Review
What is the role of genetic testing in the investigation of patients with suspected platelet function disorders?
Martina E. Daly,
Vincenzo C. Leo,
Gillian C. Lowe,
Steve P. Watson,
Neil V. Morgan,
Corresponding Author
Martina E. Daly
Department of Cardiovascular Science, University of Sheffield Medical School, University of Sheffield, Sheffield, UK
Correspondence: Dr Martina E. Daly, Department of Cardiovascular Science, University of Sheffield Medical School, Beech Hill Road, Sheffield S10 2RX, UK.
E-mail: [email protected]
Search for more papers by this authorVincenzo C. Leo
Department of Cardiovascular Science, University of Sheffield Medical School, University of Sheffield, Sheffield, UK
Search for more papers by this authorGillian C. Lowe
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorSteve P. Watson
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorNeil V. Morgan
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorMartina E. Daly,
Vincenzo C. Leo,
Gillian C. Lowe,
Steve P. Watson,
Neil V. Morgan,
Corresponding Author
Martina E. Daly
Department of Cardiovascular Science, University of Sheffield Medical School, University of Sheffield, Sheffield, UK
Correspondence: Dr Martina E. Daly, Department of Cardiovascular Science, University of Sheffield Medical School, Beech Hill Road, Sheffield S10 2RX, UK.
E-mail: [email protected]
Search for more papers by this authorVincenzo C. Leo
Department of Cardiovascular Science, University of Sheffield Medical School, University of Sheffield, Sheffield, UK
Search for more papers by this authorGillian C. Lowe
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorSteve P. Watson
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorNeil V. Morgan
Centre for Cardiovascular Sciences, School of Clinical and Experimental Medicine, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK
Search for more papers by this authorSummary
Inherited platelet function disorders (PFDs), associated with normal or reduced platelet counts, account for a significant proportion of bleeding diatheses. Identification of the underlying genetic defects is difficult in the majority of cases due to the variable clinical expression of the bleeding symptoms and the redundancy of platelet receptor and signalling pathways, which add to the complexity of diagnosis. The gold standard method for phenotyping platelets, light transmission aggregometry (LTA), has allowed classification of functional defects in the majority of patients referred for investigation of suspected PFDs, while DNA-based analysis has primarily played a confirmatory role and been restricted mainly to analysis of candidate genes. Recent advances in next generation sequencing have facilitated the identification of gene defects in patients with PFDs where the underlying genetic defect was previously unknown, especially when combined with genome-wide linkage analysis. These studies have provided new insights into the mechanisms controlling platelet formation and function, and it is likely that, as understanding of the relationships between platelet phenotype and genotype increases and pipelines for the interpretation of genetic variations identified in patients are developed, DNA-based analysis will play an increasingly important role in the first-line investigation of patients with PFDs.
References
- Albers, C.A., Cvejic, A., Favier, R., Bouwmans, E.E., Alessi, M.C., Bertone, P., Jordan, G., Kettleborough, R.N., Kiddle, G., Kostadima, M., Read, R.J., Sipos, B., Sivapalaratnam, S., Smethurst, P.A., Stephens, J., Voss, K., Nurden, A., Rendon, A., Nurden, P. & Ouwehand, W.H. (2011) Exome sequencing identifies NBEAL2 as the causative gene for gray platelet syndrome. Nature Genetics, 43, 735–737.
- Albers, C.A., Paul, D.S., Schulze, H., Freson, K., Stephens, J.C., Smethurst, P.A., Jolley, J.D., Cvejic, A., Kostadima, M., Bertone, P., Breuning, M.H., Debili, N., Deloukas, P., Favier, R., Fiedler, J., Hobbs, C.M., Huang, N., Hurles, M.E., Kiddle, G., Krapels, I., Nurden, P., Ruivenkamp, C.A., Sambrook, J.G., Smith, K., Stemple, D.L., Strauss, G., Thys, C., van Geet, C., Newbury-Ecob, R., Ouwehand, W.H. & Ghevaert, C. (2012) Compound inheritance of a low-frequency regulatory SNP and a rare null mutation in exon-junction complex subunit RBM8A causes TAR syndrome. Nature Genetics, 44, S431–S432.
- Balduini, C.L. & Savoia, A. (2012) Genetics of familial forms of thrombocytopenia. Human Genetics, 131, 1821–1832.
- Balduini, C.L., Pecci, A. & Savoia, A. (2011) Recent advances in the understanding and management of MYH9-related inherited thrombocytopenias. British Journal of Haematology, 154, 161–174.
- Balduini, C.L., Savoia, A. & Seri, M. (2013) Inherited thrombocytopenias frequently diagnosed in adults. Journal of Thrombosis and Haemostasis, 11, 1006–1019.
- Bellucci, S. & Caen, J. (2002) Molecular basis of Glanzmann's thrombasthenia and current strategies in treatment. Blood Reviews, 16, 193–202.
- Bledzka, K., Smyth, S.S. & Plow, E.F. (2013) Integrin αΙΙbβ3: from discovery to efficacious therapeutic target. Circulation Research, 112, 1189–1200.
- Bolton-Maggs, P.H., Chalmers, E.A., Collins, P.W., Harrison, P., Kitchen, S., Liesner, R.J., Minford, A., Mumford, A.D., Parapia, L.A., Perry, D.J., Watson, S.P., Wilde, J.T., Williams, M.D. & Cramer, E.M. (2006) A review of inherited platelet disorders with guidelines for their management on behalf of the UKHCDO. British Journal of Haematology, 135, 603–633.
- Born, G.V. (1962) Aggregation of blood platelets by adenosine diphosphate and its reversal. Nature, 194, 927–929.
- Bunimov, N., Fuller, N. & Hayward, C.P. (2013) Genetic loci associated with platelet traits and platelet disorders. Seminars in Thrombosis and Hemostasis, 39, 291–305.
- Cattaneo, M., Cerletti, C., Harrison, P., Hayward, C.P., Kenny, D., Nugent, D., Nurden, P., Rao, A.K., Schmaier, A.H., Watson, S.P., Lussana, F., Pugliano, M.T. & Michelson, A.D. (2013) Recommendations for the standardization of light transmission aggregometry: a consensus of the working party from the Platelet Physiology Subcommittee of SSC/ISTH. Journal of Thrombosis and Haemostasis, 11, 1183–1189.
- Clemetson, J.M., Polgar, J., Magnenat, E., Wells, T.N. & Clemetson, K.J. (1999) The platelet collagen receptor glycoprotein VI is a member of the immunoglobulin superfamily closely related to FcalphaR and the natural killer receptors. Journal of Biological Chemistry, 274, 29019–29024.
- Daly, M.E., Dawood, B.B., Lester, W.A., Peake, I.R., Rodeghiero, F., Goodeve, A.C., Makris, M., Wilde, J.T., Mumford, A.D., Watson, S.P. & Mundell, S.J. (2009) Identification and characterization of a novel P2Y 12 variant in a patient diagnosed with type 1 von Willebrand disease in the European MCMDM-1VWD study. Blood, 113, 4110–4113.
- D'Andrea, G., Colaizzo, D., Vecchione, G., Grandone, E., Di Minno, G. & Margaglione, M. (2002) Glanzmann's thrombasthenia: identification of 19 new mutations in 30 patients. Thrombosis and Haemostasis, 87, 1034–1042.
- Dawood, B.B., Wilde, J. & Watson, S.P. (2007) Reference curves for aggregation and ATP secretion to aid diagnose of platelet-based bleeding disorders: effect of inhibition of ADP and thromboxane A(2) pathways. Platelets, 18, 329–345.
- Dawood, B.B., Lowe, G.C., Lordkipanidze, M., Bem, D., Daly, M.E., Makris, M., Mumford, A., Wilde, J.T. & Watson, S.P. (2012) Evaluation of participants with suspected heritable platelet function disorders including recommendation and validation of a streamlined agonist panel. Blood, 120, 5041–5049.
- Dumont, B., Lasne, D., Rothschild, C., Bouabdelli, M., Ollivier, V., Oudin, C., Ajzenberg, N., Grandchamp, B. & Jandrot-Perrus, M. (2009) Absence of collagen-induced platelet activation caused by compound heterozygous GPVI mutations. Blood, 114, 1900–1903.
- Enayat, S., Ravanbod, S., Rassoulzadegan, M., Jazebi, M., Tarighat, S., Ala, F., Emsley, J. & Othman, M. (2012) A novel D235Y mutation in the GP1BA gene enhances platelet interaction with von Willebrand factor in an Iranian family with platelet-type von Willebrand disease. Thrombosis and Haemostasis, 108, 946–954.
- Erlich, Y., Edvardson, S., Hodges, E., Zenvirt, S., Thekkat, P., Shaag, A., Dor, T., Hannon, G.J. & Elpeleg, O. (2011) Exome sequencing and disease-network analysis of a single family implicate a mutation in KIF1A in hereditary spastic paraparesis. Genome Research, 21, 658–664.
- Fiore, M., Firah, N., Pillois, X., Nurden, P., Heilig, R. & Nurden, A.T. (2012) Natural history of platelet antibody formation against αΙΙbβ3 in a French cohort of Glanzmann thrombasthenia patients. Haemophilia, 18, e201–e209.
- Gilissen, C., Hoischen, A., Brunner, H.G. & Veltman, J.A. (2012) Disease gene identification strategies for exome sequencing. European Journal of Human Genetics, 20, 490–497.
- Gresele, P., De Rocco, D., Bury, L., Fierro, T., Mezzasoma, A.M., Pecci, A. & Savoia, A. (2013) Apparent genotype-phenotype mismatch in a patient with MYH9-related disease: when the exception proves the rule. Thrombosis and Haemostasis, 110, 618–620.
- Gunay-Aygun, M., Zivony-Elboum, Y., Gumruk, F., Geiger, D., Cetin, M., Khayat, M., Kleta, R., Kfir, N., Anikster, Y., Chezar, J., Arcos-Burgos, M., Shalata, A., Stanescu, H., Manaster, J., Arat, M., Edwards, H., Freiberg, A.S., Hart, P.S., Riney, L.C., Patzel, K., Tanpaiboon, P., Markello, T., Huizing, M., Maric, I., Horne, M., Kehrel, B.E., Jurk, K., Hansen, N.F., Cherukuri, P.F., Jones, M., Cruz, P., Mullikin, J.C., Nurden, A., White, J.G., Gahl, W.A. & Falik-Zaccai, T. (2010) Gray platelet syndrome: natural history of a large patient cohort and locus assignment to chromosome 3p. Blood, 116, 4990–5001.
- Gunay-Aygun, M., Falik-Zaccai, T.C., Vilboux, T., Zivony-Elboum, Y., Gumruk, F., Cetin, M., Khayat, M., Boerkoel, C.F., Kfir, N., Huang, Y., Maynard, D., Dorward, H., Berger, K., Kleta, R., Anikster, Y., Arat, M., Freiberg, A.S., Kehrel, B.E., Jurk, K., Cruz, P., Mullikin, J.C., White, J.G., Huizing, M. & Gahl, W.A. (2011) NBEAL2 is mutated in gray platelet syndrome and is required for biogenesis of platelet alpha-granules. Nature Genetics, 43, 732–734.
- Harrison, P., Mackie, I., Mumford, A., Briggs, C., Liesner, R., Winter, M. & Machin, S. (2011) Guidelines for the laboratory investigation of heritable disorders of platelet function. British Journal of Haematology, 155, 30–44.
- Hayward, C.P., Pai, M., Liu, Y., Moffat, K.A., Seecharan, J., Webert, K.E., Cook, R.J. & Heddle, N.M. (2009) Diagnostic utility of light transmission platelet aggregometry: results from a prospective study of individuals referred for bleeding disorder assessments. Journal of Thrombosis and Haemostasis, 7, 676–684.
- Heath, K.E., Campos-Barros, A., Toren, A., Rozenfeld-Granot, G., Carlsson, L.E., Savige, J., Denison, J.C., Gregory, M.C., White, J.G., Barker, D.F., Greinacher, A., Epstein, C.J., Glucksman, M.J. & Martignetti, J.A. (2001) Nonmuscle myosin heavy chain IIA mutations define a spectrum of autosomal dominant macrothrombocytopenias: May-Hegglin anomaly and Fechtner, Sebastian, Epstein, and Alport-like syndromes. American Journal of Human Genetics, 69, 1033–1045.
- Hermans, C., Wittevrongel, C., Thys, C., Smethurst, P.A., Van Geet, C. & Freson, K. (2009) A compound heterozygous mutation in glycoprotein VI in a patient with a bleeding disorder. Journal of Thrombosis and Haemostasis, 7, 1356–1363.
- Hollopeter, G., Jantzen, H.M., Vincent, D., Li, G., England, L., Ramakrishnan, V., Yang, R.B., Nurden, P., Nurden, A., Julius, D. & Conley, P.B. (2001) Identification of the platelet ADP receptor targeted by antithrombotic drugs. Nature, 409, 202–207.
- Jones, M.L., Murden, S.L., Bem, D., Mundell, S.J., Gissen, P., Daly, M.E., Watson, S.P. & Mumford, A.D. (2012) Rapid genetic diagnosis of heritable platelet function disorders with next-generation sequencing: proof-of-principle with Hermansky-Pudlak syndrome. Journal of Thrombosis and Haemostasis, 10, 306–309.
- Kahr, W.H., Hinckley, J., Li, L., Schwertz, H., Christensen, H., Rowley, J.W., Pluthero, F.G., Urban, D., Fabbro, S., Nixon, B., Gadzinski, R., Storck, M., Wang, K., Ryu, G.Y., Jobe, S.M., Schutte, B.C., Moseley, J., Loughran, N.B., Parkinson, J., Weyrich, A.S. & Di Paola, J. (2011) Mutations in NBEAL2, encoding a BEACH protein, cause gray platelet syndrome. Nature Genetics, 43, 738–740.
- Kannan, M., Ahmad, F., Yadav, B.K., Kumar, R., Choudhry, V.P. & Saxena, R. (2009) Molecular defects in ITGA2B and ITGB3 genes in patients with Glanzmann thrombasthenia. Journal of Thrombosis and Haemostasis, 7, 1878–1885.
- Klopocki, E., Schulze, H., Strauss, G., Ott, C.E., Hall, J., Trotier, F., Fleischhauer, S., Greenhalgh, L., Newbury-Ecob, R.A., Neumann, L.M., Habenicht, R., Konig, R., Seemanova, E., Megarbane, A., Ropers, H.H., Ullmann, R., Horn, D. & Mundlos, S. (2007) Complex inheritance pattern resembling autosomal recessive inheritance involving a microdeletion in thrombocytopenia-absent radius syndrome. American Journal of Human Genetics, 80, 232–240.
- Kunishima, S., Matsushita, T., Kojima, T., Amemiya, N., Choi, Y.M., Hosaka, N., Inoue, M., Jung, Y., Mamiya, S., Matsumoto, K., Miyajima, Y., Zhang, G., Ruan, C., Saito, K., Song, K.S., Yoon, H.J., Kamiya, T. & Saito, H. (2001) Identification of six novel MYH9 mutations and genotype-phenotype relationships in autosomal dominant macrothrombocytopenia with leukocyte inclusions. Journal of Human Genetics, 46, 722–729.
- Kunishima, S., Okuno, Y., Yoshida, K., Shiraishi, Y., Sanada, M., Muramatsu, H., Chiba, K., Tanaka, H., Miyazaki, K., Sakai, M., Ohtake, M., Kobayashi, R., Iguchi, A., Niimi, G., Otsu, M., Takahashi, Y., Miyano, S., Saito, H., Kojima, S. & Ogawa, S. (2013) ACTN1 mutations cause congenital macrothrombocytopenia. American Journal of Human Genetics, 92, 431–438.
- Lambert, M.P. & Poncz, M. (2013) They're not your daddy's inherited platelet disorders anymore. Journal of Thrombosis and Haemostasis, 11, 2037–2038.
- Lopez, J.A., Andrews, R.K., Afshar-Kharghan, V. & Berndt, M.C. (1998) Bernard-Soulier syndrome. Blood, 91, 4397–4418.
- Lowe, G.C., Lordkipanidze, M. & Watson, S.P. (2013) Utility of the ISTH bleeding assessment tool in predicting platelet defects in participants with suspected inherited platelet function disorders. Journal of Thrombosis and Haemostasis, 11, 1663–1668.
- Martignetti, J.A., Heath, K.E., Harris, J., Bizzaro, N., Savoia, A., Balduini, C.L. & Desnick, R.J. (2000) The gene for May-Hegglin anomaly localizes to a <1-Mb region on chromosome 22q12.3-13.1. American Journal of Human Genetics, 66, 1449–1454.
- Matus, V., Valenzuela, G., Saez, C.G., Hidalgo, P., Lagos, M., Aranda, E., Panes, O., Pereira, J., Pillois, X., Nurden, A.T. & Mezzano, D. (2013) An adenine insertion in exon 6 of human GP6 generates a truncated protein associated with a bleeding disorder in four Chilean families. Journal of Thrombosis and Haemostasis, 11, 1751–1759.
- Miller, J.L. (1984) Platelet function testing: an improved approach utilizing lumi-aggregation and an interactive computer system. American Journal of Clinical Pathology, 81, 471–476.
- Ng, S.B., Turner, E.H., Robertson, P.D., Flygare, S.D., Bigham, A.W., Lee, C., Shaffer, T., Wong, M., Bhattacharjee, A., Eichler, E.E., Bamshad, M., Nickerson, D.A. & Shendure, J. (2009) Targeted capture and massively parallel sequencing of 12 human exomes. Nature, 461, 272–276.
- Nisar, S., Daly, M.E., Federici, A.B., Artoni, A., Mumford, A.D., Watson, S.P. & Mundell, S.J. (2011) An intact PDZ motif is essential for correct P2Y12 purinoceptor traffic in human platelets. Blood, 118, 5641–5651.
- Noris, P., Perrotta, S., Bottega, R., Pecci, A., Melazzini, F., Civaschi, E., Russo, S., Magrin, S., Loffredo, G., Di Salvo, V., Russo, G., Casale, M., De Rocco, D., Grignani, C., Cattaneo, M., Baronci, C., Dragani, A., Albano, V., Jankovic, M., Scianguetta, S., Savoia, A. & Balduini, C.L. (2012) Clinical and laboratory features of 103 patients from 42 Italian families with inherited thrombocytopenia derived from the monoallelic Ala156Val mutation of GPIbα (Bolzano mutation). Haematologica, 97, 82–88.
- Nurden, A.T., Fiore, M., Nurden, P. & Pillois, X. (2011) Glanzmann thrombasthenia: a review of ITGA2B and ITGB3 defects with emphasis on variants, phenotypic variability, and mouse models. Blood, 118, 5996–6005.
- Nurden, A.T., Freson, K. & Seligsohn, U. (2012) Inherited platelet disorders. Haemophilia, 18(Suppl. 4), 154–160.
- O'Brien, J.R. (1961) The adhesiveness of native platelets and its prevention. Journal of Clinical Pathology, 14, 140–149.
- Pecci, A., Panza, E., Pujol-Moix, N., Klersy, C., Di Bari, F., Bozzi, V., Gresele, P., Lethagen, S., Fabris, F., Dufour, C., Granata, A., Doubek, M., Pecoraro, C., Koivisto, P.A., Heller, P.G., Iolascon, A., Alvisi, P., Schwabe, D., De Candia, E., Rocca, B., Russo, U., Ramenghi, U., Noris, P., Seri, M., Balduini, C.L. & Savoia, A. (2008) Position of nonmuscle myosin heavy chain IIA (NMMHC-IIA) mutations predicts the natural history of MYH9-related disease. Human Mutation, 29, 409–417.
- Peretz, H., Rosenberg, N., Landau, M., Usher, S., Nelson, E.J., Mor-Cohen, R., French, D.L., Mitchell, B.W., Nair, S.C., Chandy, M., Coller, B.S., Srivastava, A. & Seligsohn, U. (2006) Molecular diversity of Glanzmann thrombasthenia in southern India: new insights into mRNA splicing and structure-function correlations of alphaIIbbeta3 integrin (ITGA2B, ITGB3). Human Mutation, 27, 359–369.
- Quiroga, T., Goycoolea, M., Panes, O., Aranda, E., Martinez, C., Belmont, S., Munoz, B., Zuniga, P., Pereira, J. & Mezzano, D. (2007) High prevalence of bleeders of unknown cause among patients with inherited mucocutaneous bleeding. A prospective study of 280 patients and 299 controls. Haematologica, 92, 357–365.
- Quiroga, T., Goycoolea, M., Matus, V., Zuniga, P., Martinez, C., Garrido, M., Aranda, E., Leighton, F., Panes, O., Pereira, J. & Mezzano, D. (2009) Diagnosis of mild platelet function disorders. Reliability and usefulness of light transmission platelet aggregation and serotonin secretion assays. British Journal of Haematology, 147, 729–736.
- Rees, D.C., Iolascon, A., Carella, M., O'Marcaigh, A.S., Kendra, J.R., Jowitt, S.N., Wales, J.K., Vora, A., Makris, M., Manning, N., Nicolaou, A., Fisher, J., Mann, A., Machin, S.J., Clayton, P.T., Gasparini, P. & Stewart, G.W. (2005) Stomatocytic haemolysis and macrothrombocytopenia (Mediterranean stomatocytosis/macrothrombocytopenia) is the haematological presentation of phytosterolaemia. British Journal of Haematology, 130, 297–309.
- Rosenberg, N., Hauschner, H., Peretz, H., Mor-Cohen, R., Landau, M., Shenkman, B., Kenet, G., Coller, B.S., Awidi, A.A. & Seligsohn, U. (2005) A 13-bp deletion in alpha(IIb) gene is a founder mutation that predominates in Palestinian-Arab patients with Glanzmann thrombasthenia. Journal of Thrombosis and Haemostasis, 3, 2764–2772.
- Savoia, A., Pastore, A., De Rocco, D., Civaschi, E., Di Stazio, M., Bottega, R., Melazzini, F., Bozzi, V., Pecci, A., Magrin, S., Balduini, C.L. & Noris, P. (2011) Clinical and genetic aspects of Bernard-Soulier syndrome: searching for genotype/phenotype correlations. Haematologica, 96, 417–423.
- Schlegel, N., Gayet, O., Morel-Kopp, M.C., Wyler, B., Hurtaud-Roux, M.F., Kaplan, C. & Mc Gregor, J. (1995) The molecular genetic basis of Glanzmann's thrombasthenia in a gypsy population in France: identification of a new mutation on the alpha IIb gene. Blood, 86, 977–982.
- Seri, M., Cusano, R., Gangarossa, S., Caridi, G., Bordo, D., Lo Nigro, C., Ghiggeri, G.M., Ravazzolo, R., Savino, M., Del Vecchio, M., d'Apolito, M., Iolascon, A., Zelante, L.L., Savoia, A., Balduini, C.L., Noris, P., Magrini, U., Belletti, S., Heath, K.E., Babcock, M., Glucksman, M.J., Aliprandis, E., Bizzaro, N., Desnick, R.J. & Martignetti, J.A. (2000) Mutations in MYH9 result in the May-Hegglin anomaly, and Fechtner and Sebastian syndromes. The May-Heggllin/Fechtner Syndrome Consortium. Nature Genetics, 26, 103–105.
- Stevenson, W.S., Morel-Kopp, M.C., Chen, Q., Liang, H.P., Bromhead, C.J., Wright, S., Turakulov, R., Ng, A.P., Roberts, A.W., Bahlo, M. & Ward, C.M. (2013) GFI1B mutation causes a bleeding disorder with abnormal platelet function. Journal of Thrombosis and Haemostasis, 11, 2039–2047.
- Stockley, J., Morgan, N.V., Bem, D., Lowe, G.C., Lordkipanidze, M., Dawood, B., Simpson, M.A., Macfarlane, K., Horner, K., Leo, V.C., Talks, K., Motwani, J., Wilde, J.T., Collins, P.W., Makris, M., Watson, S.P. & Daly, M.E. (2013) Enrichment of FLI1 and RUNX1 mutations in families with excessive bleeding and platelet dense granule secretion defects. Blood, 122, 4090–4093.
- Watson, S., Daly, M., Dawood, B., Gissen, P., Makris, M., Mundell, S., Wilde, J. & Mumford, A. (2010) Phenotypic approaches to gene mapping in platelet function disorders – identification of new variant of P2Y12, TxA2 and GPVI receptors. Hamostaseologie, 30, 29–38.
- Watson, S.P., Lowe, G.C., Lordkipanidze, M. & Morgan, N.V. (2013) Genotyping and phenotyping of platelet function disorders. Journal of Thrombosis and Haemostasis, 11, 351–363.
Citing Literature
