown, A.F., additional, Carrera, P., additional, Cox, D.W., additional, Gottlieb, B., additional, Greenblatt, M.S., additional, Hilbert, P., additional, Lehvaslaiho, H., additional, Liang, P., additional, Marsh, S., additional, Nebert, D.W., additional, Povey, S., additional, Rossetti, S., additional, Scriver, C.R., additional, Summar, M., additional, Tolan, D.R., additional, Verma, I.C., additional, Vihinen, M., additional, and den Dunnen, J.T., additional

Published
2007
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44. Thermal unfolding of small proteins with SH3 domain folding pattern

Author

Knapp, S, Mattson, P T, Christova, P, Berndt, Kurt D, Karshikoff, A, Vihinen, M, Smith, C I E, Ladenstein, R, Knapp, S, Mattson, P T, Christova, P, Berndt, Kurt D, Karshikoff, A, Vihinen, M, Smith, C I E, and Ladenstein, R

Abstract

The thermal unfolding of three SH3 domains of the Tec family of tyrosine kinases was studied by differential scanning calorimetry and CD spectroscopy, The unfolding transition of the three protein domains in the acidic pH region can be described as a reversible two-state process. For all three SH3 domains maximum stability was observed in the pH region 4.5 < pH < 7.0 where these domains unfold at temperatures of 353K (Btk), 342K (Itk), and 344K (Tec), At these temperatures an enthalpy change of 196 kJ/mol, 178 kJ/mol, and 169 kJ/mol was measured for Btk-, Itk-, and Tec-SH3 domains, respectively. The determined changes in heat capacity between the native and the denatured state are in an usual range expected for small proteins. Our analysis revealed that all SH3 domains studied are only weakly stabilized and have free energies of unfolding which do not exceed 12-16 kJ/mol but show quite high melting temperatures. Comparing unfolding free energies measured for eukaryotic SH3 domains with those of the topologically identical Sso7d protein from the hyperthermophile Sulfolobus solfataricus, the increased melting temperature of the thermostable protein is due to a broadening as well as a significant lifting of its stability curve. However, at their physiological temperatures, 310K for mesophilic SH3 domains and 350K for Sso7d, eukaryotic SH3 domains and Sso7d show very similar stabilities. (C) 1998 Wiley-Liss, Inc., Times Cited: 24 Article English Cited References Count: 71 Zk813

Published
1998
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49. Analysis ofBtkMutations in Patients with X-Linked Agammaglobulinaemia (XLA) and Determination of Carrier Status in Normal Female Relatives: a Nationwide Study ofBtkDeficiency in Greece

Author

Speletas, M., primary, Kanariou, M., additional, Kanakoudi-Tsakalidou, F., additional, Papadopoulou-Alataki, E., additional, Arvanitidis, K., additional, Pardali, E., additional, Constantopoulos, A., additional, Kartalis, G., additional, Vihinen, M., additional, Sideras, P., additional, and Ritis, K., additional

Published
2001
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